Rhinopithecus roxellana (golden snub-nosed monkey): 104655298 Help Entry 104655298         CDS       T03989                                  Gene name LAMA2 Definition (RefSeq) laminin subunit alpha-2 isoform X1   KO K05637   laminin, alpha 1/2 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer rro05410   Hypertrophic cardiomyopathy rro05412   Arrhythmogenic right ventricular cardiomyopathy rro05414   Dilated cardiomyopathy rro05416   Viral myocarditis Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104655298 (LAMA2)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104655298 (LAMA2)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104655298 (LAMA2)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104655298 (LAMA2)   09162 Cancer: specific types    05222 Small cell lung cancer     104655298 (LAMA2)   09166 Cardiovascular disease    05410 Hypertrophic cardiomyopathy     104655298 (LAMA2)    05412 Arrhythmogenic right ventricular cardiomyopathy     104655298 (LAMA2)    05414 Dilated cardiomyopathy     104655298 (LAMA2)    05416 Viral myocarditis     104655298 (LAMA2)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104655298 (LAMA2)   09174 Infectious disease: parasitic    05146 Amoebiasis     104655298 (LAMA2)    05145 Toxoplasmosis     104655298 (LAMA2) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_G_1 Laminin_EGF Laminin_G_2 Laminin_I Laminin_N Laminin_B Laminin_II Laminin_G_3 LXG DUF948 HSBP1 Motif Other DBs NCBI-GeneID:  104655298 NCBI-ProteinID:  XP_030784658 LinkDB All DBs Position 4 AA seq 3224 aa AA seqDB search MPGAAGVLLLLLLSGGLRGGQAQLPQQQRRPQAHQQRGLFPAVLNLASNALITTNATCGE KGPEMYCKLVEHVPGQPVRNPQCRICNQNSSNPNQRHPITNAIDGKNTWWQSPSIKNGIE YHYVTITLDLQQVFQIAYVIVKAANSPRPGNWILERSLDDVEYKPWQYHAVTDTECLTLY NIYPRTGPPSYAKDDEVICTSFYSKIHPLENGEIHISLINGRPSADDPSPELLEFTSARY IRLRFQRIRTLNADLMMFAHKDPREIDPIVTRRYYYSVKDISVGGMCICYGHARACPLDP ATNKSRCECEHNTCGDSCDQCCPGFHQKPWRAGTFLTKTECEACNCHGKAEECYYDENVA RRSLSLNIHGKYIGGGVCINCTQNTAGINCETCIDGFFRPKGVSPNYPRPCQPCHCNPTG SLNEVCVKDEKHARRGLAPGSCHCKTGFGGVSCDRCARGYTGYPDCKACNCSGLGSKNED PCFGPCNCKENVEGGDCSRCKSGFFNLQEDNWKGCDECFCSGVSNRCQSSYWTYGKIQDM SGWYLTDLSGRIRVAPQQDDSDSPQQISISNAEARQALPHSYYWSAPAPYLGNKLPAVGG QLTFTISYDLEEEEEDTEHVLQFMIILEGNDLRISTAQDEVYLHPSEEHINVLVLKEESF TIHGTHFPVSRKEFMTVLANLKRVLLQITYSFGMDAIFRLSSVNLESAVSYPTDGSVAAA VEVCQCPPGYTGSSCEKRHQANASSNLIPANNTKSCWPRHRRVNGTIFGGICEPCQCFGH AESCDDVTGECLNCKDHTGGPYCDKCLPGFYGDPTKGTSEDCQPCACPLNIPSNNFSPTC HLDRSLGLICDGCPVGYTGPRCERCAEGYFGQPSVPGGSCQPCQCNDNLDFSIPGSCDSL SGSCLICKPGTTGRYCELCADGYFGDAVDARNCQPCHCNANGSFSEICHRQTGQCECRAN VQGQRCDKCKPNMWWDPEKRFCVLCDCDPVGSVSPQCDITGRCVCKTDFVGKQCNLGRQV HQQEEQPQRAQRVLGSPQRWAIGSSSGCPRGAYRAPAPPGTFGLQSARGCVPCNCNSFGS KSFDCEESGQCWCQPGVTGKKCDRCAHGYFNFQEGGCTACECSHLGNNCDPKTGRCICPP NTIGEKCSKCAPNTWGHSITTGCKTCNCSTVGSLDFQCNVNTGQCNCHPKFSGAKCTECS RGHWNYPRCNLCDCFLPGTDAATCDSETKKCSCSDQTGQCTCKVNVEGIHCDRCQPGKFG LDAKNPLGCSSCYCFGTTTQCSEAKGLIRTWVTLKAEQTILPLVDEALQHTTTKGIAFQH PEIVAHMDLMREDLRWEPFYWKLPEQFEGKKLMAYGGKLKYAIYFEAREETGFSTYNPQV IIRGGTPTHARIIVRHMAAPLIGQLTRHEIEMTEKEWKYYGDDPRVHRTVTREDFLDILY DIHYILIKATYGNFMRQSRISEISMEVAEQGRRTAVTPPAHLIEKCDCPLGYSGLSCEAC LPGFYRLRSQPGGRTPGPTLGTCVPCQCNGHSSLCDPETSICQNCQHHTAGDFCERCALG YYGIVKGLPNDCQQCACPLISSSNNFSPSCVTEGLDDYRCTACPRGYEGQYCERCAPGYT GSPSSPGGSCQECECDPYGSLPVPCDPVTGICTCRPGATGRKCDGCKHWHAREGWECVFC GDECTGLLLGDLARLEQMVMSINLTGPLPAPYKMLYGLENMIQELKHLLSPQQAPERLIQ LAEGDLNTLVTEMNELLTRATKVTADGEQTGQDAERTNTRAKSLGEFIKELARDAEAVNE KAIKLNETLGTRDEAFERNLERLQKEIDQMIKELRRRNLETQKEIAEDELVAAEGLLKKV KKLFGESRGKNEEMEKDLREKLADYKNKVDDAWDLLREATNKIREANRLFAVNQKNMTAL EKKKEAVESGKRQIENTLKEGNDILDEANRLADEINSIIDYVEDIQTKLPPMSEELNNKI DDLSQEIKDRKLAEKVSQAESHAAQLNDSSAVLDGILDEAKNISFNATAAFKAYSNIKDY IDEAEKVAKEAKDLAHEATKLATGPRGLLKEDAKGSLQKSFRILNEAKKLANDVKENEDH LNGLKTRIENADARNGDLLRALNDTLGKLSAIPNDTAAKLQAVKDKARQANDTAKDVLAQ IKQLHQNLDGLKKNYDKLADSVAKTNAVVKDPSKNKIIADADATVKNLEQEADRLIDKLK PIKELEDNLKKNISEIKELINQARKQANSIKVSVSSGGDCIRTYKPEIKKGSYNNIVVNV KTAVADNLLFYLGSAKFIDFLAIEMRRGKVSFLWDVGSGVGRVEYPDLTIDDSYWYRIMA SRTGRNGTISVRALDGPKASIVPSTYHSTSPPGYTILDVDANAMLFVGGLTGKLKKADAV RVITFTGCMGETYFDNKPIGLWNFREKEGDCKGCTVSPQVEDSEGTIQFDGEGYALVSRP IRWYPNISTVMFKFRTFSSSALLMYLATRDLRDFMSVELTDGHIKVSYDLGSGMASVVGN QNHNDGKWKSFTLSRIQKHANISIVDIDTNQEENIATSSSGNNFGLDLKADDKIYFGGLP TLRNLRPEVNLKKYSGCLKDIEISRTPYNILSSPDYVGVTKGCSLENVYTVSFPKPGFVE LSPVPVDVGTEINLSFSTKNESGIILLGSGGTPAPPRRKRRQTGQAYYAILLNRGRLEVH LSTGARTMRKIVVRPEPNLFHDGREHSVHVERTRGIFTVQVDENRRYMQNLTVEQPLEVK KLFVGGAPPEFQPSPLRNIPPFEGCVWNLVINSVPMDFARPVSFKNADIGRCVHQKLRED EDGAAPAEIVIQPEPVPTPAFPTPTPVLTHGPCAAESEPALLIGSKQFGLSRNSHIAIAF DDTKVKNRLTIELEVRTEAESGLLFYMARINHADFATVQLRNGLPYFSYDLGSGDTNTMI PTKINDGQWHKIKIMRSKQEGILYVDGASNRTISPRKADILDVVGMLYVGGLPINYTTRR IGPVTYSIDGCIRNLHMEEAPADLEEPTSSFHVGTCFANAQRGTYFDGTGFAKAVGGFKV GLDLLVEFEFRTTRTTGVLLGISSQKMDGMGIEMIDEKLMFHVDNGAGRFTAIYDAGVPG HLCDGQWHKVTANKIKHRIELTVDGNQVEAQSLNPASTSADTNDPVFVGGFPDDLKQFGL TTSIPFRGCIRSLKLTKGTGKPLEVNFAKALELRGVQPVSCPAN NT seq 9675 nt NT seq  +upstreamnt  +downstreamnt atgccgggagccgccggggtcctcctcctcctgctgctctccgggggcctcaggggcggt caggcgcagctgccgcagcagcagcggcggccacaggcacatcagcaaagaggtttattc cctgctgtcctgaatcttgcttctaatgctcttatcacaaccaatgcaacatgtggagaa aagggacctgaaatgtactgcaaattggtggaacatgtccctgggcagcctgtgaggaac ccccagtgtcgaatctgcaatcaaaacagcagcaatccaaaccagagacacccgattaca aatgctattgatggaaagaacacttggtggcagagtcccagtattaagaatggaatcgaa taccattacgtgacaattacactggatttacagcaggtgttccagattgcatatgtgatt gtgaaggcagctaactcccctcggcctggaaactggattttggaacgctctcttgatgat gttgaatacaagccctggcagtatcatgctgtgacagatacggagtgcctaaccctttac aatatttatccccgcactgggccaccgtcatatgccaaagacgatgaggtcatctgcact tcattttactccaagatacaccccttagaaaatggagagattcacatctctttaatcaat ggaagaccaagtgccgatgatccttctccagaactgctggagtttacctctgctcgctat attcgcctgagatttcagaggatccgcacactgaatgctgacttgatgatgtttgctcac aaagacccaagagaaattgaccccattgtcaccagaagatattactactcggtcaaggat atttcagttggagggatgtgcatctgctatggtcatgccagggcttgtccacttgatcca gcaacaaataaatctcgctgtgagtgtgagcataacacatgtggcgatagctgtgatcag tgctgtccaggattccatcagaaaccctggagagctggaacttttctaactaaaactgaa tgtgaagcatgcaattgtcatggaaaagctgaagaatgctattatgatgaaaatgttgcc agaagaagtctgagtttgaatatacatggaaagtacattggagggggtgtttgcattaat tgtacccaaaatactgctggtataaactgtgagacatgtattgatggcttcttcagaccc aaaggggtatcgccaaattatccaaggccatgccagccatgtcattgcaatccaactggt tccttaaatgaagtctgtgtcaaggatgagaaacatgctcgacgaggtttggcacctgga tcctgtcattgcaaaactggttttggaggtgtgagctgtgatcggtgtgccaggggctac actggctacccagactgcaaagcctgtaactgcagtggcttagggagcaaaaatgaggac ccttgttttggcccctgtaactgcaaggagaatgttgaaggaggagactgtagtcgttgc aaatccggcttcttcaatttgcaagaggataattggaaaggctgcgatgagtgtttctgt tcaggtgtttcaaacagatgtcagagttcctactggacctatggcaaaatacaagatatg agtggctggtatctgactgacctttctggccgcattcgagtggctccccagcaggacgac tcggactcacctcaacagatcagcatcagtaacgcggaggcccggcaagccctgccgcac agctactactggagcgcaccagctccctatctgggaaacaaactcccagcagtaggagga cagttgacatttaccatatcatatgacctggaagaagaggaagaagatacagaacatgtt ctccagtttatgattatcttagagggtaatgacttgagaatcagcacagcccaagatgag gtgtacctgcacccatctgaagaacatattaatgtattagtacttaaagaagaatcattt accatacatggcacacattttccagtcagtagaaaggaatttatgacagtacttgcgaat ttgaagagagtcctcctacaaatcacatacagctttgggatggatgccatcttcaggttg agctctgttaaccttgaatctgctgtctcctatcctactgatggaagcgttgcagcagct gtagaagtatgtcagtgcccaccagggtatactggctcctcttgtgaaaagcgacaccaa gctaatgcttcctctaatctcatacctgccaataacactaagtcttgttggcctaggcac aggcgagttaacggcaccatttttggtggcatctgtgagccatgtcagtgctttggtcat gcagagtcctgtgatgacgtcactggagaatgcctgaactgtaaggatcacacaggcggc ccatattgtgataaatgtcttcctggtttctatggcgatcctactaaaggaacctctgaa gactgtcaaccctgtgcctgtccactcaatatcccatccaataactttagcccaacgtgc catttagaccggagtcttggattgatctgtgatggatgccctgtcgggtacacaggacca cgctgtgagaggtgtgcagaaggctattttggacaaccctctgtacctggaggatcatgt cagccatgccaatgcaatgacaaccttgacttctccatccctggcagctgtgacagcttg tctggctcctgtctgatatgtaaaccaggtacaacaggccggtactgtgagctctgtgct gatggatattttggagacgcagttgatgcaaggaactgtcagccctgtcactgtaatgcc aatggctctttctctgagatttgccaccgtcaaactggacagtgtgagtgcagagccaac gtgcagggccagaggtgtgacaaatgcaagcccaatatgtggtgggatccagagaagcga ttctgtgtgctatgtgactgcgatcccgttggctctgtgtcaccgcaatgtgatattaca ggaagatgtgtctgtaaaacagacttcgtagggaaacagtgcaacctcggcaggcaggtg caccaacaggaggagcagccgcagagagcgcaacgggtgctgggttctcctcagaggtgg gctatcggcagctccagcgggtgccctcggggagcctatcgggccccagctccgcctggg acctttggtctgcaatcagcaaggggctgtgttccctgcaactgcaattcttttgggtct aagtcattcgactgtgaagagagtggacaatgttggtgccaacccggagtcacagggaag aaatgtgaccgctgtgcccatggctatttcaacttccaagaaggaggctgcacagcttgt gaatgttctcatctgggtaataattgtgacccaaagactgggcgatgcatttgccctccc aataccattggagagaaatgttctaaatgtgcacccaatacctggggccacagcattacc actggttgtaagacttgtaactgcagcacagtgggatccttggatttccaatgcaatgta aatacaggccaatgcaactgtcatccaaaattctctggtgcaaaatgtacagagtgcagt cgaggtcactggaactaccctcgctgcaatctctgtgactgcttcctccctgggacggat gccgcaacctgtgattcagagactaaaaaatgctcctgtagtgatcaaactgggcagtgc acttgtaaggtgaatgtggaaggcatccactgtgacagatgccagcctggcaaattcgga ctcgatgccaagaatccacttggctgcagcagctgctattgcttcggcactactactcag tgctctgaagcaaaaggactgatccggacgtgggtaactctgaaggctgagcagaccatt ctacccctggtagatgaggctctgcagcacacaaccaccaagggcattgcttttcaacat ccagagattgttgcccacatggacctgatgagagaagatctccgttgggaacctttttat tggaaacttcctgaacaatttgaaggaaagaagttgatggcctatgggggcaaactcaag tatgcaatctatttcgaggctcgggaagaaacaggtttttctacatataatcctcaagtg atcattcgaggtgggacacctactcatgctagaattatcgtcaggcatatggctgctcct ttgattggccaattgacaaggcatgaaattgaaatgacagagaaagaatggaaatattat ggggacgatcctcgagtccatagaactgtgacccgagaagacttcttggatatactgtat gatattcattacattcttatcaaggctacttatggaaatttcatgcgacaaagcaggatt tctgaaatctcaatggaggtagctgaacaaggacgtagaacagcagtgactcctccagct cacttgattgaaaaatgtgattgccccctgggctattctggcctgtcctgtgaggcatgc ttgccaggattttatcgactgcgttctcaaccaggtggccgcacccctggaccaaccttg ggcacctgtgttccatgtcaatgtaatggacacagcagcctgtgtgaccctgaaacatcg atatgccagaattgtcaacatcacactgctggtgacttctgtgaacgatgtgctcttgga tactatggaattgtcaagggattgccaaatgactgtcagcaatgtgcctgccctctgatt tcttccagtaacaatttcagcccctcttgtgtcacagaaggccttgatgactaccgctgc acggcttgtccacggggatacgaaggccagtactgtgaaaggtgtgcccctggctatact ggcagtccaagcagccctggaggctcctgccaagaatgtgagtgtgatccctatggctca ctgcctgtgccctgtgaccctgtcacaggaatctgcacgtgccgacccggagccacggga aggaagtgtgacggctgcaagcactggcatgcacgcgagggctgggagtgtgttttttgt ggagatgagtgcactggccttcttctcggggacttggctcgcctggagcagatggtcatg agcatcaacctcactggtccgctgcctgcgccatataaaatgctgtatggtcttgaaaat atgattcaggagctaaagcacctgctctcacctcagcaggccccagagaggcttattcag ctggcagagggcgatctgaatacactcgtgaccgaaatgaacgagctgctgaccagggct accaaagtgacagcagatggcgagcagaccggacaggatgctgagaggaccaacacaaga gcaaagtccctgggagaattcattaaggagcttgcccgggatgcagaagctgtaaatgaa aaagctataaaactaaatgaaactctaggaactcgagacgaggcctttgagagaaatttg gaaaggcttcagaaagagattgaccagatgattaaagaactgaggaggagaaatctagag acacaaaaggaaattgctgaagacgagttggtagctgcagaaggccttctgaaaaaggtg aaaaagctgtttggagagtcccggggaaaaaatgaagaaatggagaaggatctccgagaa aaactggcagactacaaaaacaaagttgatgatgcttgggacctgttgagagaagccacg aataaaatcagagaagctaatcgcttatttgcagtaaaccagaaaaacatgactgcgttg gagaaaaagaaggaggctgttgaaagtgggaaacgacaaattgagaacactttaaaagag ggcaatgacatactcgatgaagccaaccgtcttgcagatgaaatcaactccatcatagat tatgttgaagacatccaaactaaattgccacctatgtctgaggagcttaacaacaaaata gatgacctctcccaagaaataaaggacaggaagcttgccgagaaggtgtcccaggctgag agccacgcagctcagttgaatgactcatctgctgtccttgatggaatccttgatgaggct aaaaacatctccttcaatgccactgcagccttcaaagcttacagcaatattaaggactat attgatgaagctgagaaagttgccaaagaagccaaagatcttgcacatgaagctacgaaa ctggcaacaggtcctcggggtttgttaaaggaagatgccaaaggctctcttcagaaaagc ttcaggattcttaacgaagccaagaagttagcaaatgatgtaaaagaaaatgaagaccat ctaaatggcttaaaaaccaggatagaaaatgctgatgctagaaatggggatctcttgaga gctttgaatgacactttgggaaagttatcagctattccaaatgacacagctgctaaactg caagctgttaaggacaaagccagacaagccaacgacacagctaaagatgtactggcacag attaaacagctccatcagaacctcgatggcctgaagaagaattacgataaactagcagac agcgtcgccaaaacgaatgctgtggttaaagatccctccaagaacaaaatcattgccgac gcagatgccactgtcaaaaatctagaacaggaagctgaccggctaatagataaactcaaa cccatcaaggaacttgaggataatctaaagaaaaacatctctgagataaaggaattgata aaccaagctcggaaacaagccaattctatcaaagtatctgtgtcttcgggaggtgactgc attcgaacatacaagccagaaatcaagaaaggaagttacaataatattgttgtcaatgta aagacagctgttgctgacaacctcctcttttatcttggaagtgccaaatttattgacttt ctggctatagaaatgcgtagaggcaaagtcagcttcctctgggatgttggatctggagtt ggacgtgtagagtacccagatttgactattgatgactcatattggtaccgtatcatggca tcaagaactgggagaaatggaactatttctgtgagagccctggatggacccaaagccagc attgtacccagcacataccattcgacgtctcctccagggtacactattctagatgtggat gcaaatgcaatgctgtttgttggtggcctgactgggaaattaaagaaggctgatgctgta cgtgtgattacattcaccggctgcatgggagaaacatactttgacaacaaacctataggt ttgtggaatttccgagaaaaagaaggtgactgcaaaggatgcactgtgagtcctcaggtg gaagatagtgaggggactattcagtttgatggagaaggttatgcattggtcagccgcccc attcgctggtaccccaacatctccactgtcatgttcaagttcagaacattttcttcgagt gctctcctgatgtatcttgccacacgagacctgagagatttcatgagtgtggagctcact gatgggcacataaaagtcagttatgatctgggttcgggaatggcttccgttgtcggcaat caaaaccataatgatgggaaatggaaatcattcaccctgtcaagaattcaaaagcacgcc aacatatcgattgtagatatagatactaatcaggaggagaacatagcaacttcatcttct ggaaacaactttggtcttgacttgaaagcagatgacaaaatatattttggtggcctgcca acgctgagaaacttgaggccagaagtaaatctgaagaaatattccggctgcctcaaagat attgaaatttcaagaacgccgtacaatatcctcagtagtcccgattatgttggtgttacc aaaggatgttccctggagaatgtttacacagttagctttcctaagcctggttttgtggag ctctcccctgtgccagttgatgtaggaacagaaatcaacctgtccttcagcaccaagaat gagtctggcatcattcttttgggaagtggagggacaccagcaccacctaggagaaaacga aggcagactggacaggcctattatgcaatactcctcaacaggggccgtctggaagtacat ctctccacaggggcacgaacaatgcggaaaattgtcgtcagaccagagccgaatctgttt catgatggaagagaacattccgttcatgtagagcgaactagaggcatctttacagttcaa gtcgatgaaaacagaagatatatgcaaaacctgacagttgaacagcctcttgaagttaaa aagcttttcgttgggggtgctccgcctgaatttcaaccttccccactcagaaatattcct ccttttgaaggctgtgtgtggaatcttgttattaactctgtccccatggactttgcaagg cctgtatccttcaaaaacgctgacattggtcgctgtgtccatcagaaactccgtgaagat gaagatggagcagctccagctgaaatagttatccagcctgagccagttcccaccccagcc tttcctacacccaccccagttctgacacatggtccttgtgctgcagaatcagaaccagct cttttgatagggagcaagcagtttggcctttcaagaaacagtcacattgcaattgcattt gatgacaccaaagttaaaaaccgtctcacaattgagttggaagtaagaaccgaagctgaa tccggcttgcttttttacatggctcgcatcaatcatgctgattttgccacagttcagctg agaaatggattgccctacttcagctatgacttggggagtggggacaccaacaccatgatc cccaccaaaatcaatgatggccagtggcacaagattaagataatgagaagtaagcaagaa ggaattctttatgtagatggggcctccaacagaaccattagtcccagaaaagctgacatc ctggatgttgtgggaatgctgtatgttggtgggttacccatcaactacactacccgaaga attggtccagtgacctatagcattgacggctgcatcaggaatctccacatggaagaggcc cctgctgatctggaagagcccacctccagcttccatgttgggacatgttttgcaaatgct cagaggggaacatattttgatggaacaggttttgccaaagcagttggtggattcaaagtg ggattggaccttctcgtagaatttgaattccgcacaactagaacgactggagttcttcta gggatcagtagtcaaaaaatggatggaatgggtattgaaatgattgatgaaaagctgatg tttcatgtggacaatggcgccggcagattcactgctatctatgatgctggggttccaggg catttgtgtgatggacaatggcataaagtcactgccaacaagatcaaacaccgcattgag ctcacagtcgatgggaaccaggtggaagcccaaagcctaaacccagcatctacatcagct gacacaaatgaccctgtatttgttggaggcttcccagatgacctcaagcagtttggcctg accaccagcattccgttccgaggttgcatcagatccctgaagctcaccaaaggcacgggc aagccactggaagttaattttgccaaggccctggaactgaggggtgttcaacctgtatca tgcccagccaactaa

Rhinopithecus roxellana (golden snub-nosed monkey): 104658850 Help Entry 104658850         CDS       T03989                                  Gene name COL4A6 Definition (RefSeq) collagen alpha-6(IV) chain isoform X1   KO K06237   collagen type IV alpha Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04926   Relaxin signaling pathway rro04933   AGE-RAGE signaling pathway in diabetic complications rro04974   Protein digestion and absorption rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104658850 (COL4A6)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104658850 (COL4A6)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104658850 (COL4A6)  09150 Organismal Systems   09152 Endocrine system    04926 Relaxin signaling pathway     104658850 (COL4A6)   09154 Digestive system    04974 Protein digestion and absorption     104658850 (COL4A6)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104658850 (COL4A6)   09162 Cancer: specific types    05222 Small cell lung cancer     104658850 (COL4A6)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104658850 (COL4A6)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104658850 (COL4A6)   09174 Infectious disease: parasitic    05146 Amoebiasis     104658850 (COL4A6)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104658850 (COL4A6)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104658850 (COL4A6) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of other cancer cells    104658850 (COL4A6) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104658850 (COL4A6) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Collagen C4 Motif Other DBs NCBI-GeneID:  104658850 NCBI-ProteinID:  XP_010357271 UniProt:  A0A2K6RKZ6 LinkDB All DBs Position 7 AA seq 1705 aa AA seqDB search MHPGLWLLLVTLCLTEELAGAGEKSYGKPCGGQDCSGSCQCFPEKGARGRPGPIGIQGPS GPQGFTGSTGLSGLKGERGSPGLLGPYGPKGDKGPMGVPGFLGINGIPGHPGQPGPRGPP GLDGCNGTQGAVGFPGPDGYPGLLGPPGLPGQKGSKGDPVLAPSSFKGMKGDPGLPGLDG ITGPQGAPGSPGAVGPAGPPGLQGPPGPPGPPGPDGNMGLGFQGEKGVKGDVGLPGPAGP PPSTGELEFMGFPKGKKGSKGEPGPKGFPGISGPPGFPGLGSTGEKGEKGIPGLPGPRGP MGSEGVQGPPGQQGKKGTLGFPGLNGFQGIEGEKGDIGLPGPDVFIDIDGAVISGNPGDP GVPGLPGLKGDEGIQGLRGPSGVPGSPALSGVPGALGPQGFPGLKGDQGNPGRTTIGAAG LPGRDGLPGPPGPPGPPSPEFETKTLHNKEPGFPGLRGEQGPKGNPGLKGIKGDSGFCAC DGGVPNTGPPGEPGPPGPRGLIGLPGLKGARGDRGSGGAQGPAGAPGLVGSPGPSGPKGK KGEPILSTVSGMPGDRGDSGSQGFPGIIGKPGNDGVPGLPGLPGLPGDGGQGFPGEKGLP GLPGEKGHPGPPGLPGIGLPGLPGPRGLPGDKGKDGLPGQQGPPGSKGDCCCREKVGKGD LDTERGITLPCIIPGSYGPSGFPGTPGFPGPKGYRGLPGTPGQPGSSGNKGKPGSPGLVH LPELPGFPGPRGEKGLPGFPGLPGKDGLPGMIGSPGLPGSKGATGDIFGAENGAPGEQGL QGLTGDKGLLGDSGLPGLKGVHGKPGLLGPKGERGSPGTPGQVGQPGTPGSSGPYGIKGK SGPPGAPGFPGTSGHPGKKGTRGEKGPPGSIVKKGLPGLKGLPGNPGLIGLKGSPGSPGV TGLPALSGPKGEKGSVGFVGFPGIPGLPGIPGTRGLKGIPGSTGKMGPSGHAGTPGEKGD RGNLGPVGIPSPRRPMSNLWLKGDKGSQGSAGSDGFPGPRGDKGEAGHPGPPGLPGASGL PGTIKGVSGKPGPPGFMGIRGLPGLKGSSGITGFPGMPGESGSQGIRGSPGLPGTSGLPG LKGDNGQTLEISGSPGPKGQPGESGFKGTKGRDGPIGNIGFPGNKGEDGKVGVSGDVGLR GALGFPGIAGMRGDPGLPGSSGHQGAIGPLGPPGLIGPKGFPGFPGLHGLNGLPGTKGTH GTPGPSITGVPGPAGLPGPKGEKGYPGIGIGAPGKPGLRGQKGDRGFPGLQGPAGLPGAP GISLPSLIAGQPGDPGRPGLDGERGRPGPPGPPGPTGPSSSQGNTGDPGFPGIPGPKGPK GDQGIPGFSGLPGELGLKGMRGEPGFMGTPGKVGPPGDPGFPGMKGKAGPRGSSGPQGAP GQTPTAEAVQVPPGPLGLPGIDGIPGLTGDPGAQGPVGLQGSKGLPGIPGKDGPSGLPGP PGALGDPGLRGLQGPPGFEGAPGQQGPFGMPGMPGQSARVGYTLVKHSQSEQVPLCPIGM SQLWVGYSLLFVEGQEKAHNQDLGFAGSCLPRFSTMPFIYCNINEVCHYARRNDKSYWLS TTAPIPMMPVSQTQIPQYISRCSVCEAPSQAIAVHSQDITIPQCPLGWRSLWIGYSFLMH TAAGAEGGGQSLVSPGSCLEDFRATPFIECSGARGTCHYFANKYSFWLTTVEERQQFGEL PVSETLKAGQLHTRVSRCQVCMKSL NT seq 5118 nt NT seq  +upstreamnt  +downstreamnt atgcaccctgggttgtggctgctcctggttacgttgtgcctgaccgaggaactggcagga gcgggagagaagtcttatggaaagccgtgtgggggccaagactgcagtgggagctgtcag tgttttcctgagaaaggagcgagagggcgacctggaccaattggaattcaaggcccatca ggtcctcaaggattcactggctctactggtttatcgggattgaaaggagaaaggggttcc ccaggccttctgggaccttatggaccaaaaggagataagggtcccatgggagttcctgga tttcttggcatcaatgggattccgggccatcctggacagccaggccccagaggcccacct ggtctggatggctgtaatggaactcaaggagctgtcggatttccaggccctgatggctat cctgggcttctcggaccacctgggcttcctggtcagaaaggatcaaaaggtgaccctgtc cttgctccaagtagtttcaaaggaatgaagggggatcctgggctgcctggactggatgga atcactggcccacaaggagcacccggatctcctggagctgtaggacctgcaggaccacca ggattacaaggtcctccagggcctcctggtcctcctggtcctgatgggaatatggggcta ggttttcaaggagagaaaggagtcaagggggatgttggcctccctggcccagcaggacct ccaccatctactggagagctggaattcatgggattccccaaagggaagaaaggatccaag ggtgaaccagggcctaagggttttccaggcataagtggccctccaggcttcccgggcctt ggatctactggagaaaagggagaaaagggaatccctggtttgccaggacctaggggtccc atgggttcagaaggagtccaaggccctccagggcaacagggcaagaaagggaccctggga tttcctgggcttaatggattccaaggaattgagggtgaaaagggtgacattggcctgcca ggcccagatgttttcatcgatatagatggtgctgtgatctcaggtaatcctggagaccct ggtgtacctggcctcccaggccttaaaggagatgaaggcatccagggcctgcgtggccca tctggtgtccctggctcaccagcattatcaggtgtcccaggagccctagggcctcaggga tttccagggctgaagggggaccaaggaaacccaggccgtaccacaattggagcagctggc ctccctggcagagatggtttgccaggcccaccaggtccaccaggcccacctagtccagaa tttgagaccaaaactctacacaacaaagagccagggttccctggtctccgaggagaacag ggtccaaaaggaaacccaggcctcaaaggaataaaaggagactcaggtttctgtgcttgt gacggtggtgttcccaacactggaccacccggggaaccaggcccacctggtccacggggt ctcataggccttccaggccttaaaggagccagaggagatcgaggctctgggggtgcacag ggcccagcaggggctccaggcttagttgggtctccgggtccttcaggacccaaaggaaag aagggggaaccaattctcagtacagtctcaggaatgccaggggatcgcggtgattctggc tcccagggcttccctggtataataggaaaaccaggcaacgacggagtaccaggtctacca ggtctgccaggacttccgggtgatggtgggcagggcttcccaggtgaaaaggggttacct ggacttcctggtgaaaaaggccatcctggtccacctggcctcccgggaattgggttacca ggacttcctggaccccgtgggcttcctggagataaaggcaaggatggattaccgggacaa caaggccctcctggatctaagggtgactgctgctgcagagagaaggttggtaaaggagac ttagacacagagagaggaatcaccctgccctgtattattccggggtcatatggtccatca ggatttccaggcactcccggattcccaggccctaaagggtaccgaggcctccctgggacc ccaggccagcctggatcaagtggaaataaaggaaagccagggagtccaggattggttcat cttcctgaattaccaggatttcctggacctcgtggggagaagggcttgcctgggtttcct gggctccctggaaaagatggcttgcctgggatgattggtagtccaggtttacctggttcc aagggagccactggtgatatctttggtgctgaaaatggtgctccgggggaacaaggccta caaggattaacaggggacaaaggacttcttggagactctggccttccaggactcaagggt gtgcacgggaaacctggcttgctaggccccaaaggtgagcggggcagccctggaacacca ggacaggtgggacagccaggcaccccaggatctagtggtccgtatggcatcaagggcaaa tctggtcccccaggagcgccaggcttcccaggcacctcagggcatcctggaaagaaagga acaagaggcgagaaaggccctcctggatcaattgtaaagaaagggctgccagggctaaaa ggccttcctggaaatccaggcctaatagggctgaaaggaagcccaggctctccaggggtc actgggttgccagccctctctggacccaaaggagaaaaggggtctgttggattcgtaggt tttccaggaataccaggtctgcctggtatccctggaacaagaggattaaagggaattcca ggatcaactggaaaaatgggaccatctggacacgctggcactcctggtgaaaagggagac agaggcaatctggggccagtcggaatacctagtccaagacgtccaatgtcaaacctttgg ctcaaaggagacaaaggctctcaaggctcagccggatctgatggatttccagggccaaga ggtgacaaaggagaggctggtcatcctgggccaccaggcctgcctggagcttctggcctc ccaggcactatcaaaggagttagtggaaagccaggtccccctggcttcatgggaatccgg ggcttacctggcctgaaggggtcctctgggataacaggtttcccaggaatgccaggagaa agtggttcacaaggtatcagagggtcgcctggactcccaggaacatctggtctcccaggc ctgaaaggagacaacggccagacacttgaaatttccggtagcccaggacccaagggacaa cctggtgaatctggttttaaaggcacaaaaggaagagatggaccaataggcaatataggc ttccctggaaacaaaggtgaagatggaaaagttggtgtttctggagatgttggccttcgt ggagctctagggtttccagggattgccggcatgagaggagatccaggacttccaggctct tctggtcatcaaggggcaattgggcccctaggaccccccggattaataggacccaaaggc ttccctggatttcctggtttacatggactgaatgggcttccgggaaccaagggtacccat ggcactccaggacctagtatcactggtgtgcccgggcctgctggtctccctggacccaaa ggagaaaaaggatatccaggaattggcatcggagctccagggaagccgggcctgagaggg caaaaaggtgatcgaggtttcccaggtctccagggccccgctggtctccccggtgcccca ggcatctccttgccctcactcatagcaggacagcctggtgaccccgggcgaccaggccta gatggagaacgaggccgcccaggcccccctggacccccaggtcccactgggccatcctcg agtcaaggcaacaccggagaccctggcttccctggaattcctggacctaaagggcctaag ggagaccaaggaattccaggtttttctggccttcctggagagctaggactgaaaggcatg agaggtgagcctggcttcatggggactccaggcaaggttgggccacctggagacccagga tttcccgggatgaaggggaaggcagggccaagaggctcttctggcccccaaggtgctcct ggacaaacaccaactgcagaagctgtccaggttcctcctggacccttgggtctaccaggg atcgatggcatccctggcctcactggggaccctggggctcaaggccctgtaggcctacaa ggctccaaaggtttacctggcattcccggcaaagatggtcccagtgggctcccaggccca cctggggctcttggtgatcctggtctgcgtggactgcaaggccctccaggatttgaagga gctccagggcagcaaggccccttcgggatgcctggaatgcctggccagagcgcgagagtg ggctacacgttggtaaagcacagccagtcggaacaggtgcccctgtgtcccatcgggatg agccagctatgggtggggtacagcttactgttcgtggaggggcaagagaaagcccataac caggacctgggctttgctggctcctgtctgccccgcttcagcaccatgcccttcatctac tgcaacatcaacgaggtgtgccactatgccaggcgcaatgataaatcctactggctctcc actactgcccctatccccatgatgcccgtcagccagacccagattccccagtacatcagc cgctgctctgtgtgtgaggcaccctcgcaagccattgctgtgcacagtcaggacatcacc atcccgcagtgccccctgggctggcgcagcctctggattgggtactccttcctcatgcac actgccgctggtgccgagggtggaggccagtccctggtctcacctggctcctgcctagag gactttcgggccacccctttcatcgagtgcagtggtgcccgaggcacctgccactacttt gcaaacaaatacagtttctggttgaccacagtggaggagaggcagcagtttggggagttg cctgtgtctgaaacgctgaaagctgggcagctccacactcgagtcagtcgctgccaggtg tgtatgaaaagcctgtag

Rhinopithecus roxellana (golden snub-nosed monkey): 104659760 Help Entry 104659760         CDS       T03989                                  Gene name LAMA4 Definition (RefSeq) laminin subunit alpha-4 isoform X1   KO K06241   laminin, alpha 4 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05143   African trypanosomiasis rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104659760 (LAMA4)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104659760 (LAMA4)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104659760 (LAMA4)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104659760 (LAMA4)   09162 Cancer: specific types    05222 Small cell lung cancer     104659760 (LAMA4)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104659760 (LAMA4)   09174 Infectious disease: parasitic    05146 Amoebiasis     104659760 (LAMA4)    05145 Toxoplasmosis     104659760 (LAMA4)    05143 African trypanosomiasis     104659760 (LAMA4) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_G_2 Laminin_I Laminin_G_1 Laminin_II Laminin_EGF Laminin_G_3 Motif Other DBs NCBI-GeneID:  104659760 NCBI-ProteinID:  XP_010358184 UniProt:  A0A2K6N8J2 LinkDB All DBs Position 4 AA seq 1823 aa AA seqDB search MALSSAWRWVLPLWLLWSAACSRAASGDDNAFPFDIEGSSAVGRQDPPETSEPRVALGRL PPAAEKCNAGFFRTLSGECVPCDCNGNSNECLDGSGFCVHCQRNTTGEHCEKCLDGYIGD SIRGAPRFCQPCPCPLPHLANFAESCYRKNGAVRCICKENYAGPNCERCAPGYYGNPLLI GSTCKKCDCSGNSDPNLIFEDCDEVTGQCRNCLRNTTGFKCERCAPGYYGDARIAKNCAV CNCGGGPCDSVTGECLEEGLEPPTGTDCSTISCDKCVWDLTDDLRLAALSIEEGKSGVLS VSSGAAAHRHVNEINATIYLLKTKLSERENQYALRKIQINNAENTMKSLLSDVEELVEKE NQASRKGQLVQKESMDTIKHASQLVEQAHDMRDKIQEINNKMLYYGEEHELSPKEISEKL VLAQKMLEEIRRRQPFFTQRELVDEEADEAHELLSQAESWQRLHNETRTLFPVVLEQLDD YNAKLSDLQEALDQALNHVRDAEDMNRATAARQRDHEKQQERVREQMEVVNTSLSTSADS LTTPRLTLSELDDIIKNASGIYAEIDGAKNELQVKLSNLSNLSHDLVQEAIDHAQELQQE ANELSRKLHSSDMNGLVQKALDASNVYENIINYVSEANETAEFALNTTDRIYDAVSGIDT QIIYHKDESENLLNQARELQAKAESSSDEAVADTSRRVGGALARKSALKTRLSDAVKQLQ AAERGDAQQRLGQSRLITEEANRTTMEVQQATTPMANNLTNWSQNLQHFDSSAYNTAVDS ARDAVRNLTEVVPQLLDQLRTVEQKRPASNVSASIQRIRELIAQTRSVASKIQVSMMFDG QSAVEVHPRTSMDDLKAFTSLSLYVKPPVKQPELTETADQFILYLGSKNAKKEYMGLAIK NDNLVYIYNLGTKDVEIPLDSKPVSSWPAYFSIVKIERVGKHGKVFLTVPSLSSTAEEKF IKKGEFSGDDSLLDLDPEDTVFYVGGVPSNFKLPHSLNLPGFIGCLELATLNNDVISLYN FKHIYNMDPSTSVPCARDKLAFTQSRAASYFFDGSGYAVVRDITKRGKFGQVTRFDIEVR TPADNGLILLMVNGSMFFRLEMRNGYLHVFYDFGFSSGPVHLEDTLKKAQINDAKYHEIS IIYHNDKKMILVVDRRHVKSMDNEKMKIPFTDIYIGGAAPEILQSRTLRAHLPLDINFRG CMKGFQFQKKDFNLLEQTETLGVGYGCPEDSLISRRAYFNGQSFIASIQKISFFDGFEGG FNFRTLQPNGLLFYYASGSDVFSISLDNGTVVMDVKGIKVQSVDKQYNDGLSHFVITSVS PTRYELIVDKSRVGSKNPTKGKIEQTQAGEKKFYFGGSPISAQYANFTGCISNAYFTRVD RDVEVEDFQRYTEKVHTSLYECPIESSPLFLLHKKRKNLSKPKASQNKKGGKSKDAPSWD PVALKFPERNTPRNSHCHLSNSPRAIEHAYQYGGTANSRQEFEHLKGDFGAKSQFSIRLR TRSSHGMIFYVSDQEENDFMTLFLAHGRLVYMFNVGHKKLKIRSQEKYNDGLWHDVIFIR ERSSGRLVIDGLRVLEESLPPTEATWKIKGPIYLGGVAPGKAVKNVQINSIYSFSGCLSN LQLNGASITSASQTFSVTPCFEGPMETGTYFSTEGGYVVLDESFNIGLKFEIAFEVRPRS SSGTLVHGHSVNGEYLNVHMKNGQVIVKVNNGIRDFSTSVTPKQSLCDGRWHRITVIRDS NVVQLDVDSEVNHVVGPLNPKPIDHREPVFVGGVPESLLTPRLAPSKPFTGCIRHFVIDG HPVSFSKAALVSGAVSINSCPAA NT seq 5472 nt NT seq  +upstreamnt  +downstreamnt atggctttgagctcagcctggcgctgggtcctgcctctgtggctcctctggagcgctgcc tgctcccgcgccgcgtccggggacgacaacgcttttccttttgacattgaagggagctca gcggttggcaggcaagacccgcctgagacgagcgagccccgcgtggctctgggacgcctt ccgcctgcggccgagaaatgcaatgctggattttttcgcaccctgtcgggggaatgtgtg ccctgcgactgtaatggcaattccaacgagtgtttggacggctcaggattctgtgtgcac tgccagcggaacacaacaggagagcactgtgaaaaatgtctggatggttatatcggagat tccatcaggggagcaccccgattctgccagccgtgcccctgtcccctaccccacttggcc aattttgcagaatcttgctataggaaaaatggagctgttcggtgcatttgtaaagaaaat tatgctggacctaactgtgaaagatgtgctcctggttactatggaaaccccttactcatt ggaagcacctgtaagaaatgtgactgcagtggaaattcagatcccaacctgatctttgaa gattgtgatgaagtcactggccagtgtaggaactgcttacgcaacaccaccggattcaag tgtgaacgctgtgctcctggctactatggggacgccaggatagccaagaactgtgcagtg tgcaactgtgggggaggcccatgtgacagtgtaaccggagaatgcttggaagaaggtttg gaaccccctacaggcacggactgctcaaccataagctgtgataagtgtgtctgggacctg actgatgacctgcggttagcagcactctccattgaggaaggcaaatccggggtgctgagc gtatcctctggggccgccgctcataggcacgtgaatgaaatcaacgccaccatctacctc ctcaaaacaaaattgtcagaaagagaaaaccaatacgccctaagaaagatacaaatcaac aatgctgagaacacgatgaaaagccttctgtctgacgtagaggaattagttgaaaaggaa aatcaagcctccagaaaagggcaacttgttcagaaggaaagcatggacaccattaaacac gcaagtcagcttgtagagcaagcccatgatatgagggataaaatccaagagatcaacaac aagatgctctattatggggaagagcatgaacttagccccaaggaaatctctgagaagctg gtgttggcccagaagatgcttgaggagattagacgccgtcaaccattttttacccaacgg gagcttgtggatgaggaggcagatgaggctcacgaactgctgagccaggctgagagctgg cagcggctgcacaatgagacccgcactctgtttcctgtcgtcctggagcagctggacgac tacaatgctaagttgtcagatctccaggaagcacttgaccaggcccttaaccacgtcagg gatgctgaagacatgaacagggccacagcagccaggcagcgggaccacgagaaacaacag gaaagagtgagggaacaaatggaagtggtgaacacgtctctgagcacatctgcggactct ctgacaacacctcgcctaactctttcagaacttgatgatataataaagaatgcatcaggg atttatgcagaaatagatggagccaaaaatgaactacaagtaaaactatctaacctaagt aacctcagccatgatttagtccaagaagctattgaccatgcacaggaacttcaacaagaa gctaatgaactgagcaggaagttacacagttcagatatgaacgggctggtacagaaggct ttggatgcatcaaatgtctatgaaaatatcattaattatgttagtgaagccaatgaaaca gcagaatttgctttgaacaccactgaccgaatttatgatgcggtgagtgggattgatact caaatcatttaccataaagatgaaagtgagaacctcctcaatcaagccagagaactgcaa gcaaaagcagagtctagcagtgatgaggcagtggctgacactagcaggcgtgtgggtgga gccctagcaaggaaaagtgcccttaaaaccagactcagtgatgccgttaagcaactacaa gcagcagagagaggggatgcccagcagcgcctggggcagtccaggctgatcaccgaggaa gccaacaggacgacgatggaggtgcagcaggccaccacccccatggccaacaatctaacc aactggtcacagaatcttcaacattttgactcttctgcttacaacactgcagtggactct gctagggatgcagtaagaaatctgacagaggttgtccctcagctcctggatcagcttcgt acagttgagcagaagcggcctgcaagcaacgtttctgccagcatccagaggatccgagag ctcattgctcagaccagaagtgttgccagcaagatccaagtctccatgatgtttgatggc cagtcagctgtggaagtgcacccgagaaccagtatggatgacttaaaggcttttacgtct ctgagcctgtacgtgaaaccccctgtgaagcagccagaactgaccgagactgcagatcag tttatcctgtaccttggaagcaaaaatgccaaaaaagagtatatgggtcttgcaataaaa aatgataacctggtatacatctataatttgggaaccaaagacgtggagattcccctggac tccaagcccgtcagttcctggcctgcttacttcagcattgtcaagattgaaagggtggga aaacatggaaaggtgtttttaacagtcccgagtctaagtagcacagcagaggaaaagttc attaaaaagggggaattttcaggagatgactccctgctggacctggaccccgaggacacg gtgttttatgttggtggagtgccttccaacttcaagctccctcacagcttaaacctgcct ggcttcattggctgcctggaactggccactttgaataatgatgtgatcagcttgtacaac tttaagcacatctataatatggacccctccacatcagtgccctgtgcccgagataagctg gccttcactcagagccgggctgctagttacttcttcgatggctctggttatgccgtggtg agagacatcacaaagagagggaaatttggtcaggtgactcgctttgacatagaagttcga acaccagctgacaatggccttattctcctgatggtcaatggaagtatgtttttcagactg gaaatgcgcaatggttacctacacgtgttctatgattttggattcagcagtggccctgtg catcttgaagatacgttaaagaaagctcaaattaatgatgcaaaataccatgagatctca atcatttaccacaatgataagaaaatgatcttggtagttgacagaaggcatgtcaagagc atggataatgaaaagatgaaaataccttttacagatatatacattggaggagctgcccca gaaatcttacaatccaggacccttagagcacaccttcccctagatatcaacttcagagga tgcatgaagggcttccagttccaaaagaaagatttcaatttactggagcagacagaaacc ctgggagttggttatggatgcccagaagactctcttatatctcgcagagcatatttcaat ggacagagcttcattgcttcaattcagaaaatatctttctttgatggctttgaaggaggt tttaatttccgaacattacaaccaaatgggttactattctattatgcttcagggtcagat gtgttctccatctcactggataacggtactgtcgtcatggatgtaaagggaatcaaagtt cagtcagtagataagcagtacaatgatgggctgtcccacttcgtcattacctctgtctca cccacaagatatgaactgatagtagataaaagcagagttgggagtaagaatcctaccaaa gggaaaatagaacagacacaagcaggtgaaaagaagttttacttcggtggctcaccaatc agtgctcagtatgctaatttcactggctgcataagtaatgcctactttaccagggtggat agagatgtggaggttgaagatttccaacggtatactgaaaaggtccacacttctctttat gagtgtcccattgagtcttcaccattgtttctcctccataaaaaacgaaaaaatttatcc aagcctaaagcaagtcagaataaaaagggagggaaaagtaaagatgcaccttcatgggat cctgttgccctgaaattcccagagcggaatactccaagaaactctcattgccacctttcc aacagccctagagcaatagagcacgcctatcaatatggaggaacagccaacagccgccaa gagtttgaacacttaaaaggagattttggtgcaaaatctcagttttccattcgtctgaga actcgttcctcccatggcatgatcttctatgtctcagaccaagaagagaatgactttatg actctatttttggcccacggccgcttggtttacatgtttaatgttggtcacaagaaactg aagattagaagccaggagaaatacaatgatggcctgtggcatgatgtgatatttattcga gaaaggagcagtggccgactggtaattgatggtcttcgagtcttagaagaaagtcttcct cctactgaagctacctggaaaatcaagggtcccatttatttgggaggtgtggctcctgga aaggctgtgaaaaatgttcagattaactccatctacagttttagtggctgtctcagcaat cttcagctcaatggggcctccatcacctctgcttctcagacattcagtgtgaccccttgc tttgaaggccccatggaaacaggaacttacttttcaacagaaggaggatacgtggttcta gatgaatctttcaatattggattgaagtttgaaattgcatttgaagtccgtcccagaagc agttccggaaccctggtccacggccatagtgtcaatggggagtacctaaatgttcacatg aaaaatggacaggtcatcgtgaaagtcaataatggcatcagagatttttccacctcagta acacccaagcagagtctctgtgatggcagatggcacagaattacagttattagagattct aatgtggttcagttggatgtggactctgaagtgaaccacgtggttggacccctgaatcca aaaccaattgatcacagggagcctgtgtttgttggaggtgttccagaatctctactgaca ccacgcttggcccccagcaaacccttcacaggctgcatacgccactttgtgattgacgga cacccagtgagcttcagtaaagcagccctggtcagcggcgccgtgagcatcaactcctgt ccagcagcctga

Rhinopithecus roxellana (golden snub-nosed monkey): 104660568 Help Entry 104660568         CDS       T03989                                  Gene name LAMC3 Definition (RefSeq) laminin subunit gamma-3   KO K06247   laminin, gamma 3 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104660568 (LAMC3)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104660568 (LAMC3)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104660568 (LAMC3)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104660568 (LAMC3)   09162 Cancer: specific types    05222 Small cell lung cancer     104660568 (LAMC3)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104660568 (LAMC3)   09174 Infectious disease: parasitic    05146 Amoebiasis     104660568 (LAMC3)    05145 Toxoplasmosis     104660568 (LAMC3) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_N Laminin_B Motif Other DBs NCBI-GeneID:  104660568 NCBI-ProteinID:  XP_030774921 LinkDB All DBs Position 16 AA seq 1575 aa AA seqDB search MAAAKLLLGLALLAPRAAGAGMGACYDGAGRPQRCLPVFENAAFGRLAQASHTCGSPPED FCPHVGAAGAGAQCQRCDAADPQRHHNASYLTDFHNQDESTWWQSPSMAFGVQYPTSVNI TLHLGKAYEITYVRLKFHTSRPESFAIYKRSRANGPWEPYQFYSASCQKTYGRPEGQYLR PGEDERVAFCTSEFSDISPLSGGNVAFSTLEGRPSAYNFEESPGLQEWVTSTELLISLDR LNTFGDDIFKDPKVLQSYYYAVSDFSVGGRCKCNGHASECGPDTAGQLACRCQHNTTGTD CERCLPFFQDRPWARGTAEAAHECLPCNCSGRSEECTFDRELFRSTGHGGRCHHCRDHTA GPHCERCQENFYHWDPRMPCQPCDCHSAGSLHLQCDDTGTCACKPTVTGWKCDRCLPGFH SLSEGGCRPCTCNPAGSLDTCDPRSGRCPCKENVEGNLCDRCRPGTFNLQPHNPVGCSSC FCYGHSKVCAATAQFQVHHILTDFHQGAEGWWARSVGGPEHPPQWSPHGVLLSPEDEEEL TAPEKFLGDQRFSYGQPLILTFQVPPRGSPLPVQLRLEGAGLALSLRHSSLSGPQDVGHP REVELRFHLQETSEDVAPPLPPFHFQRLLTNLTSLRLHVSPGPSPAGQVFLTEVRLTSAR PGLSPPASWVETCSCPNGYMGQFCESCAPGYKREMPQGGPYASCVPCTCNQHGTCDPNTG ICVCSHHTEGPSCERCLPGFYGNPFAGQADDCQPCPCPGQSACTTIPESGEVACTHCPPG QRGRRCEVCDDGFFGDPLGLSGLPQPCHQCQCSGNVDPNAVGNCDPLSGHCLRCLHNTAG DHCERCREGFYGSALAPRPADKCKPCSCHPQGSVSEQMPCDPVTGQCSCLPHVTGRDCSR CYPGFFDLQPGRGCRSCKCHPLGSQEDQCHPKTGQCTCRPGVTGQACDRCQLGFFGFSIK GCRACRCSPLGAASAQCHENGTCVCRPGFEGYKCDRCHDNFFLTADGTHCRECPSCYALV KEEAAKLKAKLTLMEGWLQGSNCGSPWGPLDILQGEAPRGDVYQGHHLLPGVREAFLEQM MGLEGAVKASREQLQRLSKGAHCAQAGAQKTCTQLADLEAVLESSEEEILHAAAILASLE IPQDGPGQPTKWSHLATEARALARSHRDTATKIAATAQRALLASNTSYVLLWSLLEGRMA LETQRDLEDRYQEVQAAQKALGTAMAELLPEAESVLATVQHVGADTAPYLALLASPGALP QKSWAEDLGLKAKTLEKTVASQQHMATKASRTLQAAAQAALRQTEPLTQLHREARTALTQ ASSSVQAATVTVMGARTLLADLEGMKLQFPRPKDQAALQRKADSVRDRLLADMRKKTKQA ERMLGNAAPLSSSAKKKGREAEVLAKDSAKLAKALLREGNQAHRRASRLTSQTQATLQQA SRQVLDSEARQQELQEAEQVGAGLSEMEQQIRESRISLEKDIEALSELLARLGSLDTHQA PAQALNETQWALERLRLQLASPGALQRKLRLLEQESELQELQIQGFESDLAEIRADKRNL EAILHSLPENCASWQ NT seq 4728 nt NT seq  +upstreamnt  +downstreamnt atggcggcggctaagctcctgctggggttggcgctgctggcacctcgggcggccggcgcg ggcatgggagcgtgctacgacggcgcggggcgcccgcagcgctgcctgcccgtgttcgag aacgcggcgttcggccggcttgcccaggcctcgcacacgtgcggcagcccgccggaggac ttctgcccccacgtgggcgccgcgggcgcgggggcgcagtgccagcgctgcgacgcagcc gacccccagcgccaccacaacgcctcctacctcaccgacttccacaaccaggacgagagc acctggtggcagagcccgtccatggccttcggcgtgcagtaccccacctcggtcaacatc accctccacctggggaaggcttacgagatcacgtatgtgaggctaaagttccacaccagt cgccctgagagcttcgccatctacaagcgcagccgcgccaacggcccgtgggagccctac cagttctacagcgcctcctgccagaagacctacggccggcccgagggccagtacctgcgc cctggcgaggatgagcgcgtggccttctgcacctccgagttcagcgacatctccccgctg agtgggggcaatgtggccttctccaccctggagggccggcccagcgcctacaacttcgag gagagccctgggctgcaggagtgggtcaccagcaccgaactcctcatctctctagaccgg ctcaacacgtttggggatgacatcttcaaggaccccaaggtgctccagtcctactactat gccgtgtccgacttctctgtgggcggcaggtgcaagtgcaacgggcatgccagcgagtgt ggccccgacacggcgggccagttggcctgccggtgtcagcacaacaccaccggcacggac tgtgagcgctgcttgcccttcttccaggaccgtccgtgggcccggggcaccgctgaggcc gcccacgagtgtctgccctgcaactgcagtggccgctccgaggaatgcacgttcgatcgg gagctcttccgcagcacaggccacggcggccgctgtcaccactgccgtgaccacacagcc gggccacactgtgagcgctgtcaggagaatttctatcactgggacccgcggatgccatgc cagccctgtgactgccattcggcaggctccctacacctccagtgcgatgacacaggcacc tgcgcctgcaagcccactgtgactggctggaagtgtgatcgctgtctgcccgggttccac tcgctcagcgagggaggctgcagaccctgcacctgcaatcctgctggcagcctggacacc tgtgacccccgcagtgggcgctgcccctgcaaagagaatgtggaaggcaacttatgtgac agatgtcgccctgggacttttaacctgcagccccacaatccggtcggctgcagcagctgt ttctgctatggccactccaaggtgtgcgcagccactgcccagttccaagtgcatcacatc ctcaccgatttccaccagggagccgaaggctggtgggccagaagtgtggggggccccgag caccccccacaatggagcccacatggggtcctcctgagcccagaagacgaggaggagctc acagcaccagagaagttcctgggagaccagcggttcagctatgggcagcccctcatcctg accttccaggtgccccccaggggctccccactccctgtgcagctgaggctggaaggggcg ggcttggccctgtccctgaggcactctagcctgtctggcccccaggatgtcgggcatccc agggaggtagagctcaggttccacctgcaggagacctctgaggatgtggcccctccgctg cccccgttccacttccagcggctcctcaccaacctgaccagcctccgcctccatgtcagt cccggtcccagccctgctggccaagtgttcctgactgaggtccggctcacatctgcccgg ccagggctttccccgccagcttcctgggtggagacttgttcatgtcccaatggctacatg ggccagttctgcgaatcctgtgctccgggatacaagagggagatgccacaggggggtccc tatgccagctgtgtcccctgcacctgtaaccagcatggcacctgtgaccccaacacaggg atctgcgtctgcagccaccataccgagggcccatcctgtgaacgctgcttgccgggtttc tatggcaaccccttcgcgggccaagccgatgactgccagccatgtccctgccctggccag tcggcctgcacgaccatcccagagagcggggaggtggcgtgcacccactgccccccgggt cagagagggcggcgctgtgaggtctgtgatgatggcttttttggggacccgctggggctc tcggggctcccccagccctgccaccagtgccagtgcagcgggaatgtggaccccaatgcc gtgggcaactgtgaccccctgtctggccactgcctgcgctgcctgcacaacaccgcgggt gaccactgtgagcgctgtcgtgaaggtttctatgggagcgccctggcccctcggcccgca gacaaatgcaagccctgcagctgccacccacagggctcggtcagtgagcagatgccctgc gacccagtgacaggccagtgctcctgcctgcctcacgtgactggacgggattgtagccgc tgctaccctggcttctttgacctccagcctgggaggggctgccggagctgcaagtgtcac ccactgggctcccaggaggaccagtgccatcccaagactggacagtgcacctgccgccca ggtgtcacaggccaggcctgtgacagatgccagctgggtttcttcggcttctccatcaag ggctgccgggcctgcaggtgctccccactgggcgctgcctcagcccagtgccacgagaac ggcacatgcgtatgcaggcctggctttgagggctacaaatgtgaccgctgccacgacaac ttcttcctcacggcagatggcacacactgccgggaatgcccgtcctgctatgccctggtg aaggaggaggcagccaaactgaaggccaaactgactttgatggaggggtggctgcaaggg tccaactgtggcagtccctggggaccactagacattctgcagggagaggccccaaggggg gacgtctaccagggccaccacctgcttccaggagttcgggaagccttcctggaacagatg atgggcctcgaaggtgctgtgaaggcctcccgggagcagctgcagaggctgagcaagggt gcccactgtgcccaggccggagcccagaagacctgcacccagctggcagacctggaggca gtgctggagtcctcggaagaggagatcctgcatgcagctgccattctcgcgtctctggag attcctcaggatggtcctggccagcccaccaaatggagccacctggccacagaggcccgt gccctcgccaggagccacagagacaccgccaccaagattgcagccactgctcagagggcc ctgctcgcctccaacaccagctacgtgcttctctggagtctgctggagggaaggatggcc ctagagacccagcgggacctggaggacaggtaccaggaggtccaggcggcccagaaagca ctggggacagctatggcagagttgctgcctgaagcggaaagcgtcttggccacagtgcag cacgttggcgcagatacagccccgtacctggctttgctggcttctccgggagctctgcct cagaagtcctgggctgaagacctgggcctgaaggcgaagaccctggagaagacagttgca tcacaacagcacatggccaccaaggcttcccgaaccctccaggctgctgcccaggcggca ctacggcaaacagagcccctcacacagctacaccgggaggccagaaccgccctgacccag gcttcctcatctgtccaggctgccacagtgactgtcatgggagccaggactctgctggct gacctggaaggaatgaagctgcagtttcctcggcccaaggaccaggcggcactgcagagg aaggcagactccgtcagggacagactccttgcagacatgagaaagaagaccaagcaggcg gagaggatgctaggaaacgcggcccctctttcctccagtgccaagaagaagggcagagaa gcagaggtgttggccaaggacagtgccaagcttgccaaggccttgctgagggaggggaac caggcgcaccgccgtgccagccggctcaccagccagacgcaagccacgctccaacaggcg tcccggcaggtgctggattctgaagcacgccaacaggagctgcaggaagctgagcaggtg ggtgctgggctgagtgagatggagcagcagatccgggaatcacgcatctccctggagaag gacatcgaggccttgtcagagctgcttgccaggctggggtcgctggacacccatcaagcc ccagcccaggccctgaacgagactcagtgggcactagaacgcctgaggctgcagctggcc tccccgggggccttgcagaggaaactcaggctgctggagcaggaatctgagctgcaggag ctgcagatccagggcttcgagagcgacctcgccgagatccgtgccgacaaacggaacctg gaggccattctgcacagcctgcctgagaactgtgccagctggcagtga

Rhinopithecus roxellana (golden snub-nosed monkey): 104663822 Help Entry 104663822         CDS       T03989                                  Gene name LAMA5 Definition (RefSeq) LOW QUALITY PROTEIN: laminin subunit alpha-5   KO K06240   laminin, alpha 3/5 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104663822 (LAMA5)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104663822 (LAMA5)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104663822 (LAMA5)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104663822 (LAMA5)   09162 Cancer: specific types    05222 Small cell lung cancer     104663822 (LAMA5)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104663822 (LAMA5)   09174 Infectious disease: parasitic    05146 Amoebiasis     104663822 (LAMA5)    05145 Toxoplasmosis     104663822 (LAMA5) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_I Laminin_N Laminin_G_2 Laminin_G_1 Laminin_II Laminin_B Laminin_G_3 Motif Other DBs NCBI-GeneID:  104663822 NCBI-ProteinID:  XP_030769770 LinkDB All DBs Position 13 AA seq 3694 aa AA seqDB search MAKRLCAGSALCVRGPPGPAPLLLVGLALLGTARAREEAGGGFSLHPPYFNLAEGARIAA SATCGEEAPARGSPRPTEDLYCKLVGGPVAGGDPNQTIQGQYCDICTAANSNKAHPASNA IDGTERWWQSPPLSRGLEYNEVNVTLDLGQVFHVAYVLIKFANSPRPDLWVLERSMDFGR TYQPWQFFASSKRDCLERFGPQTLERITRDDAAICTTEYSRIVPLENGEIVVSLVNGRPG AMNFSYSPLLREFTKATNVRLRFLRTNTLLGHLMGKALRDPTVTRRYYYSIKDISIGGRC VCHGHADACDAKDPTDPFRLQCTCQHNTCGGTCDRCCPGFNQQPWKPATANSANECQSCN CHGHATDCYYDPEVDRRRASQSLDGTYQGGGVCIDCQHHTTGVNCERCLPGFYRSPDHPL DSPHVCRRCNCESNFTDGTCEDLTGRCYCRPNFSGERCDVCAEGFTGFPSCYPTPSSSND TREQVLPAGQIVNCDCSAAGTQGNACRKDPRVGRCVCKPNFRGTHCELCVPGFYGPGCQP CQCSSPGVADDRCDPDTGQCRCREGFEGATCDRCAPGYFHFPLCQLCGCSPAGTLPEGCD EAGRCPCQHGFAGPHCDQCHPGYHGFPNCQPCTCDPRGALDQLCGAGGLCRCRPGYTGTA CQECSPSFHGFPSCVPCHCSAEGSLHAACDPRSGQCSCRPRVTGLRCDTCVPGAYNFPYC EAGSCHPAGLALADPALPEAQAPCVCRANVEGPSCDRCKPGFWGLSPSNPEGCTRCSCDP RGTLGGVAECQPGTGQCFCKPHVCGQACAACRDGFFGLDQADYFGCRSCRCDAGGALGQS CEPRTGACRCRPNTQGPTCSRPARDHYLPDLHHLRLELEEAATPEGHAVRFGFNPLEFEN FSWRGYAQMAPVQPRIVARLNLTSPDLFWLVFRYVNRGAMSVSGRVSVREEGRSAACANC TAQSQPVVFPPSTEPAFVTVPQRGFGEPFVLNPGTWALLVEAEGVLLDYVVLLPSAYYEA ALLQLRVTEACTYRPSTQQSGDNCLLYTHLPLDGFPSAAGLEALCRQDNSLPRPCPTEQL SPSHPPLVTCTGSDVDVQLQVAVPQPGHYALVVEYANEDARQEVGVAVHTPQRAPQQGLL SLHPCLYSTLCRGAARDTQDRLAVFHLDSEASVRLTAEQARFYLHGVTLVPMEEFSPEFV EPRVRCISSHGAFGPSSAACLPSRFPKPPQPIILRDCQVLPLPPGLPLTHAQDLMPATSP TGPQPRPPTAVDPDVEPTLLHDPQATVVFTTHVPTLGRYAFLLHGYQPAHPTFPVEVLIN AGRVWQGHANASFCPHGYGCRTLVVCEGQALLDVTHSELTVTVRVPEGRWLWLDYVLVVP ENVYSFGYLREEPLDKSYDFISHCAAQGYHISPSSSSLFCRNAAASLSLFYNNGARPCGC HEVGATGPTCEPFGGQCPCRAHVIGRDCSRCATGYWGFPNCRPCDCGARLCDELTGQCIC PPRTVPPDCLLCQPQTFGCHPLVGCEECNCSGPGVQELTDPTCDTDSGQCKCRPNVTGRR CDTCSPGFHGYPHCRPCDCHEAGTAPGVCDPFTGQCYCKENVQGPRCDQCSLGTFSLDAA NPKGCTRCFCFGATERCRSSSYTRQEFVDMEGWVLLSTDRQVVPHERRPGTEMLRADLRH VPEAVPEAFPELYWQAPPSYLGDRVSSYGGTLRYELHSETQRGDVFVPTESRPDVVLQGN QMSMTFLEPAHPLPGHTHRGQLQLVEGNFRHTETRNTVSREELMMVLASLEQLQIRALFS QISSAVSLRRVALEVASPAGQGTLASNVELCLCPASYRGDSCQECAPGFYRDVKGLFLGR CVPCQCHGHSDRCLPGSGICVDCQHNTEGAQCERCQAGFVSSREDPSAPCVSCPCPLSVP SNNFAEGCVLRGGRTQCLCKPGYAGASCERCAPGFFGNPLVLGSSCQPCDCSGNGDPNLL FSDCDPLTGACRGCLRHTTGPRCEICAPGFYGNALLPGNCTRCDCAPCGTEACNPHSGQC LCKAGVTGRRCDRCREGHFGFDGCGGCRPCACGPAAEGSECHPQSGQCHCRPGTMGPQCR ECAPGYWGFPEQGCRRCQCPGGRCDPHTGRCTCPPGLSGERCDTCSQQHQVPVPGGPGDH SVHCEVCDHCVVLLLDDLERTGTLLPAIREQLRGINASSVAWARLHRLNTSITDLQSQLR SPLGPRHETAQQLEVLEQQSTSLRQDAQQLGSQASGTRDQASRLLAGTEATLGRAKTLLA AIRAVDRTLSELMSQTGHLGLANASALSGEQLRRTLAEVERLLWEMRARDLGAPRAAAEA ELAAAQRLLARVQEQLSSLWEENQALATHTRDRLAQHEAGLMDLREALNQAVDATREAQE LNSRNQERLEEALQRKQELSRDNATLKATLHAASDTLASVFRLLHSLDQAKEELERLAAS LDGARTPLLQRMQTFSPAGSKLRLVEAAEAHAQQLDQLALNLSSIILDINQDRLTQRAIE ASSAYSRILQAVQAAEDAAGQALQQADHTWATVVQQGLVDRARQLLTNSSALEEAVLREQ RRLGLVWAALQGAGTQLRDVQAKKDQLEVHIQAAQAMLAMDTDETSKKIAHAKAVAAEAQ DMATRVQSQLQAMQESVERWQGQYEGLRGQDLGQAVLNAGRSVSSLEKTLPQLLAKLSVL ENRGAHNASLVLSASIGRVRQLIAQARGAASKVKVPMKFNGRSGVQLRTPRDLADLAAYT ALKFYLQDPEPEPGQGTGDHFVMYMGSRQATGDYMGVSLRDKKVHWVYRLGEAGPAVLSI DEDIGEQFAAVSLDRTLQFGHMSVTVERQMIQETKGDTVAPGAEGLLNLRPDDFVFYVGG YPSTFMPPPLLRFPGYRGCIEMDTLNEEVVSLYNFERTFQLDTAVDRPCARSKSTGDPWL TDGSYLDGTGFARISFDGQISTTKRFEQELRLVSYSGVLFFLKQQSQFLCLAVREGSLVL LYDFGAGLREAVPLQTPPPLTSASKAIQVFLLGGSRKRVLVRVERATVFSVEQDNALELA DAYYLGGAPPHQLPPSLRRLFPMGGSVRGCVKGIKALGKYVDLKRLNTTGVSAGCTADLL VGRAMTFHGHGFLHLALSNVAPLTGDVYSGFGFHSAQDSALLYYRASPDGPCQVSLRQGH VTLQLLRTEVVAEGGFADGAPHYVAFYSNATGVWLYVDDQLQQMKPHRGPPPEPQPQPEG PPSLFLGGLPEPDTFHFSGCISNIFVRRLLGPQRVFDLQQNLGSVNVSTGCAPTLQAQTL DLGPRGLQTAAQKASRRSRQPTQDPACMLPPHLRTTRDTYQFGGSLSSHLEFVGILAPHR NWPSLSMHVLPRSPRGLLLFAASLRPSSPSLALFLSNGHFVAQMEGLGTRLRAQSRHRSR PGHWHKVSVRWEKNQILLVTDGARAWSQEGPRQQHQGAEHPQPHTLFVGGLPASSHSSKL PVTVGFSGCVKRLRLHGKPLGAPTRMAGVTPCISGPLEAGLFFPGSGGVITLDLPGATLP DVGLELEVRPLAVTGLIFHLGQAQTPPYLQLQVTEKQVLLRADDGAGEFSTSVARPSVLC DGQWHRLAVMKGGNVLRLEVDAQSNHTVGPSLAAAAAAPAPLHLGGLPEPMAMQPWPPAY HGCMRRLAVNRSPVTMTDSAEVHGAVGANGCPAI NT seq 11085 nt NT seq  +upstreamnt  +downstreamnt atggcgaagcggctgtgcgcggggagcgcactgtgtgtccgcggccccccgggccccgcg ccgctactgctggtcgggctggcgctactgggcacggcgcgggcgcgggaggaggcgggc ggcggcttcagcctgcacccgccctacttcaacctggccgagggcgcccgcatcgccgcc tccgcaacctgcggggaggaggccccggcgcgcggctccccgcgccccaccgaggacctt tactgcaagctggtggggggccccgtggccggcggcgaccccaaccagaccatccagggc cagtactgtgacatctgtacggctgcgaacagcaacaaggcacacccagcaagcaacgcc atcgatggcacagagcgctggtggcagagcccacccctgtcccgcggcctggagtacaac gaggtcaacgtcaccctggacctgggccaggtcttccacgtggcctacgtcctcatcaag tttgccaactcaccccggccggacctctgggtgctggagcggtccatggacttcggccgc acctaccagccctggcagttctttgcctcctccaagagggactgtctggagcggtttggg ccacagactctggaacgcatcacacgggacgacgcggccatctgcaccaccgagtactcg cgcatcgtgcccctggagaatggagagatcgtggtgtccctggtgaatgggcgcccaggc gccatgaatttctcctactcgccgctgctgcgtgagttcaccaaggcaactaacgtccgc ctgcgcttcctgcgcaccaacacgctgctgggccacctcatggggaaggcgctgcgagac cccacagtcacccgccggtattattacagcatcaaggacatcagcatcggaggccgctgt gtctgccatggccacgcggacgcctgtgatgccaaagaccccacagacccgttcaggctg cagtgcacctgccagcacaacacctgcgggggcacctgcgaccgctgctgccccggcttc aaccagcagccgtggaagcctgcgactgccaacagtgccaatgagtgccagtcctgtaac tgccacggccacgccaccgactgttactacgaccctgaggtggaccggcgccgtgccagc cagagcctggatggcacctatcagggcgggggtgtctgtatcgactgccagcaccacacc accggcgtcaactgtgagcgctgcctgccaggcttctaccgctctcccgaccacccgctt gactcaccccacgtctgccgccgctgcaactgcgagtccaacttcacggatggcacctgc gaggacctgacgggtcgctgctactgccggcccaacttctctggggagcggtgcgacgtg tgtgccgagggcttcacgggcttcccaagttgctacccgacgccctcgtcctccaatgac accagggagcaggtgctgccagccggccagattgtgaattgtgactgcagcgcggcaggg acccagggcaacgcctgccggaaggacccgagagtgggacgctgcgtgtgcaaacccaac ttccgaggcacccattgtgagctctgcgtgccagggttctatggccccggctgccagccc tgccagtgttccagccctggagtggccgatgaccgctgtgaccctgacacaggccagtgc aggtgccgagagggcttcgagggggccacatgtgatcgctgtgcccctggctacttccac ttccctctctgccagttgtgcggctgcagccctgcaggaaccctgcccgagggctgcgac gaggccggccgctgcccatgccagcatgggtttgctggacctcattgtgaccagtgccac cctggctaccacggtttccccaactgccaaccgtgcacctgtgatccccggggagccctg gaccagctctgtggggcaggaggtttgtgccgctgccgccccggctacacaggcaccgcc tgccaggaatgtagccccagcttccatggcttccccagctgtgtcccctgccactgctct gccgaaggctccctgcatgcagcctgcgacccccggagtgggcaatgcagctgccggccc cgcgtgacggggctgcggtgtgacacatgtgtgccaggtgcctacaacttcccttactgc gaagctggctcttgccaccctgctggtctggctctggcggatcctgcccttcctgaggca caggctccctgtgtgtgccgagctaacgtggaggggccgagctgtgaccgctgcaaacct ggattctggggactaagccccagcaaccccgagggctgcacccgctgcagctgtgacccc aggggcacgctgggtggagttgctgagtgccagccaggcaccggccagtgcttctgcaag ccccacgtgtgtggccaggcctgtgcagcctgcagggatggcttctttggactggatcag gctgactatttcggctgccgcagctgccggtgtgacgctggtggtgccttgggccagagc tgtgaaccgaggacaggcgcctgccggtgccgccccaacacccagggccccacctgcagc cggcctgcgagggaccactacctcccggacctgcaccacctgcgcctggagctggaggag gccgccacacctgagggtcacgccgtgcgctttggcttcaaccccctcgagttcgagaac ttcagctggaggggctatgcgcaaatggcacctgtccagcccaggatcgtggccaggctg aacctgacttcccccgaccttttctggcttgtcttccgatacgtcaaccggggggccatg agtgtgagcgggcgggtctctgtgagagaggagggcaggtcggccgcctgcgccaactgc acagcgcagagccagcccgtggtcttcccgcccagcacagaacctgccttcgtcactgtg ccccagaggggcttcggagagcccttcgtgctgaaccctggcacctgggccctgcttgtg gaggctgaaggggtgctcctggactacgtggttctgctgcctagtgcgtactacgaggcg gcactcctgcagctgcgagtgactgaggcctgcacgtaccgcccctctacccagcagtct ggcgacaactgcctcctctacacacacctccccctggatggcttcccttcggccgctggg ttggaggccctgtgtcgccaggacaacagcctgccccggccctgccccacagagcagctc agcccatcgcacccaccactggtcacctgcacaggcagtgatgtggatgtccagcttcag gtggcagtgccacagccgggccactacgccctggtggtggagtatgccaatgaggacgcc cgccaggaggtgggcgtggccgtgcacaccccacagcgggccccccagcaggggctgctc tccctgcacccctgcctgtacagcaccctgtgccggggcgctgcccgggatacccaggac cgcctggccgtcttccacctggactcggaggccagcgtgaggctcacagctgaacaggca cgcttctacctgcacggggtcactctggttcccatggaggagttcagcccagagttcgtg gagccccgggtccgctgcatcagcagccacggagcctttggtcccagcagtgccgcctgt ctgccctcgcgcttcccaaagccgccccagcccatcatcctcagggactgccaggtgctc ccgctgccgcccggcctcccgctgacccacgcacaggacctcatgccagccacgtcccca actggaccccaacctcggccccccaccgccgtggaccctgatgtggagcccactttactg catgatccccaggccaccgtggtcttcaccacccatgtgcccacgctgggccgctatgcc ttcttgctgcatggctaccagccagcccaccccaccttccccgtggaagtcctcatcaac gccggccgcgtgtggcagggccatgccaacgccagcttctgtccacatggctacggctgc cgtaccctggtggtgtgtgagggccaggccctgctggacgtgacccacagcgagctcact gtgactgtgcgtgtgcccgagggccgctggctctggctggattatgtcctcgtggtccct gagaatgtctacagctttggctacctccgggaggagcccctggacaaatcctatgacttc atcagccactgcgcagcccagggctaccacatcagccccagcagctcatccctgttctgc cgaaacgccgctgcctccctctccctcttctataacaacggagcccggccatgtggctgc cacgaagtaggtgctacaggccccacgtgtgagcccttcgggggccagtgtccctgccgt gcccacgtcattggccgtgactgctcccgctgcgccaccggatactggggcttccccaac tgtaggccctgtgactgcggcgcccgcctctgtgacgagctcacgggccagtgcatctgc ccaccacgcaccgtcccgcccgactgcctgctgtgccagccccagacctttggctgccac cccctggtcggctgtgaggagtgtaactgctcagggcccggtgtccaggagctcacagac cctacctgtgacacagacagcggccagtgcaagtgcagacccaacgtgaccgggcgccgc tgtgatacctgctctccgggcttccatggctacccccactgccgcccctgtgactgtcat gaggcgggcactgcgcctggtgtgtgtgaccccttcacagggcagtgctactgtaaggag aatgtgcagggcccccgatgtgaccagtgcagccttgggaccttctccctggatgctgcc aaccccaaaggttgcacccgctgcttctgttttggggccacggagcgctgccggagctcg tcctacacccgccaggagttcgtggacatggagggctgggtgctgctgagcactgaccgg caggtggtgccccacgagcggcggccagggacggagatgctccgtgcagacctgaggcac gtgcccgaggctgtacctgaggccttccccgagctgtactggcaggccccaccctcctac ctgggggaccgggtgtcatcctacggtgggaccctccgttatgaactgcactcggagacc cagcggggagatgtctttgtccccacggagagcaggccggatgtggtgctgcagggcaac cagatgagcatgacattcctggagccggcacaccccctgcccggccacactcaccgtggg cagctgcagctggtggaggggaacttccggcacacggagactcgcaacactgtgtcccgt gaggagctcatgatggtgcttgccagcctggagcagctgcagatccgtgccctcttctcg cagatctcctcagctgtctccctgcgcagggtggcactggaggtggccagcccagcaggc caggggaccctggccagcaatgtggagctgtgcctgtgccctgccagctaccggggggac tcatgccaggaatgtgcccccggcttctatcgggacgtcaaaggtctcttcctgggccga tgtgtcccttgtcagtgccacggacactcagaccgctgcctccctggctctggcatctgc gtggactgccagcacaacaccgaaggagcccaatgtgagcgctgccaggctggctttgtg agcagcagggaggaccccagcgccccctgtgtcagctgcccctgtcccctctcagtgcct tccaacaacttcgccgagggctgtgtcctgcgaggtggccgcacccagtgcctctgcaaa cctggttatgcaggcgcctcctgtgagcggtgcgcgcctggcttcttcgggaacccgctg gtgctgggcagctcctgccagccttgtgactgcagcggcaatggtgaccccaacctgctc ttcagcgactgcgaccccctgacgggcgcctgccgtggctgcctgcgtcacaccaccggg ccacgctgcgagatctgtgcccctggcttctatggcaacgccctgctgcccggcaactgc acccggtgcgactgtgccccatgtgggacagaggcctgcaacccccacagcgggcaatgc ctgtgcaaggcgggtgtgactgggcggcgctgtgaccgctgtcgggaaggacattttggc ttcgacggctgcgggggctgccgcccgtgtgcttgtggaccggccgccgagggctccgag tgccacccccagagcggacagtgccactgccgaccagggaccatgggaccccaatgccgc gagtgtgcccctggctactgggggttccctgagcagggctgcaggcgctgccagtgccct gggggccgctgtgaccctcacacgggccgctgcacctgccccccagggctcagtggggag cgctgtgacacctgcagccagcagcatcaggtgcctgttccaggtgggcctggggaccac agcgtccactgtgaagtgtgtgaccactgtgtggtcctgctcctggacgacctggaacgg accggcaccctcctccccgccatccgcgagcaactgcgtggcatcaatgccagctctgtg gcctgggcccgtctgcacaggctgaacacctccatcactgacctgcagagccagctccgg agccctctggggccccgccacgagacggcacagcagctggaggtgctggagcagcaaagc acaagcctcaggcaggatgcacagcagctgggcagccaggcctcggggacccgagaccaa gcgagccgattgctggctggcaccgaggccacactgggccgggcgaagacgctgttggcg gccatccgggctgtggaccgcaccctgagcgagctcatgtcccagaccggccacctgggg ctggccaatgcctcggctctgtcaggcgagcagctgcgccggacgctggccgaggtggag cggctgctctgggagatgcgggcccgggacctgggggccccgcgggcagccgctgaggct gagttggctgcagcgcagagattgctggcccgagtgcaggagcagctgagcagcctctgg gaggagaaccaggcactggccacacacacccgtgaccggctggcccagcatgaggccggt ctcatggacctgcgagaggccttgaaccaggcagtggacgccacgcgggaggcccaggag ctcaacagccgcaaccaggagcgcctggaggaagccctgcaaaggaagcaggagctgtcc cgggacaatgccaccctgaaggccactctgcatgcagctagcgacaccctggccagcgtc ttcagattgctgcacagcctggaccaggccaaggaggagctggagcgcctcgctgccagc ctggacggggctcggaccccactgctgcagaggatgcagaccttctccccagcgggcagc aagctgcgtctggtggaggccgccgaggcccacgcacagcagctggaccagctggcgctc aacctgtccagcatcatcctggacatcaaccaggaccgccttacccagagggccattgag gcctccagcgcgtacagccgcatcctgcaggccgtgcaggctgccgaggacgccgctggc caggccctgcagcaggcagaccacacctgggcgacagtggtgcagcagggcctggtggac cgagcccggcagctcctgacaaacagcagtgcactggaggaggccgtgctccgggagcag cggaggctgggccttgtgtgggctgccctccagggtgccgggacccagctccgagatgtc caggccaagaaggaccaactggaggtgcacatccaggcggcgcaggccatgcttgccatg gacacagatgagacaagcaagaagatcgcacacgccaaggctgtggccgctgaagcccag gacatggccacccgtgtgcagtcccagctgcaggccatgcaggagagcgtggagcggtgg cagggccagtacgagggcctgcggggccaggacctgggccaggcggtgctcaacgcaggc cgctcagtgtccagcctggagaagacgctgccccagctgctggccaagctgagcgtcctg gagaaccgtggggcccacaacgccagcctggtcctgtccgccagcatcggccgtgtgcgg caacttattgcccaggcccggggggctgccagcaaggtcaaggtgcccatgaagttcaac gggcgctcaggggtgcagctgcgcaccccacgggatcttgccgaccttgctgcctacact gccctcaagttctacctgcaggacccggagcctgagcctgggcagggtaccggggatcac tttgtgatgtacatgggcagccgccaggccactggggactacatgggtgtgtctctgcgt gacaagaaggtgcactgggtgtatcggctgggtgaggcgggccctgcagtcctaagcatc gacgaggacattggggagcagtttgcagctgtcagcctggacaggactctccagtttggc catatgtctgtcacagtggagagacagatgatccaggaaaccaagggtgacacggtggcc cctggggcagaggggctgctcaacctgcggccagacgactttgtcttctacgtcgggggt taccccagtaccttcatgccccctcccctgcttcgcttccctggctaccggggctgcatc gagatggacacgctgaacgaggaggtggtcagcctctacaacttcgagaggaccttccag ctggacacggctgtggacaggccttgtgcccgctccaagtcgaccggggacccgtggctc acggacggctcctacctggatggcaccggttttgcccgcatcagcttcgatggtcagatc agcaccaccaagcgcttcgaacaggagctgcgcctcgtgtcctacagtggggtcctcttc ttcctgaagcagcagagccagttcctgtgcttggccgtgcgagaaggcagcctcgtgctg ctgtatgactttggcgccggcctgagagaggctgtcccactgcagaccccaccgcccctg acctcagccagcaaggcgatccaggtgttcctgctggggggcagccgcaagcgtgtgctg gtacgtgtggagcgggccacggtgttcagcgtggagcaggacaatgctctggaactggcc gacgcctactacctggggggcgcgccacctcaccagctgcccccgagcctgcgacggctc ttccccatgggaggctcagtccgtggctgcgtcaaagggatcaaggccctgggcaagtat gtggacctcaagcggctgaacacgacaggtgtgagtgccggctgcaccgctgacctgctg gtggggcgtgccatgactttccacggccacggcttccttcacctggcactctcgaacgtg gcgcccctcactggcgacgtctactccggctttggcttccacagtgcccaggacagtgcc ctgctctactaccgggcgtccccggatgggccatgccaggtgtccctgcggcagggccat gtgaccctacagctcctgagaactgaagtggtagctgaggggggcttcgccgatggcgcc ccccattacgtcgccttctacagcaatgccacaggggtctggctctatgtcgacgaccag ctccagcagatgaagccccaccggggaccacccccagagccccagccgcagcctgagggg cccccgagtctcttcctgggaggcctgcctgagcctgacacctttcacttcagtggctgc ataagcaacatcttcgtgcggcggctcctgggcccacagcgtgtattcgacctgcagcag aacctgggcagcgtcaacgtgagcacaggctgtgcacccaccctgcaagcccagaccctg gacctggggcctagaggactgcagaccgccgcccagaaggcctcccgccgcagtcgtcag cccacccaggatcccgcctgcatgctgcccccacacctcaggaccacccgagacacctac cagtttgggggttccctgtccagtcacctggagtttgtgggcatcctggccccacatagg aactggcccagcctctccatgcacgtcctcccgcgaagcccccgtggcctcctgctcttc gctgctagcctgaggcccagcagcccctccctggcactcttcctgagcaatggacacttc gtcgcacagatggaaggccttgggactcggctccgcgcccagagccgccatcgctcccgg cctggccactggcacaaggtctccgtgcgctgggagaagaaccagatcctgctggtgacg gacggggcccgggcctggagccaggaggggccacgccagcagcaccagggggcagagcac ccccagccccacaccctctttgtggggggcctcccggccagcagccacagctccaaactt ccggtgaccgtcgggttcagtggctgtgtgaagagactgaggctgcacgggaagcccctg ggggcccccacacggatggcaggggtcacaccctgcatctcgggccccctggaggcgggc ctgttcttcccaggcagcgggggagttatcactttagacctcccaggagctacactgcct gacgtgggcctggaactggaggtgcggcccctggcagtcaccggcctgatcttccacttg ggccaggcccagacacccccctatttgcagctgcaggtgactgagaagcaagtcctgctg cgggcggacgatggagcaggggagttctccacgtcagtggcccgcccctcggtgctgtgt gacggccagtggcaccggctggcagtgatgaaaggcgggaacgtgctccggctggaggtg gacgcacagagcaaccacactgtgggcccctcgctggcggctgcggctgctgccccagcc cctctgcaccttgggggcctgcctgagcccatggccatgcagccctggccccccgcctac catggctgcatgaggaggctggcagtgaaccggtcccccgtcaccatgactgactctgca gaggtccacggggcagtgggggccaatggctgcccagccatctag

Rhinopithecus roxellana (golden snub-nosed monkey): 104664167 Help Entry 104664167         CDS       T03989                                  Gene name LAMB3 Definition (RefSeq) laminin subunit beta-3   KO K06244   laminin, beta 3 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104664167 (LAMB3)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104664167 (LAMB3)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104664167 (LAMB3)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104664167 (LAMB3)   09162 Cancer: specific types    05222 Small cell lung cancer     104664167 (LAMB3)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104664167 (LAMB3)   09174 Infectious disease: parasitic    05146 Amoebiasis     104664167 (LAMB3)    05145 Toxoplasmosis     104664167 (LAMB3) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_N Laminin_EGF Laminin_II ATG16 Sec20 UPF0242 F5_F8_type_C Tropomyosin Motif Other DBs NCBI-GeneID:  104664167 NCBI-ProteinID:  XP_010363916 UniProt:  A0A2K6R8H2 LinkDB All DBs Position 8 AA seq 1172 aa AA seqDB search MRPLFLLCFALPGLLHAQQACSRGACYPPVGDLLVGRTRFLRASSTCGLTKPETYCTQHG EWQMKCCKCDSRQPHNYYSHRVENVASSSGPMRWWQSQNDVNPVSLQLDLDRRFQLQEVM MEFQGPMPAGMLIERSSDFGNTWRVYQYLAADCTSTFPRVRQGRPQSWQDVRCQFLPQRP NARLNGGKVQLNLMDLASGIPATQSKKIQELGEITNLRVNFTRLAPVPQRGYHPPSAYYA VSQLRLQGSCFCHGHADRCAPKPGASAGPSTAVQVHDVCVCQHNTAGPNCEHCAPFYNNR PWRPAEGQDTHECQRCDCNGHSETCHFDPAVFAASQGAYGGVCDNCQDHTEGKNCERCQL HYFRNRRPGASIQETCIPCECDPDGAVPGAPCDPVTGQCVCKEHVQGERCDLCKPGFTGL TYANPQGCHRCDCNILGSRRDMPCDEESGRCLCLPNVVGPKCDQCAPYHWKLASGQGCEP CACDPHNSLSPQCNQFTGQCPCREGFGGLTCSAAAIRQCPDRTYGDAATGCRACDCDFRG TEGPGCNKASGHCLCRPGLTGPRCDQCQRGYCNRYPVCVACHPCFQTYDADLREQALRLG SLRNATTSLWSGPGLEDRGLASRILDAKSKIEQIRAVLSSAAVTEQEVAQVASAILSLRR ALQGLQPDLPLEEETLSLPRDLESLDRSFNGLLTMYQRKREQFEKLSSADPSGAFRMLTT AYEQSAQAVQQVSDSSRLLDQLRDSRREAERLAQQAGGGGGTGSPQLVALRLEMSSLPDL TPTFNKLCGSSRQMACTPGSCPGELCPHDNGTACGSHCRGVLPRAGGAFWTAGQVAEQLR GFNAQLQQTRQMIRAAEESASQIQSNAQRLETQVSTSRSQMEEDVRRTRLLIQQVRDFLT DPDTDAATIQEVSEAVLALWLPTDSATVLQKMNEIQAIAARLPNVDLVLSQTKQDIARAR RLQAEAEEARSRAHAVEGQVEDVVGNLQQGTVALQEAQDTMQGTSRSLRLIQDRVAEVQQ VLQPAEKLVTSMTKQLGDFWTRMEELRRQAWQQRAQAVQAQQLAEGASEQALSAQEGFER IKQKYAELKDRLGQSPTLGEQGARIQSVKTEAEELFGETMEMMDRMKDMELELLRGSQAI MLRSADLTGLEKRVEQIRDHINERVLYYATCK NT seq 3519 nt NT seq  +upstreamnt  +downstreamnt atgagaccactcttcctcttgtgttttgccttacctggcctcctgcatgcccagcaagcc tgctcccgtggggcctgctatccacctgttggggacctgcttgttgggaggacccggttt ctccgagcttcatctacatgtggactgaccaagcctgagacctactgcacccagcatggt gagtggcagatgaaatgctgcaagtgtgactccaggcagcctcacaactactacagtcac cgagtagagaatgtggcttcatcctccggccccatgcgctggtggcagtcacagaatgat gtgaaccctgtctctctgcagctggacctggacaggagattccagcttcaggaagtcatg atggagttccaggggcccatgcccgccggcatgctgattgagcgctcctcagacttcggt aacacctggcgagtgtaccagtacctggctgctgactgcacctccaccttccctcgggtc cgccagggccggcctcagagctggcaggatgttcggtgccagttcctgccccagaggcct aatgcacgcctaaatggggggaaggtccaacttaaccttatggatttagcatctgggatt ccagcaactcaaagtaaaaaaattcaagagctgggggagatcacaaacttgagagtcaac ttcaccaggctggccccagtgccccaaaggggctaccaccctcccagcgcctactatgcc gtgtctcagctccgtctgcaggggagctgcttctgtcacggccatgctgatcgctgcgcc cccaagcctggggcctctgctggcccctccaccgccgtgcaggtccatgatgtctgcgtc tgccagcacaacactgccggcccaaattgtgaacactgtgcgcccttctacaacaaccgg ccctggagacctgcagagggccaggacacccatgaatgccaaaggtgcgactgcaatggg cactcagagacatgtcactttgaccccgctgtgtttgccgccagccagggggcatatgga ggtgtgtgtgacaattgccaggaccacaccgaaggcaagaactgtgagcggtgtcagctg cactatttccggaaccggcgcccgggagcttccattcaggagacctgcatcccctgcgag tgtgatccggatggggcagtgccaggggctccctgtgacccagtgaccgggcagtgtgtg tgcaaggagcatgtgcagggagagcgctgtgacctatgcaagccgggcttcactggactc acctacgccaacccgcagggctgccaccgctgtgattgcaacatcctggggtcccggagg gacatgccgtgtgacgaggagagtgggcgctgcctgtgtctgcccaacgtggtgggcccc aagtgtgaccagtgcgctccctaccactggaagctggccagtggccagggctgtgaaccg tgtgcctgcgacccacacaactccctcagcccccagtgcaaccagtttacagggcagtgc ccctgtcgggaaggctttggtggcctgacatgcagcgctgcagccatccgccagtgtcca gaccggacctatggagacgcagctacaggatgccgagcctgtgactgtgatttccgggga acagagggcccaggctgcaacaaggcatcgggccactgcctctgccgccctggcttgact gggccccgctgtgaccagtgccagcgaggctactgcaaccgctacccggtgtgtgtggcc tgccacccttgcttccagacctatgatgcagacctccgggagcaggccctgcgccttggt agcctccgcaatgccaccaccagcctgtggtcagggccagggctggaggaccgtggcctg gcctcccggatcctagatgcaaagagtaagattgagcagatccgagcagttctcagcagc gccgcagtcacagagcaggaggtggctcaggtggccagtgccatcctctccctcaggcga gctctccagggcctgcagccggatctgcccctagaggaggagacgttgtcccttccgaga gacctggagagtctggacagaagcttcaatggtctcctcactatgtatcagaggaagagg gagcagtttgaaaaactaagcagtgctgatccttcaggagccttccggatgctgaccaca gcctacgagcagtcagcccaggctgttcagcaggtctccgacagctcgcgccttttggac cagctcagggacagccggagagaggcagagaggctggcgcagcaggcgggaggaggagga ggcaccggcagcccccagcttgtggccttgaggctggagatgtcttcgttgcctgacctg acacccaccttcaacaagctctgtggcagctccaggcagatggcttgcactccaggatca tgccctggtgagctgtgtccccatgacaatggcacagcctgtggttcccactgcaggggt gtccttcccagggccggtggggccttctggacggcagggcaggtggctgagcagctgcgg ggcttcaatgcccagctccagcagaccaggcagatgattagggcagccgaggaatcagcc tcgcagattcaatccaatgcccagcgcctggagacccaggtgagcaccagccgctcccag atggaggaagatgtcagacgcacgcggctcctcatccagcaggtccgggatttcctaaca gaccccgacactgatgcagccactatccaggaggtcagcgaggctgtgctggccctgtgg ctgcccacagactcagctaccgttctacagaagatgaacgagatccaggccattgcagcc aggctccccaacgtggacctggtgctgtcacagaccaagcaggacattgcgcgggcccgc aggctgcaggctgaggctgaggaagccaggagccgagcccatgcagtggagggccaggtg gaggatgtggttgggaacctgcagcagggcacagtggcactgcaggaagctcaggacacc atgcaaggcaccagccgctctcttaggcttatccaggacagggttgctgaggttcagcag gtactgcagccagcagaaaagctggtgacaagcatgaccaagcagctgggtgacttctgg acacggatggaggagctccgccgccaagcctggcagcagcgggcacaggcagtccaggcc cagcagcttgcagaaggtgccagcgagcaggcattgagtgcccaagagggatttgagaga ataaaacaaaagtatgctgagttgaaggaccggttgggtcagagtcccacgctgggtgaa cagggtgcccggatccagagtgtgaagacagaggcagaggagctatttggggagaccatg gagatgatggacaggatgaaagacatggagttggagctgctgcggggcagccaggccatc atgctgcgctcagcggacctgacaggactggagaagcgtgtggagcagatccgtgaccac atcaatgagcgtgtgctctactatgccacctgcaagtga

Rhinopithecus roxellana (golden snub-nosed monkey): 104665145 Help Entry 104665145         CDS       T03989                                  Gene name COL4A5 Definition (RefSeq) collagen alpha-5(IV) chain isoform X1   KO K06237   collagen type IV alpha Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04926   Relaxin signaling pathway rro04933   AGE-RAGE signaling pathway in diabetic complications rro04974   Protein digestion and absorption rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104665145 (COL4A5)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104665145 (COL4A5)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104665145 (COL4A5)  09150 Organismal Systems   09152 Endocrine system    04926 Relaxin signaling pathway     104665145 (COL4A5)   09154 Digestive system    04974 Protein digestion and absorption     104665145 (COL4A5)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104665145 (COL4A5)   09162 Cancer: specific types    05222 Small cell lung cancer     104665145 (COL4A5)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104665145 (COL4A5)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104665145 (COL4A5)   09174 Infectious disease: parasitic    05146 Amoebiasis     104665145 (COL4A5)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104665145 (COL4A5)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104665145 (COL4A5) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of other cancer cells    104665145 (COL4A5) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104665145 (COL4A5) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Collagen C4 Motif Other DBs NCBI-GeneID:  104665145 NCBI-ProteinID:  XP_030790447 LinkDB All DBs Position 7 AA seq 1691 aa AA seqDB search MKLRGVSLAAGLFLLALSLWGQPAEAAACYGCSPGSKCDCSGVKGEKGERGFPGLEGHPG LPGFPGPEGPPGPRGQKGDDGIPGPPGPKGIRGPPGLPGFPGTPGLPGMPGHDGAPGPQG IPGCNGTKGERGFPGSPGFPGLQGPPGPPGIPGMKGEPGSIIMSSLPGPKGNPGYPGPPG IQGLPGPTGIPGPIGPPGPPGLMGPPGPPGLPGPKGNMGLNFQGPKGEKGEQGLQGPPGP PGQISEQKRPIDVEFQKGDQGLPGDRGPPGPPGIRGPPGPPGGEKGEKGEQGEPGKRGKP GKDGENGQPGIPGLPGDPGYPGEPGRDGEKGQKGDIGPPGPPGLVIPRPGTGITIGEKGN IGLPGLPGEKGERGFPGIQGPPGLPGPPGAAVVGPPGPPGFPGERGQKGDEGPPGISIPG PPGLDGQPGAPGLPGPPGPPGPHIPPSYEICEAGPPGPPGSPGDKGLQGEQGIKGDKGDT CFNCIGTGISGPPGQPGLPGLPGPPGSLGFPGQKGEKGQAGATGSKGLPGIPGAPGAPGF PGSKGEPGDILTFPGMKGDKGDLGSPGAPGLPGLPGTPGQDGLPGLPGPKGEPGGITFKG ERGPPGNPGLPGLPGNIGPMGPPGFGPPGPVGEKGIQGVAGNPGQPGIPGPKGDPGQAIT QPGKPGLPGNPGRDGEVGLPGDPGLPGQPGLPGIPGSKGEPGIPGIGLPGPPGPKGFPGI PGPPGAPGTPGRIGLEGPPGPPGFPGPKGEPGFALPGPPGPPGLPGFKGTLGPKGDRGFP GPPGPPGRTGVDGLPGPKGDVGPNGQPGPMGPPGLPGIGVQGPPGPPGIPGPIGQPGLHG IPGEKGDPGPPGLDVPGPPGERGSPGIPGAPGSIGPPGSPGLPGKAGASGFPGTKGEMGM MGPPGPPGPLGIPGRSGVPGLKGDDGLQGQPGLPGPAGEKGSKGEPGLPGPPGPMDPNLL GSKGEKGEPGLPGIPGVSGPKGYQGLPGDPGQPGLSGQPGLPGPPGPKGNPGLPGQPGLI GPPGLKGTIGDMGFPGPQGVEGPPGPPGVPGQPGSPGLPGQKGDKGDPGISSIGLPGLPG PKGEPGLPGYPGNPGIKGSVGDPGLPGLPGTPGAKGQPGLPGLPGTPGPPGPKGISGPPG NPGLPGETGPVGGGGRPGQPGPPGEKGKPGQDGIPGPAGQKGEPGQPGFGNPGPPGLPGL SGQKGDGGLPGIPGNPGLPGPKGEPGFHGFPGVQGPPGPPGPPGPALEGPKGNPGPQGPP GRPGPTGFQGLPGPEGPPGLPGNGGIKGEKGNPGQPGLPGLPGLKGDQGPPGLQGNPGRP GLNGMKGDPGLPGVPGFPGMKGPSGIPGSAGPEGEPGLTGPPGPPGLPGPSGQSIIIKGD AGPPGIPGQPGLKGLPGPQGPQGLPGPTGPPGDPGRNGLPGFDGAGGRKGDPGLPGQPGT RGLDGPPGPDGLQGPPGPPGTSSIAHGFLITRHSQTTDAPQCPQGTLQIYEGFSLLYVQG NKRAHGQDLGTAGSCLRRFSTMPFMFCNINNVCNFASRNDYSYWLSTPEPMPVSMQPLKG QSIQPFISRCAVCEAPAVVIAVHSQTIQIPRCPQGWDSLWIGYSFMMHTSAGAEGSGQAL ASPGSCLEEFRSAPFIECHGRGTCNYYANSYSFWLATVDVSDMFSKPQSETLKAGDLRTR ISRCQVCMKRT NT seq 5076 nt NT seq  +upstreamnt  +downstreamnt atgaaactgcgtggagtcagcctggctgccggcttgttcttactggccctgagtctttgg gggcagcctgcagaggctgcggcttgctatgggtgttctccaggatcaaagtgtgactgc agtggcgtaaaaggggaaaagggagagagagggtttccaggtttggaaggacacccagga ttacctggatttccaggtccagaagggcctccagggcctcggggacaaaagggtgatgat ggaattccagggccaccaggaccaaaaggaatcagaggtcctcctggacttcctggattt ccagggacaccaggtcttcctggaatgccaggccatgatggggccccaggacctcaaggt attcctggatgcaatggaaccaagggagaacgtggatttccaggcagtcccggttttccc ggtttacagggtcctccaggaccccctgggatcccaggtatgaagggtgaaccaggtagt ataattatgtcatcactgccaggaccaaagggtaatccaggatatccaggtcctcctgga atacaaggcctacctggtcccactggtataccagggccaattggtcccccaggaccacca ggtttgatgggccctcctggtccaccaggacttccaggaccaaaggggaatatgggctta aatttccagggacccaaaggtgaaaagggtgagcaaggtcttcagggcccacctgggcca cctgggcagatcagtgaacagaaaagaccaattgatgtagagtttcagaaaggagatcag ggacttcctggtgaccgagggcctcctggacctccagggatacgtggtcctccaggtccc ccaggtggtgagaaaggtgagaagggtgagcaaggagagccaggcaaaagaggtaaacca ggcaaagatggagaaaatggccaaccaggaattcctggtttgcctggtgatcctggttac cctggtgaacccggaagggatggtgaaaagggccaaaaaggtgacattggcccacctgga cctcctggacttgtaattcctagacctgggactggtataactataggagaaaaaggaaac attgggttgcctggcttgcccggagaaaaaggagagcgaggatttcctggaatacagggt ccacctggccttcctggacctccaggggctgcagttgtgggtcctcctggccctcctgga tttcctggagaaaggggtcagaaaggtgatgaaggaccacctggaatttccattcctgga cctcctggacttgatggacagcctggggctcctgggcttccagggcctcctggccctcct ggacctcacatccctcctagttatgagatatgtgaagcaggccctccaggccccccagga tctccaggtgataaaggactccaaggagaacaaggaattaaaggtgacaaaggtgacact tgcttcaactgcattggaactggtatttcagggcctccaggtcaacctggtttgccaggt ctcccaggtcctccaggatcccttggtttccctggacagaaaggtgaaaaaggacaagct ggtgcaactggttccaaaggattaccaggcattccaggagctccaggtgctccaggcttt cctggatctaaaggtgaacctggtgatatcctcacttttccaggaatgaagggtgacaaa ggagatttgggttcccctggagctccagggcttcctggtttacctggcactcctggacag gatggattgccaggacttcctggcccgaaaggagagcctggtggaattacttttaagggt gaaagaggtccccctgggaacccaggtttaccaggcctcccagggaatatagggcctatg ggtcctcctggttttggccctccaggcccagtaggtgaaaaaggcatacaaggtgtggca ggaaatccaggccagccaggaataccaggtcctaaaggggatccaggtcaggctataacc cagccagggaagcctggcttgcctggtaacccaggcagagatggtgaagtaggtcttcca ggtgaccctggactcccagggcaaccaggcttgccagggatacctggtagcaaaggagaa ccaggtatccctggaattgggcttcctggaccacctggtcctaaaggctttcctggaatt ccaggacctccaggagcacctgggacacctggaagaattggtctagaaggccctcctggg ccacctggctttccaggaccaaagggtgaaccaggatttgcattacctgggccacctggg ccaccaggacttccaggtttcaaaggaacacttggtccaaaaggtgatcgtggtttccca ggacctccaggtcctccaggacgcactggcgtagatgggctccctggaccaaaaggtgat gttggaccaaatggacaacctggaccaatgggacctcctgggctgccaggaataggtgtt cagggaccaccaggaccaccagggattcctgggccaataggtcaacctggtttacatgga ataccaggagagaagggggatccaggacctcctggacttgatgttccgggacccccaggt gaaagaggcagtccagggatccctggagcacctggttctataggacctccaggatcacca gggcttccaggaaaagcaggtgcctctggatttccaggtaccaaaggtgaaatgggtatg atgggacctccaggcccaccaggacctttgggaattcctggcaggagtggtgtacctggt cttaaaggtgatgatggcttgcagggtcagccaggacttcctggccctgcaggagaaaaa ggtagtaaaggagagcctggccttccaggccctcctggaccaatggatccaaatcttctg ggctcaaaaggagagaagggggagcctggcttaccaggtatacctggagtttcagggcca aaaggttatcagggcttgcctggagacccagggcaacctggactgagtggacaacctgga ttaccaggaccaccaggtcccaaaggtaaccctggtctccctggacagccaggtcttata ggacctcctggacttaaaggaaccatcggcgacatgggttttccagggcctcagggtgtg gaagggcctcctggacctcccggagttcctggacagcctggctccccaggattacctgga cagaaaggcgacaaaggtgatcctggtatttcaagcattggtcttccaggtcttcctggt ccaaagggtgagcctggtctgcctggatacccagggaaccctggtatcaaaggttctgtg ggagatcctggtttgcctggattaccaggaacccccggagcaaaaggacaaccaggcctt cctggactcccaggaaccccaggccctcctggaccaaaaggtattagtggccctcctggg aaccctggccttccaggagaaactggtcctgtaggtggtggaggtcgtcctgggcaacca gggcctccaggcgaaaaaggcaaacccggtcaagatggtattcctggaccagctggacag aagggtgaaccaggtcaaccaggctttggaaacccaggaccccctggacttccaggactt tctggccaaaagggtgatggaggattacctggaattccaggaaatcctggccttccaggt ccaaagggcgaaccaggctttcacggtttccctggtgtgcagggtcccccaggccctcct ggtcctccgggtccagctctggaaggacctaaaggcaaccccgggccccaaggtcctcct gggagaccaggtcctacaggttttcaaggtctaccaggtccggaaggtcccccgggtctc cctggaaatggaggtattaaaggagagaagggaaacccaggccaacctgggctacctggc ttgcctggtttgaaaggagatcaaggaccaccaggactccagggtaatcctggtcggccg ggtctcaatggaatgaaaggagatcctggtctccctggtgttccaggattcccaggcatg aaaggacccagtggaatacctggatcagctggtcctgaaggggaaccgggacttaccggt cctccaggtcctcctggattacctggtccttcaggacagagtatcataatcaaaggagat gctggtcctccaggaatccctggacaacctgggttgaaaggtctaccaggaccccaagga cctcaaggtttaccaggtccaactggccctccaggagatcctggacgcaatggactccct ggctttgatggtgcaggagggcgcaaaggagacccaggtctgccaggacagccaggtacc cgtggtttggatggtccccccgggccagatggattgcaaggtcccccaggtccccccgga acctcctctattgcacatggatttcttattacacgccacagccagacaacggatgcacca caatgcccacagggaacacttcagatctatgaaggcttttctctcctgtatgtacaagga aataaaagagcccatggtcaagacttggggacagctggcagctgccttcgtcgctttagt accatgcctttcatgttctgcaacatcaataatgtttgcaactttgcttcaagaaatgac tattcttactggctgtctaccccagagcccatgccagtgagcatgcaacccctaaagggc cagagcatccagccattcattagtcgatgtgcagtatgtgaagctccagctgtggtaatc gcagttcacagtcagacgatccagattccccgttgtcctcagggatgggattctctgtgg attggttattccttcatgatgcatacaagtgcaggggcagaaggctcaggtcaagcccta gcctctcctggttcctgcttggaagagtttcgttcagctcccttcatcgaatgtcatggg aggggtacctgtaactactatgccaactcctacagcttttggctggcaactgtagatgtg tcagacatgttcagtaaacctcagtcagaaacgctgaaagcaggagacttgaggacacga attagccgatgtcaagtgtgcatgaagaggacataa

Rhinopithecus roxellana (golden snub-nosed monkey): 104666795 Help Entry 104666795         CDS       T03989                                  Gene name LAMC1 Definition (RefSeq) laminin subunit gamma-1   KO K05635   laminin, gamma 1 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05020   Prion disease rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104666795 (LAMC1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104666795 (LAMC1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104666795 (LAMC1)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104666795 (LAMC1)   09162 Cancer: specific types    05222 Small cell lung cancer     104666795 (LAMC1)   09164 Neurodegenerative disease    05020 Prion disease     104666795 (LAMC1)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104666795 (LAMC1)   09174 Infectious disease: parasitic    05146 Amoebiasis     104666795 (LAMC1)    05145 Toxoplasmosis     104666795 (LAMC1) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_N Laminin_B Motif Other DBs NCBI-GeneID:  104666795 NCBI-ProteinID:  XP_010367229 UniProt:  A0A2K6NS10 LinkDB All DBs Position 8 AA seq 1608 aa AA seqDB search MRGSQRAAPALRRRRRLWPVLVVLAAAAAGCAQAAMDECTDEGGRPQRCMPEFVNAAFNV TVVATNTCGTPPEEYCVQTGVTGVTKSCHLCDAGQPHLQHGAAFLTDYNNQADTTWWQSQ TMLAGVQYPSSINLTLHLGKAFDITYVRLKFHTSRPESFAIYKRTREDGPWIPYQYYSGS CENTYSKANRGFIRTGGDEQQALCTDEFSDISPLTGGNVAFSTLEGRPSAYNFDNSPVLQ EWVTATDIRVTLNRLNTFGDEVFNDPKVLKSYYYAISDFAVGGRCKCNGHASECMKNEFD KLVCNCKHNTYGVDCEKCLPFFNDRPWRRATAESASECLPCDCSGRSQECYFDPELYRST GHGGHCTNCQDNTDGAHCERCRENFFRLGNNEACSPCHCSPVGSLSTQCDSYGRCSCKPG VMGDKCDRCQPGFHSLTEAGCRPCSCDPSGSIDECNVETGRCVCKDNVEGFNCERCKPGF FNLESSNPRGCTPCFCFGHSSVCTNAVGYSVYSISSTFQIDEDGWRVEQRDGSEASLEWS SERQDIAVISDSYFPRYFIAPAKFLGKQVLSYGQNLSFSFRVDRRDTRLSAEDLVLEGAG LRVSVPLIAQGNSYPSETTVKYVFRLHEATDYPWRPALTPFEFQKLLNNLTSIKIRGTYS ERSAGYLDDVTLASARPGPGVPATWVESCTCPVGYGGQFCEMCLSGYRRETPSLGPYSPC VLCTCSGHSETCDPETGVCNCRDNTAGPHCEKCSDGYYGDSTAGTSSDCQPCPCPGGSSC AVVPKTKEVVCTNCPTGTTGKRCELCDDGYFGDPLGGNGPVRLCRLCQCNDNIDPNAVGN CNRLTGECLKCIYNTAGFYCDRCKDGFFGNPLAPNPADKCKACNCNPYGTVKQQSSCNPV TGQCECLPHVTGRDCGACDPGFYNLQSGQGCERCDCHALGSTNGQCDIRTGQCECQPGIT GQHCERCEVNHFGFGPEGCKPCDCHPEGSLSLQCKDDGRCECREGFVGNRCDQCEENYFY NRSWPGCQECPACYRLVKDKVADHRVKLQELESLIANLGTGDEMVTDQAFEDRLKEAERE VMDLLREAQDVKDVDQNLMDRLQRVNNTLSSQISRLQNIRNTIEETGNLAEQARAHVENT ERLIEIASRELEKAKVAAANVSVTQPESTGDPNNMTLLAEEARKLAERHKQEADDIVRVA KTANDTSTEAYNLLLRTLAGENQTAFEIEELNRKYEQAKNISQDLEKQAARVHEEAKRAG DKAVEIYASVAQLSPLDSETLENEANNIKMEAENLERLIDQKLKDYEDLREDMRGKELEV KNLLEKGKTEQQTADQLLARADAAKALAEEAAKKGRDTLQEANDILSNLKDFDRRVNDNK TAAEEALRKIPAINQTIIEANEKTREAQQALGNAAADATEAKNKAHEAERIASAVQKNAT STKAEAERTFAEVTDLDNEVNNMLKQLQEAEKELKRKQDDADQDMMMAGMASQAAQEAEI NARKAKNSVTSLLSIINDLLEQLGQLDTVDLNKLNEIEGTLNKAKDEMKVSDLDRKVSDL ENEAKKQEAAIMDYNRDIEEIMKDIRNLEDIRKTLPSGCFNTPSIEKP NT seq 4827 nt NT seq  +upstreamnt  +downstreamnt atgagggggagccagcgggccgcgccggccctgcggcgccggaggcggctctggcccgtg ttggtcgtgctggccgccgccgcggcgggctgtgcccaggcagccatggacgagtgcacg gacgagggcgggcggccgcagcgctgcatgcccgagttcgtcaacgccgccttcaacgtg accgtggtggctaccaacacgtgtgggactccgcccgaggagtactgtgtgcagaccggg gtgaccggggtcaccaagtcctgtcacctgtgcgacgccgggcagccccacctgcagcac ggggcagccttcctgaccgactacaacaaccaggccgacaccacctggtggcaaagccag accatgctggctggggtgcagtaccccagctccatcaacctcacgctgcacctgggaaaa gcttttgacatcacctacgtgcgtctcaagttccacaccagccgcccagagagctttgcc atttacaagcgcacgcgggaagatgggccctggatcccttaccagtactacagtggttcc tgcgagaacacctactccaaggcaaaccgcggcttcatcaggacaggaggggacgagcag caggccttgtgtactgatgaattcagtgacatttctcccctcactgggggcaacgtggcc ttttctaccctggaaggaaggccaagtgcctataactttgacaatagccctgtgctgcag gaatgggtaactgccactgacatcagagtaactcttaatcgcctgaacacttttggagat gaagtgtttaacgatcccaaagttctcaagtcctattattatgcgatctctgattttgct gtgggtggcagatgtaaatgtaatggacacgcaagcgagtgtatgaagaacgaatttgat aagctggtgtgtaactgcaaacataacacatatggagtagactgtgaaaagtgtcttcct ttcttcaatgaccggccatggaggagggcaactgcggaaagtgccagtgaatgcctgccc tgtgactgcagtggtcgatcccaggaatgctacttcgaccctgaactctatcgttctact ggccatgggggtcactgtaccaactgccaggataacacagatggcgcccactgtgagagg tgccgggagaacttcttccgccttggaaacaatgaagcctgctctccatgccactgtagt cctgtgggctctctaagcacacagtgtgatagttacggcagatgcagctgtaagccagga gtaatgggggacaaatgtgaccgttgccagcctggattccattctctcactgaggcagga tgcaggccatgctcttgtgatccctctggcagcatagatgaatgtaatgttgaaacagga agatgtgtttgcaaagacaatgtcgaaggcttcaattgtgaaagatgcaaacctggattt tttaatctggaatcatctaatcctaggggttgcacaccctgcttctgctttgggcattct tctgtctgtacaaatgctgttggctacagtgtttattctatctcctctacctttcagatt gatgaggatgggtggcgtgtggaacagagagatggctctgaagcatctctcgaatggtcc tctgagaggcaagatattgccgtgatctcagacagctactttcctaggtacttcattgct cctgcaaagttcttgggcaagcaggtgttgagttatggtcagaacctctccttctccttt cgagtggacaggcgagatactcgcctctctgcagaagaccttgtgcttgagggagctggc ttaagggtatctgtgcccttgatcgctcagggcaattcctatccaagtgagaccactgtg aagtatgtcttcaggctccatgaagcaacagattacccttggaggcctgctcttacccct tttgaatttcagaagctcctaaacaacttgacctctatcaaaatccgtgggacatacagt gagagaagtgctggatatttggatgatgtcaccctggcaagtgctcgtcctgggcctgga gtccctgcaacttgggtggagtcctgcacctgtcctgtgggatatggagggcagttttgt gagatgtgcctttcaggttacagaagagaaactcctagtcttggaccatacagtccatgt gtgctttgcacctgcagtggacacagcgagacctgtgatcctgagacaggtgtttgtaac tgcagagacaatacggctggcccgcactgtgagaagtgcagtgatgggtactatggggat tcaactgcgggaacctcctctgattgccagccctgtccgtgtcccggaggctcaagttgt gctgttgtccccaagacaaaagaggtggtgtgcaccaactgtcctactggcaccactggt aagagatgtgagctctgtgatgatggctactttggagaccccctgggtggaaacggccct gtgagactttgccgcctgtgccagtgcaatgacaacatcgatcccaacgcagttgggaat tgcaatcgtttgacaggagaatgcctgaagtgcatctataatactgctggcttctattgt gaccggtgcaaagacggattttttggaaatcccctggctcccaatccagcagacaaatgc aaagcctgcaattgcaatccgtatgggacagtgaagcagcagagcagctgtaaccccgtg acggggcaatgtgaatgtttgcctcacgtgactggccgggactgtggtgcttgcgaccct ggattctacaacctgcagagtgggcaaggctgtgagaggtgtgactgccatgccttgggc tccaccaatgggcagtgtgacatccgcaccggccagtgtgagtgccagcctggcatcacc ggtcagcactgtgagcgttgtgaggtcaaccactttgggtttggacctgaaggctgcaaa ccctgtgactgtcatcccgaggggtctctttcacttcagtgcaaagacgatggtcgctgt gaatgcagagaaggctttgtgggaaatcgctgtgaccagtgtgaagaaaactatttctac aaccggtcttggcctggctgccaggaatgtccagcttgttaccgtttggtaaaggataag gttgctgatcatcgagtgaagctccaggaattagagagtctcatagcaaaccttggaact ggggatgagatggtgacggatcaagccttcgaggatagactaaaggaagcagagagggaa gttatggacctccttcgtgaggcccaagatgtcaaagatgttgaccagaatttgatggat cgcctacagagagtgaataacactctgtccagccaaattagccgtttacaaaatatccgg aataccattgaagagactggaaacttggctgaacaagcacgtgcccatgtagagaacaca gagaggttgattgaaatcgcgtccagagaacttgagaaagcaaaagtcgctgctgccaat gtgtcagtcactcagccagaatctacaggggacccaaacaacatgactcttttggcagaa gaggctcgaaagcttgctgaacgtcataaacaggaagctgatgacattgttcgagtggca aagacagccaatgatacatcaactgaggcatacaacctgcttttgaggacattggcagga gaaaatcaaacagcatttgagattgaagagcttaataggaagtatgaacaagcgaagaac atctcacaggatctggaaaaacaagctgcccgagtacatgaggaggccaaaagggccggt gacaaagctgtggagatctatgccagcgtggctcagctgagccctttggactctgagaca ctggagaatgaagcaaataacataaagatggaagctgagaatctggaacgtctgattgac cagaaattgaaagattatgaggacctcagagaagacatgagagggaaggaacttgaagtc aagaaccttctggagaaaggaaagactgaacagcagaccgcagaccaactcctagcccga gctgatgctgccaaggccctcgccgaagaagctgcaaagaagggacgtgataccttacaa gaagctaatgacattctcagcaacctgaaagattttgataggcgcgtgaacgataacaag acagccgcagaggaggcactaaggaagattcctgccatcaaccagaccatcattgaagcc aatgaaaagaccagggaagcccagcaggccctgggcaacgctgcggcggacgccacagag gccaagaacaaggcccatgaggcggagaggatcgcgagcgctgtccaaaagaatgccacc agcaccaaggcagaagctgaaagaacttttgcagaagttacagatctggataatgaggtg aacaatatgttgaagcaactacaggaagcagaaaaagagctaaagagaaaacaagatgat gctgaccaggacatgatgatggcagggatggcttcacaggctgctcaagaagccgagatc aatgccagaaaagccaagaactctgttactagcctcctcagcattattaatgacctcttg gaacagctggggcagctcgacacagtggacctgaataagctaaacgagattgaaggcacc ctaaacaaagccaaagatgaaatgaaggtcagcgatcttgataggaaagtgtctgacctg gagaatgaagccaagaagcaggaggctgccatcatggactataatcgagatatcgaggag atcatgaaggacattcgcaatctggaagacatcaggaagaccttaccatctggctgcttc aacaccccgtccattgaaaagccctag

Rhinopithecus roxellana (golden snub-nosed monkey): 104666798 Help Entry 104666798         CDS       T03989                                  Gene name LAMC2 Definition (RefSeq) laminin subunit gamma-2   KO K06246   laminin, gamma 2 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104666798 (LAMC2)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104666798 (LAMC2)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104666798 (LAMC2)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104666798 (LAMC2)   09162 Cancer: specific types    05222 Small cell lung cancer     104666798 (LAMC2)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104666798 (LAMC2)   09174 Infectious disease: parasitic    05146 Amoebiasis     104666798 (LAMC2)    05145 Toxoplasmosis     104666798 (LAMC2) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_B Motif Other DBs NCBI-GeneID:  104666798 NCBI-ProteinID:  XP_010367231 UniProt:  A0A2K6RWZ8 LinkDB All DBs Position 8 AA seq 1193 aa AA seqDB search MPALWLGCCLCFSLLLPAARATSRREVCDCNGKSRQCIFDQELYRQTGNGFRCLNCNDNT DGIHCERCKDGFYRHRERDRCLPCNCNSKGSLSARCDNSGRCSCKPGVTGARCDRCLPGF HMLTDAGCTQDQRLLDSKCDCDPAGIAGPCDAGRCVCKPAVTGERCDRCRSGYYNLDRGN PEGCTQCFCYGHSASCRSSADYSVHKITSTFNQDVDGWKAVQRNGSPAKLQWSQRHQDVF SSARRPDPVYFVAPAKFLGNQQVSYGQSLSFDYRVDRGGRHPSAHDVILEGAGLRITAPL MPLGKTLPCGLTKTYTLRLNEHPSSNWSPQLSYFEYRRLLRNLTALRIRATYGEYSTGYI DNVTLISARPVSGAPAPWVEQCICPVGYKGQFCQDCASGYKRDSAKLGPFGTCIPCNCQG GGACDPDTGDCYSGDENPDIECADCPIGFYNDPHDPRSCKPCPCHNGFSCSVMPETEEVV CNNCPPGVTGARCELCADGYFGDPFGEHGPVRPCQPCQCNNNVDPSASGNCDRLTGRCLK CIHNTAGIYCDQCKAGYFGDPLAPNPAEKCRACNCNPMGSEPVECRSDGTCVCKPGFGGP NCEHGAFSCPACYNQVKIQMDQFMQQLQRMEALISKAQGGDGAVLDTELEGRMQQAEQAL RDILRDAQISEGASRSLGLQLAKVRSQENSYRSRLDDLKMTVERVRALGSQYQNQVRDTH RLITQMQLSLAESEASLGNTNIPASDHYVGPNGFKSLAQEATRLAESHVESASNMEQLTK ETEDYSKQALSLVHKALREGGGSGSGNRDGAVVQGVVEKLEKTKSLAQQLTREATQAETE ADRSYQHSLRLLDSVSQLQGVNDQSFQVEEAKRIKQKADSLSSLVTRHMDEFKRAQKNLG DWEEETQQLLQNGKNGREKSDQLLSRANLAKSRAQEALSMGNATFYEVESILKNLREFDL QVDNRKAEAEEAMKRLSYISQKVSDASDKTRQAERALGSAAADAQRAKNGAREALEISSE IEQEIGSLNLEANVTADGALAMEKGLASLKTEMREVEGELERKELEFDTNMDAVQMVITE AQKVDTRAKNTGVTIQDTLNTLDGLLHLMDQPVSVDEEGLILLEQKLSRAKNQINSQLRP MMSELEERARRQRGHLHLLETSIDGILADVKNLENIRDNLPPGCYNTPVLEQQ NT seq 3582 nt NT seq  +upstreamnt  +downstreamnt atgcctgcgctctggctgggctgctgcctctgcttctcgctcctcctgcccgcagcccgg gccacctccaggagggaagtctgtgattgcaatgggaagtccaggcagtgtatctttgat caggaactttacagacaaactggtaatggattccgctgcctcaactgcaatgacaacact gatggcattcactgcgagaggtgcaaggacggcttttaccggcacagagaaagggaccgc tgtttgccctgcaattgtaactccaaaggttctcttagtgctcgatgtgacaactccgga cggtgcagctgtaaaccgggtgtgacaggagccagatgcgaccgatgtctgccaggcttc cacatgctcacggatgcggggtgcacccaagaccagagactgctagactccaagtgtgac tgtgacccagctggcatcgcagggccctgtgacgcgggccgctgtgtctgcaagccagct gtcactggagaacgctgtgataggtgtcgatcaggttactataatctggatcgggggaac cctgagggctgtacccagtgtttctgctatgggcattcagccagctgccgcagctctgca gactacagtgtccataagatcacctctacctttaatcaagatgttgatggctggaaggct gtccaacgaaatgggtctcctgcaaagctccaatggtcgcagcgccatcaagatgtgttt agctcagcccgacgaccagaccctgtctattttgtggctcctgccaaatttcttgggaat caacaggtgagctatgggcaaagcctgtcctttgactaccgtgtggacagaggaggcaga cacccatctgcccacgatgtgatcctggaaggtgctggtctacggatcacagctcccttg atgccacttggcaagacactgccttgtgggctcaccaagacttacacactcaggttaaat gagcatccaagcagtaattggagcccccagctgagttactttgagtatcgaaggttactg cggaatctcacagccctccgcatccgagctacatatggagaatacagtactgggtacatt gacaatgtgaccctgatttcagcccgacccgtctctggagccccggcaccctgggttgaa cagtgtatatgtcctgttgggtacaaggggcaattctgccaggattgtgcttctggctac aagagagattcagcaaaactggggccttttggcacctgtattccttgtaactgtcaaggg ggaggggcctgtgatccagacacaggagattgttattcaggggatgagaatcctgacatt gagtgtgctgactgcccaattggtttctacaatgatccacacgacccccgcagctgcaag ccatgtccctgtcataacgggttcagctgctcagtgatgccagagacagaggaggtggtg tgcaataactgccctcccggggtcaccggtgcccgctgtgagctctgtgctgatggctac tttggggacccctttggtgaacatggcccagtgaggccttgtcagccctgtcaatgcaac aacaatgtggaccccagtgcctctgggaactgtgaccggctgacaggcaggtgtctgaag tgtatccacaacacagccggcatctactgcgaccagtgcaaagcaggctacttcggggac ccgttggctcccaatccagcagaaaagtgtcgagcttgcaactgcaaccccatgggctca gagcctgtagaatgtcgaagtgatggcacctgtgtttgtaagccaggatttggtggcccc aactgtgagcacggagcattcagctgtccagcttgctataatcaagtgaagattcagatg gatcagtttatgcagcagcttcagagaatggaggccctgatttcaaaggctcagggtggt gatggagcagtacttgatacagagctggaaggcaggatgcagcaggctgagcaggccctt cgggacattctgagagatgcccagatttcagaaggtgctagcagatcccttggtctccag ttggccaaggtgaggagccaagagaacagctaccggagccgcctggatgacctcaagatg actgtggaaagagttcgggccctgggaagtcagtaccagaaccaagttcgggatactcac aggctcatcactcagatgcaactgagcctggcagaaagtgaagcttccttgggaaacact aacattcctgcctcagaccactacgtggggccaaatggctttaaaagtctggctcaggag gccacgagattagcagaaagccacgttgagtcggccagtaacatggagcaactgacaaaa gaaactgaggactattccaaacaagccctctcactggtgcacaaggccctccgtgaagga ggcggaagcggaagcggtaaccgggacggtgctgtggtgcagggggttgtggaaaaattg gagaaaaccaagtccctggcccagcagttgacaagggaggccactcaagcggaaactgaa gcagataggtcttatcagcacagtctccgcctcctggattcagtgtctcagcttcaggga gtcaatgatcagtcctttcaggtggaagaagcaaagaggatcaaacaaaaagctgattca ctctcaagcctggtgaccaggcatatggatgagttcaaacgtgcacaaaagaatctggga gactgggaagaagaaacacagcagctcttacagaatggaaagaatgggagagagaaatca gatcagctgctttcccgtgccaatcttgctaaaagcagagcacaagaagcactaagtatg ggcaatgccactttttatgaagttgagagcatccttaaaaacctcagagagtttgacctg caggtggacaacagaaaagcagaagctgaagaagccatgaagagactctcctacatcagc cagaaggtttcagacgccagtgacaagacccggcaagcagaaagagccctggggagtgct gctgctgacgcacagagggcaaagaatggggccagggaggccctggagatctccagtgag attgaacaggagattgggagtctgaacttggaagccaatgtgacagcagatggagccttg gccatggaaaagggactggcctctcttaagactgagatgagggaagtggaaggagagctg gaaaggaaggagctggagtttgacacgaatatggatgcagtacagatggtgattacagaa gcccagaaggttgacaccagagccaagaacactggggttacaatccaagacacactcaac acattggatggcctcctgcatctgatggaccagcctgtcagtgtagatgaagaggggctg atcttattggagcagaagctttcccgagccaagaaccagatcaacagccaactgcggccc atgatgtcagagctggaagagagggcacgtcggcagaggggccacctccatttgctggag acaagcatagatgggattctggctgatgtgaagaacttagagaacattagggacaaccta cccccaggctgctacaataccccggttcttgagcaacagtga

Rhinopithecus roxellana (golden snub-nosed monkey): 104667469 Help Entry 104667469         CDS       T03989                                  Gene name LAMB2 Definition (RefSeq) laminin subunit beta-2   KO K06243   laminin, beta 2 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104667469 (LAMB2)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104667469 (LAMB2)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104667469 (LAMB2)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104667469 (LAMB2)   09162 Cancer: specific types    05222 Small cell lung cancer     104667469 (LAMB2)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104667469 (LAMB2)   09174 Infectious disease: parasitic    05146 Amoebiasis     104667469 (LAMB2)    05145 Toxoplasmosis     104667469 (LAMB2) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_N F5_F8_type_C Sec5 Motif Other DBs NCBI-GeneID:  104667469 NCBI-ProteinID:  XP_010368201 UniProt:  A0A2K6QAI5 LinkDB All DBs Position 1 AA seq 1798 aa AA seqDB search MELTSREGGRGQPLPWELRLGLLLSVLAATLAQAPAPDVPGCSRGSCYPATGDLLVGRAD RLTASSTCGLNGPQPYCIVSHLQDEKKCFLCDSRRPFSARDNPHSHRIQNVVTSFAPQRR AAWWQSENGIPAVTIQLDLEAEFHFTHLIMTFKTFRPAAMLVERSADFGRTWHVYRYFSY DCGADFPGVPLAPPRHWDDVVCESRYSEIEPSTEGEVIYRVLDPAIPIPDPYSSRIQNLL KVTNLRVNLTRLHTLGDNLLDPRREIREKYYYALYELVVRGNCFCYGHASECAPAPGAPA HAEGMVHGACICKHNTRGLNCEQCQDFYHDLPWHPAEDGHSHACRKCECHGHTHSCHFDM AVYLASGNVSGGVCDGCQHNTAGRHCELCRPFFYRDPTKDLRDPAVCRSCDCDPMGSQDG GRCDSHDDPALGLVSGQCRCKEHVVGTRCQQCRDGFFGLSISDPLGCRRCQCNARGTVPG STPCDPNSGSCYCKRLATGRGCDRCLPGHWGLSHDLLGCRLCDCDVGGALDPQCDEATGQ CHCRQHMVGRRCEQVQPGYFRPFLDHLTWEAEDTRGQVLDVVERLVTPGETPSWTGSGFV RLREGQALEFLVASVPKAMDYDLLLRLEPQVPEQWAELELTVQRPGPVPAHSLCGHVLPK DDHIQGTLQPHARYIVFPNPVCLEPAISYKLHLKLVRTGGSAQPETPYSGPGLLIDSLVL LPRALVLEMFSGGDAAALERRATFERYQCQEEGLVPSKTSPSEACAPLLLSLSTLIYNGA LSCQCNPQGSLSSECNPHGGQCLCKPGVVGRRCDLCAPGYYGFGPTGCQACQCSHEGALS SLCEKTSGQCPCRTGAFGLHCDRCQRGQWGFPNCRPCVCNGHADECDTHTGACLGCRDHT GGEHCERCIAGFHGDPRLPYGGQCRPCPCPEGPGSQRHFATSCHRDEYSQKIVCHCRAGY TGLRCEACAPGHFGDPSRPGGRCQLCECSGNIDPMDPDACDPHTGQCLRCLHHTEGPHCA HCKPGFHGQAARQSCHRCTCNLLGTNPQQCPSPDQCHCDPSSGQCPCLPNVQGPSCDHCA PNFWNFTSGHGCHPCACHPRQARGPTCNEFTGQCYCRAGFGGRTCSECEELHWGDPGLQC RACDCDPRGTDKPQCHRSTGHCSCRPGVSGVRCDQCARGFSGFFPACHPCHACFGDWDRV VQDLAARTRRLEQRTQELQQTGVLGAFESSFWHIQERLGIVQGIVGARNTSAASTAQLVE ATEELRREIGEATEHLTQLEAELTDVQDENFNANHALSGLERDRLALNLTLRQLDQHLDL LKHSNFLGAYDSIRHAHSQSAEAERCANTSALAVPSPVSNSASARHRTEALMDAQNEDFN SKHMANQRALGKLSARTHTLSLTGINELVCGAPGDAPCATSPCGGAGCRDEDGQPRCGGL SCNGAAATADLALGRARHTQAELQRALAEGGSILSRVAETRRQASEAQQRAQAALDKANA SRGQVEQANQELRELVQSVKDFLNQEGADPDSIEMVATRVLELSIPASAEQIQHLAGAIA ERVQSLADVDAILARTVGDVRRAEQLLQDARRARSRAEGEKQKAETVQAALEEAQRAQGV AQGAIQGAVADTRDTEQTLYQVQERMAGAEQALSSAGERARQLDALLEALKLKRAGNSLA ASTAEETAGSAQGRAQEAEQLLRGPLGDQYQTVKALAERKAQGVLAAQARAEQLRDEARD LLQSAQDKLQRLQELEGTYEENERALEGKAAQLDGLEARMRSVLQAINLQVQIYNTCQ NT seq 5397 nt NT seq  +upstreamnt  +downstreamnt atggagctgacctcaagggaaggagggaggggacagcctctgccctgggaacttcgactg ggcctactgctaagcgtgctggccgccacactggcacaggcccctgccccggatgtgcct ggctgttcgaggggaagctgctaccccgccacgggcgacctgctggtgggccgagctgac agactgactgcctcatccacctgtggcctgaatggcccccagccctactgcatcgtcagt cacctgcaggatgaaaagaagtgcttcctttgcgactcccggcgccccttctctgctaga gacaacccacacagccatcgcatccagaacgtagtcaccagctttgcaccacagcggcgg gcagcctggtggcagtcagagaatggtatccctgcggtcaccatccaactggacctggag gctgagtttcatttcacacacctcattatgaccttcaagacatttcgccctgctgccatg ctggtggaacgctcagcagactttggccgcacctggcatgtgtaccgatatttctcctat gactgtggggctgacttcccaggagtcccactagcccctccacggcactgggatgatgta gtctgtgagtcccgctactcagagattgagccatccactgaaggcgaggtcatctatcgt gtgttggaccctgccatccctatcccagacccctacagctcacggattcagaacctgttg aaggtcaccaacctacgggtgaacctgactcgtctacacacattgggagacaacctactc gacccacggagggagatccgagagaagtactactatgccctctatgagctggttgtacgt ggcaactgcttctgctatggacacgcctcagagtgtgcacccgccccaggggcaccagcc catgctgagggcatggtgcacggagcttgcatctgcaaacacaacacacgtggcctcaac tgcgaacagtgtcaggatttctatcatgacctgccctggcatccggctgaggacggccat agtcatgcctgtaggaagtgtgagtgccatgggcacacccacagctgccacttcgacatg gctgtatacctggcatctggcaatgtgagtggaggtgtgtgtgatggatgtcagcataac acagctgggcgccactgtgagctctgtcggcccttcttctaccgtgacccaaccaaggac ctgcgggatccggctgtgtgccgctcctgtgattgtgaccccatgggttctcaagacggc ggtcgctgtgattcccatgatgaccctgcactgggactggtctcgggccagtgtcgctgc aaagaacatgtggtgggcactcgctgccaacaatgccgtgatggcttctttgggctcagc atcagtgaccctctgggctgccggcgatgtcaatgtaatgcacggggcacggtgcctggg agtactccttgtgaccccaacagtggatcctgttattgcaaacgtctagcgactggacgt ggatgtgaccgctgcctgcctggccactggggcctgagccacgacctgctcggctgccgc ctctgtgactgcgacgtgggtggtgccttggatccccagtgtgatgaggccacaggtcaa tgccactgccgccagcacatggtcgggcgacgctgtgagcaggtgcaacctggctacttc cggcccttcctggaccacctaacttgggaggctgaggacacccgagggcaggtgctcgat gtggtggagcgcctggttactcccggggaaactccatcctggactggctcaggctttgtg cggctacgggagggtcaggccctggagttcctcgtggcctctgtgccgaaggccatggac tatgacctgctgctgcgcttagaaccccaggtccctgagcaatgggcagagttggaactg actgtgcagcgtccagggcctgtgcctgctcacagcctgtgtgggcatgtgctgcccaag gatgaccacatccaagggactctgcaaccacacgccaggtacatagtgtttcccaatcct gtctgccttgagcctgctatctcctacaagctgcatctgaagctggtacgcacaggggga agtgcccagcctgagactccctactctggacctggcctgctcattgactcgctggtgctg ctgccccgtgccctggtgctagagatgtttagtgggggtgatgctgctgccctggagcgc cgggccacctttgaacgctaccaatgccaggaggagggtctggtgcccagcaagacttct ccctctgaggcctgcgcgcccctcctcctcagcctgtccaccctcatctacaatggtgcc ctgtcatgtcagtgcaaccctcaaggttcactgagttctgagtgcaaccctcatggcggt cagtgcctgtgcaagcctggagtggttgggcgccgctgtgacctctgtgcccctggctac tatggctttggccccacaggctgtcaagcctgccagtgcagccacgagggggcgctcagc agtctctgtgaaaagaccagtgggcaatgtccctgtcgaactggtgcctttgggcttcac tgtgaccgctgccagcgtggccagtggggattccctaactgccggccatgtgtctgcaat gggcatgcagatgagtgcgacacccacacaggcgcttgcctgggctgccgtgatcacaca gggggtgagcactgtgaaaggtgcattgctggtttccatggggacccacgactgccatat gggggccagtgccggccctgtccatgtcctgaaggtcctgggagccagcggcactttgct acttcttgccaccgggatgaatattcccagaagattgtgtgccactgccgggcaggctac acggggctgcgatgtgaagcttgtgcccctgggcactttggggacccatcaaggccaggt ggccggtgccaactgtgtgagtgcagtgggaacattgacccaatggatcctgatgcctgt gacccccacacggggcaatgcctgcgctgtttacaccacacagagggtccacactgtgcc cactgcaagcctggcttccacgggcaggctgcccgacagagctgtcaccgctgcacctgc aacctgctgggcacaaatccccagcagtgcccgtctcctgaccagtgccactgtgatcca agcagtgggcagtgcccatgcctccccaatgtccagggccctagttgtgaccactgtgcc cccaacttctggaacttcaccagcggccatggttgccatccttgtgcctgccacccaaga caggccagaggccccacctgcaatgagttcacagggcagtgctactgccgtgccggcttt ggagggcggacttgttctgagtgcgaagagctccactggggagaccctgggttgcagtgc cgtgcctgtgattgtgaccctcgtggaacagataaacctcagtgtcaccgctccacaggt cactgcagctgccgcccaggcgtgtctggtgtgcgctgtgaccagtgtgcccgtggcttc tcaggattctttcctgcctgccatccctgccatgcatgcttcggggattgggaccgagtg gtgcaggacttggctgcccgtacacggcgcctagagcagcggacacaggagttgcagcag acgggtgtgctgggtgcctttgagagcagcttctggcatatacaggagaggctgggcatt gtgcagggcatcgtaggtgcccgcaacacctcagccgcctccactgcacagcttgtggag gccacagaggagctgcggcgtgaaattggggaggccactgagcacctgactcaactggag gcagagctgacagatgtgcaggatgagaacttcaatgccaaccatgcactaagtggtctg gagcgagacaggcttgcacttaatctcacactgcggcagctggaccagcatcttgacttg ctcaaacattcaaacttcctaggtgcctatgacagcatccggcatgcccatagccagtct gcagaggcagaacgttgtgccaacacctcggccctggcagtacctagccctgtgagcaac tcggcaagtgctcggcatcggacagaggcactgatggatgcccagaatgaggacttcaac agcaaacacatggccaaccagcgagccctgggcaagctctctgcccgtacccacaccctg agcctgacaggcataaatgagctggtgtgtggggcaccaggggatgcaccctgtgctaca agcccttgtgggggtgccggctgtcgagatgaggatgggcagccccgctgtgggggcctc agctgcaatggggcagcggctacagcagacctagcactgggccgggcccggcacacacag gcagagctgcagcgggcactggcagaaggtggtagcatcctcagcagagtggctgagact cgtcggcaggcaagtgaggcacagcagcgggcccaggcagctctggacaaggctaatgct tccaggggacaggtggaacaggccaaccaggaacttcgagaacttgtccagagtgtgaag gacttcctcaaccaggagggggctgatcctgatagcattgagatggtggccacacgggtg ctagagctctccatcccagcttcagctgagcagatccagcacctggcgggtgcgattgca gagcgagtccagagcctggcggatgtggacgcgatcctggcacgtactgtaggagatgtg cgtcgtgccgagcagttactgcaggatgcacggcgggcaaggagccgggctgagggtgag aaacagaaggcagagacagtacaggcagcactggaggaggcccagcgggcacagggtgtt gcccagggtgccatccagggggcagtggctgacacacgggacacagagcagaccctatac caggtacaggagaggatggcaggtgcagagcaggcactgagctctgcaggtgaaagggct cggcagttggatgctctcctggaggctctgaagttgaaacgggcgggaaatagtctggca gcctctacagcagaagaaacggcaggcagtgcccagggtcgtgcccaggaggctgagcag ctgctacggggccctctgggtgatcagtaccagacggtgaaggccctggctgagcgcaag gcccagggtgtgctagctgcacaggcaagggcagagcaactgcgggatgaggctcgggac ctgttgcagtccgctcaggacaagctgcagcggctacaggaactggaaggcacctatgag gagaatgagcgggcactggagggtaaggcagcccagctggacgggctggaggccaggatg cgcagtgtgcttcaagccatcaacttgcaggtgcagatctacaacacctgccagtga

Rhinopithecus roxellana (golden snub-nosed monkey): 104669238 Help Entry 104669238         CDS       T03989                                  Gene name FN1 Definition (RefSeq) fibronectin isoform X1   KO K05717   fibronectin 1 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04810   Regulation of actin cytoskeleton rro04933   AGE-RAGE signaling pathway in diabetic complications rro05100   Bacterial invasion of epithelial cells rro05135   Yersinia infection rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05205   Proteoglycans in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104669238 (FN1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104669238 (FN1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104669238 (FN1)   09142 Cell motility    04810 Regulation of actin cytoskeleton     104669238 (FN1)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104669238 (FN1)    05205 Proteoglycans in cancer     104669238 (FN1)   09162 Cancer: specific types    05222 Small cell lung cancer     104669238 (FN1)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104669238 (FN1)   09171 Infectious disease: bacterial    05135 Yersinia infection     104669238 (FN1)    05100 Bacterial invasion of epithelial cells     104669238 (FN1)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104669238 (FN1)   09174 Infectious disease: parasitic    05146 Amoebiasis     104669238 (FN1)  09180 Brite Hierarchies   09182 Protein families: genetic information processing    04131 Membrane trafficking [BR:rro04131]     104669238 (FN1)   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104669238 (FN1)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104669238 (FN1)    04990 Domain-containing proteins not elsewhere classified [BR:rro04990]     104669238 (FN1) Membrane trafficking [BR:rro04131]  Endoplasmic reticulum (ER) - Golgi transport   Forward pathways    ER-Golgi intermediate compartment (ERGIC) proteins     104669238 (FN1) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of bladder cancer cells    104669238 (FN1) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104669238 (FN1) Domain-containing proteins not elsewhere classified [BR:rro04990]  Fibronectin (FN) domain-containing proteins   Fibronectin type I domain-containing proteins    104669238 (FN1) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  fn3 fn1 Pur_ac_phosph_N fn2 DUF2369 Motif Other DBs NCBI-GeneID:  104669238 NCBI-ProteinID:  XP_010370466 LinkDB All DBs Position 14 AA seq 2389 aa AA seqDB search MLRGPGPGPGLLLLAVLCLGTAVPSTGASKSKRQAQQMVQPQSPVAVSQSKPGCYDNGKH YQINQQWERTYLGNALVCTCYGGSRGFNCESKPEAEETCFDKYTGNTYRVGDTYERPKDS MIWDCTCIGAGRGRISCTIANRCHEGGQSYKIGDTWRRPHETGGYMLECVCLGNGKGEWT CKPIAEKCFDHAAGTSYVVGETWEKPYQGWMMVDCTCLGEGSGRITCTSRNRCNDQDTRT SYRIGDTWSKKDNRGNLLQCICTGNGRGEWKCERHTTVQTTSSGSGPFTDVRAAVYQPQP HPQPAPYGHCVTDSGVIYSVGMQWLKTQGNKQMLCMCLGNGVSCQETAVTQTYGGNSNGE PCVLPFTYNGRTFYSCTTEGRQDGHLWCSTTSNYEQDQKYSFCTDHTVLVQTRGGNSNGA LCHFPFLYNNHNYTDCTSEGRRDNMKWCGTTQNYDADQKFGFCPMAAHEEICTTNEGVMY RIGDQWDKQHDMGHMMRCTCVGNGRGEWTCIAYSQLRDQCIVDDITYNVNDTFHKRHEEG HMLNCTCFGQGRGRWKCDPVDQCQDSETGTFYQIGDSWEKYVHGVRYQCYCYGRGIGEWH CQPLQTYPSSSGPVEVFITETPSQPNSHPIQWNAPQPSHISKYILRWRPKNSVGRWKEAT IPGHLNSYTIKGLKPGVVYEGQLISIQQYGHREVTRFDFTTTSTSTPVTSNTVTGETTPL SPLVATSESVTEITASSFVVSWVSASDTVSGFRVEYELSEEGDEPQYLDLPSTATSVNIP DLLPGRKYIVNVYQISEDGEQSLILSTSQTTAPDAPPDPTVDQVDDTSIVVRWSRPQAPI TGYRIVYSPSVEGSSTELNLPETANSVTLSDLQPGVQYNITIYAVEENQESTPVVIQQET TGTPRSDTVPSPRDLQFVEVTDVKVTIMWTPPESAVTGYRVDVIPVNLPGEHGQRLPTSR NTFAEVTGLSPGVTYYFKVFAVNHGRESKPLTAEQTTKLDAPTNLQFVNETDSTVLVRWT PPRAQITGYRLTVGLTRRGQPRQYNVGPSVSKYPLRNLQPGSEYTVSLVAIKGNQESPKA TGVFTTLQPGSSIPPYNTEVTETTIVITWTPAPRIGFKLGVRPSQGGEAPREVTSDSGSI VVSGLTPGVEYVYTIQVLRDGQERDAPIVNKVVTPLSPPTNLHLETNPDTGVLTVSWERS TTPDITGYRITTTPTNGQQGYSLEEVVHADQSSCTFDNLSPGLEYNVSVYTVKDDKESVP ISDTIIPAVPPPTDLRFTNIGPDTMRVTWAPPPSIDLTNFLVRYSPVKNEEDVAELSISP SDNAVVLTNLLPGTEYVVSVSSVYEQHESTPLRGRQKTGLDSPTGIDFSDITANSFTVHW IAPRATITGYRIRHHPEHYSGRPREDRVPPSRNSITLTNLTPGTEYVVSIVALNGREESP LLIGQQSTVSDVPRDLEVVAATPTSLLISWDAPAVTVRYYRITYGETGGNSPVQEFTVPG SKSTATISGLKPGVDYTITVYAVTGRGDSPASSKPISINYRTEIDKPSQMQVTDVQDNSI SVKWLPSSSPVTGYRVTTTPKNGPGPTKTKTAGPDQTEMTIEGLQPTVEYVVSVYAQNPS GESQPLVQTAVTNIDRPKGLAFTDVDVDSIKIAWESPQGQVSRYRVTYSSPEDGIHELFP APDGEEDTAELQGLRPGSEYTVSVVALHDDMESQPLIGTQSTAIPAPTDLKFTQVTPTSL SAQWTPPNVQLTGYRVRVTPKEKTGPMKEINLAPDSSSVVVSGLMVATKYEVSVYALKDT LTSRPAQGVVTTLENVSPPRRARVTDATETTITISWRTKTETITGFQVDAVPANGQTPIQ RTIKPDVRSYTITGLQPGTDYKIYLYTLNDNARSSPVVIDASTAIDAPSNLRFLATTPNS LLVSWQPPRARITGYIIKYEKPGSSPREVVPRPRPGVTEATITGLEPGTEYTIYVIALKN NQKSEPLIGRKKTDELPQLVTLPHPNLHGPEILDVPSTVQKTPFITHPGYDTGNGIQLPG TSGQQPTVGQQMIFEEHGFRRTTPPTTATPIRHRPRPYPPNVGEEIQIGHIPREDVDYHL YPHGLGLNPNASTGQEALSQTTISWAPFQDTSEYIISCHPVGTDEEPLQFRVPGTSTSAT LTGLTRGATYNIIVEALKDQQRHKVREEVVTVGNSVNEGLNQPTDDSCFDPYTVSHYAVG DEWERMSESGFKLLCHCLGFGSGHFRCDSSRWCHDNGVNYKIGEKWDRQGENGQMMSCTC LGNGKGEFKCDPHEATCYDDGKTYHVGEQWQKEYLGAICSCTCFGGQRGWRCDNCRRPGG EPSPEGTTGQSYNQYSQRYHQRTNTVSALAPRVCFLILDSPFYRHLSSE NT seq 7170 nt NT seq  +upstreamnt  +downstreamnt atgctcaggggtccgggcccggggcccgggctgctgctgctggccgtcttgtgcctgggg acagcggtgccctccacgggagcctcgaagagcaagaggcaggctcagcaaatggttcag ccccagtccccggtggctgtcagtcaaagcaagcccggttgttatgacaatggaaaacac tatcagataaatcaacagtgggagcggacctacctgggcaatgccttggtttgtacttgt tatggaggaagccgaggttttaactgcgagagtaaacctgaagctgaagagacttgcttt gacaagtacactggaaacacttaccgagtgggtgacacttacgagcgtcctaaagactcc atgatctgggactgtacctgcatcggggctgggcgagggagaataagctgcaccatagca aaccgctgccatgaagggggtcagtcctacaagattggtgacacctggaggagaccacac gagactggtggttacatgttagagtgtgtgtgtcttggtaatggaaaaggagaatggacc tgcaagcccatagctgagaaatgttttgatcatgctgctgggacttcctatgtggtcgga gaaacctgggagaagccctaccaaggctggatgatggtagattgtacttgcctaggagaa ggcagcggacgcatcacttgcacctctagaaatagatgcaatgatcaggacacgaggacg tcctatagaattggagacacctggagcaagaaggataatcgaggaaacctgctccagtgc atctgcacaggcaacggccgaggagagtggaagtgtgagaggcacaccactgtgcagacc acatcgagcggatctggccccttcaccgatgttcgtgcagctgtttaccaaccgcagcct cacccccagcctgccccctatggccactgtgtcacagacagtggtgtgatctactctgtg gggatgcagtggctgaagacacaaggaaataagcaaatgctttgcatgtgcctgggcaac ggagtcagctgccaagagacagctgtaacccagacatacggtggcaactcaaatggggag ccatgtgtcttaccattcacctacaacggcaggacgttctactcctgcaccacagaaggg cgacaggacggacatctttggtgcagcacaacttcgaattatgagcaggaccagaaatat tctttctgcacggaccatactgttttggttcagactcgaggaggaaattccaatggtgcc ttgtgccacttccccttcctatacaacaaccacaattacactgattgcacttctgagggc aggagagacaacatgaagtggtgtgggaccacacagaactatgatgccgaccagaagttt ggattctgccccatggctgcccatgaggaaatctgcacaaccaatgaaggggtcatgtac cgcattggagatcagtgggataagcagcatgacatgggccacatgatgaggtgcacgtgt gttgggaacggtcgtggggaatggacatgcattgcctactcgcagcttcgagatcagtgc attgttgatgacatcacttacaatgtgaatgacacattccacaagcgtcatgaagaggga cacatgctgaactgtacatgcttcggtcagggtcggggcagatggaagtgtgatcccgtc gaccaatgccaggattcagagactgggacattttatcaaattggagattcatgggagaag tatgtgcatggtgtcagataccagtgctactgctatggccgtggcattggggagtggcat tgccaacctttacagacctatccaagctcaagtggtcctgtcgaagtatttatcactgag actccgagtcagcccaactctcaccccatccagtggaatgcaccacagccatctcacatt tccaagtacattctcaggtggaggcctaaaaattctgtaggccgttggaaggaagctacc ataccaggccacttaaactcctacaccatcaaaggcctgaagcctggtgtggtatacgag ggccagctcatcagcatccagcagtacggccaccgagaagtgactcgctttgacttcacc accactagcaccagcacacctgtgaccagcaacaccgtgacaggagagacaactcccctt tctccccttgtggccacttctgaatctgtcactgaaatcacagccagcagctttgtggtc tcctgggtctcagcttctgacaccgtgtcgggattccgggtggaatatgagctgagtgag gagggagatgagccacagtatctggatcttccaagcacagccacttccgtgaacatccct gacctgcttcctggccgaaaatacattgtaaatgtctatcagatatctgaggatggggag cagagtttgatcctgtctacttcacaaacaacagcgcccgatgcccctcctgaccctact gtggaccaagttgatgacacctcaattgttgttcgctggagcagaccccaagctcccatc acagggtacagaatagtctattcaccatcagtagaaggcagcagcacagaactcaacctt cctgaaactgcaaactccgtcaccctcagtgacttgcaacctggcgtccagtataatatc actatctatgctgtggaagaaaatcaagaaagtacacctgttgtcattcaacaagaaacc actggcaccccacgttcagatacagtgccctctcccagggatctgcagtttgtggaagtg acagacgtgaaggtcaccatcatgtggacaccgcctgagagtgcggtgaccggctaccgc gtggatgtgatccccgtcaacctgcctggggagcacgggcagaggctgcccaccagcagg aacaccttcgcagaagtcaccgggttgtcccctggggtcacgtattacttcaaagtcttt gccgtgaaccacgggagggagagcaagcctctgactgccgaacagacaaccaaactggac gctcccactaacctccagtttgtcaatgaaacggattctactgtcctggtgagatggact ccacctcgggcccagataacaggataccgactgactgtgggcctgacccgaagaggccaa cccaggcagtacaatgtgggtccctctgtctcgaagtacccactgaggaatctgcagcct ggatctgagtacaccgtatccctcgtggccataaagggcaaccaagagagccccaaagcc actggagtctttaccacactgcagcctgggagctccattccaccttacaacaccgaggtg actgagaccaccattgtgatcacatggacacctgctccaagaattggttttaagctgggt gtacgaccaagccagggaggagaggcaccacgagaagtgacttcagactcaggaagcatc gttgtgtctggcttgactccaggagtggaatatgtctacaccatccaagtcctgagagac ggacaggaaagagatgcgccaattgtaaacaaagtggtgacaccattgtctccaccaaca aacttgcatctggagacaaaccctgacactggagtgctcacagtctcctgggagaggagt accaccccagacattactggttatagaattaccacaacccctacaaacggccagcaggga tattctttggaagaagtggtccatgctgatcagagctcctgcacttttgataacctgagt cccggtctggagtacaatgtcagtgtttacactgtcaaggatgacaaggaaagtgtccct atctctgataccatcatcccagctgttcctcctcccactgacctgcgattcaccaacatt ggtccagacaccatgcgtgtcacctgggctccacccccatccattgatttgaccaacttc ctggtgcgttactcacctgtgaaaaatgaggaagatgttgcagagttgtcaatttctcct tcagacaatgcagtggtcttaacaaatctcctgcctggtacagaatatgtagtgagtgtc tccagtgtctacgaacaacacgagagcacacctcttagaggaagacagaaaacaggtctt gattccccaactggcattgacttttctgatattaccgccaactcttttactgtgcactgg attgctcctcgagccaccatcactggctacaggatccgccatcaccccgagcactatagc gggagacctcgagaagatcgggtgcccccctctcggaattccatcaccctcaccaacctc actccaggcacagagtatgtggtcagcatcgttgctcttaatggcagagaggaaagtccc ttattgattggccaacaatcaacagtttctgatgttccgagggacctggaagttgttgct gcgacccccaccagcttgctgatcagctgggatgctcctgctgtcaccgtgagatattac aggatcacttacggagaaacaggaggaaatagccctgtccaggagttcactgtgcctggg agcaagtctacagctaccatcagtggccttaaacctggagtcgattataccatcacagtg tatgctgtcactggccgtggagacagccccgcaagcagcaagccgatttccattaattac cgaacagaaattgacaaaccatcacagatgcaagtgaccgatgttcaggacaacagcatt agtgtcaagtggctgccttcaagttcccctgttactggttacagagtaaccaccactccc aaaaatggaccaggaccaacaaaaactaaaactgcaggtccagatcaaacagaaatgact attgaaggcttgcagcccacagtggagtatgtggttagtgtctatgctcagaatccaagt ggagagagtcagcctctggttcagactgcagtaaccaacattgatcgccctaaaggactg gcattcactgatgtggatgtcgattccatcaaaattgcttgggaaagcccacaggggcaa gtttccaggtacagggtgacctactcgagccctgaggatggaatccatgagctattccct gcacctgatggtgaagaagacactgcagagctgcaaggcctcagaccgggttctgagtac acagtcagtgtggttgccttgcacgatgatatggagagccagcccctgattggaacccag tccacagctattcctgcaccaactgacctgaagttcactcaggtcacaccaacgagcctg agcgcccagtggacaccacccaatgttcagctcactggatatcgagtgcgggtgaccccc aaggagaagactggaccaatgaaagaaatcaaccttgctcctgacagctcatccgtggtt gtatcaggacttatggtggccaccaaatatgaagtgagtgtctatgctcttaaggacact ttgacaagcagaccagctcagggagttgtcaccactctagagaatgtcagcccaccaaga agggctcgtgtgacagatgctactgagaccaccatcaccattagctggagaaccaagacc gagacgatcactggcttccaagttgatgctgttccagccaatggccagactccaatccag agaaccatcaagccagatgtcagaagctacaccatcacaggtttacaaccaggcactgac tacaagatctacctgtacaccttgaacgacaatgcccggagctcccctgtggtcatcgac gcctccactgccattgatgcaccatccaacctacgtttcctggccaccacacccaattcc ttgctggtatcgtggcagccgccacgtgccaggatcaccggctacatcatcaagtatgag aagcctgggtcttctcccagagaagtggtccctcggccccgccctggtgtcacagaggct actattactggcctggaaccgggaactgaatatacaatttatgtcattgccctgaagaat aaccagaagagcgagcccctgattggaaggaaaaagacagacgagcttccccaactggta acccttccacaccccaatcttcatggaccagagatcttggatgttccttccacagttcaa aagacccctttcatcacccaccctgggtatgacactggaaatggtattcagcttcctggc acttctggtcagcaacccactgttgggcaacaaatgatctttgaggaacatggttttagg cggaccacacctcccacaacagccacccccataaggcataggccaagaccatacccgccg aatgtaggtgaggagattcaaattggtcacatccccagggaagacgtagactatcacctc tacccacatgggctgggactcaatccaaatgcctctacaggacaagaagctctctctcag acaaccatctcatgggccccattccaggacacttctgagtacatcatttcatgtcatcct gttggcactgacgaagagcccttacagttcagggttcctggaacttccaccagtgctact ctgacaggcctcaccagaggtgccacctacaacatcatagtggaggcactgaaagaccag cagaggcataaggttcgggaagaggttgttaccgtgggcaactccgtcaatgaaggcttg aaccaacctaccgatgactcatgctttgacccctacacggtttcccattacgccgttgga gatgagtgggaacgaatgtctgaatcaggctttaaactgttgtgccactgcttaggcttt ggaagtggtcatttcagatgtgattcatctagatggtgccatgacaatggtgtgaactac aagattggagagaagtgggaccgtcagggagaaaatggccagatgatgagctgcacgtgt cttgggaacggaaaaggagaattcaagtgtgaccctcatgaggcaacgtgttatgatgat gggaagacgtatcacgtaggggaacagtggcagaaggaatatctcggtgccatttgctcc tgcacatgctttggaggccagcggggctggcgctgtgacaactgccgcagacctgggggt gaacccagtcccgaaggcactactggtcagtcctacaaccagtattctcagagataccat cagagaacaaacactgtaagtgcattagcgccacgagtgtgtttcctcatactagacagt cctttctacaggcatctttcttcagaatga

Rhinopithecus roxellana (golden snub-nosed monkey): 104670221 Help Entry 104670221         CDS       T03989                                  Gene name LAMA1 Definition (RefSeq) LOW QUALITY PROTEIN: laminin subunit alpha-1   KO K05637   laminin, alpha 1/2 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer rro05410   Hypertrophic cardiomyopathy rro05412   Arrhythmogenic right ventricular cardiomyopathy rro05414   Dilated cardiomyopathy rro05416   Viral myocarditis Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104670221 (LAMA1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104670221 (LAMA1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104670221 (LAMA1)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104670221 (LAMA1)   09162 Cancer: specific types    05222 Small cell lung cancer     104670221 (LAMA1)   09166 Cardiovascular disease    05410 Hypertrophic cardiomyopathy     104670221 (LAMA1)    05412 Arrhythmogenic right ventricular cardiomyopathy     104670221 (LAMA1)    05414 Dilated cardiomyopathy     104670221 (LAMA1)    05416 Viral myocarditis     104670221 (LAMA1)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104670221 (LAMA1)   09174 Infectious disease: parasitic    05146 Amoebiasis     104670221 (LAMA1)    05145 Toxoplasmosis     104670221 (LAMA1) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_G_1 Laminin_EGF Laminin_G_2 Laminin_I Laminin_N Laminin_B Laminin_II Laminin_G_3 DUF1080 Motif Other DBs NCBI-GeneID:  104670221 NCBI-ProteinID:  XP_030782055 LinkDB All DBs Position 21 AA seq 3580 aa AA seqDB search MAGSLLYGCQDTKENTYQARLLHTACDHTLNVAPQACSATNDQNLDCLHAGAGKQSGEQV ATDFQNKSSSPLPTAERAAGRPSLGGVPRVRLSPSSRQGRVGPGPGTAGPRRGGQGQQGT YFLGIHPPEPPQPSFSYPQPTFSAHLLSGAWAAAAVSRPPLPGVRVRGIPAAKQGAPGGG VWAAGPGRAGRGAAGGCVRGRLEGGAAGTPGLRGRGSSDSRPAELFRRTRGFLPRPTERL RGEMRGGGGAWGVLLASLLWVAARCQQRGEPGPGPWILGSLSPTGGRAGAAADKARRVGA AGDRARILVHLGLGASDTPASPLAFAELSDPGAPSTRAVLGVAGAGRLGVLSVPRLRGQG WRGCWPGAGNEWAKSSSESPSLSGCASWVAAVGEGRIPRGHSLPGGLVGRDAARSAPLAS GPGQGDPQGGVQGTDAPSRPSLFVQSAKWPNPLIPRAGTWRGITLTPTEQSQNLGLGLSA GWSRFFWKGQSSCKCGMKSHVACNVTVFQEPRKLLALEVPPELMDGLFPAILNLASNADI STNATCGEKGPEMFCKLVEHVPGRPVRNPQCRICDGSSANPRERHPISHAIDGTNNWWQS PSIQNGREYHWVTITLDLRQVFQVAYVIIKAANAPRPGNWILERSLDGTTFSPWQYYAVS DSECLSRYNITPRRGPPTYRADDEVICTSYYSRLVPLEHGEIHTSLINGRPSADDLSPKL LEFTSARYIRLRLQRIRTLNADLMTLSHREPKDLDPIVTRRYYYSIKDISVGGMCICYGH ASSCPWDETTKKLQCQCEHNTCGESCNRCCPGYHQRPWRPGTVSSGNTCEACNCHNKAKD CYYDESVAKQKKSLNTAGQFRGGGVCTNCLQNTMGINCETCIDGYYRPHKVSPYEDEPCR PCNCDPVGSLNSVCIKDDLHSDLRNGKGPGQCPCKEGYAGEKCDRCQLGYKDYPACVSCG CNPVGSASDEPCTGPCVCKENVEGKACDRCKPGFYNLKEKNPQGCSECFCFGVSDVCSSL SWPVGQVSSMSGWLVTDLISPRRIPSQQDALGGRHQVSINNTAVMQTLAPKYYWAAPEAY LGNKLTAFGGFLKYTVSYGIPVEAVDSNLMSHADVIIKGNRLTLSTQAEGVSLQPYEEYL NVIRLVPENFRDFHSKRQIDRDQLMTVLANVTHLLIRANYNSAKMALYRLESVSLDIASP NAIDLVVAADVEHCECPQGYTGTSCESCLSGYYRVDGILFGGICQPCECRGHAAECDVHG VCIACVHNTTGDHCEQCLPGFYGEPSRGTPGDCQPCACPLTIASNNFSPTCHLNDGDEVV CDQCAPGYSGAWCERCADGYYGNPTVPGESCVPCDCNSNVDPSEAGHCDSVTGECLKCLG NTDGAHCERCAEGFYGDAVTAKNCRACGCHAKGSRSAVCHLETGLCNCKPNVTGQQCDQC LHGYYGLDSGHGCQPCNCSVAGSVSDDCTDEGQCHCVPGVAGKRCDRCAHGFYAYQDGSC TPCDCPHTQNTCDPETGECVCPPHTQGVRCEECEDGHWGYDVEMGCQACNCSLVGSTHHQ CDVVTGRCQCKWKFGGWACDECSLGYRDFPDCVPCDCDLRGTSGDACDLEQGLCGCAEET GDCPCKENVFGPQCNECREGTFALRADNPLGCSPCFCSGLSHVCSELEGYVRTPVTLASD QPLLRVVSQSNLRGTTEGVYYQAPDFLLDAATVWQHIHAEPFYWRLPQQFQGDQLMAYGG KLKYSVAFYSLDGVGTSNFEPQVLIKGGRTRKQVIYMDAPAPENGVRQEQEVAMRENFWK YFNSVSEKPVAREDFMSVLSNIEYILIKASYGQGLQQSRISDISMEVGRKAENLHPEEEV ASLLENCVCPPGTVGFSCQDCAPGYHRGKLPAGSGRGPRPLVAPCVPCSCNNHSDTCDPN TGKCLNCGDNTAGDHCDVCASGYYGKVTGSASDCALCVCPHSPPASFSPTCVLEGDHDFR CDACLLGYEGQHCERCSLGYYGNPQTLGGSCQKCDCNPHGSVHGDCDRTSGQCVCRLGAS GLRCDECEPRHILMETDCVSCDDECVGVLLNDLDETGDAILSLNLTGIIPVPYGILSKLE NTTKYLQESLLRENMQKDLGRIKLEGVAEETDNLQKKLTRMLASTQKVNRATERIFKESQ DLAVAIERLRMNITEIIEKTTLNQTLDEDFLLPNSTLQSMQQNGTSLLEIMQRRDVTQLH QNATLELKAAEDLLSQIQENYQKPLEELEVLKEAASHLLSKHNSELKAAEVLVREAEAKT EESNHLLFMVNANLREFSDKKLHVQEEQNLTSELIAQGRGLIDTAAAQTDAVQDALEHLE HHQDTLLLWSAKVRHHVDDLVMHMSQRNALDLVYRAEDHAAEFQRLADVLDSGLENVRNV SLNATSAAYVHYNIQNLIEESEELAKDAHRTVTEMSLLSESLVSNGKAAVQRSSRFLNEG NNLSRKLPVIALELSELRNKTNRFQENADEITRQTNESVLILRAIPEDTRDKGAKTKELA TSASQSAVSTLRDVAGLSQELLSTSASLSRVNTTLQETHQLLQDSTMATLLAGRKVKDVE TQANLLFDRLKPLKMLEENLSRNLSEIKLLISQARKQAASIKVAVSADRDCIRAYQPQIS STNYNTLTLNVKTQEPDNLLFYLGSSTSSDFLAVEMRRGKVAFLWDLGSGSTRLEFPDFP IDDNRWHSIHAARFGNIGSLSVKEMNSNQKLPAKTSKSPGTANVLDVNNSTLMFVGGLGG QIKKSPAVKVTHFKGCLGEAFLNGKSIGLWNYIEREGKCHGCFGSSQNEDPSFHFDGSGY SVVEKSLPATVTQIIMLFNTFSPNGLLLYLGSYGIRDFLSIELFHGRVKVTTDLGSGPLT LLTDRRYNNGTWYKIAFQRNRKQGVLAVNDAFNTSNKETKQGETPGASSDLNRLDKDPIH VGGLPRSRVVRRGVTTKSFVGCIKNLEISRSTFDLLRNSYGVRKGCLLEPIRSVSFLKGG YIELPPKSLSPESEWLVTFATKNSSGIILAALGGDAEKQGDREESHVPFFSIMLIGGNIE VHVNPGDGTGLRKALLHAPTGTCSDGQAHSISLVRNRRIITVQLDENNPVEMKLGPLVES RTINMSNLYVGGIPEGEGTSLLTTRRSFHGCIKDLIFNLGLLDFNSAVGHEQVELDACWL SERPKPAPDAEDSELLPDPRAFPEQCVVDAALEYVPGAHQFGLSQNSHFLLPFNQSAVRK RLSVELSIRTFASSGLIYYMAHQNQADYAVLQLHGGRLHFMFDLGKGRTKVSHPALLSDG KWHTVKTHYGKRKGFITVDGQESPMVTVVGDGTALDVEGLFYLGGLPSQYRARKIGNITH SIPACIGDVTVNSKQLDKDSPVSTFTVNRCYAAAQEGTFFDGSGYAALVKEGYKVQTDVN ITLEFRTSSQNGVLLGISTAKVDAIGLELVDGKVLFHVNNGAGRITATYEPKTATALCDG KWHTLQANKSKHRITLIVDGNAVGAESPHTRSTSVDTNNPIYVGGYPAGVKQKCLSSQTS FHGCLRKLALMKRPQVQSFDFSRAFELHGVFLHSCPGTES NT seq 10743 nt NT seq  +upstreamnt  +downstreamnt atggctggatccctgttatatgggtgtcaggatacaaaggaaaacacttaccaggccagg cttcttcatacagcctgtgatcacacactgaatgtggctccccaagcctgctcagccacc aatgaccagaacctggattgtctacatgcaggagcaggcaaacaaagtggggaacaagtt gcaactgattttcagaacaaatcctcaagtcctctgcccacggcggagagggcagcgggt cggccgagcctgggtggcgtcccgagggttcgcctctcgcccagctcccggcaggggcgc gtgggtcctggcccggggactgcagggccgcggcggggcgggcagggtcagcagggcaca tactttctcggaatccaccctcccgagcccccacagcccagtttctcctaccctcagccc accttctccgcccacctcctatccggagcctgggcggcggccgcggtcagcagacctccc ctaccaggggtccgcgtgcgcgggatcccggcggccaagcagggcgccccgggaggaggg gtctgggcggctgggccaggccgggcggggcggggcgcagccggggggtgtgtccgaggg cggctggagggaggggctgccgggacaccagggctgcggggccgcggcagctcagactcg cgtcccgcggagcttttcaggcggacgcgcggctttctccccagacccaccgagcggcta agaggcgagatgcgcggcggcggcggcgcgtggggcgtgctcctggcctcgctgctgtgg gtagccgcgcggtgccagcagagaggtgagcccggcccgggtccctggatcctcgggtcc ctgtcccccacaggcgggcgggcgggggcggccgcggacaaagcccgtcgcgtgggggct gctggagaccgggcgcgcatcctggtccacctcggactgggggcttctgacactccagcc tcgcctctggcttttgcggaacttagtgacccaggagcgccatctacgcgagcagtcctg ggggtggcgggagcggggcgcctgggggtgctttcagtgccccggctgcgcgggcagggg tggcggggctgctggccgggcgcggggaatgaatgggcaaagagctcctccgaatcaccc tcattgtccggctgcgcaagctgggtcgccgcggtcggggaagggcggattcctcggggc cactcgctgccgggcgggctagtggggagagacgcggcgagaagcgcgcccctcgccagc ggccccgggcagggggacccgcagggcggcgttcagggcactgatgcgccttcccgaccc tcgctctttgtgcaatcggctaagtggccaaacccgctcattccccgcgcaggcacttgg agaggtatcacactgacgccaactgagcagagccagaacctgggcctggggctgtctgca gggtggagcaggttcttctggaagggccagtccagctgcaagtgtgggatgaagtctcat gtagcctgtaatgtaacagttttccaagagcccagaaagctgttggcattggaagttccc cctgagttaatggacggcctgtttcctgccattctcaatcttgccagcaacgctgacatc agtaccaatgccacctgtggcgagaaggggcccgagatgttctgcaaacttgtggagcat gtgccgggtcggcccgtccgaaacccacagtgccggatctgtgatggcagcagtgcaaac cccagagaacgccatccaatatcacatgccatagatggcaccaataactggtggcaaagt cccagcattcagaatgggagagagtatcactgggtcacaatcactctggacttaaggcag gtctttcaagttgcatatgtcatcattaaagctgccaatgcccctcggcccggaaactgg attttggagcgttctctagatggcaccacgttcagcccctggcagtattatgcagtcagc gactcagagtgtttgtctcgttacaatataactccaagacgagggccgcccacctacagg gctgatgatgaagtgatctgcacctcctattattccagattggtgccacttgagcatgga gagattcatacatcactcatcaatggcagaccaagcgctgacgatctttcacccaagttg ttggaattcacttctgcacgatatattcgccttcgcttacaacgcattagaacgctcaat gcagatctcatgactcttagccaccgggaacctaaagacctggatcctattgttaccaga cgctattattattcaataaaggacatttctgttggaggcatgtgtatctgctatggccat gctagtagctgtccatgggatgaaactacaaagaaactgcagtgtcagtgtgagcataat acttgcggggagagctgtaacaggtgctgtcctgggtaccatcagcggccctggaggcct ggaaccgtgtcctctggcaatacatgtgaagcatgtaattgtcacaataaagccaaagac tgttactatgatgaaagtgttgcgaagcagaagaaaagtttgaatactgctggacagttc agaggaggaggggtttgcacaaactgcttgcagaacaccatgggaattaactgtgagacc tgtattgatggatattacagaccacacaaagtgtctccttatgaggatgagccttgccgc ccctgcaactgtgaccctgtggggtccctcaattctgtctgtattaaggatgaccttcat tctgacttacgcaatgggaaggggccgggtcagtgcccgtgtaaggaaggctatgcagga gaaaaatgtgatcgctgccaacttggctataaggattacccggcctgtgtctcctgtggg tgcaacccagtgggcagtgccagtgacgagccctgcacagggccctgtgtttgtaaggaa aatgtggaggggaaagcctgcgatcgctgcaagccaggattctataacctgaaagaaaaa aacccccagggctgctccgagtgcttctgctttggcgtttccgatgtctgcagcagcctc tcttggcctgttggtcaggtaagcagtatgtccgggtggctggtcaccgacctgatcagt cccaggaggattccgtctcagcaagatgcactgggcgggcgccaccaggtcagcatcaac aacaccgcggtcatgcagacgctggctcccaagtactactgggcggcccccgaggcctac cttggaaataagctgactgcatttggtggattcctgaaatacacagtgtcttatggcatc ccagtagaggcggtagacagtaacctcatgtcgcacgctgacgtcatcattaagggaaac agactcactttaagcacacaggctgagggtgtgtcattgcagccttatgaagagtaccta aatgtgattagacttgtgcctgaaaacttccgagattttcacagcaaaaggcagatcgat cgtgaccagctgatgactgtccttgccaatgtgacacatcttttgatcagagccaactac aattctgcaaaaatggctctttacaggttggagtccgtctctctggacatagccagccct aatgccatcgacctggtggtggccgctgatgtggagcactgtgaatgtccgcaaggctac acagggacctcctgtgagtcgtgcctctctggctattaccgcgtggatggaatactattc ggaggaatttgtcagccctgcgaatgccgcggccatgcagctgagtgcgatgttcacggc gtttgcattgcatgtgtgcacaacaccaccggtgaccactgtgaacagtgcttacctggc ttctacggggagccttcccgagggactcccggggactgccagccctgcgcctgccctctc accatagcctccaacaatttcagccccacctgccacctcaatgatggggatgaggtggtc tgcgaccagtgtgccccaggatactcaggagcttggtgtgagagatgtgcagatggttac tatggaaacccaacagtgcctggcgaatcttgtgttccctgtgactgcaacagcaatgtg gacccctcggaggctggtcactgtgactcggtcaccggggagtgcctgaagtgcctgggg aacacagacggcgcccactgtgaaaggtgtgctgaaggtttctacggggacgctgtgaca gccaagaactgccgcgcctgcggatgccatgcgaaaggctcccgttctgccgtgtgccat cttgagaccggactctgcaactgcaaaccaaacgtgactggacagcagtgtgaccagtgt ttgcatggctattatgggctagactcgggccatggctgccagccctgcaattgcagcgtg gcaggctccgtgtcagatgactgcacagatgaaggccagtgtcactgcgtcccgggtgtg gcagggaaaaggtgtgacaggtgtgcccatggcttctatgcctaccaggatggcagctgt acaccctgtgactgcccacacactcagaatacctgcgacccagaaactggagagtgtgtc tgcccccctcacacacagggtgtgaggtgtgaagaatgtgaggatgggcactggggctac gatgtggagatggggtgccaggcctgcaactgcagtctcgtggggtcgactcatcatcag tgtgacgtggtcaccggccgttgccagtgcaagtggaaatttggtggctgggcctgtgat gagtgctccttgggttacagagactttcccgactgtgttccctgtgactgtgacctgagg gggacatcgggggatgcctgcgacctggagcagggtctctgcggctgtgcagaggaaacc ggggactgcccttgcaaggagaatgtctttggccctcagtgcaacgagtgtcgagagggc acctttgccctccgcgcggacaaccccctgggctgcagcccctgcttctgctctgggctg tcccacgtctgctcagagctggagggctacgtgaggaccccagtaacgctggcctccgat cagcctcttctgcgtgtggtttctcagagtaacctgaggggcacgactgagggggtttac taccaggcccccgacttcctactggatgccgccaccgtctggcagcacatccatgcagag ccgttttactggcggctgccgcagcagttccagggagaccagctcatggcctatggtggc aaactgaagtacagcgtggccttctattctttggacggcgtcggcacctccaattttgag cctcaagttctcatcaaaggtggtcggaccagaaagcaagtcatttacatggatgcacca gccccagagaatggagtgaggcaggaacaagaagtagcaatgagagagaatttttggaaa tattttaactctgtttcggaaaaacctgtcgcgcgagaggattttatgtctgtccttagc aatattgagtacatcctcatcaaggcatcatatggtcaaggattacagcagagcagaatc tcagacatttcaatggaggttggcagaaaggccgaaaacctgcacccagaagaagaggtt gcatctcttttagagaattgtgtctgtcctcctggcactgtgggattctcatgtcaggac tgtgctcctgggtaccacagagggaagctcccagcagggagtggcaggggaccgcgccct ctggttgctccttgtgtgccctgcagctgcaacaaccatagtgacacctgtgaccccaac accgggaagtgtctgaactgcggcgataacacagcaggtgaccattgcgatgtgtgtgct tctggctactatgggaaggtgactggctcagcaagtgactgtgctctgtgtgtctgtcct cacagcccccctgccagttttagtcccacttgtgtcttggaaggtgaccacgatttccgt tgtgatgcctgtctcctgggctatgaaggacaacattgtgaaaggtgctccttgggctat tatgggaaccctcaaacactaggtggcagttgccagaagtgtgactgcaaccctcacggc tctgtccatggcgactgtgaccgcacatctgggcagtgtgtttgcaggctgggggcctcg gggctccggtgcgatgagtgtgaaccgaggcacattctgatggaaacagattgtgtttcc tgtgatgatgaatgtgtaggtgtgctgctgaatgacttggatgagactggtgatgccatt ctttctctgaacctcactggcattatccctgtcccatatggaattttgtcaaagctggaa aatacaactaaatatctccaggaatctttattaagagaaaatatgcaaaaggacctggga agaattaagcttgaaggtgttgcagaagaaacggataacctgcaaaagaagctcactaga atgttagcaagtacccaaaaggtgaatagggcaactgagagaatcttcaaggagagtcaa gacctggccgtagccattgagaggttgcggatgaacatcacagaaattattgaaaagaca actttaaatcagactttggatgaagatttcctgctacccaattctacgcttcagagcatg caacaaaatgggacatctttgctggaaatcatgcagagaagagacgtcacacagttgcac caaaatgccacccttgaactcaaggctgctgaagatttattgtcacaaattcaggaaaat taccaaaagccgctggaagaattggaggtattgaaagaagcagcaagccacctcctttca aagcacaacagtgaactaaaggcagctgaggtgcttgtgagggaagccgaggcaaagacc gaggaaagcaaccacctgctgttcatggtcaatgctaacctgagagaattcagtgataaa aagctacatgttcaagaagaacaaaatctgacctcagagctcattgcccaaggaagagga ctgatagatactgctgctgcacaaacagacgctgtacaagatgctctagagcacttagag catcaccaggatacgctacttttatggtctgccaaagtcaggcaccacgtagatgacctg gtcatgcacatgtcccaaaggaacgcacttgacctggtctacagagctgaggaccatgcc gctgagttccagagactagcagatgttctggacagtggccttgaaaatgtcagaaatgtg tccctgaatgccaccagtgcagcctatgtccattacaacatccagaacctgatcgaagaa tcggaggaactggccaaagatgctcacaggactgtgactgagatgagcctgctctcagaa tcccttgtttctaatgggaaagcggccgtgcagcgcagctccagatttctaaatgaaggc aacaacctcagcaggaagcttccagttattgcattggaactgagtgagctgagaaataag acaaacagatttcaagagaatgccgatgaaattacccggcagaccaatgaatcagtcttg atactcagagcaattcctgaagatacaagagacaaaggagccaaaaccaaagagctagcg acgtctgcaagccagagcgcggtgagcacgctgagggacgtggcagggctgagccaggag ctgctgagcacatctgccagcctgtccagggtcaacaccacattacaagagacgcaccag cttctgcaggactccaccatggccactctgttggctggaagaaaagtcaaagacgtggaa actcaagccaaccttttgtttgatcggttgaagcctttgaagatgttagaagagaatctg agcagaaacctatcagaaattaaactgctcatcagccaggcccggaaacaagcggcttct attaaagtcgctgtgtctgcagacagagattgcatccgggcctaccagcctcagatttcc tctactaactacaacaccttaacactaaatgttaagacacaggaacccgataatcttctc ttctacctcggtagcagcacctcttctgatttccttgcagtggagatgcggcgagggaaa gtggccttcctgtgggacctgggctccgggtccacacgcttggagtttccagactttccc attgatgacaacagatggcacagtatccatgccgccagatttggaaacattggttcactg agtgtaaaggaaatgaactcaaatcaaaagctaccagcaaaaacaagtaaatcccctggg acagctaatgttctggatgtaaacaattcaacactcatgtttgttggaggtcttggagga caaatcaagaaatctcctgctgtgaaggttactcattttaaaggctgcttgggagaagcc ttcctgaatggaaaatccattggcctatggaactatattgaaagggaaggcaagtgtcat gggtgcttcggaagctcccagaatgaagacccttccttccattttgacgggagtgggtac tctgtcgtggagaagtcacttccggctaccgtgactcagataatcatgctttttaatacc ttttcacctaatggacttcttctctacctgggttcatacggcataagagactttttatcc atcgagctgttccatggcagagtgaaggttacgactgacctgggttcaggaccacttacc cttttgacagatagacgttataacaatggaacctggtacaaaattgccttccagcgaaac cggaagcaaggagtcctagcagttaacgatgcctttaacaccagtaataaagaaaccaag cagggcgagactccgggagcatcttccgacctcaaccgtctagacaaggatccgattcat gtgggtggattgccaaggtcaagagttgtaaggagaggtgtcaccaccaaaagctttgtg ggctgcatcaagaacctggaaatatccagatcaacctttgacttactcagaaattcctac ggagtgagaaaaggctgcttactggagcccatccggagcgttagcttcttgaaaggcggc tacattgaattgccacccaagtctttgtcaccagaatcggaatggctggtaacatttgcc accaagaacagcagtggcatcatcctggctgccctcggtggggatgcagagaagcagggt gatcgtgaggagtcacacgtgcccttcttttccatcatgctgattggaggcaacattgag gtacatgtcaatcctggggatggcacaggcctgaggaaagctctcctgcacgctcccacg ggtacatgcagcgatggacaagcacattccatctccttggtcaggaatcggagaattatc actgtccagttggatgagaacaatcctgtggaaatgaagttgggcccattagtagaaagc aggacgataaatatgtccaatctgtacgtcgggggaattccagagggagaggggacatca ctgcttacaacgagaagatcgttccatggttgtatcaaagacctgatctttaatttggga cttttggatttcaacagtgcagttggccatgagcaagttgaattggacgcctgctggctg tcagaaaggcctaagccggctcccgatgcagaggacagcgagctcttgccagacccccgg gcttttccagaacagtgtgtggtggatgcagctctggagtacgttcctggcgcccaccag tttggtctctcacaaaacagccattttctgttgccttttaatcagtcggctgtcagaaag aggctctcggttgagctaagtatccgcacgttcgcctccagcggcctgatttactacatg gctcatcagaaccaagcagactacgctgtgctccagctgcacgggggccgcctccacttc atgtttgaccttggcaaaggcagaacaaaggtctctcaccctgcactgctcagcgatggc aagtggcacacggtcaagacacattatggtaaaagaaaaggcttcatcacggtggacggc caagagtcccccatggtgactgtggtgggagacggaaccgcgctggatgtggagggcttg ttctacctaggaggcctgccctcccagtaccgggccaggaaaattggaaatatcacccac agcatccctgcctgcattggggatgtgacggttaacagcaaacagctggacaaggacagc ccagtgtccaccttcacagtgaacaggtgctacgcagcggcccaggaaggaacattcttt gatggaagcggatacgcagctcttgtcaaagagggctacaaagtccagacggatgtgaac atcacactggaatttcgaacctcctcgcagaatggcgtcctcctggggatcagcactgcc aaagtggatgccattggactagagcttgtggatggcaaggtcttgttccatgtcaacaat ggtgctggcaggataacagccacatatgagcccaaaaccgccactgcgctctgtgatgga aaatggcacacgcttcaagctaacaaaagcaaacaccgtatcactctgattgtcgatggg aacgcagttggcgctgaaagtccacacacccgctctacctcggtggacaccaacaatccc atttatgttggtggctatcctgctggcgtgaagcaaaaatgcctgagcagccagacctcg ttccacgggtgtttgaggaagctagcgctgatgaagaggccgcaggtgcaatcctttgac ttcagcagagcgtttgaactgcacggagttttccttcattcctgtcctgggacggagtcc tga

Rhinopithecus roxellana (golden snub-nosed monkey): 104671965 Help Entry 104671965         CDS       T03989                                  Gene name COL4A3 Definition (RefSeq) collagen alpha-3(IV) chain   KO K06237   collagen type IV alpha Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04926   Relaxin signaling pathway rro04933   AGE-RAGE signaling pathway in diabetic complications rro04974   Protein digestion and absorption rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104671965 (COL4A3)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104671965 (COL4A3)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104671965 (COL4A3)  09150 Organismal Systems   09152 Endocrine system    04926 Relaxin signaling pathway     104671965 (COL4A3)   09154 Digestive system    04974 Protein digestion and absorption     104671965 (COL4A3)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104671965 (COL4A3)   09162 Cancer: specific types    05222 Small cell lung cancer     104671965 (COL4A3)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104671965 (COL4A3)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104671965 (COL4A3)   09174 Infectious disease: parasitic    05146 Amoebiasis     104671965 (COL4A3)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104671965 (COL4A3)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104671965 (COL4A3) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of other cancer cells    104671965 (COL4A3) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104671965 (COL4A3) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Collagen C4 Motif Other DBs NCBI-GeneID:  104671965 NCBI-ProteinID:  XP_010373925 UniProt:  A0A2K6NDV2 LinkDB All DBs Position 14 AA seq 1670 aa AA seqDB search MSPRTAPRSQVLLLQLLLVLLAAPPTASKGCVCKDKGQCFCDKAKGEKGERGFPGPPGSP GQKGFTGPEGLLGPQGPKGSSGLPGLTGPKGVRGVTGLPGFSGSPGLPGTPGNTGPYGLV GVPGCNGSKGEQGFPGLPGTLGYRGIPGAPGLKGQKGAPAKGEDIELDAKGDPGLPGAPG PQGLPGPPGFPGPVGPPGPPGFFGFPGAMGPRGPKGHMGERVIGQKGERGVKGLTGPPGP PGTVIVTLTGPDNRTDLKGEKGDKGAIGQPGPPGPSGLPGESYGSEKGAPGDPGPQGKPG KDGVPGFPGSEGVKGNRGFPGLAGEDGIKGQKGDTGPPGFRGPTEYYDTYQEKGDEGIPG PPGPKGGRGPQGPSGPPGVPGSPGSSRPGLRGAPGWPGLKGSKGERGYPGKEAMGTPGSP GCPGSPGPPGSPGPPGPPGDIIFRKGPPGDRGLPGYLGSSGIPGIDGPKGEPGLLCTQCP YIPGPPGLPGLPGLHGVKGIPGRQGAAGLKGSPGSPGNTGLPGIPGFPGAEGDRGLKGEK GETLQPEGQVGAPGDPGLRGQPGRKGFDGIPGTPGVKGLPGPKGELALSGEKGDQGPPGD PGSPGSPGPAGPAGPPGYGPQGEPGPQGMQGVPGAPGPPGEAGPRGELSVSTPVPGPPGP PGPPGHPGPQGPPGMPGSMGKCGDPGLPGPDGEPGIPGIGFPGRPGPKGDQGFPGTKGSL GCPGKIGEPGLPGKPGVPGAKGEPAVAMPGGPGTPGFPGERGNSGEHGEIGLPGLPGLPG TPGNEGFDGPRGDPGQPGPPGEQGPPGRCIEGPRGAQGLPGLNGLKGQQGRRGKMGPKGD PGIPGLDRSGFPGETGSPGMSGHQGEMGPPGQKGYPGNPGLLGPPGEDGVVGMMGFPGAT GPPGPPGNPGMPGQRGSLGIPGVKGQRGTPGAKGEQGDKGNPGPSQISHVIGDKGEPGLK GFAGNPGEKGNRGVPGMPGLKGLKGLPGPAGPPGPRGDLGSIGNPGEPGLRGIPGSMGNM GMPGSKGKRGTLGFPGRAGRPGLPGIHGLQGDKGEPGYSEGTRPGPPGPTGDPGLPGEMG KKGEMGQPGPPGHSGPAGPEGAHGSPGSPGLPGKPGPHGDLGFKGIKGFPGPPGIKGPSG LPGFPGSPGPMGVRGDQGRDGIPGPAGEKGEMGLSGAPPGPRGNPGAQGAKGDRGSPGFP GLPGRKGAMGDAGPRGPTGIEGFPGPPGLPGAIIPGQKGNHGPPGLRGSPGEPGPPGPPG SHVIGIKGDKGSMGHPGPKGPPGTVGDMGPPGHLGAPGTPGLPGLRGDPGFQGFPGVKGE KGNPGFLGSIGPPGPIGPIGPPGIRGDPGTLKIISLPGSPGPPGTPGEPGMQGEPGPPGP PGNLGPCGPRGKPGKDGKPGSPGPAGEKGNKGSKGEPGPPGSDGLPGLKGKRGDSGSPAT WTTRGFVFTRHSQTTAIPSCPEGTAPLYSGFSFLFVQGNERAHGQDLGTLGSCLQRFTTM PFLFCNVNDVCNFASRNDYSYWLSTPALMPMNMAPITGRALEPYISRCTVCEGPAIVIAV HSQTTDIPPCPHGWISLWKGFSFIMFTSAGSEGTGQALASPGSCLEEFRASPFLECHGRG TCNYYSNSYSFWLASLNPERMFRKPIPSTVKAGELEKIISRCQVCMKKRH NT seq 5013 nt NT seq  +upstreamnt  +downstreamnt atgagcccccggacggcgcccagatcgcaggtgctcctgctgcagctcctgctggtgctc ctggccgcgccgcccacggccagcaagggctgtgtctgtaaagacaaaggccagtgcttc tgtgacaaggccaaaggggagaagggggagagaggctttcctggaccccctggttctcct ggccagaaaggattcacaggtcctgaaggcttgcttggaccacagggacccaagggctct tcaggacttccaggactcacgggtcccaaaggtgtaaggggagtaactggattgccagga ttttctggttctcctggacttccaggcaccccaggcaatactgggccttatggacttgtc ggtgtaccaggatgcaatggttctaagggtgagcaggggtttccaggactcccagggaca ctgggctaccgagggatcccgggtgctcctggtttgaaaggacaaaagggtgctcctgct aaaggagaagatatagaacttgatgcaaaaggcgaccccgggttgccaggggctccagga ccccagggtttgccaggccctccaggttttcctgggcctgttggcccacctggtcctccg ggattctttggctttccaggagccatgggacctagaggacctaagggtcacatgggtgaa agagtgataggacaaaaaggagagcggggtgtgaaagggttaacaggacccccgggacca ccaggaacagttattgtgaccctaactggcccagataacagaacggacctcaagggggaa aagggagacaagggagccatcggccagcctggacctcctggaccctcaggactgcctgga gaatcatacggatctgaaaagggtgctcctggagaccccggcccgcagggaaaacccggt aaagacggcgttcctggcttccctggaagtgagggagtcaagggcaacaggggtttccct gggttagcaggtgaagatggcattaagggacagaaaggggacactggccctccaggattt cgtggtccaacagaatattatgacacataccaggaaaagggagatgaaggcattccaggc ccaccagggcccaaaggaggtcgtggcccacaaggtcccagtggtccccccggagttcct ggaagtcctggatcctcaaggcctggcctcagaggagcccctggatggccaggcttgaaa ggaagtaaaggggaacgaggctacccaggaaaggaagccatggggactcctgggtcccca ggttgtcctggttcaccaggccctccaggatcaccgggacctccaggaccaccaggtgac atcatttttcgcaagggtccacctggagatcgcggactgccaggctatctagggtcttca ggaatcccaggcattgatgggcccaaaggagaaccaggcctgctgtgtacacagtgccct tatatcccagggccccccggtctcccaggattgccagggttacatggtgtaaaaggaatc ccaggaagacaaggtgcagctggcttgaaaggaagcccagggtccccaggaaatacagga cttccaggaattccaggtttcccaggtgccgagggtgaccgaggacttaaaggagaaaaa ggtgaaacacttcagcctgaggggcaagttggtgccccaggggacccggggctcagaggt caacctgggagaaagggcttcgatggaattcctggaactccgggagtgaaaggattacca ggacctaaaggcgaactggctctgagtggtgagaagggggaccaaggtcctccaggggat cctggctcccctgggtccccaggacctgcaggaccagctggaccacctggctacggaccc caaggagaacctggtccccagggcatgcaaggagttcctggagcccctggaccacccgga gaagccggtcctaggggagaactcagtgtttcaacaccagttccaggcccaccaggacct ccagggccccctggccatcctggcccccaaggtccacctggtatgcctggatctatgggg aaatgtggagatcctggtcttccaggacctgatggtgaaccaggaattccgggaattgga tttcctgggcgtcctggacctaagggagaccaaggttttccgggtacaaaaggatcactg ggttgtcctggaaaaataggagagcctgggttacctggaaagccaggcgtcccaggagcc aagggagaaccagcagtagccatgcctggaggaccaggaacaccaggttttccaggagaa agaggcaattctggagaacatggagaaattggactccctggacttccgggtctccctgga actccaggaaatgaagggtttgatggaccacgaggagatccagggcagcctggaccacct ggagaacaaggacccccaggaaggtgcatagagggtcctaggggagcccaaggacttcca ggcttaaatggattgaaagggcaacaaggcagaagaggtaaaatggggccaaagggagac ccaggaattccaggcttggatagatcaggatttcctggagaaactggatcaccaggaatg tcaggtcatcaaggcgagatgggaccaccaggtcaaaaaggatatccaggaaatccagga cttttagggccaccaggtgaagatggagtggttgggatgatgggctttcctggagccact ggccctccggggccccctgggaacccaggcatgccagggcagagggggagccttggaatt ccaggagtaaagggccagagaggaaccccaggagccaagggggaacaaggagataaagga aaccccgggccttctcagatatcccacgtaataggggacaaaggagaaccaggtctcaaa ggattcgcaggaaatccaggtgagaaaggaaacagaggtgttccagggatgccaggttta aaaggcctcaaaggactacctggaccagcaggaccaccaggccccagaggagatttgggc agcattgggaatcctggagaaccaggactacgtggtataccaggaagcatggggaacatg ggcatgccaggttctaaaggaaaaaggggaactttgggattcccaggtcgagcaggaaga ccaggcctcccaggtattcacggtctccagggagataaaggagagccaggttattcagaa ggtacaaggccaggaccaccgggaccaacgggggatccaggactgccgggtgaaatggga aagaaaggagaaatggggcaacctggcccacctggacattcggggcctgctggacctgag ggagcccatggaagtcctggaagtcctggcctcccaggaaagccaggtcctcatggtgat ttgggttttaaaggaatcaaaggcttcccgggccctccaggaatcaaaggcccttcaggt cttccaggattcccagggtctcctggaccaatgggtgtaagaggtgaccaaggacgtgat ggaattcctggtccagccggagaaaagggagaaatgggtttatcgggggcccctccaggc ccaagagggaacccgggtgctcaaggagctaaaggagacaggggatccccaggttttcct ggcctccctggcagaaaaggggccatgggagatgctgggcctcgagggcccacaggcata gaaggattcccagggccaccaggtctgcccggtgcaattatccctggccagaaaggaaat catggtccaccaggcttaagaggaagcccaggtgagcctggtccccctggacctccaggg agtcacgtaataggcataaaaggagacaaagggtctatgggccaccctggcccaaaaggt ccacctggaactgtaggagacatgggaccaccaggtcatctgggagcaccaggtactcca ggtcttccaggactcagaggtgatcctggattccaggggtttccgggcgtgaaaggagaa aagggtaatcctggatttctaggatccattggacctccaggaccaattgggccaatagga ccacctggtatacgtggagaccctggcacacttaagattatctcccttccaggaagccca gggccacctggcacacctggagaaccagggatgcagggcgaacctgggccaccagggcca cctggaaacctaggaccctgtgggccaagaggtaagccaggcaaggatggaaaaccagga agtcctggaccagctggagaaaaaggcaacaaaggttctaaaggagagccaggaccacct ggatcagatggattgccaggtttgaaaggaaaacgtggagacagtggatcacctgcaacc tggacaacgagaggctttgtcttcacccgacacagtcaaaccacagcaatcccttcatgt ccagaggggacagcgccactctacagtgggttttcttttctttttgtacaagggaatgaa cgagcccacggacaagacctcggaactctgggcagctgcctgcagcgatttaccacaatg ccgttcttattctgcaatgtcaatgatgtatgtaatttcgcatctcgaaatgattattca tactggctgtcaacaccagctctgatgccaatgaacatggctcccattactggcagggcc cttgagccttatataagcagatgcactgtttgtgaaggtcctgcgatcgtcatagccgtt cacagccaaaccactgacattcctccatgtcctcatggctggatttctctctggaaagga ttttcattcatcatgttcacaagtgcaggttctgagggcaccgggcaagcactggcctcc cccggctcctgcctggaagaattccgagccagcccatttctagaatgtcatggaagagga acgtgcaactactattcaaattcctacagtttctggctggcttcattaaacccagaaaga atgttcagaaagcctattccatcaactgtgaaagctggagaattagaaaaaataataagt cgctgtcaggtgtgcatgaagaaacgacactaa

Rhinopithecus roxellana (golden snub-nosed monkey): 104671966 Help Entry 104671966         CDS       T03989                                  Gene name COL4A4 Definition (RefSeq) collagen alpha-4(IV) chain   KO K06237   collagen type IV alpha Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04926   Relaxin signaling pathway rro04933   AGE-RAGE signaling pathway in diabetic complications rro04974   Protein digestion and absorption rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104671966 (COL4A4)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104671966 (COL4A4)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104671966 (COL4A4)  09150 Organismal Systems   09152 Endocrine system    04926 Relaxin signaling pathway     104671966 (COL4A4)   09154 Digestive system    04974 Protein digestion and absorption     104671966 (COL4A4)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104671966 (COL4A4)   09162 Cancer: specific types    05222 Small cell lung cancer     104671966 (COL4A4)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104671966 (COL4A4)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104671966 (COL4A4)   09174 Infectious disease: parasitic    05146 Amoebiasis     104671966 (COL4A4)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104671966 (COL4A4)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104671966 (COL4A4) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of other cancer cells    104671966 (COL4A4) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104671966 (COL4A4) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Collagen C4 Motif Other DBs NCBI-GeneID:  104671966 NCBI-ProteinID:  XP_010373928 UniProt:  A0A2K6PCA1 LinkDB All DBs Position 14 AA seq 1690 aa AA seqDB search MSSLHVVLMRCSFRLTKSLATGPWSLILILFSVQYVYGSGKKYVGPCGGRDCSVCHCVPE KGSRGPPGPPGPQGPIGPLGAPGPTGLSGEKGMRGDRGPPGTAGDKGDKGPTGVPGFPGL DGIPGHPGPPGPRGKPGKCGYNGSRGDPGFPGGRGALGPGGPPGHPGEKGEKGNSVFILG AIKGIQGDRGDPGLPGLPGSWGAGGPAGPTGYPGEPGLVGPPGQPGLPGLKGNPGVGVKG QMGDPGEVGQQGSPGPTLLVEPPDFCLYKGEKGIKGIPGMIGLPGPPGRKGESGIGAKGE KGIPGFPGPWGDPGSYGSPGFPGLKGEVGLVGDPGLFGFLGPKGDPGDRGHPGPPGVLVT PPLPLKGPPGDPGFPGRYGETGDVGPPGPPGLLGRPGEACAGMIGPPGPQGFPGLPGLPG EAGIPGRPDSAPGKPGKPGSPGLPGAPGLQGLPGSSATYCSVGNPGPQGIKGKVGPPGGR GSKGEKGNEGLCACEPGPMGPPGPPGLPGRQGSKGDLGLPGWLGTKGDPGPPGAEGPPGL PGKPGASGPPGNKGAKGDVVISRVKGHKGERGPDGPPGFPGQPGSHGLDGHAGEKGDPGL PGDHEDAIPGDKGFPGPLGPPGKAGPVGPPGLGFPGPPGERGHPGVPGCPGVRGPGGLKG QKGDTISCNVTYPGRQGPPGFDGPPGPKGFPGPQGAPGLSGSDGHKGRPGTPGTSEIPGP PGFRGDIGDPGFGGEKGSSPVGPPGPPGSPGVNGQKGIPGDPAFGHLGPPGRRGLSGVPG IKGPRGDPGYPGAEGPAGIPGFPGLKGPKGREGHAGFPGVPGPPGHSCERGAPGIPGQPG LPGDPGSPGAPGGKGQPGDVGPPGPAGMKGLPGLPGRPGAHGPPGLPGIPGPFGDDGLPG PPGPKGPRGLPGFPGFPGERGKPGAEGCPGTKGEPGEKGTSGFPGDQGVRGAKGAIGPPG DEGEMAIISKKGKPGEPGPPGDDGFPGERGDKGTPGMQGRRGEPGRYGPPGFHRGEPGEK GQPGPPGHPGPPGSTGLRGFIGFPGLPGDQGEPGSPGPPGFSGIDGATGPKGNKGDPASH FGPPGPKGEPGSSGCPGHFGASGDRGLPGVQGPRGSPGRPGPPGSSGPPGCPGDQGMPGL RGQPGEMGDPGPRGLQGDPGIPGPPGIKGPSGSPGLNGLHGLKGQKGTKGASGLHDVGPP GPVGMPGLKGERGDPGSPGISPPGPCGEKGLPGPPGRSGPPGPAGATGRAPKDIPDPGPS GDQGPPGPDGPRGAPGPPGLPGSVDLLRGEPGDCGLPGPPGLPGPPGPPGYKGFPGCDGK DGQKGPMGFPGPQGPHGFPGPPGEKGLPGPPGRKGPTGLPGPRGEPGPLADANDCPRIPG LPGVPGLRGPEGAMGLPGMRGPPGPGCKGEPGLDGRRGMDGIPGSPGPPGRKGDTGEDGY PGGPGPPGPTGDPGPKGFGAGYLSGFLLVLHSQTDQEPTCPLGMPRLWTGYSLLYLEGQE KAHNQDLGLAGSCLPVFSTLPFAYCNIHQVCHYAQRNDRSYWLASAAPLPMMPLSEEAIR PYVSRCAVCEAPAQAVAVHSQDQSIPPCPQTWRSLWIGYSFLMHTGAGDQGGGQALMSPG SCLEDFRAAPFLECQGRQGTCHFFANEYSFWLTTVKADLQFSPAPAPDTLKESQAQRQKI SRCQVCVKYS NT seq 5073 nt NT seq  +upstreamnt  +downstreamnt atgtcgtctctgcatgtagtactaatgaggtgctccttcagattgaccaagtcattggcc acaggtccatggtcacttatactcattctcttttctgtacaatatgtatatgggagtgga aagaaatacgttggtccttgtggaggaagagattgctctgtttgccactgcgttcctgaa aaggggtctcggggtccaccaggaccaccagggccacagggtccaattgggcccctggga gccccaggacccactgggctttcaggagagaaaggaatgagaggggaccgcggccctcct ggaacagcaggggacaaaggagataagggtccaactggtgttcctggatttccaggttta gatggcatacctgggcacccagggcctcctggacccagaggcaaacctggtaagtgtggc tacaatggctcaagaggtgacccagggtttccaggaggaagaggagctcttggtccagga ggccccccaggccatcctggggaaaagggagaaaaaggaaattcagtgttcattttaggt gccattaaaggtattcagggagacagaggcgacccaggactgcctggcttaccaggatct tggggtgcaggaggaccggcaggccccacaggatatcctggagagccagggttagtggga cctccgggccaaccagggcttccaggtttgaagggaaatcccggtgtgggagtaaagggg caaatgggagacccgggtgaggttggtcagcaaggttctcctggacccaccctgttggta gagccacctgacttttgtctctataaaggagaaaagggcataaaaggaattcctggaatg attggactgccaggaccaccaggacgcaagggagaatctggtatcggggcaaaaggagaa aaaggcatccctggatttccagggccttggggggatcctggttcctatggatctccaggt ttcccaggattaaagggagaagtaggactggttggagatcctggtctatttggatttctt ggcccaaagggggatcctggagaccgagggcacccaggaccaccaggtgttttggtgact ccacctcttccactcaaaggcccaccaggggacccaggattccctggccgctatggagaa acaggggatgttggaccacctggtcccccaggtctcttgggcagaccaggggaagcctgt gcaggcatgataggtccccctgggccacaaggatttcctggtcttcctgggcttccagga gaagctggtattcctgggagacctgattctgctccaggaaaaccagggaagccaggatca cctggcttgcctggagcaccaggcctgcagggcctcccaggatcaagtgcgacatactgt agtgttgggaaccctggaccacaaggaataaaaggcaaagtgggtcccccaggaggaaga ggctcaaaaggagaaaaaggaaatgaaggactctgtgcctgtgagcctggtcccatgggc ccccctggacctccaggacttcccgggaggcaggggagtaagggagacttggggctccct ggctggcttggaacaaaaggtgacccaggacctcctggtgctgaaggacctccagggcta ccaggaaagcctggtgcctccggaccacccggcaacaaaggggcgaagggtgacgtggtc atatcaagagttaaagggcacaaaggagaaagaggtcctgatgggcccccaggatttcca gggcagccaggatcacatggtctggatggacatgctggagaaaaaggggatccaggactc ccaggggatcatgaagatgcgattccaggtgataaaggatttcctggacctctgggtccc ccgggcaaagcaggacctgtgggccccccgggactgggatttcctggtccaccaggagag cgaggccacccaggagttccaggctgcccaggtgtgaggggccctggtggcttgaagggt cagaaaggtgacacaatttcttgcaacgtaacctatcccgggaggcaaggccctccgggt tttgatggacctccaggtccaaagggatttccaggtccccaaggtgcccctgggctgagc ggttcagatgggcataaaggcagacctggcacaccaggaacatcggaaataccaggtccc cctggtttccgtggtgacataggagatccgggttttggaggtgaaaaggggtcttcccct gttgggcccccaggcccccccgggtcaccaggagtgaatggtcagaaaggaatcccggga gaccctgcatttggtcacctgggacccccgggaaggaggggtctttcaggagtgccaggg ataaaaggacccagaggtgatccgggatatccaggggctgaagggccagctggcattcct ggattcccaggtctcaaaggtcccaaaggcagagagggacatgctgggtttccaggtgtc ccaggtccacctggccattcctgtgaaagaggtgctccaggaataccagggcaaccggga ctccctggggatccaggtagcccaggtgctccaggtgggaaaggacagccaggagatgtg gggcctcctgggccagctggaatgaaaggtctccctggactcccaggacggcctggggca catggtcccccgggcctcccaggaatcccaggtccctttggggatgatgggctacctggt cctccaggtccaaaaggcccccgggggctgcctggtttcccaggttttcccggagaaaga ggaaagcctggtgcagagggatgtcctggcacaaagggagaacccggagagaagggcacg tctggctttcccggagaccagggagtgagaggggccaaaggagccataggacctcccgga gatgaaggagaaatggctatcatttccaaaaagggaaaacccggggaacctggacctcct ggagatgatggattcccaggagaaagaggtgataaaggaactcccgggatgcaagggaga agaggagagccgggaagatatggaccaccaggatttcacagaggggaacctggtgagaaa ggtcagccagggcctcctggacacccaggccctccaggctcaactggtctaagagggttc attggttttccaggacttccaggtgaccagggtgagccaggttctccaggtccccctgga ttttcaggaatcgatggagcaacaggacctaaaggaaacaaaggtgaccctgccagtcac tttggtccacctggtccaaagggtgagccaggtagctctggatgtccagggcattttgga gcatccggagaccggggcttgcctggcgttcaagggcccagaggatcacccggaaggcca ggaccacctggctcctctggaccaccagggtgcccaggtgatcaggggatgcctgggctg aggggacagccaggagaaatgggagaccctgggccaagaggcctccagggggatccaggg ataccaggtcctccaggaataaaaggtccctccggatcacctggcctgaacggcttacat ggattgaagggtcagaaaggaaccaaaggtgcttcaggtttgcatgatgtggggccacct ggtccagtgggaatgcctgggctaaaaggggagagaggagatcctgggagcccaggaatc tctcctccaggtccttgtggagaaaaaggtctcccaggtcccccagggagatcaggacca cctggtcctgcaggtgccacaggaagagcacctaaggacattcctgacccgggtccatct ggagatcagggacctcctggtcccgatggcccaagaggagcacctgggcctccaggcctc cctgggagtgttgacctcctgagaggggagccaggtgactgtggtctaccagggccacca ggtctccccggcccaccaggccctccaggatacaaaggctttccaggatgtgatggaaaa gatggccagaaaggaccaatgggattcccagggccgcagggaccacatggatttcctggg ccacctggagagaagggtttacctggacctccagggagaaaagggcccactggtcttcca ggtcccagaggtgaaccggggccacttgcagatgcgaatgactgtccccgaatcccaggg cttcctggggtgccaggcctgagaggaccagaaggagccatgggactccctggaatgaga ggccccccaggaccagggtgcaaaggagagcctgggctggacggcaggaggggcatggat ggcattcctgggtctcctgggcctcccggacgtaaaggtgacacaggagaagacggctat cccggaggaccagggcctcctggtcccactggggatcctgggcccaaagggtttggcgct ggatacctcagtggcttcctactggttctccacagtcagacagaccaggagcccacctgc cccctgggcatgcccaggctctggactgggtatagtctgttatacctggaaggacaagag aaagctcacaatcaagaccttggtctggcagggtcttgccttcccgtgtttagcacgctg ccctttgcctactgcaacatccaccaggtgtgccactatgcccagagaaacgacagatcc tactggctggccagcgctgcacccctccccatgatgccactctctgaagaggcgatccgc ccctatgtcagccgctgtgcggtatgcgaggccccggcccaggcggtggcggtgcacagc caggaccagtccatccccccatgtccgcagacctggaggagcctctggattgggtattca ttcctgatgcacacaggagctggggaccaaggaggagggcaggccctcatgtcacccggc agctgcctggaagatttcagagcagcaccattccttgaatgccaaggccggcagggaact tgccacttttttgcaaatgagtatagcttctggctgacaacagtgaaagcagacttgcag ttttcccctgctccagcaccagacaccttaaaagaaagccaggcccaacgccagaaaatc agccggtgccaggtctgtgtgaagtatagctag

Rhinopithecus roxellana (golden snub-nosed monkey): 104672365 Help Entry 104672365         CDS       T03989                                  Gene name LAMB4 Definition (RefSeq) laminin subunit beta-4 isoform X1   KO K06245   laminin, beta 4 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104672365 (LAMB4)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104672365 (LAMB4)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104672365 (LAMB4)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104672365 (LAMB4)   09162 Cancer: specific types    05222 Small cell lung cancer     104672365 (LAMB4)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104672365 (LAMB4)   09174 Infectious disease: parasitic    05146 Amoebiasis     104672365 (LAMB4)    05145 Toxoplasmosis     104672365 (LAMB4) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_N Motif Other DBs NCBI-GeneID:  104672365 NCBI-ProteinID:  XP_030788637 LinkDB All DBs Position 6 AA seq 1760 aa AA seqDB search MQFQLTLFLHLGWLSYSKAQDDCNRGACHPTTGDLLVGRNTQLTASSTCGLSRAQKYCIL SYLEGEQKCFICDSRFPYDPYAQPNSHTIENVIVSFEPDREKKWWQSENGLDHVSIRLDL EALFRFSHLILTFKTFRPAAMLVERSTDYGHTWKVFKYFAKDCATSFPNITSGQAQGVGD IVCDSKYSDIEPSTGGEVVLKVLDPSFEIENPYSPYIQDLVTLTNLRINFTKLHTLGDTL LGRRQNDSLDKYYYALYEMVVRGSCFCNGHASECRPMQKVRGDVFSPPGMVHGQCVCQHN TDGPNCERCKDFFQDAPWRPAADLQDNTCRSCSCNSHSSRCHFDMTMYLASGGLSGGVCE DCQHNTEGQHCDRCRPLFYRDPLKTISDPYACIPCECDPDGTVSGGICVSHSDPALGSVA GQCLCKENVEGAKCDQCKPNHYGLSATDPLGCQPCDCNPLGSLSLLTCDVDTGQCLCLSY VTGAHCEECTVGYWGLGNHLHGCSPCDCDIGGAYSNVCSPKNGQCECRPHVTGRSCSEPA PGYFFAPLNFYLYEAEEATPLQGLAPLGSETFGQSPAVHIVLGEPVPGNPVTWTGPGFAR VLPGAGLRFAVNNIPFPVDFTIAIRYETQSAADWTVQIVVNPPQGSEHCVPKTSQSKPQS FALPAATRIMLLPTPICLEPDVQYSLDVYFSQPLEGESHTHSHVLVDSLGLIPQINSLEN FCSKQDLDEYQLHNCVEIASAMGPQVLPGACERLIISMSAKLHDGAVACKCHPQGSVGSS CSRLGGQCQCKPLVVGRCCDRCSTGSYGLGHHGCHPCHCHPQGSKDTVCDLVTGQCPCHG EVSGRRCDRCLAGYFGFPSCRPCPCNGFAELCDPETGSCFNCGGFTTGRNCERCIDGYYG NPSSGQPCRPCLCPDDPSSNQYFAHFCYQNLWSSDVICNCLQGYTGTQCGECSTGFYGNP RISGAPCQPCPCNNNIDVTDPESCSRVTGECLRCLHNTQGANCQLCKPGHYGSALNQTCR RCSCHASGVSPAECAPGGGACLCDPVTGACPCLPNVTGLACDRCADGYWNLIHGRGCQSC DCDPRTSQSSHCDQLTGQCPCKLGYGGKHCSECQENYYGDPPGRCIPCDCNRAGTQKPIC DPDTGMCLCREGVSGQRCDRYARGHSQEFPTCLQCHLCFDQWDYTISSLSKAVQGLMRLA ANMEDKRETLPVCKTDFKGLRENMSEIERILKHPVFPSGKFLEVKDYHDSVRKQIMQLNE QLKAVYEFQDLKHTIERAKNEAGLLLEDLQEEIDLQSSVLNASIVDSSENIKKYYHISSS AEKKINETSSTINTSANTRNDFLTILNTLTSKGNLSLEKLKQIKIPDIQILNEKVCGDPG NVPRVVPLPCGGAVCMGREGHSGGAGCHGSLTLSTNALQKAQEAKSVIRNLDKQVRGLKN QIKNISKLAEVSKNNALQLREKLGNTRNQSDSEEEKINLFIKKVKNFLLEENMPPEDIEK VANGVLDIHLPIPSQNLTDELDKIQKLMQLCEDYRSDENRLNEEADGAQKLLVKAKAAEK AANVLLNLDKTLNQLQQAQITHGRANSTITQLTANITKIKKNVLQAENQTREMKNELESA KQRSGLEDGLSLLQTKLQRHEDHAVNVKVQAESAQHQAGSLEKEFVELKKQYAMLQRKTS TTGLTKETLGKVKQLKDAAEKLAGDTEDKIRRITDLERKIQDLNLSRQAKADQLRILEDQ VVAIKNEIVEQEKKYATCYS NT seq 5283 nt NT seq  +upstreamnt  +downstreamnt atgcaatttcaactgaccctttttttgcaccttgggtggctcagttactcaaaagctcaa gatgactgcaacaggggtgcctgtcatcccaccaccggcgatctcctggtgggcaggaac acacagcttacggcttcttctacctgtgggctgagcagagcccagaaatactgcatcctc agttacctggagggcgaacaaaaatgcttcatctgtgactctagatttccatatgatcca tacgcccaacccaacagccacaccattgagaatgtcattgtaagttttgaaccagacaga gaaaagaaatggtggcagtctgaaaatggtcttgatcatgtcagcatcagactggactta gaggcattatttcggttcagccaccttatcttgacctttaagacttttcggcctgctgca atgttagttgaacgttccacagactatggacacacctggaaagtgttcaaatattttgca aaagactgtgccacttcctttcctaacatcacatctggccaggcccagggagtgggagac attgtttgtgactccaaatactcggatattgaaccctcaacaggtggagaggttgtttta aaagttttggatcccagttttgaaattgaaaacccttatagcccctacatccaagacctt gtgacattgacaaacctgaggataaactttaccaagctccacacccttggggatactttg cttggaaggaggcaaaatgattcccttgataaatactactatgctctgtacgagatggtt gttcggggaagctgcttttgcaatggccatgctagcgaatgtcgccctatgcagaaggtg cggggagatgttttcagccctcctggaatggttcacggtcagtgtgtctgtcagcacaat acagatggtccaaactgtgagagatgcaaggacttcttccaggatgctccttggaggcca gctgcagacctccaggacaacacttgcagatcgtgcagttgtaacagccactccagccgc tgtcacttcgacatgactatgtacctggcaagcggtggcctcagcgggggcgtgtgtgaa gactgccagcacaacactgaggggcagcactgcgatcgctgcaggcccctcttctacagg gaccccctcaagaccatctcagatccctacgcatgcattccttgtgaatgtgaccctgat gggaccgtatctggtggtatttgtgtgagccactctgatcctgccttagggtctgtggcc ggccagtgcctttgtaaagagaacgtggaaggagccaaatgcgaccagtgcaagcccaac cactatggactgagcgccactgaccccttgggctgccagccctgcgactgtaaccccctt gggagtctgtcactcttgacctgtgatgtggatacaggccaatgcttgtgcctgtcatat gtcaccggagcacactgcgaagaatgcactgttggatactggggcctgggaaatcatctc catgggtgttctccctgtgactgtgatattggaggtgcttattctaacgtgtgttcaccc aagaatgggcagtgtgaatgccgcccacatgtcactggccgtagctgctctgaaccagcc cctggctacttctttgctcctttgaatttctatctctatgaggcggaggaagccacgcca ctccaaggactggcgcctttgggctcggagacttttggccagagtcctgctgttcacatt gttttaggagagccagttcctgggaaccctgttacatggactggacctggatttgccagg gttctccctggggctggcttgagatttgctgtcaacaacattccctttcctgtggacttc accattgccattcgctatgaaacccagtctgcagctgactggactgtccagatcgtggtg aacccccctcaagggagtgagcactgcgtacccaagacttcacagtcaaagcctcagtct tttgccttaccagcggctaccagaatcatgctgcttcccacacccatctgtttagaacca gatgtacaatattccttagacgtctatttttctcagcctttggaaggagagtcccacact cattcacacgtcctggtggactcccttggccttattccccaaatcaattcattggagaat ttctgcagcaagcaggacttagatgagtatcagcttcacaactgtgttgaaattgcctca gcaatgggacctcaagtgctcccgggtgcctgtgaaaggctgatcatcagcatgtccgcc aagctgcatgatggggctgtggcctgcaagtgtcacccccagggctcagtcggatccagc tgcagccgacttggaggccagtgccagtgtaaacctcttgtggtcgggcgctgctgtgat aggtgctcaaccggaagctatggtttggggcatcatggctgtcacccatgtcactgccat cctcaaggatcaaaggacactgtgtgtgacctagtaacagggcagtgcccctgccatgga gaggtatctggccgccgctgtgatcgctgcctggcaggctactttggatttcccagctgc cgcccttgcccttgtaatgggtttgctgaactttgtgatcctgagacggggtcatgcttc aattgtggaggctttacaactggcagaaactgtgaaaggtgtattgatggttactatgga aatccttcttcaggacagccctgtcgtccttgcctgtgtccagatgatccctcaagcaat cagtattttgcccatttctgttatcagaatctgtggagctcagatgtaatctgcaattgt cttcaaggttatacgggtactcagtgtggagaatgctctactggtttctatggaaatcca agaatttcaggagcaccttgccaaccatgtccctgcaacaacaatatagatgtaaccgat ccagagtcctgcagccgggtaacaggggagtgccttcgatgtttgcacaacactcagggt gcaaactgccagctctgcaaaccaggtcactatggatcagccctaaatcagacctgcaga agatgctcctgccatgcttctggcgtgagtcccgcggagtgtgcccctggtgggggagct tgcctctgtgaccctgtcactggtgcatgcccttgtctgccgaatgtcacaggcctggcc tgtgatcgttgtgctgatggatactggaatctgattcatggcagaggatgtcagtcatgt gactgtgaccctaggacctctcaaagtagccactgtgaccagcttacaggccagtgtcca tgtaaattaggctacggcgggaaacattgcagtgagtgccaggaaaattattatggtgat ccacctgggcgatgcattccatgtgattgcaacagggcgggtacccagaagcccatctgt gatccagacacaggcatgtgcctctgccgggagggtgtcagcggccagagatgtgatcgc tatgcccggggtcacagccaggaattccctacttgtcttcaatgtcacttgtgctttgat caatgggactacaccatttcttccctctccaaagcggtgcaagggttaatgagactggct gctaacatggaagataaaagagagaccctgcctgtctgtaagacagacttcaaaggcctc agagagaacatgtctgaaatagaaaggattttgaaacatcctgttttcccatctgggaaa ttcttagaagtcaaggattatcatgactctgttagaaaacaaatcatgcagctaaatgaa caattgaaagcagtgtatgaatttcaagatctgaaacatacaatagaaagagcaaagaat gaagcaggcctcttacttgaagatcttcaggaagaaattgatttgcagtccagtgtcctt aatgcaagcatagtggactcctcagaaaacatcaagaaatattatcacatatcatcatct gctgaaaagaaaattaatgaaactagttctaccattaatacctctgcaaataccaggaat gactttcttaccatcctaaatacactaacctccaaaggaaacttgtcattggaaaaatta aagcagattaagataccagatatccaaatattgaatgaaaaggtgtgtggagatccagga aatgtgccacgtgttgtgcccttgccctgtggcggtgctgtctgcatgggccgggaaggg cacagtgggggtgccggctgtcatggctccctgaccctctcaacgaatgccctccaaaaa gcccaggaagcaaaatctgttattcgtaatttagataaacaggttcgtggattgaagaat cagatcaaaaatataagtaaactggcagaagtctccaaaaacaatgccttacagctaagg gaaaaactgggaaatacaagaaaccaaagtgactctgaagaagaaaaaatcaatcttttc atcaaaaaagtgaaaaactttttgttagaggaaaacatgcctccagaagacatcgagaag gttgcaaatggtgtacttgacattcacctaccaattccatcccaaaatctaaccgatgaa cttgacaaaatacagaaacttatgcaactctgtgaggattacaggtcagatgaaaacagg ctaaatgaagaagcagatggagcccaaaagcttctagtgaaggccaaagcagctgagaaa gcagcaaatgttctattaaatcttgacaaaacgttgaaccagttgcaacaagctcaaatc actcacggacgggcaaattctaccattacacagctgactgccaatataacaaaaataaaa aagaatgtgctgcaggctgaaaatcaaaccagggaaatgaagaatgagctggagtcagca aagcagcgatcagggctggaggatggactttccctgctacagaccaagttgcaaaggcat gaagaccacgctgtcaatgtgaaagttcaggctgaatctgcccaacaccaggctgggagt cttgagaaggaatttgttgagctgaaaaaacaatatgctatgctccagcgtaagacaagc actacaggactaacaaaggaaacattaggaaaagttaaacagctaaaagatgctgcagaa aaattggctggagatacagaggacaagataagaagaataacagatttagaaaggaaaatc caagatttgaatctaagtagacaagcaaaagctgatcaactgagaatattggaagatcaa gttgttgccattaaaaatgaaattgttgaacaagaaaaaaaatatgctacgtgctatagc tag

Rhinopithecus roxellana (golden snub-nosed monkey): 104677415 Help Entry 104677415         CDS       T03989                                  Gene name LAMB1 Definition (RefSeq) laminin subunit beta-1 isoform X1   KO K05636   laminin, beta 1 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104677415 (LAMB1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104677415 (LAMB1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104677415 (LAMB1)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104677415 (LAMB1)   09162 Cancer: specific types    05222 Small cell lung cancer     104677415 (LAMB1)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104677415 (LAMB1)   09174 Infectious disease: parasitic    05146 Amoebiasis     104677415 (LAMB1)    05145 Toxoplasmosis     104677415 (LAMB1) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_EGF Laminin_N CorA F5_F8_type_C Motif Other DBs NCBI-GeneID:  104677415 NCBI-ProteinID:  XP_010380739 UniProt:  A0A2K6QSI4 LinkDB All DBs Position 6 AA seq 1786 aa AA seqDB search MGLLQVLAFSFLALCGARVRAQEPEFSYGCAEGSCYPATGDLLIGRAQRLSVTSTCGLHK PEPYCIVSHLQEDKKCFICNSQDPYHETLNPDSHLIENVVTTFAPNRLKIWWQSENGVEN VTIQLDLEAEFHFTHLIMTFKTFRPAAMLIERSSDFGKTWGVYRYFAYDCEASFPGISTG PMKKVDDIICDSRYSDIEPSTEGEVIFRALDPAFKIEDPYSPRIQNLLKITNLRIKFVKL HTLGDNLLDSRMEIREKYYYAVYDMVVRGNCFCYGHASECAPVDGFNEEVEGMVHGHCMC RHNTKGLNCELCMDFYHDLPWRPAEGRNSNACKKCNCNEHSSSCHFDMAVYLATGNVSGG VCDDCQHNTMGHNCEQCKPFYYQHPERDIRDPNFCERCTCDPAGSQNEGICDSYTDFSTG LIAGQCRCKLHVEGEHCDVCKEGFYDLSGEDPFGCKSCACNPLGTIPGGNPCDSETGHCY CKRLVTGQHCDQCLPEHWGLSNDLDGCRPCDCDLGGALNNSCSAESGQCSCRPHMIGRQC NEVEPGYYFATLDHYLYEAEEANLGPGVSIVERQYIQDRIPSWTGAGFVRVPEGAYLEFF IDDIPYSMEYDILIRYEPQLPDHWEKAVITVQRPGKIPPSSRCGNTIPNDDNQVVSLSPG SRYVVLPRPVCFEKGTNYTVRLELPQYTSSDSDVESPYTLIDSLVLMPYCKSLDIFTVGG SGDGVVTNSAWETFQRYRCLENSRSVVKTPMTDVCRNIIFSISALLHQTGLACECDPQGS LSSVCDPNGGQCQCRPNVVGRTCNRCAPGTFGFGPSGCKPCECHLQGSVNAFCNPVTGQC HCFQGVYARQCDRCLPGHWGFPSCQPCQCNGHADDCDPVMGECLNCQDYTMGHNCERCLA GYYGDPIIGSGDHCRPCPCPDGPDSGRQFARSCYQDPVTLQLACVCDPGYIGSRCDDCAS GFFGNPSEVGGLCQPCQCHNNIDTTDPEACDKETGRCLKCLYHTEGEHCQFCRFGYYGDA LQQDCRKCVCNYLGTVQAHCNGSDCQCDKATGQCLCLPNVIGQNCDRCAPNTWQLASGTG CDPCNCNAAHSFGPSCNEFTGQCQCMPGFGGRTCSECQELFWGDPDVECRACDCDPRGIE TPQCDQSTGQCVCVEGVEGPRCDKCTRGYSGVFPDCTPCHQCFALWDVIIAELTNRTHRF LEKAKALKISGVIGPYRETVDSVERKVSEIKDILAQSPAAEPLKNIGNLFEEAEKLIKDV TEMMAQVEVKLSDTTSQSNSTAKELDSLQTEAESLDNTVKELAEQLEFIKNSDIRGALDS ITKYFQMSLEAEERVNASTTEPNSTVEQSALMRDRVEDMMMERESQFKEKQEEQARLLDE LAGKLQSLDLSAAAEMTCGTPPGASCSETECGGPNCRTDEGEKKCGGPGCGGLVTVAHNA WQKAMDLDQDVLSALSEVEQLSKMVSEAKLRADEAKQSAEDILLKTNATKEKMDKSNEDL RNLIKQIRNFLTQDSADLDSIEAVANEVLKMEMPSTPQQLQNLTEDIRERVESLSQVEVI LQQSAADIARAEMLLEEAKKASKSATDVKVTADMVKEALEEAEKAQVAAEKAIKQADEDI QGTQNLLTSIESETAASEETLFNASQRISELERNVEELKRKAAQNSGEAEYIEKVVYTVK QSADDVKKTLDGELDEKYKKVENLIAKKTEESADARRKAEMLQNEAKTLLAQANSKLQLL KDLERKYEDNQKYLEDKAQELARLEGEVRSLLKDISQKVAVYSTCL NT seq 5361 nt NT seq  +upstreamnt  +downstreamnt atgggtcttctccaggtgttagctttcagtttcttagccctgtgcggagcccgagtgcgc gctcaagaacccgagttcagctacggctgcgccgaaggcagttgctaccccgccacgggc gaccttctcatcggccgagcacagaggctttcggtgacctcgacgtgcgggctgcacaag cccgagccctactgtatcgtcagccacttgcaggaggacaaaaaatgcttcatatgcaat tcccaagatccttatcatgagaccctgaatcctgacagccatctcattgaaaatgtggtc actacatttgcgccaaaccgccttaagatttggtggcaatctgaaaatggtgtggaaaat gtaactatccaactggatttggaagcagaattccattttactcatctcataatgactttc aagacattccgtccagctgctatgctgatagaacgatcgtctgactttgggaaaacctgg ggcgtgtacagatacttcgcctatgactgtgaggcctcgtttccaggcatttcaactggc cccatgaaaaaagttgatgacataatttgtgattcccgatattctgacattgaaccctca actgaaggagaggtgatatttcgtgctttagatcctgctttcaaaatagaagatccttat agcccaaggatacagaatttattaaaaattaccaacttgagaatcaagtttgtgaaactg catactttgggagataaccttctggattccagaatggaaatcagagaaaagtattattat gcagtttatgatatggtggttcgaggaaattgcttctgctatggtcatgccagcgaatgt gcccctgtggatggattcaatgaagaagtggaaggaatggttcatggacactgcatgtgc aggcataacacgaagggcttaaattgtgaactctgcatggatttctaccatgatttacct tggagacctgctgaaggccgaaacagcaacgcctgtaaaaaatgtaattgcaatgaacat tccagctcatgtcactttgacatggctgtttacctggccacggggaacgtcagcggaggt gtgtgtgatgactgtcagcacaacacgatggggcacaactgtgagcagtgcaagccgttt tactaccagcacccagagagggacatccgagatcctaatttctgtgaacgatgtacatgt gacccagctggctctcaaaatgagggaatttgtgacagctatactgatttttctactggt ctcattgctggccagtgtcggtgtaaattacatgtggaaggagaacattgtgatgtttgc aaagaaggcttctatgatttaagtggtgaagatccatttggttgtaaatcttgtgcttgc aatcctctgggaacgattcctggagggaatccttgtgattccgagacaggtcactgctac tgcaagcgtctggtgacaggacagcattgtgaccagtgcctgccagagcactggggctta agcaatgatttggatggatgtcgaccatgtgactgtgaccttgggggagcattaaacaat agttgctctgcagagtcaggccagtgctcatgtcggcctcacatgattggacgtcagtgc aatgaagtggaacctggttactactttgccaccctggatcactacctctatgaagcggag gaagccaacttggggcccggggttagcatagtggagcggcagtacatccaggaccggatt ccctcctggactggagccggctttgtccgagtgcctgaaggggcttatttggagtttttc attgatgacataccatattccatggagtatgacatcctaattcgctatgagccacagcta cccgaccactgggaaaaagctgtcatcacagtgcagcgacctggaaagattccacccagc agccgatgtggtaataccatccccaatgatgacaaccaggtggtgtcattatcaccaggc tcaagatacgttgtccttcctcggccagtgtgctttgagaagggaacgaactacacggtg aggttggagctgcctcaatacacctcctctgatagcgacgtggagagcccctacacgctg atcgattctcttgttctcatgccatactgtaaatcactggacatcttcaccgtgggaggt tcaggagatggggtggtcaccaacagtgcctgggaaacctttcagagataccgatgtcta gagaacagcagaagcgttgtgaaaacgccgatgacagatgtttgcagaaacatcatcttt agcatttctgccctgttacaccagacaggcctggcttgtgaatgcgaccctcagggttca ttgagttccgtgtgtgatcccaacggaggccagtgccagtgccggcccaacgtggttgga agaacctgcaacagatgcgcacctggaacttttggctttggccccagtggatgcaaacct tgtgagtgccatctgcaaggatctgtcaatgccttctgcaatcctgtcactggccagtgc cactgtttccagggagtgtatgctcggcagtgtgatcggtgcttacctgggcactgggga tttccaagttgccagccctgccagtgcaatggccacgccgatgactgcgacccagtgatg ggggagtgcttgaactgccaggactacactatgggtcataactgtgagagatgcttggct ggttactatggtgaccccatcattgggtcaggagatcactgccgcccttgcccttgccca gatggtcccgacagtggacgccagtttgccaggagctgctaccaagatcctgttacttta cagcttgcctgtgtttgtgatcctggatacattggttccagatgtgacgactgtgcctca ggattctttggcaatccatcggaagttgggggcttgtgtcagccttgccagtgtcacaac aacattgacacgacagacccagaagcctgtgacaaggagaccgggaggtgcctcaagtgc ctgtaccacacggaaggggaacactgtcagttctgccggtttggatactatggtgacgcc ctccagcaggactgtcgaaagtgtgtctgtaattacctgggtaccgtgcaagcgcactgt aacggctctgactgccagtgtgacaaagccactggtcagtgcttgtgtcttcctaatgtg atcgggcagaactgtgaccgctgtgcacctaatacctggcagctggccagtggcactggc tgtgacccatgcaactgcaacgctgctcattccttcgggccatcttgcaatgagttcaca gggcagtgccagtgcatgcctgggtttggaggccgcacctgcagcgagtgccaggaactc ttctggggagaccctgacgtggagtgccgagcctgtgactgtgaccccaggggcattgag acgccacagtgtgaccagtccacgggccagtgtgtctgcgtggagggtgttgagggtcca cgctgtgacaagtgcacgcgagggtactcgggggtcttccctgactgcacaccctgccac cagtgctttgctctttgggacgtgatcattgctgagctgaccaacaggacacacagattc ctggagaaagccaaggccttgaagatcagtggtgtgatcgggccttaccgtgagactgtg gactcagtggagaggaaagtcagcgagataaaagacatcctggcgcagagccccgcagca gagccactgaaaaacattgggaatctctttgaggaagcagagaaactgattaaagatgtt acagaaatgatggctcaagtagaagtgaaattatctgacacaacttcccaaagcaacagc acagccaaagaactggattctctacagacagaagcggaaagcctagacaacactgtgaaa gaacttgctgaacaactggaatttatcaaaaactcagatattcggggtgccttggatagc attaccaagtatttccagatgtctcttgaggcagaggagagggtgaatgcctccaccaca gaacccaacagtactgtggaacagtcagccctcatgagagacagagtagaagatatgatg atggagcgagaatcccagttcaaggaaaaacaagaggagcaggctcgcctccttgatgaa ctggcaggcaagctgcaaagcctagacctttcagctgctgccgaaatgacctgtggaaca cccccaggggcctcctgttccgagactgaatgtggcgggccaaactgcagaactgatgaa ggagagaagaagtgtggggggcctggctgtggtggtctggttactgttgcacacaatgcc tggcagaaagccatggacttggaccaagatgtcctgagtgccctgtctgaagtggaacag ctctccaagatggtctctgaagcaaaactgagggcagatgaggcaaaacagagtgctgaa gacattctgttgaagacaaatgctaccaaagaaaaaatggacaagagcaatgaggatctg agaaatctaatcaagcaaatcagaaactttttgacccaggatagtgctgatttggacagc attgaagcagttgctaatgaagtactgaaaatggaaatgcctagcaccccacagcagtta cagaacttgacagaagatatacgtgaacgagttgaaagcctttctcaagtagaggttatt ctacagcagagtgctgctgacattgccagagctgagatgttgttagaagaagctaaaaaa gcaagcaaaagtgcaacagatgttaaagtcactgcagatatggtaaaggaagctctggaa gaagcagaaaaggcccaggtcgcagcagagaaggcaattaaacaagcagatgaagacatt caaggaactcagaacctgctaacttcgattgagtctgaaacagcagcttctgaggaaacc ttgttcaacgcgtcccagcgcatcagcgagttagagaggaatgtggaagaacttaagcgg aaagctgcccaaaactctggggaggcagaatatattgaaaaagtagtatatactgtgaag caaagcgcagatgatgttaagaagactttagatggtgaacttgatgaaaaatataaaaaa gtagaaaacttaattgccaaaaaaactgaggagtcagctgatgccagaaggaaagctgaa atgctacaaaatgaagcaaaaactcttttagctcaagcaaacagcaagctgcaactgctc aaagatttagaaagaaaatatgaagacaatcaaaaatacttagaagataaagctcaagaa ttagcaagactggaaggagaagtccgttcactccttaaggatataagccagaaagttgct gtttatagcacgtgcttgtaa

Rhinopithecus roxellana (golden snub-nosed monkey): 104678039 Help Entry 104678039         CDS       T03989                                  Definition (RefSeq) laminin subunit alpha-3 isoform X2   KO K06240   laminin, alpha 3/5 Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro05145   Toxoplasmosis rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104678039   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104678039  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104678039  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104678039   09162 Cancer: specific types    05222 Small cell lung cancer     104678039   09172 Infectious disease: viral    05165 Human papillomavirus infection     104678039   09174 Infectious disease: parasitic    05146 Amoebiasis     104678039    05145 Toxoplasmosis     104678039 BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Laminin_I Laminin_G_2 Laminin_G_1 Laminin_II Laminin_G_3 Laminin_EGF Motif Other DBs NCBI-GeneID:  104678039 NCBI-ProteinID:  XP_010381530 UniProt:  A0A2K6PND1 LinkDB All DBs Position 21 AA seq 1724 aa AA seqDB search MPPAVRRSARSMGWLWIFGAALGQCLGYSSQQQRVPFLQPPGQSQLQASYVEFRPSQGCS PGYYRDHKGLYTGRCVPCNCNGHSNRCQDGSGICVNCQHNTAGEHCERCQEGYYGNAVHG SCRACPCPHTNRFATGCVVNGGDVRCSCKAGYTGTQCERCAPGYFGNPQKFGGSCQPCSC NSNGQLGSCDPLTGDCINQEPKDSSPAEECDDCDSCVMTLLNDLATMGEQLRLVKSQLQG LSASAELLEQMRHVETQAKDLRNQLLNYRSAISNHGSKIEGLERELTGLNQEFETLQEKA QVNSRKAQTLYNNVNRAIQSAKELDMKIKTVIRNVHILLKQISGTDGEGNNVPSGDFSRE WAEAQRMMRELRNRNFGKHLREAEADKRESQLLLNRIRTWQKTHQGENNGLANSIRDSLN EYEAKLSDLRARLQEAAARAKQANGLNQENERALGAIQRQVKEINSLQSDFTKYLTSADS SLLQTNIALQLMEKSQKEYEKLAASLNEARQELSDKVRELSRSAGKTSLVEEAEKHAQSL QELAKQLEEIKRNASGDELVRCAVDAATAYENILNAIKAAEDAANRAASASESALQTVIK EDLPRKAKTLSSNSDKLLNEAKMTQKKLKQEVHLALSNLQQTLNIVTVQKEVIATNLTTL RDGLRGIQRGDIDAMISSAKSMVRKANDITDEVLDGLNPIQTDVERIKDTYGSTQTEDFK KALTDADNSVNKLTNKLPDLWRKIESINQQLLPLGNISDNMDRIRELIQQARDAASKVAV PMRFNGKSGVEVRLPNDLEDLKGYTSLSLFLQRPNSRENGGTENMFVMYLGNKDASRDYI GMAVVDGQLTCVYNLGDRETELQVDQILTESETQEAVMDRVKFQRIYQFARLNYTKGATS SKPEIPGVYDMDGRNSNTLLNLDPENVVFYVGGYPPDFKLPSRLRFPPYKGCIELDDLNE NVLSLYNFKKTFNLNTTEVEPCRRRKEESDKNYFEGTGYARVPTQPHASIPTFGQTIQTT VDRGLLFFTENGDRFISLNIEDGKLMVRYKLNSEPPKERGVGDAINNGRDHSIQIKIGKV QKRMWINVDFQNTIIDGEVFDFSTYYLGGIPIAIRERFNISTPAFRGCMKNLKKTSGVVR LNDTVGVTKKCSEDWKLVRSASFSRGGQLSFTNLGSPLTDHLQASFGFQTFQPSGVLLSL QTRTSTLQVTLEDGHIELSTRDSDGPIFKSPQTYMDGLLHYVSVISDNSGLRLLIDDQPL RNGQRPKRISSSQQSLRLGGSNFEGCISNVFVQRLSLSPEVLDLASNSLKRDVSLGGCSL NKPPFLMLLQGSTRFNKAKTSRINQLLQDTPVASPRSMKVWQDACSPLPRTQANHGALQF GDIPTSHLLFKLPQELLKPRSQFAVDMQTTSSRGLVFHTGTKNSFMALYLSKGRLVFALG TDGKKLRIKSKEKCNDGKWHTVVFGHDGEKGRLVVDGLRAREGSLPGNSTVSIRGPVYLG SPPSGKPKSLPTNSFVGCLKNFQLDSKPLDTPSSSFGVSSCLGGPLEKGIYFSEEGGHVI LAHSVLLGPEFKLVFSIRPRSLTGILIHIGSQPGKHLCVYLEAGKVTASMDSGAGGTSTS VTPKQSLCDGQWHSVAVTIKQHILHLELDTDSSYTAGQIPFPPASTQEPLHLGGAPANLT TLRIPVWKSFFGCLRNIFVNHIPVPVTEALEVQGPVSLNGCPDH NT seq 5175 nt NT seq  +upstreamnt  +downstreamnt atgcctccagcagtgaggcggtcagcccgcagcatgggatggctgtggatctttggggca gccctggggcaatgtctgggctacagttcacagcagcaaagggtgccatttcttcagcct cccggtcaaagtcaactgcaagcgagttatgtggagtttagacccagccagggttgtagc cctggatattatcgggatcacaaaggcttgtataccggacggtgtgttccctgcaattgc aacggacattcaaatcgatgccaggatggctcaggcatatgtgttaactgtcagcacaac accgcgggggagcattgtgaacgctgccaggagggctactatggcaacgccgtccacgga tcctgcagggcctgcccgtgtcctcacaccaacaggtttgccaccggctgtgtggtgaac gggggagacgtgcggtgctcctgcaaagctgggtacacaggaacacagtgtgaaaggtgt gcaccgggatatttcgggaatccccagaaattcggaggtagctgccaaccatgcagttgt aacagcaatggccagctgggcagttgtgatcccctgactggagactgcataaaccaagaa cccaaagatagcagccctgcagaagaatgtgatgattgcgacagctgtgtgatgaccctc ctgaatgacctggccaccatgggcgagcagctccgcctggtcaagtctcagctgcagggc ctgagtgccagcgcggagcttctggagcagatgaggcacgtggagacccaggccaaggac ctgaggaatcagttgctcaactaccgttctgccatttcaaatcatggatcaaaaatagaa ggcctggaaagagaactgactggtctgaatcaggaatttgagactttgcaagaaaaggct caagtaaattccagaaaagcacaaacattatacaacaatgttaatcgggcgatacaaagc gcaaaagaactggatatgaagattaaaactgtcatccggaatgtgcacattctcttaaag cagatctcggggacagatggagagggaaacaacgtgccttcaggtgacttttccagagag tgggctgaagcccagcgcatgatgagggaactgcggaacaggaactttggaaagcacctg agagaagcagaagctgataaaagggagtcacagctcttgctgaaccggataaggacctgg cagaaaacccaccagggggagaacaacgggcttgctaatagtatacgggattctttaaat gaatacgaagccaaactcagtgaccttcgtgctcggctgcaggaggcagctgcccgagcc aagcaggcaaatggcttgaaccaagaaaatgagagagctttgggagccatccagagacaa gtaaaagaaataaattccctgcagagtgatttcaccaagtatctaacctctgcagactca tctttgttgcaaaccaacattgcactgcagctgatggagaaaagccagaaggaatatgaa aaattagctgccagtttaaatgaagcaagacaagaactaagtgacaaagtaagagaactt tccagatctgctggcaaaacatcccttgtggaggaggcagaaaagcacgcgcagtcctta caagagctggcaaagcagctggaagagatcaagagaaatgccagcggggatgagctggtg cgctgtgctgtggatgccgccaccgcctatgagaacatcctcaacgccatcaaagcggct gaggacgcggccaacagggctgccagtgcatctgaatctgccctccagacagtgataaag gaagatctgccaagaaaagctaaaaccctgagttccaacagtgataaactgttaaatgaa gccaagatgacacaaaagaagctaaagcaagaagtccatctggctctcagcaacctacag caaaccctgaatattgtgacagttcagaaagaagtgatagccaccaatcttacaactctc cgagatggtcttcgtgggatacagagaggtgatattgatgctatgatcagtagtgcaaag agcatggtcagaaaggccaacgacatcacagatgaggtcctggatgggctcaaccccatt cagacagatgtggaaagaattaaggacacctatgggagcacacagaccgaagacttcaaa aaggctctgactgatgcagataactcggtgaataagttaaccaacaaactacctgatctt tggcgcaagattgaaagtatcaaccaacagctgttgcccttgggaaacatctctgacaac atggacagaatacgagaattaattcagcaggccagagatgctgccagtaaggttgctgtc cccatgagattcaatggtaaatctggagttgaagtccgactgccaaatgacctggaagat ttgaaaggatacacatctctgtccttgtttctccaaaggcccaactcaagagaaaatggg ggtactgagaatatgtttgtgatgtaccttggaaataaagatgcctcccgggactacatc ggcatggcagttgtggatggtcagctcacctgtgtctacaacctgggggaccgtgagact gaactccaagtggaccagatcttgaccgagagtgagactcaggaggcagttatggatcgg gtgaaatttcagagaatttatcagtttgcaaggcttaattacaccaaaggagccacatcc agtaaaccagaaatacccggagtctatgacatggatggtagaaacagcaatacactcctt aatttggatcctgaaaatgttgtattttatgttggaggttacccacctgattttaaactt cccagtcgactaaggttccctccatacaaaggttgtattgaattagatgacctcaatgaa aatgttctgagcttatacaacttcaaaaaaacattcaatctcaacacaacggaagtggag ccttgtagaaggaggaaggaagagtcagacaaaaattattttgaaggtacgggctatgct cgagttccaactcaaccacatgcttccatcccaacctttggacagacaattcagaccact gtggatagaggcttgctgttcttcacagaaaacggggatcgcttcatatctctgaatata gaagatggcaagctcatggtgagatacaaactgaattcagagccaccaaaagagagagga gttggagacgccataaacaacggcagagatcattcgattcagatcaaaattggaaaagtc caaaagcgtatgtggataaatgtggactttcaaaacactataattgatggtgaagtattt gatttcagcacatattatctgggaggaattccaattgcaatcagggaaagatttaacatt tctacgcctgctttccgaggctgcatgaaaaatttgaagaaaaccagtggtgtcgttaga ttgaacgatactgtgggagtaaccaaaaagtgctcggaagactggaagcttgtgcgatct gcctcattctccagaggaggacagttgagtttcactaatttgggctcaccgcttactgac cacctccaggcctcatttggatttcagacttttcaacccagtggcgtattattaagtctt cagacacggacaagcaccctgcaggtcactctggaagatggtcacattgaattgagcacc agggatagcgacggcccaatttttaaatctccacaaacatatatggatggtttgctgcac tatgtatctgtaataagcgacaactctggactacggcttctcattgatgaccagcctctg agaaatggccaaaggccaaaacgcatttcaagttcccagcagtctctgcgtctgggcggg agcaattttgagggttgtatcagcaatgtttttgtccagaggttatcactgagtcccgaa gtcctagatttggccagtaactctctcaagagagatgtgtccctgggaggctgcagttta aacaaaccaccttttctaatgttgcttcagggttctaccaggtttaacaaggccaagact tcccgtatcaatcagctgttgcaggacacaccagtggcctccccaagaagcatgaaagtg tggcaagatgcctgttcaccacttcccaggacccaggccaatcatggagccctccagttt ggggacattcccaccagccacttgctattcaagcttcctcaggagctgctgaaacccagg tcacagtttgctgtggacatgcagacaacatcctccagaggactggtgtttcacacgggc actaagaactcctttatggctctttatctttcaaaaggacgtctggtctttgcactgggg acagatgggaaaaaattgaggatcaaaagcaaggagaaatgcaatgatgggaagtggcac acggtggtgtttggccatgatggagaaaaggggcgcttggttgtggatggactgagagcc cgggagggaagtttgcctggaaactccaccgtcagcatcagaggaccagtttacctggga tcgcctccatcagggaaaccaaagagccttcccacaaacagctttgtgggatgcttgaag aactttcagctggattcaaaacccttggataccccttcttcaagcttcggggtgtcttct tgcttgggtggtcctttggagaaaggcatttatttctccgaagaaggaggtcatgtcatc ttggctcactctgtgttgctggggccagaatttaagcttgttttcagcatccgcccaaga agtctcactgggatcctaatacacatcggaagtcagcctgggaagcacttatgtgtttac ctggaggccggaaaggtcacggcctctatggacagtggggcaggcgggacctcgacctca gtcacaccaaagcagtctctgtgtgatgggcagtggcactcggtggcagtcaccataaaa caacacatcctgcacctggaactggacacagacagtagctacacagctggacagatcccc ttcccacctgccagcactcaagagccactacaccttggaggtgctccagccaatttgacg acactgaggatccctgtgtggaaatcattctttggctgtctgaggaatatttttgtcaac cacatccctgtccctgtcactgaagccttggaagtccaggggcctgtcagtctgaatggc tgtcctgaccactaa

Rhinopithecus roxellana (golden snub-nosed monkey): 104679242 Help Entry 104679242         CDS       T03989                                  Gene name COL4A1 Definition (RefSeq) collagen alpha-1(IV) chain   KO K06237   collagen type IV alpha Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04926   Relaxin signaling pathway rro04933   AGE-RAGE signaling pathway in diabetic complications rro04974   Protein digestion and absorption rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104679242 (COL4A1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104679242 (COL4A1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104679242 (COL4A1)  09150 Organismal Systems   09152 Endocrine system    04926 Relaxin signaling pathway     104679242 (COL4A1)   09154 Digestive system    04974 Protein digestion and absorption     104679242 (COL4A1)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104679242 (COL4A1)   09162 Cancer: specific types    05222 Small cell lung cancer     104679242 (COL4A1)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104679242 (COL4A1)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104679242 (COL4A1)   09174 Infectious disease: parasitic    05146 Amoebiasis     104679242 (COL4A1)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104679242 (COL4A1)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104679242 (COL4A1) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of other cancer cells    104679242 (COL4A1) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104679242 (COL4A1) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Collagen C4 Motif Other DBs NCBI-GeneID:  104679242 NCBI-ProteinID:  XP_010383047 UniProt:  A0A2K6NU22 LinkDB All DBs Position 18 AA seq 1669 aa AA seqDB search MGPRLSVWLLLLPAALLLHEEHSRAAAKGGCAGSGCGKCDCHGVKGQKGERGLPGLQGVI GFPGMQGPEGPQGPPGQKGDTGEPGLPGTKGTRGPPGASGYPGNPGLPGIPGQDGPPGPP GIPGCNGTKGERGPLGPPGLPGFAGNPGPPGLPGMKGDPGEILGHVPGMLLKGERGFPGL PGNPGPPGLPGLQGPVGPPGFTGPPGPPGPPGPPGEKGQMGLSFQGPKGDKGDQGVSGPP GVPGQAQVQEKGDFATKGEKGQKGEPGFQGMPGVGEKGEPGKPGPRGKPGKDGDKGEKGS PGFPGEPGYPGLVGRQGPQGEKGEAGPPGPPGIVIGTGPLGEKGERGYPGTPGPRGEPGP KGFPGLPGQPGPPGLPVPGQAGAPGFPGERGEKGDRGFPGASLPGPSGRDGLPGPPGSPG PPGQPGYTNGIVECQPGPPGDQGPPGIPGQPGLIGEIGEKGQKGESCLICDTTGYRGPPG PQGPPGEIGFPGQPGAKGDRGLPGRDGVAGVPGPQGTPGLIGQPGAKGEPGEIYFDLRLK GDKGDPGFPGQPGIPGRAGSPGRDGRPGLPGPKGSPGSVGLKGERGPPGGVGFPGSRGDT GPPGPPGYGPTGPIGDKGQAGFPGGPGSPGLPGPKGEPGKVVPLPGPPGAEGLPGSPGFP GPQGDRGFPGTPGRPGLPGEKGAVGQQGIGFPGPPGPKGVDGLPGDVGPPGTPGRPGFNG LPGNPGVQGQKGEPGVGLPGLKGLPGLPGIAGTPGEKGSVGVPGVPGEHGAIGPPGLQGI RGEPGPPGLPGSVGSPGVPGIGPPGARGPPGGQGPPGLSGPPGIKGEKGFPGFPGLDMPG PKGDKGSQGLPGVTGQSGLPGLPGQQGSPGIPGFPGSKGEMGVMGTPGQPGSPGPVGVPG LPGEKGDHGFPGSSGPRGDPGLKGDKGDVGLPGKPGSMDKVDMGSMKGQKGDQGEKGQIG PIGEKGSRGDPGTPGVPGKDGQAGQPGQPGPKGDPGISGTPGAPGLPGPKGSVGGMGLPG TPGEKGVPGIPGPQGSPGSPGEKGAKGAKGQAGPPGIGIPGLPGEKGDQGIAGFPGSPGE KGEKGSIGIPGMPGSPGLKGSPGSVGYPGSPGLPGEKGDKGLPGLDGIPGVKGEAGLPGT PGPTGPAGQKGEPGSDGIPGSAGEKGEPGLPGRGFPGFPGAKGDKGSKGEVGFPGLAGSP GIPGSKGEQGFMGPPGPQGQPGLPGSPGRATEGPKGDRGPQGQPGLPGLPGPMGPPGLPG IDGVKGDKGNPGWPGAPGVPGPKGDPGFQGMPGIGGSPGITGSKGDMGPPGVPGFQGPKG LPGLQGIKGDQGDQGVPGAKGLPGPPGPPGPYDIIKGEPGLPGPEGPPGLKGLQGPPGPK GQQGVTGLVGIPGPPGIPGFDGAPGQKGEMGPTGPTGPRGFPGPPGPDGLPGSMGPPGTP SVDHGFLVTRHSQTIDDPQCPSGTKILYHGYSLLYVQGNERAHGQDLGTAGSCLRKFSTM PFLFCNINNVCNFASRNDYSYWLSTPEPMPMSMAPITGDNIRPFISRCAVCEAPAMVMAV HSQTIQIPPCPSGWSSLWIGYSFVMHTSAGAEGSGQALASPGSCLEEFRSAPFIECHGRG TCNYYANAYSFWLATIERSEMFKKPTPSTLKAGELRTHVSRCQVCMRRT NT seq 5010 nt NT seq  +upstreamnt  +downstreamnt atggggccccggctcagcgtctggctgctgctgctgcccgccgcccttctgctccacgag gagcacagccgggccgctgcgaagggtggctgtgctggctctggctgtggcaaatgtgac tgccatggagtgaagggacaaaagggcgaaagaggcctcccagggttacaaggtgtcatt gggtttcctggaatgcaaggacctgaggggccgcagggaccaccaggacaaaagggtgat actggagaaccaggactacctggaacaaaagggacaagaggacccccgggagcatctggc taccctggaaacccaggacttcccggtattcctggccaagacggcccaccaggcccccca ggtattccaggatgcaatggcacaaagggagagagagggccgctcgggcctcctggcttg cctggtttcgctggaaatcccggaccaccagggttaccaggaatgaagggtgatccaggt gagatacttggccatgtgcccgggatgctgttgaaaggtgaaagaggatttcccggactc ccagggaatccaggtccaccaggattgccaggacttcaaggtcctgttgggcctccagga tttaccggaccaccgggtcctccaggtcctcccggccctccaggtgaaaagggacaaatg ggcttaagttttcaaggacccaaaggtgacaagggtgaccaaggggtcagtgggcctccg ggagtaccaggacaagcccaagttcaagaaaaaggagattttgccaccaagggagaaaag ggccaaaaaggtgaacctggatttcagggaatgccaggggtcggagagaaaggtgaaccc ggaaaaccaggacccagaggaaaacctggaaaagatggtgacaaaggggaaaaagggagt cccggttttcctggtgaacccgggtacccaggactcgtaggccgccagggcccgcaggga gaaaagggtgaagcaggtcctcctggcccaccaggaattgttataggcacagggcctttg ggagaaaaaggagagcggggctaccctggaactccagggccaagaggagagccaggcccg aaaggtttcccaggactaccaggccaacccggacctccaggcctccctgtacctgggcag gctggtgcccctggcttccctggtgaaagaggagaaaaaggtgaccgaggatttccgggt gcatctctgccaggaccaagtggaagagacgggctcccgggtcctcctggttcccccggg ccccctgggcagcctggctacacaaatggaattgtggaatgtcagcccggacctccaggt gaccaaggtcctcctggaattccagggcagccaggattgataggcgaaattggagagaaa ggtcaaaaaggagagagttgcctcatctgtgatacaactggatatcgggggcctcccggg ccacagggacccccaggagaaataggtttcccaggacagccaggggccaagggcgacaga ggtttgcctggcagagatggtgttgcaggagtgcctgggcctcaaggtacaccagggctg ataggccagccaggagccaagggggagcctggtgagatttatttcgacctgcggctcaaa ggtgacaaaggagacccaggctttccaggacagcccggcataccagggagggcgggttct cctggaagagatggccgtccgggtcttcctggccccaagggctcgccgggttctgtagga ttgaaaggagagcgtggcccccctggaggagttggattcccaggcagtcgtggtgacacc ggcccccctgggcctccaggatatggtcctactggtcccattggtgacaaaggacaagca ggctttcctggaggccctgggtccccaggcctgccaggtccaaagggtgaaccaggaaaa gttgttcctttaccaggcccccctggagcagaaggactgccggggtccccaggcttccca ggtccccaaggagaccgaggctttcctggaaccccaggaaggccaggcctgccaggagag aagggtgctgtgggccagcagggaattggatttccagggccccctggccccaaaggtgtt gacggcttacctggagatgtggggcctccagggactccaggtcgcccgggatttaatggc ttacctgggaacccaggtgtgcagggccagaagggagagcctggagttggtctgccagga ctcaaaggtttgccaggtctacccggcattgctggcacacccggggagaaggggagcgtt ggggtaccaggcgttcctggagaacacggagcgatcggaccccctgggcttcaggggatc agaggtgaaccggggcctcctggattgccaggctccgtggggtctccaggagttccagga attggcccccctggagctaggggcccccctggaggacagggaccaccgggattgtcgggc cctcctggaataaaaggagagaagggtttccccggattccccggactggacatgccaggc cctaaaggagataaagggtctcaaggacttcctggcgtaacaggacagtcagggctccct ggccttcctggacagcaggggtctcctggcattcctgggtttccaggttccaagggagaa atgggcgtcatggggacccccgggcagccgggctcaccaggaccagtgggtgttccggga ttaccgggtgaaaaaggggaccatggctttccgggctcctcaggacccaggggagaccct ggcctgaaaggtgataagggggatgtcggtctccctggcaagcctggctccatggataag gtggacatgggcagcatgaagggccagaagggagaccaaggagagaaaggacaaattgga ccaattggtgagaaaggatcccgaggagaccctgggaccccaggagtgcctggaaaggat gggcaggcaggacagcctgggcagccaggaccgaaaggtgatccaggtataagtggaacc ccaggtgctccaggacttccgggaccaaaaggatctgttggtggaatgggcttgccagga acacctggagagaaaggtgtgcctggcatccctggcccacaaggttcacctggctcacct ggagaaaaaggtgcaaaaggagcgaaagggcaggcaggcccacctggcataggcatccca gggctgcctggtgaaaagggagatcaagggatagcgggtttcccaggaagccctggagag aagggagaaaaaggaagcattgggatcccaggaatgccagggtccccaggccttaaaggg tctcctgggagtgttggctatccagggagccctgggctgcctggagaaaaaggtgacaaa ggcctcccaggattggatggcatccctggtgtcaaaggagaagcaggtcttcctgggacg cctggccccacaggcccagctggccagaaaggggagccaggcagtgacggaatcccgggg tcagcaggagagaagggtgaaccaggtctaccaggaagaggattcccagggtttccaggg gccaaaggagacaaaggttcaaagggcgaggtgggtttcccaggattagccgggagccca ggaattcctggatccaaaggagagcaaggattcatgggtcctccagggccccagggacaa ccagggttaccaggatccccaggccgtgccacggaggggcccaaaggagaccgtggacct cagggccagcctggcctgccaggacttccgggacccatggggcctccggggcttcctggg attgatggagttaaaggtgacaaaggaaatccaggctggccaggagcacccggtgtccca gggcccaagggagaccctggattccagggcatgcctggtattggtggctctccaggaatc acaggctctaagggtgatatggggcctccaggagttccaggatttcaaggtccaaaaggt cttcctggcctccagggaattaaaggtgatcaaggcgatcaaggtgtcccgggagctaaa ggtctcccgggtcctcctggccccccaggtccttacgacatcatcaaaggggagcccggg ctccctggtcctgagggtcccccagggctgaaagggcttcagggacctccaggccccaaa ggccagcaaggtgttacaggattggtgggtatccctggacctccaggtatccctgggttc gacggtgcccctggccagaaaggagagatgggacctaccgggcctactggtccaagagga tttccaggtccaccaggccctgatgggttgccagggtccatggggcccccaggcacccca tctgttgatcatggcttccttgtgaccaggcacagtcaaacaatagacgacccacagtgt ccctctgggaccaaaattctttaccatgggtactctttgctctacgtgcaaggcaacgaa cgggcccatggccaggacttgggcacggccggcagctgcctgcgcaagttcagcacaatg cccttcctgttctgcaatattaacaacgtgtgcaactttgcatcacgaaatgactactcg tactggctctccacccccgagcccatgcccatgtcaatggcacccatcacgggggacaac ataagaccatttattagtaggtgtgctgtgtgtgaggcgcccgccatggtgatggccgtg cacagtcagaccattcagatcccaccgtgccccagcgggtggtcctcgctgtggatcggc tactcttttgtgatgcacaccagcgctggtgcagaaggctctggccaagccctggcatcc cctggctcctgtctggaggagtttagaagtgcgccattcatcgagtgtcacggccgtggg acctgtaattactatgcaaatgcttacagcttttggctcgccaccatagagaggagcgag atgttcaagaagcccacgccgtccaccttgaaggcaggggagctgcgcacacatgtcagc cgctgccaagtctgtatgagaagaacataa

Rhinopithecus roxellana (golden snub-nosed monkey): 104679243 Help Entry 104679243         CDS       T03989                                  Gene name COL4A2 Definition (RefSeq) collagen alpha-2(IV) chain   KO K06237   collagen type IV alpha Organism rro  Rhinopithecus roxellana (golden snub-nosed monkey) Pathway rro04151   PI3K-Akt signaling pathway rro04510   Focal adhesion rro04512   ECM-receptor interaction rro04926   Relaxin signaling pathway rro04933   AGE-RAGE signaling pathway in diabetic complications rro04974   Protein digestion and absorption rro05146   Amoebiasis rro05165   Human papillomavirus infection rro05200   Pathways in cancer rro05222   Small cell lung cancer Brite KEGG Orthology (KO) [BR:rro00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     104679243 (COL4A2)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     104679243 (COL4A2)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     104679243 (COL4A2)  09150 Organismal Systems   09152 Endocrine system    04926 Relaxin signaling pathway     104679243 (COL4A2)   09154 Digestive system    04974 Protein digestion and absorption     104679243 (COL4A2)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     104679243 (COL4A2)   09162 Cancer: specific types    05222 Small cell lung cancer     104679243 (COL4A2)   09167 Endocrine and metabolic disease    04933 AGE-RAGE signaling pathway in diabetic complications     104679243 (COL4A2)   09172 Infectious disease: viral    05165 Human papillomavirus infection     104679243 (COL4A2)   09174 Infectious disease: parasitic    05146 Amoebiasis     104679243 (COL4A2)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:rro04147]     104679243 (COL4A2)    00536 Glycosaminoglycan binding proteins [BR:rro00536]     104679243 (COL4A2) Exosome [BR:rro04147]  Exosomal proteins   Exosomal proteins of other cancer cells    104679243 (COL4A2) Glycosaminoglycan binding proteins [BR:rro00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    104679243 (COL4A2) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Collagen C4 Motif Other DBs NCBI-GeneID:  104679243 NCBI-ProteinID:  XP_030778225 LinkDB All DBs Position 18 AA seq 1712 aa AA seqDB search MGRDQRAVAGPALRRWLLLGTVTVGFLAQGVLAGVKKFDVPCGGRDCSGGCQCYPEKGGR GQPGPVGPQGYNGPPGLQGFPGLQGRKGDKGERGAPGITGPKGDVGARGVSGFPGADGIP GHPGQGGPRGRPGYDGCNGTQGDSGPQGPPGSEGFTGPPGPQGPKGQKGEPYALPREERD RYRGEPGEPGLVGFQGPPGRPGPVGQMGPVGAPGRPGPPGPPGPKGQQGNRGLGFYGVKG EKGDVGQPGPNGIPSDLLHPIIAPTGVTFHPDQYKGEKGSEGEPGIRGISLKGEEGIMGF PGLRGYPGLSGAKGSPGQKGSRGLDGYQGPDGPRGPKGEAGDLGPPGLPAYSPHPSLAKG ARGDPGFPGAQGEPGSQGEPGDPGPRGPPGLSIGDEDQRRGLPGEMGPKGFIGDPGIPAL YPGPPGPDGRPGPPGPPGLPGPPGPDGFLFGLKGAEGRAGFPGLSGSPGARGPKGWKGDA GDCRCAEGDEPVRGPPGLPGPKGFAGINGEPGRKGDKGDPGQHGLPGFPGLKGVPGNVGA PGPKGAKGDSRTITTKGERGQPGVPGVPGMKGDDGGPGRDGLDGFPGLPGPPGDGIKGPP GDAGYPGIPGTKGTPGEVGPPGLGLPGFKGQRGFPGDAGLPGPPGFPGPPGPAGTPGQRD CDTDVKRPIGGDRQEAIQPGCVGGPKGLPGLPGPPGPSGAKGLRGIPGFSGADGGPGPKG LPGDPGREGFPGPPGFIGPRGSKGAVGLPGPDGPPGPIGLPGPDGPPGDRGLPGEVLGAQ PGPRGDAGVPGQPGFKGLPGDRGPPGFRGSQGMPGMPGPKGQPGLPGPSGQPGLSGPPGQ HGFPGAPGQEGPLGLPGIPGLEGLPGDRGDPGDIGAPGPVGMKGLSGDRGDAGLAGERGH PGSPGFKGIDGMPGTPGLKGERGSPGMDGFQGMPGLKGRPGFPGSKGEAGFFGIPGLKGV AGEPGFKGSRGDPGPPGPPPIILPGMKDIKGEKGDEGPMGLKGYLGAKGIPGMPGIPGLS GIPGLPGRPGHIKGVKGDIGAPGIPGLPGFPGVAGPPGITGFPGFIGSRGDKGAPGRAGL YGEIGPTGDFGDIGDTINLPGRPGLKGEQGTAGIPGLKGFFGEKGTEGDIGFPGITGVTG VQGPPGLKGQTGFPGLTGPPGSQGQPGRIGLPGGKGDDGWPGTPGLPGFPGLRGIRGLHG LPGTKGFPGSPGADIHGDPGFPGPPGDRGDPGDANTLPGPVGVPGQKGEQGAPGERGPPG SPGLQGFPGITPPSNISGVPGDKGAPGIFGLKGYRGPPGPPGSAALPGSKGDTGNPGAPG TPGTKGWAGDSGPQGRPGVFGLPGEKGPRGEQGFMGNTGPAGAVGDRGPKGPKGDPGFPG APGIVGAPGIAGIPQKIAIPPGTVGPQGRRGPPGAQGEMGPQGPPGEPGFRGAPGKVGPQ GRGGVSAVPGFRGDEGPIGHQGPIGQEGAPGRPGSPGLPGMPGRSASIGYLLVKHSQTDQ EPMCPVGMNKLWSGYSLLYFEGQEKAHNQDLGLAGSCLARFSTMPFLYCNPGDVCYYASR NDKSYWLSTTAPLPMMPVAEDEIKPYISRCSVCEAPAVAIAVHSQDVSIPHCPAGWRSLW IGYSFLMHTAAGDEGGGQSLVSPGSCLEDFRATPFIECNGGRGTCHYYANKYSFWLTTIP EQSFQGSPSADTLKAGLIRTHISRCQVCMKNL NT seq 5139 nt NT seq  +upstreamnt  +downstreamnt atggggagagaccagcgcgcggtggccggccctgccctacggcggtggctgctgctgggg acagtgaccgtggggttccttgcccagggcgtcttggcgggtgtgaagaagtttgatgtg ccgtgcggaggaagagattgcagtgggggctgccagtgctaccctgagaaaggtggacgt ggtcagcctgggccagtggggccccaggggtacaatgggccaccaggattacaaggattc ccaggactgcagggacgcaaaggagacaagggtgaaaggggagcccccggaataacagga cccaagggcgacgtgggagcaagaggcgtttctggattccctggtgccgatggaattcct ggacacccggggcaaggtgggcccaggggaaggcccggctatgatggctgcaacggaacc cagggagactcaggtccacaggggccccccggctctgaggggttcaccgggcctcccggg ccccaaggaccaaaagggcagaaaggtgagccttatgcactgcctagagaggaacgcgac agatatcggggcgaacctggagagcctggattggtcggtttccagggacctcccggccgc cctgggcctgtggggcagatgggcccagttggagctccagggagaccaggaccacccgga ccccctggaccaaaaggacagcaaggcaacagaggacttggtttctacggagttaagggt gaaaagggtgacgtagggcagccaggacccaatgggattccatcggaccttctccacccc atcatcgcgcccacaggagtcaccttccacccagatcagtacaagggtgaaaaaggcagt gagggggaaccaggaataagaggcatttccttgaagggagaagaaggaatcatgggcttt cctggactgaggggttaccctggtttgagcggtgcaaaaggatcgccaggacagaaggga agccgaggcctggatggctaccaaggccctgatgggccccggggacccaagggagaagcc ggagacctagggccccctggactacctgcctactcccctcacccttccctagcaaaaggt gccagaggtgacccgggattcccaggggcccaaggggagccaggaagccagggtgagcca ggagacccgggcccccgaggaccccctggcctctccatcggagatgaagatcagaggaga ggcctgccgggtgagatgggacccaagggcttcatcggagaccccggcatccctgcgctg tacccgggcccacctggacctgatggaaggccagggcctccaggcccccccgggctccct ggaccacctggacctgatggcttcctgtttgggctgaaaggagcagaaggaagagcaggc tttcctgggctttccggctcccctggagcccgcggaccaaagggatggaaaggtgacgct ggggactgcagatgtgcagaaggcgacgaacctgtcagaggtcctccaggactgccagga cccaagggctttgcaggcatcaacggggagccggggaggaaaggggacaaaggagacccc ggccaacatggcctccctgggttcccagggctcaagggagtccctggcaacgttggtgct cctgggcccaaaggagcaaaaggagattccagaacaatcacgaccaaaggtgagcgggga cagcccggcgtcccaggtgtgcccgggatgaaaggtgatgatggcggcccaggccgcgat gggctcgatggattccccggcctcccaggccctcccggcgatggcatcaagggccctccc ggggacgcaggctatccaggaatacctggaacgaaaggtactccgggagaagtgggtccc ccaggactgggccttcccggcttcaaaggccagcgtggtttccctggagacgccggctta cctggaccaccaggcttcccgggccctcctggccccgcagggaccccaggacaaagagat tgtgacacagatgtgaaaaggcccattggaggtgacagacaggaggccatccagccaggt tgcgtaggagggcccaagggattaccaggcctgccaggacccccaggaccctcaggtgcc aaaggcctccgaggaatcccaggcttctcaggagctgatggaggaccagggcccaagggt ttgccaggagacccaggtcgtgaagggttcccaggacccccagggttcataggaccccga ggatccaaaggtgcagtgggcctccctggcccagatggacccccaggtcccatcggcctg ccagggccagacgggccccctggggacaggggccttcctggagaagtcctgggagcccag cccggaccacggggagatgctggtgtgcctggacagcctgggtttaaaggccttcccgga gacagaggcccccctggattcagaggaagtcaagggatgcctgggatgccagggccgaag ggccagccgggccttccgggaccttccggccagccaggcctgtccgggcctccaggacag catggattcccaggagctcctggccaagaggggcccttggggctgccaggaatcccaggt cttgaaggtctgcctggagatagaggggaccctggggacataggcgctcctggccctgtg ggcatgaaaggtctctctggtgacagaggggatgcaggcttggcaggggagcgaggccat ccaggaagccctggatttaaaggaattgatggaatgcctgggacccctgggctaaaagga gagagaggctcacctgggatggatggtttccagggcatgcctggactcaaagggagaccc ggctttccagggagcaaaggcgaggctggatttttcggaataccgggtctgaagggtgtg gctggtgagccaggttttaaaggcagccgaggggaccctgggcccccaggaccacctccc atcatcctgccaggaatgaaagacattaaaggagagaaaggagacgaagggcctatggga ctgaaagggtacctgggcgcaaaaggtatcccaggaatgccaggcatcccaggactgtca ggaatccctgggctgcctgggaggcccggccacatcaaaggagtcaaaggagacatcgga gccccgggcatccctggtttgccaggattccctggggtggctggcccccctggaattaca gggttcccaggattcataggaagccggggtgacaaaggcgccccagggagagcaggcctg tatggcgagatcggcccgaccggtgatttcggtgacatcggggacactataaatttacca ggaagaccaggcctgaagggggagcagggcaccgctggaataccaggtctgaagggattc tttggagagaagggaacagaaggtgacatcggcttccctgggataacaggcgtgaccgga gtccaaggccctcctgggcttaaaggacaaacaggctttccagggctaactgggcctcca gggtcgcagggacagccggggcggattggactgcctggtggcaaaggagatgatggctgg ccgggaactccaggcttaccaggttttccgggactccgtgggatccgcggcttacacggc ttgccaggcaccaaaggctttccaggatccccaggtgccgacatccacggagacccaggc ttcccaggccctcctggggacagaggtgacccaggagacgccaacacccttccaggccct gtgggagtcccaggacagaaaggagagcaaggagctccaggggaacgaggcccacctggg agtccaggacttcaggggttccccggcatcacgcccccttccaacatctctggggtacct ggtgacaaaggggcgccagggatatttggcctgaaaggttatcggggcccgccagggcca cccggatctgctgctcttcctggaagcaaaggtgacacagggaacccaggagctccagga accccagggaccaaaggatgggccggggactccgggccccagggcaggcctggtgtgttc ggtctcccgggagaaaaagggcccaggggtgaacaaggctttatggggaacactggaccc gccggcgcggtgggcgacagaggccccaagggacccaagggagacccaggattccctggt gcccccgggattgtgggagcccctggaattgcaggaatcccccagaagattgccatccca ccagggacagtgggtccccaggggaggcgaggcccccctggggcacaaggggagatgggg ccccagggccctcccggagaaccaggtttccgtggggctccagggaaagtcgggccccaa ggaagaggtggcgtgtctgctgttcccgggttccggggagatgaaggacccataggccac caggggccgattggccaagaaggggcgccaggccgtccggggagcccaggcctgccgggt atgccaggccgcagcgccagcatcggctacctcctggtgaagcacagccagacagaccag gagcccatgtgcccggtgggcatgaacaagctctggagtgggtacagcctgctgtacttc gagggccaggagaaggcacacaaccaggacctggggctggcgggctcctgcctggcgcgg ttcagcaccatgcccttcctgtactgcaaccctggtgatgtctgctactacgccagccgg aacgacaagtcctactggctctctaccactgctccgctgcccatgatgcctgtggccgag gatgagatcaagccctacatcagccgctgctctgtgtgtgaggccccagccgtcgccatt gccgtccacagtcaagatgtctccattccacactgcccagcggggtggcggagtttgtgg atcggatattccttcctcatgcacacggcggcgggagacgaaggcggcggccagtcactg gtgtcaccgggcagctgtctggaggacttccgcgccacgccattcatcgagtgcaatgga ggccgcggcacctgccactactacgccaataagtacagcttctggctgaccaccattccc gagcagagcttccagggctcgccctccgctgacacgctcaaggccggcctcatccgcaca cacatcagccgctgccaggtgtgcatgaagaacctgtga

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