Homo sapiens (human): 1291 Help Entry 1291              CDS       T01001                                  Symbol COL6A1, BTHLM1, BTHLM1A, OPLL, UCHMD1, UCHMD1A Name (RefSeq) collagen type VI alpha 1 chain   KO K06238   collagen type VI alpha Organism hsa  Homo sapiens (human) Pathway hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa04974   Protein digestion and absorption hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Disease H00431   Ossification of the posterior longitudinal ligament of spine H01340   Bethlem myopathy H01341   Collagen VI myopathy H01778   Ullrich disease Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     1291 (COL6A1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     1291 (COL6A1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     1291 (COL6A1)   09142 Cell motility    04820 Cytoskeleton in muscle cells     1291 (COL6A1)  09150 Organismal Systems   09154 Digestive system    04974 Protein digestion and absorption     1291 (COL6A1)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     1291 (COL6A1)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     1291 (COL6A1)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     1291 (COL6A1) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    1291 (COL6A1) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    1291 (COL6A1)  Hyaluronan   Extracellular matrix or blood plasma proteins    1291 (COL6A1) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  VWA Collagen VWA_2 VWA_3 Motif Other DBs NCBI-GeneID:  1291 NCBI-ProteinID:  NP_001839 OMIM:  120220 HGNC:  2211 Ensembl:  ENSG00000142156 UniProt:  P12109 A0A384P5H7 LinkDB All DBs Position 21:45981770..46005048 Genome browser AA seq 1028 aa AA seqDB search MRAARALLPLLLQACWTAAQDEPETPRAVAFQDCPVDLFFVLDTSESVALRLKPYGALVD KVKSFTKRFIDNLRDRYYRCDRNLVWNAGALHYSDEVEIIQGLTRMPGGRDALKSSVDAV KYFGKGTYTDCAIKKGLEQLLVGGSHLKENKYLIVVTDGHPLEGYKEPCGGLEDAVNEAK HLGVKVFSVAITPDHLEPRLSIIATDHTYRRNFTAADWGQSRDAEEAISQTIDTIVDMIK NNVEQVCCSFECQPARGPPGLRGDPGFEGERGKPGLPGEKGEAGDPGRPGDLGPVGYQGM KGEKGSRGEKGSRGPKGYKGEKGKRGIDGVDGVKGEMGYPGLPGCKGSPGFDGIQGPPGP KGDPGAFGLKGEKGEPGADGEAGRPGSSGPSGDEGQPGEPGPPGEKGEAGDEGNPGPDGA PGERGGPGERGPRGTPGTRGPRGDPGEAGPQGDQGREGPVGVPGDPGEAGPIGPKGYRGD EGPPGSEGARGAPGPAGPPGDPGLMGERGEDGPAGNGTEGFPGFPGYPGNRGAPGINGTK GYPGLKGDEGEAGDPGDDNNDIAPRGVKGAKGYRGPEGPQGPPGHQGPPGPDECEILDII MKMCSCCECKCGPIDLLFVLDSSESIGLQNFEIAKDFVVKVIDRLSRDELVKFEPGQSYA GVVQYSHSQMQEHVSLRSPSIRNVQELKEAIKSLQWMAGGTFTGEALQYTRDQLLPPSPN NRIALVITDGRSDTQRDTTPLNVLCSPGIQVVSVGIKDVFDFIPGSDQLNVISCQGLAPS QGRPGLSLVKENYAELLEDAFLKNVTAQICIDKKCPDYTCPITFSSPADITILLDGSASV GSHNFDTTKRFAKRLAERFLTAGRTDPAHDVRVAVVQYSGTGQQRPERASLQFLQNYTAL ASAVDAMDFINDATDVNDALGYVTRFYREASSGAAKKRLLLFSDGNSQGATPAAIEKAVQ EAQRAGIEIFVVVVGRQVNEPHIRVLVTGKTAEYDVAYGESHLFRVPSYQALLRGVFHQT VSRKVALG NT seq 3087 nt NT seq  +upstreamnt  +downstreamnt atgagggcggcccgtgctctgctgcccctgctgctgcaggcctgctggacagccgcgcag gatgagccggagaccccgagggccgtggccttccaggactgccccgtggacctgttcttt gtgctggacacctctgagagcgtggccctgaggctgaagccctacggggccctcgtggac aaagtcaagtccttcaccaagcgcttcatcgacaacctgagggacaggtactaccgctgt gaccgaaacctggtgtggaacgcaggcgcgctgcactacagtgacgaggtggagatcatc caaggcctcacgcgcatgcctggcggccgcgacgcactcaaaagcagcgtggacgcggtc aagtactttgggaagggcacctacaccgactgcgctatcaagaaggggctggagcagctc ctcgtggggggctcccacctgaaggagaataagtacctgattgtggtgaccgacgggcac cccctggagggctacaaggaaccctgtggggggctggaggatgctgtgaacgaggccaag cacctgggcgtcaaagtcttctcggtggccatcacacccgaccacctggagccgcgtctg agcatcatcgccacggaccacacgtaccggcgcaacttcacggcggctgactggggccag agccgcgacgcagaggaggccatcagccagaccatcgacaccatcgtggacatgatcaaa aataacgtggagcaagtgtgctgctccttcgaatgccagcctgcaagaggacctccgggg ctccggggcgaccccggctttgagggagaacgaggcaagccggggctcccaggagagaag ggagaagccggagatcctggaagacccggggacctcggacctgttgggtaccagggaatg aagggagaaaaagggagccgtggggagaagggctccaggggacccaagggctacaaggga gagaagggcaagcgtggcatcgacggggtggacggcgtgaagggggagatggggtaccca ggcctgccaggctgcaagggctcgcccgggtttgacggcattcaaggaccccctggcccc aagggagaccccggtgcctttggactgaaaggagaaaagggcgagcctggagctgacggg gaggcggggagaccagggagctcgggaccatctggagacgagggccagccgggagagcct gggccccccggagagaaaggagaggcgggcgacgaggggaacccaggacctgacggtgcc cccggggagcggggtggccctggagagagaggaccacgggggaccccaggcacgcgggga ccaagaggagaccctggtgaagctggcccgcagggtgatcagggaagagaaggccccgtt ggtgtccctggagacccgggcgaggctggccctatcggacctaaaggctaccgaggcgat gagggtcccccagggtccgagggtgccagaggagccccaggacctgccggaccccctgga gacccggggctgatgggtgaaaggggagaagacggccccgctggaaatggcaccgagggc ttccccggcttccccgggtatccgggcaacaggggcgctcccgggataaacggcacgaag ggctaccccggcctcaagggggacgagggagaagccggggaccccggagacgataacaac gacattgcaccccgaggagtcaaaggagcaaaggggtaccggggtcccgagggcccccag ggacccccaggacaccaaggaccgcctgggccggacgaatgcgagattttggacatcatc atgaaaatgtgctcttgctgtgaatgcaagtgcggccccatcgacctcctgttcgtgctg gacagctcagagagcattggcctgcagaacttcgagattgccaaggacttcgtcgtcaag gtcatcgaccggctgagccgggacgagctggtcaagttcgagccagggcagtcgtacgcg ggtgtggtgcagtacagccacagccagatgcaggagcacgtgagcctgcgcagccccagc atccggaacgtgcaggagctcaaggaagccatcaagagcctgcagtggatggcgggcggc accttcacgggggaggccctgcagtacacgcgggaccagctgctgccgcccagcccgaac aaccgcatcgccctggtcatcactgacgggcgctcagacactcagagggacaccacaccg ctcaacgtgctctgcagccccggcatccaggtggtctccgtgggcatcaaagacgtgttt gacttcatcccaggctcagaccagctcaatgtcatttcttgccaaggcctggcaccatcc cagggccggcccggcctctcgctggtcaaggagaactatgcagagctgctggaggatgcc ttcctgaagaatgtcaccgcccagatctgcatagacaagaagtgtccagattacacctgc cccatcacgttctcctccccggctgacatcaccatcctgctggacggctccgccagcgtg ggcagccacaactttgacaccaccaagcgcttcgccaagcgcctggccgagcgcttcctc acagcgggcaggacggaccccgcccacgacgtgcgggtggcggtggtgcagtacagcggc acgggccagcagcgcccagagcgggcgtcgctgcagttcctgcagaactacacggccctg gccagtgccgtcgatgccatggactttatcaacgacgccaccgacgtcaacgatgccctg ggctatgtgacccgcttctaccgcgaggcctcgtccggcgctgccaagaagaggctgctg ctcttctcagatggcaactcgcagggcgccacgcccgctgccatcgagaaggccgtgcag gaagcccagcgggcaggcatcgagatcttcgtggtggtcgtgggccgccaggtgaatgag ccccacatccgcgtcctggtcaccggcaagacggccgagtacgacgtggcctacggcgag agccacctgttccgtgtccccagctaccaggccctgctccgcggtgtcttccaccagaca gtctccaggaaggtggcgctgggctag

Homo sapiens (human): 1292 Help Entry 1292              CDS       T01001                                  Symbol COL6A2, BTHLM1, BTHLM1B, PP3610, UCMD1, UCMD1B Name (RefSeq) collagen type VI alpha 2 chain   KO K06238   collagen type VI alpha Organism hsa  Homo sapiens (human) Pathway hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa04974   Protein digestion and absorption hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Disease H01338   Myosclerosis H01340   Bethlem myopathy H01341   Collagen VI myopathy H01778   Ullrich disease Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     1292 (COL6A2)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     1292 (COL6A2)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     1292 (COL6A2)   09142 Cell motility    04820 Cytoskeleton in muscle cells     1292 (COL6A2)  09150 Organismal Systems   09154 Digestive system    04974 Protein digestion and absorption     1292 (COL6A2)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     1292 (COL6A2)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     1292 (COL6A2)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     1292 (COL6A2) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    1292 (COL6A2) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    1292 (COL6A2)  Hyaluronan   Extracellular matrix or blood plasma proteins    1292 (COL6A2) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  VWA Collagen VWA_2 VWA_3 Ins134_P3_kin_N ParE-like_toxin Motif Other DBs NCBI-GeneID:  1292 NCBI-ProteinID:  NP_001840 OMIM:  120240 HGNC:  2212 Ensembl:  ENSG00000142173 UniProt:  P12110 A0A384MDP3 LinkDB All DBs Position 21:46098112..46132848 Genome browser AA seq 1019 aa AA seqDB search MLQGTCSVLLLWGILGAIQAQQQEVISPDTTERNNNCPEKTDCPIHVYFVLDTSESVTMQ SPTDILLFHMKQFVPQFISQLQNEFYLDQVALSWRYGGLHFSDQVEVFSPPGSDRASFIK NLQGISSFRRGTFTDCALANMTEQIRQDRSKGTVHFAVVITDGHVTGSPCGGIKLQAERA REEGIRLFAVAPNQNLKEQGLRDIASTPHELYRNDYATMLPDSTEIDQDTINRIIKVMKH EAYGECYKVSCLEIPGPSGPKGYRGQKGAKGNMGEPGEPGQKGRQGDPGIEGPIGFPGPK GVPGFKGEKGEFGADGRKGAPGLAGKNGTDGQKGKLGRIGPPGCKGDPGNRGPDGYPGEA GSPGERGDQGGKGDPGRPGRRGPPGEIGAKGSKGYQGNSGAPGSPGVKGAKGGPGPRGPK GEPGRRGDPGTKGSPGSDGPKGEKGDPGPEGPRGLAGEVGNKGAKGDRGLPGPRGPQGAL GEPGKQGSRGDPGDAGPRGDSGQPGPKGDPGRPGFSYPGPRGAPGEKGEPGPRGPEGGRG DFGLKGEPGRKGEKGEPADPGPPGEPGPRGPRGVPGPEGEPGPPGDPGLTECDVMTYVRE TCGCCDCEKRCGALDVVFVIDSSESIGYTNFTLEKNFVINVVNRLGAIAKDPKSETGTRV GVVQYSHEGTFEAIQLDDERIDSLSSFKEAVKNLEWIAGGTWTPSALKFAYDRLIKESRR QKTRVFAVVITDGRHDPRDDDLNLRALCDRDVTVTAIGIGDMFHEKHESENLYSIACDKP QQVRNMTLFSDLVAEKFIDDMEDVLCPDPQIVCPDLPCQTELSVAQCTQRPVDIVFLLDG SERLGEQNFHKARRFVEQVARRLTLARRDDDPLNARVALLQFGGPGEQQVAFPLSHNLTA IHEALETTQYLNSFSHVGAGVVHAINAIVRSPRGGARRHAELSFVFLTDGVTGNDSLHES AHSMRKQNVVPTVLALGSDVDMDVLTTLSLGDRAAVFHEKDYDSLAQPGFFDRFIRWIC NT seq 3060 nt NT seq  +upstreamnt  +downstreamnt atgctccagggcacctgctccgtgctcctgctctggggaatcctgggggccatccaggcc cagcagcaggaggtcatctcgccggacactaccgagagaaacaacaactgcccagagaag accgactgccccatccacgtgtacttcgtgctggacacctcggagagcgtcaccatgcag tcccccacggacatcctgctcttccacatgaagcagttcgtgccgcagttcatcagccag ctgcagaacgagttctacctggaccaggtggcgctgagctggcgctacggcggcctgcac ttctctgaccaggtggaggtgttcagcccaccgggcagcgaccgggcctccttcatcaag aacctgcagggcatcagctccttccgccgcggcaccttcaccgactgcgcgctggccaac atgacggagcagatccggcaggaccgcagcaagggcaccgtccacttcgccgtggtcatc accgacggccacgtcaccggcagcccctgcgggggcatcaagctgcaggccgagcgggcc cgcgaggagggcatccggctcttcgccgtggcccccaaccagaacctgaaggagcagggc ctgcgggacatcgccagcacgccgcacgagctctaccgcaacgactacgccaccatgctg cccgactccaccgagatcgaccaggacaccatcaaccgcatcatcaaggtcatgaaacac gaagcctacggagagtgctacaaggtgagctgcctggaaatccctgggccctctggcccc aagggctaccgtggacagaagggtgccaagggcaacatgggtgagccgggagagcctggc cagaagggaagacagggagacccgggcatcgaaggccccattggattcccaggacccaag ggcgttcctggcttcaaaggagagaagggtgaatttggagccgacggtcgcaagggggcc cctggcctggctggcaagaacgggaccgatggacagaagggcaagctggggcgcatcgga cctcctggctgcaagggagaccctggaaaccggggccccgacggttacccgggggaagca gggagtccaggggagcgaggagaccaaggcggcaagggggaccctggccgcccaggacgc agagggcccccgggagaaatcggggccaagggaagcaaggggtatcaaggcaacagtgga gccccaggaagtcctggtgtgaaaggagccaagggcgggcctgggccccgcggacccaaa ggcgagccggggcgcaggggagaccccggcaccaagggcagcccaggcagcgatggcccc aagggggagaagggggaccctggccctgaggggccccgcggcctggctggagaggttggc aacaaaggagccaagggagaccgaggcttgcctggacccagaggcccccagggagctctt ggggagcccggaaagcagggatctcggggagaccccggtgatgcaggaccccgtggagac tcaggacagccaggccccaagggagaccccggcaggcctggattcagctacccaggaccc cgaggagcacccggagaaaaaggcgagcccggcccacgcggccccgagggaggccgaggc gactttggcttgaaaggagaacctgggaggaaaggagagaaaggagagcctgcggatcct ggtccccctggtgagccaggccctcgggggccaagaggagtcccaggacccgagggtgag cccggcccccctggagaccccggtctcacggagtgtgacgtcatgacctacgtgagggag acctgcgggtgctgcgactgtgagaagcgctgtggcgccctggacgtggtcttcgtcatc gacagctccgagagcattgggtacaccaacttcacactggagaagaacttcgtcatcaac gtggtcaacaggctgggtgccatcgctaaggaccccaagtccgagacagggacgcgtgtg ggcgtggtgcagtacagccacgagggcacctttgaggccatccagctggacgacgaacgt atcgactccctgtcgagcttcaaggaggctgtcaagaacctcgagtggattgcgggcggc acctggacaccctcagccctcaagtttgcctacgaccgcctcatcaaggagagccggcgc cagaagacacgtgtgtttgcggtggtcatcacggacgggcgccacgaccctcgggacgat gacctcaacttgcgggcgctgtgcgaccgcgacgtcacagtgacggccatcggcatcggg gacatgttccacgagaagcacgagagtgaaaacctctactccatcgcctgcgacaagcca cagcaggtgcgcaacatgacgctgttctccgacctggtcgctgagaagttcatcgatgac atggaggacgtcctctgcccggaccctcagatcgtgtgcccagaccttccctgccaaaca gagctgtccgtggcacagtgcacgcagcggcccgtggacatcgtcttcctgctggacggc tccgagcggctgggtgagcagaacttccacaaggcccggcgcttcgtggagcaggtggcg cggcggctgacgctggcccggagggacgacgaccctctcaacgcacgcgtggcgctgctg cagtttggtggccccggcgagcagcaggtggccttcccgctgagccacaacctcacggcc atccacgaggcgctggagaccacacaatacctgaactccttctcgcacgtgggcgcaggc gtggtgcacgccatcaatgccatcgtgcgcagcccgcgtggcggggcccggaggcacgca gagctgtccttcgtgttcctcacggacggcgtcacgggcaacgacagtctgcacgagtcg gcgcactccatgcgcaagcagaacgtggtacccaccgtgctggccttgggcagcgacgtg gacatggacgtgctcaccacgctcagcctgggtgaccgcgccgccgtgttccacgagaag gactatgacagcctggcgcaacccggcttcttcgaccgcttcatccgctggatctgctag

Homo sapiens (human): 1293 Help Entry 1293              CDS       T01001                                  Symbol COL6A3, BTHLM1, BTHLM1C, DYT27, UCMD1, UCMD1C Name (RefSeq) collagen type VI alpha 3 chain   KO K06238   collagen type VI alpha Organism hsa  Homo sapiens (human) Pathway hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa04974   Protein digestion and absorption hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Disease H00831   Primary dystonia H01340   Bethlem myopathy H01341   Collagen VI myopathy H01778   Ullrich disease Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     1293 (COL6A3)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     1293 (COL6A3)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     1293 (COL6A3)   09142 Cell motility    04820 Cytoskeleton in muscle cells     1293 (COL6A3)  09150 Organismal Systems   09154 Digestive system    04974 Protein digestion and absorption     1293 (COL6A3)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     1293 (COL6A3)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     1293 (COL6A3)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     1293 (COL6A3) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    1293 (COL6A3) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    1293 (COL6A3)  Hyaluronan   Extracellular matrix or blood plasma proteins    1293 (COL6A3) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  VWA VWA_2 Collagen VWA_3 Kunitz_BPTI Motif Other DBs NCBI-GeneID:  1293 NCBI-ProteinID:  NP_004360 OMIM:  120250 HGNC:  2213 Ensembl:  ENSG00000163359 UniProt:  P12111 D9ZGF2 Q63HQ4 Q8N4Z1 Structure PDB LinkDB All DBs Position 2:complement(237324018..237414164) Genome browser AA seq 3177 aa AA seqDB search MRKHRHLPLVAVFCLFLSGFPTTHAQQQQADVKNGAAADIIFLVDSSWTIGEEHFQLVRE FLYDVVKSLAVGENDFHFALVQFNGNPHTEFLLNTYRTKQEVLSHISNMSYIGGTNQTGK GLEYIMQSHLTKAAGSRAGDGVPQVIVVLTDGHSKDGLALPSAELKSADVNVFAIGVEDA DEGALKEIASEPLNMHMFNLENFTSLHDIVGNLVSCVHSSVSPERAGDTETLKDITAQDS ADIIFLIDGSNNTGSVNFAVILDFLVNLLEKLPIGTQQIRVGVVQFSDEPRTMFSLDTYS TKAQVLGAVKALGFAGGELANIGLALDFVVENHFTRAGGSRVEEGVPQVLVLISAGPSSD EIRYGVVALKQASVFSFGLGAQAASRAELQHIATDDNLVFTVPEFRSFGDLQEKLLPYIV GVAQRHIVLKPPTIVTQVIEVNKRDIVFLVDGSSALGLANFNAIRDFIAKVIQRLEIGQD LIQVAVAQYADTVRPEFYFNTHPTKREVITAVRKMKPLDGSALYTGSALDFVRNNLFTSS AGYRAAEGIPKLLVLITGGKSLDEISQPAQELKRSSIMAFAIGNKGADQAELEEIAFDSS LVFIPAEFRAAPLQGMLPGLLAPLRTLSGTPEVHSNKRDIIFLLDGSANVGKTNFPYVRD FVMNLVNSLDIGNDNIRVGLVQFSDTPVTEFSLNTYQTKSDILGHLRQLQLQGGSGLNTG SALSYVYANHFTEAGGSRIREHVPQLLLLLTAGQSEDSYLQAANALTRAGILTFCVGASQ ANKAELEQIAFNPSLVYLMDDFSSLPALPQQLIQPLTTYVSGGVEEVPLAQPESKRDILF LFDGSANLVGQFPVVRDFLYKIIDELNVKPEGTRIAVAQYSDDVKVESRFDEHQSKPEIL NLVKRMKIKTGKALNLGYALDYAQRYIFVKSAGSRIEDGVLQFLVLLVAGRSSDRVDGPA SNLKQSGVVPFIFQAKNADPAELEQIVLSPAFILAAESLPKIGDLHPQIVNLLKSVHNGA PAPVSGEKDVVFLLDGSEGVRSGFPLLKEFVQRVVESLDVGQDRVRVAVVQYSDRTRPEF YLNSYMNKQDVVNAVRQLTLLGGPTPNTGAALEFVLRNILVSSAGSRITEGVPQLLIVLT ADRSGDDVRNPSVVVKRGGAVPIGIGIGNADITEMQTISFIPDFAVAIPTFRQLGTVQQV ISERVTQLTREELSRLQPVLQPLPSPGVGGKRDVVFLIDGSQSAGPEFQYVRTLIERLVD YLDVGFDTTRVAVIQFSDDPKVEFLLNAHSSKDEVQNAVQRLRPKGGRQINVGNALEYVS RNIFKRPLGSRIEEGVPQFLVLISSGKSDDEVDDPAVELKQFGVAPFTIARNADQEELVK ISLSPEYVFSVSTFRELPSLEQKLLTPITTLTSEQIQKLLASTRYPPPAVESDAADIVFL IDSSEGVRPDGFAHIRDFVSRIVRRLNIGPSKVRVGVVQFSNDVFPEFYLKTYRSQAPVL DAIRRLRLRGGSPLNTGKALEFVARNLFVKSAGSRIEDGVPQHLVLVLGGKSQDDVSRFA QVIRSSGIVSLGVGDRNIDRTELQTITNDPRLVFTVREFRELPNIEERIMNSFGPSAATP APPGVDTPPPSRPEKKKADIVFLLDGSINFRRDSFQEVLRFVSEIVDTVYEDGDSIQVGL VQYNSDPTDEFFLKDFSTKRQIIDAINKVVYKGGRHANTKVGLEHLRVNHFVPEAGSRLD QRVPQIAFVITGGKSVEDAQDVSLALTQRGVKVFAVGVRNIDSEEVGKIASNSATAFRVG NVQELSELSEQVLETLHDAMHETLCPGVTDAAKACNLDVILGFDGSRDQNVFVAQKGFES KVDAILNRISQMHRVSCSGGRSPTVRVSVVANTPSGPVEAFDFDEYQPEMLEKFRNMRSQ HPYVLTEDTLKVYLNKFRQSSPDSVKVVIHFTDGADGDLADLHRASENLRQEGVRALILV GLERVVNLERLMHLEFGRGFMYDRPLRLNLLDLDYELAEQLDNIAEKACCGVPCKCSGQR GDRGPIGSIGPKGIPGEDGYRGYPGDEGGPGERGPPGVNGTQGFQGCPGQRGVKGSRGFP GEKGEVGEIGLDGLDGEDGDKGLPGSSGEKGNPGRRGDKGPRGEKGERGDVGIRGDPGNP GQDSQERGPKGETGDLGPMGVPGRDGVPGGPGETGKNGGFGRRGPPGAKGNKGGPGQPGF EGEQGTRGAQGPAGPAGPPGLIGEQGISGPRGSGGAAGAPGERGRTGPLGRKGEPGEPGP KGGIGNRGPRGETGDDGRDGVGSEGRRGKKGERGFPGYPGPKGNPGEPGLNGTTGPKGIR GRRGNSGPPGIVGQKGDPGYPGPAGPKGNRGDSIDQCALIQSIKDKCPCCYGPLECPVFP TELAFALDTSEGVNQDTFGRMRDVVLSIVNDLTIAESNCPRGARVAVVTYNNEVTTEIRF ADSKRKSVLLDKIKNLQVALTSKQQSLETAMSFVARNTFKRVRNGFLMRKVAVFFSNTPT RASPQLREAVLKLSDAGITPLFLTRQEDRQLINALQINNTAVGHALVLPAGRDLTDFLEN VLTCHVCLDICNIDPSCGFGSWRPSFRDRRAAGSDVDIDMAFILDSAETTTLFQFNEMKK YIAYLVRQLDMSPDPKASQHFARVAVVQHAPSESVDNASMPPVKVEFSLTDYGSKEKLVD FLSRGMTQLQGTRALGSAIEYTIENVFESAPNPRDLKIVVLMLTGEVPEQQLEEAQRVIL QAKCKGYFFVVLGIGRKVNIKEVYTFASEPNDVFFKLVDKSTELNEEPLMRFGRLLPSFV SSENAFYLSPDIRKQCDWFQGDQPTKNLVKFGHKQVNVPNNVTSSPTSNPVTTTKPVTTT KPVTTTTKPVTTTTKPVTIINQPSVKPAAAKPAPAKPVAAKPVATKMATVRPPVAVKPAT AAKPVAAKPAAVRPPAAAAAKPVATKPEVPRPQAAKPAATKPATTKPMVKMSREVQVFEI TENSAKLHWERAEPPGPYFYDLTVTSAHDQSLVLKQNLTVTDRVIGGLLAGQTYHVAVVC YLRSQVRATYHGSFSTKKSQPPPPQPARSASSSTINLMVSTEPLALTETDICKLPKDEGT CRDFILKWYYDPNTKSCARFWYGGCGGNENKFGSQKECEKVCAPVLAKPGVISVMGT NT seq 9534 nt NT seq  +upstreamnt  +downstreamnt atgaggaaacatcggcacttgcccttagtggccgtcttttgcctctttctctcaggcttt cctacaactcatgcccagcagcagcaagcagatgtcaaaaatggtgcggctgctgatata atatttctagtggattcctcttggaccattggagaggaacatttccaacttgttcgagag tttctatatgatgttgtaaaatccttagctgtgggagaaaatgatttccattttgctctg gtccagttcaacggaaacccacataccgagttcctgttaaatacgtatcgtactaaacaa gaagtcctttctcatatttccaacatgtcttatattgggggaaccaatcagactggaaaa ggattagaatacataatgcaaagccacctcaccaaggctgctggaagccgggccggtgac ggagtccctcaggttatcgtagtgttaactgatggacactcgaaggatggccttgctctg ccctcagcggaacttaagtctgctgatgttaacgtgtttgcaattggagttgaggatgca gatgaaggagcgttaaaagaaatagcaagtgaaccgctcaatatgcatatgttcaaccta gagaattttacctcacttcatgacatagtaggaaacttagtgtcctgtgtgcattcatcc gtgagtccagaaagggctggggacacggaaacccttaaagacatcacagcacaagactct gctgacattattttccttattgatggatcaaacaacaccggaagtgtcaatttcgcagtc attctcgacttccttgtaaatctccttgagaaactcccaattggaactcagcagatccga gtgggggtggtccagtttagcgatgagcccagaaccatgttctccttggacacctactcc accaaggcccaggttctgggtgcagtgaaagccctcgggtttgctggtggggagttggcc aatatcggcctcgcccttgatttcgtggtggagaaccacttcacccgggcagggggcagc cgcgtggaggaaggggttccccaggtgctggtcctcataagtgccgggccttctagtgac gagattcgctacggggtggtagcactgaagcaggctagcgtgttctcattcggccttgga gcccaggccgcctccagggcagagcttcagcacatagctaccgatgacaacttggtgttt actgtcccggaattccgtagctttggggacctccaggagaaattactgccgtacattgtt ggcgtggcccaaaggcacattgtcttgaaaccgccaaccattgtcacacaagtcattgaa gtcaacaagagagacatagtcttcctggtggatggctcatctgcactgggactggccaac ttcaatgccatccgagacttcattgctaaagtcatccagaggctggaaatcggacaggat cttatccaggtggcagtggcccagtatgcagacactgtgaggcctgaattttatttcaat acccatccaacaaaaagggaagtcataaccgctgtgcggaaaatgaagcccctggacggc tcggccctgtacacgggctctgctctagactttgttcgtaacaacctattcacgagttca gccggctaccgggctgccgaggggattcctaagcttttggtgctgatcacaggtggtaag tccctagatgaaatcagccagcctgcccaggagctgaagagaagcagcataatggccttt gccattgggaacaagggtgccgatcaggctgagctggaagagatcgctttcgactcctcc ctggtgttcatcccagctgagttccgagccgccccattgcaaggcatgctgcctggcttg ctggcacctctcaggaccctctctggaacccctgaagttcactcaaacaaaagggatatc atctttcttttggatggatcagccaacgttggaaaaaccaatttcccttatgtgcgcgac tttgtaatgaacctagttaacagccttgatattggaaatgacaatattcgtgttggttta gtgcaatttagtgacactcctgtaacggagttctctttaaacacataccagaccaagtca gatatccttggtcatctgaggcagctgcagctccagggaggttcgggcctgaacacaggc tcagccctaagctatgtctatgccaaccacttcacggaagctggcggcagcaggatccgt gaacacgtgccgcagctcctgcttctgctcacagctgggcagtctgaggactcctatttg caagctgccaacgccttgacacgcgcgggcatcctgactttttgtgtgggagctagccag gcgaataaggcagagcttgagcagattgcttttaacccaagcctggtgtatctcatggat gatttcagctccctgccagctttgcctcagcagctgattcagcccctaaccacatatgtt agtggaggtgtggaggaagtaccactcgctcagccagagagcaagcgagacattctgttc ctctttgacggctcagccaatcttgtgggccagttccctgttgtccgtgactttctctac aagattatcgatgagctcaatgtgaagccagaggggacccgaattgcggtggctcagtac agcgatgatgtcaaggtggagtcccgttttgatgagcaccagagtaagcctgagatcctg aatcttgtgaagagaatgaagatcaagacgggcaaagccctcaacctgggctacgcgctg gactatgcacagaggtacatttttgtgaagtctgctggcagccggatcgaggatggagtg cttcagttcctggtgctgctggtcgcaggaaggtcatctgaccgtgtggatgggccagca agtaacctgaagcagagtggggttgtgcctttcatcttccaagccaagaacgcagaccct gctgagttagagcagatcgtgctgtctccagcgtttatcctggctgcagagtcgcttccc aagattggagatcttcatccacagatagtgaatctcttaaaatcagtgcacaacggagca ccagcaccagtttcaggtgaaaaggacgtggtgtttctgcttgatggctctgagggcgtc aggagcggcttccctctgttgaaagagtttgtccagagagtggtggaaagcctggatgtg ggccaggaccgggtccgcgtggccgtggtgcagtacagcgaccggaccaggcccgagttc tacctgaattcatacatgaacaagcaggacgtcgtcaacgctgtccgccagctgaccctg ctgggagggccgacccccaacaccggggccgccctggagtttgtcctgaggaacatcctg gtcagctctgcgggaagcaggataacagaaggtgtgccccagctgctgatcgtcctcacg gccgacaggtctggggatgatgtgcggaacccctccgtggtcgtgaagaggggtggggct gtgcccattggcattggcatcgggaacgctgacatcacagagatgcagaccatctccttc atcccggactttgccgtggccattcccacctttcgccagctggggaccgtccaacaggtc atctctgagagggtgacccagctcacccgcgaggagctgagcaggctgcagccggtgttg cagcctctaccgagcccaggtgttggtggcaagagggacgtggtctttctcatcgatggg tcccaaagtgccgggcctgagttccagtacgttcgcaccctcatagagaggctggttgac tacctggacgtgggctttgacaccacccgggtggctgtcatccagttcagcgatgacccc aaggtggagttcctgctgaacgcccattccagcaaggatgaagtgcagaacgcggtgcag cggctgaggcccaagggagggcggcagatcaacgtgggcaatgccctggagtacgtgtcc aggaacatcttcaagaggcccctggggagccgcattgaagagggcgtcccgcagttcctg gtcctcatctcgtctggaaagtctgacgatgaggtggacgacccggcggtggagctcaag cagtttggcgtggcccctttcacgatcgccaggaacgcagaccaggaggagctggtgaag atctcgctgagccccgaatatgtgttctcggtgagcaccttccgggagctgcccagcctg gagcagaaactgctgacgcccatcacgaccctgacctcagagcagatccagaagctctta gccagcactcgctatccacctccagcagttgagagtgatgctgcagacattgtctttctg atcgacagctctgagggagttaggccagatggctttgcacatattcgagattttgttagc aggattgttcgaagactcaacatcggccccagtaaagtgagagttggggtcgtgcagttc agcaatgatgtcttcccagaattctatctgaaaacctacagatcccaggccccggtgctg gacgccatacggcgcctgaggctcagaggggggtccccactgaacactggcaaggctctc gaatttgtggcaagaaacctctttgttaagtctgcggggagtcgcatagaagacggggtg ccccaacacctggtcctggtcctgggtggaaaatcccaggacgatgtgtccaggttcgcc caggtgatccgttcctcgggcattgtgagtttaggggtaggagaccggaacatcgacaga acagagctgcagaccatcaccaatgaccccagactggtcttcacagtgcgagagttcaga gagcttcccaacatagaagaaagaatcatgaactcgtttggaccctccgcagccactcct gcacctccaggggtggacacccctcctccttcacggccagagaagaagaaagcagacatt gtgttcctgttggatggttccatcaacttcaggagggacagtttccaggaagtgcttcgt tttgtgtctgaaatagtggacacagtttatgaagatggcgactccatccaagtggggctt gtccagtacaactctgaccccactgacgaattcttcctgaaggacttctctaccaagagg cagattattgacgccatcaacaaagtggtctacaaagggggaagacacgccaacactaag gtgggccttgagcacctgcgggtaaaccactttgtgcctgaggcaggcagccgcctggac cagcgggtccctcagattgcctttgtgatcacgggaggaaagtcggtggaagatgcacag gatgtgagcctggccctcacccagaggggggtcaaagtgtttgctgttggagtgaggaat atcgactcggaggaggttggaaagatagcgtccaacagcgccacagcgttccgcgtgggc aacgtccaggagctgtccgaactgagcgagcaagttttggaaactttgcatgatgcgatg catgaaaccctttgccctggtgtaactgatgctgccaaagcttgtaatctggatgtgatt ctggggtttgatggttctagagaccagaatgtttttgtggcccagaagggcttcgagtcc aaggtggacgccatcttgaacagaatcagccagatgcacagggtcagctgcagcggtggc cgctcgcccaccgtgcgtgtgtcagtggtggccaacacgccctcgggcccggtggaggcc tttgactttgacgagtaccagccagagatgctcgagaagttccggaacatgcgcagccag cacccctacgtcctcacggaggacaccctgaaggtctacctgaacaagttcagacagtcc tcgccggacagcgtgaaggtggtcattcattttactgatggagcagacggagatctggct gatttacacagagcatctgagaacctccgccaagaaggagtccgtgccttgatcctggtg ggccttgaacgagtggtcaacttggagcggctaatgcatctggagtttgggcgagggttt atgtatgacaggcccctgaggcttaacttgctggacttggattatgaactagcggagcag cttgacaacattgccgagaaagcttgctgtggggttccctgcaagtgctctgggcagagg ggagaccgcgggcccatcggcagcatcgggccaaagggtattcctggagaagacggctac cgaggctatcctggtgatgagggtggacccggtgagcgtggtccgcctggtgtgaacggc actcaaggtttccagggctgcccgggccagagaggagtaaagggctctcggggattccca ggagagaagggcgaagtaggagaaattggactggatggtctggatggtgaagatggagac aaaggattgcctggttcttctggagagaaagggaatcctggaagaaggggtgataaagga cctcgaggagagaaaggagaaagaggagatgttgggattcgaggggacccgggtaaccca ggacaagacagccaggagagaggacccaaaggagaaaccggtgacctcggccccatgggt gtcccagggagagatggagtacctggaggacctggagaaactgggaagaatggtggcttt ggccgaaggggaccccccggagctaagggcaacaagggcggtcctggccagccgggcttt gagggagagcaggggaccagaggtgcacagggcccagctggtcctgctggtcctccaggg ctgataggagaacaaggcatttctggacctcggggaagcggaggtgccgctggtgctcct ggagaacgaggcagaaccggtccactgggaagaaagggtgagcccggagagccaggacca aaaggaggaatcgggaaccggggccctcgtggggagacgggagatgacgggagagacgga gttggcagtgaaggacgcagaggcaaaaaaggagaaagaggattccctggatacccagga ccaaagggtaacccaggtgaacctgggctaaatggaacaacaggacccaaaggcatcaga ggccgaaggggaaattcgggacctccagggatagttggacagaagggagaccctggctac ccaggaccagctggtcccaagggcaacaggggcgactccatcgatcaatgtgccctcatc caaagcatcaaagataaatgcccttgctgttacgggcccctggagtgccccgtcttccca acagaactagcctttgctttagacacctctgagggagtcaaccaagacactttcggccgg atgcgagatgtggtcttgagtattgtgaatgacctgaccattgctgagagcaactgccca cggggggcccgggtggctgtggtcacctacaacaacgaggtgaccacggagatccggttt gctgactccaagaggaagtcggtcctcctggacaagattaagaaccttcaggtggctctg acatccaaacagcagagtctggagactgccatgtcgtttgtggccaggaacacatttaag cgtgtgaggaacggattcctaatgaggaaagtggctgttttcttcagcaacacacccaca agagcatccccacagctcagagaggctgtgctcaagctctcagatgcggggatcaccccc ttgttccttacaaggcaggaagaccggcagctcatcaacgctttgcagatcaataacaca gcagtggggcatgcgcttgtcctgcctgcagggagagacctcacagacttcctggagaat gtcctcacgtgtcatgtttgcttggacatctgcaacatcgacccatcctgtggatttggc agttggaggccttccttcagggacaggagagcggcagggagcgatgtggacatcgacatg gctttcatcttagacagcgctgagaccaccaccctgttccagttcaatgagatgaagaag tacatagcgtacctggtcagacaactggacatgagcccagatcccaaggcctcccagcac ttcgccagagtggcagttgtgcagcacgcgccctctgagtccgtggacaatgccagcatg ccacctgtgaaggtggaattctccctgactgactatggctccaaggagaagctggtggac ttcctcagcaggggaatgacacagttgcagggaaccagggccttaggcagtgccattgaa tacaccatagagaatgtctttgaaagtgccccaaacccacgggacctgaaaattgtggtc ctgatgctgacgggcgaggtgccggagcagcagctggaggaggcccagagagtcatcctg caggccaaatgcaagggctacttcttcgtggtcctgggcattggcaggaaggtgaacatc aaggaggtatacaccttcgccagtgagccaaacgacgtcttcttcaaattagtggacaag tccaccgagctcaacgaggagcctttgatgcgcttcgggaggctgttgccatccttcgtc agcagtgaaaatgctttttacttgtccccagatatcaggaaacagtgtgattggttccaa ggggaccaacccacaaagaaccttgtgaagtttggtcacaaacaagtaaatgttccgaat aacgttacttcaagtcctacatccaacccagtgacgacaacgaagccggtgactacgacg aagccggtgaccaccacaacaaagcctgtaaccaccacaacaaagcctgtgactattata aatcagccatctgtgaagccagccgctgcaaagccggcccctgcgaaacctgtggctgcc aagcctgtggccacaaagatggccactgttagacccccagtggcggtgaagccagcaacg gcagcgaagcctgtagcagcaaagccagcagctgtaagaccccccgctgctgctgctgca aaaccagtggcgaccaagcctgaggtccctaggccacaggcagccaaaccagctgccacc aagccagccaccactaagcccatggttaagatgtcccgtgaagtccaggtgtttgagata acagagaacagcgccaaactccactgggagagggctgagccccccggtccttatttttat gacctcaccgtcacctcagcccatgatcagtccctggttctgaagcagaacctcacggtc acggaccgcgtcattggaggcctgctcgctgggcagacataccatgtggctgtggtctgc tacctgaggtctcaggtcagagccacctaccacggaagtttcagtacaaagaaatctcag cccccacctccacagccagcaaggtcagcttctagttcaaccatcaatctaatggtgagc acagaaccattggctctcactgaaacagatatatgcaagttgccgaaagacgaaggaact tgcagggatttcatattaaaatggtactatgatccaaacaccaaaagctgtgcaagattc tggtatggaggttgtggtggaaacgaaaacaaatttggatcacagaaagaatgtgaaaag gtttgcgctcctgtgctcgccaaacccggagtcatcagtgtgatgggaacctaa

Homo sapiens (human): 131873 Help Entry 131873            CDS       T01001                                  Symbol COL6A6 Name (RefSeq) collagen type VI alpha 6 chain   KO K06238   collagen type VI alpha Organism hsa  Homo sapiens (human) Pathway hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa04974   Protein digestion and absorption hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     131873 (COL6A6)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     131873 (COL6A6)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     131873 (COL6A6)   09142 Cell motility    04820 Cytoskeleton in muscle cells     131873 (COL6A6)  09150 Organismal Systems   09154 Digestive system    04974 Protein digestion and absorption     131873 (COL6A6)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     131873 (COL6A6)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     131873 (COL6A6)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     131873 (COL6A6) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    131873 (COL6A6) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    131873 (COL6A6)  Hyaluronan   Extracellular matrix or blood plasma proteins    131873 (COL6A6) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  VWA VWA_2 Collagen VWA_3 Radical_SAM Motif Other DBs NCBI-GeneID:  131873 NCBI-ProteinID:  NP_001096078 OMIM:  616613 HGNC:  27023 Ensembl:  ENSG00000206384 UniProt:  A6NMZ7 LinkDB All DBs Position 3:130516720..130677042 Genome browser AA seq 2263 aa AA seqDB search MMLLILFLVIICSHISVNQDSGPEYADVVFLVDSSDRLGSKSFPFVKMFITKMISSLPIE ADKYRVALAQYSDKLHSEFHLSTFKGRSPMLNHLRKNFGFIGGSLQIGKALQEAHRTYFS APANGRDKKQFPPILVVLASSESEDNVEEASKALRKDGVKIISVGVQKASEENLKAMATS QFHFNLRTVRDLSMFSQNMTHIIKDVIKYKEGAVDDIFVEACQGPSMADVVFLLDMSING SEENFDYLKGFLEESVSALDIKENCMRVGLVAYSNETKVINSLSMGINKSEVLQHIQNLS PRTGKAYTGAAIKKLRKEVFSARNGSRKNQGVPQIAVLVTHRDSEDNVTKAAVNLRREGV TIFTLGIEGASDTQLEKIASHPAEQYVSKLKTFADLAAHNQTFLKKLRNQITHTVSVFSE RTETLKSGCVDTEEADIYLLIDGSGSTQATDFHEMKTFLSEVVGMFNIAPHKVRVGAVQY ADSWDLEFEINKYSNKQDLGKAIENIRQMGGNTNTGAALNFTLSLLQKAKKQRGNKVPCH LVVLTNGMSKDSILEPANRLREEHIRVYAIGIKEANQTQLREIAGEEKRVYYVHDFDALK DIRNQVVQEICTEEACKEMKADIMFLVDSSGSIGPENFSKMKTFMKNLVSKSQIGPDRVQ IGVVQFSDINKEEFQLNRFMSQSDISNAIDQMAHIGQTTLTGSALSFVSQYFSPTKGARP NIRKFLILITDGEAQDIVKEPAVVLRQEGVIIYSVGVFGSNVTQLEEISGRPEMVFYVEN FDILQRIEDDLVFGICSPREECKRIEVLDVVFVIDSSGSIDYDEYNIMKDFMIGLVKKAD VGKNQVRFGALKYADDPEVLFYLDDFGTKLEVISVLQNDQAMGGSTYTAEALGFSDHMFT EARGSRLNKGVPQVLIVITDGESHDADKLNATAKALRDKGILVLAVGIDGANPVELLAMA GSSDKYFFVETFGGLKGIFSDVTASVCNSSKVDCEIDKVDLVFLMDGSTSIQPNDFKKMK EFLASVVQDFDVSLNRVRIGAAQFSDTYHPEFPLGTFIGEKEISFQIENIKQIFGNTHIG AALREVEHYFRPDMGSRINTGTPQVLLVLTDGQSQDEVAQAAEALRHRGIDIYSVGIGDV DDQQLIQITGTAEKKLTVHNFDELKKVNKRIVRNICTTAGESNCFVDVVVGFDVSTQEKG QTLLEGQPWMETYLQDILRAISSLNGVSCEVGTETQVSVAFQVTNAMEKYSPKFEIYSEN ILNSLKDITVKGPSLLNANLLDSLWDTFQNKSAARGKVVLLFSDGLDDDVEKLEQKSDEL RKEGLNALITVALDGPADSSDLADLPYIEFGKGFEYRTQLSIGMRELGSRLSKQLVNVAE RTCCCLFCKCIGGDGTMGDPGPPGKRGPPGFKGSEGYLGEEGIAGERGAPGPVGEQGTKG CYGTKGPKGNRGLNGQEGEVGENGIDGLNGEQGDNGLPGRKGEKGDEGSQGSPGKRGTPG DRGAKGLRGDPGAPGVDSSIEGPTGLKGERGRQGRRGWPGPPGTPGSRRKTAAHGRRGHT GPQGTAGIPGPDGLEGSLGLKGPQGPRGEAGVKGEKGGVGSKGPQGPPGPGGEAGNQGRL GSQGNKGEPGDLGEKGAVGFPGPRGLQGNDGSPGYGSVGRKGAKGQEGFPGESGPKGEIG DPGGPGETGLKGARGKMISAGLPGEMGSPGEPGPPGRKGVKGAKGLASFSTCELIQYVRD RSPGRHGKPECPVHPTELVFALDHSRDVTEQEFERMKEMMAFLVRDIKVRENSCPVGAHI AILSYNSHARHLVRFSDAYKKSQLLREIETIPYERSSASREIGRAMRFISRNVFKRTLPG AHTRKIATFFSSGQSADAHSITTAAMEFGALEIIPVVITFSNVPSVRRAFAIDDTGTFQV IVVPSGADYIPALERLQRCTFCYDVCKPDASCDQARPPPVQSYMDAAFLLDASRNMGSAE FEDIRAFLGALLDHFEITPEPETSVTGDRVALLSHAPPDFLPNTQKSPVRAEFNLTTYRS KRLMKRHVHESVKQLNGDAFIGHALQWTLDNVFLSTPNLRRNKVIFVISAGETSHLDGEI LKKESLRAKCQGYALFVFSLGPIWDDKELEDLASHPLDHHLVQLGRIHKPDHSYGVKFVK SFINSIRRAINKYPPINLKIKCNRLNSIDPKQPPRPFRSFVPGPLKATLKEDVLQKAKFF QDKKYLSRVARSGRDDAIQNFMRSTSHTFKNGRMIESAPKQHD NT seq 6792 nt NT seq  +upstreamnt  +downstreamnt atgatgttgctaattttgttcctcgtgataatttgttcccatatttctgtgaaccaagat tccggccctgagtatgcagatgttgtgtttttggtggacagctctgatcgcctgggatcc aagtccttcccatttgtgaaaatgttcatcaccaaaatgatcagcagtctccccatagag gccgacaaataccgtgtggccctggcccagtacagtgataaacttcacagtgaattccac ctgagcaccttcaaaggcaggagccccatgctgaaccacctaaggaagaactttggattc attggcgggtccctgcagataggaaaggctcttcaggaggctcacaggacttatttctct gcacccgcaaatgggagagacaagaaacagtttcccccaattctagtggtcctggcttca tctgagtctgaggataatgtggaagaggcatcaaaggccctgcggaaagacggagtgaaa atcatctctgtaggggtgcagaaagcttctgaggaaaacctgaaggccatggccacgtct cagtttcatttcaaccttcggacagtcagagacctcagcatgttttcccaaaacatgaca cacatcatcaaggatgtaataaagtacaaggagggagcagttgatgacatctttgtagaa gcttgccaaggcccttctatggccgatgttgtgttcctattggatatgtcaatcaatgga agtgaggagaactttgactatcttaaaggattcttggaagaaagtgtatctgcccttgac ataaaggaaaattgcatgagggttggccttgtggcctatagcaatgagacaaaagtgata aattcactgagcatgggcataaataagtcagaggttctccagcatatacagaacctttct ccccgaactgggaaggcctatactggagctgccatcaaaaagctcaggaaggaagttttt agtgcacggaatggcagtcggaagaatcagggggtgccccagattgccgtgctggtgacc caccgagattcagaagacaacgtgacaaaagcagctgttaacctccgacgggagggtgtg accatcttcaccctgggcatagagggcgccagcgacacccagttggaaaagatagcatcc caccctgctgagcagtatgtctccaaactgaagaccttcgctgacctggctgctcacaac cagacatttctgaagaagctgcggaaccaaataacacacacagtctctgtcttttcagag aggactgaaacgctcaaatctggttgtgtggacactgaggaagcagacatctatctgctt atcgatggctcagggagcacccaggccacagatttccatgaaatgaagacgttcctgtca gaggtggtagggatgttcaacattgctccccataaggtgcgggttggggccgttcagtat gctgacagctgggacttggaatttgagatcaataaatactccaacaagcaggatttggga aaggccattgagaatatcaggcagatgggtgggaatacaaacacaggcgcagcactgaat ttcacactgagtctgttgcaaaaagcaaagaagcagcgaggaaacaaagttccatgccac cttgttgtcctgacaaatggcatgtccaaggatagcatcttggagcctgcaaacagactg agagaagagcacatccgagtttatgctatcgggatcaaggaggccaaccaaacacagctg agagaaattgcaggagaggaaaagagagtgtattacgtgcatgactttgatgcattgaaa gacataagaaaccaagttgttcaagaaatctgtactgaagaagcttgcaaagagatgaaa gctgacatcatgtttctggtggacagttctggaagtataggacctgaaaacttcagcaaa atgaaaacatttatgaaaaacctggtgagcaagtctcagattggaccagatcgggtgcaa attggtgtagtccagttcagcgacatcaataaggaagagtttcagctcaacagattcatg tcccaaagcgacatttcaaatgcaatagaccaaatggctcacattggacaaaccaccctg actggtagtgccctgagctttgtgtctcagtacttcagccccaccaagggcgcccggccc aacatcagaaagtttctcatcctcatcacggatggtgaagctcaggacatagtaaaggaa ccagcagtagtgcttcggcaagaaggtgtaatcatctattctgtgggagtgtttggctcc aatgtcacccagcttgaggagatcagtgggaggcccgagatggttttttatgttgagaat tttgacattctgcagcgcattgaagatgatcttgtttttggaatatgcagcccccgtgaa gaatgcaagcggattgaagttttagacgttgtgtttgtcattgatagctctggcagtatt gactatgatgagtataatatcatgaaggattttatgattggcttagtgaaaaaagctgat gtgggcaagaatcaggtccggtttggggctctgaagtatgctgatgacccagaggtgctg ttttatctggatgactttggcacaaaactggaggtaatttcagtgctccagaatgaccaa gccatgggtggcagtacttatactgctgaggcactgggcttctcagaccacatgttcact gaagcccggggcagccgcctgaacaagggggtcccccaagtcctcattgtgatcaccgat ggggaatcccatgatgctgataaactcaatgccacggcaaaggccttgcgggacaaaggc attcttgtcctggctgtggggattgatggtgccaatcccgtggagctgttagccatggca ggatcaagcgacaagtacttcttcgtggagacttttggaggtctgaagggaatattttca gatgtgacagccagtgtctgcaactcttcaaaagtagattgtgaaattgacaaagtagat cttgttttccttatggatggttcaactagcattcagccaaatgacttcaagaaaatgaag gaatttctggcatctgttgttcaagactttgatgtcagcctcaacagagtgcgaatagga gcggcccagtttagcgatacctatcacccggagtttccactgggaactttcataggtgaa aaagagatatcatttcagattgaaaacatcaagcagatctttggaaacacacacatcggt gctgcactcagggaggtggaacattacttcaggccagacatgggcagcaggataaataca ggtaccccacaggtgctgctggtccttacagatggccagtcccaagacgaggtggcccag gccgcggaagccctgagacacagaggtatcgacatctactccgtgggcattggggatgtg gatgaccagcagctcattcagatcaccgggactgcagagaaaaaactgacagtgcacaac ttcgatgaactgaagaaggtcaataaaaggatcgttcgcaacatctgtaccacagcgggt gaaagcaactgtttcgtggatgttgtggtgggatttgatgtctcaactcaggagaaaggg cagactttgcttgaaggtcagccttggatggaaacctaccttcaagacatcttacgtgcc atcagctccctcaatggagtaagctgtgaggtgggcacagagactcaggtcagtgtggct tttcaagtgaccaatgccatggaaaaatattctcccaagtttgagatctacagtgaaaac atactgaatagcttgaaggatataacagttaaaggaccatctcttctcaatgcaaacctc ttggattctctatgggatacatttcagaataaatcagctgctcgaggaaaggtggtcctt ttattttcagatggattggatgatgatgttgagaaacttgaacaaaaatctgatgaactt agaaaagaaggcctgaatgccctcataactgttgctctggatggacctgctgattcaagt gacttggctgatcttccctatattgaatttgggaaaggatttgagtacaggacacagctc tctattggcatgagagaacttggaagccggctgtcaaagcagctggtcaatgttgctgaa aggacatgctgctgtttgttctgcaagtgcattggaggagatggcacaatgggagatcct ggaccaccagggaaaaggggacctccaggttttaaaggcagtgaaggctacctgggagag gagggaatcgctggagaaagaggagcccctggaccagtgggagagcaaggtactaaggga tgctatggcaccaaaggtcctaagggaaacagaggactaaatggacaggagggagaagtt ggggaaaatggaattgacggattaaacggagaacagggtgataatggtcttcctggaaga aaaggagaaaagggagatgagggatctcagggaagcccagggaagagagggactcctggt gaccgtggagcaaagggcctgcgaggggatcccggagctcctggagttgacagtagcata gaaggacccacaggcttgaaaggagaacgtggaagacaaggcagaagaggctggccaggc ccccccgggacaccaggctccagaagaaagacagcagctcatggcagaaggggacataca ggcccacagggaacagcaggcatcccaggaccagatggacttgaaggctccctgggactt aagggccctcagggcccaagaggagaggctggtgtgaaaggagaaaaaggaggtgtggga agtaaaggtccccaggggcctccaggacccggaggagaggcagggaatcaaggccgtttg ggaagccaaggaaataaaggagaacctggagatctgggagaaaaaggagctgttggcttt cctggtcctcgtggcttgcagggcaatgatggcagtccaggttatggtagtgtcggacgc aagggagcaaagggacaagaaggattccctggagaaagtggacctaagggtgagattggg gaccctggtggtccaggagagactgggctgaagggagctagaggcaaaatgatatctgct gggcttccaggagagatgggatcccctggggaaccaggacctcctggacgtaagggtgtg aaaggagccaaaggcttggcttcattttctacatgtgagctcattcagtatgtgcgagac cgcagtcctggcaggcatggaaaaccggaatgcccagtgcacccaaccgagttggtgttt gccctggaccactcccgggatgtcactgagcaggaatttgagcggatgaaggagatgatg gctttcctggtgagagacattaaggtccgggagaacagctgccccgtgggagcgcacatc gccatcctctcctataactcccacgccaggcaccttgtgcgcttctcagacgcctacaag aagagtcaacttctcagagaaattgaaactattccttatgagagatcctctgccagcagg gagattggcagagcaatgcggtttatttccaggaatgtcttcaagcggacgcttccgggg gcacacacgagaaaaatcgccacatttttcagcagcggtcagtccgcggatgcccactcc atcaccacggctgccatggagttcggcgcgcttgaaatcattcccgtggtgatcactttc agcaacgtgccctcggtcaggcgcgcatttgcgattgacgacactggcacatttcaagta atagtggttccctccggggccgactacataccagcattagagagactccagcggtgcact ttctgctatgatgtgtgcaagccagatgcttcttgtgaccaagccagaccaccccctgtg cagtcttacatggatgctgctttccttctggatgcctcccggaacatgggaagtgctgaa tttgaagacataagagccttccttggagcactattagatcactttgaaatcaccccagag ccggagacttctgtcactggagaccgggtggccctattgagccatgctccccccgacttc ctacccaacactcagaagagtccagttagagctgagttcaatcttaccacctacagaagt aagcgcctcatgaagaggcatgtgcacgagtcagttaaacaactaaatggagatgctttt attggtcatgccttacagtggactctggacaatgtatttttaagtacacccaatctgaga agaaacaaagtcatatttgtgatatctgctggggaaaccagccacttagatggggaaatc ttaaagaaggaatccttgcgagccaaatgtcagggatatgccttatttgtgttttccctt ggccctatttgggatgacaaggaactggaggatctcgccagccaccctttggatcaccac ctggtccagcttggccgaattcataaacctgaccacagttatggtgtgaagtttgtgaag tcctttataaactcaatcaggcgtgcaatcaacaaatatccaccaataaacttaaaaata aagtgcaacagacttaactctatagatccaaagcagcccccacgaccattccgaagcttt gttcctggaccacttaaagctaccctcaaagaagatgtattacagaaggcaaaattcttt caagataaaaaatatctttcaagagtagcaagaagtggcagagatgatgctattcaaaat tttatgagaagcacctcccatacctttaagaatggaaggatgatagaaagtgctcccaaa caacatgattaa

Homo sapiens (human): 256076 Help Entry 256076            CDS       T01001                                  Symbol COL6A5, COL29A1, VWA4 Name (RefSeq) collagen type VI alpha 5 chain   KO K06238   collagen type VI alpha Organism hsa  Homo sapiens (human) Pathway hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa04974   Protein digestion and absorption hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     256076 (COL6A5)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     256076 (COL6A5)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04510 Focal adhesion     256076 (COL6A5)   09142 Cell motility    04820 Cytoskeleton in muscle cells     256076 (COL6A5)  09150 Organismal Systems   09154 Digestive system    04974 Protein digestion and absorption     256076 (COL6A5)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     256076 (COL6A5)  09180 Brite Hierarchies   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     256076 (COL6A5)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     256076 (COL6A5) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    256076 (COL6A5) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    256076 (COL6A5)  Hyaluronan   Extracellular matrix or blood plasma proteins    256076 (COL6A5) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  VWA VWA_2 Collagen VWA_3 VWA_CoxE Copine vWA-TerF-like DUF2529 Integrin_beta Motif Other DBs NCBI-GeneID:  256076 NCBI-ProteinID:  NP_001265227 OMIM:  611916 HGNC:  26674 Ensembl:  ENSG00000172752 UniProt:  A8TX70 H0Y393 LinkDB All DBs Position 3:130345672..130484846 Genome browser AA seq 2614 aa AA seqDB search MKILLIIFVLIIWTETLADQSPGPGPVYADVVFLVDSSDHLGPKSFPFVKTFINKMINSL PIEANKYRVALAQYSDEFHSEFHLSTFKGRSPMLNHLKKNFQFIGGSLQIGKALQEAHRT YFSAPINGRDRKQFPPILVVLASAESEDEVEEASKALQKDGVKIISVGVQKASEENLKAM ATSHFHFNLRTIRDLSTFSQNMTQIIKDVTKYKEGAVDADMQVHFPISCQKDSLADLVFL VDESLGTGGNLRHLQTFLENITSSMDVKENCMRLGLMSYSNSAKTISFLKSSTTQSEFQQ QIKNLSIQVGKSNTGAAIDQMRRDGFSESYGSRRAQGVPQIAVLVTHRPSDDEVHDAALN LRLEDVNVFALSIQGANNTQLEEIVSYPPEQTISTLKSYADLETYSTKFLKKLQNEIWSQ ISTYAEQRNLDKTGCVDTKEADIHFLIDGSSSIQEKQFEQIKRFMLEVTEMFSIGPDKVR VGVVQYSDDTEVEFYITDYSNDIDLRKAIFNIKQLTGGTYTGKALDYILQIIKNGMKDRM SKVPCYLIVLTDGMSTDRVVEPAKRLRAEQITVHAVGIGAANKIELQEIAGKEERVSFGQ NFDALKSIKNEVVREICAEKGCEDMKADIMFLVDSSWSIGNENFRKMKIFMKNLLTKIQI GADKTQIGVVQFSDKTKEEFQLNRYFTQQEISDAIDRMSLINEGTLTGKALNFVGQYFTH SKGARLGAKKFLILITDGVAQDDVRDPARILRGKDVTIFSVGVYNANRSQLEEISGDSSL VFHVENFDHLKALERKLIFRVCALHDCKRITLLDVVFVLDHSGSIKKQYQDHMINLTIHL VKKADVGRDRVQFGALKYSDQPNILFYLNTYSNRSAIIENLRKRRDTGGNTYTAKALKHA NALFTEEHGSRIKQNVKQMLIVITDGESHDHDQLNDTALELRNKGITIFAVGVGKANQKE LEGMAGNKNNTIYVDNFDKLKDVFTLVQERMCTEAPEVCHLQEADVIFLCDGSDRVSNSD FVTMTTFLSDLIDNFDIQSQRMKIGMAQFGSNYQSIIELKNSLTKTQWKTQIQNVSKSGG FPRIDFALKKVSNMFNLHAGGRRNAGVPQTLVVITSGDPRYDVADAVKTLKDLGICVLVL GIGDVYKEHLLPITGNSEKIITFQDFDKLKNVDVKKRIIREICQSCGKTNCFMDIVVGFD ISTHVQGQPLFQGHPQLESYLPGILEDISSIKGVSCGAGTEAQVSLAFKVNSDQGFPAKF QIYQKAVFDSLLQVNVSGPTHLNAQFLRSLWDTFKDKSASRGQVLLIFSDGLQSESNIML ENQSDRLREAGLDALLVVSLNTTAHHEFSSFEFGKRFDYRTHLTIGMRELGKKLSQYLGN IAERTCCCTFCKCPGIPGPHGTRGLQAMKGSQGLKGSRGHRGEDGNPGVRGDTGPQGDKG IAGCPGAWGQKGLKGFSGPKGGHGDDGIDGLDGEEGCHGFPGIKGEKGDPGSQGSPGSRG APGQYGEKGFPGDPGNPGQNNNIKGQKGSKGEQGRQGRSGQKGVQGSPSSRGSRGREGQR GLRGVSGEPGNPGPTGTLGAEGLQGPQGSQGNPGRKGEKGSQGQKGPQGSPGLMGAKGST GRPGLLGKKGEPGLPGDLGPVGQTGQRGRQGDSGIPGYGQMGRKGVKGPRGFPGDAGQKG DIGNPGIPGGPGPKGFRGLALTVGLKGEEGSRGLPGPPGQRGIKGMAGQPVYSQCDLIRF LREHSPCWKEKCPAYPTELVFALDNSYDVTEESFNKTRDIITSIVNDLNIRENNCPVGAR VAMVSYNSGTSYLIRWSDYNRKKQLLQQLSQIKYQDTTEPRDVGNAMRFVTRNVFKRTYA GANVRRVAVFFSNGQTASRSSIITATMEFSALDISPTVFAFDERVFLEAFGFDNTGTFQV IPVPPNGENQTLERLRRCALCYDKCFPNACIREAFLPEDSYMDVVFLIDNSRNIAKDEFK AVKALVSSVIDNFNIASDPLISDSGDRIALLSYSPWESSRRKMGTVKTEFDFITYDNQLL MKNHIQTSFQQLNGEATIGRALLWTTENLFPETPYLRKHKVIFVVSAGENYERKEFVKMM ALRAKCQGYVIFVISLGSTRKDDMEELASYPLDQHLIQLGRIHKPDLNYIAKFLKPFLYS VRRGFNQYPPPMLEDACRLINLGGENIQNDGFQFVTELQEDFLGGNGFIGQELNSGRESP FVKTEDNGSDYLVYLPSQMFEPQKLMINYEKDQKSAEIASLTSGHENYGRKEEPDHTYEP GDVSLQEYYMDVAFLIDASQRVGSDEFKEVKAFITSVLDYFHIAPTPLTSTLGDRVAVLS YSPPGYMPNTEECPVYLEFDLVTYNSIHQMKHHLQDSQQLNGDVFIGHALQWTIDNVFVG TPNLRKNKVIFVISAGETNSLDKDVLRNVSLRAKCQGYSIFVFSFGPKHNDKELEELASH PLDHHLVQLGRTHKPDWNYIIKFVKPFVHLIRRAINKYPTEDMKATCVNMTSPNPENGGT ENTVLLLPGIYEIKTENGDLFDEFDSQAQHLLVLGNNHSSGSETATDLMQKLYLLFSTEK LAMKDKEKAHLEEISALVVDKQQEKEDGEDTRSS NT seq 7845 nt NT seq  +upstreamnt  +downstreamnt atgaagatcttgctaattatatttgtcctaatcatttggactgaaacattggcagaccag agcccagggccaggccctgtgtatgcagatgtcgtgtttctggtggacagctccgatcac ctgggacctaagtcattcccattcgtgaaaacgttcatcaacaaaatgatcaacagtctc cccatagaggccaacaaataccgtgtagccctggcccagtacagcgacgagtttcacagt gaattccatctgagcaccttcaaaggcagaagccccatgctgaaccacctcaagaagaac tttcagttcattggcgggtccctgcagataggaaaggctcttcaggaggctcataggacc tacttctctgcacccataaatgggagagacaggaaacagtttcccccaattttggtggtc ctggcttcggctgagtctgaggatgaagtggaagaggcttcgaaagccctgcagaaagac ggggtgaaaattatctccgtgggggtgcagaaagcttctgaggaaaatctgaaggccatg gccacatcccatttccatttcaaccttcggacaatcagagacctcagcacattttcccaa aacatgacacagatcatcaaggatgtaaccaagtataaggagggagccgtcgatgctgat atgcaagttcacttccccatatcctgtcagaaagattcactcgctgacctcgtgttcctg gtggatgagtcacttgggaccggaggaaatttaaggcatcttcagaccttccttgagaac attaccagctccatggatgtgaaggaaaattgcatgcgacttggactgatgagttacagc aatagtgccaagactatttcttttcttaaatcaagcacaacccaatctgaatttcagcag caaatcaagaatctttctatccaagttgggaaatccaatacaggggctgccattgatcag atgagaagagacggcttctcagagtcatatggcagcagaagagcacaaggagtgcctcag attgcagttctggtcacccacagaccatcagatgatgaggtgcatgatgctgcgctgaac cttcgactggaggatgtaaacgtgtttgccttgagcatccaaggggctaacaatacccag ttagaagaaatagtgtcttatcctccagaacagacaatttccacgctgaagtcctatgca gacttagaaacttacagtacaaagttcctgaaaaagctccagaatgaaatatggtcccaa atttctacttatgctgaacaaaggaatcttgataaaactggctgtgtggatacaaaagag gctgatatccacttcctcattgatggctcaagcagcatccaggagaaacagtttgagcaa atcaagagatttatgttggaagtgacagaaatgtttagcattggcccagacaaagtccga gttggagttgtgcagtattcagatgacacagaagtggaattttatatcactgactattct aatgatattgacttaagaaaggctatttttaacattaagcaactaactggtggaacttat actgggaaagctctggattacatactgcaaataataaaaaatggaatgaaggatagaatg agcaaggttccctgttacctcattgtgttgactgatgggatgtccacagacagagtcgtg gaacctgctaagagactaagggctgagcaaatcactgttcatgcagttggcattggggca gctaataaaatagaactgcaagaaattgctgggaaagaagaaagggttagctttgggcag aactttgatgctttgaaaagcataaaaaatgaagtcgttcgtgaaatctgcgctgaaaaa ggatgtgaagacatgaaggccgacatcatgtttctggtggacagttcttggagtatagga aatgaaaattttaggaaaatgaaaatcttcatgaaaaacctgttaactaaaattcaaatt ggtgcagacaaaacccagattggtgttgttcagttcagtgataaaactaaggaagagttc cagcttaatagatattttacacagcaagaaatttctgatgcaatagatagaatgtctctc atcaatgaaggcactttaactggaaaggcactaaattttgtaggtcaatacttcacccac tccaagggggcccgtttgggggccaaaaaatttctcatcctcatcacagatggagtagcg caggatgatgtgagagatcctgctagaattcttcggggcaaagatgtgaccatcttctct gtaggagtatacaatgccaatagatctcagctagaagagatcagtggggatagcagccta gtttttcatgttgagaacttcgatcatctaaaggcactagaaaggaaacttatctttcgt gtgtgtgctctccatgattgtaaaaggattacactactagacgttgtgtttgtgctggat cattcaggtagcataaaaaaacaatatcaagatcacatgattaacctaactatccatttg gtgaagaaagcagatgttggcagggaccgagttcagtttggagccctcaaatactctgac caacctaacatccttttctaccttaatacatactcgaacagatcagcaataattgagaat ctgcggaagcgcagggacactggagggaacacctacactgccaaggctctcaagcacgca aatgccctgtttacagaggaacatggcagccgcatcaagcaaaatgtgaagcagatgctg attgtcatcaccgatggggaatcccatgaccatgatcagctcaatgacacagcattggaa ctgagaaacaaaggcatcaccatctttgcagtgggtgtaggaaaggccaaccaaaaggaa cttgagggtatggcagggaataaaaacaatactatctatgtagataattttgacaaactg aaagatgttttcacacttgttcaagaacgtatgtgtactgaagcaccagaggtctgtcat cttcaggaagctgacgtgattttcctttgcgatggctctgacagggtatctaattcagat tttgtaaccatgacaactttcttgtcagacttaatcgataattttgacattcagtctcaa agaatgaaaattggtatggctcaatttggaagcaactaccagagtattattgagttgaaa aactctctgactaaaacccagtggaagactcaaattcagaatgtctccaagagcggtgga tttccaagaattgactttgcccttaaaaaagtgagcaatatgtttaatctacatgctggt gggagaagaaatgctggtgtcccccaaactttggttgttatcacatctggagatcctcgc tatgatgtggcagatgcagtaaaaaccctgaaggaccttggaatttgtgtcctggttttg ggcataggagatgtttataaggaacatctcctgccaataacaggcaattctgaaaaaata atcacttttcaagactttgataaattaaagaatgtggatgtgaaaaaaagaatcatccgt gaaatctgccagagctgtgggaaaaccaattgctttatggacatagtggttgggtttgac atctccactcatgtgcaggggcagcctttgttccagggccacccccagctggaatcctac ctcccaggcatcttagaagacatcagctctatcaagggggtgagctgtggggctggcaca gaggcacaggtgagcttggcgtttaaggtgaacagtgaccaaggattccctgccaagttc caaatctatcagaaagcagtgtttgacagcttgctgcaagtcaacgtcagtgggccaact catctgaacgcacagttcttgcggtctctttgggacacatttaaggataaatctgcatcc cggggccaggtgctgcttattttttcagacggtctccagagtgaaagcaacataatgctt gaaaatcaatcagacaggctcagagaagcaggacttgatgctctgctggtagtgtccctt aacacaactgctcatcatgagttttctagctttgaatttggaaaaagattcgattacagg actcatctgactattggaatgagagaactgggcaaaaaactatcacagtacctgggaaat attgcagagaggacttgctgctgtacattctgcaaatgtccaggaattccaggacctcat gggacccgaggactacaagccatgaagggttctcaaggtctgaaaggcagcagaggacac aggggagaggatggaaaccctggagtacgaggagacacaggaccccaaggagacaaaggg attgcaggatgtccaggggcgtggggtcagaagggactcaaaggattttctggacctaag ggaggtcatggagacgatgggattgatggacttgatggggaagagggctgtcatggattt cctggaataaaaggagaaaaaggtgatccaggatctcagggcagcccaggttccagaggt gcccctgggcagtatggagagaagggcttcccaggggatccgggtaatccaggacaaaac aataacatcaaaggacaaaagggctccaaaggagaacaaggaagacaaggtagaagtgga cagaaaggggtgcaaggcagtcctagttccagaggcagcaggggaagagaaggtcaaagg ggactccgaggtgtctcaggagaaccaggaaatcctggacctacaggcacattgggagct gaaggattacaaggcccacaggggtcacagggaaatcctggcagaaaaggagaaaaagga agccaggggcagaaaggacctcagggttctcctgggctaatgggagctaaagggagcact ggaagacctggacttttggggaaaaaaggagagcctggacttcctggagatctagggcca gtggggcaaactgggcagcgaggaagacagggagattctggcatcccaggctacggtcag atgggacgaaaaggagtaaagggcccaagaggattccctggagatgcggggcagaagggt gatattggtaatcctggaattcctgggggacctggacccaaaggatttaggggactagca ctcactgtaggcttgaaaggtgaagagggatctcgaggactcccaggccctcctggacag agaggcattaaaggcatggcagggcagcctgtatattctcaatgtgatctgatccggttt ttgcgggaacatagtccttgctggaaagaaaaatgtccagcatatccaacagagctagta tttgctctggacaattcctacgatgtcacagaagagagctttaataaaacacgggacatc atcacttccattgtcaatgaccttaacatcagggaaaataactgtcctgtgggagcaaga gttgccatggtttcctataactcaggcaccagctatctcatccgctggtctgactacaat aggaagaagcagctcctccagcagctttcccaaataaaatatcaagacaccacagagccc cgagatgttggtaatgcaatgaggtttgtgacccgcaacgtgttcaagcggacgtatgca ggagccaacgtgaggagagttgctgtgttttttagcaatggtcaaacagccagtaggtca tccatcatcacggccaccatggagtttagtgccctggatatcagtccaacagtctttgct tttgatgagagagttttccttgaagcttttgggtttgacaacactggaacatttcaggtg attccagttcctccaaatggggaaaatcaaacattagaaagacttcggcgctgtgcactt tgctatgataaatgttttccaaatgcttgcattcgagaggctttcttacctgaagattca tacatggatgtagtcttcctcatagacaattctcggaatatagcaaaggatgagtttaag gctgtgaaagccttggtgagctcagtgattgacaacttcaacattgcttcagacccttta atctcagactctggtgataggattgctttgttgagctattctccttgggaaagttccagg agaaagatgggtacagtaaaaacagagtttgatttcatcacttatgacaaccaactccta atgaagaatcacatccagacttccttccaacagctaaatggagaagcaacaattggtcgt gccctactgtggaccactgaaaatctttttccagaaacaccctatctaagaaaacacaag gtcatctttgtggtctcagctggagaaaattatgagagaaaagaatttgtaaaaatgatg gctttgagggctaagtgtcaaggctacgtcatatttgtgatttctctgggctctacacgt aaggatgacatggaggagttagccagctacccacttgatcaacacctgatacagcttggg agaatacataaaccagatctgaattatattgcgaagttcttaaagccatttttatactcg gtcaggcggggattcaatcagtacccaccaccgatgcttgaggatgcctgtagactcatc aatttaggaggagagaatattcaaaatgatggtttccaatttgttactgagctacaagag gattttttgggaggtaatggcttcattggccaagaattaaattctgggagagaatcacct tttgtaaagacggaagacaatggaagtgactatttggtttaccttccaagccaaatgttt gagccacaaaaattaatgatcaattatgaaaaagatcaaaaatctgcagaaattgcaagt ctcacttctggacatgaaaattatggcagaaaagaagaaccagatcatacttatgaacct ggagatgtctctcttcaagaatattacatggatgtggctttcctcatagatgcttcccaa agagtaggaagtgatgagtttaaggaagtaaaagcttttataacctcagtgcttgattac tttcacattgcccccactccactgacctccaccttaggagacagggttgctgtcctgagc tactctcctccaggctatatgcctaacactgaagaatgccctgtctacctggaatttgat ttggttacttataacagtatacaccaaatgaaacatcatctccaagactctcaacagctc aatggagatgtttttattggccatgccttgcagtggacaattgacaatgtctttgtagga acccccaatctgaggaaaaacaaagttatctttgtaatatctgctggcgaaaccaactct ttagacaaagacgtcttaaggaatgtgtctctgagagccaagtgtcaaggctactccata tttgtgttttcctttggccctaaacacaatgacaaagaattagaagaattagccagccac cctctggatcatcacttggtccaacttggccgaacccacaagccagattggaactatatc atcaagtttgtcaagccatttgtccatttaatcagacgtgccatcaacaaatatcccacc gaagatatgaaagccacatgtgttaacatgacctctcccaacccagagaacggtggcaca gaaaacactgtattacttcttcctgggatatatgaaataaagacagaaaatggtgatctg tttgatgaatttgattcccaggcacaacatctccttgtattagggaacaatcatagtagt ggttctgagacagctactgatttgatgcagaagttatatctgctcttttcaactgagaaa ctggcaatgaaagacaaggaaaaagcacatttagaagaaatttcagctctagtggttgat aaacagcaagaaaaagaagatggtgaagatacaaggtcatcatag

Homo sapiens (human): 7057 Help Entry 7057              CDS       T01001                                  Symbol THBS1, THBS, THBS-1, TSP, TSP-1, TSP1 Name (RefSeq) thrombospondin 1   KO K16857   thrombospondin 1 Organism hsa  Homo sapiens (human) Pathway hsa04015   Rap1 signaling pathway hsa04115   p53 signaling pathway hsa04145   Phagosome hsa04148   Efferocytosis hsa04151   PI3K-Akt signaling pathway hsa04350   TGF-beta signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa05144   Malaria hsa05165   Human papillomavirus infection hsa05205   Proteoglycans in cancer hsa05206   MicroRNAs in cancer hsa05219   Bladder cancer Network nt06535  Efferocytosis nt06539  Cytoskeleton in muscle cells   Element N01772   Induction of the PTGS2 N01814   Extracellular matrix - Basal lamina Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04015 Rap1 signaling pathway     7057 (THBS1)    04350 TGF-beta signaling pathway     7057 (THBS1)    04151 PI3K-Akt signaling pathway     7057 (THBS1)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     7057 (THBS1)  09140 Cellular Processes   09141 Transport and catabolism    04145 Phagosome     7057 (THBS1)    04148 Efferocytosis     7057 (THBS1)   09143 Cell growth and death    04115 p53 signaling pathway     7057 (THBS1)   09144 Cellular community - eukaryotes    04510 Focal adhesion     7057 (THBS1)   09142 Cell motility    04820 Cytoskeleton in muscle cells     7057 (THBS1)  09160 Human Diseases   09161 Cancer: overview    05206 MicroRNAs in cancer     7057 (THBS1)    05205 Proteoglycans in cancer     7057 (THBS1)   09162 Cancer: specific types    05219 Bladder cancer     7057 (THBS1)   09172 Infectious disease: viral    05165 Human papillomavirus infection     7057 (THBS1)   09174 Infectious disease: parasitic    05144 Malaria     7057 (THBS1)  09180 Brite Hierarchies   09182 Protein families: genetic information processing    04131 Membrane trafficking [BR:hsa04131]     7057 (THBS1)   09183 Protein families: signaling and cellular processes    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     7057 (THBS1) Membrane trafficking [BR:hsa04131]  Endocytosis   Phagocytosis    Opsonins     7057 (THBS1) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    7057 (THBS1) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  TSP_C TSP_3 TSP_1 TSP1_spondin VWC EGF_3 cEGF EGF_CA TSP1_ADAMTS Laminin_G_3 Laminin_G_2 EGF TSP1_CCN Laminin_G_1 Motif Other DBs NCBI-GeneID:  7057 NCBI-ProteinID:  NP_003237 OMIM:  188060 HGNC:  11785 Ensembl:  ENSG00000137801 UniProt:  P07996 Structure PDB LinkDB All DBs Position 15:39581079..39599466 Genome browser AA seq 1170 aa AA seqDB search MGLAWGLGVLFLMHVCGTNRIPESGGDNSVFDIFELTGAARKGSGRRLVKGPDPSSPAFR IEDANLIPPVPDDKFQDLVDAVRAEKGFLLLASLRQMKKTRGTLLALERKDHSGQVFSVV SNGKAGTLDLSLTVQGKQHVVSVEEALLATGQWKSITLFVQEDRAQLYIDCEKMENAELD VPIQSVFTRDLASIARLRIAKGGVNDNFQGVLQNVRFVFGTTPEDILRNKGCSSSTSVLL TLDNNVVNGSSPAIRTNYIGHKTKDLQAICGISCDELSSMVLELRGLRTIVTTLQDSIRK VTEENKELANELRRPPLCYHNGVQYRNNEEWTVDSCTECHCQNSVTICKKVSCPIMPCSN ATVPDGECCPRCWPSDSADDGWSPWSEWTSCSTSCGNGIQQRGRSCDSLNNRCEGSSVQT RTCHIQECDKRFKQDGGWSHWSPWSSCSVTCGDGVITRIRLCNSPSPQMNGKPCEGEARE TKACKKDACPINGGWGPWSPWDICSVTCGGGVQKRSRLCNNPTPQFGGKDCVGDVTENQI CNKQDCPIDGCLSNPCFAGVKCTSYPDGSWKCGACPPGYSGNGIQCTDVDECKEVPDACF NHNGEHRCENTDPGYNCLPCPPRFTGSQPFGQGVEHATANKQVCKPRNPCTDGTHDCNKN AKCNYLGHYSDPMYRCECKPGYAGNGIICGEDTDLDGWPNENLVCVANATYHCKKDNCPN LPNSGQEDYDKDGIGDACDDDDDNDKIPDDRDNCPFHYNPAQYDYDRDDVGDRCDNCPYN HNPDQADTDNNGEGDACAADIDGDGILNERDNCQYVYNVDQRDTDMDGVGDQCDNCPLEH NPDQLDSDSDRIGDTCDNNQDIDEDGHQNNLDNCPYVPNANQADHDKDGKGDACDHDDDN DGIPDDKDNCRLVPNPDQKDSDGDGRGDACKDDFDHDSVPDIDDICPENVDISETDFRRF QMIPLDPKGTSQNDPNWVVRHQGKELVQTVNCDPGLAVGYDEFNAVDFSGTFFINTERDD DYAGFVFGYQSSSRFYVVMWKQVTQSYWDTNPTRAQGYSGLSVKVVNSTTGPGEHLRNAL WHTGNTPGQVRTLWHDPRHIGWKDFTAYRWRLSHRPKTGFIRVVMYEGKKIMADSGPIYD KTYAGGRLGLFVFSQEMVFFSDLKYECRDP NT seq 3513 nt NT seq  +upstreamnt  +downstreamnt atggggctggcctggggactaggcgtcctgttcctgatgcatgtgtgtggcaccaaccgc attccagagtctggcggagacaacagcgtgtttgacatctttgaactcaccggggccgcc cgcaaggggtctgggcgccgactggtgaagggccccgacccttccagcccagctttccgc atcgaggatgccaacctgatcccccctgtgcctgatgacaagttccaagacctggtggat gctgtgcgggcagaaaagggtttcctccttctggcatccctgaggcagatgaagaagacc cggggcacgctgctggccctggagcggaaagaccactctggccaggtcttcagcgtggtg tccaatggcaaggcgggcaccctggacctcagcctgaccgtccaaggaaagcagcacgtg gtgtctgtggaagaagctctcctggcaaccggccagtggaagagcatcaccctgtttgtg caggaagacagggcccagctgtacatcgactgtgaaaagatggagaatgctgagttggac gtccccatccaaagcgtcttcaccagagacctggccagcatcgccagactccgcatcgca aaggggggcgtcaatgacaatttccagggggtgctgcagaatgtgaggtttgtctttgga accacaccagaagacatcctcaggaacaaaggctgctccagctctaccagtgtcctcctc acccttgacaacaacgtggtgaatggttccagccctgccatccgcactaactacattggc cacaagacaaaggacttgcaagccatctgcggcatctcctgtgatgagctgtccagcatg gtcctggaactcaggggcctgcgcaccattgtgaccacgctgcaggacagcatccgcaaa gtgactgaagagaacaaagagttggccaatgagctgaggcggcctcccctatgctatcac aacggagttcagtacagaaataacgaggaatggactgttgatagctgcactgagtgtcac tgtcagaactcagttaccatctgcaaaaaggtgtcctgccccatcatgccctgctccaat gccacagttcctgatggagaatgctgtcctcgctgttggcccagcgactctgcggacgat ggctggtctccatggtccgagtggacctcctgttctacgagctgtggcaatggaattcag cagcgcggccgctcctgcgatagcctcaacaaccgatgtgagggctcctcggtccagaca cggacctgccacattcaggagtgtgacaagagatttaaacaggatggtggctggagccac tggtccccgtggtcatcttgttctgtgacatgtggtgatggtgtgatcacaaggatccgg ctctgcaactctcccagcccccagatgaacgggaaaccctgtgaaggcgaagcgcgggag accaaagcctgcaagaaagacgcctgccccatcaatggaggctggggtccttggtcacca tgggacatctgttctgtcacctgtggaggaggggtacagaaacgtagtcgtctctgcaac aaccccacaccccagtttggaggcaaggactgcgttggtgatgtaacagaaaaccagatc tgcaacaagcaggactgtccaattgatggatgcctgtccaatccctgctttgccggcgtg aagtgtactagctaccctgatggcagctggaaatgtggtgcttgtccccctggttacagt ggaaatggcatccagtgcacagatgttgatgagtgcaaagaagtgcctgatgcctgcttc aaccacaatggagagcaccggtgtgagaacacggaccccggctacaactgcctgccctgc cccccacgcttcaccggctcacagcccttcggccagggtgtcgaacatgccacggccaac aaacaggtgtgcaagccccgtaacccctgcacggatgggacccacgactgcaacaagaac gccaagtgcaactacctgggccactatagcgaccccatgtaccgctgcgagtgcaagcct ggctacgctggcaatggcatcatctgcggggaggacacagacctggatggctggcccaat gagaacctggtgtgcgtggccaatgcgacttaccactgcaaaaaggataattgccccaac cttcccaactcagggcaggaagactatgacaaggatggaattggtgatgcctgtgatgat gacgatgacaatgataaaattccagatgacagggacaactgtccattccattacaaccca gctcagtatgactatgacagagatgatgtgggagaccgctgtgacaactgtccctacaac cacaacccagatcaggcagacacagacaacaatggggaaggagacgcctgtgctgcagac attgatggagacggtatcctcaatgaacgggacaactgccagtacgtctacaatgtggac cagagagacactgatatggatggggttggagatcagtgtgacaattgccccttggaacac aatccggatcagctggactctgactcagaccgcattggagatacctgtgacaacaatcag gatattgatgaagatggccaccagaacaatctggacaactgtccctatgtgcccaatgcc aaccaggctgaccatgacaaagatggcaagggagatgcctgtgaccacgatgatgacaac gatggcattcctgatgacaaggacaactgcagactcgtgcccaatcccgaccagaaggac tctgacggcgatggtcgaggtgatgcctgcaaagatgattttgaccatgacagtgtgcca gacatcgatgacatctgtcctgagaatgttgacatcagtgagaccgatttccgccgattc cagatgattcctctggaccccaaagggacatcccaaaatgaccctaactgggttgtacgc catcagggtaaagaactcgtccagactgtcaactgtgatcctggactcgctgtaggttat gatgagtttaatgctgtggacttcagtggcaccttcttcatcaacaccgaaagggacgat gactatgctggatttgtctttggctaccagtccagcagccgcttttatgttgtgatgtgg aagcaagtcacccagtcctactgggacaccaaccccacgagggctcagggatactcgggc ctttctgtgaaagttgtaaactccaccacagggcctggcgagcacctgcggaacgccctg tggcacacaggaaacacccctggccaggtgcgcaccctgtggcatgaccctcgtcacata ggctggaaagatttcaccgcctacagatggcgtctcagccacaggccaaagacgggtttc attagagtggtgatgtatgaagggaagaaaatcatggctgactcaggacccatctatgat aaaacctatgctggtggtagactagggttgtttgtcttctctcaagaaatggtgttcttc tctgacctgaaatacgaatgtagagatccctaa

Homo sapiens (human): 7058 Help Entry 7058              CDS       T01001                                  Symbol THBS2, TSP2 Name (RefSeq) thrombospondin 2   KO K04659   thrombospondin 2/3/4/5 Organism hsa  Homo sapiens (human) Pathway hsa04145   Phagosome hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa05144   Malaria hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Disease H02539   Intervertebral disc disease Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     7058 (THBS2)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     7058 (THBS2)  09140 Cellular Processes   09141 Transport and catabolism    04145 Phagosome     7058 (THBS2)   09144 Cellular community - eukaryotes    04510 Focal adhesion     7058 (THBS2)   09142 Cell motility    04820 Cytoskeleton in muscle cells     7058 (THBS2)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     7058 (THBS2)   09174 Infectious disease: parasitic    05144 Malaria     7058 (THBS2)  09180 Brite Hierarchies   09182 Protein families: genetic information processing    04131 Membrane trafficking [BR:hsa04131]     7058 (THBS2)   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     7058 (THBS2)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     7058 (THBS2) Membrane trafficking [BR:hsa04131]  Endocytosis   Phagocytosis    Opsonins     7058 (THBS2) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    7058 (THBS2)   Exosomal proteins of colorectal cancer cells    7058 (THBS2)   Exosomal proteins of bladder cancer cells    7058 (THBS2) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    7058 (THBS2) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  TSP_C TSP_3 TSP_1 TSP1_spondin VWC EGF_3 TSP1_ADAMTS EGF cEGF TSP1_CCN Laminin_G_2 Motif Other DBs NCBI-GeneID:  7058 NCBI-ProteinID:  NP_003238 OMIM:  188061 HGNC:  11786 Ensembl:  ENSG00000186340 UniProt:  P35442 Structure PDB LinkDB All DBs Position 6:complement(169215785..169253846) Genome browser AA seq 1172 aa AA seqDB search MVWRLVLLALWVWPSTQAGHQDKDTTFDLFSISNINRKTIGAKQFRGPDPGVPAYRFVRF DYIPPVNADDLSKITKIMRQKEGFFLTAQLKQDGKSRGTLLALEGPGLSQRQFEIVSNGP ADTLDLTYWIDGTRHVVSLEDVGLADSQWKNVTVQVAGETYSLHVGCDLIDSFALDEPFY EHLQAEKSRMYVAKGSARESHFRGLLQNVHLVFENSVEDILSKKGCQQGQGAEINAISEN TETLRLGPHVTTEYVGPSSERRPEVCERSCEELGNMVQELSGLHVLVNQLSENLKRVSND NQFLWELIGGPPKTRNMSACWQDGRFFAENETWVVDSCTTCTCKKFKTICHQITCPPATC ASPSFVEGECCPSCLHSVDGEEGWSPWAEWTQCSVTCGSGTQQRGRSCDVTSNTCLGPSI QTRACSLSKCDTRIRQDGGWSHWSPWSSCSVTCGVGNITRIRLCNSPVPQMGGKNCKGSG RETKACQGAPCPIDGRWSPWSPWSACTVTCAGGIRERTRVCNSPEPQYGGKACVGDVQER QMCNKRSCPVDGCLSNPCFPGAQCSSFPDGSWSCGSCPVGFLGNGTHCEDLDECALVPDI CFSTSKVPRCVNTQPGFHCLPCPPRYRGNQPVGVGLEAAKTEKQVCEPENPCKDKTHNCH KHAECIYLGHFSDPMYKCECQTGYAGDGLICGEDSDLDGWPNLNLVCATNATYHCIKDNC PHLPNSGQEDFDKDGIGDACDDDDDNDGVTDEKDNCQLLFNPRQADYDKDEVGDRCDNCP YVHNPAQIDTDNNGEGDACSVDIDGDDVFNERDNCPYVYNTDQRDTDGDGVGDHCDNCPL VHNPDQTDVDNDLVGDQCDNNEDIDDDGHQNNQDNCPYISNANQADHDRDGQGDACDPDD DNDGVPDDRDNCRLVFNPDQEDLDGDGRGDICKDDFDNDNIPDIDDVCPENNAISETDFR NFQMVPLDPKGTTQIDPNWVIRHQGKELVQTANSDPGIAVGFDEFGSVDFSGTFYVNTDR DDDYAGFVFGYQSSSRFYVVMWKQVTQTYWEDQPTRAYGYSGVSLKVVNSTTGTGEHLRN ALWHTGNTPGQVRTLWHDPRNIGWKDYTAYRWHLTHRPKTGYIRVLVHEGKQVMADSGPI YDQTYAGGRLGLFVFSQEMVYFSDLKYECRDI NT seq 3519 nt NT seq  +upstreamnt  +downstreamnt atggtctggaggctggtcctgctggctctgtgggtgtggcccagcacgcaagctggtcac caggacaaagacacgaccttcgaccttttcagtatcagcaacatcaaccgcaagaccatt ggcgccaagcagttccgcgggcccgaccccggcgtgccggcttaccgcttcgtgcgcttt gactacatcccaccggtgaacgcagatgacctcagcaagatcaccaagatcatgcggcag aaggagggcttcttcctcacggcccagctcaagcaggacggcaagtccaggggcacgctg ttggctctggagggccccggtctctcccagaggcagttcgagatcgtctccaacggcccc gcggacacgctggatctcacctactggattgacggcacccggcatgtggtctccctggag gacgtcggcctggctgactcgcagtggaagaacgtcaccgtgcaggtggctggcgagacc tacagcttgcacgtgggctgcgacctcatagacagcttcgctctggacgagcccttctac gagcacctgcaggcggaaaagagccggatgtacgtggccaaaggctctgccagagagagt cacttcaggggtttgcttcagaacgtccacctagtgtttgaaaactctgtggaagatatt ctaagcaagaagggttgccagcaaggccagggagctgagatcaacgccatcagtgagaac acagagacgctgcgcctgggtccgcatgtcaccaccgagtacgtgggccccagctcggag aggaggcccgaggtgtgcgaacgctcgtgcgaggagctgggaaacatggtccaggagctc tcggggctccacgtcctcgtgaaccagctcagcgagaacctcaagagagtgtcgaatgat aaccagtttctctgggagctcattggtggccctcctaagacaaggaacatgtcagcttgc tggcaggatggccggttctttgcggaaaatgaaacgtgggtggtggacagctgcaccacg tgtacctgcaagaaatttaaaaccatttgccaccaaatcacctgcccgcctgcaacctgc gccagtccatcctttgtggaaggcgaatgctgcccttcctgcctccactcggtggacggt gaggagggctggtctccgtgggcagagtggacccagtgctccgtgacgtgtggctctggg acccagcagagaggccggtcctgtgacgtcaccagcaacacctgcttggggccctccatc cagacacgggcttgcagtctgagcaagtgtgacacccgcatccggcaggacggcggctgg agccactggtcaccttggtcttcatgctctgtgacctgtggagttggcaatatcacacgc atccgtctctgcaactccccagtgccccagatggggggcaagaattgcaaagggagtggc cgggagaccaaagcctgccagggcgccccatgcccaatcgatggccgctggagcccctgg tccccgtggtcggcctgcactgtcacctgtgccggtgggatccgggagcgcacccgggtc tgcaacagccctgagcctcagtacggagggaaggcctgcgtgggggatgtgcaggagcgt cagatgtgcaacaagaggagctgccccgtggatggctgtttatccaacccctgcttcccg ggagcccagtgcagcagcttccccgatgggtcctggtcatgcggctcctgccctgtgggc ttcttgggcaatggcacccactgtgaggacctggacgagtgtgccctggtccccgacatc tgcttctccaccagcaaggtgcctcgctgtgtcaacactcagcctggcttccactgcctg ccctgcccgccccgatacagagggaaccagcccgtcggggtcggcctggaagcagccaag acggaaaagcaagtgtgtgagcccgaaaacccatgcaaggacaagacacacaactgccac aagcacgcggagtgcatctacctgggccacttcagcgaccccatgtacaagtgcgagtgc cagacaggctacgcgggcgacgggctcatctgcggggaggactcggacctggacggctgg cccaacctcaatctggtctgcgccaccaacgccacctaccactgcatcaaggataactgc ccccatctgccaaattctgggcaggaagactttgacaaggacgggattggcgatgcctgt gatgatgacgatgacaatgacggtgtgaccgatgagaaggacaactgccagctcctcttc aatccccgccaggctgactatgacaaggatgaggttggggaccgctgtgacaactgccct tacgtgcacaaccctgcccagatcgacacagacaacaatggagagggtgacgcctgctcc gtggacattgatggggacgatgtcttcaatgaacgagacaattgtccctacgtctacaac actgaccagagggacacggatggtgacggtgtgggggatcactgtgacaactgccccctg gtgcacaaccctgaccagaccgacgtggacaatgaccttgttggggaccagtgtgacaac aacgaggacatagatgacgacggccaccagaacaaccaggacaactgcccctacatctcc aacgccaaccaggctgaccatgacagagacggccagggcgacgcctgtgaccctgatgat gacaacgatggcgtccccgatgacagggacaactgccggcttgtgttcaacccagaccag gaggacttggacggtgatggacggggtgatatttgtaaagatgattttgacaatgacaac atcccagatattgatgatgtgtgtcctgaaaacaatgccatcagtgagacagacttcagg aacttccagatggtccccttggatcccaaagggaccacccaaattgatcccaactgggtc attcgccatcaaggcaaggagctggttcagacagccaactcggaccccggcatcgctgta ggttttgacgagtttgggtctgtggacttcagtggcacattctacgtaaacactgaccgg gacgacgactatgccggcttcgtctttggttaccagtcaagcagccgcttctatgtggtg atgtggaagcaggtgacgcagacctactgggaggaccagcccacgcgggcctatggctac tccggcgtgtccctcaaggtggtgaactccaccacggggacgggcgagcacctgaggaac gcgctgtggcacacggggaacacgccggggcaggtgcgaaccttatggcacgaccccagg aacattggctggaaggactacacggcctataggtggcacctgactcacaggcccaagact ggctacatcagagtcttagtgcatgaaggaaaacaggtcatggcagactcaggacctatc tatgaccaaacctacgctggcgggcggctgggtctatttgtcttctctcaagaaatggtc tatttctcagacctcaagtacgaatgcagagatatttaa

Homo sapiens (human): 7059 Help Entry 7059              CDS       T01001                                  Symbol THBS3, TSP3 Name (RefSeq) thrombospondin 3   KO K04659   thrombospondin 2/3/4/5 Organism hsa  Homo sapiens (human) Pathway hsa04145   Phagosome hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa05144   Malaria hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     7059 (THBS3)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     7059 (THBS3)  09140 Cellular Processes   09141 Transport and catabolism    04145 Phagosome     7059 (THBS3)   09144 Cellular community - eukaryotes    04510 Focal adhesion     7059 (THBS3)   09142 Cell motility    04820 Cytoskeleton in muscle cells     7059 (THBS3)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     7059 (THBS3)   09174 Infectious disease: parasitic    05144 Malaria     7059 (THBS3)  09180 Brite Hierarchies   09182 Protein families: genetic information processing    04131 Membrane trafficking [BR:hsa04131]     7059 (THBS3)   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     7059 (THBS3)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     7059 (THBS3) Membrane trafficking [BR:hsa04131]  Endocytosis   Phagocytosis    Opsonins     7059 (THBS3) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    7059 (THBS3)   Exosomal proteins of colorectal cancer cells    7059 (THBS3)   Exosomal proteins of bladder cancer cells    7059 (THBS3) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    7059 (THBS3) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  TSP_C TSP_3 COMP EGF_CA EGF_3 cEGF EGF EGF_MSP1_1 Motif Other DBs NCBI-GeneID:  7059 NCBI-ProteinID:  NP_009043 OMIM:  188062 HGNC:  11787 Ensembl:  ENSG00000169231 UniProt:  P49746 LinkDB All DBs Position 1:complement(155195588..155209178) Genome browser AA seq 956 aa AA seqDB search METQELRGALALLLLCFFTSASQDLQVIDLLTVGESRQMVAVAEKIRTALLTAGDIYLLS TFRLPPKQGGVLFGLYSRQDNTRWLEASVVGKINKVLVRYQREDGKVHAVNLQQAGLADG RTHTVLLRLRGPSRPSPALHLYVDCKLGDQHAGLPALAPIPPAEVDGLEIRTGQKAYLRM QGFVESMKIILGGSMARVGALSECPFQGDESIHSAVTNALHSILGEQTKALVTQLTLFNQ ILVELRDDIRDQVKEMSLIRNTIMECQVCGFHEQRSHCSPNPCFRGVDCMEVYEYPGYRC GPCPPGLQGNGTHCSDINECAHADPCFPGSSCINTMPGFHCEACPRGYKGTQVSGVGIDY ARASKQVCNDIDECNDGNNGGCDPNSICTNTVGSFKCGPCRLGFLGNQSQGCLPARTCHS PAHSPCHIHAHCLFERNGAVSCQCNVGWAGNGNVCGTDTDIDGYPDQALPCMDNNKHCKQ DNCLLTPNSGQEDADNDGVGDQCDDDADGDGIKNVEDNCRLFPNKDQQNSDTDSFGDACD NCPNVPNNDQKDTDGNGEGDACDNDVDGDGIPNGLDNCPKVPNPLQTDRDEDGVGDACDS CPEMSNPTQTDADSDLVGDVCDTNEDSDGDGHQDTKDNCPQLPNSSQLDSDNDGLGDECD GDDDNDGIPDYVPPGPDNCRLVPNPNQKDSDGNGVGDVCEDDFDNDAVVDPLDVCPESAE VTLTDFRAYQTVVLDPEGDAQIDPNWVVLNQGMEIVQTMNSDPGLAVGYTAFNGVDFEGT FHVNTVTDDDYAGFLFSYQDSGRFYVVMWKQTEQTYWQATPFRAVAQPGLQLKAVTSVSG PGEHLRNALWHTGHTPDQVRLLWTDPRNVGWRDKTSYRWQLLHRPQVGYIRVKLYEGPQL VADSGVIIDTSMRGGRLGVFCFSQENIIWSNLQYRCNDTVPEDFEPFRRQLLQGRV NT seq 2871 nt NT seq  +upstreamnt  +downstreamnt atggagacgcaggaacttcggggggccctggctcttctcctcctttgctttttcacatct gccagtcaggatctgcaggtaattgacctgctgactgtgggcgagtctcggcagatggta gctgtggcagagaagatccggacagccttgctcactgctggggacatctacctcttatcc accttccgcctgccccccaagcagggtggtgtcctctttggcctctattctcgccaagac aacactcgatggctggaggcctctgttgtaggcaagatcaacaaagtactggtgcgatac cagcgggaggatggcaaagtccacgccgtgaacctacagcaagcgggcctggctgatggg cgcacacacacagttctcctgcgactccgaggtccctccagacccagccctgccctacat ctctacgtggactgcaaactgggtgaccaacatgcaggccttccagcactggcccccatt cctccagcggaggtcgatgggctggagattaggactggacagaaggcgtatttgaggatg cagggctttgtggaatctatgaaaattattctgggtgggtccatggcccgggtaggagcc ctgagtgagtgtccattccaaggggacgagtccatccacagtgcagtgaccaatgcactg cactccattctaggggagcagaccaaggcgctggtcacccaactcaccctcttcaaccag atcctggtggagctgcgggatgatatacgagaccaggtgaaggaaatgtccctgatccga aacaccattatggagtgtcaggtgtgcggcttccatgagcagcgttcccactgcagcccc aatccctgcttccgaggtgtggactgcatggaagtgtacgagtacccaggctaccgctgt gggccctgcccccctggcctgcagggcaacggcacccactgcagtgacatcaatgagtgt gctcacgctgacccctgtttcccgggctccagctgcatcaacaccatgcccggcttccac tgtgaggcctgtcctcgagggtacaagggcacacaggtgtctggtgtgggcattgactat gcccgggccagcaaacaggtctgcaatgacatcgatgaatgcaacgatggcaacaatggt ggctgtgacccaaactccatctgcaccaacactgtgggctctttcaagtgtggtccctgc cgcctgggtttcctgggcaaccagagccagggctgcctcccagcccggacctgccacagc ccagcccacagcccctgccacatccatgctcactgtctctttgaacgcaatggtgcagtg tcctgccagtgtaacgtgggctgggctgggaatgggaacgtgtgtgggactgacacagac atcgatggctacccagaccaagcactgccctgcatggacaacaacaaacactgcaaacag gacaactgccttttgacacccaactctgggcaggaagatgctgataatgatggtgtgggg gaccagtgtgatgatgatgctgatggggatgggatcaagaatgttgaggacaactgccgg ctgttccccaacaaagaccagcagaactcagatacagattcatttggtgatgcctgtgac aattgccccaacgttcccaacaatgaccagaaggacacagatggcaatggggaaggagat gcctgtgacaacgacgtggatggggatggcatccccaatggattggacaattgccctaaa gtccccaacccactacagacagacagggatgaggacggggtgggagatgcttgcgacagc tgccctgaaatgagcaatcctacccagacagatgcagacagcgacctggtgggggatgtc tgtgatactaatgaagacagcgatggggatgggcatcaggacaccaaggacaactgccca cagctgccaaatagctcccagctggactctgataacgatggacttggagatgagtgtgat ggggatgatgacaatgatggcatcccagattatgtgcctcctggtcccgataactgccgc ctggtacccaatcccaatcagaaggactcagatggcaatggcgttggtgatgtgtgtgag gatgactttgacaatgatgctgtggtcgaccccctggatgtgtgtcctgaaagtgcagag gtaacgcttacggattttcgggcctatcagaccgtcgtcctggatcctgagggtgatgct cagattgacccaaactgggttgtgctcaaccagggcatggaaatcgttcagaccatgaac agtgaccctggcttggcagttggatacacggccttcaatggtgtggactttgaaggcacc ttccatgtgaacacagtgactgatgatgactacgcaggctttctcttcagttatcaagac agtggccgcttctacgtagtcatgtggaagcagaccgagcagacctactggcaggctaca cccttccgggcggttgcccagcccgggctgcagctcaaggcagtgacatcagtgtctggc ccaggtgagcacctccgaaatgccctgtggcatactggccacacccctgatcaggtacga ctgctgtggacagacccacgaaatgtgggctggcgggacaagacctcctatcgctggcag cttctgcaccggcctcaagttggctacattcgggtgaagctctatgagggaccccagctt gtggcggattctggggtgatcattgacacatccatgcgaggggggcgtcttggtgtattc tgcttctcccaagaaaacataatttggtccaatctccagtatcgatgcaatgacacagtg cctgaggactttgagccattccggaggcagctgctccagggaagggtgtga

Homo sapiens (human): 7060 Help Entry 7060              CDS       T01001                                  Symbol THBS4, TSP-4, TSP4 Name (RefSeq) thrombospondin 4   KO K04659   thrombospondin 2/3/4/5 Organism hsa  Homo sapiens (human) Pathway hsa04145   Phagosome hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa05144   Malaria hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     7060 (THBS4)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     7060 (THBS4)  09140 Cellular Processes   09141 Transport and catabolism    04145 Phagosome     7060 (THBS4)   09144 Cellular community - eukaryotes    04510 Focal adhesion     7060 (THBS4)   09142 Cell motility    04820 Cytoskeleton in muscle cells     7060 (THBS4)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     7060 (THBS4)   09174 Infectious disease: parasitic    05144 Malaria     7060 (THBS4)  09180 Brite Hierarchies   09182 Protein families: genetic information processing    04131 Membrane trafficking [BR:hsa04131]     7060 (THBS4)   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     7060 (THBS4)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     7060 (THBS4) Membrane trafficking [BR:hsa04131]  Endocytosis   Phagocytosis    Opsonins     7060 (THBS4) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    7060 (THBS4)   Exosomal proteins of colorectal cancer cells    7060 (THBS4)   Exosomal proteins of bladder cancer cells    7060 (THBS4) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    7060 (THBS4) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  TSP_C TSP_3 COMP EGF_3 EGF cEGF Motif Other DBs NCBI-GeneID:  7060 NCBI-ProteinID:  NP_003239 OMIM:  600715 HGNC:  11788 Ensembl:  ENSG00000113296 UniProt:  P35443 LinkDB All DBs Position 5:79991332..80083287 Genome browser AA seq 961 aa AA seqDB search MLAPRGAAVLLLHLVLQRWLAAGAQATPQVFDLLPSSSQRLNPGALLPVLTDPALNDLYV ISTFKLQTKSSATIFGLYSSTDNSKYFEFTVMGRLNKAILRYLKNDGKVHLVVFNNLQLA DGRRHRILLRLSNLQRGAGSLELYLDCIQVDSVHNLPRAFAGPSQKPETIELRTFQRKPQ DFLEELKLVVRGSLFQVASLQDCFLQQSEPLAATGTGDFNRQFLGQMTQLNQLLGEVKDL LRQQVKETSFLRNTIAECQACGPLKFQSPTPSTVVPPAPPAPPTRPPRRCDSNPCFRGVQ CTDSRDGFQCGPCPEGYTGNGITCIDVDECKYHPCYPGVHCINLSPGFRCDACPVGFTGP MVQGVGISFAKSNKQVCTDIDECRNGACVPNSICVNTLGSYRCGPCKPGYTGDQIRGCKA ERNCRNPELNPCSVNAQCIEERQGDVTCVCGVGWAGDGYICGKDVDIDSYPDEELPCSAR NCKKDNCKYVPNSGQEDADRDGIGDACDEDADGDGILNEQDNCVLIHNVDQRNSDKDIFG DACDNCLSVLNNDQKDTDGDGRGDACDDDMDGDGIKNILDNCPKFPNRDQRDKDGDGVGD ACDSCPDVSNPNQSDVDNDLVGDSCDTNQDSDGDGHQDSTDNCPTVINSAQLDTDKDGIG DECDDDDDNDGIPDLVPPGPDNCRLVPNPAQEDSNSDGVGDICESDFDQDQVIDRIDVCP ENAEVTLTDFRAYQTVVLDPEGDAQIDPNWVVLNQGMEIVQTMNSDPGLAVGYTAFNGVD FEGTFHVNTQTDDDYAGFIFGYQDSSSFYVVMWKQTEQTYWQATPFRAVAEPGIQLKAVK SKTGPGEHLRNSLWHTGDTSDQVRLLWKDSRNVGWKDKVSYRWFLQHRPQVGYIRVRFYE GSELVADSGVTIDTTMRGGRLGVFCFSQENIIWSNLKYRCNDTIPEDFQEFQTQNFDRFD N NT seq 2886 nt NT seq  +upstreamnt  +downstreamnt atgctggccccgcgcggagccgccgtcctcctgctgcacctggtcctgcagcggtggcta gcggcaggcgcccaggccaccccccaggtctttgaccttctcccatcttccagtcagagg ctaaacccaggcgctctgctgccagtcctgacagaccccgccctgaatgatctctatgtg atttccaccttcaagctgcagactaaaagttcagccaccatcttcggtctttactcttca actgacaacagtaaatattttgaatttactgtgatgggacgcttaaacaaagccatcctc cgttacctgaagaacgatgggaaggtgcatttggtggttttcaacaacctgcagctggca gacggaaggcggcacaggatcctcctgaggctgagcaatttgcagcgaggggccggctcc ctagagctctacctggactgcatccaggtggattccgttcacaatctccccagggccttt gctggcccctcccagaaacctgagaccattgaattgaggactttccagaggaagccacag gacttcttggaagagctgaagctggtggtgagaggctcactgttccaggtggccagcctg caagactgcttcctgcagcagagtgagccactggctgccacaggcacaggggactttaac cggcagttcttgggtcaaatgacacaattaaaccaactcctgggagaggtgaaggacctt ctgagacagcaggttaaggaaacatcatttttgcgaaacaccatagctgaatgccaggct tgcggtcctctcaagtttcagtctccgaccccaagcacggtggtgcccccggctccccct gcaccgccaacacgcccacctcgtcggtgtgactccaacccatgtttccgaggtgtccaa tgtaccgacagtagagatggcttccagtgtgggccctgccccgagggctacacaggaaac gggatcacctgtattgatgttgatgagtgcaaataccatccctgctacccgggcgtgcac tgcataaatttgtctcctggcttcagatgtgacgcctgcccagtgggcttcacagggccc atggtgcagggtgttgggatcagttttgccaagtcaaacaagcaggtctgcactgacatt gatgagtgtcgaaatggagcgtgcgttcccaactcgatctgcgttaatactttgggatct taccgctgtgggccttgtaagccggggtatactggtgatcagataaggggatgcaaagcg gaaagaaactgcagaaacccagagctgaacccttgcagtgtgaatgcccagtgcattgaa gagaggcagggggatgtgacatgtgtgtgtggagtcggttgggctggagatggctatatc tgtggaaaggatgtggacatcgacagttaccccgacgaagaactgccatgctctgccagg aactgtaaaaaggacaactgcaaatatgtgccaaattctggccaagaagatgcagacaga gatggcattggcgacgcttgtgacgaggatgctgacggagatgggatcctgaatgagcag gataactgtgtcctgattcataatgtggaccaaaggaacagcgataaagatatctttggg gatgcctgtgataactgcctgagtgtcttaaataacgaccagaaagacaccgatggggat ggaagaggagatgcctgtgatgatgacatggatggagatggaataaaaaacattctggac aactgcccaaaatttcccaatcgtgaccaacgggacaaggatggtgatggtgtgggggat gcctgtgacagttgtcctgatgtcagcaaccctaaccagtctgatgtggataatgatctg gttggggactcctgtgacaccaatcaggacagtgatggagatgggcaccaggacagcaca gacaactgccccaccgtcattaacagtgcccagctggacaccgataaggatggaattggt gacgagtgtgatgatgatgatgacaatgatggtatcccagacctggtgccccctggacca gacaactgccggctggtccccaacccagcccaggaggatagcaacagcgacggagtggga gacatctgtgagtctgactttgaccaggaccaggtcatcgatcggatcgacgtctgccca gagaacgcagaggtcaccctgaccgacttcagggcttaccagaccgtggtcctggatcct gaaggggatgcccagatcgatcccaactgggtggtcctgaaccagggcatggagattgta cagaccatgaacagtgatcctggcctggcagtggggtacacagcttttaatggagttgac ttcgaagggaccttccatgtgaatacccagacagatgatgactatgcaggctttatcttt ggctaccaagatagctccagcttctacgtggtcatgtggaagcagacggagcagacatat tggcaagccaccccattccgagcagttgcagaacctggcattcagctcaaggctgtgaag tctaagacaggtccaggggagcatctccggaactccctgtggcacacgggggacaccagt gaccaggtcaggctgctgtggaaggactccaggaatgtgggctggaaggacaaggtgtcc taccgctggttcctacagcacaggccccaggtgggctacatcagggtacgattttatgaa ggctctgagttggtggctgactctggcgtcaccatagacaccacaatgcgtggaggccga cttggcgttttctgcttctctcaagaaaacatcatctggtccaacctcaagtatcgctgc aatgacaccatccctgaggacttccaagagtttcaaacccagaatttcgaccgcttcgat aattaa

Homo sapiens (human): 1311 Help Entry 1311              CDS       T01001                                  Symbol COMP, CTS2, EDM1, EPD1, MED, PSACH, THBS5, TSP-5, TSP5 Name (RefSeq) cartilage oligomeric matrix protein   KO K04659   thrombospondin 2/3/4/5 Organism hsa  Homo sapiens (human) Pathway hsa04145   Phagosome hsa04151   PI3K-Akt signaling pathway hsa04510   Focal adhesion hsa04512   ECM-receptor interaction hsa04820   Cytoskeleton in muscle cells hsa05144   Malaria hsa05165   Human papillomavirus infection Network nt06539  Cytoskeleton in muscle cells   Element N01814   Extracellular matrix - Basal lamina Disease H00476   Multiple epiphyseal dysplasia H00477   Pseudoachondroplasia H00798   Familial carpal tunnel syndrome Brite KEGG Orthology (KO) [BR:hsa00001]  09130 Environmental Information Processing   09132 Signal transduction    04151 PI3K-Akt signaling pathway     1311 (COMP)   09133 Signaling molecules and interaction    04512 ECM-receptor interaction     1311 (COMP)  09140 Cellular Processes   09141 Transport and catabolism    04145 Phagosome     1311 (COMP)   09144 Cellular community - eukaryotes    04510 Focal adhesion     1311 (COMP)   09142 Cell motility    04820 Cytoskeleton in muscle cells     1311 (COMP)  09160 Human Diseases   09172 Infectious disease: viral    05165 Human papillomavirus infection     1311 (COMP)   09174 Infectious disease: parasitic    05144 Malaria     1311 (COMP)  09180 Brite Hierarchies   09182 Protein families: genetic information processing    04131 Membrane trafficking [BR:hsa04131]     1311 (COMP)   09183 Protein families: signaling and cellular processes    04147 Exosome [BR:hsa04147]     1311 (COMP)    00536 Glycosaminoglycan binding proteins [BR:hsa00536]     1311 (COMP) Membrane trafficking [BR:hsa04131]  Endocytosis   Phagocytosis    Opsonins     1311 (COMP) Exosome [BR:hsa04147]  Exosomal proteins   Exosomal proteins of other body fluids (saliva and urine)    1311 (COMP)   Exosomal proteins of colorectal cancer cells    1311 (COMP)   Exosomal proteins of bladder cancer cells    1311 (COMP) Glycosaminoglycan binding proteins [BR:hsa00536]  Heparan sulfate / Heparin   Extracellular matrix molecules    1311 (COMP) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  TSP_C TSP_3 EGF_CA EGF_3 COMP cEGF EGF_MSP1_1 EGF Motif Other DBs NCBI-GeneID:  1311 NCBI-ProteinID:  NP_000086 OMIM:  600310 HGNC:  2227 Ensembl:  ENSG00000105664 UniProt:  P49747 Structure PDB LinkDB All DBs Position 19:complement(18782773..18791305) Genome browser AA seq 757 aa AA seqDB search MVPDTACVLLLTLAALGASGQGQSPLGSDLGPQMLRELQETNAALQDVRELLRQQVREIT FLKNTVMECDACGMQQSVRTGLPSVRPLLHCAPGFCFPGVACIQTESGARCGPCPAGFTG NGSHCTDVNECNAHPCFPRVRCINTSPGFRCEACPPGYSGPTHQGVGLAFAKANKQVCTD INECETGQHNCVPNSVCINTRGSFQCGPCQPGFVGDQASGCQRRAQRFCPDGSPSECHEH ADCVLERDGSRSCVCAVGWAGNGILCGRDTDLDGFPDEKLRCPERQCRKDNCVTVPNSGQ EDVDRDGIGDACDPDADGDGVPNEKDNCPLVRNPDQRNTDEDKWGDACDNCRSQKNDDQK DTDQDGRGDACDDDIDGDRIRNQADNCPRVPNSDQKDSDGDGIGDACDNCPQKSNPDQAD VDHDFVGDACDSDQDQDGDGHQDSRDNCPTVPNSAQEDSDHDGQGDACDDDDDNDGVPDS RDNCRLVPNPGQEDADRDGVGDVCQDDFDADKVVDKIDVCPENAEVTLTDFRAFQTVVLD PEGDAQIDPNWVVLNQGREIVQTMNSDPGLAVGYTAFNGVDFEGTFHVNTVTDDDYAGFI FGYQDSSSFYVVMWKQMEQTYWQANPFRAVAEPGIQLKAVKSSTGPGEQLRNALWHTGDT ESQVRLLWKDPRNVGWKDKKSYRWFLQHRPQVGYIRVRFYEGPELVADSNVVLDTTMRGG RLGVFCFSQENIIWANLRYRCNDTIPEDYETHQLRQA NT seq 2274 nt NT seq  +upstreamnt  +downstreamnt atggtccccgacaccgcctgcgttcttctgctcaccctggctgccctcggcgcgtccgga cagggccagagcccgttgggctcagacctgggcccgcagatgcttcgggaactgcaggaa accaacgcggcgctgcaggacgtgcgggagctgctgcggcagcaggtcagggagatcacg ttcctgaaaaacacggtgatggagtgtgacgcgtgcgggatgcagcagtcagtacgcacc ggcctacccagcgtgcggcccctgctccactgcgcgcccggcttctgcttccccggcgtg gcctgcatccagacggagagcggcgcgcgctgcggcccctgccccgcgggcttcacgggc aacggctcgcactgcaccgacgtcaacgagtgcaacgcccacccctgcttcccccgagtc cgctgtatcaacaccagcccggggttccgctgcgaggcttgcccgccggggtacagcggc cccacccaccagggcgtggggctggctttcgccaaggccaacaagcaggtttgcacggac atcaacgagtgtgagaccgggcaacataactgcgtccccaactccgtgtgcatcaacacc cggggctccttccagtgcggcccgtgccagcccggcttcgtgggcgaccaggcgtccggc tgccagcggcgcgcacagcgcttctgccccgacggctcgcccagcgagtgccacgagcat gcagactgcgtcctagagcgcgatggctcgcggtcgtgcgtgtgtgccgttggctgggcc ggcaacgggatcctctgtggtcgcgacactgacctagacggcttcccggacgagaagctg cgctgcccggagcgccagtgccgtaaggacaactgcgtgactgtgcccaactcagggcag gaggatgtggaccgcgatggcatcggagacgcctgcgatccggatgccgacggggacggg gtccccaatgaaaaggacaactgcccgctggtgcggaacccagaccagcgcaacacggac gaggacaagtggggcgatgcgtgcgacaactgccggtcccagaagaacgacgaccaaaag gacacagaccaggacggccggggcgatgcgtgcgacgacgacatcgacggcgaccggatc cgcaaccaggccgacaactgccctagggtacccaactcagaccagaaggacagtgatggc gatggtataggggatgcctgtgacaactgtccccagaagagcaacccggatcaggcggat gtggaccacgactttgtgggagatgcttgtgacagcgatcaagaccaggatggagacgga catcaggactctcgggacaactgtcccacggtgcctaacagtgcccaggaggactcagac cacgatggccagggtgatgcctgcgacgacgacgacgacaatgacggagtccctgacagt cgggacaactgccgcctggtgcctaaccccggccaggaggacgcggacagggacggcgtg ggcgacgtgtgccaggacgactttgatgcagacaaggtggtagacaagatcgacgtgtgt ccggagaacgctgaagtcacgctcaccgacttcagggccttccagacagtcgtgctggac ccggagggtgacgcgcagattgaccccaactgggtggtgctcaaccagggaagggagatc gtgcagacaatgaacagcgacccaggcctggctgtgggttacactgccttcaatggcgtg gacttcgagggcacgttccatgtgaacacggtcacggatgacgactatgcgggcttcatc tttggctaccaggacagctccagcttctacgtggtcatgtggaagcagatggagcaaacg tattggcaggcgaaccccttccgtgctgtggccgagcctggcatccaactcaaggctgtg aagtcttccacaggccccggggaacagctgcggaacgctctgtggcatacaggagacaca gagtcccaggtgcggctgctgtggaaggacccgcgaaacgtgggttggaaggacaagaag tcctatcgttggttcctgcagcaccggccccaagtgggctacatcagggtgcgattctat gagggccctgagctggtggccgacagcaacgtggtcttggacacaaccatgcggggtggc cgcctgggggtcttctgcttctcccaggagaacatcatctgggccaacctgcgttaccgc tgcaatgacaccatcccagaggactatgagacccatcagctgcggcaagcctag

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