KEGG   Homo sapiens (human): 2335
Entry
2335              CDS       T01001                                 
Symbol
FN1, CIG, ED-B, FINC, FN, FNZ, GFND, GFND2, LETS, MSF, SMDCF
Name
(RefSeq) fibronectin 1
  KO
K05717  fibronectin 1
Organism
hsa  Homo sapiens (human)
Pathway
hsa04151  PI3K-Akt signaling pathway
hsa04510  Focal adhesion
hsa04512  ECM-receptor interaction
hsa04518  Integrin signaling
hsa04810  Regulation of actin cytoskeleton
hsa04820  Cytoskeleton in muscle cells
hsa04933  AGE-RAGE signaling pathway in diabetic complications
hsa05100  Bacterial invasion of epithelial cells
hsa05135  Yersinia infection
hsa05146  Amoebiasis
hsa05165  Human papillomavirus infection
hsa05200  Pathways in cancer
hsa05205  Proteoglycans in cancer
hsa05222  Small cell lung cancer
Network
nt06167  Human cytomegalovirus (HCMV)
nt06180  Pathogenic Escherichia coli
nt06181  Salmonella
nt06182  Shigella
nt06183  Yersinia
nt06539  Cytoskeleton in muscle cells
nt06548  Integrin signaling
  Element
N00393  ITGA/B-RhoGAP-RhoA signaling pathway
N00951  ITGA/B-RHOG-RAC signaling pathway
N01068  ITGA/B-FAK-RAC signaling pathway
N01070  ITGA/B-FAK-CDC42 signaling pathway
N01072  ITGA/B-RhoGEF-RhoA signaling pathway
N01080  ITGA/B-TALIN/VINCULIN signaling pathway
N01814  Extracellular matrix - Basal lamina
N01921  Integrin alpha4beta1 signaling
N01973  Integrin alpha4beta7 signaling
N01977  Integrin alphaDbeta2 signaling
N01979  Integrin alphaIIbbeta3 signaling
N01980  Integrin alpha5beta1 signaling
N01981  Integrin alpha8beta1 signaling
N01982  Integrin alphaVbeta1 signaling
N01983  Integrin alphaVbeta3 signaling
N01985  Integrin alphaVbeta6 signaling
N01986  Integrin alphaVbeta8 signaling
Disease
H01260  Glomerulopathy with fibronectin deposits
H02185  Spondylometaphyseal dysplasia
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04151 PI3K-Akt signaling pathway
    2335 (FN1)
  09133 Signaling molecules and interaction
   04512 ECM-receptor interaction
    2335 (FN1)
   04518 Integrin signaling
    2335 (FN1)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    2335 (FN1)
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    2335 (FN1)
   04810 Regulation of actin cytoskeleton
    2335 (FN1)
 09160 Human Diseases
  09161 Cancer: overview
   05200 Pathways in cancer
    2335 (FN1)
   05205 Proteoglycans in cancer
    2335 (FN1)
  09162 Cancer: specific types
   05222 Small cell lung cancer
    2335 (FN1)
  09172 Infectious disease: viral
   05165 Human papillomavirus infection
    2335 (FN1)
  09171 Infectious disease: bacterial
   05135 Yersinia infection
    2335 (FN1)
   05100 Bacterial invasion of epithelial cells
    2335 (FN1)
  09174 Infectious disease: parasitic
   05146 Amoebiasis
    2335 (FN1)
  09167 Endocrine and metabolic disease
   04933 AGE-RAGE signaling pathway in diabetic complications
    2335 (FN1)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   04131 Membrane trafficking [BR:hsa04131]
    2335 (FN1)
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:hsa04147]
    2335 (FN1)
   00536 Glycosaminoglycan binding proteins [BR:hsa00536]
    2335 (FN1)
   04990 Domain-containing proteins not elsewhere classified [BR:hsa04990]
    2335 (FN1)
Membrane trafficking [BR:hsa04131]
 Endoplasmic reticulum (ER) - Golgi transport
  Forward pathways
   ER-Golgi intermediate compartment (ERGIC) proteins
    2335 (FN1)
Exosome [BR:hsa04147]
 Exosomal proteins
  Exosomal proteins of bladder cancer cells
   2335 (FN1)
Glycosaminoglycan binding proteins [BR:hsa00536]
 Heparan sulfate / Heparin
  Extracellular matrix molecules
   2335 (FN1)
Domain-containing proteins not elsewhere classified [BR:hsa04990]
 Fibronectin (FN) domain-containing proteins
  Fibronectin type I domain-containing proteins
   2335 (FN1)
SSDB
Motif
Pfam: fn3 fn1 FN3_DSCAM-DSCAML_C Pur_ac_phosph_N fn2 Fn3_Dep-1_2nd Fn3_VIN3 Fn3_Dep-1_3rd NDNF FN3_Tor_3rd Ig_RIMBP2
Other DBs
NCBI-GeneID: 2335
NCBI-ProteinID: NP_997647
OMIM: 135600
HGNC: 3778
Ensembl: ENSG00000115414
UniProt: P02751 Q6MZM7 Q9UQS6
Structure
LinkDB
Position
2:complement(215360865..215436068)
AA seq 2477 aa
MLRGPGPGLLLLAVQCLGTAVPSTGASKSKRQAQQMVQPQSPVAVSQSKPGCYDNGKHYQ
INQQWERTYLGNALVCTCYGGSRGFNCESKPEAEETCFDKYTGNTYRVGDTYERPKDSMI
WDCTCIGAGRGRISCTIANRCHEGGQSYKIGDTWRRPHETGGYMLECVCLGNGKGEWTCK
PIAEKCFDHAAGTSYVVGETWEKPYQGWMMVDCTCLGEGSGRITCTSRNRCNDQDTRTSY
RIGDTWSKKDNRGNLLQCICTGNGRGEWKCERHTSVQTTSSGSGPFTDVRAAVYQPQPHP
QPPPYGHCVTDSGVVYSVGMQWLKTQGNKQMLCTCLGNGVSCQETAVTQTYGGNSNGEPC
VLPFTYNGRTFYSCTTEGRQDGHLWCSTTSNYEQDQKYSFCTDHTVLVQTRGGNSNGALC
HFPFLYNNHNYTDCTSEGRRDNMKWCGTTQNYDADQKFGFCPMAAHEEICTTNEGVMYRI
GDQWDKQHDMGHMMRCTCVGNGRGEWTCIAYSQLRDQCIVDDITYNVNDTFHKRHEEGHM
LNCTCFGQGRGRWKCDPVDQCQDSETGTFYQIGDSWEKYVHGVRYQCYCYGRGIGEWHCQ
PLQTYPSSSGPVEVFITETPSQPNSHPIQWNAPQPSHISKYILRWRPKNSVGRWKEATIP
GHLNSYTIKGLKPGVVYEGQLISIQQYGHQEVTRFDFTTTSTSTPVTSNTVTGETTPFSP
LVATSESVTEITASSFVVSWVSASDTVSGFRVEYELSEEGDEPQYLDLPSTATSVNIPDL
LPGRKYIVNVYQISEDGEQSLILSTSQTTAPDAPPDTTVDQVDDTSIVVRWSRPQAPITG
YRIVYSPSVEGSSTELNLPETANSVTLSDLQPGVQYNITIYAVEENQESTPVVIQQETTG
TPRSDTVPSPRDLQFVEVTDVKVTIMWTPPESAVTGYRVDVIPVNLPGEHGQRLPISRNT
FAEVTGLSPGVTYYFKVFAVSHGRESKPLTAQQTTKLDAPTNLQFVNETDSTVLVRWTPP
RAQITGYRLTVGLTRRGQPRQYNVGPSVSKYPLRNLQPASEYTVSLVAIKGNQESPKATG
VFTTLQPGSSIPPYNTEVTETTIVITWTPAPRIGFKLGVRPSQGGEAPREVTSDSGSIVV
SGLTPGVEYVYTIQVLRDGQERDAPIVNKVVTPLSPPTNLHLEANPDTGVLTVSWERSTT
PDITGYRITTTPTNGQQGNSLEEVVHADQSSCTFDNLSPGLEYNVSVYTVKDDKESVPIS
DTIIPEVPQLTDLSFVDITDSSIGLRWTPLNSSTIIGYRITVVAAGEGIPIFEDFVDSSV
GYYTVTGLEPGIDYDISVITLINGGESAPTTLTQQTAVPPPTDLRFTNIGPDTMRVTWAP
PPSIDLTNFLVRYSPVKNEEDVAELSISPSDNAVVLTNLLPGTEYVVSVSSVYEQHESTP
LRGRQKTGLDSPTGIDFSDITANSFTVHWIAPRATITGYRIRHHPEHFSGRPREDRVPHS
RNSITLTNLTPGTEYVVSIVALNGREESPLLIGQQSTVSDVPRDLEVVAATPTSLLISWD
APAVTVRYYRITYGETGGNSPVQEFTVPGSKSTATISGLKPGVDYTITVYAVTGRGDSPA
SSKPISINYRTEIDKPSQMQVTDVQDNSISVKWLPSSSPVTGYRVTTTPKNGPGPTKTKT
AGPDQTEMTIEGLQPTVEYVVSVYAQNPSGESQPLVQTAVTNIDRPKGLAFTDVDVDSIK
IAWESPQGQVSRYRVTYSSPEDGIHELFPAPDGEEDTAELQGLRPGSEYTVSVVALHDDM
ESQPLIGTQSTAIPAPTDLKFTQVTPTSLSAQWTPPNVQLTGYRVRVTPKEKTGPMKEIN
LAPDSSSVVVSGLMVATKYEVSVYALKDTLTSRPAQGVVTTLENVSPPRRARVTDATETT
ITISWRTKTETITGFQVDAVPANGQTPIQRTIKPDVRSYTITGLQPGTDYKIYLYTLNDN
ARSSPVVIDASTAIDAPSNLRFLATTPNSLLVSWQPPRARITGYIIKYEKPGSPPREVVP
RPRPGVTEATITGLEPGTEYTIYVIALKNNQKSEPLIGRKKTDELPQLVTLPHPNLHGPE
ILDVPSTVQKTPFVTHPGYDTGNGIQLPGTSGQQPSVGQQMIFEEHGFRRTTPPTTATPI
RHRPRPYPPNVGEEIQIGHIPREDVDYHLYPHGPGLNPNASTGQEALSQTTISWAPFQDT
SEYIISCHPVGTDEEPLQFRVPGTSTSATLTGLTRGATYNVIVEALKDQQRHKVREEVVT
VGNSVNEGLNQPTDDSCFDPYTVSHYAVGDEWERMSESGFKLLCQCLGFGSGHFRCDSSR
WCHDNGVNYKIGEKWDRQGENGQMMSCTCLGNGKGEFKCDPHEATCYDDGKTYHVGEQWQ
KEYLGAICSCTCFGGQRGWRCDNCRRPGGEPSPEGTTGQSYNQYSQRYHQRTNTNVNCPI
ECFMPLDVQADREDSRE
NT seq 7434 nt   +upstreamnt  +downstreamnt
atgcttaggggtccggggcccgggctgctgctgctggccgtccagtgcctggggacagcg
gtgccctccacgggagcctcgaagagcaagaggcaggctcagcaaatggttcagccccag
tccccggtggctgtcagtcaaagcaagcccggttgttatgacaatggaaaacactatcag
ataaatcaacagtgggagcggacctacctaggcaatgcgttggtttgtacttgttatgga
ggaagccgaggttttaactgcgagagtaaacctgaagctgaagagacttgctttgacaag
tacactgggaacacttaccgagtgggtgacacttatgagcgtcctaaagactccatgatc
tgggactgtacctgcatcggggctgggcgagggagaataagctgtaccatcgcaaaccgc
tgccatgaagggggtcagtcctacaagattggtgacacctggaggagaccacatgagact
ggtggttacatgttagagtgtgtgtgtcttggtaatggaaaaggagaatggacctgcaag
cccatagctgagaagtgttttgatcatgctgctgggacttcctatgtggtcggagaaacg
tgggagaagccctaccaaggctggatgatggtagattgtacttgcctgggagaaggcagc
ggacgcatcacttgcacttctagaaatagatgcaacgatcaggacacaaggacatcctat
agaattggagacacctggagcaagaaggataatcgaggaaacctgctccagtgcatctgc
acaggcaacggccgaggagagtggaagtgtgagaggcacacctctgtgcagaccacatcg
agcggatctggccccttcaccgatgttcgtgcagctgtttaccaaccgcagcctcacccc
cagcctcctccctatggccactgtgtcacagacagtggtgtggtctactctgtggggatg
cagtggctgaagacacaaggaaataagcaaatgctttgcacgtgcctgggcaacggagtc
agctgccaagagacagctgtaacccagacttacggtggcaactcaaatggagagccatgt
gtcttaccattcacctacaatggcaggacgttctactcctgcaccacagaagggcgacag
gacggacatctttggtgcagcacaacttcgaattatgagcaggaccagaaatactctttc
tgcacagaccacactgttttggttcagactcgaggaggaaattccaatggtgccttgtgc
cacttccccttcctatacaacaaccacaattacactgattgcacttctgagggcagaaga
gacaacatgaagtggtgtgggaccacacagaactatgatgccgaccagaagtttgggttc
tgccccatggctgcccacgaggaaatctgcacaaccaatgaaggggtcatgtaccgcatt
ggagatcagtgggataagcagcatgacatgggtcacatgatgaggtgcacgtgtgttggg
aatggtcgtggggaatggacatgcattgcctactcgcagcttcgagatcagtgcattgtt
gatgacatcacttacaatgtgaacgacacattccacaagcgtcatgaagaggggcacatg
ctgaactgtacatgcttcggtcagggtcggggcaggtggaagtgtgatcccgtcgaccaa
tgccaggattcagagactgggacgttttatcaaattggagattcatgggagaagtatgtg
catggtgtcagataccagtgctactgctatggccgtggcattggggagtggcattgccaa
cctttacagacctatccaagctcaagtggtcctgtcgaagtatttatcactgagactccg
agtcagcccaactcccaccccatccagtggaatgcaccacagccatctcacatttccaag
tacattctcaggtggagacctaaaaattctgtaggccgttggaaggaagctaccatacca
ggccacttaaactcctacaccatcaaaggcctgaagcctggtgtggtatacgagggccag
ctcatcagcatccagcagtacggccaccaagaagtgactcgctttgacttcaccaccacc
agcaccagcacacctgtgaccagcaacaccgtgacaggagagacgactcccttttctcct
cttgtggccacttctgaatctgtgaccgaaatcacagccagtagctttgtggtctcctgg
gtctcagcttccgacaccgtgtcgggattccgggtggaatatgagctgagtgaggaggga
gatgagccacagtacctggatcttccaagcacagccacttctgtgaacatccctgacctg
cttcctggccgaaaatacattgtaaatgtctatcagatatctgaggatggggagcagagt
ttgatcctgtctacttcacaaacaacagcgcctgatgcccctcctgacacgactgtggac
caagttgatgacacctcaattgttgttcgctggagcagaccccaggctcccatcacaggg
tacagaatagtctattcgccatcagtagaaggtagcagcacagaactcaaccttcctgaa
actgcaaactccgtcaccctcagtgacttgcaacctggtgttcagtataacatcactatc
tatgctgtggaagaaaatcaagaaagtacacctgttgtcattcaacaagaaaccactggc
accccacgctcagatacagtgccctctcccagggacctgcagtttgtggaagtgacagac
gtgaaggtcaccatcatgtggacaccgcctgagagtgcagtgaccggctaccgtgtggat
gtgatccccgtcaacctgcctggcgagcacgggcagaggctgcccatcagcaggaacacc
tttgcagaagtcaccgggctgtcccctggggtcacctattacttcaaagtctttgcagtg
agccatgggagggagagcaagcctctgactgctcaacagacaaccaaactggatgctccc
actaacctccagtttgtcaatgaaactgattctactgtcctggtgagatggactccacct
cgggcccagataacaggataccgactgaccgtgggccttacccgaagaggacagcccagg
cagtacaatgtgggtccctctgtctccaagtacccactgaggaatctgcagcctgcatct
gagtacaccgtatccctcgtggccataaagggcaaccaagagagccccaaagccactgga
gtctttaccacactgcagcctgggagctctattccaccttacaacaccgaggtgactgag
accaccattgtgatcacatggacgcctgctccaagaattggttttaagctgggtgtacga
ccaagccagggaggagaggcaccacgagaagtgacttcagactcaggaagcatcgttgtg
tccggcttgactccaggagtagaatacgtctacaccatccaagtcctgagagatggacag
gaaagagatgcgccaattgtaaacaaagtggtgacaccattgtctccaccaacaaacttg
catctggaggcaaaccctgacactggagtgctcacagtctcctgggagaggagcaccacc
ccagacattactggttatagaattaccacaacccctacaaacggccagcagggaaattct
ttggaagaagtggtccatgctgatcagagctcctgcacttttgataacctgagtcccggc
ctggagtacaatgtcagtgtttacactgtcaaggatgacaaggaaagtgtccctatctct
gataccatcatcccagaggtgccccaactcactgacctaagctttgttgatataaccgat
tcaagcatcggcctgaggtggaccccgctaaactcttccaccattattgggtaccgcatc
acagtagttgcggcaggagaaggtatccctatttttgaagattttgtggactcctcagta
ggatactacacagtcacagggctggagccgggcattgactatgatatcagcgttatcact
ctcattaatggcggcgagagtgcccctactacactgacacaacaaacggctgttcctcct
cccactgacctgcgattcaccaacattggtccagacaccatgcgtgtcacctgggctcca
cccccatccattgatttaaccaacttcctggtgcgttactcacctgtgaaaaatgaggaa
gatgttgcagagttgtcaatttctccttcagacaatgcagtggtcttaacaaatctcctg
cctggtacagaatatgtagtgagtgtctccagtgtctacgaacaacatgagagcacacct
cttagaggaagacagaaaacaggtcttgattccccaactggcattgacttttctgatatt
actgccaactcttttactgtgcactggattgctcctcgagccaccatcactggctacagg
atccgccatcatcccgagcacttcagtgggagacctcgagaagatcgggtgccccactct
cggaattccatcaccctcaccaacctcactccaggcacagagtatgtggtcagcatcgtt
gctcttaatggcagagaggaaagtcccttattgattggccaacaatcaacagtttctgat
gttccgagggacctggaagttgttgctgcgacccccaccagcctactgatcagctgggat
gctcctgctgtcacagtgagatattacaggatcacttacggagagacaggaggaaatagc
cctgtccaggagttcactgtgcctgggagcaagtctacagctaccatcagcggccttaaa
cctggagttgattataccatcactgtgtatgctgtcactggccgtggagacagccccgca
agcagcaagccaatttccattaattaccgaacagaaattgacaaaccatcccagatgcaa
gtgaccgatgttcaggacaacagcattagtgtcaagtggctgccttcaagttcccctgtt
actggttacagagtaaccaccactcccaaaaatggaccaggaccaacaaaaactaaaact
gcaggtccagatcaaacagaaatgactattgaaggcttgcagcccacagtggagtatgtg
gttagtgtctatgctcagaatccaagcggagagagtcagcctctggttcagactgcagta
accaacattgatcgccctaaaggactggcattcactgatgtggatgtcgattccatcaaa
attgcttgggaaagcccacaggggcaagtttccaggtacagggtgacctactcgagccct
gaggatggaatccatgagctattccctgcacctgatggtgaagaagacactgcagagctg
caaggcctcagaccgggttctgagtacacagtcagtgtggttgccttgcacgatgatatg
gagagccagcccctgattggaacccagtccacagctattcctgcaccaactgacctgaag
ttcactcaggtcacacccacaagcctgagcgcccagtggacaccacccaatgttcagctc
actggatatcgagtgcgggtgacccccaaggagaagaccggaccaatgaaagaaatcaac
cttgctcctgacagctcatccgtggttgtatcaggacttatggtggccaccaaatatgaa
gtgagtgtctatgctcttaaggacactttgacaagcagaccagctcagggagttgtcacc
actctggagaatgtcagcccaccaagaagggctcgtgtgacagatgctactgagaccacc
atcaccattagctggagaaccaagactgagacgatcactggcttccaagttgatgccgtt
ccagccaatggccagactccaatccagagaaccatcaagccagatgtcagaagctacacc
atcacaggtttacaaccaggcactgactacaagatctacctgtacaccttgaatgacaat
gctcggagctcccctgtggtcatcgacgcctccactgccattgatgcaccatccaacctg
cgtttcctggccaccacacccaattccttgctggtatcatggcagccgccacgtgccagg
attaccggctacatcatcaagtatgagaagcctgggtctcctcccagagaagtggtccct
cggccccgccctggtgtcacagaggctactattactggcctggaaccgggaaccgaatat
acaatttatgtcattgccctgaagaataatcagaagagcgagcccctgattggaaggaaa
aagacagacgagcttccccaactggtaacccttccacaccccaatcttcatggaccagag
atcttggatgttccttccacagttcaaaagacccctttcgtcacccaccctgggtatgac
actggaaatggtattcagcttcctggcacttctggtcagcaacccagtgttgggcaacaa
atgatctttgaggaacatggttttaggcggaccacaccgcccacaacggccacccccata
aggcataggccaagaccatacccgccgaatgtaggtgaggaaatccaaattggtcacatc
cccagggaagatgtagactatcacctgtacccacacggtccgggactcaatccaaatgcc
tctacaggacaagaagctctctctcagacaaccatctcatgggccccattccaggacact
tctgagtacatcatttcatgtcatcctgttggcactgatgaagaacccttacagttcagg
gttcctggaacttctaccagtgccactctgacaggcctcaccagaggtgccacctacaac
gtcatagtggaggcactgaaagaccagcagaggcataaggttcgggaagaggttgttacc
gtgggcaactctgtcaacgaaggcttgaaccaacctacggatgactcgtgctttgacccc
tacacagtttcccattatgccgttggagatgagtgggaacgaatgtctgaatcaggcttt
aaactgttgtgccagtgcttaggctttggaagtggtcatttcagatgtgattcatctaga
tggtgccatgacaatggtgtgaactacaagattggagagaagtgggaccgtcagggagaa
aatggccagatgatgagctgcacatgtcttgggaacggaaaaggagaattcaagtgtgac
cctcatgaggcaacgtgttatgatgatgggaagacataccacgtaggagaacagtggcag
aaggaatatctcggtgccatttgctcctgcacatgctttggaggccagcggggctggcgc
tgtgacaactgccgcagacctgggggtgaacccagtcccgaaggcactactggccagtcc
tacaaccagtattctcagagataccatcagagaacaaacactaatgttaattgcccaatt
gagtgcttcatgcctttagatgtacaggctgacagagaagattcccgagagtaa

KEGG   Homo sapiens (human): 3371
Entry
3371              CDS       T01001                                 
Symbol
TNC, 150-225, DFNA56, GMEM, GP, HXB, JI, TN, TN-C
Name
(RefSeq) tenascin C
  KO
K06252  tenascin
Organism
hsa  Homo sapiens (human)
Pathway
hsa04151  PI3K-Akt signaling pathway
hsa04510  Focal adhesion
hsa04512  ECM-receptor interaction
hsa04518  Integrin signaling
hsa05165  Human papillomavirus infection
hsa05206  MicroRNAs in cancer
Network
nt06548  Integrin signaling
  Element
N01974  Integrin alpha9beta1 signaling
N01981  Integrin alpha8beta1 signaling
N01983  Integrin alphaVbeta3 signaling
N01985  Integrin alphaVbeta6 signaling
Disease
H00604  Deafness, autosomal dominant
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04151 PI3K-Akt signaling pathway
    3371 (TNC)
  09133 Signaling molecules and interaction
   04512 ECM-receptor interaction
    3371 (TNC)
   04518 Integrin signaling
    3371 (TNC)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    3371 (TNC)
 09160 Human Diseases
  09161 Cancer: overview
   05206 MicroRNAs in cancer
    3371 (TNC)
  09172 Infectious disease: viral
   05165 Human papillomavirus infection
    3371 (TNC)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   00536 Glycosaminoglycan binding proteins [BR:hsa00536]
    3371 (TNC)
Glycosaminoglycan binding proteins [BR:hsa00536]
 Heparan sulfate / Heparin
  Extracellular matrix molecules
   3371 (TNC)
SSDB
Motif
Pfam: fn3 EGF_TEN Fibrinogen_C EGF_Teneurin EGF_2 EGF_Tenascin Fn3_Dep-1_3rd FN3_DSCAM-DSCAML_C Fn3_Dep-1_2nd Pur_ac_phosph_N Fn3_VIN3 DUF7949 EGF hEGF NDNF DUF4998 fn3_2
Other DBs
NCBI-GeneID: 3371
NCBI-ProteinID: NP_002151
OMIM: 187380
HGNC: 5318
Ensembl: ENSG00000041982
UniProt: P24821 B4E1W8 Q4LE33
Structure
LinkDB
Position
9:complement(115019575..115118157)
AA seq 2201 aa
MGAMTQLLAGVFLAFLALATEGGVLKKVIRHKRQSGVNATLPEENQPVVFNHVYNIKLPV
GSQCSVDLESASGEKDLAPPSEPSESFQEHTVDGENQIVFTHRINIPRRACGCAAAPDVK
ELLSRLEELENLVSSLREQCTAGAGCCLQPATGRLDTRPFCSGRGNFSTEGCGCVCEPGW
KGPNCSEPECPGNCHLRGRCIDGQCICDDGFTGEDCSQLACPSDCNDQGKCVNGVCICFE
GYAGADCSREICPVPCSEEHGTCVDGLCVCHDGFAGDDCNKPLCLNNCYNRGRCVENECV
CDEGFTGEDCSELICPNDCFDRGRCINGTCYCEEGFTGEDCGKPTCPHACHTQGRCEEGQ
CVCDEGFAGVDCSEKRCPADCHNRGRCVDGRCECDDGFTGADCGELKCPNGCSGHGRCVN
GQCVCDEGYTGEDCSQLRCPNDCHSRGRCVEGKCVCEQGFKGYDCSDMSCPNDCHQHGRC
VNGMCVCDDGYTGEDCRDRQCPRDCSNRGLCVDGQCVCEDGFTGPDCAELSCPNDCHGQG
RCVNGQCVCHEGFMGKDCKEQRCPSDCHGQGRCVDGQCICHEGFTGLDCGQHSCPSDCNN
LGQCVSGRCICNEGYSGEDCSEVSPPKDLVVTEVTEETVNLAWDNEMRVTEYLVVYTPTH
EGGLEMQFRVPGDQTSTIIQELEPGVEYFIRVFAILENKKSIPVSARVATYLPAPEGLKF
KSIKETSVEVEWDPLDIAFETWEIIFRNMNKEDEGEITKSLRRPETSYRQTGLAPGQEYE
ISLHIVKNNTRGPGLKRVTTTRLDAPSQIEVKDVTDTTALITWFKPLAEIDGIELTYGIK
DVPGDRTTIDLTEDENQYSIGNLKPDTEYEVSLISRRGDMSSNPAKETFTTGLDAPRNLR
RVSQTDNSITLEWRNGKAAIDSYRIKYAPISGGDHAEVDVPKSQQATTKTTLTGLRPGTE
YGIGVSAVKEDKESNPATINAATELDTPKDLQVSETAETSLTLLWKTPLAKFDRYRLNYS
LPTGQWVGVQLPRNTTSYVLRGLEPGQEYNVLLTAEKGRHKSKPARVKASTEQAPELENL
TVTEVGWDGLRLNWTAADQAYEHFIIQVQEANKVEAARNLTVPGSLRAVDIPGLKAATPY
TVSIYGVIQGYRTPVLSAEASTGETPNLGEVVVAEVGWDALKLNWTAPEGAYEYFFIQVQ
EADTVEAAQNLTVPGGLRSTDLPGLKAATHYTITIRGVTQDFSTTPLSVEVLTEEVPDMG
NLTVTEVSWDALRLNWTTPDGTYDQFTIQVQEADQVEEAHNLTVPGSLRSMEIPGLRAGT
PYTVTLHGEVRGHSTRPLAVEVVTEDLPQLGDLAVSEVGWDGLRLNWTAADNAYEHFVIQ
VQEVNKVEAAQNLTLPGSLRAVDIPGLEAATPYRVSIYGVIRGYRTPVLSAEASTAKEPE
IGNLNVSDITPESFNLSWMATDGIFETFTIEIIDSNRLLETVEYNISGAERTAHISGLPP
STDFIVYLSGLAPSIRTKTISATATTEALPLLENLTISDINPYGFTVSWMASENAFDSFL
VTVVDSGKLLDPQEFTLSGTQRKLELRGLITGIGYEVMVSGFTQGHQTKPLRAEIVTEAE
PEVDNLLVSDATPDGFRLSWTADEGVFDNFVLKIRDTKKQSEPLEITLLAPERTRDITGL
REATEYEIELYGISKGRRSQTVSAIATTAMGSPKEVIFSDITENSATVSWRAPTAQVESF
RITYVPITGGTPSMVTVDGTKTQTRLVKLIPGVEYLVSIIAMKGFEESEPVSGSFTTALD
GPSGLVTANITDSEALARWQPAIATVDSYVISYTGEKVPEITRTVSGNTVEYALTDLEPA
TEYTLRIFAEKGPQKSSTITAKFTTDLDSPRDLTATEVQSETALLTWRPPRASVTGYLLV
YESVDGTVKEVIVGPDTTSYSLADLSPSTHYTAKIQALNGPLRSNMIQTIFTTIGLLYPF
PKDCSQAMLNGDTTSGLYTIYLNGDKAEALEVFCDMTSDGGGWIVFLRRKNGRENFYQNW
KAYAAGFGDRREEFWLGLDNLNKITAQGQYELRVDLRDHGETAFAVYDKFSVGDAKTRYK
LKVEGYSGTAGDSMAYHNGRSFSTFDKDTDSAITNCALSYKGAFWYRNCHRVNLMGRYGD
NNHSQGVNWFHWKGHEHSIQFAEMKLRPSNFRNLEGRRKRA
NT seq 6606 nt   +upstreamnt  +downstreamnt
atgggggccatgactcagctgttggcaggtgtctttcttgctttccttgccctcgctacc
gaaggtggggtcctcaagaaagtcatccggcacaagcgacagagtggggtgaacgccacc
ctgccagaagagaaccagccagtggtgtttaaccacgtttacaacatcaagctgccagtg
ggatcccagtgttcggtggatctggagtcagccagtggggagaaagacctggcaccgcct
tcagagcccagcgaaagctttcaggagcacacagtggatggggaaaaccagattgtcttc
acacatcgcatcaacatcccccgccgggcctgtggctgtgccgcagcccctgatgttaag
gagctgctgagcagactggaggagctggagaacctggtgtcttccctgagggagcaatgt
actgcaggagcaggctgctgtctccagcctgccacaggccgcttggacaccaggcccttc
tgtagcggtcggggcaacttcagcactgaaggatgtggctgtgtctgcgaacctggctgg
aaaggccccaactgctctgagcccgaatgtccaggcaactgtcaccttcgaggccggtgc
attgatgggcagtgcatctgtgacgacggcttcacgggcgaggactgcagccagctggct
tgccccagcgactgcaatgaccagggcaagtgcgtaaatggagtctgcatctgtttcgaa
ggctacgccggggctgactgcagccgtgaaatctgcccagtgccctgcagtgaggagcac
ggcacatgtgtagatggcttgtgtgtgtgccacgatggctttgcaggcgatgactgcaac
aagcctctgtgtctcaacaattgctacaaccgtggacgatgcgtggagaatgagtgcgtg
tgtgatgagggtttcacgggcgaagactgcagtgagctcatctgccccaatgactgcttc
gaccggggccgctgcatcaatggcacctgctactgcgaagaaggcttcacaggtgaagac
tgcgggaaacccacctgcccacatgcctgccacacccagggccggtgtgaggaggggcag
tgtgtatgtgatgagggctttgccggtgtggactgcagcgagaagaggtgtcctgctgac
tgtcacaatcgtggccgctgtgtagacgggcggtgtgagtgtgatgatggtttcactgga
gctgactgtggggagctcaagtgtcccaatggctgcagtggccatggccgctgtgtcaat
gggcagtgtgtgtgtgatgagggctatactggggaggactgcagccagctacggtgcccc
aatgactgtcacagtcggggccgctgtgtcgagggcaaatgtgtatgtgagcaaggcttc
aagggctatgactgcagtgacatgagctgccctaatgactgtcaccagcacggccgctgt
gtgaatggcatgtgtgtttgtgatgacggctacacaggggaagactgccgggatcgccaa
tgccccagggactgcagcaacaggggcctctgtgtggacggacagtgcgtctgtgaggac
ggcttcaccggccctgactgtgcagaactctcctgtccaaatgactgccatggccagggt
cgctgtgtgaatgggcagtgcgtgtgccatgaaggatttatgggcaaagactgcaaggag
caaagatgtcccagtgactgtcatggccagggccgctgcgtggacggccagtgcatctgc
cacgagggcttcacaggcctggactgtggccagcactcctgccccagtgactgcaacaac
ttaggacaatgcgtctcgggccgctgcatctgcaacgagggctacagcggagaagactgc
tcagaggtgtctcctcccaaagacctcgttgtgacagaagtgacggaagagacggtcaac
ctggcctgggacaatgagatgcgggtcacagagtaccttgtcgtgtacacgcccacccac
gagggtggtctggaaatgcagttccgtgtgcctggggaccagacgtccaccatcatccag
gagctggagcctggtgtggagtactttatccgtgtatttgccatcctggagaacaagaag
agcattcctgtcagcgccagggtggccacgtacttacctgcacctgaaggcctgaaattc
aagtccatcaaggagacatctgtggaagtggagtgggatcctctagacattgcttttgaa
acctgggagatcatcttccggaatatgaataaagaagatgagggagagatcaccaaaagc
ctgaggaggccagagacctcttaccggcaaactggtctagctcctgggcaagagtatgag
atatctctgcacatagtgaaaaacaatacccggggccctggcctgaagagggtgaccacc
acacgcttggatgcccccagccagatcgaggtgaaagatgtcacagacaccactgccttg
atcacctggttcaagcccctggctgagatcgatggcattgagctgacctacggcatcaaa
gacgtgccaggagaccgtaccaccatcgatctcacagaggacgagaaccagtactccatc
gggaacctgaagcctgacactgagtacgaggtgtccctcatctcccgcagaggtgacatg
tcaagcaacccagccaaagagaccttcacaacaggcctcgatgctcccaggaatcttcga
cgtgtttcccagacagataacagcatcaccctggaatggaggaatggcaaggcagctatt
gacagttacagaattaagtatgcccccatctctggaggggaccacgctgaggttgatgtt
ccaaagagccaacaagccacaaccaaaaccacactcacaggtctgaggccgggaactgaa
tatgggattggagtttctgctgtgaaggaagacaaggagagcaatccagcgaccatcaac
gcagccacagagttggacacgcccaaggaccttcaggtttctgaaactgcagagaccagc
ctgaccctgctctggaagacaccgttggccaaatttgaccgctaccgcctcaattacagt
ctccccacaggccagtgggtgggagtgcagcttccaagaaacaccacttcctatgtcctg
agaggcctggaaccaggacaggagtacaatgtcctcctgacagccgagaaaggcagacac
aagagcaagcccgcacgtgtgaaggcatccactgaacaagcccctgagctggaaaacctc
accgtgactgaggttggctgggatggcctcagactcaactggaccgcagctgaccaggcc
tatgagcactttatcattcaggtgcaggaggccaacaaggtggaggcagctcggaacctc
accgtgcctggcagccttcgggctgtggacataccgggcctcaaggctgctacgccttat
acagtctccatctatggggtgatccagggctatagaacaccagtgctctctgctgaggcc
tccacaggggaaactcccaatttgggagaggtcgtggtggccgaggtgggctgggatgcc
ctcaaactcaactggactgctccagaaggggcctatgagtactttttcattcaggtgcag
gaggctgacacagtagaggcagcccagaacctcaccgtcccaggaggactgaggtccaca
gacctgcctgggctcaaagcagccactcattataccatcaccatccgcggggtcactcag
gacttcagcacaacccctctctctgttgaagtcttgacagaggaggttccagatatggga
aacctcacagtgaccgaggttagctgggatgctctcagactgaactggaccacgccagat
ggaacctatgaccagtttactattcaggtccaggaggctgaccaggtggaagaggctcac
aatctcacggttcctggcagcctgcgttccatggaaatcccaggcctcagggctggcact
ccttacacagtcaccctgcacggcgaggtcaggggccacagcactcgaccccttgctgta
gaggtcgtcacagaggatctcccacagctgggagatttagccgtgtctgaggttggctgg
gatggcctcagactcaactggaccgcagctgacaatgcctatgagcactttgtcattcag
gtgcaggaggtcaacaaagtggaggcagcccagaacctcacgttgcctggcagcctcagg
gctgtggacatcccgggcctcgaggctgccacgccttatagagtctccatctatggggtg
atccggggctatagaacaccagtactctctgctgaggcctccacagccaaagaacctgaa
attggaaacttaaatgtttctgacataactcccgagagcttcaatctctcctggatggct
accgatgggatcttcgagacctttaccattgaaattattgattccaataggttgctggag
actgtggaatataatatctctggtgctgaacgaactgcccatatctcagggctaccccct
agtactgattttattgtctacctctctggacttgctcccagcatccggaccaaaaccatc
agtgccacagccacgacagaggccctgccccttctggaaaacctaaccatttccgacatt
aatccctacgggttcacagtttcctggatggcatcggagaatgcctttgacagctttcta
gtaacggtggtggattctgggaagctgctggacccccaggaattcacactttcaggaacc
cagaggaagctggagcttagaggcctcataactggcattggctatgaggttatggtctct
ggcttcacccaagggcatcaaaccaagcccttgagggctgagattgttacagaagccgaa
ccggaagttgacaaccttctggtttcagatgccaccccagacggtttccgtctgtcctgg
acagctgatgaaggggtcttcgacaattttgttctcaaaatcagagataccaaaaagcag
tctgagccactggaaataaccctacttgcccccgaacgtaccagggacataacaggtctc
agagaggctactgaatacgaaattgaactctatggaataagcaaaggaaggcgatcccag
acagtcagtgctatagcaacaacagccatgggctccccaaaggaagtcattttctcagac
atcactgaaaattcggctactgtcagctggagggcacccacagcccaagtggagagcttc
cggattacctatgtgcccattacaggaggtacaccctccatggtaactgtggacggaacc
aagactcagaccaggctggtgaaactcatacctggcgtggagtaccttgtcagcatcatc
gccatgaagggctttgaggaaagtgaacctgtctcagggtcattcaccacagctctggat
ggcccatctggcctggtgacagccaacatcactgactcagaagccttggccaggtggcag
ccagccattgccactgtggacagttatgtcatctcctacacaggcgagaaagtgccagaa
attacacgcacggtgtccgggaacacagtggagtatgctctgaccgacctcgagcctgcc
acggaatacacactgagaatctttgcagagaaagggccccagaagagctcaaccatcact
gccaagttcacaacagacctcgattctccaagagacttgactgctactgaggttcagtcg
gaaactgccctccttacctggcgacccccccgggcatcagtcaccggttacctgctggtc
tatgaatcagtggatggcacagtcaaggaagtcattgtgggtccagataccacctcctac
agcctggcagacctgagcccatccacccactacacagccaagatccaggcactcaatggg
cccctgaggagcaatatgatccagaccatcttcaccacaattggactcctgtaccccttc
cccaaggactgctcccaagcaatgctgaatggagacacgacctctggcctctacaccatt
tatctgaatggtgataaggctgaggcgctggaagtcttctgtgacatgacctctgatggg
ggtggatggattgtgttcctgagacgcaaaaacggacgcgagaacttctaccaaaactgg
aaggcatatgctgctggatttggggaccgcagagaagaattctggcttgggctggacaac
ctgaacaaaatcacagcccaggggcagtacgagctccgggtggacctgcgggaccatggg
gagacagcctttgctgtctatgacaagttcagcgtgggagatgccaagactcgctacaag
ctgaaggtggaggggtacagtgggacagcaggtgactccatggcctaccacaatggcaga
tccttctccacctttgacaaggacacagattcagccatcaccaactgtgctctgtcctac
aaaggggctttctggtacaggaactgtcaccgtgtcaacctgatggggagatatggggac
aataaccacagtcagggcgttaactggttccactggaagggccacgaacactcaatccag
tttgctgagatgaagctgagaccaagcaacttcagaaatcttgaaggcaggcgcaaacgg
gcataa

KEGG   Homo sapiens (human): 63923
Entry
63923             CDS       T01001                                 
Symbol
TNN, TN-W, TNW
Name
(RefSeq) tenascin N
  KO
K06252  tenascin
Organism
hsa  Homo sapiens (human)
Pathway
hsa04151  PI3K-Akt signaling pathway
hsa04510  Focal adhesion
hsa04512  ECM-receptor interaction
hsa04518  Integrin signaling
hsa05165  Human papillomavirus infection
hsa05206  MicroRNAs in cancer
Network
nt06548  Integrin signaling
  Element
N01974  Integrin alpha9beta1 signaling
N01981  Integrin alpha8beta1 signaling
N01983  Integrin alphaVbeta3 signaling
N01985  Integrin alphaVbeta6 signaling
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04151 PI3K-Akt signaling pathway
    63923 (TNN)
  09133 Signaling molecules and interaction
   04512 ECM-receptor interaction
    63923 (TNN)
   04518 Integrin signaling
    63923 (TNN)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    63923 (TNN)
 09160 Human Diseases
  09161 Cancer: overview
   05206 MicroRNAs in cancer
    63923 (TNN)
  09172 Infectious disease: viral
   05165 Human papillomavirus infection
    63923 (TNN)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   00536 Glycosaminoglycan binding proteins [BR:hsa00536]
    63923 (TNN)
Glycosaminoglycan binding proteins [BR:hsa00536]
 Heparan sulfate / Heparin
  Extracellular matrix molecules
   63923 (TNN)
SSDB
Motif
Pfam: fn3 Fibrinogen_C Fn3_Dep-1_3rd FN3_DSCAM-DSCAML_C EGF_TEN Pur_ac_phosph_N EGF_Teneurin Fn3_Dep-1_2nd DUF4998 Fn3_VIN3 Fn3_Dep-1_4th EGF_2 EGF_Tenascin DUF7949
Other DBs
NCBI-GeneID: 63923
NCBI-ProteinID: NP_071376
OMIM: 617472
HGNC: 22942
Ensembl: ENSG00000120332
UniProt: Q9UQP3 B3KXB6
LinkDB
Position
1:175067833..175148075
AA seq 1299 aa
MSLQEMFRFPMGLLLGSVLLVASAPATLEPPGCSNKEQQVTVSHTYKIDVPKSALVQVDA
DPQPLSDDGASLLALGEAREEQNIIFRHNIRLQTPQKDCELAGSVQDLLARVKKLEEEMV
EMKEQCSAQRCCQGVTDLSRHCSGHGTFSLETCSCHCEEGREGPACERLACPGACSGHGR
CVDGRCLCHEPYVGADCGYPACPENCSGHGECVRGVCQCHEDFMSEDCSEKRCPGDCSGH
GFCDTGECYCEEGFTGLDCAQVVTPQGLQLLKNTEDSLLVSWEPSSQVDHYLLSYYPLGK
ELSGKQIQVPKEQHSYEILGLLPGTKYIVTLRNVKNEVSSSPQHLLATTDLAVLGTAWVT
DETENSLDVEWENPSTEVDYYKLRYGPMTGQEVAEVTVPKSSDPKSRYDITGLHPGTEYK
ITVVPMRGELEGKPILLNGRTEIDSPTNVVTDRVTEDTATVSWDPVQAVIDKYVVRYTSA
DGDTKEMAVHKDESSTVLTGLKPGEAYKVYVWAERGNQGSKKADTNALTEIDSPANLVTD
RVTENTATISWDPVQATIDKYVVRYTSADDQETREVLVGKEQSSTVLTGLRPGVEYTVHV
WAQKGDRESKKADTNAPTDIDSPKNLVTDRVTENMATVSWDPVQAAIDKYVVRYTSAGGE
TREVPVGKEQSSTVLTGLRPGMEYMVHVWAQKGDQESKKADTKAQTDIDSPQNLVTDRVT
ENMATVSWDPVRATIDRYVVRYTSAKDGETREVPVGKEQSSTVLTGLRPGVEYTVHVWAQ
KGAQESKKADTKAQTDIDSPQNLVTDWVTENTATVSWDPVQATIDRYVVHYTSANGETRE
VPVGKEQSSTVLTGLRPGMEYTVHVWAQKGNQESKKADTKAQTEIDGPKNLVTDWVTENM
ATVSWDPVQATIDKYMVRYTSADGETREVPVGKEHSSTVLTGLRPGMEYMVHVWAQKGAQ
ESKKADTKAQTELDPPRNLRPSAVTQSGGILTWTPPSAQIHGYILTYQFPDGTVKEMQLG
REDQRFALQGLEQGATYPVSLVAFKGGRRSRNVSTTLSTVGARFPHPSDCSQVQQNSNAA
SGLYTIYLHGDASRPLQVYCDMETDGGGWIVFQRRNTGQLDFFKRWRSYVEGFGDPMKEF
WLGLDKLHNLTTGTPARYEVRVDLQTANESAYAIYDFFQVASSKERYKLTVGKYRGTAGD
ALTYHNGWKFTTFDRDNDIALSNCALTHHGGWWYKNCHLANPNGRYGETKHSEGVNWEPW
KGHEFSIPYVELKIRPHGYSREPVLGRKKRTLRGRLRTF
NT seq 3900 nt   +upstreamnt  +downstreamnt
atgagtctccaggagatgttccgcttccctatggggctcctgcttggctctgtgctcctg
gtggcttcggccccagccactctggagcctcccggctgcagcaacaaggagcaacaggtc
actgtcagccacacctacaagatcgatgtgcccaagtctgccttggttcaggttgacgct
gaccctcagcccctcagtgacgatggggcttcgctcttggccctgggggaggccagggag
gaacagaacatcatcttcaggcacaacatccgccttcagacgccacagaaggactgcgag
ttggcaggcagtgtccaggacctcctggcccgggtgaagaagctggaggaagagatggtg
gagatgaaggaacagtgtagtgcccagcgctgctgccagggagtcactgatctaagccgc
cactgcagcggccacgggaccttctccctggagacctgcagctgccactgcgaagagggc
agggagggccccgcctgcgagcggctggcctgccccggggcgtgcagcggccacgggcgt
tgcgtggacgggcgctgcctgtgccatgagccctacgtgggtgccgactgcggctacccg
gcctgccctgagaactgcagcggacacggcgagtgcgtgcgcggcgtgtgccagtgccac
gaagacttcatgtcggaggactgcagcgagaagcgctgtcccggcgactgcagcggccac
ggcttctgtgacacgggcgagtgctactgcgaggagggcttcacaggcctggactgtgcc
caggtggtcaccccacagggcctgcagctgctcaagaacacggaggattctctgctggtg
agctgggagccctccagccaggtggatcactacctcctcagctactaccccctggggaag
gagctctctgggaagcagatccaagtgcccaaggagcagcacagctatgagattcttggt
ttgctgcctggaaccaagtacatagtcaccctgcgtaacgtcaagaatgaagtttctagc
agcccacagcatctacttgccaccacagaccttgctgtgcttggcactgcctgggtgaca
gatgagactgagaactcccttgacgtggagtgggaaaacccctcaactgaggtggactac
tacaagctgcgatatggccccatgacaggacaggaggtagctgaggtcactgtgcccaag
agcagtgaccccaagagccgatatgacatcactggtctgcacccggggactgagtataag
atcacggtggtgcccatgagaggagagctggagggcaagccgatcctcctgaatggcagg
acagaaattgacagtccaaccaatgttgtcactgatcgagtgactgaagacacagcaact
gtctcctgggacccagtgcaggctgtcatagacaagtatgtagtgcgctacacttctgct
gatggggacaccaaggaaatggcagtgcacaaggatgagagcagcactgtcctgacgggc
ctgaagccaggagaggcatacaaggtctacgtgtgggctgaaaggggcaaccaggggagc
aagaaagctgacaccaatgccctcacagaaattgacagcccagcaaacctggtgactgac
cgggtgactgagaataccgccaccatctcctgggacccggtacaggccaccattgacaag
tacgtggtgcgctacacctctgctgacgaccaagagaccagagaggttctggtggggaag
gagcagagcagcactgtcctgacaggcctgaggccaggtgtggagtacacagtgcatgtc
tgggcccagaagggggaccgagagagcaagaaggctgacaccaacgccccgacagatatt
gacagccccaaaaacctggtgactgaccgggtgacagagaatatggccacggtctcctgg
gacccggtgcaggccgccattgacaagtacgtggtgcgctacacctctgctggtggagag
accagggaggttccggtggggaaggagcagagcagcacagtcctgacaggcctgagaccg
ggtatggagtacatggtgcacgtgtgggcccagaagggggaccaggagagcaagaaggcc
gacaccaaggcccagacagacattgacagcccccaaaacctggtgaccgaccgggtgaca
gagaatatggccactgtctcctgggacccggtgcgggccaccattgacaggtatgtggtg
cgctacacctctgccaaggacggagagaccagggaggttccggtggggaaggagcagagt
agcactgtcctgacgggcctgaggccgggtgtggagtacacggtgcacgtgtgggcccag
aagggggcccaggagagcaagaaggctgacaccaaggcccagacagacattgacagcccc
caaaacctggtcactgactgggtgacagagaatacagccactgtctcctgggacccggtg
caggccaccattgacaggtatgtggtgcactacacgtctgccaacggagagaccagggag
gttccagtggggaaggagcagagcagcactgtcctgacgggcctgaggccgggcatggag
tacacggtgcacgtgtgggcccagaaggggaaccaggagagcaagaaggctgacaccaag
gcccagacagaaattgacggccccaaaaacctagtgactgactgggtgacggagaatatg
gccactgtctcctgggacccggttcaggccaccattgacaagtacatggtgcgctacacc
tctgctgacggagagaccagggaggttccggtggggaaggagcacagcagcactgtcctg
acgggcctgagaccaggcatggagtacatggtgcacgtgtgggcccagaagggggcccag
gagagcaagaaggctgacaccaaggcccagacagaactcgaccctcccagaaaccttcgt
ccatctgctgtaacgcagtctggtggcatattgacctggacgcccccctctgctcagatc
cacggctacattctgacttaccagttcccagatggcacagttaaggagatgcagctggga
cgggaagaccagaggtttgcgttgcaaggccttgagcaaggcgccacctaccctgtctcc
cttgttgcctttaagggtggtcgccggagcagaaatgtatccaccaccctctccacagtt
ggtgcccgtttcccacacccttcggactgcagtcaggttcagcagaacagcaatgccgcc
agtggtctgtacaccatctacctgcatggcgatgccagccggcccctgcaggtgtactgt
gacatggaaacggacggaggtggctggattgtcttccagaggcggaacactgggcagctg
gatttcttcaagcgatggaggagctatgtggaaggctttggggaccccatgaaggagttc
tggcttggacttgacaagctacacaacctcaccaccggcactccagcgcggtatgaggtg
agagtggatttacagactgccaatgaatctgcctatgctatatatgatttcttccaagtg
gcctccagcaaggagcggtataagctgacagttgggaaatacagaggcacggcaggggat
gctcttacttaccacaatggatggaagtttacaacttttgacagagacaatgatatcgca
ctcagcaactgtgccctgacacatcatggtggctggtggtataagaactgccacttggcc
aaccctaatggcagatatggggagaccaagcacagtgagggggtgaactgggagccttgg
aaaggacatgaattctccattccttacgtggagttgaaaatccgccctcatggctacagc
agggagcctgtcctgggcagaaagaagcggacgctgagaggaaggctgcgaacgttctga

KEGG   Homo sapiens (human): 7143
Entry
7143              CDS       T01001                                 
Symbol
TNR, NEDSTO, TN-R
Name
(RefSeq) tenascin R
  KO
K06252  tenascin
Organism
hsa  Homo sapiens (human)
Pathway
hsa04151  PI3K-Akt signaling pathway
hsa04510  Focal adhesion
hsa04512  ECM-receptor interaction
hsa04518  Integrin signaling
hsa05165  Human papillomavirus infection
hsa05206  MicroRNAs in cancer
Network
nt06548  Integrin signaling
  Element
N01974  Integrin alpha9beta1 signaling
N01981  Integrin alpha8beta1 signaling
N01983  Integrin alphaVbeta3 signaling
N01985  Integrin alphaVbeta6 signaling
Disease
H02397  Neurodevelopmental disorder with movement abnormalities or hypotonia
H03007  Nonprogressive neurodevelopmental disorder with spasticity and transient opisthotonus
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04151 PI3K-Akt signaling pathway
    7143 (TNR)
  09133 Signaling molecules and interaction
   04512 ECM-receptor interaction
    7143 (TNR)
   04518 Integrin signaling
    7143 (TNR)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    7143 (TNR)
 09160 Human Diseases
  09161 Cancer: overview
   05206 MicroRNAs in cancer
    7143 (TNR)
  09172 Infectious disease: viral
   05165 Human papillomavirus infection
    7143 (TNR)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   00536 Glycosaminoglycan binding proteins [BR:hsa00536]
    7143 (TNR)
Glycosaminoglycan binding proteins [BR:hsa00536]
 Heparan sulfate / Heparin
  Extracellular matrix molecules
   7143 (TNR)
SSDB
Motif
Pfam: fn3 Fibrinogen_C EGF_TEN EGF_Teneurin EGF_Tenascin FN3_DSCAM-DSCAML_C Fn3_Dep-1_3rd Pur_ac_phosph_N EGF_2 Fn3_VIN3 FN3_Tor_3rd DUF7949 Uroplakin_II
Other DBs
NCBI-GeneID: 7143
NCBI-ProteinID: NP_003276
OMIM: 601995
HGNC: 11953
Ensembl: ENSG00000116147
UniProt: Q92752 A1L306
Structure
LinkDB
Position
1:complement(175315194..175743595)
AA seq 1358 aa
MGADGETVVLKNMLIGINLILLGSMIKPSECQLEVTTERVQRQSVEEEGGIANYNTSSKE
QPVVFNHVYNINVPLDNLCSSGLEASAEQEVSAEDETLAEYMGQTSDHESQVTFTHRINF
PKKACPCASSAQVLQELLSRIEMLEREVSVLRDQCNANCCQESAATGQLDYIPHCSGHGN
FSFESCGCICNEGWFGKNCSEPYCPLGCSSRGVCVDGQCICDSEYSGDDCSELRCPTDCS
SRGLCVDGECVCEEPYTGEDCRELRCPGDCSGKGRCANGTCLCEEGYVGEDCGQRQCLNA
CSGRGQCEEGLCVCEEGYQGPDCSAVAPPEDLRVAGISDRSIELEWDGPMAVTEYVISYQ
PTALGGLQLQQRVPGDWSGVTITELEPGLTYNISVYAVISNILSLPITAKVATHLSTPQG
LQFKTITETTVEVQWEPFSFSFDGWEISFIPKNNEGGVIAQVPSDVTSFNQTGLKPGEEY
IVNVVALKEQARSPPTSASVSTVIDGPTQILVRDVSDTVAFVEWIPPRAKVDFILLKYGL
VGGEGGRTTFRLQPPLSQYSVQALRPGSRYEVSVSAVRGTNESDSATTQFTTEIDAPKNL
RVGSRTATSLDLEWDNSEAEVQEYKVVYSTLAGEQYHEVLVPRGIGPTTRATLTDLVPGT
EYGVGISAVMNSQQSVPATMNARTELDSPRDLMVTASSETSISLIWTKASGPIDHYRITF
TPSSGIASEVTVPKDRTSYTLTDLEPGAEYIISVTAERGRQQSLESTVDAFTGFRPISHL
HFSHVTSSSVNITWSDPSPPADRLILNYSPRDEEEEMMEVSLDATKRHAVLMGLQPATEY
IVNLVAVHGTVTSEPIVGSITTGIDPPKDITISNVTKDSVMVSWSPPVASFDYYRVSYRP
TQVGRLDSSVVPNTVTEFTITRLNPATEYEISLNSVRGREESERICTLVHTAMDNPVDLI
ATNITPTEALLQWKAPVGEVENYVIVLTHFAVAGETILVDGVSEEFRLVDLLPSTHYTAT
MYATNGPLTSGTISTNFSTLLDPPANLTASEVTRQSALISWQPPRAEIENYVLTYKSTDG
SRKELIVDAEDTWIRLEGLLENTDYTVLLQAAQDTTWSSITSTAFTTGGRVFPHPQDCAQ
HLMNGDTLSGVYPIFLNGELSQKLQVYCDMTTDGGGWIVFQRRQNGQTDFFRKWADYRVG
FGNVEDEFWLGLDNIHRITSQGRYELRVDMRDGQEAAFASYDRFSVEDSRNLYKLRIGSY
NGTAGDSLSYHQGRPFSTEDRDNDVAVTNCAMSYKGAWWYKNCHRTNLNGKYGESRHSQG
INWYHWKGHEFSIPFVEMKMRPYNHRLMAGRKRQSLQF
NT seq 4077 nt   +upstreamnt  +downstreamnt
atgggggcagatggggaaacagtggttctgaagaacatgctcattggcatcaacctgatc
cttctgggctccatgatcaagccttcagagtgtcagctggaggtcaccacagaaagggtc
cagagacagtcagtggaggaggagggaggcattgccaactacaacacatccagcaaagag
cagcctgtggtcttcaaccacgtgtacaacattaacgtgcccttggacaacctctgctcc
tcagggctagaggcctctgctgagcaggaggtgagtgcagaagacgagactctggcagag
tacatgggccagacctcagaccacgagagccaggtcacctttacacacaggatcaacttc
cccaaaaaggcctgtccatgtgccagttcagcccaggtgctgcaggagctgctgagccgg
atcgagatgctggagagggaggtgtcggtgctgcgagaccagtgcaacgccaactgctgc
caagaaagtgctgccacaggacaactggactatatccctcactgcagtggccacggcaac
tttagctttgagtcctgtggctgcatctgcaacgaaggctggtttggcaagaattgctcg
gagccctactgcccgctgggttgctccagccggggggtgtgtgtggatggccagtgcatc
tgtgacagcgagtacagcggggatgactgttccgaactccggtgcccaacagactgcagc
tcccgggggctctgcgtggacggggagtgtgtctgtgaagagccctacactggcgaggac
tgcagggaactgaggtgccctggggactgttcggggaaggggagatgtgccaacggtacc
tgtttatgcgaggagggctacgttggtgaggactgcggccagcggcagtgtctgaatgcc
tgcagtgggcgaggacaatgtgaggaggggctctgcgtctgtgaagagggctaccagggc
cctgactgctcagcagttgcccctccagaggacttgcgagtggctggtatcagcgacagg
tccattgagctggaatgggacgggccgatggcagtgacggaatatgtgatctcttaccag
ccgacggccctggggggcctccagctccagcagcgggtgcctggagattggagtggtgtc
accatcacggagctggagccaggtctcacctacaacatcagcgtctacgctgtcattagc
aacatcctcagccttcccatcactgccaaggtggccacccatctctccactcctcaaggg
ctacaatttaagacgatcacagagaccaccgtggaggtgcagtgggagcccttctcattt
tccttcgatgggtgggaaatcagcttcattccaaagaacaatgaagggggagtgattgct
caggtccccagcgatgttacgtcctttaaccagacaggactaaagcctggggaggaatac
attgtcaatgtggtggctctgaaagaacaggcccgcagcccccctacctcggccagcgtc
tccacagtcattgacggccccacgcagatcctggttcgcgatgtctcggacactgtggct
tttgtggagtggattccccctcgagccaaagtcgatttcattcttttgaaatatggcctg
gtgggcggggaaggtgggaggaccaccttccggctgcagcctcccctgagccaatactca
gtgcaggccctgcggcctggctcccgatacgaggtgtcagtcagtgccgtccgagggacc
aacgagagcgattctgccaccactcagttcacaacagagatcgatgcccccaagaacttg
cgagttggttctcgcacagcaaccagccttgacctcgagtgggataacagtgaagccgaa
gttcaggagtacaaggttgtgtacagcaccctggcgggtgagcaatatcatgaggtactg
gtccccaggggcattggtccaaccaccagggccaccctgacagatctggtacctggcact
gagtatggagttggaatatctgccgtcatgaactcacagcaaagcgtgccagccaccatg
aatgccaggactgaacttgacagtccccgagacctcatggtgacagcctcctcggagacc
tccatctccctcatctggaccaaggccagtggccccattgaccactaccgaattaccttt
accccatcctctgggattgcctcagaagtcaccgtacccaaggacaggacctcatacaca
ctaacagatctagagcctggggcagagtacatcatttccgtcactgctgagaggggtcgg
cagcagagcttggagtccactgtggatgctttcacaggcttccgtcccatctctcatctg
cacttttctcatgtgacctcctccagtgtgaacatcacttggagtgatccatctccccca
gcagacagactcattcttaactacagccccagggatgaggaggaagagatgatggaggtc
tccctggatgccaccaagaggcatgctgtcctgatgggcctgcaaccagccacagagtat
attgtgaaccttgtggctgtccatggcacagtgacctctgagcccattgtgggctccatc
accacaggaattgatcccccaaaagacatcacaattagcaatgtgaccaaggactcagtg
atggtctcctggagccctcctgttgcatctttcgattactaccgagtatcatatcgaccc
acccaagtgggacgactagacagctcagtggtgcccaacactgtgacagaattcaccatc
accagactgaacccagctaccgaatacgaaatcagcctcaacagcgtgcggggcagggag
gaaagcgagcgcatctgtactcttgtgcacacagccatggacaaccctgtggatctgatt
gctaccaatatcactccaacagaagccctgctgcagtggaaggcaccagtgggtgaggtg
gagaactacgtcattgttcttacacactttgcagtcgctggagagaccatccttgttgac
ggagtcagtgaggaatttcggcttgttgacctgcttcctagcacccactatactgccacc
atgtatgccaccaatggacctctcaccagtggcaccatcagcaccaacttttctactctc
ctggaccctccggcaaacctgacagccagtgaagtcaccagacaaagtgccctgatctcc
tggcagcctcccagggcagagattgaaaattatgtcttgacctacaaatccaccgatgga
agccgcaaggagctgattgtggatgcagaagacacctggattcgactggagggcctgttg
gagaacacagactacacggtgctcctgcaggcagcacaggacaccacgtggagcagcatc
acctccaccgctttcaccacaggaggccgggtgttccctcatccccaagactgtgcccag
catttgatgaatggagacactttgagtggggtttaccccatcttcctcaatggggagctg
agccagaaattacaagtgtactgtgatatgaccaccgacgggggcggctggattgtattc
cagaggcggcagaatggccaaactgattttttccggaaatgggctgattaccgtgttggc
ttcgggaacgtggaggatgagttctggctggggctggacaatatacacaggatcacatcc
cagggccgctatgagctgcgcgtggacatgcgggatggccaagaggccgccttcgcctcc
tacgacaggttctctgtcgaggacagcagaaacctgtacaaactccgcataggaagctac
aacggcactgcgggggactccctcagctatcatcaaggacgccctttctccacagaggat
agagacaatgatgttgcagtgactaactgtgccatgtcgtacaagggagcatggtggtat
aagaactgccaccggaccaacctcaatgggaagtacggggagtccaggcacagtcagggc
atcaactggtaccattggaaaggccatgagttctccatcccctttgtggaaatgaagatg
cgcccctacaaccaccgtctcatggcagggagaaaacggcagtccttacagttctga

KEGG   Homo sapiens (human): 7148
Entry
7148              CDS       T01001                                 
Symbol
TNXB, EDS3, EDSCLL, EDSCLL1, HXBL, TENX, TN-X, TNX, TNXB1, TNXB2, TNXBS, VUR8, XB, XBS
Name
(RefSeq) tenascin XB
  KO
K06252  tenascin
Organism
hsa  Homo sapiens (human)
Pathway
hsa04151  PI3K-Akt signaling pathway
hsa04510  Focal adhesion
hsa04512  ECM-receptor interaction
hsa04518  Integrin signaling
hsa05165  Human papillomavirus infection
hsa05206  MicroRNAs in cancer
Network
nt06548  Integrin signaling
  Element
N01974  Integrin alpha9beta1 signaling
N01981  Integrin alpha8beta1 signaling
N01983  Integrin alphaVbeta3 signaling
N01985  Integrin alphaVbeta6 signaling
Disease
H00802  Ehlers-Danlos syndrome
H01037  Vesicoureteral reflux
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04151 PI3K-Akt signaling pathway
    7148 (TNXB)
  09133 Signaling molecules and interaction
   04512 ECM-receptor interaction
    7148 (TNXB)
   04518 Integrin signaling
    7148 (TNXB)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    7148 (TNXB)
 09160 Human Diseases
  09161 Cancer: overview
   05206 MicroRNAs in cancer
    7148 (TNXB)
  09172 Infectious disease: viral
   05165 Human papillomavirus infection
    7148 (TNXB)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   00536 Glycosaminoglycan binding proteins [BR:hsa00536]
    7148 (TNXB)
Glycosaminoglycan binding proteins [BR:hsa00536]
 Heparan sulfate / Heparin
  Extracellular matrix molecules
   7148 (TNXB)
SSDB
Motif
Pfam: fn3 EGF_TEN EGF_Teneurin Fibrinogen_C Pur_ac_phosph_N FN3_DSCAM-DSCAML_C Fn3_Dep-1_3rd EGF_2 EGF_Tenascin NDNF Fn3_Dep-1_2nd
Other DBs
NCBI-GeneID: 7148
NCBI-ProteinID: NP_001352205
OMIM: 600985
HGNC: 11976
Ensembl: ENSG00000168477
UniProt: P22105
Structure
LinkDB
Position
6:complement(32041153..32109338)
AA seq 4244 aa
MMPAQYALTSSLVLLVLLSTARAGPFSSRSNVTLPAPRPPPQPGGHTVGAGVGSPSSQLY
EHTVEGGEKQVVFTHRINLPPSTGCGCPPGTEPPVLASEVQALRVRLEILEELVKGLKEQ
CTGGCCPASAQAGTGQTDVRTLCSLHGVFDLSRCTCSCEPGWGGPTCSDPTDAEIPPSSP
PSASGSCPDDCNDQGRCVRGRCVCFPGYTGPSCGWPSCPGDCQGRGRCVQGVCVCRAGFS
GPDCSQRSCPRGCSQRGRCEGGRCVCDPGYTGDDCGMRSCPRGCSQRGRCENGRCVCNPG
YTGEDCGVRSCPRGCSQRGRCKDGRCVCDPGYTGEDCGTRSCPWDCGEGGRCVDGRCVCW
PGYTGEDCSTRTCPRDCRGRGRCEDGECICDTGYSGDDCGVRSCPGDCNQRGRCEDGRCV
CWPGYTGTDCGSRACPRDCRGRGRCENGVCVCNAGYSGEDCGVRSCPGDCRGRGRCESGR
CMCWPGYTGRDCGTRACPGDCRGRGRCVDGRCVCNPGFTGEDCGSRRCPGDCRGHGLCED
GVCVCDAGYSGEDCSTRSCPGGCRGRGQCLDGRCVCEDGYSGEDCGVRQCPNDCSQHGVC
QDGVCICWEGYVSEDCSIRTCPSNCHGRGRCEEGRCLCDPGYTGPTCATRMCPADCRGRG
RCVQGVCLCHVGYGGEDCGQEEPPASACPGGCGPRELCRAGQCVCVEGFRGPDCAIQTCP
GDCRGRGECHDGSCVCKDGYAGEDCGEEVPTIEGMRMHLLEETTVRTEWTPAPGPVDAYE
IQFIPTTEGASPPFTARVPSSASAYDQRGLAPGQEYQVTVRALRGTSWGLPASKTITTMI
DGPQDLRVVAVTPTTLELGWLRPQAEVDRFVVSYVSAGNQRVRLEVPPEADGTLLTDLMP
GVEYVVTVTAERGRAVSYPASVRANTGSSPLGLLGTTDEPPPSGPSTTQGAQAPLLQQRP
QELGELRVLGRDETGRLRVVWTAQPDTFAYFQLRMRVPEGPGAHEEVLPGDVRQALVPPP
PPGTPYELSLHGVPPGGKPSDPIIYQGIMDKDEEKPGKSSGPPRLGELTVTDRTSDSLLL
RWTVPEGEFDSFVIQYKDRDGQPQVVPVEGPQRSAVITSLDPGRKYKFVLYGFVGKKRHG
PLVAEAKILPQSDPSPGTPPHLGNLWVTDPTPDSLHLSWTVPEGQFDTFMVQYRDRDGRP
QVVPVEGPERSFVVSSLDPDHKYRFTLFGIANKKRYGPLTADGTTAPERKEEPPRPEFLE
QPLLGELTVTGVTPDSLRLSWTVAQGPFDSFMVQYKDAQGQPQAVPVAGDENEVTVPGLD
PDRKYKMNLYGLRGRQRVGPESVVAKTAPQEDVDETPSPTELGTEAPESPEEPLLGELTV
TGSSPDSLSLFWTVPQGSFDSFTVQYKDRDGRPRAVRVGGKESEVTVGGLEPGHKYKMHL
YGLHEGQRVGPVSAVGVTAPQQEETPPATESPLEPRLGELTVTDVTPNSVGLSWTVPEGQ
FDSFIVQYKDKDGQPQVVPVAADQREVTVYNLEPERKYKMNMYGLHDGQRMGPLSVVIVT
APLPPAPATEASKPPLEPRLGELTVTDITPDSVGLSWTVPEGEFDSFVVQYKDRDGQPQV
VPVAADQREVTIPDLEPSRKYKFLLFGIQDGKRRSPVSVEAKTVARGDASPGAPPRLGEL
WVTDPTPDSLRLSWTVPEGQFDSFVVQFKDKDGPQVVPVEGHERSVTVTPLDAGRKYRFL
LYGLLGKKRHGPLTADGTTEARSAMDDTGTKRPPKPRLGEELQVTTVTQNSVGLSWTVPE
GQFDSFVVQYKDRDGQPQVVPVEGSLREVSVPGLDPAHRYKLLLYGLHHGKRVGPISAVA
ITAGREETETETTAPTPPAPEPHLGELTVEEATSHTLHLSWMVTEGEFDSFEIQYTDRDG
QLQMVRIGGDRNDITLSGLESDHRYLVTLYGFSDGKHVGPVHVEALTVPEEEKPSEPPTA
TPEPPIKPRLGELTVTDATPDSLSLSWTVPEGQFDHFLVQYRNGDGQPKAVRVPGHEEGV
TISGLEPDHKYKMNLYGFHGGQRMGPVSVVGVTAAEEETPSPTEPSMEAPEPAEEPLLGE
LTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGRPQVVRVGGEESEVTVGGLEPGRKYK
MHLYGLHEGRRVGPVSAVGVTAPEEESPDAPLAKLRLGQMTVRDITSDSLSLSWTVPEGQ
FDHFLVQFKNGDGQPKAVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPVSAVGLT
APGKDEEMAPASTEPPTPEPPIKPRLEELTVTDATPDSLSLSWTVPEGQFDHFLVQYKNG
DGQPKATRVPGHEDRVTISGLEPDNKYKMNLYGFHGGQRVGPVSAIGVTAAEEETPSPTE
PSMEAPEPPEEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGRPQVVRVGGE
ESEVTVGGLEPGRKYKMHLYGLHEGRRVGPVSTVGVTAPQEDVDETPSPTEPGTEAPGPP
EEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGRPQAVRVGGQESKVTVRGL
EPGRKYKMHLYGLHEGRRLGPVSAVGVTEDEAETTQAVPTMTPEPPIKPRLGELTMTDAT
PDSLSLSWTVPEGQFDHFLVQYRNGDGQPKAVRVPGHEDGVTISGLEPDHKYKMNLYGFH
GGQRVGPISVIGVTAAEEETPSPTELSTEAPEPPEEPLLGELTVTGSSPDSLSLSWTIPQ
GHFDSFTVQYKDRDGRPQVMRVRGEESEVTVGGLEPGRKYKMHLYGLHEGRRVGPVSTVG
VTAPEDEAETTQAVPTTTPEPPNKPRLGELTVTDATPDSLSLSWMVPEGQFDHFLVQYRN
GDGQPKVVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPISVIGVTAAEEETPAPT
EPSTEAPEPPEEPLLGELTVTGSSPDSLSLSWTIPQGRFDSFTVQYKDRDGRPQVVRVRG
EESEVTVGGLEPGCKYKMHLYGLHEGQRVGPVSAVGVTAPKDEAETTQAVPTMTPEPPIK
PRLGELTVTDATPDSLSLSWMVPEGQFDHFLVQYRNGDGQPKAVRVPGHEDGVTISGLEP
DHKYKMNLYGFHGGQRVGPVSAIGVTEEETPSPTEPSTEAPEAPEEPLLGELTVTGSSPD
SLSLSWTVPQGRFDSFTVQYKDRDGQPQVVRVRGEESEVTVGGLEPGRKYKMHLYGLHEG
QRVGPVSTVGITAPLPTPLPVEPRLGELAVAAVTSDSVGLSWTVAQGPFDSFLVQYRDAQ
GQPQAVPVSGDLRAVAVSGLDPARKYKFLLFGLQNGKRHGPVPVEARTAPDTKPSPRLGE
LTVTDATPDSVGLSWTVPEGEFDSFVVQYKDKDGRLQVVPVAANQREVTVQGLEPSRKYR
FLLYGLSGRKRLGPISADSTTAPLEKELPPHLGELTVAEETSSSLRLSWTVAQGPFDSFV
VQYRDTDGQPRAVPVAADQRTVTVEDLEPGKKYKFLLYGLLGGKRLGPVSALGMTAPEED
TPAPELAPEAPEPPEEPRLGVLTVTDTTPDSMRLSWSVAQGPFDSFVVQYEDTNGQPQAL
LVDGDQSKILISGLEPSTPYRFLLYGLHEGKRLGPLSAEGTTGLAPAGQTSEESRPRLSQ
LSVTDVTTSSLRLNWEAPPGAFDSFLLRFGVPSPSTLEPHPRPLLQRELMVPGTRHSAVL
RDLRSGTLYSLTLYGLRGPHKADSIQGTARTLSPVLESPRDLQFSEIRETSAKVNWMPPP
SRADSFKVSYQLADGGEPQSVQVDGQARTQKLQGLIPGARYEVTVVSVRGFEESEPLTGF
LTTVPDGPTQLRALNLTEGFAVLHWKPPQNPVDTYDVQVTAPGAPPLQAETPGSAVDYPL
HDLVLHTNYTATVRGLRGPNLTSPASITFTTGLEAPRDLEAKEVTPRTALLTWTEPPVRP
AGYLLSFHTPGGQNQEILLPGGITSHQLLGLFPSTSYNARLQAMWGQSLLPPVSTSFTTG
GLRIPFPRDCGEEMQNGAGASRTSTIFLNGNRERPLNVFCDMETDGGGWLVFQRRMDGQT
DFWRDWEDYAHGFGNISGEFWLGNEALHSLTQAGDYSMRVDLRAGDEAVFAQYDSFHVDS
AAEYYRLHLEGYHGTAGDSMSYHSGSVFSARDRDPNSLLISCAVSYRGAWWYRNCHYANL
NGLYGSTVDHQGVSWYHWKGFEFSVPFTEMKLRPRNFRSPAGGG
NT seq 12735 nt   +upstreamnt  +downstreamnt
atgatgccagcccagtatgctctaacctccagcctggttctcctggtgctgctgagcaca
gccagagcaggccccttctcttcacggtccaatgtgacactgccagccccccggccccct
ccccagccagggggccacacagtgggggctggagtgggaagcccctcttctcagctttac
gagcacacagtggaaggaggggagaagcaggtggtattcacccaccgcattaacctgccc
ccttccactggctgtggctgtcccccaggcaccgagcccccagtccttgcttcagaggta
caggccctgagggtccgtctagagatcctggaggagttggtgaaggggctcaaggaacag
tgcactgggggatgttgtcctgcctctgcccaagctggcacaggtcagacagatgtgcgg
accctctgcagtctccatggtgtgtttgatctgagccgctgcacctgttcctgtgagcca
ggctggggtgggcccacctgctcagaccccacagatgctgagatccctccctcttcccca
ccctcagcctcggggtcctgcccagatgactgcaatgatcagggtcgctgtgtccgtggt
cgttgcgtgtgctttcccggctacactggccccagctgtggctggccatcctgtcccggg
gactgccaaggccgtgggcgctgcgtgcagggcgtgtgtgtgtgccgggcaggcttctca
ggccccgactgcagccagcgctcctgccctcgaggttgcagccagaggggacgctgtgag
ggtgggcgctgcgtgtgtgacccaggctacactggtgacgactgtggcatgaggagctgc
cctcgcggttgcagtcagagggggcgctgtgagaatgggcgctgcgtgtgtaaccccggc
tacactggcgaggactgtggggtgaggagctgccctcggggctgcagccagcggggacgc
tgcaaggacgggcgctgcgtgtgtgaccccggctacactggcgaggactgtggtacgcgg
agctgcccctgggactgtggcgagggcgggcgctgcgtggacggccgctgcgtgtgctgg
cccgggtacacaggcgaggactgcagcacgcggacatgtccgagggactgccggggccgc
gggcgctgcgaggacggcgaatgcatttgcgacacgggctacagcggggacgactgcggc
gtgcgcagctgccctggcgactgcaaccaaaggggccgctgcgaggacggccgctgcgtg
tgctggccggggtacactggaaccgattgcggctcgcgcgcctgcccacgcgactgtaga
ggtcgcgggcgctgcgagaacggcgtgtgtgtttgcaatgcgggctacagcggcgaggac
tgcggtgtgcgcagctgtcctggggactgtcgtggccggggccgctgtgagagtggccgc
tgcatgtgttggccggggtacacaggccgggactgcggcacgcgcgcctgtcctggcgac
tgtcgcgggcgcgggcgctgcgtggatggccgctgcgtgtgcaacccgggcttcaccggt
gaggactgtgggagccgtcgctgtcccggggactgccgtgggcacggcctttgcgaggat
ggcgtgtgcgtgtgtgacgcaggctactcaggggaagactgcagcacgcgcagctgcccc
gggggctgccgaggccgcggccagtgcctagatgggcggtgtgtgtgcgaggacggctac
tctggcgaggattgcggtgtgaggcagtgcccgaatgactgcagccagcacggcgtgtgc
caggacggtgtgtgcatctgttgggaaggctacgtgagtgaggactgcagcatccgcacc
tgcccctccaactgccacgggaggggccgctgtgaggaagggcgctgcctgtgcgaccca
ggctacaccggccctacctgtgccacccgcatgtgcccggctgactgccggggacgtggg
cggtgtgtgcaaggagtgtgcctgtgccacgtgggctatggcggtgaggactgcgggcag
gaagagcctccagccagcgcctgccctggaggctgcgggccccgggaactgtgccgggca
ggccagtgtgtgtgtgtagagggcttccgaggccctgactgtgccatccagacatgccca
ggggactgccgtggccgaggagagtgtcacgatggcagctgtgtctgcaaagatgggtat
gctggcgaagactgcggagaagaggtgccaaccattgagggcatgaggatgcatctcttg
gaggagacaacagttcggacagagtggaccccggctcctggccccgtggatgcctatgaa
attcagttcatccccacgacagagggggcgagccccccattcacagcacgggttccaagc
tctgcctcagcctatgaccagagaggactggcccctggacaggagtaccaggtcactgtc
cgagcccttcgagggaccagctggggccttcctgcctccaagaccatcaccaccatgatc
gatgggccccaggacctccgagtggtggctgtgacaccgacaacactggagcttggctgg
ctgcgtccccaggctgaggtggaccgatttgtggtgtcctacgtcagtgccggcaaccag
agggtgaggctggaagtgccccctgaagcagacgggacgctgctgactgacctgatgcca
ggcgtagaatatgtggtgactgtcacagcggagcggggccgggcagtcagctacccagct
tctgtcagggccaacacagggtcctcacccttgggcctcttggggactaccgatgagcct
cctccctcaggcccctcgacgacgcaaggggcccaggctcctctcctgcagcagcgcccc
caggagctgggagagttgagggtgctgggcagagatgagacagggcgcctccgtgtggtc
tggaccgcccagcctgacacctttgcctacttccaactgcgcatgcgggtgcccgagggg
ccgggggcacatgaggaagtgctgccaggggacgtccgccaggctctggtgcctccaccc
cctcctggaaccccgtatgagctgtcacttcatggggtccctcctgggggcaagccctct
gaccccatcatctaccaaggcattatggacaaggatgaggagaagcctgggaagtcctca
ggcccaccacgcctgggtgagctgacggtgacagacaggacctccgactccttgctcctg
cgctggacggtccccgagggcgagtttgactccttcgtgatccagtacaaagacagggac
gggcagccccaggtggtgcccgtggaaggaccccagcgctcggccgtcatcacctccctg
gatcctggccgcaagtacaaatttgtcctgtatgggtttgttggcaagaagaggcatggt
ccgctggtggctgaagccaagatcttgcctcagagtgacccaagtccagggactccaccc
cacctgggaaacctgtgggtgacagaccctaccccagattcactgcacctctcctggact
gtccctgagggccagtttgacaccttcatggtccagtacagggacagggatggacggccc
caggtggtacctgtggaagggcccgagcgttcatttgttgtctcctcactggaccctgac
cacaagtacagattcactctgtttggaattgcgaacaagaagcggtatggccccctcacg
gccgatggcaccactgctccagagaggaaagaggagcccccccgccctgagttcctggag
cagcccctcctgggggaactgacagtgaccggcgtgaccccagactccttgcgtctctca
tggacagtggcccagggccccttcgactcattcatggtccagtacaaggatgcacagggg
cagccccaggcagtgcctgttgcgggggatgagaatgaggttactgtccccggcctggat
cccgaccggaagtataagatgaacctctacgggcttcgtggcaggcagcgtgtggggccc
gagtctgtggtggccaagactgctcctcaggaggatgtggacgagacccccagccccaca
gaactgggcacggaggccccggagtcccccgaggagccgctcctgggggagctgacagtg
acaggatcctcccctgattcgctgagcctcttctggaccgtcccccagggcagcttcgac
tctttcaccgtgcagtacaaggacagggatgggcggccccgggcggtgcgtgttgggggc
aaggagagtgaggtcaccgtgggaggcctagagcccgggcacaagtacaagatgcacctg
tacggcctccacgaggggcagcgcgtgggcccggtgtccgccgtgggcgtgacagcccca
caacaagaagagacccctccagccactgagtccccgctggagccacgcctaggagagctg
acagtgacagatgtgacccccaactctgtgggcctctcctggacagtccccgagggccag
tttgactccttcatagtccagtacaaggacaaggacgggcagccccaggtggtgccggtg
gcggcagaccagcgagaggtcacagtctacaacctggagcctgagagaaaatataagatg
aacatgtatggactacatgatgggcaacgcatgggccccctgtctgtggtcatcgtgacg
gctcccctcccaccagccccagccacagaggcctccaagcctcccctggagccacgccta
ggggagctgacagtgacggatataacccctgactctgtgggcctctcatggacagtccct
gagggtgaattcgactcctttgtggttcagtacaaggacagggacgggcagccccaggtg
gtgcccgtggctgcagatcagcgggaggtcactatccctgacctggaaccctcccgcaag
tacaagttcctgctctttgggatccaggatgggaaacgacgcagcccagtctctgtggag
gcaaagacggttgcccgaggtgacgccagcccaggggccccaccccgccttggggagctg
tgggtgacagaccccaccccagactcactgcgcctctcctggacggttcctgagggccag
ttcgactcttttgtggtccagttcaaggacaaagacgggccccaggtggtgcccgtggag
ggccatgagcgctctgtcactgtcacccctctggatgccggccgcaagtacagattcctc
ctctatggcctcctgggcaagaagcgccatggccctctcactgccgacggcaccacggaa
gcccggagtgctatggatgatactggaacaaagcgtcccccaaaaccccgtctgggggag
gagctgcaggtgaccaccgtgacccagaactccgtgggcctctcctggacagtccctgag
ggccagtttgactcctttgtggtccagtacaaagacagggacgggcagccccaggtggtg
cccgtggagggcagcctcagggaggtcagcgtgccgggcctggaccctgcccacaggtac
aagctgctgctctacgggctgcaccacggcaagcgtgtgggccccatctcggccgtcgcc
attactgccggcagggaagaaacggaaactgagaccacggccccgacccctccagcgcct
gagccccacctcggggagttgacagtggaggaggccacgtcacacaccctgcatctctcc
tggatggtgactgagggagaatttgactccttcgaaatccagtacacagatagagacggg
caactccaaatggtccgcataggaggtgaccggaatgacatcaccctctctggcctggaa
tccgaccacagatacctggtgaccctgtatggtttcagtgatgggaagcatgtaggtcct
gtccatgtcgaggccctgacagtcccggaggaggagaagccttcagaacctcccaccgca
acccccgagccccccatcaagcctcgcctgggggagctgaccgtgacagatgccacccct
gactccctcagcctgtcctggacagttcccgagggacagtttgaccacttcctggtccag
tacaggaatggagatgggcagcccaaggcagtgagggtgccagggcacgaggaaggggtc
accatctcgggcctggagccagaccataaatacaagatgaacctgtacggcttccacggt
ggccagcgcatgggccctgtgtctgtcgtcggggtgacagctgcagaggaagagaccccc
agccccacagaacccagcatggaggccccggagcccgctgaggagccgctcctgggggag
ctaacagtgacaggatcctcccctgactcgctgagcctctcctggaccgtcccccagggc
cgcttcgactccttcaccgtgcagtacaaggacagggacgggcggccccaggtggtgcgt
gttgggggcgaggagagtgaagtcaccgtggggggcctggagcctgggcgcaagtacaag
atgcacctgtacggcctccacgaggggcggcgcgtgggcccagtgtctgctgtgggcgtc
acggcccccgaagaggagtcccctgatgctcctcttgcaaagctgcgcctagggcagatg
acagtgagagacatcacctccgactccctcagcctctcctggacagtccccgagggccag
tttgaccatttcttggtccagtttaagaatggggacgggcagcccaaggcggtgcgggtg
ccgggacacgaggatggggtcaccatctcgggcctggagccagaccacaagtacaagatg
aacctgtacggcttccacggtggccagcgcgtgggccccgtgtctgctgttggtttaact
gccccaggaaaggatgaagaaatggccccagcctcgacagaacctcccacccctgaaccc
cccatcaagcctcgcctggaggagctgaccgtgacagatgcgacccctgactccctcagc
ctgtcctggacggttcccgagggacagtttgaccacttcctggtccagtacaagaatggg
gatgggcagcccaaggcaacacgggtgccaggacatgaggacagggtcaccatctccggc
ctggagccagacaacaagtacaagatgaacctgtacggcttccacggtggccagcgtgtg
ggccccgtgtctgccatcggggtgacagctgcagaggaagagacccccagccccacagaa
cccagcatggaggccccggagccccctgaggagccgctcctgggggagctaacagtgaca
ggatcctcccctgactcgctgagcctctcctggaccgtcccccagggccgcttcgactcc
ttcaccgtgcagtacaaggacagggacgggcggccccaggtggtgcgtgttgggggcgag
gagagcgaggtcaccgtggggggcctggagcctgggcgcaaatacaagatgcacctgtat
ggcctccacgaggggcggcgcgtgggcccggtgtccaccgtgggcgtgactgccccacaa
gaggatgtggacgagacccccagccctacagaaccaggcacagaggccccagggcccccc
gaggagcctctcctgggggagctgacagtgacaggatcctcccctgactcgctgagcctt
tcctggaccgtcccccagggccgctttgactccttcaccgtgcagtacaaggacagggac
gggcggccccaggcggtgcgtgttgggggccaggagagcaaggtcactgtgaggggcctg
gagcctgggcgcaagtacaagatgcacctgtacggcctccacgaggggcggcgcctgggc
ccggtgtctgccgtgggcgtcacagaggatgaagccgagaccacccaagcagtgcctacc
atgacccctgagccccccatcaagcctcgcctgggggagctgaccatgacagatgccacc
cctgactccctcagcctgtcctggacggttcccgagggccagtttgaccacttcctggtc
cagtacaggaatggggatgggcagcccaaggcggtgcgggtgccggggcacgaggacggg
gtcaccatctcaggcctggagccagaccataaatacaagatgaacctgtacggcttccac
ggtggccagcgcgtgggccccatctctgtcattggggtgacggctgcagaggaagagacc
cccagccccacggaactcagcactgaggccccggagccccctgaggagccgctcctgggg
gagctgacagtgacaggatcctcccctgactcgctgagcctctcctggaccatcccccag
ggccacttcgactccttcaccgtgcagtacaaggacagggacgggcggccccaggtgatg
cgtgtcaggggcgaggagagcgaggtcaccgtggggggcctggagcccgggcgcaaatac
aagatgcacctgtacggcctccacgaggggcggcgtgtgggcccggtgtccaccgtgggt
gtgacagctccagaggatgaagcagagaccacccaagcagtgcccaccacaacccctgag
ccccccaacaagcctcgcctcggggagctgaccgtgacagatgccacccctgactccctc
agcctgtcctggatggtccccgagggccagtttgaccacttcctggtccagtacaggaat
ggggatgggcagcccaaggtggtgcgggtgccggggcacgaggacggggtcaccatctca
ggcctggagccagaccacaagtacaagatgaacctgtacggcttccacggtggccagcgc
gtgggccccatctctgtcattggggtgacagctgcagaggaagaaactcccgcccccaca
gaacccagcacggaggccccggagccccctgaggagccgctcctgggggagctgacagtg
acaggatcctcccctgactcgctgagcctctcctggaccatcccccagggccgcttcgac
tccttcactgtgcagtacaaggacagggacgggcggccccaggtggtgcgtgtcaggggc
gaggagagcgaggtcaccgtggggggcctggagcccgggtgcaaatacaagatgcacctg
tacggcctccacgaggggcagcgcgtgggcccagtgtccgctgtgggtgtgacagctcca
aaggatgaagccgagaccacccaagcagtgcctaccatgacccctgagccccccatcaag
cctcgcctgggggagctgaccgtgacagatgccacccccgactccctcagcctgtcctgg
atggttcccgagggccagtttgaccacttcctggtccagtacaggaatggggatgggcag
cccaaggcggtgcgggtgccggggcacgaggacggggtcaccatctcaggcctggagcca
gaccataaatacaagatgaacctgtacggcttccacggtggccagcgcgtaggccctgtg
tctgccattggggtgacggaggaagagacccccagccccacagaacccagcactgaggcc
ccggaggcccctgaggagccgctcctgggggagttgacagtgacaggatcctcccctgac
tcgctgagcctctcctggaccgtcccccagggccgcttcgactccttcaccgtgcagtac
aaggacagggacgggcagccccaggtggtgcgtgtcaggggcgaggagagcgaggtcacc
gtggggggcctggagcccgggcgcaaatacaagatgcatctgtacggcctccacgagggg
cagcgcgtgggcccagtgtccaccgtgggcatcacggcgcccctgcccacaccactgccg
gtggagccccgcctgggggagctggcggtggcggccgtgacctcggactcagtgggcctc
tcatggacggtggcccagggcccctttgactccttcctggtacagtacagggacgcgcag
gggcagccccaggcagtgcctgtgagcggagacctccgagcggtcgccgtctcggggctg
gacccggcccgcaagtacaagttcctgctctttggactccagaatgggaaacgccacggc
ccagtccctgtggaggccaggaccgccccagacaccaaaccgtctccccgcctgggggag
ctgactgtgacagatgcgacccctgactccgtgggcctctcgtggacggtccctgagggc
gaattcgactccttcgtggtccagtacaaggataaggatggtcggctccaggtggtgccg
gtggcagccaaccagcgggaggtcacagtccagggcctggagcccagtaggaaatacagg
ttcctgctctatggtctgtcaggcaggaaacgactgggccccatctctgctgacagcacc
acagctcccctggagaaggagctacctccccacctgggggaactgaccgtggctgaggag
acctccagctctctgcgcctgtcctggacggtagcccagggcccctttgactccttcgtg
gtccagtacagggacacggacgggcagcccagggcagtgcctgtggccgcagaccagcgc
acagtcaccgtagaggacctggagcctggcaagaaatacaagtttctgctctacgggctc
cttgggggaaagcgcctgggcccggtctctgccctgggaatgacagccccagaagaggac
acaccagccccagagttagccccagaggcccctgagcctcctgaagagccccgcctagga
gtgctgaccgtgaccgacacaaccccagactccatgcgcctctcgtggagcgtggcccag
ggcccctttgattccttcgtggtccagtatgaggacacgaacgggcagccccaggccttg
ctcgtggacggcgaccagagcaagatcctcatctcaggcctggagcccagcaccccctac
aggttcctcctctatggcctccatgaagggaagcgcctggggcccctctcagctgagggc
accacagggctggctcctgctggtcagacctcagaggagtcaaggccccgcctgtcccag
ctgtctgtgactgacgtgaccaccagttcactgaggctcaactgggaggccccaccgggg
gccttcgactccttcctgctccgctttggggttccatcaccaagcactctggagccgcat
ccgcgtccactgctgcagcgcgagctgatggtgccggggacgcggcactcggccgtgctc
cgggacctgcgttccgggactctgtacagcctgacactgtatgggctgcgaggaccccac
aaggccgacagcatccagggaaccgcccgcaccctcagcccagttctggagagcccccgt
gacctccaattcagtgaaatcagggagacctcagccaaggtcaactggatgcccccacca
tcccgggcggacagcttcaaagtctcctaccagctggcggacggaggggagcctcagagt
gtgcaggtggatggccaggcccggacccagaaactccaggggctgatcccaggcgctcgc
tatgaggtgaccgtggtctcggtccgaggctttgaggagagtgagcctctcacaggcttc
ctcaccacggttcctgacggtcccacacagttgcgtgcactgaacttgaccgagggattc
gccgtgctgcactggaagcccccccagaatcctgtggacacctatgacgtccaggtcaca
gcccctggggccccgcctctgcaggcggagaccccaggcagcgcggtggactaccccctg
catgaccttgtcctccacaccaactacaccgccacagtgcgtggcctgcggggccccaac
ctcacttccccagccagcatcaccttcaccacagggctagaggcccctcgggacttggag
gccaaggaagtgaccccccgcaccgccctgctcacttggactgagcccccagtccggccc
gcaggctacctgctcagcttccacacccctggtggacagaaccaggagatcctgctccca
ggagggatcacatctcaccagctccttggcctctttccctccacctcctacaatgcacgg
ctccaggccatgtggggccagagcctcctgccgcccgtgtccacctctttcaccacgggt
gggctgcggatccccttccccagggactgcggggaggagatgcagaacggagccggtgcc
tccaggaccagcaccatcttcctcaacggcaaccgcgagcggcccctgaacgtgttttgc
gacatggagactgatgggggcggctggctggtgttccagcgccgcatggatggacagaca
gacttctggagggactgggaggactatgcccatggttttgggaacatctctggagagttc
tggctgggcaatgaggccctgcacagcctgacacaggcaggtgactactccatgcgcgtg
gacctgcgggctggggacgaggctgtgttcgcccagtacgactccttccacgtagactcg
gctgcggagtactaccgcctccacttggagggctaccacggcaccgcaggggactccatg
agctaccacagcggcagtgtcttctctgcccgtgatcgggaccccaacagcttgctcatc
tcctgcgctgtctcctaccgaggggcctggtggtacaggaactgccactacgccaacctc
aacgggctctacgggagcacagtggaccatcagggagtgagctggtaccactggaagggc
ttcgagttctcggtgcccttcacggaaatgaagctgagaccaagaaactttcgctcccca
gcggggggaggctga

KEGG   Homo sapiens (human): 1834
Entry
1834              CDS       T01001                                 
Symbol
DSPP, DFNA39, DGI1, DMP3, DPP, DSP
Name
(RefSeq) dentin sialophosphoprotein
  KO
K23573  dentin sialophosphoprotein
Organism
hsa  Homo sapiens (human)
Pathway
hsa04512  ECM-receptor interaction
hsa04518  Integrin signaling
Network
nt06548  Integrin signaling
  Element
N01980  Integrin alpha5beta1 signaling
N01985  Integrin alphaVbeta6 signaling
Disease
H00432  Hereditary dentine disorders
H00604  Deafness, autosomal dominant
H02348  Dentin dysplasia
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04512 ECM-receptor interaction
    1834 (DSPP)
   04518 Integrin signaling
    1834 (DSPP)
SSDB
Other DBs
NCBI-GeneID: 1834
NCBI-ProteinID: NP_055023
OMIM: 125485
HGNC: 3054
Ensembl: ENSG00000152591
UniProt: Q9NZW4
LinkDB
Position
4:87608529..87616873
AA seq 1301 aa
MKIITYFCIWAVAWAIPVPQSKPLERHVEKSMNLHLLARSNVSVQDELNASGTIKESGVL
VHEGDRGRQENTQDGHKGEGNGSKWAEVGGKSFSTYSTLANEEGNIEGWNGDTGKAETYG
HDGIHGKEENITANGIQGQVSIIDNAGATNRSNTNGNTDKNTQNGDVGDAGHNEDVAVVQ
EDGPQVAGSNNSTDNEDEIIENSCRNEGNTSEITPQINSKRNGTKEAEVTPGTGEDAGLD
NSDGSPSGNGADEDEDEGSGDDEDEEAGNGKDSSNNSKGQEGQDHGKEDDHDSSIGQNSD
SKEYYDPEGKEDPHNEVDGDKTSKSEENSAGIPEDNGSQRIEDTQKLNHRESKRVENRIT
KESETHAVGKSQDKGIEIKGPSSGNRNITKEVGKGNEGKEDKGQHGMILGKGNVKTQGEV
VNIEGPGQKSEPGNKVGHSNTGSDSNSDGYDSYDFDDKSMQGDDPNSSDESNGNDDANSE
SDNNSSSRGDASYNSDESKDNGNGSDSKGAEDDDSDSTSDTNNSDSNGNGNNGNDDNDKS
DSGKGKSDSSDSDSSDSSNSSDSSDSSDSDSSDSNSSSDSDSSDSDSSDSSDSDSSDSSN
SSDSSDSSDSSDSSDSSDSSDSKSDSSKSESDSSDSDSKSDSSDSNSSDSSDNSDSSDSS
NSSNSSDSSDSSDSSDSSSSSDSSNSSDSSDSSDSSNSSESSDSSDSSDSDSSDSSDSSN
SNSSDSDSSNSSDSSDSSNSSDSSDSSDSSNSSDSSDSSDSSNSSDSSDSSDSSDSSDSS
NSSDSNDSSNSSDSSDSSNSSDSSNSSDSSDSSDSSDSDSSNSSDSSNSSDSSDSSNSSD
SSDSSDSSDGSDSDSSNRSDSSNSSDSSDSSDSSNSSDSSDSSDSNESSNSSDSSDSSNS
SDSDSSDSSNSSDSSDSSNSSDSSESSNSSDNSNSSDSSNSSDSSDSSDSSNSSDSSNSS
DSSNSSDSSDSNSSDSSDSSNSSDSSDSSDSSDSSDSSDSSNSSDSSDSSDSSDSSNSSD
SSNSSDSSNSSDSSDSSDSSDSSDSSDSSDSSDSSNSSDSSDSSDSSDSSDSSDSSDSSD
SSESSDSSDSSNSSDSSDSSDSSDSSDSSDSSDSSDSSDSSNSSDSSDSSDSSDSSDSSN
SSDSSDSSESSDSSDSSDSSDSSDSSDSSDSSDSSDSSNSSDSSDSSDSSDSSDSSDSSD
SSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSNESSDSSDSSDSSDSSNSSDSSDSSDSSD
STSDSNDESDSQSKSGNGNNNGSDSDSDSEGSDSNHSTSDD
NT seq 3906 nt   +upstreamnt  +downstreamnt
atgaagataattacatatttttgcatttgggcagtagcatgggccattccagttcctcaa
agcaaaccactggagagacatgtcgaaaaatccatgaatttgcatctcctagcaagatca
aatgtgtcagtacaggatgagttaaatgccagtggaaccatcaaagaaagtggtgtcctg
gtgcatgaaggtgatagaggaaggcaagagaatacccaagatggtcacaagggagaaggg
aatggctctaagtgggcagaagtaggagggaagagtttttctacatattccacattagca
aacgaagaggggaatattgagggctggaatggggacacaggaaaagcagaaacatatggt
catgatggaatacatgggaaagaagaaaacatcacagcaaatggcatccagggacaagta
agcatcattgacaatgctggagccacaaacagaagcaacactaatggaaatactgataag
aatacccaaaatggggatgttggcgatgcaggtcacaatgaggatgtcgctgttgtccaa
gaagatggacctcaagtagctggaagcaataacagtacagacaatgaggatgaaataatt
gagaattcctgtagaaacgagggtaatacaagtgaaataacacctcagatcaacagcaag
agaaatgggactaaggaagctgaggtaacaccaggcactggagaagatgctggcctggat
aattccgatgggagtcctagtgggaatggagcagatgaggatgaagacgagggttctggt
gatgatgaagatgaagaagcagggaatggaaaagacagtagtaataacagcaagggccag
gagggccaggaccatgggaaagaagatgatcatgatagtagcataggtcaaaattcagat
agtaaagaatattatgaccctgaaggcaaagaagatccccataatgaagttgatggagac
aagacctccaagagtgaggagaattctgctggtattccagaagacaatggcagccaaaga
atagaggacacccagaagctcaaccatagagaaagcaaacgcgtagaaaatagaatcacc
aaagaatcagagacacatgctgttgggaagagccaagataagggaatagaaatcaagggt
cccagcagtggcaacagaaatattaccaaagaagttgggaaaggcaacgaaggtaaagag
gataaaggacaacatggaatgatcttgggcaaaggcaatgtcaagacacaaggagaggtt
gtcaacatagaaggacctggccaaaaatcagaaccaggaaataaagttggacacagcaat
acaggtagtgacagcaatagtgatggatatgacagttatgattttgatgataagtccatg
caaggagatgatcccaatagcagtgatgaatctaatggcaatgatgatgctaattcagaa
agtgacaataacagcagtagccgaggagatgcttcttataactctgatgaatcaaaagat
aatggcaatggcagtgactcaaaaggagcagaagatgatgacagtgatagcacatcagac
actaataatagtgacagtaatggcaatggtaacaatgggaatgatgacaatgacaaatca
gacagtggcaaaggtaaatcagatagcagtgacagtgatagtagtgatagcagcaatagc
agtgatagtagtgacagcagtgacagtgacagcagtgatagcaacagtagcagtgatagt
gacagcagtgacagtgacagcagtgatagcagtgacagtgatagtagtgatagcagcaat
agcagtgacagtagtgacagcagtgatagcagtgacagtagtgatagtagtgacagcagt
gacagcaagtcagacagcagcaaatcagagagcgacagcagtgatagtgacagtaagtca
gacagcagtgacagcaacagcagtgacagtagtgacaacagtgatagcagcgacagcagc
aatagcagtaacagcagtgatagtagtgacagcagtgatagcagtgacagcagcagtagc
agtgacagcagcaacagcagtgatagtagtgacagtagtgacagcagcaatagcagtgag
agcagtgatagtagtgacagcagtgatagtgacagcagtgatagtagtgacagcagtaat
agtaacagcagcgatagtgacagcagcaacagcagcgatagcagtgacagcagcaacagc
agtgacagcagtgatagcagtgacagcagcaacagcagtgacagtagcgatagcagtgac
agcagcaacagcagtgacagcagtgatagcagtgacagcagtgatagtagtgacagcagc
aacagcagtgatagcaacgacagcagcaatagcagtgacagcagtgatagcagcaacagc
agtgatagcagcaacagcagtgatagcagtgatagcagtgacagcagtgatagcgacagc
agcaatagcagtgacagcagtaatagtagtgacagcagcgatagcagcaacagcagtgat
agcagcgacagcagcgatagcagtgacggcagtgatagcgacagcagcaatagaagtgac
agtagtaatagtagtgacagcagcgatagcagtgacagcagcaacagcagtgacagcagt
gatagcagtgacagcaacgaaagcagcaatagcagtgacagcagtgatagcagcaacagc
agtgatagtgacagcagtgatagcagcaacagcagtgacagcagtgatagcagcaacagc
agtgatagcagtgaaagcagtaatagtagtgacaacagcaatagcagtgacagcagcaac
agcagtgacagcagtgatagcagtgacagcagtaatagtagtgacagcagcaatagcagt
gacagcagcaacagcagtgacagcagtgatagcaatagcagcgacagcagtgacagcagc
aacagcagcgatagcagtgacagcagtgatagcagtgacagcagtgacagcagtgatagc
agcaacagcagtgatagcagtgacagcagtgacagcagtgatagcagtaatagtagtgac
agcagcaatagcagtgacagcagcaacagcagtgacagcagcgatagcagtgacagcagc
gatagcagtgacagcagcgatagcagtgacagcagtgacagcagcaatagcagtgacagc
agtgacagcagcgacagcagtgatagcagtgacagcagtgacagcagcgacagcagtgat
agcagtgaaagcagtgatagcagtgacagcagcaatagcagtgacagcagcgatagcagc
gacagcagcgacagcagcgatagcagtgacagcagcgatagcagtgacagcagtgacagc
agcaatagcagtgacagcagtgacagcagcgacagcagtgatagcagtgacagcagcaac
agcagtgacagcagtgacagcagtgaaagcagcgacagcagtgacagcagcgacagcagt
gacagcagcgatagcagcgacagcagcgacagcagcgatagcagtgacagcagcaatagc
agtgatagcagcgacagcagtgatagcagtgacagcagcgacagcagcgatagcagcgac
agcagcgatagtagtgatagcagtgacagcagtgacagcagcgacagcagtgacagcagc
gacagcagtgacagcagcgacagcagtgacagcaatgaaagcagcgacagcagtgacagc
agcgatagcagtgacagcagcaacagcagtgacagcagcgacagcagtgatagcagtgac
agcacatctgacagcaatgatgagagtgacagccagagcaagtctggtaacggtaacaac
aatggaagtgacagtgacagtgacagtgaaggcagtgacagtaaccactcaaccagtgat
gattag

KEGG   Homo sapiens (human): 7040
Entry
7040              CDS       T01001                                 
Symbol
TGFB1, CED, DPD1, IBDIMDE, LAP, TGF-beta1, TGFB, TGFbeta
Name
(RefSeq) transforming growth factor beta 1
  KO
K13375  transforming growth factor beta-1
Organism
hsa  Homo sapiens (human)
Pathway
hsa04010  MAPK signaling pathway
hsa04060  Cytokine-cytokine receptor interaction
hsa04068  FoxO signaling pathway
hsa04110  Cell cycle
hsa04148  Efferocytosis
hsa04218  Cellular senescence
hsa04350  TGF-beta signaling pathway
hsa04380  Osteoclast differentiation
hsa04390  Hippo signaling pathway
hsa04518  Integrin signaling
hsa04659  Th17 cell differentiation
hsa04672  Intestinal immune network for IgA production
hsa04926  Relaxin signaling pathway
hsa04932  Non-alcoholic fatty liver disease
hsa04933  AGE-RAGE signaling pathway in diabetic complications
hsa05140  Leishmaniasis
hsa05142  Chagas disease
hsa05144  Malaria
hsa05145  Toxoplasmosis
hsa05146  Amoebiasis
hsa05152  Tuberculosis
hsa05161  Hepatitis B
hsa05166  Human T-cell leukemia virus 1 infection
hsa05200  Pathways in cancer
hsa05205  Proteoglycans in cancer
hsa05210  Colorectal cancer
hsa05211  Renal cell carcinoma
hsa05212  Pancreatic cancer
hsa05220  Chronic myeloid leukemia
hsa05225  Hepatocellular carcinoma
hsa05226  Gastric cancer
hsa05321  Inflammatory bowel disease
hsa05323  Rheumatoid arthritis
hsa05410  Hypertrophic cardiomyopathy
hsa05414  Dilated cardiomyopathy
hsa05415  Diabetic cardiomyopathy
Network
nt06160  Human T-cell leukemia virus 1 (HTLV-1)
nt06162  Hepatitis B virus (HBV)
nt06218  TGFB signaling (cancer)
nt06225  HIF-1 signaling (cancer)
nt06260  Colorectal cancer
nt06261  Gastric cancer
nt06263  Hepatocellular carcinoma
nt06264  Renal cell carcinoma
nt06276  Chronic myeloid leukemia
nt06507  TGFB signaling
nt06535  Efferocytosis
nt06542  HIF signaling
nt06548  Integrin signaling
  Element
N00063  TGF-beta signaling pathway
N00079  HIF-1 signaling pathway
N00080  Loss of VHL to HIF-1 signaling pathway
N00081  Mutation-inactivated VHL to HIF-1 signaling pathway
N00531  HBV HBx to TGF-beta signaling pathway
N01460  Plasmin mediated activation of latent TGF-beta
N01773  PTGS2-PGE2-TGFB1 pathway
N01781  Activation of LXRs by oxysterols
N01980  Integrin alpha5beta1 signaling
N01981  Integrin alpha8beta1 signaling
N01983  Integrin alphaVbeta3 signaling
N01984  Integrin alphaVbeta5 signaling
N01985  Integrin alphaVbeta6 signaling
N01986  Integrin alphaVbeta8 signaling
Disease
H00083  Allograft rejection
H00084  Graft-versus-host disease
H00218  Cystic fibrosis
H00434  Camurati-Engelmann disease
H02669  Inflammatory bowel disease, immunodeficiency, and encephalopathy
Drug target
Fresolimumab: D09620
Linavonkibart: D12801
Livmoniplimab: D12793
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04010 MAPK signaling pathway
    7040 (TGFB1)
   04350 TGF-beta signaling pathway
    7040 (TGFB1)
   04390 Hippo signaling pathway
    7040 (TGFB1)
   04068 FoxO signaling pathway
    7040 (TGFB1)
  09133 Signaling molecules and interaction
   04060 Cytokine-cytokine receptor interaction
    7040 (TGFB1)
   04518 Integrin signaling
    7040 (TGFB1)
 09140 Cellular Processes
  09141 Transport and catabolism
   04148 Efferocytosis
    7040 (TGFB1)
  09143 Cell growth and death
   04110 Cell cycle
    7040 (TGFB1)
   04218 Cellular senescence
    7040 (TGFB1)
 09150 Organismal Systems
  09151 Immune system
   04659 Th17 cell differentiation
    7040 (TGFB1)
   04672 Intestinal immune network for IgA production
    7040 (TGFB1)
  09152 Endocrine system
   04926 Relaxin signaling pathway
    7040 (TGFB1)
  09158 Development and regeneration
   04380 Osteoclast differentiation
    7040 (TGFB1)
 09160 Human Diseases
  09161 Cancer: overview
   05200 Pathways in cancer
    7040 (TGFB1)
   05205 Proteoglycans in cancer
    7040 (TGFB1)
  09162 Cancer: specific types
   05210 Colorectal cancer
    7040 (TGFB1)
   05212 Pancreatic cancer
    7040 (TGFB1)
   05225 Hepatocellular carcinoma
    7040 (TGFB1)
   05226 Gastric cancer
    7040 (TGFB1)
   05220 Chronic myeloid leukemia
    7040 (TGFB1)
   05211 Renal cell carcinoma
    7040 (TGFB1)
  09172 Infectious disease: viral
   05166 Human T-cell leukemia virus 1 infection
    7040 (TGFB1)
   05161 Hepatitis B
    7040 (TGFB1)
  09171 Infectious disease: bacterial
   05152 Tuberculosis
    7040 (TGFB1)
  09174 Infectious disease: parasitic
   05146 Amoebiasis
    7040 (TGFB1)
   05144 Malaria
    7040 (TGFB1)
   05145 Toxoplasmosis
    7040 (TGFB1)
   05140 Leishmaniasis
    7040 (TGFB1)
   05142 Chagas disease
    7040 (TGFB1)
  09163 Immune disease
   05323 Rheumatoid arthritis
    7040 (TGFB1)
   05321 Inflammatory bowel disease
    7040 (TGFB1)
  09166 Cardiovascular disease
   05410 Hypertrophic cardiomyopathy
    7040 (TGFB1)
   05414 Dilated cardiomyopathy
    7040 (TGFB1)
   05415 Diabetic cardiomyopathy
    7040 (TGFB1)
  09167 Endocrine and metabolic disease
   04932 Non-alcoholic fatty liver disease
    7040 (TGFB1)
   04933 AGE-RAGE signaling pathway in diabetic complications
    7040 (TGFB1)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03110 Chaperones and folding catalysts [BR:hsa03110]
    7040 (TGFB1)
  09183 Protein families: signaling and cellular processes
   04052 Cytokines and neuropeptides [BR:hsa04052]
    7040 (TGFB1)
   00536 Glycosaminoglycan binding proteins [BR:hsa00536]
    7040 (TGFB1)
Chaperones and folding catalysts [BR:hsa03110]
 Intramolecular chaperones
  Others
   7040 (TGFB1)
Cytokines and neuropeptides [BR:hsa04052]
 Cytokines
  Transforming growth factors (RSTK binding)
   7040 (TGFB1)
Glycosaminoglycan binding proteins [BR:hsa00536]
 Heparan sulfate / Heparin
  Growth factors/receptors
   7040 (TGFB1)
SSDB
Motif
Pfam: TGFb_propeptide TGF_beta
Other DBs
NCBI-GeneID: 7040
NCBI-ProteinID: NP_000651
OMIM: 190180
HGNC: 11766
Ensembl: ENSG00000105329
UniProt: P01137 A0A499FJK2
Structure
LinkDB
Position
19:complement(41330323..41353922)
AA seq 390 aa
MPPSGLRLLPLLLPLLWLLVLTPGRPAAGLSTCKTIDMELVKRKRIEAIRGQILSKLRLA
SPPSQGEVPPGPLPEAVLALYNSTRDRVAGESAEPEPEPEADYYAKEVTRVLMVETHNEI
YDKFKQSTHSIYMFFNTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQKYSNNSWR
YLSNRLLAPSDSPEWLSFDVTGVVRQWLSRGGEIEGFRLSAHCSCDSRDNTLQVDINGFT
TGRRGDLATIHGMNRPFLLLMATPLERAQHLQSSRHRRALDTNYCFSSTEKNCCVRQLYI
DFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQA
LEPLPIVYYVGRKPKVEQLSNMIVRSCKCS
NT seq 1173 nt   +upstreamnt  +downstreamnt
atgccgccctccgggctgcggctgctgccgctgctgctaccgctgctgtggctactggtg
ctgacgcctggccggccggccgcgggactatccacctgcaagactatcgacatggagctg
gtgaagcggaagcgcatcgaggccatccgcggccagatcctgtccaagctgcggctcgcc
agccccccgagccagggggaggtgccgcccggcccgctgcccgaggccgtgctcgccctg
tacaacagcacccgcgaccgggtggccggggagagtgcagaaccggagcccgagcctgag
gccgactactacgccaaggaggtcacccgcgtgctaatggtggaaacccacaacgaaatc
tatgacaagttcaagcagagtacacacagcatatatatgttcttcaacacatcagagctc
cgagaagcggtacctgaacccgtgttgctctcccgggcagagctgcgtctgctgaggctc
aagttaaaagtggagcagcacgtggagctgtaccagaaatacagcaacaattcctggcga
tacctcagcaaccggctgctggcacccagcgactcgccagagtggttatcttttgatgtc
accggagttgtgcggcagtggttgagccgtggaggggaaattgagggctttcgccttagc
gcccactgctcctgtgacagcagggataacacactgcaagtggacatcaacgggttcact
accggccgccgaggtgacctggccaccattcatggcatgaaccggcctttcctgcttctc
atggccaccccgctggagagggcccagcatctgcaaagctcccggcaccgccgagccctg
gacaccaactattgcttcagctccacggagaagaactgctgcgtgcggcagctgtacatt
gacttccgcaaggacctcggctggaagtggatccacgagcccaagggctaccatgccaac
ttctgcctcgggccctgcccctacatttggagcctggacacgcagtacagcaaggtcctg
gccctgtacaaccagcataacccgggcgcctcggcggcgccgtgctgcgtgccgcaggcg
ctggagccgctgcccatcgtgtactacgtgggccgcaagcccaaggtggagcagctgtcc
aacatgatcgtgcgctcctgcaagtgcagctga

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