| Identification |
|---|
| HMDB Protein ID
| CDBP04889 |
| Secondary Accession Numbers
| Not Available |
| Name
| Stabilin-2 |
| Description
| Not Available |
| Synonyms
|
- 190 kDa form stabilin-2
- 190 kDa hyaluronan receptor for endocytosis
- FAS1 EGF-like and X-link domain-containing adhesion molecule 2
- FEEL-2
- Fasciclin, EGF-like, laminin-type EGF-like and link domain-containing scavenger receptor 2
- Hyaluronan receptor for endocytosis
|
| Gene Name
| STAB2 |
| Protein Type
| Enzyme |
| Biological Properties |
|---|
| General Function
| Involved in binding |
| Specific Function
| Phosphatidylserine receptor that enhances the engulfment of apoptotic cells. Hyaluronan receptor that binds to and mediates endocytosis of hyaluronic acid (HA). Acts also, in different species, as a primary systemic scavenger receptor for heparin (Hep), chondroitin sulfate (CS), dermatan sulfate (DS), nonglycosaminoglycan (GAG), acetylated low-density lipoprotein (AcLDL), pro-collagen propeptides and advanced glycation end products (AGE). May serve to maintain tissue integrity by supporting extracellular matrix turnover or it may contribute to maintaining fluidity of bodily liquids by resorption of hyaluronan. Counter receptor which plays an important role in lymphocyte recruitment in the hepatic vasculature. Binds to both Gram-positive and Gram-negative bacteria and may play a role in defense against bacterial infection. The proteolytically processed 190 kDa form also functions as an endocytosis receptor for heparin internalisation as well as HA and CS |
| GO Classification
|
| Function |
| binding |
| pattern binding |
| polysaccharide binding |
| glycosaminoglycan binding |
| hyaluronic acid binding |
| Process |
| cell adhesion |
| cellular process |
|
| Cellular Location
|
- Cell membrane
- Cytoplasm
- Single-pass type I membrane protein
|
| Pathways
|
Not Available
|
| Gene Properties |
|---|
| Chromosome Location
| Chromosome:1 |
| Locus
| 12q23.3 |
| SNPs
| STAB2 |
| Gene Sequence
|
>7656 bp
ATGATGCTACAACATTTAGTAATTTTTTGTCTTGGATTGGTTGTACAAAATTTCTGCTCC
CCAGCTGAAACCACAGGGCAGGCAAGAAGATGTGATAGGAAGTCTCTTCTTACAATTAGG
ACCGAGTGCCGATCCTGCGCTCTCAACCTTGGAGTCAAGTGCCCGGATGGTTACACCATG
ATTACCAGTGGCTCTGTAGGGGTTCGAGATTGCAGGTACACCTTTGAGGTCAGAACATAC
TCTCTGTCTCTCCCCGGATGCCGCCATATTTGTAGGAAGGACTATCTCCAACCTCGGTGT
TGTCCTGGCCGCTGGGGCCCAGACTGTATAGAGTGCCCAGGTGGAGCGGGGTCACCCTGC
AATGGCAGAGGCAGTTGTGCTGAAGGCATGGAAGGAAATGGAACCTGCTCCTGCCAAGAA
GGGTTTGGTGGAACAGCCTGTGAAACCTGTGCTGACGACAACTTATTTGGACCCAGCTGT
TCATCAGTGTGCAACTGTGTGCATGGGGTGTGCAACAGTGGACTAGATGGCGATGGAACC
TGTGAGTGCTACTCTGCGTACACTGGCCCCAAGTGTGACAAGCCCATCCCTGAATGTGCA
GCCTTGCTCTGCCCAGAAAATTCCAGATGTTCGCCTTCCACTGAAGATGAAAACAAACTG
GAATGCAAATGCCTTCCCAATTACCGAGGCGATGGCAAATACTGCGACCCCATCAATCCA
TGTTTACGAAAAATCTGCCACCCTCATGCTCATTGTACGTACCTGGGACCAAATCGGCAC
AGTTGTACATGCCAAGAAGGCTACCGTGGGGATGGCCAAGTGTGCTTGCCTGTGGACCCC
TGCCAAATTAACTTTGGAAACTGCCCTACAAAGTCTACAGTGTGCAAATATGATGGGCCT
GGACAGTCTCACTGCGAGTGTAAGGAGCATTACCAGAATTTCGTACCTGGAGTGGGGTGC
AGTATGACTGATATATGTAAATCAGATAACCCGTGTCATAGGAATGCAAATTGCACCACC
GTCGCACCAGGCCGAACTGAATGCATTTGCCAGAAAGGTTACGTGGGTGATGGCTTAACG
TGTTATGGAAACATTATGGAGCGACTCAGAGAATTAAATACTGAACCCAGAGGAAAATGG
CAAGGAAGGCTGACCTCTTTCATCTCACTCCTAGACAAAGCTTATGCCTGGCCACTGAGT
AAGCTGGGACCCTTCACGGTGCTGTTACCTACAGACAAGGGACTGAAAGGATTCAATGTA
AATGAGCTTTTGGTGGATAATAAAGCTGCTCAATACTTTGTGAAACTCCACATAATTGCT
GGTCAGATGAACATCGAATATATGAATAACACAGACATGTTCTACACCTTGACTGGAAAG
TCGGGGGAAATCTTCAACAGCGATAAGGACAATCAAATAAAGCTTAAACTCCATGGAGGC
AAAAAGAAGGTAAAAATTATACAAGGGGACATCATTGCTTCCAATGGGCTTCTGCACATC
CTTGACAGAGCCATGGACAAGTTAGAACACACATTTGAGAGCAACAATGAGCAAACCATA
ATGACAATGCTACAACCAAGGTACAGCAAGTTCAGATCTTTGTTAGAGGAAACCAATTTG
GGACATGCCTTAGATGAGGATGGAGTTGGTGGACCATACACCATTTTTGTTCCAAATAAT
GAAGCATTGAATAACATGAAGGACGGCACTCTCGATTACCTCCTTTCTCCAGAGGGATCT
CGGAAGCTTCTGGAACTCGTCAGATACCACATTGTCCCATTTACCCAGCTTGAAGTGGCC
ACTCTCATCTCCACCCCTCACATCAGGAGCATGGCCAACCAGCTCATACAGTTCAACACC
ACCGACAATGGACAGATTCTGGCAAATGATGTGGCAATGGAAGAAATTGAGATCACTGCC
AAAAATGGCCGAATTTACACACTGACAGGAGTTCTCATTCCTCCCTCCATTGTCCCGATT
CTGCCCCATCGATGTGATGAAACAAAGAGAGAGATGAAACTGGGCACTTGTGTGAGCTGT
TCTCTGGTGTACTGGAGCAGATGTCCTGCTAACTCTGAGCCCACAGCACTCTTCACACAC
AGATGTGTCTACAGTGGCAGGTTTGGGAGCCTGAAGAGCGGCTGTGCCCGGTACTGCAAT
GCCACTGTGAAGATTCCAAAGTGCTGCAAAGGCTTCTATGGACCTGACTGCAACCAGTGT
CCAGGAGGCTTCTCAAATCCATGCTCAGGAAATGGACAGTGTGCAGATAGCCTCGGCGGC
AACGGGACATGCATTTGTGAGGAGGGCTTCCAAGGCTCCCAGTGTCAGTTCTGCTCTGAT
CCCAATAAATACGGACCTCGGTGTAACAAAAAATGCCTGTGCGTTCACGGAACATGCAAT
AACAGGATAGACAGCGATGGGGCCTGCCTCACTGGCACATGCAGAGACGGCTCTGCCGGG
AGACTCTGTGATAAGCAGACCTCAGCCTGTGGGCCCTATGTGCAGTTCTGTCACATCCAC
GCCACCTGTGAATACAGCAATGGGACAGCCAGTTGTATTTGCAAAGCAGGATATGAAGGA
GATGGAACTCTGTGTTCTGAGATGGACCCTTGCACAGGACTAACTCCAGGAGGCTGTAGC
CGCAATGCAGAATGCATCAAAACTGGCACGGGCACCCACACCTGCGTGTGTCAGCAGGGT
TGGACAGGGAATGGGAGAGACTGCTCGGAGATCAACAACTGCCTGCTGCCCAGTGCAGGC
GGCTGCCACGACAACGCATCCTGTTTGTATGTGGGTCCCGGGCAGAATGAGTGTGAGTGC
AAGAAAGGATTTCGAGGAAATGGGATTGACTGTGAACCAATAACTTCATGCTTGGAACAA
ACCGGGAAATGTCATCCATTGGCAAGCTGTCAATCTACTTCGTCTGGTGTCTGGAGCTGT
GTTTGTCAAGAGGGCTATGAAGGAGATGGCTTTCTGTGCTATGGAAACGCAGCAGTGGAA
TTGTCATTTCTCTCCGAAGCAGCTATATTTAACCGATGGATAAATAATGCTTCTCTACAA
CCCACACTGTCAGCCACCTCAAACCTCACTGTCCTCGTGCCTTCCCAACAAGCTACTGAG
GACATGGACCAGGATGAGAAAAGCTTCTGGTTGTCACAGAGCAATATTCCAGCCCTAATA
AAGTACCATATGCTACTAGGCACATACAGAGTGGCAGATCTGCAGACCCTGTCTTCTTCT
GACATGTTGGCAACATCTTTGCAGGGCAACTTCCTTCACTTGGCAAAGGTGGATGGGAAT
ATCACAATTGAAGGGGCCTCCATTGTCGATGGGGACAATGCAGCCACAAATGGAGTGATA
CACATCATCAACAAGGTGCTGGTCCCACAAAGACGTCTAACTGGCTCCTTACCAAACCTG
CTCATGCGGCTGGAACAGATGCCTGACTATTCCATCTTCCGGGGCTACATCATTCAATAT
AATCTGGCGAATGCAATTGAGGCTGCCGATGCCTACACAGTGTTTGCTCCAAACAACAAT
GCCATCGAGAATTACATCAGGGAGAAGAAAGTCTTGTCTCTAGAGGAGGACGTCCTCCGG
TATCATGTGGTCCTGGAGGAGAAACTCCTGAAGAATGACCTGCACAATGGCATGCATCGT
GAGACCATGCTGGGTTTCTCCTATTTCCTTAGCTTCTTTCTCCATAATGACCAGCTCTAT
GTAAATGAGGCTCCAATTAACTACACCAATGTAGCCACTGATAAGGGAGTGATCCATGGC
TTGGGAAAAGTTCTGGAAATTCAGAAGAACAGATGTGATAATAATGACACTACTATTATA
CGAGGAAGATGTAGGACATGCTCCTCAGAGCTGACCTGCCCATTCGGAACTAAATCTCTA
GGTAATGAGAAGAGGAGATGCATCTATACCTCCTATTTCATGGGAAGACGAACCCTGTTT
ATTGGGTGCCAGCCAAAATGTGTGAGAACCGTCATTACGAGAGAATGCTGTGCCGGCTTC
TTTGGCCCCCAATGCCAGCCCTGCCCAGGGAATGCCCAGAATGTCTGCTTTGGTAATGGC
ATCTGTTTGGATGGAGTGAATGGCACAGGTGTGTGTGAGTGTGGGGAGGGCTTCAGCGGC
ACAGCCTGCGAGACCTGCACCGAGGGCAAGTACGGCATCCACTGTGACCAAGCATGTTCT
TGTGTCCATGGGAGATGCAACCAAGGACCCTTGGGAGATGGCTCCTGTGACTGTGATGTT
GGCTGGCGAGGAGTGCATTGTGACAATGCAACCACAGAAGACAACTGCAATGGGACATGC
CATACCAGCGCCAACTGCCTCACCAACTCAGATGGTACAGCTTCATGCAAGTGTGCAGCA
GGATTCCAAGGAAACGGGACCATCTGCACAGCAATCAATGCCTGTGAGATCAGCAATGGA
GGTTGCTCTGCCAAGGCTGACTGTAAGAGAACCACCCCAGGAAGGCGAGTGTGCACGTGC
AAAGCAGGCTACACGGGTGATGGCATTGTGTGCCTGGAAATCAACCCGTGTTTGGAGAAC
CATGGTGGCTGTGACAAGAATGCGGAGTGCACACAGACAGGACCCAACCAGGCTGCCTGT
AACTGTTTGCCAGCATACACTGGAGATGGAAAGGTCTGCACACTCATCAATGTCTGCTTA
ACTAAAAATGGCGGCTGTAGTGAATTTGCCATCTGCAACCACACTGGGCAAGTAGAAAGG
ACTTGTACTTGCAAGCCAAACTACATTGGAGATGGATTTACCTGCCGCGGCAGCATTTAT
CAGGAGCTTCCCAAGAACCCGAAAACTTCCCAGTATTTCTTCCAGTTGCAGGAGCATTTC
GTGAAAGATCTGGTCGGCCCAGGCCCCTTCACTGTTTTTGCACCTTTATCTGCAGCCTTT
GATGAGGAAGCTCGGGTTAAAGACTGGGACAAATACGGTTTAATGCCCCAGGTTCTTCGG
TACCATGTGGTCGCCTGCCACCAGCTGCTTCTGGAAAACCTGAAATTGATCTCAAATGCT
ACTTCCCTCCAAGGAGAGCCAATAGTCATCTCCGTCTCTCAGAGCACGGTGTATATAAAT
AATAAGGCTAAGATCATATCCAGTGATATCATCAGTACTAATGGGATTGTTCATATCATA
GACAAATTGCTATCTCCCAAAAATTTGCTTATCACTCCCAAAGACAACTCTGGAAGAATT
CTGCAAAATCTTACGACTTTGGCAACAAACAATGGCTACATCAAATTTAGCAACTTAATA
CAGGACTCAGGTTTGCTGAGTGTCATCACCGATCCCATCCACACCCCAGTCACTCTCTTC
TGGCCCACCGACCAAGCCCTCCATGCCCTACCTGCTGAACAACAGGACTTCCTGTTCAAC
CAAGACAACAAGGACAAGCTGAAGGAGTATTTGAAGTTTCATGTGATACGAGATGCCAAG
GTTTTAGCTGTGGATCTTCCCACATCCACTGCCTGGAAGACCCTGCAAGGTTCAGAGCTG
AGTGTGAAATGTGGAGCTGGCAGGGACATCGGTGACCTCTTTCTGAATGGCCAAACCTGC
AGAATTGTGCAGCGGGAGCTCTTGTTTGACCTGGGTGTGGCCTACGGCATTGACTGTCTG
CTGATTGATCCCACCCTGGGGGGCCGCTGTGACACCTTTACTACTTTCGATGCCTCGGGG
GAGTGTGGGAGCTGTGTCAATACTCCCAGCTGCCCAAGGTGGAGTAAACCAAAGGGTGTG
AAGCAGAAGTGTCTCTACAACCTGCCCTTCAAGAGGAACCTGGAAGGCTGCCGGGAGCGG
TGCAGCCTGGTGATACAGATCCCCAGGTGCTGCAAGGGCTACTTCGGGCGAGACTGTCAG
GCCTGCCCTGGAGGACCAGATGCCCCGTGTAATAACCGGGGTGTCTGCCTTGATCAGTAC
TCGGCCACCGGAGAGTGTAAATGCAACACCGGCTTCAATGGGACGGCGTGTGAGATGTGC
TGGCCGGGGAGATTCGGGCCTGATTGTCTGCCCTGTGGCTGCTCAGACCACGGACAGTGC
GATGATGGCATCACGGGCTCCGGGCAGTGCCTCTGTGAAACGGGGTGGACAGGCCCCTCG
TGTGACACTCAGGCAGTTTTGCCTGCAGTGTGTACGCCTCCTTGTTCTGCTCATGCCACC
TGTAAGGAGAACAACACGTGTGAGTGTAACCTGGATTATGAAGGTGACGGAATCACATGC
ACAGTTGTGGATTTCTGCAAACAGGACAACGGGGGCTGTGCAAAGGTGGCCAGATGCTCC
CAGAAGGGCACGAAGGTCTCCTGCAGCTGCCAGAAGGGATACAAAGGGGACGGGCACAGC
TGCACAGAGATAGACCCCTGTGCAGACGGCCTTAACGGAGGGTGTCACGAGCACGCCACC
TGTAAGATGACAGGCCCGGGCAAGCACAAGTGTGAGTGTAAAAGTCACTATGTCGGAGAT
GGGCTGAACTGTGAGCCGGAGCAGCTGCCCATTGACCGCTGCTTACAGGACAATGGGCAG
TGCCATGCAGACGCCAAATGTGTCGACCTCCACTTCCAGGATACCACTGTTGGGGTGTTC
CATCTACGCTCCCCACTGGGCCAGTATAAGCTGACCTTTGACAAAGCCAGAGAGGCCTGT
GCCAACGAAGCTGCGACCATGGCAACCTACAACCAGCTCTCCTATGCCCAGAAGGCCAAG
TACCACCTGTGCTCAGCAGGCTGGCTGGAGACCGGGCGGGTTGCCTACCCCACAGCCTTC
GCCTCCCAGAACTGTGGCTCTGGTGTGGTTGGGATAGTGGACTATGGACCTAGACCCAAC
AAGAGTGAAATGTGGGATGTCTTCTGCTATCGGATGAAAGATGTGAACTGCACCTGCAAG
GTGGGCTATGTGGGAGATGGCTTCTCATGCAGTGGGAACCTGCTGCAGGTCCTGATGTCC
TTCCCCTCACTCACAAACTTCCTGACGGAAGTGCTGGCCTATTCCAACAGCTCAGCTCGA
GGCCGTGCATTTCTAGAACACCTGACTGACCTGTCCATCCGCGGCACCCTCTTTGTGCCA
CAGAACAGTGGGCTGGGGGAGAATGAGACCTTGTCTGGGCGGGACATCGAGCACCACCTC
GCCAATGTCAGCATGTTTTTCTACAATGACCTTGTCAATGGCACCACCCTGCAAACGAGG
CTGGGAAGCAAGCTGCTCATCACTGCCAGCCAGGACCCACTCCAACCGACGGAGACCAGG
TTTGTTGATGGAAGAGCCATTCTGCAGTGGGACATCTTTGCCTCCAATGGGATCATTCAT
GTCATTTCCAGGCCTTTAAAAGCACCCCCTGCCCCCGTGACCTTGACCCACACTGGCTTG
GGAGCAGGGATCTTCTTTGCCATCATCCTGGTGACTGGGGCTGTTGCCTTGGCTGCTTAC
TCCTACTTTCGGATAAACCGGAGAACAATCGGCTTCCAGCATTTTGAGTCGGAAGAGGAC
ATTAATGTTGCAGCTCTTGGCAAGCAGCAGCCTGAGAATATCTCGAACCCCTTGTATGAG
AGCACAACCTCAGCTCCCCCAGAACCTTCCTACGACCCCTTCACGGACTCTGAAGAACGG
CAGCTTGAGGGCAATGACCCCTTGAGGACACTGTGA
|
| Protein Properties |
|---|
| Number of Residues
| 2551 |
| Molecular Weight
| 276985.6 |
| Theoretical pI
| 6.38 |
| Pfam Domain Function
|
|
| Signals
|
|
|
Transmembrane Regions
|
|
| Protein Sequence
|
>Stabilin-2
MMLQHLVIFCLGLVVQNFCSPAETTGQARRCDRKSLLTIRTECRSCALNLGVKCPDGYTM
ITSGSVGVRDCRYTFEVRTYSLSLPGCRHICRKDYLQPRCCPGRWGPDCIECPGGAGSPC
NGRGSCAEGMEGNGTCSCQEGFGGTACETCADDNLFGPSCSSVCNCVHGVCNSGLDGDGT
CECYSAYTGPKCDKPIPECAALLCPENSRCSPSTEDENKLECKCLPNYRGDGKYCDPINP
CLRKICHPHAHCTYLGPNRHSCTCQEGYRGDGQVCLPVDPCQINFGNCPTKSTVCKYDGP
GQSHCECKEHYQNFVPGVGCSMTDICKSDNPCHRNANCTTVAPGRTECICQKGYVGDGLT
CYGNIMERLRELNTEPRGKWQGRLTSFISLLDKAYAWPLSKLGPFTVLLPTDKGLKGFNV
NELLVDNKAAQYFVKLHIIAGQMNIEYMNNTDMFYTLTGKSGEIFNSDKDNQIKLKLHGG
KKKVKIIQGDIIASNGLLHILDRAMDKLEPTFESNNEQTIMTMLQPRYSKFRSLLEETNL
GHALDEDGVGGPYTIFVPNNEALNNMKDGTLDYLLSPEGSRKLLELVRYHIVPFTQLEVA
TLISTPHIRSMANQLIQFNTTDNGQILANDVAMEEIEITAKNGRIYTLTGVLIPPSIVPI
LPHRCDETKREMKLGTCVSCSLVYWSRCPANSEPTALFTHRCVYSGRFGSLKSGCARYCN
ATVKIPKCCKGFYGPDCNQCPGGFSNPCSGNGQCADSLGGNGTCICEEGFQGSQCQFCSD
PNKYGPRCNKKCLCVHGTCNNRIDSDGACLTGTCRDGSAGRLCDKQTSACGPYVQFCHIH
ATCEYSNGTASCICKAGYEGDGTLCSEMDPCTGLTPGGCSRNAECIKTGTGTHTCVCQQG
WTGNGRDCSEINNCLLPSAGGCHDNASCLYVGPGQNECECKKGFRGNGIDCEPITSCLEQ
TGKCHPLASCQSTSSGVWSCVCQEGYEGDGFLCYGNAAVELSFLSEAAIFNRWINNASLQ
PTLSATSNLTVLVPSQQATEDMDQDEKSFWLSQSNIPALIKYHMLLGTYRVADLQTLSSS
DMLATSLQGNFLHLAKVDGNITIEGASIVDGDNAATNGVIHIINKVLVPQRRLTGSLPNL
LMRLEQMPDYSIFRGYIIQYNLANAIEAADAYTVFAPNNNAIENYIREKKVLSLEEDVLR
YHVVLEEKLLKNDLHNGMHRETMLGFSYFLSFFLHNDQLYVNEAPINYTNVATDKGVIHG
LGKVLEIQKNRCDNNDTTIIRGRCRTCSSELTCPFGTKSLGNEKRRCIYTSYFMGRRTLF
IGCQPKCVRTVITRECCAGFFGPQCQPCPGNAQNVCFGNGICLDGVNGTGVCECGEGFSG
TACETCTEGKYGIHCDQACSCVHGRCNQGPLGDGSCDCDVGWRGVHCDNATTEDNCNGTC
HTSANCLTNSDGTASCKCAAGFQGNGTICTAINACEISNGGCSAKADCKRTTPGRRVCTC
KAGYTGDGIVCLEINPCLENHGGCDKNAECTQTGPNQAACNCLPAYTGDGKVCTLINVCL
TKNGGCSEFAICNHTGQVERTCTCKPNYIGDGFTCRGSIYQELPKNPKTSQYFFQLQEHF
VKDLVGPGPFTVFAPLSAAFDEEARVKDWDKYGLMPQVLRYHVVACHQLLLENLKLISNA
TSLQGEPIVISVSQSTVYINNKAKIISSDIISTNGIVHIIDKLLSPKNLLITPKDNSGRI
LQNLTTLATNNGYIKFSNLIQDSGLLSVITDPIHTPVTLFWPTDQALHALPAEQQDFLFN
QDNKDKLKEYLKFHVIRDAKVLAVDLPTSTAWKTLQGSELSVKCGAGRDIGDLFLNGQTC
RIVQRELLFDLGVAYGIDCLLIDPTLGGRCDTFTTFDASGECGSCVNTPSCPRWSKPKGV
KQKCLYNLPFKRNLEGCRERCSLVIQIPRCCKGYFGRDCQACPGGPDAPCNNRGVCLDQY
SATGECKCNTGFNGTACEMCWPGRFGPDCLPCGCSDHGQCDDGITGSGQCLCETGWTGPS
CDTQAVLPAVCTPPCSAHATCKENNTCECNLDYEGDGITCTVVDFCKQDNGGCAKVARCS
QKGTKVSCSCQKGYKGDGHSCTEIDPCADGLNGGCHEHATCKMTGPGKHKCECKSHYVGD
GLNCEPEQLPIDRCLQDNGQCHADAKCVDLHFQDTTVGVFHLRSPLGQYKLTFDKAREAC
ANEAATMATYNQLSYAQKAKYHLCSAGWLETGRVAYPTAFASQNCGSGVVGIVDYGPRPN
KSEMWDVFCYRMKDVNCTCKVGYVGDGFSCSGNLLQVLMSFPSLTNFLTEVLAYSNSSAR
GRAFLEHLTDLSIRGTLFVPQNSGLGENETLSGRDIEHHLANVSMFFYNDLVNGTTLQTR
LGSKLLITASQDPLQPTETRFVDGRAILQWDIFASNGIIHVISRPLKAPPAPVTLTHTGL
GAGIFFAIILVTGAVALAAYSYFRINRRTIGFQHFESEEDINVAALGKQQPENISNPLYE
STTSAPPEPSYDPFTDSEERQLEGNDPLRTL
|
| External Links |
|---|
| GenBank ID Protein
| 22779441 |
| UniProtKB/Swiss-Prot ID
| Q8WWQ8 |
| UniProtKB/Swiss-Prot Entry Name
| STAB2_HUMAN |
| PDB IDs
|
Not Available |
| GenBank Gene ID
| AB052958 |
| GeneCard ID
| STAB2 |
| GenAtlas ID
| STAB2 |
| HGNC ID
| HGNC:18629 |
| References |
|---|
| General References
| Not Available |