Silkworm Genome Informatics Database

Gene

KWMTBOMO07269

Pre Gene Modal

BGIBMGA010599

Annotation

Cadherin-like_protein_[Operophtera_brumata]

Location

Bomo_Chr12(+):9674352-9697510 View in EpiBrowser

Full name

Cadherin-related tumor suppressor       + More
Protocadherin Fat 4
Protocadherin Fat 3
Cadherin-23
Protocadherin-16
Protocadherin Fat 1
Protocadherin-23
Protein dachsous
Protocadherin Fat 2
Fat-like cadherin-related tumor suppressor homolog
Protocadherin-like protein
Neural-cadherin
Protocadherin-like wing polarity protein stan
Cadherin EGF LAG seven-pass G-type receptor 2
Cadherin EGF LAG seven-pass G-type receptor 3
Cadherin EGF LAG seven-pass G-type receptor 1
Cadherin-87A
Cadherin-4
Cadherin-related hmr-1
Protocadherin-15
Protocadherin-11 Y-linked
Protocadherin-11 X-linked
Protocadherin-1
Cadherin-3
Cadherin-related family member 2
Protocadherin-9
Protocadherin gamma-A9
Protocadherin-20
Protocadherin-19
Putative neural-cadherin 2
Protocadherin beta-12
Protocadherin gamma-A12
Protocadherin gamma-A1
Protocadherin gamma-B7
Protocadherin gamma-B3
Protocadherin gamma-A5
Protocadherin gamma-B5
Protocadherin alpha-1
Protocadherin gamma-A10
Protocadherin-17
Protocadherin alpha-C2
Cadherin-99C
Protocadherin-12
Protocadherin gamma-B4
Protocadherin alpha-11
Protocadherin-7
Protocadherin gamma-B2
Protocadherin gamma-B1
Protocadherin beta-6
Protocadherin beta-11
Protocadherin-10
Protocadherin beta-9
Protocadherin gamma-C5
Protocadherin-3
Protocadherin gamma-A4
Protocadherin beta-10
Protocadherin alpha-3
Protocadherin alpha-8
Protocadherin gamma-B6

Alternative Name

Protein fat
Cadherin family member 14
FAT tumor suppressor homolog 4
Fat-like cadherin protein FAT-J
FAT tumor suppressor homolog 3
Otocadherin
Protein dachsous homolog 1
Cadherin family member 7
Cadherin-related tumor suppressor homolog
Protein fat homolog
Cadherin-19
Cadherin-25
Fibroblast cadherin-1
Protein Dchs1
Cadherin-27
Cadherin-like protein CDHJ
Cadherin-like protein VR8
Protein dachsous homolog 2
Protocadherin PCDHJ
Cadherin family member 15
Adherin
Cadherin family member 8
Multiple epidermal growth factor-like domains protein 1
Protein kugelei
FAT tumor suppressor homolog 2
Cadherin-N
Protein flamingo
Protein starry night
Flamingo homolog
Cadherin family member 10
Epidermal growth factor-like protein 2
Flamingo homolog 3
Multiple epidermal growth factor-like domains protein 3
Cadherin family member 11
Epidermal growth factor-like protein 1
Flamingo homolog 1
Multiple epidermal growth factor-like domains protein 2
Cadherin family member 9
Flamingo homolog 2
Protein Hammerhead
Protocadherin on the Y chromosome
Protocadherin prostate cancer
Protocadherin-22
Protocadherin on the X chromosome
Protocadherin-S
Cadherin-like protein 1
Protocadherin-42
Protocadherin-13
Cadherin-N2
Cadherin-21
Fibroblast cadherin-3
Protocadherin-68
Vascular cadherin-2
Vascular endothelial cadherin-2
Cadherin-20
Fibroblast cadherin-2
Brain-heart protocadherin
Protocadherin-3H

Location in the cell

Nuclear Reliability : 2.373

CDS

ATGCAATCAAAAGAAATAGTTGAAGTTGTGATCCTGGATAAGAATGACAGCCCTCCCGAATTTGTGAATATTCCGGCTGCTTACATGGCTTCAGAAGACTTGGCACCGGGACAGAGGGTCGCTACTATAACCACAGAAGACCCTGACACCATCGGCACTATCACGTACACTATACAGAACGAGGAACCGACTCCTTTCACTCTGGATTCTAGTACTGGTGTCCTAACGCTAAAAGACCCATTAGATAGAGAGACAGTTCCGGAATATAAAGTTATCGTCAGAGCTGAAGATGGGATTCAATTTACCGATGTGACTATAACAGTTCAGGTAACGGACACCAACGACAACCCGCCCGTTTTCAAAGAAAGCGCATACTCTTTCGACATTCCCGAGAACGCAGCGAGAGGTTCTGTGGTGGGCACCGTGGCGGCCATTGACCCTGATTCCGGGCCAAACGCTCAATTGACGTACACTGTCATATCGGACTGGGCCAATGACGTCTTCTCGCTCAATCCTCAGACCGGAGTCTTCACGCTCACTGCTAGACTCGACTATGAAGAGATACAACACTATATACTAGTCGCGCAGGCACAGGACAGCGGTCACCCATCATTATCGGGGACTGTTACAGTATACGTGAATGTAATCGACCTCAATGATAACGCGCCTCTGTTTGATCCAATGAGCTTCTCTAACGAAATACTAGAAGACGTTACCATCGGATCTTCAGTGGTGACAGTCAGCGCAACGGATTCAGACTCAGGCTTAAATGGAAAAATTCGATACAGCATCACATCCGGAGATGAAAACAAAGATTTCGGGATTGCCGACAATGGCACTATTTACACAGAGAGATATTTAGACAGAGAAAAGCTACCAATTTACAACCTTGTTGTGACTGCAAGGGATTCAGCCAAGCCACCCGAACCTCAGTTGTCGTCTACTGTTCAAGTGACGATACAACTGAAGGATGTGAACGACATGGCTCCTGAATTTATAACACCGAATGTAACATCTATATCTGAAAACATTCCTCTTAATACAGTTGTCATGACCATTAAAGCGATTGATAAAGATGAAGGGAGAAATGGATACGTTGAATATTTCATGATGCCTAACCCAGAAATTAACGGATATTTCTCGTTGGGTAATGTAGATGGAATTATAAGAGCAACTGGAAAACTGGATAGAGAATTAAAATCAAATTACATAATTACCGTCACTGCAAAAGATAGAGGCGACCCTCCTAACGTTACTAAGATGGATATAAAAATTAGTATTATAGATGAAAACGACAATAGTCCAGTTTTTGATCCTAAGCAATACAGTGCATCAGTTCCGGAAAATGCTAGCATCGGAGCCAGCGTGCTTCAGGTCTCAGCTACTGATGTTGATGAAGATGCTAATGGCAGAGTTCGGTATTCAATAGCTTCTGGTGATGAAAATAGAGATTTTAGTATCAGTGAAGATACCGGAATTGTTAGAGTGGCAAAAAATCTCAATTTCGAAAGAAAATCACGGTATCTTCTGTCTATTAAAGCAGAGGACTGCGCAAAAGATGATGTTAGGTTCGATACTGCAGAAATTGCCATCTCTATTCAAGATATTAATGATAACCCACCAACGTTTTTGGATTCACCGTATTTGGCATACGTAATGGAAAATGTTATTCCACCTAATGGTGGTTTTATAATATCAATCCTTGCTTATGATGCTGATTCACCACCATTTAACAATCAAGTTCGTTATTTTATAAAAGAAGGAGATGCAGATGTTTTTAAAATTAATGCGTCTTCGGGACAAATATCACTTCTTAGGACCTTAGATCGCGAAGTACAAGATGAATATACCCTTGCACTGGTCGCCATGGATACTGGATCGCCACCTCTTACAGGATCTGGTACTGTAAAAATAATTGTACAAGATGTAAACGATAATAGTCCAGAGTTTGAAAGACAAAGTTACAAGACTAGTGTAAAAGAAAACTTACCTTCAGAAACAATGATTTTTCATGCAAAAGCTACCGATAAAGATACGGGGAACAATGCTAAGATAAGATACAGTGTACTTGGAGATAAATCAGAACGATTTAAAATAGACCCTAATACTGGTATGCTATATACTAATGAGACATTAGACCGGGAGGAATGGGATGTATATTACTTAATTTTAATGGCCCAGGATTCATCGACAACTGATCCTCGAACTGCAACTGCAAATTTGACGATTGTTGTTGAAGACGAAAATGACAATACACCGACGTTCCCACATCCCGTATATGAAACACAAATTTCTGAAAGGACTATGAAAGGAAATTTTGTCTTTGGAGTTAAAGCCACAGATAATGATATTGGATTGAGTAAAAAAATTGAATATGATTTAGAAGGAGAACACAAGCATTTGTTTACCATCAACAAAGAGACGGGTGTCATAAAAGCAAAAGAGAATCTTATTACTTATAAAGACAAAAGTATATCATCGTTCAATTTGGTAATCACTGCAAAAGATAGCGGAACACCACCAAAAGAAAGTTCAGCTGAATTGATACTTATTCTCAAATCCGTCAGAAACTTTCCAAAGTTCTCTGTGACTAACAAGCTTTCGTTTACATTTTCCGAAGATACTCCAGAAGGTGTATTAGTCACAAGGCTATCAGCTACATCTCCAAAATCCGGTCCTGCTGGGCTATTACAATATGGAATAGCGGGAGGAAATATTGGTGATGCACTACGTGTAGATCAAATGAGTGGAGAAGTTTTTTTAACTGGAAAAGGTTTGGATTACGAAACAATGCCATTATATGAAGTATGGCTTGAAGCAAAAGATTCTGATAACCCTCCTTTGAAATCTTTTATCGAAGTTGAAATAAAAGTCACAGATGCCAATGACAATGCTCCCATAATAGAAAATTCTTTGTACAATGCTACAGTGTTGGAAGAAGAATCCCCTCCTCAGTTGGTGGCAGTAATTCATGCTTTTGATTACGATTCTAATGAAAATGGACGAATATCTTATAAATTAGTAAATGATTACGATGAAACATTTAGTATAGATTCTGAAACAGGTGAAATATATACAAATATGGCACTTGACCGTGAGTCTATACCATATTATGAAATAATTGTTGAAGCTGAAGATCATGGCCTTCCACAGTTAAGCGGCACATCAACAGTAATAATAACAGTTTTGGATAAAAATGACAACCCTCCTAGATTCACAAGGCTGTTTAGTGTTAATGTAACTGAAAATGCAGAAATCGGTTCCTTTGTAATAAGAGTGACCAGTTCTGATTTGGATACTGGGTCAAATGCAAATGCTACGTATAGTTTTGTTGAAAATATTGGAAATAAATTTATTATTGATCCAATCTCTGGAAATGTTACTGTGGCAGGTTCCTTAGATAGAGAAATACAGGACGAATATATTTTGAAAGTCGCTGCTATCGACGGAGCATGGCGATCTGAAACAGCCCTTACCATAACTATACAAGATCAAAATGATAACGCACCTGAATTTGAGTACTCCTATTATAGTTTTAATTTTCCTGAAATGCAATTTAAGAACAGTTTTGTTGGACAAGTAATCGCTACGGACAGAGACAAACAAGGCCCAAATTCGATAATATCATATTCGTTACAACAACCATCAGATTTGTTCTCAATAGATCCAGCGACTGGAGAGATTTTAAGTAAATTCACCATGAATTATAAAAGAACGTCCACAAATTCATCTCCGGAAAACACATATTCTGTCGTTGTTGTAGCTACAGATAATGGGAAACCTCCAATGTCATCAGAGTGCTTAGTGATCATAAACGTTGTCGATGCAAACAATAATGCACCCAAATTCAGGGATCATGAGAAACTAATACCTATTCCTAAAGAAGCCACTATTGGTGAAAAAATAATAAAAATGAAAGCAGAAGACAACATGGACTTTGGAATAAATGCTGAAGTTGAATATTACGTGTCTGGTGGTAATGGTTCGTCGTACTTGACTATTGACCCAAATAGTGGGTGGATTATCGTAAACAAACAATTTTATTATTTAGGGCAATACTATGAACTGAAAATAAAAGCTACAGATCGCGGTGTGCCGCCACAATCAGACGAAACATCAATCGTTTTTGTTGTGACCGGTGAAAATATGTACAGCCCAAAATTCACGGCTTTAAGCTATCAAGTTATAGTGCCTGAAAATGAACCTGTAGGTTCGTCAATTTTGACTATACAGGCTAGTGATGAAGATAATGGACCTAATGGAATTATTCGTTATTCCATTTCGTCCGGAAATGAAGGAAACGAATTTCAAATACATTCTATATCTGGTGCAATTAGCATAATGCGACCGCTCGATTTTGATACAATACAGGAATATCGACTCAATATCACAGCCAATGATCTTGGCTTTAAGTCAAAGAAAGCAACAGCGACATTGACTATTATTTTGACAGACATTAATGATAATGCACCTTTTTTTAATCAAACAACCTACGTCGCATTTTTGCCTGAAAACTCACCTTTAAACACGTTTATTTATAGAGTGACCGCTGTAGATATCGATTCACCAAAAAATGCAATAATCAAGTATTATTTAAACTCTAATATGCTATCATTATTTTACATTGATGAGAACACCGGAGAAATATATTCGAAAGAAGTATTTGATTTTGAAGAAAAAAACCTGTATGATTTAACAGTGAGAGCTGAAAACCCCGATTCGTCAATGAAAAACACAACCAATATTATCATTCATATAACAGGCGTTAACGAATACTATCCAAAATTCAAACAACCAGTTTTTCATTTCGACGTATCAGAATCAGCCGAAGTTGGAACAAATGTTGGAGTTATACAAGCTACAGATCAGGATAGTGGTGATGATGGAATAATCTATTACTTATTTGTTGGTTCAAGTAATGATAAAGGTTTTGGAATCAATTCTCAAACTGGCGTTATTCGAGTGGCACGGTATTTGGACAGAGAAACTCAAAATAGAGTAGTATTAACAGTACTTGCAAAAAACTCTGGAGGTATTCGAGGTAACGACACTGATGAAGCACAAGTGATAATTTCAATCCAAGACGGTAATGATCCTCCAGAGTTTGTACGCCTTAATTATGAAGCTACAGTATCTGAGGGAGCTTATATTGGCCACGAAGTTATTCAGGTACAGGCTGTAGACAAAGATGTAAGGCCACAAAATAATCAATTCAGCTTCTCAATTATCGGCGGAAATATTGAACAAAGTTTCAAAATAGATCCACAGAATGGTAAAATAGAAGTAGCAAGGAAGTTAGATAGAGAGAAACTACCTGCATACTCATTAATAGTTGGTGCAATAGATACCGGCTCACCACCCCAAACAGGAACAGCGACAGTCAAAATAATGTTGACTGATATAAATGACAACGGTCCTATTTTCGACATCAATTCTTTTGAAGGATCAGTGTACGAGAATGAGCCACCTAACACCAGCATAACAACATTATCAGCGACAGATCCAGATTTGCCACCAAATGGTGCACCTTTTACGTACTCCATTATAGGTGGGAAACATGAGAGCTTTATAAATGTAAATAAGCATACAGGCGTATTATCCACAGCCAGGAAAATCGACAGGGAAGCTACACCGATACTCGAAATAAGTATACAAATTGAAGATAGTGGAACACCTGTAATGCGATCTAAATATGATATATTAATAAAAGTTCTCGACCGAAATGATAATCCGCCGACTCCTCGATCGGTTCATGTTGTTGTATATGCATTTAATAACAAAGTGCCAAATGGAAAAATTGCTGACGTTAAACCTAATGATCCTGATATTATTGGTGACTATAAATGTAAGATTATTCGAGATTCTACTTCAGATAGAACACTTTCACTATTGAATATCAGATCTGGATGTGACCTCTACACTAATACTATAAAACCTGGTCAAGGTTATTCTTTTTCAGTGCTGGGTAATGACGGTATTCACAAAGACGTCATATCCTCAATTTTAGAAGACACAAAAATTATAGATAGTTCAGCTATTATCTTATCTTCACCTTTCGTTAAACATGATTACGAATGTCATTGTGCTGAAGGATTTATGGGAAAGAATTGCGAAAAACGTCAAGATCCTTGTTCACCTAATCCTTGCCGCTATGGAGGACATTGTCGAAAACAAGGACATGATTTCTTATGTACTTGCCCTGTTCGCCGTGATGGGAAAACTTGCGAATTAGAAAAAAATGACGTGTGCAGTAGCAGTCCTTGTAAAAATGGAGGTTCTTGTAAAGAAAGTGCAGATGGTAGTTCATTCTTCTGTCTTTGTCGGCCCGGATATCGGGGTAATCATTGTGAAGCTCTGGTAGATTCATGTCGACCAAATCCATGCTTATATGGTGGAATATGTGTCAGCTTAAAACCTGGCTATAAATGTAGTTGTTCGGATGGACGTTACGGAACCCATTGTGAAAGCACAACATTTGGATTCGACGAACTATCATATATGCAGTTCCCGGCACTGGATGCATCGACCAATGACATCACGATAATTTTTGCAACAACGAAACCGGATGCATTACTTTTATACAACTTCGGCGCGCAAACTGGAGGCAGATCTGACTTCATAGCTATTGAACTACTTAATGGAAAACCTATTTTTTCTTTCGGGGGTGCAAGAACTTCAATAACATCTGTAGCCATATCGAATCCAAATAAAAATTTAGCGGACGGCAACTGGCATAAACTCACTGCAACAAGAAATGGAAGGGTCATATCTTTGAGCACAACATCTTGCACTGATCACGGAGATATTTGTATGGAATGCGAACCTGGAGACGACTCCTGTTACAATGATGACACCGGACAAGCCGGAACTTTGAACTTCAACAACGAACCACTTTTGATTGGAGGAATTCACAAAGCTGATCCTCTGTTAGAACGCCCAGGGCAAGTCCACTCTGATGACTTCGTAGGATGTATGCATAGCATAACCATAAATGGTCGTTTGCTAAATCTTTCAAATCCTTTAAATTCCCGAGGTGTTGAAGCAAATTGTGGTCGATCCGAAAAAGGAACATGTTATAAAAAAGCTATGTGTGGATTGGGAGAATGCATCGACCGGTGGAAATCCAATTTGTGTAAATGTGATGGTACTTTTATTGCACCTGATTGTTCAGCCGCCTTACAATCTATTTCAGTCGGAGAAACAGGGCTTATATCATTTTCTATATCAGAAAAACATCGGAGAATGCAGTTATTGGATACATTTTACAGCGGAAATACCATGTGGGAAAAACACGCTAATAAAGTTCTTAGTAAAATTAATACACGTACAAATAGTCCAGCCAAAATGTTGTCATTTCTTTTTCGGACTCACAGAAAAGATGGAATACTGTTTTACGCAGCCACTGAAAAGTATTTTACATTAATTGAATTACACGAAGGAAAAGTAAGTTATACTTCAAAACAGAATTCCGTGGTGAATATGACACAAAATGAACAGAATGATGTGTCTGATGGTACCTGGCATAATATAACCTTATTGTCTTTTGGAAGGAGTATTCGATTGTTAGTAGACAATAATGATGTTGGGGAAGAGCTGGATGCTGCTGGTGTACACGATTTCTTAGATCCGTATCTCACTGTAATGTCCCTAGGAGGAGTAAAAGCTGAATTATTAATGACTTCGAGCCAAAACAAATTTGAAGGTTGCTTAGCCAACTTTTCTATTAATAATGAAATACAGCCGTTTGCTGGGAATGGAAGTATTTTTAAGGAAACCATTTTAAAAGGGAAAATTCTAAATGGTTGCCACAGTGCATTTGGTATTGGGGCAGCACAAAATCCAGATCCCCTGCGTATTGGTATTACACTTGTCATTGTGTTTTTCGTAATTTTACTTGTTGCTATTTCCGTGTCCATTATATTCTATCGTTTACGAAAGCAAAAAAAGGAAAAAGTTGGTGGCTCCACAGGGAAAATGAATGCCGTTCATTCGAAGCAAAATGGTGGAACATCCATGTCTAATGCACCAAACCTAATAGCTGGAACCAATGAAAGTTTGATGAATCGTGGCTTACACAACAATGACACTAGCCTAAACAGTTATATTTCTGAAAGCGTTGATATAACACGTAATGTCGGACATATTGTTGGTCCTGAACTTTTATCAAAAAAATATAAAGACAGAGAAATAATGAATATAGACCCACTCAGGCCGCAACGTCCCGACATCATTGAACGAGAAGTTGTTGGGAAAAGCCCAGCTTTAAGAGAAGATCATCATCCGCCTCCACCTCTTTCGACCAACACTTCACATCACCATGATCATCCAAGTGGAATGGACCTAAATTCAGAAATACCAGAACATTACGATTTAGAAAATGCAAGTTCAATAGCACCTTCTGATATAGATATTGTTTACCACTACAAAGGTTTTCGAGAAGCGGCTAATGTCCGAAAATATAAAGCAACTCCACCACCTTTAACCGGTTATCATCATAAACATCAAACACCTCAACATCGTCACTCTCCTCATCACCCAGGCGGATACCCGTCCAGAGTACTACAGCAGGCTTCTCAGCCCCCACCCCAACCACGCCAACATCAAACAACGCCACTTGCACGACTATCACCAAGTAGTGAATTAAGCCAGCAGCCTCGTATATTGACCCTGCACGATATATCAGGAAAACCTTTGCAAAGCGCTCTACTTGCTACAACGTCCAGTTCTGGAGGTGTGGGCAAAGATGCTTTACATAGTAATAGTGAACGTAGCCTAAACAGCCCTGTGATGTCTCAGTTAAGTGGACAAAGTTCATCAGCTGGAAGAAAGACACCCAGTGCTACACCCCAAGTACCTCAAGTAGTGTCCGTAGGATCAGGGGCTGTCGGCTTAACTGCAGAAGAAATAGAAAGAATGAATGCGAGACAAAGAACGTCGAGCTTAGTGTCAACATTAGATGCAGTTTCTAGCTCCAGTGAAGCACAACGAGGTACAGGAGTAGGACATCACATGTCACATAGACATCATTCCCCTCAAGACGACAATAGAAGTTCAACAGGGTCCGATGATGAAAGCGGTAATGACAGTTTTACTTGCTCCGAAATCGAATACGATAACAACAGTATTAATGCTGAAAAACTTGACGACGTTAGGAGACCAAATGTGAGCAACGCAAATAACACAAAGAAATCAATTTTACCGCCACCATATGAAAGTTTTGACTCTTCATTTCGAGGCTCTTTAAGCACTCTAGTAGCTTCGGATGATGATCTTGTGCCGCATGTCAGTTCAGCTTTATATCGACAAGCGAATGGTTCACCAGCCTCAGCCGCTCTCGGTTGGGATCATCTCTTTAACTGGAGACCCAATTTCGAAAGTATGATCGGGGTTTTTAAAGACATTGCTGAATTACCAGACGCTGTCAACGGGCGTATGTCATCTTCGTTGAGACTTCAGAACGGCACGCCGAAACCTTCTGAAGAATATGTTTAA

Protein

MQSKEIVEVVILDKNDSPPEFVNIPAAYMASEDLAPGQRVATITTEDPDTIGTITYTIQNEEPTPFTLDSSTGVLTLKDPLDRETVPEYKVIVRAEDGIQFTDVTITVQVTDTNDNPPVFKESAYSFDIPENAARGSVVGTVAAIDPDSGPNAQLTYTVISDWANDVFSLNPQTGVFTLTARLDYEEIQHYILVAQAQDSGHPSLSGTVTVYVNVIDLNDNAPLFDPMSFSNEILEDVTIGSSVVTVSATDSDSGLNGKIRYSITSGDENKDFGIADNGTIYTERYLDREKLPIYNLVVTARDSAKPPEPQLSSTVQVTIQLKDVNDMAPEFITPNVTSISENIPLNTVVMTIKAIDKDEGRNGYVEYFMMPNPEINGYFSLGNVDGIIRATGKLDRELKSNYIITVTAKDRGDPPNVTKMDIKISIIDENDNSPVFDPKQYSASVPENASIGASVLQVSATDVDEDANGRVRYSIASGDENRDFSISEDTGIVRVAKNLNFERKSRYLLSIKAEDCAKDDVRFDTAEIAISIQDINDNPPTFLDSPYLAYVMENVIPPNGGFIISILAYDADSPPFNNQVRYFIKEGDADVFKINASSGQISLLRTLDREVQDEYTLALVAMDTGSPPLTGSGTVKIIVQDVNDNSPEFERQSYKTSVKENLPSETMIFHAKATDKDTGNNAKIRYSVLGDKSERFKIDPNTGMLYTNETLDREEWDVYYLILMAQDSSTTDPRTATANLTIVVEDENDNTPTFPHPVYETQISERTMKGNFVFGVKATDNDIGLSKKIEYDLEGEHKHLFTINKETGVIKAKENLITYKDKSISSFNLVITAKDSGTPPKESSAELILILKSVRNFPKFSVTNKLSFTFSEDTPEGVLVTRLSATSPKSGPAGLLQYGIAGGNIGDALRVDQMSGEVFLTGKGLDYETMPLYEVWLEAKDSDNPPLKSFIEVEIKVTDANDNAPIIENSLYNATVLEEESPPQLVAVIHAFDYDSNENGRISYKLVNDYDETFSIDSETGEIYTNMALDRESIPYYEIIVEAEDHGLPQLSGTSTVIITVLDKNDNPPRFTRLFSVNVTENAEIGSFVIRVTSSDLDTGSNANATYSFVENIGNKFIIDPISGNVTVAGSLDREIQDEYILKVAAIDGAWRSETALTITIQDQNDNAPEFEYSYYSFNFPEMQFKNSFVGQVIATDRDKQGPNSIISYSLQQPSDLFSIDPATGEILSKFTMNYKRTSTNSSPENTYSVVVVATDNGKPPMSSECLVIINVVDANNNAPKFRDHEKLIPIPKEATIGEKIIKMKAEDNMDFGINAEVEYYVSGGNGSSYLTIDPNSGWIIVNKQFYYLGQYYELKIKATDRGVPPQSDETSIVFVVTGENMYSPKFTALSYQVIVPENEPVGSSILTIQASDEDNGPNGIIRYSISSGNEGNEFQIHSISGAISIMRPLDFDTIQEYRLNITANDLGFKSKKATATLTIILTDINDNAPFFNQTTYVAFLPENSPLNTFIYRVTAVDIDSPKNAIIKYYLNSNMLSLFYIDENTGEIYSKEVFDFEEKNLYDLTVRAENPDSSMKNTTNIIIHITGVNEYYPKFKQPVFHFDVSESAEVGTNVGVIQATDQDSGDDGIIYYLFVGSSNDKGFGINSQTGVIRVARYLDRETQNRVVLTVLAKNSGGIRGNDTDEAQVIISIQDGNDPPEFVRLNYEATVSEGAYIGHEVIQVQAVDKDVRPQNNQFSFSIIGGNIEQSFKIDPQNGKIEVARKLDREKLPAYSLIVGAIDTGSPPQTGTATVKIMLTDINDNGPIFDINSFEGSVYENEPPNTSITTLSATDPDLPPNGAPFTYSIIGGKHESFINVNKHTGVLSTARKIDREATPILEISIQIEDSGTPVMRSKYDILIKVLDRNDNPPTPRSVHVVVYAFNNKVPNGKIADVKPNDPDIIGDYKCKIIRDSTSDRTLSLLNIRSGCDLYTNTIKPGQGYSFSVLGNDGIHKDVISSILEDTKIIDSSAIILSSPFVKHDYECHCAEGFMGKNCEKRQDPCSPNPCRYGGHCRKQGHDFLCTCPVRRDGKTCELEKNDVCSSSPCKNGGSCKESADGSSFFCLCRPGYRGNHCEALVDSCRPNPCLYGGICVSLKPGYKCSCSDGRYGTHCESTTFGFDELSYMQFPALDASTNDITIIFATTKPDALLLYNFGAQTGGRSDFIAIELLNGKPIFSFGGARTSITSVAISNPNKNLADGNWHKLTATRNGRVISLSTTSCTDHGDICMECEPGDDSCYNDDTGQAGTLNFNNEPLLIGGIHKADPLLERPGQVHSDDFVGCMHSITINGRLLNLSNPLNSRGVEANCGRSEKGTCYKKAMCGLGECIDRWKSNLCKCDGTFIAPDCSAALQSISVGETGLISFSISEKHRRMQLLDTFYSGNTMWEKHANKVLSKINTRTNSPAKMLSFLFRTHRKDGILFYAATEKYFTLIELHEGKVSYTSKQNSVVNMTQNEQNDVSDGTWHNITLLSFGRSIRLLVDNNDVGEELDAAGVHDFLDPYLTVMSLGGVKAELLMTSSQNKFEGCLANFSINNEIQPFAGNGSIFKETILKGKILNGCHSAFGIGAAQNPDPLRIGITLVIVFFVILLVAISVSIIFYRLRKQKKEKVGGSTGKMNAVHSKQNGGTSMSNAPNLIAGTNESLMNRGLHNNDTSLNSYISESVDITRNVGHIVGPELLSKKYKDREIMNIDPLRPQRPDIIEREVVGKSPALREDHHPPPPLSTNTSHHHDHPSGMDLNSEIPEHYDLENASSIAPSDIDIVYHYKGFREAANVRKYKATPPPLTGYHHKHQTPQHRHSPHHPGGYPSRVLQQASQPPPQPRQHQTTPLARLSPSSELSQQPRILTLHDISGKPLQSALLATTSSSGGVGKDALHSNSERSLNSPVMSQLSGQSSSAGRKTPSATPQVPQVVSVGSGAVGLTAEEIERMNARQRTSSLVSTLDAVSSSSEAQRGTGVGHHMSHRHHSPQDDNRSSTGSDDESGNDSFTCSEIEYDNNSINAEKLDDVRRPNVSNANNTKKSILPPPYESFDSSFRGSLSTLVASDDDLVPHVSSALYRQANGSPASAALGWDHLFNWRPNFESMIGVFKDIAELPDAVNGRMSSSLRLQNGTPKPSEEYV

Description

Involved in regulation of planar cell polarity in the compound eye where it is required for correct specification of the R3 and R4 photoreceptor cells by regulating Fz activity in the R3/R4 precursor cells (PubMed:11893338). This is likely to occur through creation of an ft gradient so that the equatorial R3/R4 precursor cell has a higher level of ft function than its polar neighbor (PubMed:15548581). Also required for planar cell polarity of wing hairs (PubMed:12540853, PubMed:15240556). Mediates heterophilic cell adhesion in vitro and is required to stabilize ds on the cell surface (PubMed:15240556). Involved in regulation of eye imaginal disk size (PubMed:23667559). Upstream component of the Hippo pathway where it is likely to act as a cell surface receptor involved in regulation of tissue size and is required for the localization and stability of ex (PubMed:16996265). Probably acts as a cell surface receptor for ds (PubMed:20434335).
Ft-mito: Regulates mitochondrial electron transport chain integrity and promotes oxidative phosphorylation.
Cadherins are calcium-dependent cell adhesion proteins. FAT4 plays a role in the maintenance of planar cell polarity as well as in inhibition of YAP1-mediated neuroprogenitor cell proliferation and differentiation (By similarity).
Cadherins are cell-cell interaction molecules. FAT4 plays a role in the maintenance of planar cell polarity as well as in inhibition of YAP1-mediated neuroprogenitor cell proliferation and differentiation.
Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells. CDH23 is required for establishing and/or maintaining the proper organization of the stereocilia bundle of hair cells in the cochlea and the vestibule during late embryonic/early postnatal development. It is part of the functional network formed by USH1C, USH1G, CDH23 and MYO7A that mediates mechanotransduction in cochlear hair cells. Required for normal hearing.
May play a role in the interactions between neurites derived from specific subsets of neurons during development.
Calcium-dependent cell-adhesion protein. Mediates functions in neuroprogenitor cell proliferation and differentiation (By similarity).
Plays an essential role for cellular polarization, directed cell migration and modulating cell-cell contact.
Calcium-dependent cell-adhesion protein. Mediates functions in neuroprogenitor cell proliferation and differentiation. In the heart, has a critical role for proper morphogenesis of the mitral valve, acting in the regulation of cell migration involved in valve formation (PubMed:26258302).
Calcium-dependent cell-adhesion protein.
Required for normal morphogenesis of adult structures derived from imaginal disks (PubMed:7601355, PubMed:26073018). Plays a role in planar cell polarity and in determining body left-right asymmetry. Expression in segment H1 of the imaginal ring and interaction with Myo31DF are required to induce changes of cell shape and orientation in segment H2, which then gives rise to normal, dextral looping of the adult hindgut (PubMed:26073018).
Involved in the regulation of cell migration (PubMed:18534823). May be involved in mediating the organization of the parallel fibers of granule cells during cerebellar development (By similarity).
Required for the planar polarity of actin filament orientation at the basal side of ovarian follicle cells (PubMed:19906848, PubMed:23369713). Required for proper egg chamber shape and elongation of the egg chamber during oogenesis (PubMed:19906848, PubMed:23369713). Required for the correct planar polarization of Rab10 within the basal follicle cell epithelium and is therefore indirectly involved in the Rab10-dependent remodeling of the basal membrane during egg chamber elongation (PubMed:23369713).
Involved in the regulation of cell migration (PubMed:29053796). May be involved in mediating the organization of the parallel fibers of granule cells during cerebellar development (PubMed:12213440).
Involved in the regulation of cell migration (By similarity). May be involved in mediating the organization of the parallel fibers of granule cells during cerebellar development (By similarity).
Involved in the fz signaling pathway that controls wing tissue polarity. Also mediates homophilic cell adhesion. May play a role in initiating prehair morphogenesis. May play a critical role in tissue polarity and in formation of normal dendrite fields.
Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells (By similarity).
Potential calcium-dependent cell-adhesion protein that controls axon guidance in the ventral cord.
Cadherins are calcium-dependent cell adhesion proteins (PubMed:25938815, PubMed:25850673). They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types (PubMed:25938815, PubMed:25850673). Required for adherens junction assembly and connecting adherens junctions to the cytoskeleton (PubMed:26412237).
Isoform a is required for cell migration during body enclosure and cell shape changes during body elongation (PubMed:9531567, PubMed:12847081). Required for proper localization of other junctional components, such as hmp-1, hmp-2, jac-1 and pac-1 (PubMed:9531567, PubMed:25938815). Recruitment of pac-1 is required to establish cell polarity, independent of its role in cell adhesion (PubMed:25938815). Required for primodial germ cell ingression and adherence to endodermal cells during gastrulation (PubMed:20515680, PubMed:22675206).
Isoform b is involved in axonal guidance in a subset of motor neurons.
Calcium-dependent cell-adhesion protein. Required for inner ear neuroepithelial cell elaboration and cochlear function. Probably involved in the maintenance of normal retinal function (By similarity).
Potential calcium-dependent cell-adhesion protein.
Cell adhesion protein involved in the control of epithelial morphogenesis (PubMed:9012534). Together with metalloproteinase zmp-1 and hemicentin him-4, plays a role in anchor cell (AC) invasion during postembryonic vulval development (PubMed:15960981).
Intermicrovillar adhesion molecule that forms, via its extracellular domain, calcium-dependent heterophilic complexes with CDHR5 on adjacent microvilli. Thereby, controls the packing of microvilli at the apical membrane of epithelial cells. Through its cytoplasmic domain, interacts with microvillus cytoplasmic proteins to form the intermicrovillar adhesion complex/IMAC. This complex plays a central role in microvilli and epithelial brush border differentiation. May also play a role in cell-cell adhesion and contact inhibition in epithelial cells.
Cadherin that functions in epithelial morphogenesis and the intestine epithelial immune response (PubMed:16260500, PubMed:16507588, PubMed:24718992, PubMed:25639794). Essential for female fertility (PubMed:16260500, PubMed:16507588). Regulates the length and organization of apical microvilli in developing follicle cells and salivary glands (PubMed:16260500, PubMed:16507588, PubMed:24718992, PubMed:25236597). Function in the follicle cell is essential for egg development as the microvilli secrete eggshell material such as the vitelline membrane (PubMed:16260500, PubMed:16507588, PubMed:25236597). Acts at least in part by regulating the recruitment of the myosin ck to the follicle cell microvilli (PubMed:25236597). Also required to regulate cell rearrangements during salivary tube elongation, possibly by modulating cellular adhesion between the apical surface and apical extracellular matrix during epithelial tube elongation (PubMed:24718992). May also function in cellular adhesion during the development of other tubular epithelia such as the trachea (PubMed:24718992). Possibly functions as an apical membrane determinant which acts in apical membrane expansion during salivary and tracheal epithelial tube elongation (PubMed:24718992). In salivary gland development, this function is independent of the other apical membrane determinants crb and sas (PubMed:24718992). Essential downstream component of a hh-signaling pathway which regulates the Duox-dependent gut epithelial immune response to bacterial uracil; required for endosome formation in the enterocyte and activating norpA-dependent Ca2+ mobilization, which are essential steps in the Duox-dependent production of reactive oxygen species (ROS) in response to intestinal bacterial infection (PubMed:25639794).
Cellular adhesion molecule that may play an important role in cell-cell interactions at interendothelial junctions (By similarity). Acts as a regulator of cell migration, probably via increasing cell-cell adhesion (PubMed:21402705). Promotes homotypic calcium-dependent aggregation and adhesion and clusters at intercellular junctions (By similarity). Unable to bind to catenins, weakly associates with the cytoskeleton (By similarity).
Calcium-dependent cell-adhesion protein involved in cells self-recognition and non-self discrimination (PubMed:27161523). Thereby, it is involved in the establishment and maintenance of specific neuronal connections in the brain (PubMed:27161523).

Subunit

Interacts with Fbxl7 (PubMed:25107277). Ft-mito interacts with NADH dehydrogenase subunit ND-24 and with ATP synthase subunit ATPsynC (PubMed:25215488).
Heterophilic interaction with DCHS1; this interaction affects their respective protein levels. Interacts (via cytoplasmic domain) with MPDZ. Forms a complex with MPP5 and MPDZ.
antiparallel heterodimer with PCDH15 (By similarity). Interacts with USH1C and USH1G (PubMed:19297620, PubMed:21436032).
Interacts with USH1C and USH1G (By similarity). antiparallel heterodimer with PCDH15. Isoform C1: Interacts with CAMSAP3; leading to inhibit CAMSAP3 ability to induce microtubule bundle formation (PubMed:27349180).
antiparallel heterodimer with PCDH15 (By similarity). Interacts with USH1C and USH1G (By similarity).
Heterophilic interaction with FAT4; this interaction affects their respective protein levels.
Interacts (via the C-terminus 4300-4400 AA) with ATN1. Interacts with RERE. Interacts (via EVH1 domains) with ENAH (By similarity). Interacts (via cytoplasmic domain) with CTNNB1 (By similarity).
Interacts (via cytoplasmic region) with Myo31DF.
Homodimer.
Monomer in solution (PubMed:20689042). Isoform a is a component of a core catenin-cadherin complex consisting of hmr-1, hmp-1 and hmp-2; the complex localizes to adherens junctions (PubMed:20689042, PubMed:25850673). Isoform a interacts with hmp-2; the interaction is direct (PubMed:10952315, PubMed:20689042, PubMed:25850673, PubMed:26412237). Isoform a interacts (via intracellular domain) with jac-1 (PubMed:12847081, PubMed:25938815).
Antiparallel heterodimer with CDH23. Found in a complex with TMIE and LHFPL5. Interacts with LHFPL5/TMHS; this interaction is required for efficient localization to hair bundles. Interacts with MYO7A. Interacts with USH1G; this interaction may recruit USH1G to the plasma membrane. Interacts with TOMT. Isoforms CD1 and CD3 interact with TMC1 (via N-terminus) and TMC2 (via N-terminus).
Antiparallel heterodimer with CDH23 (PubMed:23135401, PubMed:17805295). Found in a complex with TMIE and LHFPL5 (PubMed:25467981). Interacts with LHFPL5/TMHS; this interaction is required for efficient localization to hair bundles (PubMed:23217710). Interacts with MYO7A (PubMed:16481439). Interacts with USH1G; this interaction may recruit USH1G to the plasma membrane (PubMed:21436032). Interacts with TOMT (PubMed:28504928). Isoforms CD1 and CD3 interact with TMC1 (via N-terminus) and TMC2 (via N-terminus) (PubMed:25114259).
Interacts with CTNNB1.
Part of the IMAC/intermicrovillar adhesion complex/intermicrovillar tip-link complex composed of ANKS4B, MYO7B, USH1C, CDHR2 and CDHR5. Interacts with MAST2 (By similarity). Interacts (via cytoplasmic domain) with USH1C and MYO7B; required for proper localization of CDHR2 to microvilli tips and its function in brush border differentiation (Probable).
Interacts (via the cytoplasmic domain) with ck (PubMed:25236597, PubMed:27331610). Interacts (via the cytoplasmic domain) with Cul1 and Ubr3 (PubMed:27331610).
Forms homodimers in trans (molecules expressed by two different cells). Forms promiscuous heterodimers in cis (at the plasma membrane of the same cell) with other protocadherins.

Miscellaneous

The name 'fat' originates from weak mutant alleles that exhibit a broadening of the abdomen.
Overexpression in segment H1 of the imaginal ring causes aberrant gut looping in about 40% of the cases, but no phenotype is observed when both Myo31DF and ds are overexpressed.

Similarity

Belongs to the G-protein coupled receptor 2 family.
Belongs to the G-protein coupled receptor 2 family. LN-TM7 subfamily.

Keywords

Calcium Cell adhesion Cell membrane Complete proteome Disulfide bond EGF-like domain Glycoprotein Membrane Mitochondrion Phosphoprotein Receptor Reference proteome Repeat Signal Transmembrane Transmembrane helix Alternative splicing Deafness Disease mutation Mental retardation Polymorphism Developmental protein Methylation 3D-structure Hearing Metal-binding Non-syndromic deafness Retinitis pigmentosa Sensory transduction Usher syndrome Vision Cytoplasm Nucleus Cell junction Golgi apparatus Neurodegeneration Spinocerebellar ataxia Direct protein sequencing G-protein coupled receptor Laminin EGF-like domain Transducer Hydroxylation Differentiation Neurogenesis Ubl conjugation Secreted Chromosomal rearrangement Cell projection Epilepsy Endosome Immunity Primary microcephaly

Feature

chain  Cadherin-related tumor suppressor
splice variant  In isoform 2.
sequence variant  In dbSNP:rs6847454.

Uniprot

P33450.3 Q6V0I7.2 Q2PZL6.2 Q8BNA6.2 Q9H251.2 Q8R508.1 + More
Q99PF4.2 P58365.1 D4ACX8.2 Q14517.2 Q96JQ0.1 E9PVD3.1 Q6V1P9.1 Q8TDW7.3 Q24292.3 Q9NYQ8.2 Q9VW71.3 O88277.1 Q5F226.1 B8V7Q1.1 O15943.2 Q9V5N8.4 Q9R0M0.3 Q9HCU4.1 Q91ZI0.2 Q9NYQ7.2 O88278.1 O35161.3 Q9VGG5.4 Q9NYQ6.1 Q19319.3 Q967F4.1 Q96QU1.2 Q99PJ1.3 Q0ZM14.1 Q9BZA8.1 Q6WYY1.1 Q71M42.1 Q6WXV7.1 Q9BZA7.1 Q6X862.1 Q08174.2 Q6KEQ9.1 P34616.1 E9Q7P9.1 Q9HC56.2 Q5DRB1.1 Q9Y5G4.1 Q8BIZ0.3 Q8N6Y1.2 Q80TF3.3 Q9VJB6.3 Q9Y5F1.1 Q5DRB9.1 Q9Y5H4.1 Q9Y5F8.1 Q9Y5G1.4 O60330.1 Q9Y5G8.1 Q5DRA5.1 Q5DRC2.1 Q5DRB5.1 Q9Y5G0.1 Q9Y5I3.1 Q5DRD7.1 Q8TAB3.3 Q9Y5H3.1 O14917.2 Q5DRC1.1 Q9Y5I4.1 Q5DRF5.1 Q5DRA7.1 Q5DRE1.1 Q9VAF5.2 Q9NPG4.1 Q9UN71.1 Q5DRA8.1 Q5DRF3.1 Q9Y5I1.1 O60245.2 Q5DRA9.1 Q9Y5G2.1 Q5DRB0.1 Q91XZ4.1 Q9Y5G3.1 Q5DRD8.1 Q9P2E7.2 Q9Y5E1.2 Q9Y5F6.1 Q5DRA2.1 Q63418.1 Q5DRB6.1 Q5DRD9.1 Q9Y5H8.1 Q9Y5F2.1 Q9Y5H6.1 Q9Y5F9.1 Q5DRC4.1 Q9Y5G9.2 Q5DRE9.1

Pubmed

1959133 10731132 12537572 11893338 12540853 15240556 + More
15548581 16687445 16996265 18327897 18635802 19574458 20434335 23667559 25215488 25107277 15003449 15815621 12880961 14702039 17974005 16865240 24056717 24913602 19468303 16141072 15489334 15345747 16059920 18604206 19506035 21183079 21303848 17131403 24129315 11138009 12975309 15882574 15164054 11347906 11090341 11597768 21436032 19297620 12075507 12522556 15660226 15537665 15829536 16679490 17850630 18429043 22899989 24767429 24916380 28413019 28887846 11811999 11138008 11386759 11750125 17805295 27349180 20399731 20498078 23135401 15057822 8586420 15922730 18220336 19131340 19159218 19349973 21269460 26566883 29053796 9199196 26258302 16959974 16554811 7601355 26073018 10716726 9693030 15372022 16335952 17900869 18534823 12537569 19906848 23369713 12213440 15368895 22490231 23765379 9247265 9635189 10556066 10490098 10790539 11850187 10907856 16710414 9039502 18669648 11677057 16641997 16641100 9858697 9339365 17893096 10591208 22095531 9851916 12754521 17761667 17213328 9531567 11790304 10952315 12847081 15888633 20515680 20689042 22675206 25938815 26412237 25850673 11487575 11398101 14570705 18719945 16369489 22815625 28281779 11138007 16799054 16807332 11429292 16481439 17242355 23217710 25467981 25114259 28504928 15592404 11003707 12420223 12815422 14727141 17357069 16331680 10644456 15772651 10718198 8508762 21406692 24275569 15112107 7906398 9012534 15960981 26812017 15057823 16136131 15744052 10380929 12693553 11322959 9628581 18469813 11549318 20830798 19214208 19752159 20713952 21480887 21053371 21519002 22050978 22267240 25818041 26993267 27864847 17978184 15708564 16260500 16507588 24718992 25236597 25639794 27331610 11063261 21402705 27164683 28804758 9615233 19413330 20068231 23186163 11230163 27161523 8575755

EMBL

M80537 AE014134 AY356402 AC079835 AC092629 AC098865 + More
AB075518 AK026709 AK291461 AL713715 DQ286572 AC122841 AC161228 AK031348 AK034552 BC079887 AC154406 AC154741 AC161370 AC161421 AC162903 BC117744 AK084245 AF312024 AY358617 AY563161 AY563162 AY563165 AY563166 AC012469 AL359183 AL731541 AL772287 BC011570 BC136976 BC136977 AB058715 AY010111 AB053445 AB076401 AF308939 AY026062 AY563159 AY563160 AY563163 AY563164 AK016365 AC079082 AC079818 AC079819 AC153517 AB053447 AABR06007653 X87241 AC107050 AC110761 AB053446 AB000895 AC121823 AY354497 AK000054 AK127704 AC079298 AC110608 AC110775 BC140919 AP000722 AP000805 AP002514 AP003171 AP003718 BC016722 AB076400 L08811 AAF51468.3 AF231022 AB011535 AL157443 AC011337 AC011374 AC034205 AE014296 AY060955 AY118666 AAL28503.1 AB011527 AL713870 CH466575 AK173031 AK132523 JT011093 AB002397 AF172329 AB028498 AE013599 AB028499 AF031573 AL671899 AL672200 CH466607 BC005499 AF234887 AB065955 AL390252 D87469 AF427498 AC168054 AF188752 AF231023 AC121252 AB011536 AB011528 AF031572 AC116764 AC139513 AE014297 AY128505 AF231024 AL021392 AL031588 AL031597 BC000059 Z35599 Z34802 Z35662 AF016854 AJ307058 Z82064 AL032638 Z82093 AY029205 AY029237 AY388963 EU718480 EU718481 EU718482 AL834134 AC013737 AC016817 AC024073 AC027671 AL353784 AL356114 AL360214 AL365496 AF281899 AY949849 DQ354396 DQ354397 DQ354398 DQ354399 DQ354400 DQ354401 DQ354402 DQ354403 DQ354404 DQ354405 DQ354406 DQ354407 DQ354408 DQ354409 DQ354410 DQ354411 DQ354412 DQ354413 DQ354414 DQ354415 DQ354416 DQ354417 DQ354418 AK139154 AK141024 AC108392 AC119894 AC121142 AC121602 AC121832 AC123032 AC123809 AC144802 AC147721 AC153858 AC158800 AC159477 AC186813 AC188091 CAAA01110489 HQ404375 HQ420254 DQ354419 DQ354420 DQ354421 DQ354422 DQ354423 DQ354424 DQ354425 DQ354426 DQ354427 DQ354428 DQ354429 AADN03005146 AADN02035256 AADN02035257 AADN02035258 AJ276803 AF277053 AF332216 AF332217 AJ564958 AJ564959 AJ564960 AJ564961 AJ564962 AJ564963 AJ564966 AJ564969 AY264487 AY264485 AY264486 AY264492 AY264489 AY264491 AY264490 AY264488 AF461067 AF461065 AF461066 AF461072 AF461069 AF461071 AF461070 AF461068 AY264879 AY264877 AY264878 AY264884 AY264881 AY264883 AY264882 AY264880 AB026187 AJ276804 AF332218 AF332219 AF206516 AF217288 AY861432 AY861433 AY861434 AY861435 AC004388 AL121869 AL133274 AL133321 AJ564931 AJ564932 AJ564933 AJ564934 AJ564935 AJ564936 AJ564942 AJ564945 AJ564946 AJ564947 AB037747 AY249903 AY249901 AY249902 AY249908 AY249904 AY249905 AY249906 AY249907 AC094107 CH471062 BC035812 L11369 L11370 AJ564972 AJ564973 AJ564974 AJ564975 FO080308 AK144400 AC162526 BC141301 BC145624 AF169692 AL834258 BX537422 AL603863 AL136999 AL355173 AL138814 BC136626 BC136627 AF152329 AF152516 BC132769 AK049965 AK083114 AC164553 AF169693 AK289924 AL833830 AL592490 CH471124 BC027907 AL713863 AK046726 AK122492 BT132666 AF152491 AF217746 AK293336 AK316160 AC005752 BC045637 AF152318 AF152507 BC112082 BC112084 AF152336 AF152523 BC051788 AF152332 AF152519 AC005366 AC005618 AC008781 BC150172 AF152321 AF152506 AB011160 AY358946 AB000897 AF152325 AF152512 BC104926 BC113460 AF152334 AF152521 BC093877 BC093879 AF152305 AF152479 AF169695 AC005609 EF676096 AL355593 CR749278 AB037734 AF152319 AF152503 AF029343 AK289980 AL445216 AL445288 BC028165 AF152304 AF152474 BC104776 BC105111 AY853687 AY853686 BT016059 AAV36944.1 AAX12107.1 AF231025 AF240635 AB026893 AK023785 AK024140 AK027282 AY358428 AF152333 AF152520 BC112088 BC113607 AB000896 AF152307 AF152476 AJ007609 BC136706 AB006755 AB006756 AB006757 AC097716 AC098595 AC107394 AC110766 AC112239 AF152331 AF152518 BC101805 AY013788 AC020974 AF152330 AF152517 BC103926 BC103927 AY013874 AB037821 AK314377 AC105383 CH471056 AF152502 AF217749 BC100672 BC105636 BC105640 AF282973 AF152339 AF152526 L43592 AF152311 AF152481 AF152490 AF217747 AK299719 BC112132 BC113611 AF152316 AF152486 BC136750 AF152335 AF152522 KC877131 AF152324 AF152511

Proteomes

UP000000803 UP000005640 UP000000589 UP000002494 UP000001940 UP000000539 + More
UP000240080 UP000002277 UP000001519 UP000008227

PRIDE

P33450 Q6V0I7 Q2PZL6 Q8BNA6 Q9H251 Q8R508 + More
Q99PF4 P58365 D4ACX8 Q14517 Q96JQ0 E9PVD3 Q6V1P9 Q8TDW7 Q24292 Q9NYQ8 Q9VW71 O88277 Q5F226 O15943 Q9V5N8 Q9R0M0 Q9HCU4 Q91ZI0 Q9NYQ7 O88278 O35161 Q9VGG5 Q9NYQ6 Q19319 Q967F4 Q96QU1 Q99PJ1 Q0ZM14 Q9BZA8 Q6WYY1 Q71M42 Q9BZA7 Q6X862 Q08174 Q6KEQ9 P34616 E9Q7P9 Q9HC56 Q5DRB1 Q9Y5G4 Q8BIZ0 Q8N6Y1 Q80TF3 Q9VJB6 Q9Y5F1 Q5DRB9 Q9Y5H4 Q9Y5F8 Q9Y5G1 O60330 Q9Y5G8 Q5DRA5 Q5DRC2 Q5DRB5 Q9Y5G0 Q9Y5I3 Q5DRD7 Q8TAB3 Q9Y5H3 O14917 Q5DRC1 Q9Y5I4 Q5DRA7 Q5DRE1 Q9VAF5 Q9NPG4 Q9UN71 Q5DRA8 Q9Y5I1 O60245 Q5DRA9 Q9Y5G2 Q5DRB0 Q91XZ4 Q9Y5G3 Q9P2E7 Q9Y5E1 Q9Y5F6 Q5DRA2 Q63418 Q5DRB6 Q9Y5H8 Q9Y5F2 Q9Y5H6 Q9Y5F9 Q5DRC4 Q9Y5G9

Pfam

PF02210   Laminin_G_2        + More
PF00028   Cadherin
PF00054   Laminin_G_1
PF00008   EGF
PF07645   EGF_CA
PF12661   hEGF
PF01049   Cadherin_C
PF00002   7tm_2
PF00053   Laminin_EGF
PF16489   GAIN
PF01825   GPS
PF02793   HRM
PF18432   ECD
PF08266   Cadherin_2
PF08374   Protocadherin
PF16492   Cadherin_C_2
PF15974   Cadherin_tail

Interpro

IPR001881   EGF-like_Ca-bd_dom        + More
IPR015919   Cadherin-like_sf
IPR020894   Cadherin_CS
IPR013320   ConA-like_dom_sf
IPR002126   Cadherin-like_dom
IPR013032   EGF-like_CS
IPR000742   EGF-like_dom
IPR001791   Laminin_G
IPR009030   Growth_fac_rcpt_cys_sf
IPR018097   EGF_Ca-bd_CS
IPR000152   EGF-type_Asp/Asn_hydroxyl_site
IPR033030   CDH23
IPR000233   Cadherin_cytoplasmic-dom
IPR039808   Cadherin
IPR027397   Catenin_binding_dom_sf
IPR032471   GAIN_dom_N
IPR000203   GPS
IPR002049   Laminin_EGF
IPR001879   GPCR_2_extracellular_dom
IPR017981   GPCR_2-like
IPR036445   GPCR_2_extracell_dom_sf
IPR000832   GPCR_2_secretin-like
IPR017983   GPCR_2_secretin-like_CS
IPR038765   Papain-like_cys_pep_sf
IPR018247   EF_Hand_1_Ca_BS
IPR041149   EC_dom
IPR030718   Protocadherin-15
IPR013164   Cadherin_N
IPR013585   Protocadherin
IPR030276   CDHR2
IPR032455   Cadherin_C
IPR031904   Cadherin_CBD
IPR030716   Protocadherin-19
IPR030736   PCDHGA1
IPR030740   PCDHA1
IPR030709   Protocadherin-17
IPR030726   PCDHAC2
IPR030720   Protocadherin-12
IPR030734   PCDHB11
IPR030712   Protocadherin-10

SUPFAM

SSF49313   SSF49313        + More
SSF49899   SSF49899
SSF57184   SSF57184
SSF111418   SSF111418
SSF54001   SSF54001

Gene 3D

4.10.900.10 4.10.1240.10

ProteinModelPortal

P33450.3 Q6V0I7.2 Q2PZL6.2 Q8BNA6.2 Q9H251.2 Q8R508.1 + More
Q99PF4.2 P58365.1 D4ACX8.2 Q14517.2 Q96JQ0.1 E9PVD3.1 Q6V1P9.1 Q8TDW7.3 Q24292.3 Q9NYQ8.2 Q9VW71.3 O88277.1 Q5F226.1 B8V7Q1.1 O15943.2 Q9V5N8.4 Q9R0M0.3 Q9HCU4.1 Q91ZI0.2 Q9NYQ7.2 O88278.1 O35161.3 Q9VGG5.4 Q9NYQ6.1 Q19319.3 Q967F4.1 Q96QU1.2 Q99PJ1.3 Q0ZM14.1 Q9BZA8.1 Q6WYY1.1 Q71M42.1 Q6WXV7.1 Q9BZA7.1 Q6X862.1 Q08174.2 Q6KEQ9.1 P34616.1 E9Q7P9.1 Q9HC56.2 Q5DRB1.1 Q9Y5G4.1 Q8BIZ0.3 Q8N6Y1.2 Q80TF3.3 Q9VJB6.3 Q9Y5F1.1 Q5DRB9.1 Q9Y5H4.1 Q9Y5F8.1 Q9Y5G1.4 O60330.1 Q9Y5G8.1 Q5DRA5.1 Q5DRC2.1 Q5DRB5.1 Q9Y5G0.1 Q9Y5I3.1 Q5DRD7.1 Q8TAB3.3 Q9Y5H3.1 O14917.2 Q5DRC1.1 Q9Y5I4.1 Q5DRF5.1 Q5DRA7.1 Q5DRE1.1 Q9VAF5.2 Q9NPG4.1 Q9UN71.1 Q5DRA8.1 Q5DRF3.1 Q9Y5I1.1 O60245.2 Q5DRA9.1 Q9Y5G2.1 Q5DRB0.1 Q91XZ4.1 Q9Y5G3.1 Q5DRD8.1 Q9P2E7.2 Q9Y5E1.2 Q9Y5F6.1 Q5DRA2.1 Q63418.1 Q5DRB6.1 Q5DRD9.1 Q9Y5H8.1 Q9Y5F2.1 Q9Y5H6.1 Q9Y5F9.1 Q5DRC4.1 Q9Y5G9.2 Q5DRE9.1

PDB

6E6B E-value=6.95453e-56, Score=558

KEGG

101739311 K16669 protocadherin Fat 4 | (RefSeq) cadherin-related tumor suppressor-like

PATHWAY

04391 Hippo signaling pathway - fly - Bombyx mori (domestic silkworm)
04392 Hippo signaling pathway - multiple species - Bombyx mori (domestic silkworm)

GO

GO:0005739 GO:0044331 GO:0018149 GO:0098609 GO:0045296 GO:0045570 GO:0035209 GO:0090251 GO:0016339 GO:0007164 GO:0035332 GO:0048105 GO:0045198 GO:0001736 GO:0016324 GO:0045317 GO:0046621 GO:0016021 GO:0040008 GO:0045571 GO:0007156 GO:0005886 GO:0090176 GO:0060071 GO:0001737 GO:0007157 GO:0005509 GO:0016327 GO:0032880 GO:0045926 GO:0009888 GO:0016336 GO:0000904 GO:0010629 GO:0005887 GO:0008285 GO:0007446 GO:0043065 GO:0035220 GO:0007476 GO:0042067 GO:0035159 GO:0007447 GO:0008283 GO:0003007 GO:0060122 GO:0008543 GO:0072307 GO:0043931 GO:0035329 GO:0007009 GO:0022008 GO:0045177 GO:0072137 GO:0001658 GO:0021987 GO:0048565 GO:0070062 GO:0007219 GO:0072006 GO:0001822 GO:0030425 GO:2000171 GO:0001764 GO:0010842 GO:0050953 GO:0051480 GO:0050957 GO:0007626 GO:0045494 GO:0006816 GO:0032420 GO:0007601 GO:0050896 GO:0016020 GO:0007605 GO:0007275 GO:0005813 GO:0045202 GO:0048563 GO:0042491 GO:0042472 GO:0032426 GO:0048839 GO:0047485 GO:0060091 GO:0098684 GO:0060088 GO:0098683 GO:0007155 GO:0001917 GO:0005911 GO:0003192 GO:0072659 GO:0090102 GO:0007389 GO:0003273 GO:0021915 GO:0036342 GO:0007267 GO:0030027 GO:0048593 GO:0048471 GO:0045197 GO:0016477 GO:0007015 GO:0030175 GO:0009653 GO:0003382 GO:0007163 GO:0005925 GO:0005634 GO:0003183 GO:0030054 GO:0035331 GO:0005794 GO:0031589 GO:0010631 GO:0005913 GO:0050829 GO:1902463 GO:0060269 GO:0007431 GO:0031254 GO:0007442 GO:0045089 GO:0007424 GO:0042247 GO:0009925 GO:0050839 GO:0044877 GO:0098858 GO:0048477 GO:0051491 GO:0007295 GO:0007440 GO:0030950 GO:0007412 GO:0042803 GO:0045467 GO:0007413 GO:0007411 GO:0048841 GO:0030424 GO:0031290 GO:0048814 GO:0048846 GO:0050774 GO:0016318 GO:0048675 GO:0008013 GO:0045463 GO:0048813 GO:0004888 GO:0050770 GO:0016319 GO:0051963 GO:0016358 GO:0001738 GO:1902669 GO:0070593 GO:0007409 GO:0090175 GO:0007464 GO:0004930 GO:0045773 GO:0007367 GO:0048057 GO:0003341 GO:0021591 GO:0021999 GO:0060271 GO:0033326 GO:0006355 GO:0016055 GO:0022407 GO:0005737 GO:0007186 GO:0001932 GO:0036514 GO:0036515 GO:1904938 GO:0007266 GO:0060488 GO:0001942 GO:0001843 GO:0042060 GO:0001702 GO:0046983 GO:0009952 GO:0007165 GO:0060490 GO:0090179 GO:0046928 GO:0042249 GO:0060489 GO:0045176 GO:0032956 GO:0005654 GO:0007417 GO:0097402 GO:0007399 GO:0007369 GO:0007016 GO:0042074 GO:0003384 GO:0044214 GO:0030866 GO:0000132 GO:0016342 GO:0009792 GO:0070097 GO:0005615 GO:0001750 GO:0005576 GO:0001964 GO:0007628 GO:0032421 GO:0050910 GO:0051017 GO:0060013 GO:1905515 GO:0035264 GO:0051592 GO:0050973 GO:0002009 GO:0098981 GO:0098793 GO:0061827 GO:0030177 GO:0097225 GO:0007283 GO:0010923 GO:0043231 GO:0005730 GO:0045138 GO:0016331 GO:0005604 GO:0034769 GO:0005198 GO:0016323 GO:0005903 GO:0031528 GO:0030855 GO:0031526 GO:0090675 GO:0060243 GO:0032532 GO:0030426 GO:0044291 GO:0003723 GO:0007420 GO:0005783 GO:0099560 GO:0050805 GO:1904071 GO:2000807 GO:0099055 GO:0099056 GO:0098982 GO:0098978 GO:0030534 GO:0032529 GO:0032533 GO:2000370 GO:0002385 GO:0007304 GO:0019722 GO:0035239 GO:0010008 GO:0005902 GO:0017022 GO:0007305 GO:0060711 GO:0008038 GO:0005977 GO:0002576 GO:0031092 GO:0042802 GO:0009988 GO:0007416 GO:0007268 GO:0050808 GO:0005515 GO:0008237 GO:0043401 GO:0003707 GO:0051537

PANTHER

PTHR24025:SF18 PTHR24027 PTHR24028:SF11 PTHR24026:SF75 PTHR24028:SF40 PTHR24028:SF108 PTHR24028:SF92 PTHR24028:SF41 PTHR24028:SF119 PTHR24028:SF42 PTHR24028:SF91 PTHR24028:SF0

Subcellular location

Cell membrane
Apical cell membrane
Mitochondrion
Membrane   In the kidney, localizes to primary cilia.   With evidence from 1 publications.
Nucleus
Cytoplasm
Perinuclear region
Cell junction   Colocalizes with Myo32DF at cell contact sites.   With evidence from 5 publications.
Golgi apparatus   Localized at adhesion zippers (early state of adherens junctions) of keratinocytes.   With evidence from 9 publications.
trans-Golgi network   Localized at adhesion zippers (early state of adherens junctions) of keratinocytes.   With evidence from 9 publications.
Adherens junction   The basal to apical translocation from the cell membrane to adherens junctions is determined by the coupled sumoylation and desumoylation state of hmr-1.   With evidence from 17 publications.

Secreted
Basolateral cell membrane
Cell projection
Microvillus membrane
Endosome membrane   Dispersed throughout the enterocyte membrane, but becomes clustered in the brush border membrane in response to uracil.   With evidence from 10 publications.

Length:

3163

Number of predicted TMHs:

1

Exp number of AAs in TMHs:

22.9434099999999

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00002

outside

1 - 2618

TMhelix

2619 - 2641

inside

2642 - 3163

Pi

24.773933

Theta

23.304711

Tajima's D

0.125106

CLR

0.644465

CSRT

0.4034798260087

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics