| New model in OGS2.0 | DPOGS216145 |
|---|---|
| Genomic Position | scaffold206:- 30553-91667 |
| See gene structure | |
| CDS Length | 4383 |
| Paired RNAseq reads | 3803 |
| Single RNAseq reads | 9260 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010266 (0.0) |
| Best Drosophila hit | shotgun (0.0) |
| Best Human hit | protocadherin Fat 1 precursor (7e-64) |
| Best NR hit (blastp) | PREDICTED: similar to DE-cadherin precursor (Protein shotgun) [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to DE-cadherin precursor (Protein shotgun) [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0005886 plasma membrane GO:0007156 homophilic cell adhesion GO:0007507 heart development GO:0007314 oocyte anterior/posterior axis specification GO:0007298 border follicle cell migration GO:0030708 germarium-derived female germ-line cyst encapsulation GO:0016339 calcium-dependent cell-cell adhesion GO:0050839 cell adhesion molecule binding GO:0005887 integral to plasma membrane GO:0004872 receptor activity GO:0030720 oocyte localization involved in germarium-derived egg chamber formation GO:0016021 integral to membrane GO:0002009 morphogenesis of an epithelium GO:0005912 adherens junction GO:0008356 asymmetric cell division GO:0008013 beta-catenin binding GO:0001748 optic lobe placode development GO:0030031 cell projection assembly GO:0048477 oogenesis GO:0007411 axon guidance GO:0005914 spot adherens junction GO:0005915 zonula adherens GO:0008258 head involution GO:0048103 somatic stem cell division GO:0042078 germ-line stem cell division GO:0007420 brain development GO:0007409 axonogenesis GO:0007163 establishment or maintenance of cell polarity GO:0005913 cell-cell adherens junction GO:0035147 branch fusion, open tracheal system GO:0007297 ovarian follicle cell migration GO:0008406 gonad development GO:0035019 somatic stem cell maintenance GO:0007280 pole cell migration GO:0007506 gonadal mesoderm development GO:0007424 open tracheal system development GO:0005509 calcium ion binding GO:0007399 nervous system development GO:0010004 gastrulation involving germ band extension GO:0045186 zonula adherens assembly GO:0016337 cell-cell adhesion GO:0000902 cell morphogenesis GO:0007435 salivary gland morphogenesis GO:0001738 morphogenesis of a polarized epithelium GO:0035262 gonad morphogenesis GO:0016318 ommatidial rotation GO:0005515 protein binding GO:0045176 apical protein localization GO:0035160 maintenance of epithelial integrity, open tracheal system GO:0043296 apical junction complex GO:0030175 filopodium GO:0001745 compound eye morphogenesis |
| InterPro families | IPR002126 Cadherin IPR001791 Laminin G domain IPR008985 Concanavalin A-like lectin/glucanase IPR015919 Cadherin-like IPR013320 Concanavalin A-like lectin/glucanase, subgroup IPR000233 Cadherin, cytoplasmic domain IPR012680 Laminin G, subdomain 2 IPR013032 EGF-like region, conserved site IPR020894 Cadherin conserved site |
| Orthology group | MCL10835 |
Nucleotide sequence:
ATGACTCAAGGGTTGCGCCTGCGCCGATTGAGAGATAAGGTCTACACGAGTCGCTCCGTA
GAAGTACGAAGACCGGCCGAGTTTACCCCTGCGTCTCCGAAGCTGGCTGTGAAGGACAAT
CACAAGCCTCTCTTCACTGAGTGCCTAAACTATAGGCCCACGCTGAAAGAAGAGCAGCCT
GTAGGAACATATGTATTCACGGTTCATGCCGAAGACCGGGATCCACCCGAAATGGGTGGT
ACGGTTACTTACAAATTCGTCTCAACTCCTGGTGAGAAGGAGAGATTTCATGTTGACCCT
GAGACCGGAAGAATTACTACAGCTGATATATTTGACCACGATGAACCGTCACGTGAGAAA
GAAGCCTATATAACAGTGCGGGCAAGTGATAATGGCCAGCCCCAATTAGACGACGCGTGT
ACTATTAAAATACTTATAGAAGACATCAATGACAACCAGCCGGTCTTCGATAAAGTGTCG
TATTCGGAGTCAGTGCCCCAAGATCTGCCGAGCGGTCGTGAGGTGATGCGGATATCTGCC
ACGGATATAGATGATGGCAATAACTCGATCGTACATTACAGTCTCGATTCAAATTCGCCG
GATCAGGCCTATTTCTACATCGATCCTGATAACGGGGTCATATTTCTGAATAAGACAATT
GATAAAGTGCCAGGCTACAAATTCAAGTTGAGCGCGATAGTAAAAGACATGGGTGATCCG
CCGCAACAAAGTTCGATTACTTTAGACATCCAAGTCGTTGAATCTAACAAGAAAAGCCCG
TCTTTCATCGAAGTGCCCGATGAACCGATAAGATTAAAAGAAAATTATGCTGACTTCAAC
ACCCCGATCGCTACTGTGAGAGCAGTATCAAACATTCCGGAAGAAAAGAAATTACAGTTT
GAATTGGTTATGGGTCAGACGGAACAAACGAATAAATGGCACACGTTTGTCTTGGAACCA
GAGGCGGATTCCGCATACATAAAACTCGGTAACCATTTGGATTACGAGAAAATAACAGAT
TACACATTGACTGTTAGAATTCAAAATAACTATAAATTAGCAGCTGAAACTATAATTCAA
ATAGAAATTGAGGACGTCAATGATAATATTCCTATATTCAGTGAGATAAGATCTGGCAGC
GTGTTAGAAAACGAACCGCCCGGTACACCTGTGATGCAGGTTAGGGCTTTCGATGCTGAT
GGGACTTCAGCCAATAATCAAGTCACTTATGAATTAGGAGACCCATCAGACCCATTCGCT
ATAGACAGCATCACGGGAAACATAACAACATTAAAAATGTTCGACAGAGAAGAGAGGAGT
TTCTACAACATAAAAATTATAGCCACTGACAATTCCGAATCAGCTCTCATCCCTGGCAAG
CATAACGCCGGCCAACAGGTTTTTCTTATAGAGATAGCTGACAAAAACGACAATCCGCCA
CATTTCACACAGGATACGTATGTAGCCGAGTCGATAGCTGAGAACGCTAACATTAACGAG
CTCGTCACACAGGTTACCGCGCTGGATATAGATACAGCGTCCGTGGTAACATACAGCATA
GTGGCCGGTAACACATACGACGCGTTTGTGATACGTAATTTCACTGGTGAAATTCGGGTC
AACAATGAACTCGACTACGAAAATATAACCAGCTACAGCTTAGACGTGAGAGCTTTCGAC
GGCTTGTATGAAGACTACGCGAAGGTCCTCATAAAGATTGAAAACCTCAACGACAATCCT
CCGGTCTTCTTGGCCAATTACACGAAGACCATCGAGGAAGAAAAGTTATATGAAGGGTGC
ATTGTAAAGGTTGAAGCCTACGATCCAGATTTAGACCGAAACGAACCTCAGAACATAGTC
TATTCACTGGTGAAGCACGAACAAAAGGAGTTCCTCCAAATAGACAATGACGGTTGTCTG
CGACTCACGAAACCCTTGGATAGAGATCAGCCTTCAGGTTTCACGAGATGGCAGATCCTT
ATCATGGCCGCCGACCACGGGGGTAGACTCGGTTCTGATAGTCTGCGATCGACCACAGAG
GTCATATTGGAACTGACTGACATCAATGATAACGCACCTTTCTTGACTAATACTCAACCA
ATCATATGGTACGAGAACGAACCGCCTGGCCAAGTTGTTATTCTAACAGCTAAAGATTAC
GACTCAGCTGAAAATGGACCACCTTTTACATTCGCTCTTAACGAGTCCGCCAGCTTCGAT
ATACGATCCAAATTCCACATACAAGGAAACATACTGTCTACGTTGGTTTCCTTCGACCGT
GAACAGCGCAAGGAGTACAAAATCCCAGTAGCTATCACAGATTCTGGAACACCAAGATTA
ACGGGCGTTTCCATTCTTCATATTGTCATCGGAGATAGAAACGATAATTCCATGGAACCT
GGCCACAGTGACATCTTTGTCTACAACTACAAGGGGGAAGCACCAGATACGGAAATCGGC
CGCGTGTTTGTAAATGACCCTGACGATTGGGACCTACCCGACAAACGGTTCATGTGGCTG
CCCTCGTACGAGCAAAGGAGTCCTTACTTCGACGTCCATAGTAATACTGGCATGATCACT
ATGAAGGAGGGAACCCCTAACGGGACTTACATGCTCCGATTCAATGTGACGGAAGTTAAC
GAGCCGTTAGTGCCCTTCCACTGGGTGGAGGCTACAGTGAATGTGACCATAAAAGAAATA
CCAGAAGAGGCTGTAGACAAATCCGGCTCAATCAGGTTCCTGAACATCACAGCTGAGGAG
TTTATCATACCGGAGGCTGATGGCACTAGTAAGAAAGACAAACTTCATCGTCGTTTAGCA
GAACTATACAACAAATCTATGGACAATGTTGATGTGTTCACCGTTTTTACCAAACTGACC
GTTAAAGACGCCTTCCTGGATGTAAGGTTCTCAGCCCACGGGTCCCCGTACTTCGAAGCC
GAGAAATTGGACAGTATGGTTGTGGGGATACAAGAAAAGCTGGAAGATGAGCTCGGAGTC
AGGATATATATGGTGAAAATTGACGAATGCCTGATAGAGAAGGAACAGTGCGAAGATTCC
TGTCGCAATGTCCTCATCAAAAATAACGTACCGCTCTCCGTTTATACGAACACCACCAGC
TTCGTCGGGGTATCAGCGAGAGTGGAATCTGAATGCACTTGTGACGTGGAAGAACCGCTC
ATTTGTTTGAACGGAGGGACTCCATTCGCTGATAAATGCGAATGTCCTGAAGGCTGGAAT
GGTCCGCATTGCGAGCAGACCAGTATCGGTTTCCATGGCGACGGCTGGGCCATGTACCCC
TCCCCACCAGCCTGCCATGAGGGTCACGTGACCCTCACAGTGACGTCACACACTAGCAAC
GCTCTGGTCTTCTATCTTGGACCGTTGAAATTCAACCCGCTTTTAGATGTCCAAGATTTC
ATGTCCTTAGAACTGGTAGATGGTTATCCGATACTATTAGTGAACTACGGTTCTGGTACG
ACACGTCTTAATAACAGTGTTGTACATGTAGCTGATGGCAAACCACATTTGATAGAGATA
GTACTCATGAGGAGTTCCATTGAAATGTTTGTGGATAGATGCAAGCTATCTACGTGCATG
AGCCTGGCAGCCCCTACAGGACCGAGAGAAATACTGAATGTCAACGGCCCCCTCCAGTTG
GGTGGGGCGAGCGTAGATTTACAAAGTCTAGCTAGATCGTTCGGATGGCGTTACGTGCCC
ACAAATCAGCACTTTATGGGCTGCATCAGCAATTTTACGTACAACGACTACATGTACAAT
TTGGGAAAGCCATCCGTTGAACGGAACGCAGATCCCGGATGTCAGAAGAGTGTGTTCACA
GCCGTTACATTTGGCATCGACACCAACTTCCTGGTCGCTATACTCGTGTGCATCGCGATA
TTAATAATTCTCCTCTTGGCTGTGGTCGTTCATCGGAAGCGGGCTGATGCATGGGCGGAG
AAAGAGTTAGATGATATAAGAGAGAACATCATCGCTTATGAAGATGAAGGTGGTGGTGAA
GGAGACGCTGGCTACGACTTACACGTTCTAAGGCAGATGTACGATGGCCCTCCACCAGAT
AATGAACCAGCGTTCATGCATGTACCAGTGGTTGGCGCAGCTCCTGATATATCAGGATTC
TTGGACGACAAAAAATCCGTCCTGGATCGGGATCCAGATATCAATCCATACGACGACGTG
CGTCACTACGCTTATGAAGGAGACGGGAACACTAGTGGATCGCTATCCTCGTTGGCAAGC
TGTACCGACGACGAAGATCTCAAATTCAACTACCTATCTACATTCGGGCCTCGTTTCCGT
AAGTTGGCGGACATGTATGGAGACGATGGTGAAGACCGCCAGCACGAGGAGTCCTGGTGC
TAG
Protein sequence:
MTQGLRLRRLRDKVYTSRSVEVRRPAEFTPASPKLAVKDNHKPLFTECLNYRPTLKEEQP
VGTYVFTVHAEDRDPPEMGGTVTYKFVSTPGEKERFHVDPETGRITTADIFDHDEPSREK
EAYITVRASDNGQPQLDDACTIKILIEDINDNQPVFDKVSYSESVPQDLPSGREVMRISA
TDIDDGNNSIVHYSLDSNSPDQAYFYIDPDNGVIFLNKTIDKVPGYKFKLSAIVKDMGDP
PQQSSITLDIQVVESNKKSPSFIEVPDEPIRLKENYADFNTPIATVRAVSNIPEEKKLQF
ELVMGQTEQTNKWHTFVLEPEADSAYIKLGNHLDYEKITDYTLTVRIQNNYKLAAETIIQ
IEIEDVNDNIPIFSEIRSGSVLENEPPGTPVMQVRAFDADGTSANNQVTYELGDPSDPFA
IDSITGNITTLKMFDREERSFYNIKIIATDNSESALIPGKHNAGQQVFLIEIADKNDNPP
HFTQDTYVAESIAENANINELVTQVTALDIDTASVVTYSIVAGNTYDAFVIRNFTGEIRV
NNELDYENITSYSLDVRAFDGLYEDYAKVLIKIENLNDNPPVFLANYTKTIEEEKLYEGC
IVKVEAYDPDLDRNEPQNIVYSLVKHEQKEFLQIDNDGCLRLTKPLDRDQPSGFTRWQIL
IMAADHGGRLGSDSLRSTTEVILELTDINDNAPFLTNTQPIIWYENEPPGQVVILTAKDY
DSAENGPPFTFALNESASFDIRSKFHIQGNILSTLVSFDREQRKEYKIPVAITDSGTPRL
TGVSILHIVIGDRNDNSMEPGHSDIFVYNYKGEAPDTEIGRVFVNDPDDWDLPDKRFMWL
PSYEQRSPYFDVHSNTGMITMKEGTPNGTYMLRFNVTEVNEPLVPFHWVEATVNVTIKEI
PEEAVDKSGSIRFLNITAEEFIIPEADGTSKKDKLHRRLAELYNKSMDNVDVFTVFTKLT
VKDAFLDVRFSAHGSPYFEAEKLDSMVVGIQEKLEDELGVRIYMVKIDECLIEKEQCEDS
CRNVLIKNNVPLSVYTNTTSFVGVSARVESECTCDVEEPLICLNGGTPFADKCECPEGWN
GPHCEQTSIGFHGDGWAMYPSPPACHEGHVTLTVTSHTSNALVFYLGPLKFNPLLDVQDF
MSLELVDGYPILLVNYGSGTTRLNNSVVHVADGKPHLIEIVLMRSSIEMFVDRCKLSTCM
SLAAPTGPREILNVNGPLQLGGASVDLQSLARSFGWRYVPTNQHFMGCISNFTYNDYMYN
LGKPSVERNADPGCQKSVFTAVTFGIDTNFLVAILVCIAILIILLLAVVVHRKRADAWAE
KELDDIRENIIAYEDEGGGEGDAGYDLHVLRQMYDGPPPDNEPAFMHVPVVGAAPDISGF
LDDKKSVLDRDPDINPYDDVRHYAYEGDGNTSGSLSSLASCTDDEDLKFNYLSTFGPRFR
KLADMYGDDGEDRQHEESWC