| New model in OGS2.0 | DPOGS204238 |
|---|---|
| Genomic Position | scaffold777:+ 69683-76689 |
| See gene structure | |
| CDS Length | 4212 |
| Paired RNAseq reads | 1487 |
| Single RNAseq reads | 4055 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007515 (1e-112) |
| Best Drosophila hit | CG3532 (2e-30) |
| Best Human hit | GRIP and coiled-coil domain-containing protein 2 (2e-17) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC010451 [Tribolium castaneum] (1e-83) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC010451 [Tribolium castaneum] (1e-111) |
| GeneOntology terms | GO:0005515 protein binding GO:0005794 Golgi apparatus GO:0090161 Golgi ribbon formation GO:0016020 membrane GO:0043001 Golgi to plasma membrane protein transport GO:0005737 cytoplasm GO:0034067 protein localization in Golgi apparatus GO:0042147 retrograde transport, endosome to Golgi GO:0000139 Golgi membrane GO:0042802 identical protein binding GO:0006622 protein targeting to lysosome GO:0034499 late endosome to Golgi transport GO:0005802 trans-Golgi network |
| InterPro families | IPR009053 Prefoldin IPR000237 GRIP |
| Orthology group | MCL18323 |
Nucleotide sequence:
ATGGACAAAAGTGTGGAGTCAAAGGACCAGGATCATAATCCTAAAAGGAGTCCATTTGAC
GAACTTAGTCGAGAAGACCTCATCACAAAATGTAAAGGCCTTCTTGTGATAGCACAGAAA
GCTAAACAATCAAAATCAGAACTGCAAAATGAAGTGGAACAATATAAAACTCAACTTCTG
TCATGTGAAAAAGAAATAAAATCAAGAGAGGACAGTATAAAAACACTACAAGAATTGGTT
GATTCTTTAACTGAACAAAAATTAACATTCATTACCGAAATAGACACAGCACAGACTAAA
ATAAGAGCTCTGAATAATAAATGTAATGTGTATGAAGATGAATTAAATAAACTTAAAACT
GAAATAAATGTGAAGGATCAAAATCTTACATCCACATCACAGCAGCTGTCAGACTTTGAT
AGTAAAATAATATCATTAGAAAGGCAAAACACCAGACTTCTTGAAGAAAATGAACAACTC
ATCAACCAGCTCACAGAACTGGAAGCAAGGACTGAAGAGTTTAACAAAATTGGTCTTCAA
CAACAAGAACAATTAAAAATGTTAGAAGAAAGGGTTAGAAATGATGAAATATGTCAAAAC
AAAATTATTGAATCAAATTATAGTAAGAAAAATGTTATTAGAGAAGAAACAAGTGAAGGT
AATGAGACCAATATTAAGGAATATGAGCTTAAAATTGAAGAACTGAAGACATTATATGAA
CAAGAGAAATCGAAAAAGGAAAAGTGCAACATAAAATTGAGAAGTTACAAAGATAAGATA
CTTAAATGTGCAACTTGCATACACCAACTTAAAAATTCGAGATTCATATTGGCGAAAACT
GTTAAGGAATATTCGGAGAGTATCCCGAAATGGCAGAATGAGATCATTAAGGCATCTAAT
GCTCTTGATGCTCAAATTAAAGTGTTACATGATGAGAACATATCACTTAAAGAGAAACTC
AATGAAAAAGAAAATACTGTGGCATCAATATGTCACCAAAAAAACAGTCTTAATGATGAA
ATATTAAAACTAAGTGGTCAAATTAATGAACTGAAATCTGAGCTTACTGAATTACAGACA
TCACTAACTGAGTCTAAGATCTTGAATAATAACTTGATAGAAGAAAACAATGATTTGAAA
CTCAAAGAAGTTCAATTTAATAATCAATTGGAAGAGAATAGATTGTGCAAAGAAAAAATT
AATAATTTGTCTAGTCAATTATGCGAGGTTACAGCTAAATGTACTGAACTCCATAAAATA
AATAAAGAGTTGAAAGGAGATCGATCCAGACAACAAGATAATCACGAACACAAAGAAGTA
CTTGAACAGTTCAAATTACAAATAAGAGCATTGGAATCAGAGAAAGCAACTTTAGTTAAA
GAGAAATTAAATGTTAAGGATAATTTAGCAGAGCTTGAGAATGCAAATAAGAATTTGAGT
GATACCGTCGATCTAATGAATTCACAACTAACGGAGCTTAGAAGCCAATTAGAAAACGTG
ACATCAGAATATGAGAGAAACAAGAGAGAGTTCTCTGTAAACAAAGAACAGTTAGAAAAG
CAAATAATGACAGAAAAGAGTTCAATCAAGGAACAATACGAAAAGTTAAAGAGGGAATAC
GATAACTTACAAGATCTTAATGGCTTACTTCAAGAGGAAGTTGAGACCCTCAAACTGTCT
TTAGAACAACCGAAAGATGATGCAGACAATTCGTCAGATCTGAATGTATCACTTCAAGCT
GATATCGTAAAACTGGAGACGAAACTCTCAGCGTATAAACAGGAGAATTCATCGCTGTTA
TCCGAAGTAAAGGAATCGCGAAATAAAATCAAAGAATATGATAGAATTGTCGCCGAATGT
GAGGAGATGAAAACTAAACTTGTCGGCTACAAGTCCGAGAACGCTGAGTTGTTGAACGAA
ATGAAGGAGATAAATCAAGTACTCAAAGAGCGAGGCGAGGCTATATCTAAACTACAGAAG
GCTGTGACAGAGATGGAGAAATTAATTGAGACGTTAGAAAAAGATAGAGATAGTGTTAAA
GAAGAAAATGAAGACTTACATAAGAAGATTGATTTACTTGAAAACGATCTTAAGAGTGCA
CAATCTATACAGAGTGATGGTACCGGGCATGAAAATGAAAAAGAAAATTTACGAACAACC
GTGGAAGAAAGAGATGCAATGATTGCAAGCTTTGTTTCAGCTTCAGTTGATTTACCCAAT
GAAGATATGTCCACGTCGACTATATCGAGAGCTGAAGAACACACGCGGATGAGAGATCTG
GATGAATCATTCGAAGATAGATACACAAAACTGAGAATGTTCGCATTGAAACTTAAAATG
AAACTGAATGAGACAACGAGTCAGTTGCAAAGTTCAGAGCAAGAGAAGGCCAACTTGAAG
AAAATGTTAGCTGACAATAATATGAACCAACAATCCCAAGACACCGTGGACGAGAAAGAA
AATGGTGTGGCGGAGTTAGAATCACAAGTAAAGAAATTATCAAGAGATCTAGAAAATTCA
GAAAAAGTTAACAAAAAAATTACAGCTCTAGAAGCGGAGTTGGCCGCTAAGAGTCAACAA
CTAGATTGCGAAATAGAACATCATAAGGCAACAAAGGAGCAGTTGGAAAAAGCTCTCAAA
GATGTCAAGAAGAAGAAAGTATTGAGTCTTGAAATGGAAGACTATGAGAGGTCATTGAAA
GAACTCACAACTAAAATGGAAGAAAAGAAAAAAAAGATTATACAGATGGAGTCAACGATC
GATAATCAAGAGGGTACTATAACATCCATGCAAACACAAATAAAACTTTTACAAGAGCAA
ATAAAAACTGAAGAAAATCAATGCAGGCTGTTGAAGGAAGAGTTACAACAGGCTGTAGCG
GACAGCAAGGACAAAGACCAGCTGTTGAGTACCAACAAAGATATAATAACTAAACTAATG
CAGGACATAGAGGACGAAAAGAGAAAGAACGAGGAGGCTGACATGGAGATGACGTCAGCA
CTGAGCGAGAAAGAGAAAGTCATAATACACCTGTCAGAAGAAAAGATAGAACTAGGTAGC
AAGATGAAGAAGTTGGAATTCAAGTTTTGTGATATAGAAGAAAGATTAAGAATTACGAAC
ATAGAACTGGCTGACCTGAAGACCGAATATGCGAGTTATAAGGTTAGAGCTCAAGCTGTT
CTAAGACAGAACCAGACCGTGGACCACAGTCAGGAGGAGCAGTTCAAGGAAGAGGCCGCC
GCTCTCAGAGCTCAGATAGAAACATTGAATCAAAAGATGGCGACACTGCAAGAGCAGCTA
AGTGTAGCGAGTGCAGAAGCAGAGGCTGGTCGCAAACGAGCGGCGGACAGCACAGCGGAA
CTGTCCCGCTCGCAGCAGAGGAACGCTCGTCTGCACACAGACCTTACACGGCTCTCGCAA
CAGCTGGACACGGAGCGAGCACAGCATAAATTACAGATATCTACTTTGACACAATGCTAC
AAAACGCAAATAAGTGATCTCGAATCAAAGCATCAGAAAGAGACGGATAACCTGAAGAAA
CAGCTGTCTCTTTTACAAGAGAATGTTAAATCAGGAAACTCTAACGAGCCGTCGCAATCT
GATAAATATCTGTTACCGGTTATATCGAAGGAGGAGGGAAGTGACAACGAAATGGACATC
AACGTCTCACTCATACCGAGGGAGGAGGGGGAGGGTTCGGAGTCAGCACCGTCGCCACCA
CTATCCAAGTCTATGTTATCGAGCGGCAGACGTTCACCGGTTCCTCTTGATAGACTTCTC
GAAGAAGGAGTCCCTGATAATGACTCTCTTGATACTTCTTCTCTTGCTCTGACTATTGAG
CAGGAAGTAGTGGATCTGAGGAGAAAAGTACAAGCTCAACAAGAAAGGGTGAAACACGTG
ACGGTGCTGCTGTCCGAATCTGAGCGTGAGAGAGCTCGTCTGTCTCAGCTAAGTGAGCTG
TTGAAAGGTGAACTGCGCCGAGCTAGACCCCCGGCCTCCGCCGCCCATAATACCCAGTAC
ATGAAAAACGTTACACTAAAGTTCCTGACTTTACCCCCCGGGGACGAACGATGTCGCCTC
GTCCCCGTGCTGCAGAAAATACTGACTCTCTCTACAGATGAAACTCAGAAGATACAAGCA
GTCGCCAAGGGACAAGATCCGAATCCCGGCAAAGGTTGGGGAAGCTACTTGCCATGGCCC
GGAGGAAAATGA
Protein sequence:
MDKSVESKDQDHNPKRSPFDELSREDLITKCKGLLVIAQKAKQSKSELQNEVEQYKTQLL
SCEKEIKSREDSIKTLQELVDSLTEQKLTFITEIDTAQTKIRALNNKCNVYEDELNKLKT
EINVKDQNLTSTSQQLSDFDSKIISLERQNTRLLEENEQLINQLTELEARTEEFNKIGLQ
QQEQLKMLEERVRNDEICQNKIIESNYSKKNVIREETSEGNETNIKEYELKIEELKTLYE
QEKSKKEKCNIKLRSYKDKILKCATCIHQLKNSRFILAKTVKEYSESIPKWQNEIIKASN
ALDAQIKVLHDENISLKEKLNEKENTVASICHQKNSLNDEILKLSGQINELKSELTELQT
SLTESKILNNNLIEENNDLKLKEVQFNNQLEENRLCKEKINNLSSQLCEVTAKCTELHKI
NKELKGDRSRQQDNHEHKEVLEQFKLQIRALESEKATLVKEKLNVKDNLAELENANKNLS
DTVDLMNSQLTELRSQLENVTSEYERNKREFSVNKEQLEKQIMTEKSSIKEQYEKLKREY
DNLQDLNGLLQEEVETLKLSLEQPKDDADNSSDLNVSLQADIVKLETKLSAYKQENSSLL
SEVKESRNKIKEYDRIVAECEEMKTKLVGYKSENAELLNEMKEINQVLKERGEAISKLQK
AVTEMEKLIETLEKDRDSVKEENEDLHKKIDLLENDLKSAQSIQSDGTGHENEKENLRTT
VEERDAMIASFVSASVDLPNEDMSTSTISRAEEHTRMRDLDESFEDRYTKLRMFALKLKM
KLNETTSQLQSSEQEKANLKKMLADNNMNQQSQDTVDEKENGVAELESQVKKLSRDLENS
EKVNKKITALEAELAAKSQQLDCEIEHHKATKEQLEKALKDVKKKKVLSLEMEDYERSLK
ELTTKMEEKKKKIIQMESTIDNQEGTITSMQTQIKLLQEQIKTEENQCRLLKEELQQAVA
DSKDKDQLLSTNKDIITKLMQDIEDEKRKNEEADMEMTSALSEKEKVIIHLSEEKIELGS
KMKKLEFKFCDIEERLRITNIELADLKTEYASYKVRAQAVLRQNQTVDHSQEEQFKEEAA
ALRAQIETLNQKMATLQEQLSVASAEAEAGRKRAADSTAELSRSQQRNARLHTDLTRLSQ
QLDTERAQHKLQISTLTQCYKTQISDLESKHQKETDNLKKQLSLLQENVKSGNSNEPSQS
DKYLLPVISKEEGSDNEMDINVSLIPREEGEGSESAPSPPLSKSMLSSGRRSPVPLDRLL
EEGVPDNDSLDTSSLALTIEQEVVDLRRKVQAQQERVKHVTVLLSESERERARLSQLSEL
LKGELRRARPPASAAHNTQYMKNVTLKFLTLPPGDERCRLVPVLQKILTLSTDETQKIQA
VAKGQDPNPGKGWGSYLPWPGGK