| New model in OGS2.0 | DPOGS215697 |
|---|---|
| Genomic Position | scaffold788:+ 18468-27971 |
| See gene structure | |
| CDS Length | 3360 |
| Paired RNAseq reads | 4443 |
| Single RNAseq reads | 12247 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005758 (0.0) |
| Best Drosophila hit | cullin-4, isoform B (0.0) |
| Best Human hit | cullin-4B isoform 1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to cullin 4B [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to cullin 4B [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0000152 nuclear ubiquitin ligase complex GO:0004842 ubiquitin-protein ligase activity GO:0031625 ubiquitin protein ligase binding GO:0031461 cullin-RING ubiquitin ligase complex GO:0051533 positive regulation of NFAT protein import into nucleus GO:0042787 protein ubiquitination involved in ubiquitin-dependent protein catabolic process |
| InterPro families | IPR016158 Cullin homology IPR019559 Cullin protein, neddylation domain IPR016157 Cullin, conserved site IPR001373 Cullin, N-terminal IPR016159 Cullin repeat-like-containing domain IPR011991 Winged helix-turn-helix transcription repressor DNA-binding |
| Orthology group | MCL10217 |
Nucleotide sequence:
ATGAGTTCTAATGAAAAGAAATCTAACTTCTCAATGCTCAATCCCAATGTTAATGGCACT
ATCAAAATGACAACGTCGTCCATGAATAAACCTGGCGCAACAACAAAGAAACTAGTTATT
AAAAACTTTAAAAGTAAACCGAACCTTCCGGAAAATTATCAAGAAACAACATGGAGCAAA
TTACGAGAGGCTGTTATAGCTATACAAACGTCGAAGGCAATCGCCTATTCCTTAGAAGAA
TTATATCAAGCAGTTGAAAATATGTGTAGCCATAAGATGGCGTCTCAATTGTATGTTAAT
TTGACAAACTTAGTGGAGGCCCACGTGAAATCAAACATTGAGCAGTTCCTGTCGGAGAGC
ATGGATCGCCAAGTGTTTCTCAAACGTATGGACGACTGTTGGCGGGCTCACTGTCGACAA
ATGATCATGATCAGGAGCATCTTCCTGTACCTGGACCGTACTTATGTTCTCCAAAACCCT
AGCATACATTCTATATGGGACATGGGTCTAGATCTGTTCCGGCATCATATAGCTATGAAC
ACTCTGATACAGACTCGCACTGTTGATGGACTGTTGACATTGATAGAACGGGAAAGAGGG
GGAGATGCCGTGGACATCTCCCTGCTGAAGAGTTTATTGAGGATGCTGTCCGACCTTCAG
ATATACCAGGATGCCTTTGAACACAAATTCCTGCAGGCCACAGAGCGTCTGTACTGCGCG
GAGGGCCAGCGTCTGATGCGAGAGTTAGCAGTGCCGCAGTATCTGGCACACGTGGAGAAG
AGACTCAGGGAGGAGAACGAGCGGCTCCTGCACTATCTGGACCCCTGTACCAAATGGCAG
CTCATCCATACGGTGGAGCGTCAGTTGTTGAGCGAGCATGTCAGCGGTGTACTCAGCAAG
GGACTCGAGTCGCTTATGGACGGGCCGCGCCTCAGAGACCTCGCCACCCTATACTCACTG
TTCAGCCGAGTCAAGGACGGACTCACTGAGCTGTGTAATCACTTTAATGCGTACATTAAG
AAAAAAGGTCGTACCATAGTCATCGAGCCGGAGCGTGACAAGACGATGGTAGCGGAACTG
TTGGAATTCAAAGAGCAGCTGGACAATGTTGTGAGCACGTGCTTCCAGAGGAACGACCGG
TTCCTGTACTCCATGAGAGAGGCCTTCGAGCACTTCATCAACCAGAGACAGAATAAACCG
GCTGAGCTCATTGCCAAATTCGTCGATCTCAAACTGAGAGCCGGCAACAAAGAGGCGACG
GAGGAAGAATTAGAAAGACTGCTGGACAAAATAATGGTTCTGTTCCGTTTTATACACGGG
AAGGATGTGTTCGAGGCATTCTACAAGAAGGATCTAGCAAAGAGGTTGTTGGTGGGCAAG
TCGGCCTCCGTGGACGCGGAGAAGTCCATGTTAAGCAAACTGAAGCAGGAGTGTGGAGGG
GGCTTCACCTGCAAGTTAGAAGGCATGTTCAAAGACATGGAACTGTCAAAGGATATTAAT
ATTACATACAAGCAGATGGCGTCTCAATTGTATGTTAATTTGACAAACTTAGTGGAGGCC
CATGTGAAATCAAACATTGAGCAGTTCCTGTCGGAGAGCATGGATCGCCAAGTGTTTCTC
AAACGTATGGACGACTGTTGGCGGGCTCACTGTCGACAAATGATCATGATCAGGAGCATC
TTCCTGTATCTGGACCGGACTTATGTTCTCCAAAACCCTAGCATACATTCTATATGGGAC
ATGGGTCTAGATCTGTTCCGGCATCATATAGCTATGAACACTCTGATACAGACTCGCACT
GTTGATGGACTGTTGACATTGATAGAACGGGAAAGAGGGGGAGATGCCGTGGACATCTCC
CTGCTGAAGAGTTTATTGAGGATGCTGTCCGACCTTCAGATATACCAGGATGCCTTTGAA
CACAAATTCCTGCAGGCCACAGAGCGTCTGTACTGCGCGGAGGGCCAGCGTCTGATGCGA
GAGTTAGCAGTGCCGCAGTATCTGGCACACGTGGAGAAGAGACTCAGGGAGGAGAACGAG
CGGCTCCTGCACTATCTGGACCCCTGTACCAAATGGCAGCTCATCCATACGGTGGAGCGT
CAGTTGTTGAGCGAGCATGTCAGCGGTGTACTCAGCAAGGGACTCGAGTCGCTTATGGAC
GGGCCGCGCCTCAGAGACCTCGCCACCCTATACTCACTGTTCAGCCGAGTCAAGGACGGA
CTCACTGAGCTGTGTAACCACTTTAATGCGTACATTAAGAAAAAAGGTCGAACCATAGTC
ATCGAGCCGGAGCGTGACAAGACGATGGTAGCGGAACTGTTGGAATTCAAAGAGCAGCTG
GACAATGTTGTGAGCACGTGCTTCCAGAGGAACGACCGGTTCCTGTACTCCATGAGAGAG
GCCTTCGAGCACTTCATCAACCAGAGACAGAATAAACCGGCTGAGCTCATTGCCAAATTC
GTCGATCTCAAACTGAGAGCCGGCAACAAAGAGGCGACGGAGGAAGAATTAGAAAGACTG
CTGGACAAAATAATGGTTCTATTCCGTTTTATACACGGGAAGGATGTGTTCGAGGCATTC
TACAAGAAGGATCTAGCAAAGAGGTTGTTGCATCTATCAGCGACCAGCGAGGGCGGGGGG
CTCGAGCTGTCCGTGTACATCCTGACCATGGGTTTCTGGCCGACGTACGCGGCCGTGGAC
GTGCGGCTGCCGGGAGAACTCACCCGCCACCAGGAACACTTCGCCAAATTCTACCTCGCC
AAGCACTCCGGCAGGAAGCTACAGTGGCAGGCGACGCTGGGACACTGTGTACTGAGAGCG
CACTTCACACAGGGTAACAAAGAACTTCAGGTCTCGTTGTTCCAAGCGCTGGTTCTGCTA
CTCTTCAATGATGGAGACAATCTCTCCTTTGAAGACATTAAGACTGCCACTAACATCGAG
GAGGGGGAGCTGCGCCGCACTCTCCAGTCGCTGGCTTGTGGTAAGGCGCGCGTGCTGATG
AAGACCCCTCGGGGGAGGGACGTGCAGGACCGGGATCACTTCGCCTTCAACGGGGACTTC
ACCAACAAGCTGTTCCGCATCAAGATCAACCAGATACAGATGAAGGAGACTAGCGAGGAA
CAGAAGGCCACCGAGGAGCGAGTGTTCCAAGATCGTCAGTATCAGATAGACGCGGCCATT
GTGCGCGTCATGAAGATGAGGAAGGCTCTCTCACACAACCTCCTCATATCCGAACTATAC
AACCAGCTCAAATTTCCCGTCAAGCCGGGGGACCTCAAGAAGCGGATAGAGTCCCTCATC
GACCGCGACTACATGGAGCGAGACAAGGACAACCCCAACCAGTACAACTACGTCGCGTAA
Protein sequence:
MSSNEKKSNFSMLNPNVNGTIKMTTSSMNKPGATTKKLVIKNFKSKPNLPENYQETTWSK
LREAVIAIQTSKAIAYSLEELYQAVENMCSHKMASQLYVNLTNLVEAHVKSNIEQFLSES
MDRQVFLKRMDDCWRAHCRQMIMIRSIFLYLDRTYVLQNPSIHSIWDMGLDLFRHHIAMN
TLIQTRTVDGLLTLIERERGGDAVDISLLKSLLRMLSDLQIYQDAFEHKFLQATERLYCA
EGQRLMRELAVPQYLAHVEKRLREENERLLHYLDPCTKWQLIHTVERQLLSEHVSGVLSK
GLESLMDGPRLRDLATLYSLFSRVKDGLTELCNHFNAYIKKKGRTIVIEPERDKTMVAEL
LEFKEQLDNVVSTCFQRNDRFLYSMREAFEHFINQRQNKPAELIAKFVDLKLRAGNKEAT
EEELERLLDKIMVLFRFIHGKDVFEAFYKKDLAKRLLVGKSASVDAEKSMLSKLKQECGG
GFTCKLEGMFKDMELSKDINITYKQMASQLYVNLTNLVEAHVKSNIEQFLSESMDRQVFL
KRMDDCWRAHCRQMIMIRSIFLYLDRTYVLQNPSIHSIWDMGLDLFRHHIAMNTLIQTRT
VDGLLTLIERERGGDAVDISLLKSLLRMLSDLQIYQDAFEHKFLQATERLYCAEGQRLMR
ELAVPQYLAHVEKRLREENERLLHYLDPCTKWQLIHTVERQLLSEHVSGVLSKGLESLMD
GPRLRDLATLYSLFSRVKDGLTELCNHFNAYIKKKGRTIVIEPERDKTMVAELLEFKEQL
DNVVSTCFQRNDRFLYSMREAFEHFINQRQNKPAELIAKFVDLKLRAGNKEATEEELERL
LDKIMVLFRFIHGKDVFEAFYKKDLAKRLLHLSATSEGGGLELSVYILTMGFWPTYAAVD
VRLPGELTRHQEHFAKFYLAKHSGRKLQWQATLGHCVLRAHFTQGNKELQVSLFQALVLL
LFNDGDNLSFEDIKTATNIEEGELRRTLQSLACGKARVLMKTPRGRDVQDRDHFAFNGDF
TNKLFRIKINQIQMKETSEEQKATEERVFQDRQYQIDAAIVRVMKMRKALSHNLLISELY
NQLKFPVKPGDLKKRIESLIDRDYMERDKDNPNQYNYVA