New model in OGS2.0 | DPOGS213146  |
---|---|
Genomic Position | scaffold2623:+ 34023-48337 |
See gene structure | |
CDS Length | 6204 |
Paired RNAseq reads   | 3072 |
Single RNAseq reads   | 7408 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007905 (0.0) |
Best Drosophila hit   | purity of essence (2e-82) |
Best Human hit | E3 ubiquitin-protein ligase UBR4 (3e-72) |
Best NR hit (blastp)   | PREDICTED: similar to ubiquitin protein ligase E3 component n-recognin 4 [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to ubiquitin protein ligase E3 component n-recognin 4 [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0005516 calmodulin binding GO:0007286 spermatid development GO:0007291 sperm individualization |
InterPro families    | IPR013993 Zinc finger, N-recognin, metazoa IPR003126 Zinc finger, N-recognin |
Orthology group | MCL10643 |
Nucleotide sequence:
ATGGCTGCATCGGGAGGAAATATTGAATGGTCTACAACAGTTAAACCAATTTTAACTTCA
TTACATGGCCCTTTTTTCGACAATGATGTCGTTGAAATTATTCAGGCTATAATTAAAAGT
GAAAGCGAGTTCCAGAGTCATGACGACGTATATGACCTATTTTACACATGCTTTGCCTGT
CTTTCAGCACATTATATCAGCGAAAATGCATACAGCTTACCAGTCGATCAACTTGGCGCA
GCACGGGATGCATTTAGAATTATTCTCGGTCAAATCCTCAAAAAGCTTTCTGAAGTTGGA
ATGCGCTACGATGACGCAAACAACACGGCCGCTTCTAACGTGTCCATAAAACAGCTCCTA
CTGCCAATTGTGGGGCTATGCGGTATTGATGGTGGAGGCCTTCCCCAATCTGATCTGGTA
ATACTGACATCACTGCTCAACAGTGCAAAACTGCCTCCGCATGTCAATGTAACAGAAACA
CCGCCCACTAAATCTTCAGTTATACCAAGCCCAATAACATCGTTGGCGTCACAAACGACA
TCGACTGAGAAGCAGGCTCCGACAAGTACCCAACGTCGTTCAGACGCCTTGCTCGAACAA
TTAACACTGCCCTTAAGAAACCCTGTTAGTGCGACAGTCCAGAGTCAACCGATCCCTGGG
TCCATGCCTCCCGGAAGCAAGGAGAGCTCAGATAATACCAAAGATGGGAACGCGTCTCAA
CAAGTTGCCGTCGATAAGAAGAAGTGGGTTGCATCTACCTGTTCATCACTACTCATGGAG
CTGAGAGCTGGCTCGGTGGTACTGAAAGTGTGCTTGTCTCTATCCTGCCTCCAGCGCTAC
TTGAACCGCTGGCAGAACGCCAAGGAGAGCGCCATTGTACCACAGTTTAACTCTGATGCC
TCACTTCTTCACTTTCTAGTAAACGAGGTTCATGTGTGCCGTCTCGCTCTCTCCCTACCT
TGTTTAGAGCCATTCACTCCAGAGCGTATTTCAGCTCTCAGCGACATAGCTACCGCCTGG
TTGTTATGTTGTGCTACAGCGCAGGCTTCCCTACATCCAAAGGACGAGGAGAGCGAGCAG
CAGACAGCAACTCTAGTCGAAAGCGCACTCAGTCTGTATAACACTGTTGGAGAAACGTTT
AAACAATCTACTCGCGCTGGCGGCTATGTATATCAAAACCACCTGATGATCGGTGCCTGG
GTGCTGGTGTGCGGTCTCCATCACGTGCTGGCGGGCGCTCCCGGCCCTCCCCGGAGCCCT
GCAAGAGTTCCCTCACGACCATACAATCTGACTAAGATGCAGCAAGGTCTCAGTGTAGTG
TGGGTGGCGTTGGGCGGTCGCTGTCTATCGTGGATGGGAGCGTTACTGTCGGACGCGCGT
CTGGAGGCTATGAGTGTGACCACTACAGCCGGCACGAGCTCGCCCGCGCCGTTACAGATC
CTCGCTCATCACACCGCTCACCAGAGGGAACTGAGACTGGCCACCGCGGCGCCCCTACAC
CAGCTGTTAGTCGCGCTAGGCGTTGTCTGCTATCGCAAGGCCACCAATTTGAAGCGCGCG
GTGGTGCAGAAGCAGCATCAGGACGCGGACCCGGACCGCTCTGACTCTACCGTTTACTTC
CAAGACATGATACTGTGTTCCGAAGACTCTGAGACTGATGATGAGGACAGCGAACCGCTG
TTTGGGTTGTGGTTTGAGTCGACCCTCGTGGCCCCGGATGCCATTGACAGCGGGTTGACT
CGAGCCGGCGTCACGGACAACAACGACGCGAACGATGCCAACACCAGAACGCACCAGGCC
ATCGTACCGGACAAGGCAGAACCGTATTCTTACATAACGTTAGCCACGGAGGTATTCAAT
CTCTTGACCGAGGAAATCATCAGTCAGGGCTCGGACCGCCTGGGATCGAGCGCGCTCCAG
CTGCACGATACACATCAAGCGCTGTTGGCCGCACTCGCCAAGGACCTGGACAGGGAAACC
GCCAGGACGGATATTGGCACCATATCTTCTTGCTTCGGCGCTCGTCTGGGCTCGCTGTAC
GCGTCGTTCAGCTCGGCCCTGGTGCGATACTTGCATAATTTGAGCGGCGCGCCCGCCTTC
GCATCTCTGCAACCGGCTCTACACCAGCAGCTACTGTCATCTGGATCTGATAGGAACAAT
ATGACGCCATTGCAGGTGGGTCCGCGCGTAGTAAAGTTACTCGGCGGTATGGTCCTGAGC
AAGCCGCCAGCTGATCGCGAGAACAGCATCCTTGTGATGTGGCACAAAATTGTACACACG
CTTCAGGAGTGTGCGTTACAGGCGCAGCCAAGTACAGACCATGACTATGAAGATCTGAAT
GTGGAGCATGCCCAACTCTTAGTGTACCTCTTCCATTCCTTGACATTGATGCAGAAAAAG
TCCGTGCTGCTGACAACATCGAATGCGATCATAAAAGTGGTGGAAACTCTCGGGATTAAT
GACAGGAAACGTTCATCTACCTTGGCCCCGCACCAGCTCATGCTGGCCACAAGACTGATG
CTCTTATTGGAGTATCTCATGAAACACCTTTACGACGCTCCGCAGACGTTACTACAGCAA
ATTGAATGGAATCTTGTGATCGCCCCCGGACTCGCTCAACCAACACAAGATGTGAATAAT
ATCAATTTAAAGGCGGCTACAGACAGCGGACAGATCAAATCACGTATATATTGCGAAGTG
CCCTACATCGAGCAAGCGTACCGACGCCTGTCTCAAGACGAGACCTCTATGAGACCAAAG
TTCTACGCGCTCACTAACGCTGAGATCAATAATCAGGAGAATCCTAAACTAGACGGTCTA
GCGTGTAACTTCGTCCTGGGAACTCCTCACAAGCTGAAGTACCCGTTGTTGTTGGACGCG
ATTCTCTCTCTCCTGAACTCGGCCTGTATGTGCGACAATACAGCCTACAGCACGAACCCC
ACTGCCCTAGCGGCTTCACACTATTGCTTCCAGACCGCTTGGAGGCTAGTGGTGAGTATG
CCTCCCGCCACTCCGCATATGGACAAGCTGCAGGCGGGTATCGCTGCCGAACTGCCGTCG
CCGCTGCCGTTACACGCGCTCGTGTGGGCGCCTCGGGCTGATAATAAAAAGGTGTTCAAC
CCCTGGCTCAAGGACGCTCTCGTTAAGCAAGGGATGTACACACAGTATGCTGAAAACTTG
CTGTCCGGCGTGAGCGCGTCCTGTGATAACATTAAATACACAGCCTGGCTCGCCTCTGAA
ACCATAAAACATCTTAAACAGAACATCACCAGCAATGGACTGCCATCTCTCCTCGACGTC
ATATCATGCGACGCCGCCCTCGTCAGGCTCAAGATATGTCTCGTGGATTCAGCCACCGCT
TCGGAGGCGCATCAGTTCATGCCTGATCTGTTGGAATTATTGGAAACGATCCTGGAATGT
TGCAGACTCAGTGTAAGTATGGAGCTGGACAGCTTAATGGAGACGTCGAGCAACCCGTCG
GACATAGCGGTGGCGAACGTCCGCCTCCAGGTGTGCGGCAGCGCGGGCGTGGCTCACACT
ATGACGTCAGTGGGCGCGCCGCCGGCTCTCGGCACCTGGCTGAAGGCCCAGCTGCCGTCG
AACGTCGCGGCCGCCATAGATTCCTACGCCACGCCGCCGCCGTTTGCCTGTATTAACTTG
TCGATCTACGAGAGTCACATTATACCGTCAGAAAGTGCAGTACTCAAATTAGTGTCCTCC
CATTGCGAGTTAATTAGCAGCAACAGCAAGTACTCCATCGGCACCTCGCTTATGATGTTG
GCGTATTCGGCTTCTAAGCTCCTAGAAGTTGGCTCTAACAAACTGGCCGATAGCCCGACT
TTAACGAAGAAGACTTTGGATTTGATTGTCCCAGCTTTGACGGACGGGCGACTGGAGTTC
CTGTCAGAGCCTCTAGCCGCAACCCTCAATGCTTTGGTTACACAAGCTAACAGAGCGGAA
CAACTTGTTCATGAACATGTCTTGAAGACCACTTACACGGCGCTCATAGAACACCTGCAG
CCGTCCACGGAGAAGACATTACGTCATATGGTGAAATATTGGGAGAAAATACTCGAACGG
CCAGTGGGCCGTGTGGCTTATGAGAATGTGTTCGCTGATAACACTGGATACGCTCTCGGC
AAGATACTTTTATCCGCCCCGAACGCTAGGAATCCGTATACGGAGAGAGTAATTAAACTT
TTCATCAAGATATTCAGCGGCTGCGACACCTCGGATATGAATAGTCCTCTTTGCGTGTCC
GTCTGCAAATTTATCGGCGTGGCTGATCACCAGAAGTTATTAAATCTTCTGGCCCACATC
TGTTTGGTTCCACCAGCGTCAACAAACGGCAACGTAGCCACAGCGAACGGCAGTCCAGCG
GAGACAGAGCTGCCAACACCGACATCTTCAGCTCCCGACGGTAACCCGGCGTCGCTGGCC
TTCCGAAACGCTCTGCAGTCCGTCTTCCGAACAGACAACGATGCTAGGAACGACAACGTG
AACCGCAACGATCAAGACTTACCAGTTTTCGATACGCCTTCTCCGGCTCCGAGAGCACAA
TCAGAAGCGGCTCAGCAGTCTGAGAGCTGCAGCTGGTCGGACGGCAGTAAGGAGAGTAAC
GTCGTGGCCGTCCCCGAAGGTCCGACCCCCACGTCCGACTCTACCAATGATAACGCTACC
CTACTCAGCTTATTGTGCAAACACATCGTGCATCACGGTGGCGACAAGGTGAGCGAGCGC
ACACTGCTGGCTCTGATCGCCGTGTGCGGTGACTCGTGTGCGCCTCACCTCCTGCGAGAT
ATGTGCCGCCTGGCTGACGGACACTTCGGGGCCGATCATCGTCATCTCTTCCCCGCAGCC
ATCGCTTGGTTGTCCGCATGTGTGGATAACCTCAGCAGTGCGGAAGTATTGGAGAAGTTG
GAAGAGGGTCAAATAGATGCAAGCTTGACTCCTCAAATAGAGTCAGCGTGCGTGTTGCTC
TCGTACGTAGCAGACGCCTTACACGCTATCGGTACTTCACAGCCTCATACTTGGCGCTCT
GTGAGTCCCACTTGGGAGTCACCTTCAGATCTCGGATTTGACTTCGACTACACCGACGAG
CAACAAGACGATGACGACACGAGCGCTGATGATTCTGACGAAGAAGCCATGCTCCAATAC
AAGCTGTGTACGTTCACGGTGACGCAGCGGGAGTTCATGAACCAGCACTGGTATCACTGC
CACACGTGCAAGATGGTGGACGGCGTCGGCGTGTGCACGGTCTGCGCCAGGGTGTGCCAT
CGGAACCACGACGTGTCATACGCCAAGTTCGGGAACTTCTTCTGCGACTGTGGCGCCAAA
CCTGACTCCAGCTGTCAAGCTCTAGTGAAGCGCTCAGTAACACTAGGCGGCGCGCGCGGC
GCTGCCGGTGGTTCAGAGGACACGCCCCCCGCACCCTCCATCCGCAGGCGACCCTCGAGC
CCCACGCCGCCCGCGCTGCTCGCGCCACCACGACGACCTTTACTTGCTCACTATATACAC
GGTATTCTCTCGACACTATGTTATCAACGGAAGCCGGCCGCTGGCTGGGGACGAGTGTCC
AGTAGCTTCCCGTCACAATCACCAGGAGCCTGCATCAGGTCACTAGCGGCTGAACGTTCT
TTCAGATCCCAAGAGGGCGCTTTCGAGAACGTCCGTATGTCTTACACGGGTGAAAACGGT
CAGACTATCAGGCAACTGATGTCGGCGCACAAGCTGAGGCGGGTGGCTATGTGCTGTCTC
GCCTCGCCTCACGGGAGGAGACAACACCTCGCCGTGTCACACGAGAAAGGAAAAATAACA
GTACTACAACTATCAGCTCTCCTGAAACAATCAGACTTTTCAAAACATAAGTTGACCTTA
CCGCGTCTGTCCTCCGCTCCTATACCCTTCACTGTGCTGAGTCTCAGCGGCAACGCCTGC
AATGAAGATTTACTGGCCGTGTGTGGGCTGAAAGAATGTCATGTCCTAACTTTCAACAGC
GGCGGTGCCGTAGCTGACCACCTAGTTCTCAACACGGGTCTCGAAGCAAACAATTACGTT
ATCAAGGCGATTTGGCTCCCGGGTTCACAGACGCAGCTCGCTCTAGTCACCTCAGACTTC
GTCAAGATATTCGACCTCAGCAAGGATCTCAGTAATCCAATGCATCACTTCCTTGTACCT
AGTGGAAAGGTATTTTTTTTATAA
Protein sequence:
MAASGGNIEWSTTVKPILTSLHGPFFDNDVVEIIQAIIKSESEFQSHDDVYDLFYTCFAC
LSAHYISENAYSLPVDQLGAARDAFRIILGQILKKLSEVGMRYDDANNTAASNVSIKQLL
LPIVGLCGIDGGGLPQSDLVILTSLLNSAKLPPHVNVTETPPTKSSVIPSPITSLASQTT
STEKQAPTSTQRRSDALLEQLTLPLRNPVSATVQSQPIPGSMPPGSKESSDNTKDGNASQ
QVAVDKKKWVASTCSSLLMELRAGSVVLKVCLSLSCLQRYLNRWQNAKESAIVPQFNSDA
SLLHFLVNEVHVCRLALSLPCLEPFTPERISALSDIATAWLLCCATAQASLHPKDEESEQ
QTATLVESALSLYNTVGETFKQSTRAGGYVYQNHLMIGAWVLVCGLHHVLAGAPGPPRSP
ARVPSRPYNLTKMQQGLSVVWVALGGRCLSWMGALLSDARLEAMSVTTTAGTSSPAPLQI
LAHHTAHQRELRLATAAPLHQLLVALGVVCYRKATNLKRAVVQKQHQDADPDRSDSTVYF
QDMILCSEDSETDDEDSEPLFGLWFESTLVAPDAIDSGLTRAGVTDNNDANDANTRTHQA
IVPDKAEPYSYITLATEVFNLLTEEIISQGSDRLGSSALQLHDTHQALLAALAKDLDRET
ARTDIGTISSCFGARLGSLYASFSSALVRYLHNLSGAPAFASLQPALHQQLLSSGSDRNN
MTPLQVGPRVVKLLGGMVLSKPPADRENSILVMWHKIVHTLQECALQAQPSTDHDYEDLN
VEHAQLLVYLFHSLTLMQKKSVLLTTSNAIIKVVETLGINDRKRSSTLAPHQLMLATRLM
LLLEYLMKHLYDAPQTLLQQIEWNLVIAPGLAQPTQDVNNINLKAATDSGQIKSRIYCEV
PYIEQAYRRLSQDETSMRPKFYALTNAEINNQENPKLDGLACNFVLGTPHKLKYPLLLDA
ILSLLNSACMCDNTAYSTNPTALAASHYCFQTAWRLVVSMPPATPHMDKLQAGIAAELPS
PLPLHALVWAPRADNKKVFNPWLKDALVKQGMYTQYAENLLSGVSASCDNIKYTAWLASE
TIKHLKQNITSNGLPSLLDVISCDAALVRLKICLVDSATASEAHQFMPDLLELLETILEC
CRLSVSMELDSLMETSSNPSDIAVANVRLQVCGSAGVAHTMTSVGAPPALGTWLKAQLPS
NVAAAIDSYATPPPFACINLSIYESHIIPSESAVLKLVSSHCELISSNSKYSIGTSLMML
AYSASKLLEVGSNKLADSPTLTKKTLDLIVPALTDGRLEFLSEPLAATLNALVTQANRAE
QLVHEHVLKTTYTALIEHLQPSTEKTLRHMVKYWEKILERPVGRVAYENVFADNTGYALG
KILLSAPNARNPYTERVIKLFIKIFSGCDTSDMNSPLCVSVCKFIGVADHQKLLNLLAHI
CLVPPASTNGNVATANGSPAETELPTPTSSAPDGNPASLAFRNALQSVFRTDNDARNDNV
NRNDQDLPVFDTPSPAPRAQSEAAQQSESCSWSDGSKESNVVAVPEGPTPTSDSTNDNAT
LLSLLCKHIVHHGGDKVSERTLLALIAVCGDSCAPHLLRDMCRLADGHFGADHRHLFPAA
IAWLSACVDNLSSAEVLEKLEEGQIDASLTPQIESACVLLSYVADALHAIGTSQPHTWRS
VSPTWESPSDLGFDFDYTDEQQDDDDTSADDSDEEAMLQYKLCTFTVTQREFMNQHWYHC
HTCKMVDGVGVCTVCARVCHRNHDVSYAKFGNFFCDCGAKPDSSCQALVKRSVTLGGARG
AAGGSEDTPPAPSIRRRPSSPTPPALLAPPRRPLLAHYIHGILSTLCYQRKPAAGWGRVS
SSFPSQSPGACIRSLAAERSFRSQEGAFENVRMSYTGENGQTIRQLMSAHKLRRVAMCCL
ASPHGRRQHLAVSHEKGKITVLQLSALLKQSDFSKHKLTLPRLSSAPIPFTVLSLSGNAC
NEDLLAVCGLKECHVLTFNSGGAVADHLVLNTGLEANNYVIKAIWLPGSQTQLALVTSDF
VKIFDLSKDLSNPMHHFLVPSGKVFFL