New model in OGS2.0 | DPOGS203523  |
---|---|
Genomic Position | scaffold751:+ 13482-20049 |
See gene structure | |
CDS Length | 2673 |
Paired RNAseq reads   | 667 |
Single RNAseq reads   | 1961 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004268 (0.0) |
Best Drosophila hit   | eco, isoform B (6e-41) |
Best Human hit | N-acetyltransferase ESCO2 (7e-38) |
Best NR hit (blastp)   | PREDICTED: similar to Establishment of cohesion 1 homolog 2 (S. cerevisiae) [Nasonia vitripennis] (5e-51) |
Best NR hit (blastx)   | PREDICTED: similar to Establishment of cohesion 1 homolog 2 (S. cerevisiae) [Nasonia vitripennis] (3e-53) |
GeneOntology terms    | GO:0007064 mitotic sister chromatid cohesion GO:0008080 N-acetyltransferase activity GO:0006281 DNA repair GO:0003887 DNA-directed DNA polymerase activity GO:0003684 damaged DNA binding GO:0005515 protein binding GO:0000790 nuclear chromatin GO:0016407 acetyltransferase activity GO:0007052 mitotic spindle organization |
InterPro families   | ND |
Orthology group | MCL13797 |
Nucleotide sequence:
ATGGCAGCGACTACTCCGAGACGTTCTTCACGAATTCCGCATACTCATACGCCTAAAATG
TCTGAGAGAAAGAAAGGGTTATTTGTTACTGAGAACGAGTCATCGAGGGAGTCCTTGACC
AAACACCGTCGACTACCCGTGGTGGATAGTGAGAGTGATAGCGAAGACTGTGACCTGGGC
ATCATAAGTACCCTGGATTCCAGTTCTGGTGATGACACCGATCAGAACAAAACACCCGAA
CGATCGCATTGGAATGAAATAAGAAACAAAACTAAGATAAGGGAGACACATGATCTGAAG
AACTTTATGAAGTCTCCATTTACTCTCAAGAAGTACCAAACCAGATATTCCTGTCCGGAA
ACTAGATGTACTGGTTCATTATCAACACCAGCTACACCTCACTTACAAAATCATCCGCGG
ACCCCTTCATCCACTCACTCTTGCGCCAGCATTCACACAACTTCTTCCACATCCAGCCGA
GCTCGGAAAAGTCTGGCCAGTCTCATAGCAGACACAGAGAGCTGTAGCAGCTCCCTCAAA
GACCTCAACTTTGACACAGACTCAGGCTCTGATTCAAAAGAGAACACTCCAACGAAATCT
CTCAGAAGGTCAGGTCGTAGACACAAAATGACCCCAAAGCTGCAAAGCTTCAAGGGGATT
TTGGTGGAGCAAAAAAAAAATATGTCTCCGATGAAAAATGCAGTTGTCTGTCTCACTAAA
ATAGACATGAGCAACTACATATCACCAACACAGATGCTTAAGACACCACACAACACATCG
GAGAAGGCGTCGCCTCCGAAGTTAGGCCACAACCGGCGTTCCGTGATCGAAATACAGGAA
AGCCCGGAATCCGTATGTGAAAGTGAGAAAAGTCACAAGCGCCTCCACTATGATAATGAT
TCTGATGTAGGGCCGGTGTCCAAGTATCCGAGACTCGATGTTACCGCGCCGAAAGCCCGT
CTGTCACTGTTCAACTGCGATCGACTTAAAGAAATTCTATCTACTAAATCTTTCTACGGC
AAAACCAATCCAGAAATGAATTCTAACATTTCTACAAAAATATCAAACGCCATCGAAGCC
ACCAGCGTCCACAGAAGACACTCCTTCAGCCACTCCCAGCCTCACCGACGCAAACGAAAA
CCCGGTCAGATAAACCTCGGGGTGAAACACAAAATTAGGAAGCCGAAAGTACACAAGACT
AAGATAGCCACTTCAAAAAGTTCCAACGCTACAACACCGAGTGTGTTGAATCAAAGTAGT
GTCTCAAATAAATCTATCAACAAAGACTTGTCCATTTTAAGTCAGGGCTCTACCGATGAT
AAGGCCGATCCATTTGACAAAGAGAAACAGACAATAGACGCCCTTCTCAGCCAGTGGACT
GAGGAGGATATACCGGAGTCTGAACTGACGTACACACGACCACAGGAACTGCCGTGCTTC
AACAGCACAGTCATAGAGGCCACTGACCAGATTTTCAAACCCATCACAGCTGTTCCCGTG
GCCGCAGACAGTTCGAAGTTACAGGATTCAGAAGCTGTCATAGTAGAATTAGGAATTACA
AAACCAGTTGTCGCCGCAAATACTCAAAATGATGTGAATGCCACAAACCCACAAAACGAC
ATGAATGCCACAAACCCACAAAATGATCAAGATGTGATCATGGAAGAAGGTCATATCGCG
AACCATGGTGAAGTTCCTAAGACTGGACAGTACCTGCCCGTGGAAGGTGGATACATATAT
GTTGATGGAAACTTAGAACAAAAGGAAATACCAGACCTGGACGAGATTGAACGTGAGTTA
CAGATGTTGGATGAACAGATATTGAAAATGGCGCAAACAAACAACATAGACGCTGATGCT
GTACTGGCCTCCACGGAGACATTACCCATAGCTGGTGACTTGTCAACAGATCAAACATCT
CTACAGTGTGAGAAACAGACAAAACTGTTCCCTATCTTCAGTAAACCAAACCATGGTCTG
AACGCTACGTCCACTAAAGGAGACAAAACGAAAAGATGCTTACTGAAGAGTGGCAGCAAT
CAGTATCTGATAGACGCTGGGCAGAAGAAGTTTGGAGCGACACAGTGTCATGAATGTGGA
GTTATATACGAGGTCGGTGACCCTCAAGACGAACACGACCACTTGGTTCACCACAACGCA
TCTGATGTACTCAAGTTTAACGGTTGGAAGGAGGAGTGCATTGTGGACAGGACGGAGCAT
GGGAGGTGTCTGAGAGTACGGGGAGGAGACTCCGGGTGGAGGAAGGTGGAGGCGGTGCTG
GCGCGGGTGGTGCACCCACAGCTGGGGTACACCAGCCACTTACCTGGAGACGCCAGGGCT
TACACGGCTTACCTGTATATAGAGAAAAAACAAATAGTCGGATGTCTGATAGTGGAACCC
AAGTCCAGGGCTTTCAAGCTGTTACCGGGGGACCCTGACTGCTGCACCATAGAAGATTAC
CCTGTCAAATGCGGTGTGTCCCGTGTGTGGACTCACGCCAACTTCCGCCGCCGCGGCGTG
GCGGTCCGCCTGCTGGAGTGCGCCCGCGCCTCCTTCCTGTACGGGTGTGGCGTGTTGCGC
TCGGAGATCGCGTTCAGCGCGCCCACAGCCGCGGGGAAGGCGCTCGCCACTAAATACTGC
GGGACCGAAAACTTTTACGTGTATTTAGATTAG
Protein sequence:
MAATTPRRSSRIPHTHTPKMSERKKGLFVTENESSRESLTKHRRLPVVDSESDSEDCDLG
IISTLDSSSGDDTDQNKTPERSHWNEIRNKTKIRETHDLKNFMKSPFTLKKYQTRYSCPE
TRCTGSLSTPATPHLQNHPRTPSSTHSCASIHTTSSTSSRARKSLASLIADTESCSSSLK
DLNFDTDSGSDSKENTPTKSLRRSGRRHKMTPKLQSFKGILVEQKKNMSPMKNAVVCLTK
IDMSNYISPTQMLKTPHNTSEKASPPKLGHNRRSVIEIQESPESVCESEKSHKRLHYDND
SDVGPVSKYPRLDVTAPKARLSLFNCDRLKEILSTKSFYGKTNPEMNSNISTKISNAIEA
TSVHRRHSFSHSQPHRRKRKPGQINLGVKHKIRKPKVHKTKIATSKSSNATTPSVLNQSS
VSNKSINKDLSILSQGSTDDKADPFDKEKQTIDALLSQWTEEDIPESELTYTRPQELPCF
NSTVIEATDQIFKPITAVPVAADSSKLQDSEAVIVELGITKPVVAANTQNDVNATNPQND
MNATNPQNDQDVIMEEGHIANHGEVPKTGQYLPVEGGYIYVDGNLEQKEIPDLDEIEREL
QMLDEQILKMAQTNNIDADAVLASTETLPIAGDLSTDQTSLQCEKQTKLFPIFSKPNHGL
NATSTKGDKTKRCLLKSGSNQYLIDAGQKKFGATQCHECGVIYEVGDPQDEHDHLVHHNA
SDVLKFNGWKEECIVDRTEHGRCLRVRGGDSGWRKVEAVLARVVHPQLGYTSHLPGDARA
YTAYLYIEKKQIVGCLIVEPKSRAFKLLPGDPDCCTIEDYPVKCGVSRVWTHANFRRRGV
AVRLLECARASFLYGCGVLRSEIAFSAPTAAGKALATKYCGTENFYVYLD