| New model in OGS2.0 | DPOGS209720 |
|---|---|
| Genomic Position | scaffold385:+ 1802-16493 |
| See gene structure | |
| CDS Length | 3747 |
| Paired RNAseq reads | 1682 |
| Single RNAseq reads | 4000 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008931 (6e-114) |
| Best Drosophila hit | TER94, isoform C (3e-44) |
| Best Human hit | ATPase family AAA domain-containing protein 2 (2e-145) |
| Best NR hit (blastp) | PREDICTED: similar to rCG61344 [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to rCG61344 [Nasonia vitripennis] (1e-171) |
| GeneOntology terms | GO:0000166 nucleotide binding GO:0005524 ATP binding GO:0017111 nucleoside-triphosphatase activity |
| InterPro families | IPR001487 Bromodomain IPR003593 ATPase, AAA+ type, core IPR018359 Bromodomain, conserved site IPR003960 ATPase, AAA-type, conserved site IPR003959 ATPase, AAA-type, core |
| Orthology group | MCL15947 |
Nucleotide sequence:
ATGGTGAAAACCCGACGTAGCAACGGTGAGAATGGGGAGGTTGACGAAGGAAATTATTCA
ATAAACGATGTTGGAAGCATCTCTGATGAGAAGGCATCAAATTGGTCCCAACGAGAGTTA
AGAAGTAGTCAATATAAAGTTGCGAGAAAAATCCAACGCTGGCCGACAAGATACAGCCGC
AGTAGACTCCGCGCTATAAAAATGCCGAGAATTATGTTTCCTGAAAGTGACACCGAACCA
GAAAAATATTCAAGGAGATCCCGGCAAGTTAGAGTTTTCTTTGCTGATGATAATGATGCT
AGTAACAGGAGCATGAAGATACGTCGCAATCGTGGACCCAGGAAGAACTACATGGAAGAC
AGCGAAGATAAGCCAATACAACAAAATGTGCGGCGAAGTTGCCGGAAGCGGAAGTTGCTC
CATCACAATTTTAATGAAAGCTGGATTACTAATGAGCTAAAAGTCAAAGGATATCCTGAC
TTGTACGGATTTAATGGCACCAGTTCCTCTGACGAATTCTCCTCTGGTGATGAAGCGAGG
GAATCTAAGAAATTGACTCGTAGTCACCCGCCTACAAACACCGATGAAGACACTCAGCTG
TCCAGGCAAAGAAGAACTTCAGCTAGATTCACTAATAATAAAAAGGATGTGACAGATTCG
GATTCAGACAATGAAAACAATCAAACGGTCATCGAAAAGAAGCCAGTGGAAGCCAAGCAG
GAGAGTGACAAGAACGAAACAGAAGATAAACAGAAGACAGAGAGAGAAGAAAAGGCTGAG
GTCAAAGAGGAACAAGACAGCAACAGTAACCAAGGTCCAGCTCGTTCAACCCGGGGCAGA
GGTAGGAGAGGTCAAAAGAAAGACAGCCACCAGGAAACAGCGTCTTCATCGTCCGAGTCC
AGCGCGCCGCGAGCTCGCCGGCCGCGACGATCCGAGAGGGCTCGAGCACCGCCGGCCTTC
GTGCAGCTGGCTGACCGGGAGACGAGGACCCGAGAGATGACTCAAATTGCAGCCCAATCA
CCGTCCAGCAGCAGCAGCAGCAGCAGCACCAGCAGCTCCGATACTGAGGAGGATTTGAAT
GTATCGATGAAAAATAAAACCAAGGGCAGGCAAAAATCCAAGTGTATAGATGACAAAAAG
ACTGACAGGGCGCTGAGGGACATACAGCCCATTGAAGTGGACGGCAGTGTGAGGTTCTCA
TCAGTCGGCGGTTTGGAGGAGCATATAAAGTGTCTGCGAGAAATGGTTCTCTTCCCGCTC
ATGTATCCGAGTTTGTTCGAAAAGTTTAAGACTCGACCCGCCAAGGGTGTTCTGTTCCAC
GGCCCACCCGGGACTGGCAAGACCCTGCTGGCACGAGCGTTAGCCAACGAGTGCAGTTTG
ATCGGCGGACGGAAGGTCGCCTTCTTCATGAGGAAGGGGGCTGACTGCTTAAAGAAATGG
GTGGGGGAGAGCGAACGGCATCTGAAGTTGCTGTTCCAACAGGCTAACAAAATGAAACCA
TCGATAATATTCTTCGACGAGATCGACGCCCTGGCTCCCGTCCGTAGCGTGAGGCAGGAG
CAGGTTCACACTAGCGTCGTGGGGACCCTGCTGGCAGAAATGGACGGGGTCTGTGACAGA
GGTGAAGTAGTTGTTATCGGCGCAACGAATCGTCTGGACGCCGTGGACCCCGCACTGAGA
CGCGCCGGCCGGTTCGACCGCGAGCTGCACTTCCCCCCACCGCACGCGGCCGCGCGCCGC
GAGATACTAGAGATATACACCCGCGACTGGAGCCCGCCCCCCTCCACAGACACCATACTG
CGGATAGCCGACATCACTAACGGCTATGGAGGATCGGATCTGAAGGCTTTGTGTTCTGAG
GCGGTACTGAAGGCGCTCAGAAGAGTTTATCCACAAGTGTACGATAGTGAATACGCGCTA
GTTATAGATCCTAAAAACGTAGAGGTCACGGAAGGCGATCTGGAGTCAGCGATGGCTGGT
TTGGTGGCGGCGGGCGCTCGGAGTAGTCCCGCCCCGGCGCGGCGACTACCCTCATATTGC
GAGCCGCTGTTCCAGGCGCAACTTAGGGCTGCGTTATCCCTTCTCAAACAACCTTTCATT
AAAGGCACTGGAAAAAAATCAGATATGCCGATGTCATCTAACGTGTTACTATTGGAGGGC
GAATGTTCTGACACCCATCTCGCGCCCGCGGTGTTAGCCCACTTCGAACAGTGTACCGTT
CGCGAGCTCAGTGTGGCGACTTTGCACTCGGCGCTGGCGTACACGCAAGAACAAGCGCTT
ATATCGCTGTTCTCGGAGTGTCGCCGCGCCGAGGGCGGGTGTGTGTTGGTAGTTCGTGAG
GCGGACGCGGTGTGCGGCGCGCTGGGCGGGCCGGGGCTGCTGTTACAGCTGTGGCGCTCC
CGGGCCGCGGGGGAGCGGACTTTACTCCTCGCTACCTCGCCACATAGACCGCTAGCTGAT
GATCTCAAAGAATTGTTCCCAGCATACAAAGACTGCACTTACAGAGTCCGCGATCCCACT
ATATCTGAAGTGATAAACTTCTTGAAGCCGATATTGACGGAAGTACCTCTAGAAGAACCC
GTTATACAGAACAACGAGCCGCCGCCCCCTCTGCCACGAGCCCCTCCCCCTCCCCCGCCG
AGAGAGAGCGAAGAAGATATAGCGAGGCGAAAAAGGAAAGAAGATTACAAGCTGAGAGAA
TTGAGGATATTTTTACGAGATATTTGCAGGAAGTTAGCTTCTAACAGGCGCTTTTATAAG
TTCACCAAACCTGTCGATCTGGAGGAGGTCACAGACTATCTAGACATTATAAAGCAGCCG
ATGGATCTCGAGACCATAATGACGAAGGTGGACATGCACAAGTACAACTGTGCGCAGGAG
TTCCTAGATGACGTGGACTTGATATGCGCCAACGCCCTCGAGTATAACCCGGACAGGACG
TCGTCGGACAAGCAGATCCGTCATGAAGCGTGTTCCCTGAGAGATCACGCGCACGCGCTC
ATCGACGTGGAGATGGACAGCGACTTCGAGCTGGAGTGTCAGGACATCGCCCGGAGACGG
CGCGAGGAGGGCGCCGCCGACAACGACCTGCCCGACTTCATATACACAGCATCCAACTTG
CCGGACGGTCTTGATAATTCAACAAATGAGAAGACGATCCGAACACCACAGAACGGTGAG
AAGAATGAGACTCACTCCGCGAAACGGAAGAGAAGAAGAATCAACGCCTGGTCCAAGGGA
CTGGTTGTGAAGCGGCAGAAAACACAGAGGAATTTTAAGGATTCATCACTGGCGGTGACG
GACGAGGAGTGTAAGGAAAATCAGCCAATAACATCCACCCCGCTACCTAACGGGTCTTGT
AGCTCGGGCTCCGACGACGACGCGCCTCTTAGACGACCCGCTCCCGACCCGCTCGAAAAC
AACGACAAAGACTATCACAACCACGTGCGGGACAGCCCGGCAAAAACTGAGAAGTCTCCG
ACTAAACAGTCACCAAAGAAAAGAAATTCCGGTCACGAGGCCTCGAGTGGAGATTCAGAG
AAGGTACTGATAAACAAGACTGAACTAGATAACCTACTGTATAAAAACGCAAAGTCCTTA
AGGAGCATCGGCCTCACTGCCTTACTCGATCTACACGAACAGCTGGCGGCCGTTGTCCAC
TCATACAGCGACAAATATGATAGGAACAAACTGCCAAACGAACTGAGCTCCATCATAACG
AGGTACATACAGTTGGCGAAGAAGTGA
Protein sequence:
MVKTRRSNGENGEVDEGNYSINDVGSISDEKASNWSQRELRSSQYKVARKIQRWPTRYSR
SRLRAIKMPRIMFPESDTEPEKYSRRSRQVRVFFADDNDASNRSMKIRRNRGPRKNYMED
SEDKPIQQNVRRSCRKRKLLHHNFNESWITNELKVKGYPDLYGFNGTSSSDEFSSGDEAR
ESKKLTRSHPPTNTDEDTQLSRQRRTSARFTNNKKDVTDSDSDNENNQTVIEKKPVEAKQ
ESDKNETEDKQKTEREEKAEVKEEQDSNSNQGPARSTRGRGRRGQKKDSHQETASSSSES
SAPRARRPRRSERARAPPAFVQLADRETRTREMTQIAAQSPSSSSSSSSTSSSDTEEDLN
VSMKNKTKGRQKSKCIDDKKTDRALRDIQPIEVDGSVRFSSVGGLEEHIKCLREMVLFPL
MYPSLFEKFKTRPAKGVLFHGPPGTGKTLLARALANECSLIGGRKVAFFMRKGADCLKKW
VGESERHLKLLFQQANKMKPSIIFFDEIDALAPVRSVRQEQVHTSVVGTLLAEMDGVCDR
GEVVVIGATNRLDAVDPALRRAGRFDRELHFPPPHAAARREILEIYTRDWSPPPSTDTIL
RIADITNGYGGSDLKALCSEAVLKALRRVYPQVYDSEYALVIDPKNVEVTEGDLESAMAG
LVAAGARSSPAPARRLPSYCEPLFQAQLRAALSLLKQPFIKGTGKKSDMPMSSNVLLLEG
ECSDTHLAPAVLAHFEQCTVRELSVATLHSALAYTQEQALISLFSECRRAEGGCVLVVRE
ADAVCGALGGPGLLLQLWRSRAAGERTLLLATSPHRPLADDLKELFPAYKDCTYRVRDPT
ISEVINFLKPILTEVPLEEPVIQNNEPPPPLPRAPPPPPPRESEEDIARRKRKEDYKLRE
LRIFLRDICRKLASNRRFYKFTKPVDLEEVTDYLDIIKQPMDLETIMTKVDMHKYNCAQE
FLDDVDLICANALEYNPDRTSSDKQIRHEACSLRDHAHALIDVEMDSDFELECQDIARRR
REEGAADNDLPDFIYTASNLPDGLDNSTNEKTIRTPQNGEKNETHSAKRKRRRINAWSKG
LVVKRQKTQRNFKDSSLAVTDEECKENQPITSTPLPNGSCSSGSDDDAPLRRPAPDPLEN
NDKDYHNHVRDSPAKTEKSPTKQSPKKRNSGHEASSGDSEKVLINKTELDNLLYKNAKSL
RSIGLTALLDLHEQLAAVVHSYSDKYDRNKLPNELSSIITRYIQLAKK