| New model in OGS2.0 | DPOGS213635 |
|---|---|
| Genomic Position | scaffold218:+ 105857-122390 |
| See gene structure | |
| CDS Length | 4989 |
| Paired RNAseq reads | 26 |
| Single RNAseq reads | 60 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004576 (0.0) |
| Best Drosophila hit | CG10185 (0.0) |
| Best Human hit | hypothetical protein LOC57495 (5e-119) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL005720 [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL005720 [Aedes aegypti] (0.0) |
| GeneOntology terms | GO:0005524 ATP binding |
| InterPro families | IPR019775 WD40 repeat, conserved site IPR011046 WD40 repeat-like-containing domain IPR011044 Quinoprotein amine dehydrogenase, beta chain-like IPR001680 WD40 repeat IPR015943 WD40/YVTN repeat-like-containing domain |
| Orthology group | MCL11276 |
Nucleotide sequence:
ATGGATGATAGGACAGTGGATCTCATATTTGCTGGTTCTTTGAAACTGCTTCCTCCAGTC
AGCTCCAAGATCGTGAGGATATTCACCAGCTCTACGTTCACAGATACTACCATGGAGAGA
AATACTTTAATGGCAAAATGCTACCCTCGAATAAAGGATTATTGCCGGGAGAAACACGGA
TTGGAGTTTCAGGTGGTAGACATGCGATGGGGTGTCCGAGACGAGGCTACAGATGATCAT
ATGACGACGGAGCTGTGTATGAGAGAAATAAAGAATTGCCAGCGTCTGTCCATGGGACCC
AACTTTGTTGTCTTTCTCGGCCAGAAGTATGGCTACAGGCCGATACCAACCTACGTCTTA
TCCTCGGAGCTCCAGATGTTACGCGATGAGCTGGCAGCTGGTGGAGTCGATGTTCTTGTT
CTGGACACCTGGTACAAAAAGGACTCCAACGCTGTGCCACCTGTGTCGGTACTTCAGCCG
ATATCTTCCATACTTATCAATTTCAATAATAAGAGAGTCCCAAAGTTGCAAGCAGAGGAT
CAAGCTATTTGGTGGGATACCCTCAGCAAGATGCAGAAGCTGTTTCGTAAAGCTTCCTCT
CAGCTTTACAATGCTGGCAAAATCGACAAAGATACAATGCACAACTACTTTATGTCCGTA
ACCGAACGAGAGGTCATCAACGGTGTCCTAAACGTCAAGAACACGAAGAATCACTGTCTG
GCCTATGTCAGATACATCAATAACATCAATCTACAGAATCTCAAGAAAGCCTGTAATTTC
GTTGACATTCTTAACAGGAGCTTGGACACGGAGGCATCGAAGCTATTAGCTGATCTCAGA
GACGTTAGACTGCCAGAAAAAATTGAAACTACTAACATACAAAAATATACAGTGGAGTGG
ATCGGACGAGACGGCCTTGACAATGAAACCCACGGAGAATATCTAAATCATTTCATATCA
CACTTCTATAAGAACATCATCAAACTTGTTGATAGGGCTATGCGCAAAGAAGACAGCAGT
GCCCAAGGTCAGATCGTGACAGAGATTCTTCAGCATCTCCACGCTTGTAACAATTCAGTG
AAAGTCTTTCACGGACGGGAGGATGATCTGAACTTTATCCATAACTACATGACGAACGAT
TCAGACAAACCTCTGGTCCTCTATGGAGAAGGTGGTTGCGGTAAGACGAGCTTATTAGCG
AAGAGCTCAGCTATGTCTTTGGATGAGTGGTTTGCTGAAGTTCGTCCTACAAATATCATC
AGATTCCTTGGAACAACTCCTGACTCCAGCGCCTTGACACCCACGCTGATATCTATCTGT
CAACAGATATCATACAACTTCGCGCTACCCTTCGAAAGTATTCCAGACGACCTGGTTCCA
CTGACAGCACATTTCAAGCAGCTCCTCACTATCGCAACCCAGCAGCAGCCATTATTGCTG
TTTCTGGATTCAGTGGATCAGCTAACTGGTATCGGCACTGAAAACAATAAAGTGTCATGG
CTGCCCACAAGACTACCGCCTCATTGTAAGATTATAGTCACTTGTGCTTGTGAAGAAGCT
AACCCTGATGTATCTAAGGAGTATGATGTTCTTCGTAGAATGATTGACTCTGAAGAGAAC
TTTTTAGAAGTAAAGGCTTTGGGTGAAGACCTGGCGATGCAGGTTTTAAAACTTTGGATG
GCTGCTGCTGCGAGGGACTTGAGCAACTATCAGTGGCGTTTGGTTTCCAACGCTATTGGA
CAATGTTCCTTGCCAATCTTTGTTAAGTTGGTATTTGCTGAGGTCTGCCGCTGGAGAAGC
TACACAAAGCCACAGGACACTCACTTAGCATCAACAGTTATGGACTCTATTATGATGCTT
TTTGAGAGGATTGAGAAGCAGCACGGTCGATTATTGGTTTTTCATGCTCTTGCTTACATC
ACCGCCGCCAGGAGTGGCCTTTCAGAAACGGAACTGGAAGATCTCATATCTCTCGACGAC
AAAGTTCTGGATGACGTGTATCAATACCATTTACCACCAGTTAGGAGGATTCCTCCTTTA
TTATGGACCAGGATTCGTAATGATCTACCCAACTATCTCTCGGAACGCGAGGCGGATGGT
GTTTCTGTCATGAACTGGTATCACCGACAGTTCAGAGACACAGCGCGAGAAAGATACTTC
AAGAATATGAACATGGCCATGTATTTTCACTCCATGATTGCTGATTATTATTTGGGTATT
TGGGGTGGTGGTAATCCAAAACCGTTTAAGTACACAGAAATTCAGCGGCATCGATTTAAT
CTTGCAGACAGGGAAGGTGTGGCTGATAGGAAAGTACCATTGCAGCCTCTGGTCTTTACA
TCGGCTGATGGTTCTTCTAAAAGATACAATTTGCGGAAGTTTGGGGAGCTGCCCTTCCAT
CTGGTTCGCTCGAAACGATTCACGGACTTGTACGCAGAAGTTTTATTTAACTATGAGTGG
CTGCATGCCAAGTTACATTGTTGTCCACTACAAGCCGTTCTTGCTGACTTTGAAGACGCC
AAGCAGCATGTAGTAAAGGATGCTGTTAGAGAATTAATGTTGGTAGCTGACGCCTTACGC
CTGGGAGGTGCAATCTTGGGACCCTATCCTGACATGTTGGCTCCGCAATTAGTAGGAAGG
TTATTACCGGAAGCACAACAAAATCCTGCAGTATCTTCATTGTTGCAGCAATGCCACGAT
AAAGGCAAAAATCACTGCGCATTGTTGCCATCACATCATTGCTTACATACACCGGGCGGA
CCTTTGAAGTATTCCTTGGAAGGACATCAGTTCGCCGTTTTTGCATTTCGTCTGAGCTCA
GACAAACGATATGTCGTATCCATATCAAGCAGAGTAATATCCTGGGATCTATCTACTTCA
GACCTCGCTAGAGACCTATGTCCCCAATTAGAAGGAATTATGCAAAACTTGGAATTATCA
CCTGACAACAAATGGGCTGCAGCCTCTACAAATAATTCTGTGTCAATACTTCTTAATATG
CTGACAAGTGAATACATCACGATCGTGAATCCATTGGAAGTTCCATCCAACTGGGAGACG
GTCCGCGGTGTGTTCGTCTTAAACCACCATATGTTCATCTACGGTCCTCAGTCGTGGGTG
CGGTACTCCATGCGTGGAGAACCGGAAGAGACCCAGCCAGCGCCCCCGCACACGCCATAT
GACGATGTTGATTGGGAGATACTATCAATGGATCTTAGAGATCTAGAAAATATAGTTCTC
GTAATGTGGAGTGGAGACCTGGATGATGATCGACTTCTGGTGCACTTCTGCAAGTCTGGA
CAGTGGGTGAAGCCTCTTAGATGTAGAGGAGCTCTAACGATGAATAAGCACTGGACAAAG
TTATACACTAGTGACCCTGAGAGAGGTTACCAAATTTCAGTTTACGAAATAAATGAAGAT
CTATCAAGCTGGGAGAAGGTCGAGGAATTACATCACAGTGAAACAGACACAGCGGAGGCG
ATGCTCCAGTTGAAGAGAGGAAAGAAGGACCGAATGTTGCTCGCTACAACTACATATAGT
TTTGTAGTTTGGGACTTCAATAATGTTATCCCGAGGGGTAATCATACAGACGTGGAAAAT
GTTTCCGGGGATAAGAAGGTTGAAGAAGAGGAAGAAAAAACTGATATACCAGAAAAAGAC
TTAAGGCTAGAAGGAATAGTTTTAAAACTTCCACATACAATACGGAATATATCAACTAAA
ATGACTTTATCTAACTCTTTCATGATCAGCAAAAATAATACTTATGCATTAGCTGGTGTT
AGAAAGAATTTATATGTATGGAGTTTAGAGACAACAAAACTCATCAAAATCCTCGACGCC
CACTTCGGACGAATAGTGCAACTAGAACCATTGACAGTTGGAACTTGGAATAACGTGATT
ACCTCCTCGATAGATAGGACCGTGAAGATTTGGAACATCGACAATATATTTGAACAAGTC
CATAAGATTGATAGACAAGAGTTACCAATTGATTCAATTAGCCTCGCGCGTGACCAATGT
TTGGCGGTCACCGTGACCCGTAGTTGCTGGGGTCTTTGGGACACCAGCACAGGTCGTTTG
CTCTGTCAACTGGCTGACGCACCTCTGGGTGCTATAGTTACTCACGCAGTCATTACGCCA
AGCGGAGAAAATGTTATTACCGCTGAATCTGGAAATGTTGTTATTTGGGATACTCCCGAA
AGACAAGTGTTGTTCAAAGAAGAACAAAAAGGAGTAAAACAACTGCTTCTTTTGGAAGAC
GGTTGTAAATTTATAACAATATCTATGATCATTCCAACGGATAACATAGACAATGTGGCT
ACCGCGCATATCGTTGCAAGAACAGTGCCTGAAGGTGAAAAAATTTATACAGTGGATTAT
GATGTAAGAGGCACTGGATATAGAGCAGCCGTAGTGTCAGTGGATGAACACCACATTGTA
GCACCTGGAATGGATAAATCCAACAGGGAATGTCTTCACGTCTTCCACGCAAGAACTGGA
GCACGATTACATAGAATTCCCATCAAGAACAGCGGCATCAAGGACATGGTGTGTGTGTGT
GCACTCCCCCATAAGCCGCACTGGCTGGCTGTTATTGGAAACGACAGAGCTGGCATCTTG
GACATTAAGACGAAACGACATATTCGATTCGTGCCCCGTTGGAATGGAGCGTGTACAAGA
GACGGTAAGACGGGACTCTGCGCCCCATCCCGAGGTGGTCTCGACCTAATAGAACTCAAG
CGAGGGACGTCGGTCCAACAACTGATTTCACGCTCCGCGGAGGGAGTGTTCTCCATCATC
ACCATGTTTAGTTCCACTGACCAATACGTATTCTATTACCACAGTGGACGGAAAACTCTG
AGGGTTTTCAGAACCGTCGATGGCAAAGCAATAGCTGAATACAGAGCCCCCGCAGAAGTC
ACTGGAGTGGCGAGCGCACACGGGGGAAAAGCAATAGCTATAGTGTCACAGCTACCTACA
AACTGGTAG
Protein sequence:
MDDRTVDLIFAGSLKLLPPVSSKIVRIFTSSTFTDTTMERNTLMAKCYPRIKDYCREKHG
LEFQVVDMRWGVRDEATDDHMTTELCMREIKNCQRLSMGPNFVVFLGQKYGYRPIPTYVL
SSELQMLRDELAAGGVDVLVLDTWYKKDSNAVPPVSVLQPISSILINFNNKRVPKLQAED
QAIWWDTLSKMQKLFRKASSQLYNAGKIDKDTMHNYFMSVTEREVINGVLNVKNTKNHCL
AYVRYINNINLQNLKKACNFVDILNRSLDTEASKLLADLRDVRLPEKIETTNIQKYTVEW
IGRDGLDNETHGEYLNHFISHFYKNIIKLVDRAMRKEDSSAQGQIVTEILQHLHACNNSV
KVFHGREDDLNFIHNYMTNDSDKPLVLYGEGGCGKTSLLAKSSAMSLDEWFAEVRPTNII
RFLGTTPDSSALTPTLISICQQISYNFALPFESIPDDLVPLTAHFKQLLTIATQQQPLLL
FLDSVDQLTGIGTENNKVSWLPTRLPPHCKIIVTCACEEANPDVSKEYDVLRRMIDSEEN
FLEVKALGEDLAMQVLKLWMAAAARDLSNYQWRLVSNAIGQCSLPIFVKLVFAEVCRWRS
YTKPQDTHLASTVMDSIMMLFERIEKQHGRLLVFHALAYITAARSGLSETELEDLISLDD
KVLDDVYQYHLPPVRRIPPLLWTRIRNDLPNYLSEREADGVSVMNWYHRQFRDTARERYF
KNMNMAMYFHSMIADYYLGIWGGGNPKPFKYTEIQRHRFNLADREGVADRKVPLQPLVFT
SADGSSKRYNLRKFGELPFHLVRSKRFTDLYAEVLFNYEWLHAKLHCCPLQAVLADFEDA
KQHVVKDAVRELMLVADALRLGGAILGPYPDMLAPQLVGRLLPEAQQNPAVSSLLQQCHD
KGKNHCALLPSHHCLHTPGGPLKYSLEGHQFAVFAFRLSSDKRYVVSISSRVISWDLSTS
DLARDLCPQLEGIMQNLELSPDNKWAAASTNNSVSILLNMLTSEYITIVNPLEVPSNWET
VRGVFVLNHHMFIYGPQSWVRYSMRGEPEETQPAPPHTPYDDVDWEILSMDLRDLENIVL
VMWSGDLDDDRLLVHFCKSGQWVKPLRCRGALTMNKHWTKLYTSDPERGYQISVYEINED
LSSWEKVEELHHSETDTAEAMLQLKRGKKDRMLLATTTYSFVVWDFNNVIPRGNHTDVEN
VSGDKKVEEEEEKTDIPEKDLRLEGIVLKLPHTIRNISTKMTLSNSFMISKNNTYALAGV
RKNLYVWSLETTKLIKILDAHFGRIVQLEPLTVGTWNNVITSSIDRTVKIWNIDNIFEQV
HKIDRQELPIDSISLARDQCLAVTVTRSCWGLWDTSTGRLLCQLADAPLGAIVTHAVITP
SGENVITAESGNVVIWDTPERQVLFKEEQKGVKQLLLLEDGCKFITISMIIPTDNIDNVA
TAHIVARTVPEGEKIYTVDYDVRGTGYRAAVVSVDEHHIVAPGMDKSNRECLHVFHARTG
ARLHRIPIKNSGIKDMVCVCALPHKPHWLAVIGNDRAGILDIKTKRHIRFVPRWNGACTR
DGKTGLCAPSRGGLDLIELKRGTSVQQLISRSAEGVFSIITMFSSTDQYVFYYHSGRKTL
RVFRTVDGKAIAEYRAPAEVTGVASAHGGKAIAIVSQLPTNW