| New model in OGS2.0 | DPOGS207837 |
|---|---|
| Genomic Position | scaffold674:- 35562-47033 |
| See gene structure | |
| CDS Length | 3792 |
| Paired RNAseq reads | 2234 |
| Single RNAseq reads | 5224 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005519 (0.0) |
| Best Drosophila hit | flightless I (0.0) |
| Best Human hit | protein flightless-1 homolog (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC012416 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC012416 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0007629 flight behavior GO:0010004 gastrulation involving germ band extension GO:0003779 actin binding GO:0005509 calcium ion binding GO:0030239 myofibril assembly |
| InterPro families | IPR007123 Gelsolin domain IPR001611 Leucine-rich repeat IPR003591 Leucine-rich repeat, typical subtype IPR007122 Gelsolin |
| Orthology group | MCL13870 |
Nucleotide sequence:
ATGGCAAATACAGGCTTGTTACCATTTGTGCGTGGTGTGGATTTTACATGCAATGACTTC
AGTGGTGACAAATTCCCCGATGCTATCCGATATATGACCGGTTTGCAATGGCTCAGACTC
GATAAAACAAACTTAGAAGAGATTCCCGAAGAATTGGGAAAACTTATGAAATTGGAAAAT
TTGTCACTCAAAAAGAATAATCTAGAAAAGTTATTTGGAGAATTGACAGAGTTAAAATGT
CTAAGATCTTTGAATGTTAGGCATAATAATGTGAAGACGTCAGGAATACCTGCTGAACTA
TTCAGATTAGATGATCTAACTACTCTAGATCTTTCTCATAATAGGCTAAAGGAAGTTCCT
GAAGGGCTAGAAAAAGCTAAATCATTGCTTGTATTAAATCTGAGTCACAACAAAATAGAA
AGCATACCACCTACTTTATTTGTTCAGTTGACGGATCTACTGTTTTTAGACCTATCTAGT
AATTTACTGGAGACTCTGCCCCCTCAGACTAGAAGGTTGGCAAACCTGCAGACTTTAATA
CTAAACGATAACCCATTAGGATTATTTCAATTGAGGCAGTTACCGTCTCTACAAAGCCTC
GAGACATTACACATGAGGAACACACAGAGAACACTAGCTAATCTACCAACATCACTCGAA
CCCCTCATAAATTTATCTGATGTTGACTTGTCCAAAAACGCCCTGACAAAAGTGCCTGAC
GCACTTTACACGCTACAGAACATAAAAAGGCTTAATCTAAGTGAAAATGAGATAACAGAA
ATATCTACTGCTATGGACATCTGGCAGAAACTGGAAAGTTTAAATTTATCCCGGAACAAA
CTCACAACCTTACCGGCCACTCTGTGCAAACTGCAGAGCTTAAGGCGGCTTCATGTAGAT
GACAACAAGCTGGATTTCGAAGGAATTCCTTCTGGAATAGGAAAACTTGGCAATTTAGAA
GTATTCTCGGCTGCTAATAATCTACTTGAAATGATCCCTGAGGGACTTTGCAGATGCGGT
TCTTTAAAGAAATTAAACCTGAGCTCAAACAAATTAATAACATTGCCGGATGCTATACAT
CTACTGAGTGACCTTGAGAGTTTGCAATTACATGGCAACCCGGACCTGGTGATGCCGCCA
AAGCCTGTAGAGAGAGCGAGGGGAGCTGGTCTCCAGTACTATAATATAGACTTCTCTCTA
CAAACACAGTTGCAATTGGCTGGTGCGGCAACTCCTGAACTGGCAGACAACAATAGTATC
AGTAAGTCGGACCCCATCGCTCGCAAGCTCCGTCTCCGTCGTCGAGGTGAGACTGACAAC
TCTGATGTTATCCTTCGAGGAATGCAGGAACAGGCCAACACCCAGCACGCAACCAGCAAC
GATGAAATGCCACACAGCGAACTGAAACCTAAACGCTGGGACGAAAGTTTGGAAAAACCA
CCGTTAGATTACTCGGAGTTCTTCGACGAGGATACCGGTCAAGCTCCGGGTCTCCAGATA
TGGGAGATTGAGAACTTCATCCCCGCACCCGTTGACGAAGTCGCACACGGTAAGTTCTTC
GAGGGTGACTGCTACATAGTACTGAAGACGTCCATCGAAGAACAAGGACAGCTGTCTTGG
GATATTCACTTCTGGATTGGATCCAAAGCGACGATCCCCTTAAACCTACACCTGGGTCGC
AAGTCTCAGGCACTATTGAAGCTCCTCTCCCTGCAACGCGATGGATTCGGCATCCGCACG
TTGGACAAGGGCGCGTGTGCAGCAATGCACGCTGTGAACCTAAGAAACTTGTTGGGAGCC
AAACGCACCCAGAGACACGAACAAGGGGACGAGTCACCGGAGTTCCTGGCGCTGTTCCCG
ACACCCCCTGTATATATCAACGGCAGTAGAACTCCGTCAGGCTTCTTCACCGTCGATGAT
CCGCACTACGTGACCCGTCTGTACCGCGTCCACGGAGCCGGCAGCTCGATACACCTGGAG
CCATCCCCCGTGTCAGCGAGCTCGCTCGACCCGAGATACGTCTTCGTACTTGACACGGGA
TTGCGCATACACTTATGGAATGGGAAAAAGGCAAAGAATACGCTAAAGTCCAAGGCGCGG
CTGTTCGCTGAGAAGATAAATAAAGAAGAGAGGAAGAACAAAGCCGAATTAATAGCAGAA
GTACCAGGAAAAGAGTCTAAGAACTTCTGGCAAGTCTTAGGATATGAAGACGATATGCCT
TACGTTGCAGAAGAACACGTCCCTGACAACTTCACGTGGTCCCCAGCTAGACTGTACCGC
GTGGAGCTCGGCATGGGATATCTGGAACTGCCTCAGACCGAAGGACCTCTTACAAGGACG
ATACTGGCCACGAGGAATGTGTACATACTAGACGCGCACCAGGATCTGTTTGTATGGTTC
GGCAAGAAATCATCACGTTTAGTCCGAGCGGCGGCTGTGAAGCTCGCCCAGGAATTGTTC
AGTATGGCGCCCAGAGAACCTCACGCACTGGTCACCAGGTTACAGGAGGGCACAGAAACA
CAGGTGTTCAAGACGTACTTCCAAGGCTGGGAGGAGGTTATAGCGGTGGACTTCACGCGA
ACAGCCGAGTCTGTGGCGAGGACCGGGGCCGACCTCACGTCCTGGGCCAGGCAGCAAGAG
ACCAAAACGGATCTATCGGCACTGTTCACACCTCGTCAGCCGGCCATGTCTCCGACCGAG
GCTAAGAGTCTCGCTGACGAGTGGAACGAAGACCTGGAAGCGATGGAGGCCTTTGTTCTG
GAAGGCCGGCATTTCGTCCGTCTTCCAGATCAAGAGTTGGGGGTCTTTTACAGCTGTGAT
TGCTACGTATTCCTCTGTAGATACGTACTGCCTGTAGAGGCTGATGATGACACGCCCGAA
GCGGACGAAGTGGACTCGGAGAGCGACAGTGTGACTTGGGTGGTGTACTTCTGGCAAGGC
AGGAGAGCTCCCAACATGGGCTGGCTGACATTCACCTTCGGCTTGGAGAGGAAATTCAAA
CAGCTCTGCAAGAGACTAGACGTGGTCAGAACACATCAGCAACAGGAGAGCCTCAAGTTC
ATGGCACATTTCAGAAGAAGATTCATAATACGAGATGGAAAACGAAATTTAAAACCGGAG
GGCCGGCCGCCAGTGGAGTTGTTCGAGCTCCGGAGTAATGGCTCGTCGTTATGTACGCGA
CTTGTGCAAGTCAAACCAGATGCCAGCGTGCTGAACAGTGCTTTCTGTTATATCCTGAAC
GTTCCTTTGGAGGGCTCTAAGGAAGAGTCGTCAGCGATCGTGTACGCCTGGATCGGCTCC
AAGAGCGACGCTGACTCCGCCCGTCTCATAGAACTCATCGCCAATGAAAAATTTAACAAC
GATTTCGTCAGTCTACAGGTGTTAACAGAGGGCAGTGAACCTGACAATTTCTTTTGGGTA
GCGCTGGGCGGGCGAAAGCCTTACGACGAAGACGCCGAATACTTAAACTACACGCGACTC
TTCAGATGTTCCAACGAAAAGGGATACTTCACTGTATCTGAGAAGTGGACGGACTTCTGT
CAAGATGACCTCGCTGATGATGATATTATGATACTGGACAATGGTGAGCAAGTGTTCCTG
TGGCTCGGTGCGAGATGTTCAGAGGTGGAAATCAAACTGGCTTATAAATCAGCTCAGGTA
TACATTCAGCATATGAAAACGACCCAACCGGACAGACCTCGAAAACTGTTCCTCACATTG
AAGGACAAGGAGTCTCGGAGATTTACCAAGTGCTTCCACGGCTGGGGGGAACACAAGAAA
CCTCCGGAATAA
Protein sequence:
MANTGLLPFVRGVDFTCNDFSGDKFPDAIRYMTGLQWLRLDKTNLEEIPEELGKLMKLEN
LSLKKNNLEKLFGELTELKCLRSLNVRHNNVKTSGIPAELFRLDDLTTLDLSHNRLKEVP
EGLEKAKSLLVLNLSHNKIESIPPTLFVQLTDLLFLDLSSNLLETLPPQTRRLANLQTLI
LNDNPLGLFQLRQLPSLQSLETLHMRNTQRTLANLPTSLEPLINLSDVDLSKNALTKVPD
ALYTLQNIKRLNLSENEITEISTAMDIWQKLESLNLSRNKLTTLPATLCKLQSLRRLHVD
DNKLDFEGIPSGIGKLGNLEVFSAANNLLEMIPEGLCRCGSLKKLNLSSNKLITLPDAIH
LLSDLESLQLHGNPDLVMPPKPVERARGAGLQYYNIDFSLQTQLQLAGAATPELADNNSI
SKSDPIARKLRLRRRGETDNSDVILRGMQEQANTQHATSNDEMPHSELKPKRWDESLEKP
PLDYSEFFDEDTGQAPGLQIWEIENFIPAPVDEVAHGKFFEGDCYIVLKTSIEEQGQLSW
DIHFWIGSKATIPLNLHLGRKSQALLKLLSLQRDGFGIRTLDKGACAAMHAVNLRNLLGA
KRTQRHEQGDESPEFLALFPTPPVYINGSRTPSGFFTVDDPHYVTRLYRVHGAGSSIHLE
PSPVSASSLDPRYVFVLDTGLRIHLWNGKKAKNTLKSKARLFAEKINKEERKNKAELIAE
VPGKESKNFWQVLGYEDDMPYVAEEHVPDNFTWSPARLYRVELGMGYLELPQTEGPLTRT
ILATRNVYILDAHQDLFVWFGKKSSRLVRAAAVKLAQELFSMAPREPHALVTRLQEGTET
QVFKTYFQGWEEVIAVDFTRTAESVARTGADLTSWARQQETKTDLSALFTPRQPAMSPTE
AKSLADEWNEDLEAMEAFVLEGRHFVRLPDQELGVFYSCDCYVFLCRYVLPVEADDDTPE
ADEVDSESDSVTWVVYFWQGRRAPNMGWLTFTFGLERKFKQLCKRLDVVRTHQQQESLKF
MAHFRRRFIIRDGKRNLKPEGRPPVELFELRSNGSSLCTRLVQVKPDASVLNSAFCYILN
VPLEGSKEESSAIVYAWIGSKSDADSARLIELIANEKFNNDFVSLQVLTEGSEPDNFFWV
ALGGRKPYDEDAEYLNYTRLFRCSNEKGYFTVSEKWTDFCQDDLADDDIMILDNGEQVFL
WLGARCSEVEIKLAYKSAQVYIQHMKTTQPDRPRKLFLTLKDKESRRFTKCFHGWGEHKK
PPE