| New model in OGS2.0 | DPOGS209316 |
|---|---|
| Genomic Position | scaffold309:+ 3143-29870 |
| See gene structure | |
| CDS Length | 3429 |
| Paired RNAseq reads | 2394 |
| Single RNAseq reads | 5811 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013817 (0.0) |
| Best Drosophila hit | NADPH oxidase (3e-169) |
| Best Human hit | NADPH oxidase 5 isoform 2 (2e-78) |
| Best NR hit (blastp) | PREDICTED: similar to AGAP008072-PA [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to AGAP008072-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0016021 integral to membrane GO:0005506 iron ion binding GO:0050660 FAD binding GO:0016491 oxidoreductase activity GO:0009055 electron carrier activity GO:0005509 calcium ion binding |
| InterPro families | IPR018249 EF-HAND 2 IPR017927 Ferredoxin reductase-type FAD-binding domain IPR017938 Riboflavin synthase-like beta-barrel IPR001125 Recoverin IPR002048 Calcium-binding EF-hand IPR011992 EF-hand-like domain IPR018247 EF-Hand 1, calcium-binding site IPR013121 Ferric reductase, NAD binding IPR013112 FAD-binding 8 IPR013130 Flavoprotein transmembrane component |
| Orthology group | MCL13136 |
Nucleotide sequence:
ATGTTTAATGAGTTGTTCCTCGGTTCCTGCTCCCATGTTCAGTGTATGAGGCGGAGTCGC
GGGCGTCGCTCGTCTACTGCACGCGACTATATGACAACACTATACCCGTCCGCGTGTCGC
GATCATGAACAGGTCCCATTCATCGTATTGAACAGGAGTTTAGAAAATGTTATAAAACAC
AACAGAAAGATGAGTTCAGAAACAGAGAATGTCCACCTTAAAGATAACACGGACTTGCAA
ATACAAAAAATGATCGAGAAACATGAAAAGAAGGTAGAAACGAACGGCTTGGAGGTGCCG
AGGAAGAGTCACAGGCTGTCGTTCATGGAGGAGGAGAGCTTGAAGGAGAGGAACCGACTA
CAGCTGCTGAAACAGATAGCGGCCATCCTGAAGCAGGGGGACGAGAGATACAGCAAGGAA
ACCTTGCACAGGACCTTCCAAGATGACGACTTGTTGGAGCGAATCTTTCGTTTGTTCTGT
GATGAAGAACATCTCGTCCAGGAGGAGTGGATAGAAGCACTCAAGGAGAGGTTACAAGAA
GACAAACAACTCGACTTCGTGGAGCAAGTCGAGAGCGTCGCGTACGTACTCTGTGGAGAC
GGAGTGGTCACGAAGGAGACGTTCAGTAAGATATGGAAGAACAAGGTGGTGACGAACAAG
ATGTTCCGCGCGGTGGAAGGCGGGTCAGGCTCAGTGGGCGCCTCGGACCTCGTGGACCTC
ATCACGGCCGCCACCGACAGCAGAACCAGAGCCGGTATAGACAAGGAGTCATTGGATCGT
TTGGAAAGATTGTTCAAGGAGACGGTCGGGGACCAGAGAGAGATCACCAGAGAACAGTTC
CAGAAGATCGTCGTCTCCAAGAATCCCTTCTTCACTGAACGCGTGTTTCAAATCTTCGAC
GAAGATGACTCCGGATCCATCTCCCTCCGCGAGTTCCTCTCAGCGGCCGCTCGTGTCGCT
TCGCGGTCACCCAGAGACAAGCTGAGGTTTCTCTTCCAAGTGTACGACCTGGACGGTGAC
GGGCTGATACAACACCGTGAACTGCAGCACGTGATGAGAGCCGCCATGGAGGAGAACAAC
ATGAGCTTCTCAGAGGAACAGCTCCGAGACCTCACTAGCGCTCTGTTCGAAGACGCGGAT
GTTGATGGGCGAGGAGCCATCACGTGTGACGCGCTCCGAGACCAACTCGACAGACACGGG
GGACTATTAGACAATCTCTCCATCAGTATAGACCGCTGGCTGGTGCCTCCTCCTCAACCG
GAGCCTCTCGCCCTGCGCCAACGACTCGCCAACATGAGACCTTACCAACTGTCTCTAAAC
TATCTGAGGAACAACTATGTTTTCGTCTCCTACTTGGCGTTCTTCTTTCTCATGAACGTA
GCTCTCTTCATTGCAAGGATTGTCGAATACTGGGATCACAATATTTTTGTTAAATTTGCT
CGAGCTTCAGGCCAGTGTCTGAACTTCACATCATCGTGGGTGTTGGTGCTGATGCTGCGT
CGAACCCTGACCTCTCTCCGTGAGCGCGGGGTGGTGGGAGCTCTCCTCGACCGTCACGTC
TCCCTCCACAAGCTGGCGGCCCTCACCCTCATTGCACACGCCGCCCTGCACTCCGTTATG
CATTTCTGTAACTTTGCGCTGGTGGTGGTGCCGCCCTCCCCACTACCACTCCACGTGTGG
TTGCTGACCTCTCGTCCGGGAGTCTTCGGTCTGATTCAAGGCTGGGCTAACCCCACGGGT
GTAGTTCTGGTGGTGGTGCTGGCAGCCTTGGCGTACTCCTCGCGACCAGCAGTCAGGAGA
AGGGGTTGCTTCGAGGTGTTTTACTTCACCCATCTCCTGTACGTTCCGTTCTGGATTCTC
CTCATCCTTCACGCACCCAATTTCTGGAAGTGGTTCATCGTCCCCGGAACCGTTTATCTC
ATCGAGAAGATGTTAAGGCTTTGGTGGTTGAGATCTGGTCGTGGCCGCAGTTACATAACA
TCCGGCGCCCTCCTTCCCTCCCGCGTCCTGCACGTGGCCGCACGCCGACCTCGAGGGTTC
AACTTCCGCGCCGGAGATTATGTGTTTGTGAACGTGCCCGCTATAGCTCGATTCGAGTGG
CATCCCTTCACCATCAGCAGTGCGCCCGAGGAGAAAGACTACATCTGGCTTCACATCCGA
GGAGTGGGCGAGTGGACCAACAGACTGTATGAACACTTCGAACAACAAACGAAACGAGAA
CAAATACAAGAAAAAACGCATCGTAGCAATTCAACCCAGAGCAACAAAAGTAATCAGAGT
AACAAGAGCAATAAAAGCAAGAAGTCCACCAAGAAACCTTCCATAGACTCCGGATACACT
AATGAAGCGTACACCATTGATGAAGAAAACGAAAATGGCTGCGGTCTCAACTCAACTCCA
CAAACCCGTCCTCCGCTCTTGTCTCCTCTTCGCTTCCTGGAGAAGTCTCGCTCGATGCCC
GACGTGAGGAAAAGTTTAAAGAAGAAACGGTTCATGATTCCTGAGTATCACCGCTCCGAG
TCAGCCACCTTCCCCCCGGCGCCGGCCCCCTCCCCCTTGCCGCGCCCCTCTGCTCGCAGC
CCCGCGGGCGCCCTCCACCTCGCAAACAGCTTCCGTCACCTGAGGACTAAGCCAGCCATC
GTGTCGTGTGAGACGCCGCCTCTTAAGAAAGAAAGCTTACTGACCAGCGCGAGACGTCGC
CTGTCAAAGACGCTCTCTCCAGACAGAGACGATGATGACAGACACGAAGACCCGGAGGCG
GGAGACGGCGCGGAACACGAGGACCAACATGGACATACATACATGAAACCGTTAGAGATG
TACATCGACGGTCCGTACGGCGCGGCTTCCTCGTTAATGTTTTCGTGCGAGCACGCGGTC
TTAGTGGCGGCCGGGATCGGGGTGACTCCGTTCGCGTCGGTGTTACGGTCCATCGCCCAC
AGACTGTCCCGGGCGCAACACGCCTGCAGCAACTGCGGCCAGCGCTGCGTGACCCCGGAC
GCCGCCGACATCACGCTCAAGAAGGTCGACTTCATCTGGATCAATCGAGACCAGAGAGCC
TTCGAGTGGTTCGTGTCGCTACTGTCGTCTCTGGAGATGCAGCAGGCCGAGCTGGAGCGG
GCGGGAGGCCGGAGGTTCCTCGATATGCACATGTACGTCACCAGCGCTCTGCAGCGCTCC
GACATGAGGGCGGTGTCGCTGCAGCTGGCGCTGGATCTGATGCATGGCAAGGACCAGCGG
GATCTGGTGACCGGACTTAAGACCCGCACCGCCGCCGGAAGACCCAACTGGGACGTAGTC
CTCCGGAGAGTGGCCGCCGGGCGGCAGGGACCCATCTCCGTGTTCTACTGTGGGCCCGCT
CCTCTCGGGCGAGTGCTCCGGGACAAGTGCTGCCGGCTCGGGTACGACTTCCGGAAGGAG
GTCTTTTGA
Protein sequence:
MFNELFLGSCSHVQCMRRSRGRRSSTARDYMTTLYPSACRDHEQVPFIVLNRSLENVIKH
NRKMSSETENVHLKDNTDLQIQKMIEKHEKKVETNGLEVPRKSHRLSFMEEESLKERNRL
QLLKQIAAILKQGDERYSKETLHRTFQDDDLLERIFRLFCDEEHLVQEEWIEALKERLQE
DKQLDFVEQVESVAYVLCGDGVVTKETFSKIWKNKVVTNKMFRAVEGGSGSVGASDLVDL
ITAATDSRTRAGIDKESLDRLERLFKETVGDQREITREQFQKIVVSKNPFFTERVFQIFD
EDDSGSISLREFLSAAARVASRSPRDKLRFLFQVYDLDGDGLIQHRELQHVMRAAMEENN
MSFSEEQLRDLTSALFEDADVDGRGAITCDALRDQLDRHGGLLDNLSISIDRWLVPPPQP
EPLALRQRLANMRPYQLSLNYLRNNYVFVSYLAFFFLMNVALFIARIVEYWDHNIFVKFA
RASGQCLNFTSSWVLVLMLRRTLTSLRERGVVGALLDRHVSLHKLAALTLIAHAALHSVM
HFCNFALVVVPPSPLPLHVWLLTSRPGVFGLIQGWANPTGVVLVVVLAALAYSSRPAVRR
RGCFEVFYFTHLLYVPFWILLILHAPNFWKWFIVPGTVYLIEKMLRLWWLRSGRGRSYIT
SGALLPSRVLHVAARRPRGFNFRAGDYVFVNVPAIARFEWHPFTISSAPEEKDYIWLHIR
GVGEWTNRLYEHFEQQTKREQIQEKTHRSNSTQSNKSNQSNKSNKSKKSTKKPSIDSGYT
NEAYTIDEENENGCGLNSTPQTRPPLLSPLRFLEKSRSMPDVRKSLKKKRFMIPEYHRSE
SATFPPAPAPSPLPRPSARSPAGALHLANSFRHLRTKPAIVSCETPPLKKESLLTSARRR
LSKTLSPDRDDDDRHEDPEAGDGAEHEDQHGHTYMKPLEMYIDGPYGAASSLMFSCEHAV
LVAAGIGVTPFASVLRSIAHRLSRAQHACSNCGQRCVTPDAADITLKKVDFIWINRDQRA
FEWFVSLLSSLEMQQAELERAGGRRFLDMHMYVTSALQRSDMRAVSLQLALDLMHGKDQR
DLVTGLKTRTAAGRPNWDVVLRRVAAGRQGPISVFYCGPAPLGRVLRDKCCRLGYDFRKE
VF