| New model in OGS2.0 | DPOGS210515 |
|---|---|
| Genomic Position | scaffold297:+ 128286-130452 |
| See gene structure | |
| CDS Length | 1779 |
| Paired RNAseq reads | 7 |
| Single RNAseq reads | 22 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012618 (0.0) |
| Best Drosophila hit | CG9517, isoform A (3e-81) |
| Best Human hit | choline dehydrogenase, mitochondrial precursor (9e-45) |
| Best NR hit (blastp) | PREDICTED: similar to RE28171p [Nasonia vitripennis] (4e-115) |
| Best NR hit (blastx) | PREDICTED: similar to RE28171p [Nasonia vitripennis] (6e-110) |
| GeneOntology terms | GO:0004344 glucose dehydrogenase activity GO:0050660 FAD binding GO:0006066 alcohol metabolic process |
| InterPro families | IPR012132 Glucose-methanol-choline oxidoreductase IPR000172 Glucose-methanol-choline oxidoreductase, N-terminal IPR007867 Glucose-methanol-choline oxidoreductase, C-terminal |
| Orthology group | MCL40771 |
Nucleotide sequence:
ATAGTGTACGCGACATCCGATGCTAGAGCTGACCTGTTCTCGAAGGCTACCAAAACTAAA
ACAAACGAAAAAGACCTGAGGAACAGTGTCTTCGACTTCATCGTAGTGGGGGGCGGCACA
GCTGGCTGCGTTCTGGCTAACCGACTGTCAGCCAACCCTGAGTGGAAGGTTTTAGTTCTG
GAGGCTGGCGACGAAGAGAACATAGATTATGACATTCCGGCTGTTCCAACAAATGAATAC
CGACCGATCCTCTGGAATTTTAGGACTGAGAGAAATGGCTTCTCTTGTTTGTCGAGACCT
GGAGGGAGCTGTGAGGTGAAAACGGGGAAGGTTTTAGGAGGGTCCAGCGTAACCAATGAT
ATGAAGTACACCAGAGGTTCAAAGAAAGATTATGACGCTTGGCACATCACTGGAGATATG
GGATCTCTGAACTGGAAATTTGAGAATTTAATAGAACATTTCAAGGCTTCGGAAGATAAT
GGCGACTATGATGTACTGATGAATTCTTACTATCATTCCCGCGGAGGCGAAATGCATGTA
CAAAGATTCAAACACATCGACAAACACATGGAGCTGTTCCTTGGCGCATTCGCTGAGATG
GGATTCAGGTCTGTGGACATAAATACTAACGCTCCAGAAGCGGCTCTCAACAACCAGTTC
GTTGTAGCTAACAATACACGACTCAGTACAAACAGCGCTTTCCTGAAACCGGTCAGACAA
AGAAAGAACTTAGTTGTCAAAACCGGAGCAACGGTTACGAAATTAATTATTGATGCCCAA
GAGAATAAAGTAGACGGAGTATTTTATGAATTGGAAAAGGGAAAGGAACAACTGGCTTAC
GCAAAAAAGGAAACGATACTGACTACCGGTGCCATCAACAATGTAAAAATACTCCATCTG
TCAGGAATAGGACCGGCAGCTGAATTAGAGAAGCAGAATATTTCAGTTATAATCGATCTT
CCTGTTGGTTCCAATTATCAAGATCAAGTGACCATAGGTGGCCTCGCATTTTCTCTTAGT
GATGTAACTTCAGTTTCTGAACAACAAATTGTAGAAGATTTTAAAACGTGGTTTCAAAAC
AGAGGGGGCCCTCTGGCTTCGCGGGGAATCAATCAAGTATCAGCATTTATACAGTTGTTT
GAAAATAAAAATGGTCCGGATATAGAGTTGGCATTACACGGAAACTATATAAGAAGTGAC
AAGTTCATGTTAACAAATGTTAGTGTGCATACAGCCGAGGAGGTCAACTTACCCATAGCT
TATTACAATTTAGTCAATATAAACCCAGTATTACTAAAACCAAAGAGCAAAGGTAAAGTA
ACGTTGAATAAAAGAAACCCAAAATACGGTAGACCAGTGATTCAAGCTAATTTGTTGAAA
GAGCAGGAAGATTTAGACGCCATTATCGACAGTGTAGACATAGCACTGCAGCTACTAAAT
ACAAAGGAACTGAAAAAGGCTGAAATAAACATGGCTCCATTAGATATATTTCCCTGTGAT
CGATTAAACAACAGAGATCAATGGAATTGTATAGCAAGGCACTATACGAAGGCTATGAGT
AATCCTATCGGCACGTGTCGAATGGGTCAAAATAGTACAGATTCTGTTGTAAATTATGAA
TTCAAAGTCCATAACGTTGAGTCATTAAGAGTGATCGATGCGTCGGTAATGCCATCACAT
GTACGAGGCAATATATTCGCTCCCACCGTTATGGTCGCAGAGAAAGGAACAAAATTAATT
ATCAAAGACTGGAAGGAAAACAAAGGAAATTTCTTATAA
Protein sequence:
IVYATSDARADLFSKATKTKTNEKDLRNSVFDFIVVGGGTAGCVLANRLSANPEWKVLVL
EAGDEENIDYDIPAVPTNEYRPILWNFRTERNGFSCLSRPGGSCEVKTGKVLGGSSVTND
MKYTRGSKKDYDAWHITGDMGSLNWKFENLIEHFKASEDNGDYDVLMNSYYHSRGGEMHV
QRFKHIDKHMELFLGAFAEMGFRSVDINTNAPEAALNNQFVVANNTRLSTNSAFLKPVRQ
RKNLVVKTGATVTKLIIDAQENKVDGVFYELEKGKEQLAYAKKETILTTGAINNVKILHL
SGIGPAAELEKQNISVIIDLPVGSNYQDQVTIGGLAFSLSDVTSVSEQQIVEDFKTWFQN
RGGPLASRGINQVSAFIQLFENKNGPDIELALHGNYIRSDKFMLTNVSVHTAEEVNLPIA
YYNLVNINPVLLKPKSKGKVTLNKRNPKYGRPVIQANLLKEQEDLDAIIDSVDIALQLLN
TKELKKAEINMAPLDIFPCDRLNNRDQWNCIARHYTKAMSNPIGTCRMGQNSTDSVVNYE
FKVHNVESLRVIDASVMPSHVRGNIFAPTVMVAEKGTKLIIKDWKENKGNFL