| New model in OGS2.0 | DPOGS215624 |
|---|---|
| Genomic Position | scaffold300:- 45861-49967 |
| See gene structure | |
| CDS Length | 1884 |
| Paired RNAseq reads | 440 |
| Single RNAseq reads | 1246 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003684 (0.0) |
| Best Drosophila hit | no extended memory, isoform A (0.0) |
| Best Human hit | glutaminase kidney isoform, mitochondrial precursor (2e-155) |
| Best NR hit (blastp) | PREDICTED: similar to glutaminase [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to glutaminase [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0008805 carbon-monoxide oxygenase activity GO:0030133 transport vesicle GO:0007626 locomotory behavior GO:0007613 memory GO:0016021 integral to membrane GO:0004359 glutaminase activity GO:0006541 glutamine metabolic process |
| InterPro families | IPR002110 Ankyrin repeat IPR020683 Ankyrin repeat-containing domain IPR015868 Glutaminase IPR012338 Beta-lactamase-type transpeptidase fold |
| Orthology group | MCL12411 |
Nucleotide sequence:
ATGAACAGCCGTCAATTCCGTCGGCTAGCTGCCAGCCCTCTCTTAAAACAGACAGCATGC
ATCTGCTTCCGACGATATAGTCAAGTGAGACCCGTCTATATTATAGAACGACCTAAATGG
CGAAACTCCGCACCAAGTTTCTATGCCGCTCAGTCGATTGATATGCGAGTTCGTGAAGGA
TCTCATAAAAATGCCGATGATGTTTTGTTTGATATGTTTAAAAATGAAGAAACAGGATTA
TTGCCCGTTGGGAAATTTTTGGCCGCCTTGAGGACTACCGGAATTAAGAAAAATGATCCT
CGGGTTAAAGAGGTCATGCACAATTTATACAAAGTTCACAAGGAATCAAATCTCGAAGGA
GGATCTCCTGAGACGCTGAAATTAGATAGACAAAACTTTAAAGAAGTCATAGCTCCAAAT
ATTGTGTTAATCACAAAAGCATTCCGAAGCCAGTTTGTGATTCCCGATTTTCAAGATTTC
ATTAAAGACATCGAAGAAATGTATTGGTCAGCTAAGAGTAATACAGATGGCAAAGTAGCT
AGTTATATCCCTCAGTTAGCTCGTGCGAGCAGCGAAAACTGGGGTGTTAGCATTTGTACG
ATCGATGGACAGAGATTCTCGATTGGTGACGTCAACGTTCCATTCACTCTACAGTCATGC
AGCAAGCCCTTAACATATGCGATGGCGCTAGAAACCCTGGGCCCTGACGTGGTACATAAG
TACGTCGGCACGGAGCCAAGCGGCCGCAACTTCAATGAACTCGTCTTAGATTATAATATG
AAACCTCATAATCCTATGATAAACGCCGGAGCTATTCTGGTTTGCTCGTTATTGAAAAGC
CTGGACAAGCCAGAAATGACTTTAGCTGAAAAATTCGACTACGTTATGTCATTCTTTAGT
CGTCTAGCTGGCAATGAAGTATTGGGTTTTAATAATGCTGTATTTTTATCTGAGCGCGAG
GCCGCAGACAGAAATTATGCTTTGGGATTTTATATGCGTGAACATAAATGCTATCCCGAA
AAGACTAACTTACGTGAATGTATGGATTTCTATTTCCAGTGTTGCTCGATGGAAGCTAAT
TGCGATATAATGTCCATAATGGCTGCCACTTTGGCAAATGGTGGAATATGCCCTATCACG
GATGAAAAGGTCCTACGACCTGATTCTGTTCGAAACGTATTATCGTTAATGCATAGTTGT
GGAATGTATGATTACTCAGGGCAATTCGCCTTTAAAGTAGGTCTTCCTGCTAAATCAGGT
GTTTCTGGAGCAATGCTCATTGTCGTTCCTAATGTAATGGGCATATGCACCTGGTCTCCT
CCTCTTGATCCACTTGGGAACAGCTGCAGAGGTCTTCAGTTTTGTGACGAATTGATCGCG
AGATTTAACTTCCATAAATACGACAACATCCGATATGCAAGTCACAAGAAAGATCCTCGC
CGCTACAAATTTGAGTCCACGGGACTCAGCATCGTCAATCTCTTGTTCTCGGCTGCTAGC
GGGGACATAAGTGCCTTGAGAAGGCATCATCTGTCTGGTATGGATATGAATCTGTCTGAC
TACGATGGTCGCACGGCTCTTCATTTAGCGGCAGCTGAGGGTCACTTGGCTTGCGTGGAC
TTTCTCCTCGCTCAGTGTAACGTACCCCACGACCCTCAGGATCGCTGGGGAAGTCGACCG
CTCAATGAAGCCGAGACCTTCGGCCATGATGCAGTAGTACAATATTTGAAGGAATGGGAG
AAAACGCATCCCAGCATCCAAAAAGAGGAAACCCAACAAACCGTCGATGAGATCCTTGAG
AGGAACAAAAGGGAGGCAGATGAGGCTTTAAAAGATCCAAGTATTCAAGAAATAGTAACT
AGAAATGGAGATAAAGTGCAGTAA
Protein sequence:
MNSRQFRRLAASPLLKQTACICFRRYSQVRPVYIIERPKWRNSAPSFYAAQSIDMRVREG
SHKNADDVLFDMFKNEETGLLPVGKFLAALRTTGIKKNDPRVKEVMHNLYKVHKESNLEG
GSPETLKLDRQNFKEVIAPNIVLITKAFRSQFVIPDFQDFIKDIEEMYWSAKSNTDGKVA
SYIPQLARASSENWGVSICTIDGQRFSIGDVNVPFTLQSCSKPLTYAMALETLGPDVVHK
YVGTEPSGRNFNELVLDYNMKPHNPMINAGAILVCSLLKSLDKPEMTLAEKFDYVMSFFS
RLAGNEVLGFNNAVFLSEREAADRNYALGFYMREHKCYPEKTNLRECMDFYFQCCSMEAN
CDIMSIMAATLANGGICPITDEKVLRPDSVRNVLSLMHSCGMYDYSGQFAFKVGLPAKSG
VSGAMLIVVPNVMGICTWSPPLDPLGNSCRGLQFCDELIARFNFHKYDNIRYASHKKDPR
RYKFESTGLSIVNLLFSAASGDISALRRHHLSGMDMNLSDYDGRTALHLAAAEGHLACVD
FLLAQCNVPHDPQDRWGSRPLNEAETFGHDAVVQYLKEWEKTHPSIQKEETQQTVDEILE
RNKREADEALKDPSIQEIVTRNGDKVQ