New model in OGS2.0 | DPOGS207953  |
---|---|
Genomic Position | scaffold340:- 90689-96135 |
See gene structure | |
CDS Length | 2811 |
Paired RNAseq reads   | 1019 |
Single RNAseq reads   | 2527 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000391 (0.0) |
Best Drosophila hit   | CG3999 (0.0) |
Best Human hit | glycine dehydrogenase [decarboxylating], mitochondrial precursor (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to CG3999 CG3999-PA [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG3999 CG3999-PA [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0005960 glycine cleavage complex GO:0004375 glycine dehydrogenase (decarboxylating) activity GO:0030170 pyridoxal phosphate binding GO:0006544 glycine metabolic process GO:0055114 oxidation reduction |
InterPro families    | IPR015424 Pyridoxal phosphate-dependent transferase, major domain IPR020581 Glycine cleavage system P protein IPR020580 Glycine cleavage system P-protein, N-terminal IPR003437 Glycine cleavage system P protein, homodimeric IPR015421 Pyridoxal phosphate-dependent transferase, major region, subdomain 1 |
Orthology group | MCL11404 |
Nucleotide sequence:
ATGCTGGATCTCTTAGGTTATAAGAGTTTAGACCAACTAACTAATGATGCTGTGCCTAAG
AAAATCCAGTTAGAAGGTCTTATGAACATCACAGAACCAATGAGCGAATATGATCTTATT
AAAAGAATTCGCAAAATAGCAGAAACAAATCAAATATGGCGTTCCTATATTGGTATGGGA
TATCATAATTGCTGTGTGCCGCATTCCATAATGAGAAACATGTTTGAGAACCCTGGATGG
ACTACACAGTACACTCCTTATCAACCCGAAGTGGCTCAAGGACGGCTAGAAGGTTTATTA
AACTATCAAACAATGGTCAGTGATCTAACAGGGTTAGACGTTGCTAACGCGTCTCTCCTA
GATGAAGGAACTGCTGCAGCTGAGGCTTTGTCTTTGTGTCATAGACACAATAGGAGGACA
AAATTTGTAGTATCAGAACGATTGCATCCGCAAACTTTAGCTGTTGTTCAAACTCGGTTA
GATGCGTTGGGCCTAGAAGTTATGGTAGTACCTGATGTTAGACAAGCAGACTTCGCACAA
CGAGACATATCTGCTGTATTATTACAATGTCCAGACACAAGAGGATTGGTTTATGATTAC
TCAGGCCTTGCTGCAGCTGCACAAGAACATGGGACTTTGGTGGTCGTTGCGACTGATCTT
CTAGCTATGGCACTTTTACGCCCCCCCGCAGAGTGTGGTGCTGCTTTAGCAGTTGGTACT
TCACAGAGGTTAGGTGTTCCTCTTGGATATGGTGGACCTCATGCCGGATTTTTCGCAGCT
GAACATGCGTTAGTTCGTTTGATGCCAGGTCGCATGGTTGGCGTGACTCGGGACGCGGCT
GGAAGAGATGCTTACAGACTAGCTCTCCAGACAAGGGAACAGCATATCCGGAGAGACAAA
GCCACGTCAAATATATGTACAGCTCAGGCTCTTTTAGCAAATATGTCAGCCATGTTCGCT
GTTTATCACGGGCCACAAGGTCTGAGGGACATTGCGGTGCGAGTTCATAACGCTACTCTG
GTTCTTGATGACGGAATTCAAAAACGTGGTCATAGGCAGTTGAACGACGTATATTTTGAC
ACACTCTACATCATTCCAAGTGCGGATCATGATGCTACTGCTATAAAGGCAAGAGCTCAA
GAAAAGAAAATTAATTTGCGATATTTTGATGATGGAGCTGTCGGAGTAGCATTAGACGAA
ACCACTACAATGGAAGACGTTGATGATTTGCTCTGGGTATTTGACTGCGAGAGGGTTGCT
GAGGTGATGAAGAGTGGTGATGTCAAGTCAAGAAGTATCTTAAAGGGTCCGTTCAGAAGA
ACTTCTCCATACTTAACACATCCTGTGTTTAATATGCATCACTCTGAAACAAGAATAGTA
AGGTATATGAAGAGACTGGAAAATAAGGATATATCATTGGTTCACTCTATGATTCCTCTC
GGTTCCTGTACAATGAAGTTAAATTCTACAACCGAAATGATGCCATGTTCATTTAAACAT
TTTACTGACATCCATCCATTTGCACCTCTTGAGCAATGCCAGGGCTACCATACACTTTTT
GAAGAGCTTGCTAAGGATTTGTGTGCTATCACAGGTTACGATCGTGTATCTTTCCAACCG
AACAGTGGAGCTCAAGGCGAATACGCTGGTCTTAGAACAATCAAACGCTACCATGAATTC
CGAGGTGACACAGGGCGTAACATATGTTTAATACCAGTTAGTGCTCATGGTACAAATCCA
GCCTCGGCACACATGGCCGGCATGAGGGTCTGTGCAATCCGCGTCACACCCACTGGAGAT
ATTGATATGGCACACCTTAAAGATATGGTGGAAGAACATAGTGAAAAATTATCATGTCTG
ATGTTAACTTATCCGAGTACATTCGGTGTGTTTGAGGAACGCACAGCCGACGTGTGCTCG
CTCGTTCACCAACATGGGGGACAGGTCTATTTGGATGGTGCTAACATGAATGCACAGGTT
GGACTTTGTAGGCCAGGAGACTATGGCAGTGATGTATCCCATTTGAATTTACATAAAACT
TTCTGTATACCACACGGCGGAGGCGGCCCAGGAATGGGTCCAATAGGAGTAAAAGCTCAT
CTTGCTCCATTTTTACCGTCACATCCCGTGGTGAATCCGTTAGCTGACTTGGGTGAAGAT
GCCCATAGTTTTGGCTCCGTCAGTGCAGCGCCATTTGGTTCATCTGCAATATTACCAATA
TCATGGGCTTACATTAAGATGATGGGCCCTAAAGGCTTAAAGAGGGCGACTCAGGTGGCT
ATTCTTAATGCTAATTATATGTCGCGAAGATTAGATGGTCATTATAAAACTTTGTACAAA
GGTGAAAGAGGACTTGTCGCACATGAATTTATTATAGATGTCCGAGATATGAAAAAAACT
GCTAATATTGAACCCGGAGATATTGCAAAACGTCTTATGGACTTCGGTTTTCACGCACCT
ACAATATCTTGGCCGGTGGCTGGCACCCTTATGATTGAACCTACCGAATCTGAAGACTTA
CAAGAGTTGGATCGCTTCTGTGAAGCCCTTATTGCTATTAGAAAAGAAATTAAAGATATT
GAAGATGGTCTTATTGATAAAAGATTGAATCCTGTAAAGATGGCGCCACACACACAAGAA
GAAGTGATTACGGAAGATTGGAGTCGCCCTTACACAAGAGAACAAGCCGCTTTTCCTGCG
CCATTTGTAAAGGGAGAAACAAAGATTTGGCCTACGGTTAGTCGCATCGACGATATGTAC
GGCGACAAACATCTTGTTTGCACGTGTCCTCCGGTAATCGATGACTTCTAA
Protein sequence:
MLDLLGYKSLDQLTNDAVPKKIQLEGLMNITEPMSEYDLIKRIRKIAETNQIWRSYIGMG
YHNCCVPHSIMRNMFENPGWTTQYTPYQPEVAQGRLEGLLNYQTMVSDLTGLDVANASLL
DEGTAAAEALSLCHRHNRRTKFVVSERLHPQTLAVVQTRLDALGLEVMVVPDVRQADFAQ
RDISAVLLQCPDTRGLVYDYSGLAAAAQEHGTLVVVATDLLAMALLRPPAECGAALAVGT
SQRLGVPLGYGGPHAGFFAAEHALVRLMPGRMVGVTRDAAGRDAYRLALQTREQHIRRDK
ATSNICTAQALLANMSAMFAVYHGPQGLRDIAVRVHNATLVLDDGIQKRGHRQLNDVYFD
TLYIIPSADHDATAIKARAQEKKINLRYFDDGAVGVALDETTTMEDVDDLLWVFDCERVA
EVMKSGDVKSRSILKGPFRRTSPYLTHPVFNMHHSETRIVRYMKRLENKDISLVHSMIPL
GSCTMKLNSTTEMMPCSFKHFTDIHPFAPLEQCQGYHTLFEELAKDLCAITGYDRVSFQP
NSGAQGEYAGLRTIKRYHEFRGDTGRNICLIPVSAHGTNPASAHMAGMRVCAIRVTPTGD
IDMAHLKDMVEEHSEKLSCLMLTYPSTFGVFEERTADVCSLVHQHGGQVYLDGANMNAQV
GLCRPGDYGSDVSHLNLHKTFCIPHGGGGPGMGPIGVKAHLAPFLPSHPVVNPLADLGED
AHSFGSVSAAPFGSSAILPISWAYIKMMGPKGLKRATQVAILNANYMSRRLDGHYKTLYK
GERGLVAHEFIIDVRDMKKTANIEPGDIAKRLMDFGFHAPTISWPVAGTLMIEPTESEDL
QELDRFCEALIAIRKEIKDIEDGLIDKRLNPVKMAPHTQEEVITEDWSRPYTREQAAFPA
PFVKGETKIWPTVSRIDDMYGDKHLVCTCPPVIDDF