New model in OGS2.0 | DPOGS207951  |
---|---|
Genomic Position | scaffold340:- 104640-114227 |
See gene structure | |
CDS Length | 4101 |
Paired RNAseq reads   | 2088 |
Single RNAseq reads   | 4815 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000390 (0.0) |
Best Drosophila hit   | adenosine 2, isoform C (0.0) |
Best Human hit | phosphoribosylformylglycinamidine synthase (0.0) |
Best NR hit (blastp)   | PREDICTED: hypothetical protein [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | Phosphoribosylformylglycinamidine synthase, putative [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0003824 catalytic activity GO:0004642 phosphoribosylformylglycinamidine synthase activity GO:0006189 'de novo' IMP biosynthetic process GO:0016740 transferase activity |
InterPro families    | IPR016188 PurM, N-terminal-like IPR010918 AIR synthase-related protein, C-terminal IPR000728 AIR synthase-related protein IPR010073 Phosphoribosylformylglycinamidine synthase IPR017926 Glutamine amidotransferase type 1 |
Orthology group | MCL11490 |
Nucleotide sequence:
ATGGCTATAGTGAGGTTCTTTACCTGTGAAGCTTTTAGTGTTCACAAAACTAAGGAGATA
TTAAATAAATTAAAAATTGTCGACAATGATGTAAAGGAGTTGTCAACAGAAGTTTGCTAC
CATGTGGAACTTGCCGAAGGTTGTGACAATCTTTCCAATGACCAAATTCAAATTCTTCAA
TGGCTTCTTAGTTCTCCATTGCAACCACATTCATTAAAAAATGATTCTGCATACAACTTT
GTAAAAAATAATCAAGTTATAATTGAAATTGGCCCCAGGTTTAATTTCTCAACAGCTGAT
TCAAGTAATTCTGTTCAGATTTGTGATAGTGTTGGACTTCATCAAGTGGTTCGACTTGAA
GTGTCTATAAGATACCTCATTACATTTAAGGAAGTGAAAAATGTTGATAACAGCTTATTT
GAAGCTCTGGCTGCTCCTTTGCATGATAGAATGACACAATGCATTTACACTAAAGAAAAT
TTACCACAGAAAAGTTTTAACGAAGGCCTTCCTAAAGATTTAGAACCTTGGTATGTGGTT
CCCTTACTTGATGAGGGCATGGCAGCTATGGAAAAAGTTAATACAAAATTAGGATTGGCT
TTTGATGCCTGGGATATGGAATTTTATATGGACCTTTTTGTTAATAAACTGAAAAGAGAC
CCTACAAGTGTTGAGTTGTTTGATCTTGCTCAAAGCAATAGTGAACATTCTCGGCACTGG
TTTTTCAAAGGTAAGATAATACTGGATGGAAAGGAAATAGACGAGTCCCTGATTGATATG
GTTGCTTCAACACAGAACACTTCAAATAATAATAATGTCATAAAGTTTGGAGATAATAGC
AGTGCAATCAAGGGTTTCAATCACTTTAAACTAACTCCACTGGATGTAACAAAGCCATCT
CAAGTGATGAAGGAATTGACTGAATCAGATATTATATTTACTGCTGAGACACATAATATG
CCAACAGCAGTTGCTCCGTTCAGTGGTGCTACCACTGGCACTGGTGGCAGAATAAGAGAT
GTCCAGGGAGTGGGAAGAGGTGGTCATACTGTTGCCGGTACAGCAGGGTATAGTGTTGGC
AATTTACTTATACCGGGATATGATTTACCTTGGGAGGAAAAAAGCTGGAAGTATCCCAAT
AATTTTGCTAGTCCATTACAAATTATTATTGATGCTAGCAATGGTGCTTCAGATTATGGT
AACAAATTTGGGGAACCTGTTATATGTGGATTTGTACAGTCCTATGGTAATAAGAATGGG
GACAACATAAGAGAAGAGTTCGTAAAACCAATCATGTTCAGCGGTGGTATTGGATACATG
CCTCACAATATGATTAAGAAGGAAAAACCAGATAAAGGCATGTTGTTGGTGAAGATTGGT
GGACCGGTGTACCGTATCGGTGTGGGTGGCGGCGCAGCCTCCTCTGTGGCCGTGCAGGGT
GGAGACTCCCGCGACCATGCGCTAGATTTTGGCATGTTGTTGGTGAAGATTGGTGGACCG
GTGTACTGTATTGGTGTGGGTGGCGGAGCAGCCTCCTCTGTGGCTGTGCAGGGTGGAGAC
TCTCGCGACCATGCGCTAGATTTTGGAGCCGTACAGAGAGGTGATGCAGAAATGGGCAAC
CGTCTTAACAGAGTAGTGAGGGGTTGTTTGGAAGCCAAAATTAATCCTATCGAGTCAATC
CACGATCAAGGAGCCGGAGGAAATGGCAATGTATTGAAGGAGTTAGTAGAACCTGAAGGC
GCTGTTGTTTTTACTAAGGAGTTTGAACTTGGTGATCCTACGATCACCACTCTGGAGTTA
TGGGGGGCAGAGTACCAGGAAAATGATGCTTTACTATGTACTAAGAAGAATAGGGATGTC
CTTGAAGGTATTTGCCGCCGAGAGAGGTGTCCTGTGTCGTTTGTTGGAGAGGTGACTGGA
GATGGTTTCATGAGTCTCGTAGAAGATAAATATAACAATGAATATTTGAACAGAAATAAT
CGGCTGAAGCCAGAAATTAAGTCTAAAATGCCATATGATCTGCATCTGGAAGCCGTTCTA
GGTAATATGCCTCGTAAGACATTCGACTTGAGACAAGATAAACGCACTAAGCTACCACTA
AACTTGCCCGCTGATGTCACAGTTGAAAAAGCCTTAGATAGAGTCTTGAGGCTCGTGAAT
GTTGCTAGCAAGAGATATTTGACTAACAAGGTTGATAGATGTGTAAGTGGATTGGTTGCA
CAACAGCAATGTGTGGGTCCGCTTCATACACCGTTAGCTGATTGTGCCATAATATCTTTA
TCCTACTATGACTTGGTCGGCTCTGCAACATCTATTGGTACCCAGAATATCAAAGGTCTG
TTGGACCCCGCAGCTGGTGCTAGGATGTCCCTTGGTGAAGCTCTTACTAATCTGGTATTT
GCGGGAATATCTGAGTTGGGTGACGTCAAGTGTTCTGGGAACTGGATGTGGCCGGGTAAG
ACGGGCGCGGAAGGCGCGGCTTTGGTGCGAGCCTGCAAGGCGGTCAGTGACGTCATGAGT
GTCCTCGGAGTCGCTATCGACGGAGGGAAGGACTCGTTGTCCATGTGCGCCAGCGTTGAC
TCCGCGCCTGTTAGATCTCCCGGTACCCTCGTAGTGTCAACTTACGCTCCTTGTCCCGAT
ATAACTGTGAAAATCGAGCCCGCACTGCTCGTAGAGGGCGCTGCAATCATTCACGTTCCA
GTAACTCCAGGGAAATACAGAATCGGCGGTTCATCTCTCGCTCAGTGCTACAAGCAACTC
GGCGAAAACCCGCCAGATCTAGACGATCCTAATGTTTTAAAATCTTTATTCAACGTCACT
CAGAAACTTTTGAAAGAGAAGAAATTGCTGTCTGGTCATGATATAAGTGAGGGGGGTTTT
ATAACAGCAGCCTTAGAAATGGGTATCGGTGGTGTTCGAGGGTTGGAAATAGATTTACAA
GTGGAAAAGAATATTACGGCCATAGAGGCTTTGTTTAACGAGGAACTCGGCATACTGTTA
GAGGTGGCACAAAGTGATTTGAGCTACGTATTAAAAGAATACAGCCTACAAGGGGTTAAG
GCCAAAGTTGTGGGTAAAACTGGAAAGTATGGCATGGAATCGCAGGTCACCGTGAAAGTA
AACGACGTGTCAGTTTTGAACTCCAAGCTTATAGATGTTTATAGAATGTGGGAAGAGACG
AGCTTCAGACTGGAATGCCTCCAGGCTAATTCTGATTGCATCAACCAGGAATGGGAAGGT
CTGGCAAAACGTAAGGGTGTTACATACAACGTCACCTATGATCCGTCCGTGGGTTCCGTG
AGGACAAACCCAGTAAGGGTTGCTGTGCTGAGAGAAGAAGGTACAAATGGTGATCGTGAG
ATGATAGCGTCTCTAATGATGGCTAACTTCGATGTTTTTGATGTCACTATGAGTGACTTG
CAAGCAAACAAGATACATTTAGATTCATTCAGAGGCATTGTATTTCCTGGTGGATTTAGC
TATGCCGATACCTTGGGATCAGCAAAGGGTTGGGCAGCAGGAATAATGTTCTCGGAATCT
CTGAACAAACAATTCACTCACTTCAGAAACAGAAGCGATACATTCTCACTGGGTGTGTGT
AATGGATGTCAACTGATGGCGCTACTGGGCTGGGTTAATGTAGATAATAAAAAGGAAGAG
AGAGCACAGATATTCTTAGACCACAACCAGTCGGAGAGATTCGAATGCCGTTGGAGCGCT
GTGAAGATAAACGAATCGTCGTCGGACGTGTGGTTCCGTGGTATGGGTGGGAGCGTCTTG
GGGGTGTGGGTCGCTCATGCTGAAGGACGTTTCGTGACCGACAGACTGCAACAGTTGAAA
GACAATGATCAGATAGCGTTACAATATGTCGATGATGAAGGGTCACCCACACAAGTATAC
CCCATGAACCCCAATGGAAGCATCGAGGGTATAGCGGGTCTGCGATCTGTAGACGGTCGG
CACCTGGCGATGATGCCTCATCCTGAACGGTGTGTTCTATCTTGGCAATGTCCAGTACCA
CAGTCCGCAGACAAGCAAAGCAAATATTCACCATGGATGAAACTATTCAGCAACGCATAC
ACCTGGGCTTCACAGAATTAA
Protein sequence:
MAIVRFFTCEAFSVHKTKEILNKLKIVDNDVKELSTEVCYHVELAEGCDNLSNDQIQILQ
WLLSSPLQPHSLKNDSAYNFVKNNQVIIEIGPRFNFSTADSSNSVQICDSVGLHQVVRLE
VSIRYLITFKEVKNVDNSLFEALAAPLHDRMTQCIYTKENLPQKSFNEGLPKDLEPWYVV
PLLDEGMAAMEKVNTKLGLAFDAWDMEFYMDLFVNKLKRDPTSVELFDLAQSNSEHSRHW
FFKGKIILDGKEIDESLIDMVASTQNTSNNNNVIKFGDNSSAIKGFNHFKLTPLDVTKPS
QVMKELTESDIIFTAETHNMPTAVAPFSGATTGTGGRIRDVQGVGRGGHTVAGTAGYSVG
NLLIPGYDLPWEEKSWKYPNNFASPLQIIIDASNGASDYGNKFGEPVICGFVQSYGNKNG
DNIREEFVKPIMFSGGIGYMPHNMIKKEKPDKGMLLVKIGGPVYRIGVGGGAASSVAVQG
GDSRDHALDFGMLLVKIGGPVYCIGVGGGAASSVAVQGGDSRDHALDFGAVQRGDAEMGN
RLNRVVRGCLEAKINPIESIHDQGAGGNGNVLKELVEPEGAVVFTKEFELGDPTITTLEL
WGAEYQENDALLCTKKNRDVLEGICRRERCPVSFVGEVTGDGFMSLVEDKYNNEYLNRNN
RLKPEIKSKMPYDLHLEAVLGNMPRKTFDLRQDKRTKLPLNLPADVTVEKALDRVLRLVN
VASKRYLTNKVDRCVSGLVAQQQCVGPLHTPLADCAIISLSYYDLVGSATSIGTQNIKGL
LDPAAGARMSLGEALTNLVFAGISELGDVKCSGNWMWPGKTGAEGAALVRACKAVSDVMS
VLGVAIDGGKDSLSMCASVDSAPVRSPGTLVVSTYAPCPDITVKIEPALLVEGAAIIHVP
VTPGKYRIGGSSLAQCYKQLGENPPDLDDPNVLKSLFNVTQKLLKEKKLLSGHDISEGGF
ITAALEMGIGGVRGLEIDLQVEKNITAIEALFNEELGILLEVAQSDLSYVLKEYSLQGVK
AKVVGKTGKYGMESQVTVKVNDVSVLNSKLIDVYRMWEETSFRLECLQANSDCINQEWEG
LAKRKGVTYNVTYDPSVGSVRTNPVRVAVLREEGTNGDREMIASLMMANFDVFDVTMSDL
QANKIHLDSFRGIVFPGGFSYADTLGSAKGWAAGIMFSESLNKQFTHFRNRSDTFSLGVC
NGCQLMALLGWVNVDNKKEERAQIFLDHNQSERFECRWSAVKINESSSDVWFRGMGGSVL
GVWVAHAEGRFVTDRLQQLKDNDQIALQYVDDEGSPTQVYPMNPNGSIEGIAGLRSVDGR
HLAMMPHPERCVLSWQCPVPQSADKQSKYSPWMKLFSNAYTWASQN