New model in OGS2.0 | DPOGS213028  |
---|---|
Genomic Position | scaffold46:+ 111711-122925 |
See gene structure | |
CDS Length | 6582 |
Paired RNAseq reads   | 895 |
Single RNAseq reads   | 2680 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006945 (5e-06) |
Best Drosophila hit   | CG1354, isoform A (5e-147) |
Best Human hit | obg-like ATPase 1 isoform 1 (1e-130) |
Best NR hit (blastp)   | GTP binding protein [Bombyx mori] (0.0) |
Best NR hit (blastx)   | GTP binding protein [Bombyx mori] (1e-175) |
GeneOntology terms    | GO:0005525 GTP binding GO:0008150 biological_process GO:0005622 intracellular |
InterPro families    | IPR018247 EF-Hand 1, calcium-binding site IPR004396 Conserved hypothetical protein CHP00092 IPR012676 TGS-like IPR006073 GTP1/OBG IPR023192 TGS-like domain IPR012675 Beta-grasp fold, ferredoxin-type IPR013029 Domain of unknown function DUF933 IPR000850 Adenylate kinase IPR002917 GTP-binding protein, HSR1-related IPR011619 Ferrous iron transport protein B, N-terminal |
Orthology group | MCL14501 |
Nucleotide sequence:
ATGCCTCCTAAAAAGGTTGAAGAACCAGAAAAGAAGCCACTAATTGGCCGAGTTGGGACC
AATTTAAAAGTGGGCATTGTGGGAGTACCAAATGTTGGTAAATCCACATTCTTTAATGTG
CTCACAAAAAGTCAAGCAGCAGCTGAAAACTTCCCTTTCTGCACAATTGATCCAAATGAA
AATAATGTTGTGAGTTATAGTGATGTATATGAAACATTCAAACAGAAGAAGTATGATAAT
GATGAGAAGAGATCTTTGGCAGCTGCAGTACTCGGTTTAGGAAATACTGATATTCCACTG
CCTGATAAGCTTGACTATTATACAGGCTGGACTGATAAAGATGCCCAGGAATGCTATTTA
CTATCTAAACCAAAAACATATATTATTCTCGGCAAGCAAGGTTGTGGAAGCTATAATTTA
GGAGAAGCAATGGCAAAAAAAATTAACTGTCCACATTTGTGTCCGAAAAATGTTCTTCAG
GATGAAATTGATCAAAAAAGTTCCGTTGGCAAGTGTTTGGATTACAACATGAAGCATAAT
AAAGTTAGCAAGAGTGATATTATTTTGAAAATTATAAAAAATAAATTAGAATCTCCTGCA
ATAAAACATCGTGGATTTATATTATCGGGACTACCAATGGTGACGTCTAGTCTAAAAATG
CAATACTATTCTGATAGTTTGTATGCAGAAGAGTCAATTTCTGTCGTAGACGACATTTTA
TTCGACGTGATATATAATTTAAAAAGAAAAAAACGAAGAGCCAAAAAATCTTCACCTCAT
TCCTCAAAAAGCAGTTTAAATGATGAAGGTGAAATTGAAGCCGAGGAAGAGGAACAAGAA
GTAGAAGAAGAGCAAGAGGAAGCAAATATAGTAGTGGAATTACCAAAGTTCTTATTAGAA
CCCTGCAGAGACCTTATATTTGTTTCTAGACCTTATTACACAACAAAAGAGAAAATATTA
CTGGACCAGGTTCAGGATTTTTTTGGTTTTAAACCCGATATTGTGATTTATATATCTTGC
CCTAATTCAGACGTGGTTATAAAAAGGACACATAAATTCCTAAATTACTCAAATGGTTCA
AGCACTTTCGCTCCCTTTTCACCAAATATGGAAAACGATATTCGTTGGCCACCTCATTAT
ACCATGGTCGACTATAATAGGGGAATTGATAAACATACTTTTAATCCGAAATATAATTGT
AAACAACCTACAAATTTTACAACCAACTCTTCAGAACAAATCTGTAACTATAAAAAATAT
GTCACACCTCTTATAGAAGAGAAATTAAAAGAATTTGACCCCAGATATGTTATAAAAGTA
GACGGAAGGACACCTATTCAGCAAATGATGAATATTATAATGGAAAGGTTGCTGACATTG
CCCATTAAACCTGTCCTCCTACCAGAACCATTGTATATCGACGAGCCTCCGGATGAACTA
GAAGAATTTTGGAAGACTGTTGAAGAATTGAATGTAATTCGTAGCGGCTCCCTAAGCTTT
AACCGATACTCTTCACCTTGGTATAATCGATGTCCAGTTGAGTTACGGAAAAGAAGATCA
ACACAGGGAAATCCAAAATTTGCGGTTACGTTTTTTAAACATGTCTATTTATTATCCTCA
CTCGATGCTATGGTTTCCTTTTGCAGAAACCCGAGACCCTATTTACAACTTAAATATTTA
GAACCAACTTGTCGAATGATTATTTTAGGTACTAAGAGTTCTGGAAAGACAATGATAGCT
AAATGTTTATCTTGGATTTTTACGGCCCCTGTTATATGTTTTGAATCATTTTTAAAAACT
GAAAAACAAAGAAAGTATGATTCCTATGCAAAAAATATTTTTTCTGAAATAATGGCTACG
ATAGAAGATAATAGATTTACAAAGTGGCAAGCTAAGGAATTGCAAAGAGTGTCTGATTTA
AACACGTGGTATAACACAGTATCCAGTGCACTATCTTCTTACATTCCTCTTTTGAAAAAA
ACCTTAGAGATTGAAGGCGAAGAGGGTGAGCAAGCACGTTCAAAAAGATTCTATACTTTA
AGAAATCAACTTTCCTATTTACCCACAGATAACTTAGTGGAACTTGGAGCTCTTCTTAAA
GACAAAAATGCTTTATTAAAATATGCTCCTCATCATTTATTAATGGAAATTACCAAACCA
AAAACGCCAGTTCTTGGAGATGAAGATGTCACGAACGAAATTTCGTCATACATTGTGACC
AACGATCTACAAAAAGATATAGATCCGACGACTGAAGAATTGATGAATGAAATTATTAGA
ATCTTAAAAGACATCGATAAAACATCTCTAGACGATACGGGCCTATTTTATGGAAAATTT
ATAATCGATGGCTTTCCATCGGATCCAGAATATTGGGGATATTTGATAAAAGCTGGACTA
TTACCTGATTATACTATCACTATAATAGAAAATAGAGAAATCGACGCAGATCTTCTTCAG
CATTACATTAATATAGGAAAATATACCAAACATCATCAAGAAAGGTTCCTTTTGTCTTCT
GACGTCTTAGTAAAAACTAAACTATTACATGATGAACCACCAGAAAATAAATATTTAGAT
ATGCAAATAATAATAGATAATTTAGTCTTAACCTTATTTGACTCTGAATCCATTGACGAC
GTTGCAAATAAAACTGAAAAATCACCCGATGCAGACGCAATAACAGGCTTTACTGAAACA
ATGGAAAAGTTTCGTGAAGAATGGGAAGTATCTAAATCAAAATTGGAAGAAAATTATAAA
TGTTTTGTTGAAACAGAAATTGAAGACAAGAGTGATATAGACATTATAGATGAAGTTTTG
AAGAAAATTCGCAACTGTTATTTTAATCCTTGCGTAATAATAGAAGAAGGGCTGGATATT
CCAGATGATGATAGTGAAATAACTAAAGATGTTTTAACCTATAATGAGCCGCGGTTTCTA
GGCGAGACAAATATTTACTGTCCATTAGCTTTTTATGACTATGGTGTATTGTGGGAAGGT
AAATCGGAGCTAGCAACATCTTATGACAATAAAACATACTGCTTTAGTAAAGAAGAATGT
GTCGATATCTTTCAACGTGACGTAAAGAAATACCTCTGTTACAATAAACCATACAAAAAT
GATATACCGCTAAGAATATGTGTAATAGGTAACATAGGCAGTGGGAAGACGACCTATTCT
CGTTTAATAGCAAAAGAACTGGGGCTATTCCATATTGATTTCAAAGATTTTATAAATAAA
TATTTGATTCCGAAACATTTTAAAAAAGTTGGATGGCAGTATGAGAACAGGTTTACTGAT
GCTGCTGTGGGCGAAGAAGAAGTCGTCGAACTTCAAATAGATGAAGAAAATTTAAACTAT
ATTTCGGACATAACGTTCAATGAACAAGAGTTACGGAGAATTATTTACAACTACATTGAA
CATGGATCCCCCCTTCTGTCTCCTTTACTACAGCCTTTATTAAAAAAGTTGTGGAATGAA
CAGCCATTTAATAACAGAGGCGTTGTAATTGATGGTTTTCCAAAACTGCCAACCGATGTT
GAAGATATGATCTCATGTTTTTGTATTCCTGAAATTGTAATAGAAATAGAAAGTGATTCA
GAAACATCACTTAATAGAATATCTCCTAAAATGTTTAAGCAATGGAAACTTCAACTTGCC
GAAGCTAAACTAAAAGCTAAAAATAAGCTAGACAGAGAAAAACAGGAATGGTTGCATTTT
GTGACTAAAACTGTAGTAATAAAATTAATTATTGATGACATTTTAGGAGAGGCAGTCAAC
GAAGAAGAGCCGTTAAAAATATCATCTGTAGAAAGCACTATTTTTGACGCTAATCCCCTG
GGATCAGCCAATGTAGATGTTAATTTATTTCGAACATACAATGAGCTCATACAAGAATAT
CCAGAACCAGTTGACCAAAATGTATGGGAAAGTGCTGATGATGTACTTGAACATATAAAC
AACAGAATAGAAAGTATCTTTGAAATAGACGATGAAAATATTCAAGTACTGAAAGATATG
CTACTTGAAAATAAAATAAAAATTGTGTCTGTGGATGGCAAAAAATCCAAACAAAAAATT
CAACGTAAAATATTATCCAAATTATCAAATATAAGAAATAGGACGCCCTCGTTTTTAGAA
CAAACGTTTATTGTAAATTGCGATATAGCTGAAATGCTATTATTAGAAGGATTTTTCCTT
CTAAGTAAATTTTACAGAATGTGTCCTGTGTTCATATCGGAAAACCCCAAAACAAAGTTC
AATCCATATAGTTTGAATAAACGTAAAAATAAAGTATTCCCAATAATTCATCGAGCTTAT
ATATATTTTATTTCTTCCGAGGATAACGTTAAGAAATTCAGAAGAGACCCTTTAAAATAT
ATAAATAATGACCAAATAAAATCTTACAAGGAACATCCACTGCGCATTGGTATTATTGGC
CCTCCTAAATCTGGAAAGAGCACAGTAGCAGCAAAGCTTGCGAAAAGATATGGATTGATG
TGTATGTCAAAAGGAATGGCTATCCGTCATATCTTAGAAAACATGGATTGGACTACATTA
GGGTTCAAAATGAAAAAGTTATTAAAAGAAGGCAAATGCATAGATAATGAGTTGATTATG
ACTGCTGTTCTAACAGCCTCCATTGATCACCGTACGATGACTAATGGTTTTGTATTGGAT
GGCTTTCCTGAAACACCATTTGAGATTTGCCAATTACTAAAATATGGCCTGTATCCTCTT
ATAATTTTCGATGTCAAAAGCGATGAAAAAGTTATATTAGATAGCTCTCAAAATGAAATT
TACCCAGACATATTAAAAATAAAACCACCTTTCTCACGTCCTTTCATTAAAAAGAGGTAT
GATAAATGGCTCGAAAAATCCTCAACTGTCAGAAATTGGATTAATAGGGATACGCAAAAC
TTATACACAATAAATGGAAATAATTCGCAATGGCACTGTTTTCTAGACGCATATTCTAAA
ATAGAAGATATAAACAAAGATATTCATTATTATTTAAGCCACGTAAATACCGACGTTGTA
ACTACAAAAGTTATGTGTCTATCTAACGAAATGTTTGAACAACGAATGTCTTGTTACAAA
AACCTTTGCCCGCTTTGCTTCCATAAAAATATTATAAGACACAATGGATATCCCGCTGAC
AAAAATGGTGTAGTTCAATATAAGAACTATTTTTATTGGATATGCCCTGAACATCTGGAC
ACCGTGCTCGAATCTCCAGAAGATTTCTTAAATCCCGTAACAATTGAAATACCCGAGATA
CCAACAGTGGTCACAGCCATTAATACTGCTCTAGTTTACGAAAATGGCATATGTATTGTG
ACGTACGCAGAAAATCTTCCATCTCAAAAACTCGTTCGAGGCAAAAACGAATTTGCTGCT
ACATATAAGAAATACACATATTTATTTTGCAGTTCTGGATGTTTGAAGATGTTTTTGGCC
CGTCCTCATTTTTATTATGATATAAAAGTTTTTAAAGACACAAGCGTTTTACCAAAACTC
ACATTAAATAAGTTACCTCATCTCGGTTACCTGGAGCAAACGGTTGCAAGTAGGGTACCA
GTTCCGGATGAAAGATACGACTACCTCTGCCAGTACCACAAACCACTCAGCAAAGTTCCG
GCTTTTCTAAACGTTGTGGACATAGCTGGTCTTGTCAGAGGAGCTGCAGAGGGTCAGGGT
CTGGGAAACGCGTTCTTATCACACATTAAAGCGTGCGACGCCATCTTTAATTTGTGCAGA
GCATTCGATGATGAAAACGTGATTCATGTCGATGGGGAAGTTAACCCGATTCGGGATTTG
GAGACCATTGGAGAAGAACTTCGTCTTAAGGACGAAGAGCAATTGATGCAGAACATCGAG
AAGCTGGATAGAGTAGTTAACCGCGGTGGTGATAAGAAACTTAAACCGGAATATGAAGCC
TTAGCAAAAATCAAAACCATTCTTGTCGAAGAAAAGAAACATATACGTTTCGGGGACTGG
AGTGCTGCTGATATAGAGGTTCTGAATAAATACCTATTCCTGACGTCAAAACCTGCCTTG
TATCTCGTCAATTTGTCAGAGAAAGATTATATAAGGAAAAAGAACAAATGGTTACCAAAA
TTGAAAGAATGGATCGATAAAAACGATCCCGGAGCGCCGCTGATACCATTCTCTGGTGCT
TTAGAAAGCAAGCTGTTGGATATGGAGCCCGATGAAAGGGAGAAGTTCCTTAAGGAAAAC
AATATAACTAGTGCACTGGACAAGATCATTGTCCAAGGCTACAAGTCTCTACAGCTGGAA
TATTTCTTCACAGCTGGTGCAGATGAAGTCAAAGCCTGGACTATTCAGAAAGGCACAAAG
GCCCCTCAAGCGGCTGGTAGGATCCACACTGATTTTGAGAAAGGTTTCATTATGGCCGAG
GTGATGCACTTCAAGGATTTCAAAGAAGAGGGCTCTGAGAGTGCTTGTAAAGCAGCTGGG
AAGTACAGACAACAAGGTCGAAACTACGTTGTTGAAGATGGTGATATAATTTTCTTCAAA
TTCAACGCCGGCGCCGGTTTGAAGGACGCTAAGAAGAAATGA
Protein sequence:
MPPKKVEEPEKKPLIGRVGTNLKVGIVGVPNVGKSTFFNVLTKSQAAAENFPFCTIDPNE
NNVVSYSDVYETFKQKKYDNDEKRSLAAAVLGLGNTDIPLPDKLDYYTGWTDKDAQECYL
LSKPKTYIILGKQGCGSYNLGEAMAKKINCPHLCPKNVLQDEIDQKSSVGKCLDYNMKHN
KVSKSDIILKIIKNKLESPAIKHRGFILSGLPMVTSSLKMQYYSDSLYAEESISVVDDIL
FDVIYNLKRKKRRAKKSSPHSSKSSLNDEGEIEAEEEEQEVEEEQEEANIVVELPKFLLE
PCRDLIFVSRPYYTTKEKILLDQVQDFFGFKPDIVIYISCPNSDVVIKRTHKFLNYSNGS
STFAPFSPNMENDIRWPPHYTMVDYNRGIDKHTFNPKYNCKQPTNFTTNSSEQICNYKKY
VTPLIEEKLKEFDPRYVIKVDGRTPIQQMMNIIMERLLTLPIKPVLLPEPLYIDEPPDEL
EEFWKTVEELNVIRSGSLSFNRYSSPWYNRCPVELRKRRSTQGNPKFAVTFFKHVYLLSS
LDAMVSFCRNPRPYLQLKYLEPTCRMIILGTKSSGKTMIAKCLSWIFTAPVICFESFLKT
EKQRKYDSYAKNIFSEIMATIEDNRFTKWQAKELQRVSDLNTWYNTVSSALSSYIPLLKK
TLEIEGEEGEQARSKRFYTLRNQLSYLPTDNLVELGALLKDKNALLKYAPHHLLMEITKP
KTPVLGDEDVTNEISSYIVTNDLQKDIDPTTEELMNEIIRILKDIDKTSLDDTGLFYGKF
IIDGFPSDPEYWGYLIKAGLLPDYTITIIENREIDADLLQHYINIGKYTKHHQERFLLSS
DVLVKTKLLHDEPPENKYLDMQIIIDNLVLTLFDSESIDDVANKTEKSPDADAITGFTET
MEKFREEWEVSKSKLEENYKCFVETEIEDKSDIDIIDEVLKKIRNCYFNPCVIIEEGLDI
PDDDSEITKDVLTYNEPRFLGETNIYCPLAFYDYGVLWEGKSELATSYDNKTYCFSKEEC
VDIFQRDVKKYLCYNKPYKNDIPLRICVIGNIGSGKTTYSRLIAKELGLFHIDFKDFINK
YLIPKHFKKVGWQYENRFTDAAVGEEEVVELQIDEENLNYISDITFNEQELRRIIYNYIE
HGSPLLSPLLQPLLKKLWNEQPFNNRGVVIDGFPKLPTDVEDMISCFCIPEIVIEIESDS
ETSLNRISPKMFKQWKLQLAEAKLKAKNKLDREKQEWLHFVTKTVVIKLIIDDILGEAVN
EEEPLKISSVESTIFDANPLGSANVDVNLFRTYNELIQEYPEPVDQNVWESADDVLEHIN
NRIESIFEIDDENIQVLKDMLLENKIKIVSVDGKKSKQKIQRKILSKLSNIRNRTPSFLE
QTFIVNCDIAEMLLLEGFFLLSKFYRMCPVFISENPKTKFNPYSLNKRKNKVFPIIHRAY
IYFISSEDNVKKFRRDPLKYINNDQIKSYKEHPLRIGIIGPPKSGKSTVAAKLAKRYGLM
CMSKGMAIRHILENMDWTTLGFKMKKLLKEGKCIDNELIMTAVLTASIDHRTMTNGFVLD
GFPETPFEICQLLKYGLYPLIIFDVKSDEKVILDSSQNEIYPDILKIKPPFSRPFIKKRY
DKWLEKSSTVRNWINRDTQNLYTINGNNSQWHCFLDAYSKIEDINKDIHYYLSHVNTDVV
TTKVMCLSNEMFEQRMSCYKNLCPLCFHKNIIRHNGYPADKNGVVQYKNYFYWICPEHLD
TVLESPEDFLNPVTIEIPEIPTVVTAINTALVYENGICIVTYAENLPSQKLVRGKNEFAA
TYKKYTYLFCSSGCLKMFLARPHFYYDIKVFKDTSVLPKLTLNKLPHLGYLEQTVASRVP
VPDERYDYLCQYHKPLSKVPAFLNVVDIAGLVRGAAEGQGLGNAFLSHIKACDAIFNLCR
AFDDENVIHVDGEVNPIRDLETIGEELRLKDEEQLMQNIEKLDRVVNRGGDKKLKPEYEA
LAKIKTILVEEKKHIRFGDWSAADIEVLNKYLFLTSKPALYLVNLSEKDYIRKKNKWLPK
LKEWIDKNDPGAPLIPFSGALESKLLDMEPDEREKFLKENNITSALDKIIVQGYKSLQLE
YFFTAGADEVKAWTIQKGTKAPQAAGRIHTDFEKGFIMAEVMHFKDFKEEGSESACKAAG
KYRQQGRNYVVEDGDIIFFKFNAGAGLKDAKKK