New model in OGS2.0 | DPOGS200289  |
---|---|
Genomic Position | scaffold640:+ 41243-54467 |
See gene structure | |
CDS Length | 3885 |
Paired RNAseq reads   | 653 |
Single RNAseq reads   | 1869 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005562 (0.0) |
Best Drosophila hit   | lethal (2) k05819, isoform A (2e-152) |
Best Human hit | hypothetical protein LOC9772 (8e-89) |
Best NR hit (blastp)   | putative lethal (2) k05819 CG3054 [Heliconius melpomene] (0.0) |
Best NR hit (blastx)   | putative lethal (2) k05819 CG3054 [Heliconius melpomene] (0.0) |
GeneOntology terms    | GO:0015662 ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism GO:0006754 ATP biosynthetic process GO:0006812 cation transport GO:0016020 membrane |
InterPro families   | ND |
Orthology group | MCL12101 |
Nucleotide sequence:
ATGGATGAGAAATGTCAACAAGCAATAGGATATTCCACTAAAACAGCTCTCTTAAAATTA
AGAGATGATATTCGGAATGTCATTGATGAATATAAACATAAAAATCGCATGAGGCTCGGG
ATTATACGCAAGATAATATCATTTAATTCAGAAAAAGTATTGTTATCTGGAGTTGCCTAC
ACAGTCACCATAATTAATATTGTATGTTTGCTGTTAACTTATCTAATAGGAGAGACTGTC
CTTCCTCAAGGATACTTACTTTGGGAAGCCTTATTTTTATTCATTATTTTGATAGTCAAC
TTTTTGGTTGCACTTAATGAAGAATACTTGTATCAAAATGAAATACCACATAGAGTGAAG
AAGGTTTTAGAAACACTAGACTCAGCGATTGAGAAGTGTTATTGGAAGGAGATCCATTAT
CCCCATCTATGTGCACCATTTTCACCATGTGTTATACTGCAATGGACTTACAGAGATGGT
ACTATTGTAAATTTACCATGGGCTTTATTAGTGGAAGGTGATATCATAGTTCTTCGACCT
GGACAGGAGGTCCCGGGTCATGTCCAAGGACTAAGCCCAGGTGACCCGGAGTTATTTTTT
GGTCAAATTTTTCAATCTGACTCAAAGTTTACTAAAGAGAACTGCAGTGCTCCTAGAGTG
TGTACCCCTCACCCTAACAAAGAGTACAGAATGTGTGAGACGCCCTACCTAAAGAACCTC
AGACTGGCACTCGATGAAGCTACCAACAGACCCGTCACAGTCTATGAAAAACAAAGGTAC
TTGTGTACAGTTAAAATTATGGAAGGCATCGTAATGCCTGTGGTTATCATACTTATGGTG
GTTGGTTGTATCATTAGACATCTATATGATCTGCCGGGCACCACACATTGGACGGAAGTG
TACTTACTACAGACGATTGCTGCTTCTCTGCCGCTGCTGCAAATAATATTCCCTATTATA
TGGGTCACACTTAATTGTTACGGACTCGCCACCTTCAAACATCTATCTATGACTCGCCCG
AAGTACTCTAGACCTAAGTCCTGCTCTATATCGGAAGACGCAAGCGATCCACTCATACAA
GTATTGAGCGATCCGAACCTAAGACCTAAGAGCTTCCATGCTTTGGCGAAAACCTTCTGG
AATATTCTCATTGGCAAGGAGGACATGGTCACACGAACTTCAAACATAGTCCATGTCTTA
GGATCGCTTTCGGCTCTATGCTGCGTAGACAAGAAAGGCATACTGTCATGGCCGAATCCA
ACAGCAGAAAAAGTATTCTTCCTTCGTAACTCCAGTCCCACGTCGCAGAACTCCAGCAAG
ACCAGTCTAGTGGGGTCTATGGGACATCACAGCGAAACTACCTTGGACCAGACTGGAGAC
AGCAAACAGAACACCGAACCGTCCACCGTTGTTGAGGTCCTGGACTTGACCCACGACCAG
AACGCGCCGTTCCGTGTAGAGTTCGACGAACAGCGTTGGCGGACACACCTCGCTCGCCTC
AAGCCTCTGGGTCTTGCAGCTCTCCTCAACACCTGTGCCGCACAACCGACGCACACATAC
GCACACTTCTGTGCACATCTCACATGCGAGGCACAGCACAGTGAGGATTTAGTTCCAGTC
ACCAACAGAAGATGTCTCTGTGAGTTGGCGAAGCAAATAGGATTCACGGACTCGGTCACT
GACTCCTACAGTATACAGGAGTGTTTGGCCGTTTTTAGACATTTGCAAGCGGATACAATA
AGACGTGAAACTCGATTCGTTCGTTCCCTCCACCTCAGTACACGTGTGAAGGTTCCTCTG
CCACACATGCTGGCGGTCATCGTTAAAGATCACGCGAATCAACTACAGATGCTGTCACAG
GGTACGGCTGATATAATATTGGATTCGTGCGTAGACTTCTGGAACGGTCGCGACCTGACG
ACCATAACGCCCTCCGATAGGAAGAAGATAATAGATTTCTACCAACGGAACTCTCTCACG
GCGTACTGCACCGCATTTGCTTATAAACCGCTCACCCGCGGCGTGGCTCCGTGCGTGTCC
CGTCAGTACCTGGAGCTGCCCGCTGACAGCCGGCCGTTGTACGCTCACTGCCAGCTGTGG
CCGGACGCGCCCGCGTTACACTTCCACTCTACAGACTCTTTGTTGTTCAACGAAGTGACG
GATGACGACGTCGATGATGCTGACGGATATTTTGACATGCAATGTAATCAGGTTTTCATT
GGTATGGTGACGATGCAGTACCAGGCTCAGAGCGATATGGTGGAACTGATAGAGCGTTTG
GAGCGAGCCTGCATACGATTTGTGCACTTCAGTAAGGAGAACGAGCTCAGATCGAGGGTT
TTCAGCGAGAAGATGGGCCTAGAGTCTGGTTGGAACTGCCATATATCACTTATGAATGAT
CAGAAACATAGCGCGGCCGGGTCTCCGCTATGCTCTGAGACACAGCGCTCCAACGCCCAC
GCTAGGAACGAACTCACTGACGCCTTAATATATAGCGGGAATATGGCGGCGTCGAAGTCT
TTGTCGATGTCCGCGCCCGGGGCCATCAACGTTGAACACAGTACAGTTAAATTTGACGAC
GAAATAAAAAAAACACGTCATTCTATAACAGCACACAGCGGACTAAAGGAGGTTCAGCTG
AGCAACGCCAGCCAGGCGTCGACGGACTCCCTGCTGGGGTCTCCGGCGGACGGCTGCCGG
TCCCTCTCCTGCCTCACAGACTCCACCGACCACAGCGCGCCGCTCAACTTCGACATGAGC
AACCGGGATTACGGTGAAGTAGTTTGCGTAATGGGTTCAGCGGCCAACTGTCAAAATATG
GAGATTTTCATGCAGGCGGATGCTAGTATCGCTCTAGAACCGCTGTATCCTGTTCTGTGC
CAAAAAATGCCTCCCTATGAAGTCCCAGACGACTGCATCGGACCCATCGACCTGGCGAAC
GTACTGAACTCTGTGCCGTGCTCGCTGTCGATGTCGCGCGAGGCGGACGTGTCGCTGTTC
GCTCTCATCGCGATGTCGCGTCACTTCATGATGTGTCTATGGAACAGCACGCAGTTCTCT
ATTTGCAGTTCCTGCTTCATATCTTTTATACAGGTGTGTTCCGCGCTAGTGTGTCTCCCC
GGTTGCGTGTCGGCTGGTGGTTGCCTATGGTCGGTGTGTGCGTCGGCGCTCCTGGCCGCA
TCATTATCTGGAGCCCCGGCCTCCCTCGCCGCGCCTCTCATGCTGCGAGCCGCCACTAGA
CCTGCTCTCGTACTAAACGCCAGAACGGCGCTGTTCGTTTTCTGGTTCTACGCGTGCAAG
TTCTTACCCGCCGCTGTGTCTATATTGATGTTACACGCTTTGACATTGAGGAGTTTCTGC
GACCAGATAGCCGATCACACCCAGACGACGTCCTGTTGGATCGTGTACCCGGTTAACATC
GGAAACTATACGGCCGACCGCGACCTGTCTGAGAAGAGCTGGCAGGGGTGGGGGGACGAC
TTCTACGACGGGTTCTATCTAGCACGACATATAACGCTCGCTTTGATTATTTTGCATTTA
ATCGTCATATCCATATCATTTGTACACCGACAACACTCGATCTGGCAGCGAGGTTTCTGG
ACGAACAGAGTCTGGTGTATAACCGTCGTTGTGCTGATCCTGACACAGTGTGTGTTCAGC
GGCGCGCTGTTGCGAGCGTCGTATGTAGACTGCGAGGCGTGGTCGATGTGTTCGTTCCGC
TACCACGTGCCGTGGCCGTTACTCGTCGGTTACGGAACCTCACTGGTTTTTGTATTCGGC
CTCAACGAACTCATTAAATGGCAGGAGATGAAAGTCGACGCGCGAAACCAGAGACGCGCC
AGATTGGATTTTGGAACAAAACTGGGGATGAATTCTCCATTTTAA
Protein sequence:
MDEKCQQAIGYSTKTALLKLRDDIRNVIDEYKHKNRMRLGIIRKIISFNSEKVLLSGVAY
TVTIINIVCLLLTYLIGETVLPQGYLLWEALFLFIILIVNFLVALNEEYLYQNEIPHRVK
KVLETLDSAIEKCYWKEIHYPHLCAPFSPCVILQWTYRDGTIVNLPWALLVEGDIIVLRP
GQEVPGHVQGLSPGDPELFFGQIFQSDSKFTKENCSAPRVCTPHPNKEYRMCETPYLKNL
RLALDEATNRPVTVYEKQRYLCTVKIMEGIVMPVVIILMVVGCIIRHLYDLPGTTHWTEV
YLLQTIAASLPLLQIIFPIIWVTLNCYGLATFKHLSMTRPKYSRPKSCSISEDASDPLIQ
VLSDPNLRPKSFHALAKTFWNILIGKEDMVTRTSNIVHVLGSLSALCCVDKKGILSWPNP
TAEKVFFLRNSSPTSQNSSKTSLVGSMGHHSETTLDQTGDSKQNTEPSTVVEVLDLTHDQ
NAPFRVEFDEQRWRTHLARLKPLGLAALLNTCAAQPTHTYAHFCAHLTCEAQHSEDLVPV
TNRRCLCELAKQIGFTDSVTDSYSIQECLAVFRHLQADTIRRETRFVRSLHLSTRVKVPL
PHMLAVIVKDHANQLQMLSQGTADIILDSCVDFWNGRDLTTITPSDRKKIIDFYQRNSLT
AYCTAFAYKPLTRGVAPCVSRQYLELPADSRPLYAHCQLWPDAPALHFHSTDSLLFNEVT
DDDVDDADGYFDMQCNQVFIGMVTMQYQAQSDMVELIERLERACIRFVHFSKENELRSRV
FSEKMGLESGWNCHISLMNDQKHSAAGSPLCSETQRSNAHARNELTDALIYSGNMAASKS
LSMSAPGAINVEHSTVKFDDEIKKTRHSITAHSGLKEVQLSNASQASTDSLLGSPADGCR
SLSCLTDSTDHSAPLNFDMSNRDYGEVVCVMGSAANCQNMEIFMQADASIALEPLYPVLC
QKMPPYEVPDDCIGPIDLANVLNSVPCSLSMSREADVSLFALIAMSRHFMMCLWNSTQFS
ICSSCFISFIQVCSALVCLPGCVSAGGCLWSVCASALLAASLSGAPASLAAPLMLRAATR
PALVLNARTALFVFWFYACKFLPAAVSILMLHALTLRSFCDQIADHTQTTSCWIVYPVNI
GNYTADRDLSEKSWQGWGDDFYDGFYLARHITLALIILHLIVISISFVHRQHSIWQRGFW
TNRVWCITVVVLILTQCVFSGALLRASYVDCEAWSMCSFRYHVPWPLLVGYGTSLVFVFG
LNELIKWQEMKVDARNQRRARLDFGTKLGMNSPF