New model in OGS2.0 | DPOGS202176  |
---|---|
Genomic Position | scaffold669:- 41519-51230 |
See gene structure | |
CDS Length | 3165 |
Paired RNAseq reads   | 1899 |
Single RNAseq reads   | 4380 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003317 (0.0) |
Best Drosophila hit   | CG31729, isoform A (0.0) |
Best Human hit | probable phospholipid-transporting ATPase IIB (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to cation-transporting atpase [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG31729-PB, isoform B [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0006812 cation transport GO:0015662 ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism GO:0000287 magnesium ion binding GO:0016021 integral to membrane GO:0015914 phospholipid transport GO:0004012 phospholipid-translocating ATPase activity GO:0006754 ATP biosynthetic process GO:0005524 ATP binding |
InterPro families    | IPR023214 HAD-like domain IPR023306 ATPase, cation-transporting, domain N IPR006539 ATPase, P-type, phospholipid-translocating, flippase IPR001757 ATPase, P-type, K/Mg/Cd/Cu/Zn/Na/Ca/Na/H-transporter IPR008250 ATPase, P-type, ATPase-associated domain IPR005834 Haloacid dehalogenase-like hydrolase IPR018303 ATPase, P-type phosphorylation site IPR023300 ATPase, P-type, cytoplasmic transduction domain A IPR023299 ATPase, P-type, cytoplasmic domain N |
Orthology group | MCL11689 |
Nucleotide sequence:
ATGGAAACCACACCATTACTAGCACGTCCAAAAAAGAAATCGCTGTGGTCGAGGCTCAAG
TTGATGTTTTTTAAGCAACGAGAACTATGTTCTAGAGTAATATTTTTGGGTCAGCTTCCG
GAAGAGGAGTATCCACCAAACTATGTTTGTAATCAGAAATACAACCTCATCACATTCCTG
CCGCTGGTGCTGTTTGAGCAGTTCAGGTTTTTTCTTAACCTGTACTTCTTGGTGATGGCT
TTAAGTCAGTTCATTCCGAGCATAAGAATTGGTTACTTGTACACATACTGGGGACCACTA
TGTTTTGTGCTGGCTGTCACGCTATTTAGGGAAGCCATTGATGACTTCAGAAGATACAGG
CGAGATAAGGAAGTGAATCGTCAATGCTATGAACGTATAGTGCTAGACTCATCCATCCAT
GGTTACCGTCCGTTCATCACGGAAAATGTTCCGGCCTCATCCCTCCGAGTCGGAGATATT
GTGATGTTGCACAAAGGACAGCGGGTGCCCGCTGATATGATATTGTTAAGGACTAATGAA
ACAATGGGCACTGTGTTTATACGGACGGATCAGTTGGACGGTGAAATCGATTGGAAGTTA
AGGATACCTCTGCCGTCGACCCAGAAACTGCAGACGGACGCTCATCTATTGGATATAAAC
GCGAAACTGTTCGTAGATAAGCCAGAAAAGGACATACATTCGTTCATAGGCACCTGTACG
AGAATGGACGAAGAGGAGTGCGATTCCTTGGACATAGAGAACACGTTGTGGAGCGGATGT
GTTGTCGCGTCGGGGCAAGCAACGGGCTTAGTTATATATACAGGCTGTGAAACTCGAAGC
GTGATGAATAATGCAACTCCAAGGTCCAAACTGGGACGTCTCGATTTACGTATAAACGAC
TTCACCAAAGTGTTATTCGGAGCGACCTTCTTCACGTCGCTACTCCTCATCATACTCAAG
GGCTTCGAGGGTCCGTGGTACGGGTTTCTGTTCCGATTCGTCCTTCTCTTCTCCTACATC
ATCCCCATAAGTCTCCGAGTCAATCTGGATATGGGGAAGGCCTTCTACTCGTGGGCCATT
CAGCGGGACAAGCAGATGCCGGGTACCGTGATGCGCTCCACCACCATACCTGAAGAGTTG
GGGCGCATCCAGTACCTGCTGGCCGACAAGACCGGAACACTCACCAAGAATGAGATGTTC
TTCCAGAAACTGCATCTAGGGAACGCGATGTTCGATAAGAATAATTTCTATGAGGTGGAA
GCCCTGCTGACACAATACATAACGAACGACGCGTCTTCTCTACCAACTTCGCCGGTATCG
GGGGCCGAAGTCCTAACGCCAACTCCGCGGCAGGTGTGGGAAGCCGTGCTGGCGTTGGCG
TTGTGTCATAACGTCACGCCCGTCTATGAAGTTGATGACACGCGAGCTGACGAAGCACAG
TCCGATATGGGTAGTTCTGTGATGTCGGAGAGCTGTGGAGGTGCTGTGCCCCAGCAGCAG
CTGTGCGACTACCAGGCGGCCAGCCCCGACGAGGTGGCTCTCGTTAAATGGACGGACATG
ATGGGCGTATCGTTATACCGGCGTGATCTGCACAACATCGCGTTGAAGCTGCGCGCCGCC
AACGAGGTGTTGCAGTTCAACATACTGCAAGTGTTTCCCTTCACCAGCGAGTCCAAGATG
ATGGGTATCATAGTTCAGGAGGAGAACACGCAAGCTATAACATACTACGTGAAAGGCGCT
GACGTGGCCCTGTCCAAGTTGCTGCAGTCCGCGTGGCTGCCGGCGGAGTGTTCCAAGTTG
GCGGCCGAGGGTCTACGGACACTTGTCATCGCTAAGAAGACTCTCACCAAGAACGAGTAC
TTGGAGTTTGAGAGCGAGTACAAGGAGGCTCGCTTGAGCGTTACTGGGCGCACGGAGCGA
ACTGCGGCCTGTCTGGCGAAATTGCACCGCGGACTGGCGCTGCTGGCCCTCACCGGGGTG
GAGGACAGGCTGGCCGACAGGGTGCCCGCCACGCTCGCCATGCTCAGGACGGCTGGGGTT
AAGATCTGGATGCTGACTGGTGACAAGTTAGAGACGGCGCTGTGTATCGCAAGGTCGCTG
CATCTCGGAGGCAGCGGGGAGTGGCGCGTGGCTCCTGACTGCAGCTCGAGGAGGGACGCG
TACGCTCTTATAGATTCACTGGCCAACACTGACTGCGCAGACCTCATTATAGAAGGAGAA
ACCTTGGAGGTCTGTCTCCGAGCGTACGAGGAGGAGATGGTAGAGCTCTTACAGAAGTGT
ACCGGAGTGGTGGTGGCGCGCTGTTCCCCCACACAGAAGGCGAGGGTCGCGCGACTGTTG
AGGGAGAGAGATCTGGTGGTGGCGGCGGTGGGGGACGGTGGTAACGACATCTCCATGATA
CAAGAGGCTGATGTGGGTATAGGAATCGAGGGTATAGAAGGACGTGCGGCGTCTCTGGCG
GGGGACGTGAGCGTCCGGGAGTTCGCCCACGTCGCACGCCTGCTGTTGCTGCACGGTAGA
CGGTCGCTCATGCGCTCGGCCGCTCTCTGTCTGTTCATTGTTCACCGAGGGCTGGTCGTG
TCCACTATGCAGGCCGTGTTCTCCGTAGTGTTCTACTTCTCCTCCGTGTCTCTGTACCCC
GGATTCCTGATGGTCGGTTACGGAACCGTTTTCACAATGTTGCCCGTGTTCTCGTTGGTG
CTGGACAAGGACATATCTAGCACCACGGCGCTCCGTTATCCGCAGCTATACAAGCAGCTG
ACCAAAGGCAGGCAGCTGTCATACAAAACTTTCTACATCTGGATCGGAATATCTATTTAT
CAAGGCGGTGTGATAATGTACGGGGCGCTGGTCCTGTTCGAGGAGCAGCTGATACATATA
GTGGAGATCAGTTACACGGCGCTCATCCTCACCGAGCTGCTGATGGTGGCGCTGACCGTG
GACACATGGCACCGCCTCATGGTGCTGGCCGAGCTGGTCAGCCTGCTCATGTACACCGCC
ACGCTGCTCATATTCACTTCGTACTTCGACGCCGACTTCATCCGTCACTGGGAGTTCTGG
TGGAAGGTGACCACTATCACGCTGGTGTCCTGTCTGCCGCTGTACATCGTGAAACACATG
CACAGGAAGTGGAACGAACGCCAGTACAAAAATATACGGAAATAA
Protein sequence:
METTPLLARPKKKSLWSRLKLMFFKQRELCSRVIFLGQLPEEEYPPNYVCNQKYNLITFL
PLVLFEQFRFFLNLYFLVMALSQFIPSIRIGYLYTYWGPLCFVLAVTLFREAIDDFRRYR
RDKEVNRQCYERIVLDSSIHGYRPFITENVPASSLRVGDIVMLHKGQRVPADMILLRTNE
TMGTVFIRTDQLDGEIDWKLRIPLPSTQKLQTDAHLLDINAKLFVDKPEKDIHSFIGTCT
RMDEEECDSLDIENTLWSGCVVASGQATGLVIYTGCETRSVMNNATPRSKLGRLDLRIND
FTKVLFGATFFTSLLLIILKGFEGPWYGFLFRFVLLFSYIIPISLRVNLDMGKAFYSWAI
QRDKQMPGTVMRSTTIPEELGRIQYLLADKTGTLTKNEMFFQKLHLGNAMFDKNNFYEVE
ALLTQYITNDASSLPTSPVSGAEVLTPTPRQVWEAVLALALCHNVTPVYEVDDTRADEAQ
SDMGSSVMSESCGGAVPQQQLCDYQAASPDEVALVKWTDMMGVSLYRRDLHNIALKLRAA
NEVLQFNILQVFPFTSESKMMGIIVQEENTQAITYYVKGADVALSKLLQSAWLPAECSKL
AAEGLRTLVIAKKTLTKNEYLEFESEYKEARLSVTGRTERTAACLAKLHRGLALLALTGV
EDRLADRVPATLAMLRTAGVKIWMLTGDKLETALCIARSLHLGGSGEWRVAPDCSSRRDA
YALIDSLANTDCADLIIEGETLEVCLRAYEEEMVELLQKCTGVVVARCSPTQKARVARLL
RERDLVVAAVGDGGNDISMIQEADVGIGIEGIEGRAASLAGDVSVREFAHVARLLLLHGR
RSLMRSAALCLFIVHRGLVVSTMQAVFSVVFYFSSVSLYPGFLMVGYGTVFTMLPVFSLV
LDKDISSTTALRYPQLYKQLTKGRQLSYKTFYIWIGISIYQGGVIMYGALVLFEEQLIHI
VEISYTALILTELLMVALTVDTWHRLMVLAELVSLLMYTATLLIFTSYFDADFIRHWEFW
WKVTTITLVSCLPLYIVKHMHRKWNERQYKNIRK