| New model in OGS2.0 | DPOGS216181 |
|---|---|
| Genomic Position | scaffold1974:+ 12435-27602 |
| See gene structure | |
| CDS Length | 3324 |
| Paired RNAseq reads | 17694 |
| Single RNAseq reads | 42161 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004534 (0.0) |
| Best Drosophila hit | plasma membrane calcium ATPase, isoform M (0.0) |
| Best Human hit | plasma membrane calcium-transporting ATPase 3 isoform 3b (0.0) |
| Best NR hit (blastp) | GL18149 [Drosophila persimilis] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC001467 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0005388 calcium-transporting ATPase activity GO:0005886 plasma membrane GO:0006754 ATP biosynthetic process GO:0006816 calcium ion transport GO:0005524 ATP binding GO:0006874 cellular calcium ion homeostasis |
| InterPro families | IPR018303 ATPase, P-type phosphorylation site IPR023300 ATPase, P-type, cytoplasmic transduction domain A IPR023299 ATPase, P-type, cytoplasmic domain N IPR023298 ATPase, P-type, transmembrane domain IPR001757 ATPase, P-type, K/Mg/Cd/Cu/Zn/Na/Ca/Na/H-transporter IPR004014 ATPase, P-type cation-transporter, N-terminal IPR006408 ATPase, P-type, calcium-transporting, PMCA-type IPR008250 ATPase, P-type, ATPase-associated domain IPR006068 ATPase, P-type cation-transporter, C-terminal IPR022141 Plasma membrane calcium transporter ATPase C-terminal IPR005834 Haloacid dehalogenase-like hydrolase IPR023214 HAD-like domain |
| Orthology group | MCL10619 |
Nucleotide sequence:
ATGAAATATCGCAGAATACATGAAATAACGGAGGTATGGCGTCTTAGCGGGTCGAAAGCG
GATCTGCAGCACAGGCGAGAAGTGTTCGGTTCCAACCTCATCCCTCCGAAACCTCCGAAG
ACCTTCCTAACCTTGGTATGGGAGGCCTTGCAGGACGTCACGCTCATCATATTGGAAGTG
GCCGCTGTTGTGTCCCTTGGCCTGAGTTTTTACAAACCGTCCGAAGACGAAAGCGATATC
GCACATCTGGACGAAGAAGAAGGACATTATCAATGGATCGAGGGTCTGGCTATTTTAATA
TCTGTCATAGTTGTCGTTATAGTCACCGCGTTCAATGATTACACGAAAGAGAGGCAATTC
AGAGGGCTGCAGTCAAGGATAGAAGGCGAGCACAAGTTTGCTGTTATACGCGGCGGCGAG
GTCAATCAGGTGCCGATAAGTGAGATCGTTGTGGGCGATATATGCCAGATCAAGTACGGC
GACCTGCTGCCTACTGACGGTGTACTGCTACAGAGTAACGACCTGAAGATCGACGAGTCA
TCTCTGACGGGTGAATCGGACCATGTTAAGAAGGGAGAATCTTTTGATCCCATGGTGCTA
TCTGGTACACACGTTATGGAAGGCTCCGGTAAGATGTTAGTGACAGCTGTCGGTGTGAAC
TCTCAAGCTGGTATCATCCTCACGCTCCTTGGTGCAGCCGAGACGAAGGAGAAACAACAG
AAGAAAGAGTCTAAAAAACAACAAAGGAAAGAGCCACGCAAGAGTATCCCAGGGGATGAA
GAACCGGCATCAGGTAACAGCCACAACCACGCGAGGGTTGATGACAACCACGTGCCACCA
GCTGACAAACCAGCACCCGAGAGCTCTCACAAGAAGGAGAAATCTGTACTGCAAGCTAAA
CTAACCAAGCTCGCTATCCAGATCGGTTACGCGGGTTCAACGATAGCTGTGCTAACAGTG
ATCATCCTAGTGATTCAGTTCTGTGTCCAAACGTTTGTGATAGAAGGCAGAGAGTGGAAG
GCCACTTACATCAACAACCTGGTTAAGCATCTTATTATTGGTGTCACTGTACTCGTGGTT
GCCGTGCCTGAAGGGTTGCCGTTGGCTGTCACTCTGTCGCTCGCTTATTCCGTTAAGAAA
ATGATGAAAGACAACAACTTGGTTCGACACTTGGACGCCTGTGAGACGATGGGTAACGCC
ACTGCCATTTGTTCCGATAAGACTGGTACATTAACCACAAACCGTATGACAGTCGTACAA
TCGTATATATGTGAGAAGTTATGCAAGGTCACGCCGAATTATAGAGACATACCGCAAGAC
GTCGCCGAAACTATGATAGAGGGTATATCCGTTAATAGCGCTTTCACTTCTAGAGTTCTT
CCATCCTTAGAGCCGGGCGGTCCGCCAACTCAAGTGGGCAATAAAACTGAATGCGCTTTA
TTGGGCTTCGTCGTAGGACTCGGCCAGAGCTACGAAACCGTCAGGGAGAGACATCCCGAA
GAATCCTTTACCAGAGTATACACCTTCAATTCCGTTCGCAAAAGCATGTCCACTGTCATA
CCCTACAAGGGAGGTTACAGGTTGTACACCAAGGGTGCTTCGGAAATCGTCTTAAAGAAA
TGTTCATTCATCTATGGTCATGAAGGTAGACTTGAAAAGTTCACCCGCGATATGCAGGAC
CGTTTGGTGAGACAGGTCATTGAACCCATGGCGTGCGACGGTCTAAGGACAATCTCCGTC
GCATACAGAGACTTTGTTCCGGGGAAAGCTGATATTAACCAGGTACACATAGACCAAGAG
CCTAATTGGGACGATGAAGATAATATCGTTAACAACTTGACCTGTCTTTGTGTCGTCGGT
ATTGAAGACCCTGTGAGACCAGAGGTACCCGAGGCTATCAAGAAGTGTCAGAAGGCTGGT
ATCACTGTAAGAATGGTGACTGGTGATAATGTCAACACTGCTAGGTCTATAGCCATTAAG
TGTGGAATATTGAAGCCCACTGACGATTTCCTCATACTTGAGGGCAAGGAGTTCAACAGG
CGGATCAGGGATGCCAATGGAGAGGTCCAACAACACTTGGTGGACAAAGTATGGCCGAAG
CTTCGCGTTTTGGCTCGATCGTCCCCAACCGACAAATACACACTGGTTAAAGGAATGATA
GAGTCTAAGGCTTTCGACACACGGGAGGTGGTGGCCGTCACCGGGGACGGTACCAACGAC
GGACCGGCTCTGAAGAAGGCTGATGTTGGTTTTGCCATGGGTATCGCTGGGACGGATGTA
GCCAAAGAGGCGTCCGACATCATCCTGACAGACGACAACTTCTCGTCTATAGTGAAGGCC
GTGATGTGGGGGCGTAACGTTTACGATTCCATCGCCAAATTCTTGCAATTCCAATTGACT
GTTAACGTTGTTGCCGTTATTGTTGCGTTCATAGGAGCCTGCGCTATTCAGGACAGTCCT
CTTAAGGCTGTCCAAATGTTATGGGTGAATCTGATCATGGACACGTTAGCGTCTCTCGCC
CTGGCCACGGAACTGCCGACCCCTGACCTGCTACAACGGAAGCCGTACGGAAGAACCAAA
CCCCTCATCAGCCGCACCATGATGAAGAACATCCTCGGACAGGCTGTGTATCAGCTCTTC
ATTATATTCACACTACTATTCGTGGGCGATCGGCTTCTCAACATCCCGTCTGGTCGCGGT
CAGCAGCTGGGCGCCGAACCCTCGGCTCACTTCACGATAATCTTCAACACTTTCGTCATG
ATGACTCTCTTTAACGAGATCAACGCCCGCAAGATACACGGACAACGCAACGTATTCCAA
GGACTGTTCACCAACCCCATCTTCTACTCCATATGGATAGGAACCGCGCTATCCCAAGTT
GTCATCATCCAATTCGGCGGCATGGCATTCAGTACAGCAGGTCTCACGATAGACCAGTGG
TTGTGGTGTCTGTTCTTCGGGGCTGGTACCCTAGTGTGGGCACAACTCGTAACCACCATA
CCTACCAGGAAGATACCCAAGAAACTATCCTGGGGCCGCGGACAACCGGATGCGGAAACG
CTGCCCACAGGTCCCGACTACGATTCCGACCTCGATAAGAAGCCTCGCGCCGGCCAGATA
CTGTGGATAAGGGGTCTCACGCGCCTGCAGACGCAGCTGCGCGTGGTGCGCGCGTTCAAG
TCGACGCTGGAAGACTTGGAGGAACGTCTATCGGCTCACTCGGCAGCCGGCCTCCGCTCC
CGGCTGCGAGCCCCCCTCCAGGACATCGCGTACATCGACGACGACGCCGCGCCGGCGCCA
CGCACCGAGACCACCATATTCTAA
Protein sequence:
MKYRRIHEITEVWRLSGSKADLQHRREVFGSNLIPPKPPKTFLTLVWEALQDVTLIILEV
AAVVSLGLSFYKPSEDESDIAHLDEEEGHYQWIEGLAILISVIVVVIVTAFNDYTKERQF
RGLQSRIEGEHKFAVIRGGEVNQVPISEIVVGDICQIKYGDLLPTDGVLLQSNDLKIDES
SLTGESDHVKKGESFDPMVLSGTHVMEGSGKMLVTAVGVNSQAGIILTLLGAAETKEKQQ
KKESKKQQRKEPRKSIPGDEEPASGNSHNHARVDDNHVPPADKPAPESSHKKEKSVLQAK
LTKLAIQIGYAGSTIAVLTVIILVIQFCVQTFVIEGREWKATYINNLVKHLIIGVTVLVV
AVPEGLPLAVTLSLAYSVKKMMKDNNLVRHLDACETMGNATAICSDKTGTLTTNRMTVVQ
SYICEKLCKVTPNYRDIPQDVAETMIEGISVNSAFTSRVLPSLEPGGPPTQVGNKTECAL
LGFVVGLGQSYETVRERHPEESFTRVYTFNSVRKSMSTVIPYKGGYRLYTKGASEIVLKK
CSFIYGHEGRLEKFTRDMQDRLVRQVIEPMACDGLRTISVAYRDFVPGKADINQVHIDQE
PNWDDEDNIVNNLTCLCVVGIEDPVRPEVPEAIKKCQKAGITVRMVTGDNVNTARSIAIK
CGILKPTDDFLILEGKEFNRRIRDANGEVQQHLVDKVWPKLRVLARSSPTDKYTLVKGMI
ESKAFDTREVVAVTGDGTNDGPALKKADVGFAMGIAGTDVAKEASDIILTDDNFSSIVKA
VMWGRNVYDSIAKFLQFQLTVNVVAVIVAFIGACAIQDSPLKAVQMLWVNLIMDTLASLA
LATELPTPDLLQRKPYGRTKPLISRTMMKNILGQAVYQLFIIFTLLFVGDRLLNIPSGRG
QQLGAEPSAHFTIIFNTFVMMTLFNEINARKIHGQRNVFQGLFTNPIFYSIWIGTALSQV
VIIQFGGMAFSTAGLTIDQWLWCLFFGAGTLVWAQLVTTIPTRKIPKKLSWGRGQPDAET
LPTGPDYDSDLDKKPRAGQILWIRGLTRLQTQLRVVRAFKSTLEDLEERLSAHSAAGLRS
RLRAPLQDIAYIDDDAAPAPRTETTIF