New model in OGS2.0 | DPOGS212152  |
---|---|
Genomic Position | scaffold378:- 40350-51464 |
See gene structure | |
CDS Length | 3078 |
Paired RNAseq reads   | 139869 |
Single RNAseq reads   | 359906 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006603 (0.0) |
Best Drosophila hit   | calcium ATPase at 60A, isoform F (0.0) |
Best Human hit | sarcoplasmic/endoplasmic reticulum calcium ATPase 2 isoform 2 (0.0) |
Best NR hit (blastp)   | sarco/endoplasmic reticulum calcium ATPase [Bombyx mori] (0.0) |
Best NR hit (blastx)   | sarco/endoplasmic reticulum calcium ATPase [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0005783 endoplasmic reticulum GO:0005388 calcium-transporting ATPase activity GO:0006816 calcium ion transport GO:0005789 endoplasmic reticulum membrane GO:0016529 sarcoplasmic reticulum GO:0016021 integral to membrane GO:0005524 ATP binding GO:0006754 ATP biosynthetic process GO:0005635 nuclear envelope GO:0051282 regulation of sequestering of calcium ion GO:0007274 neuromuscular synaptic transmission GO:0005515 protein binding GO:0005811 lipid particle |
InterPro families    | IPR001757 ATPase, P-type, K/Mg/Cd/Cu/Zn/Na/Ca/Na/H-transporter IPR008250 ATPase, P-type, ATPase-associated domain IPR006068 ATPase, P-type cation-transporter, C-terminal IPR004014 ATPase, P-type cation-transporter, N-terminal IPR005834 Haloacid dehalogenase-like hydrolase IPR005782 ATPase, P-type, calcium-transporting IPR023300 ATPase, P-type, cytoplasmic transduction domain A IPR023298 ATPase, P-type, transmembrane domain IPR023299 ATPase, P-type, cytoplasmic domain N IPR023306 ATPase, cation-transporting, domain N IPR023214 HAD-like domain IPR018303 ATPase, P-type phosphorylation site |
Orthology group | MCL10956 |
Nucleotide sequence:
ATGGAGGACGCTCACACGAAATCCGTGGACGAAGTCTTAGGATATTTTGGTACAGATCCA
GACAAAGGTCTAACTCCAGATCAGATTAAAAGAAACCAGGAGAAATATGGACCAAATGAA
TTGCCCGCAGAGGAAGGAAAAAGTATATGGCAATTAGTTCTCGAACAGTTTGATGACCTT
TTAGTGAAGATTTTGCTGTTAGCCGCTATTATTTCGTTCGTGTTAGCTTTATTTGAAGAA
CACGAAGACGCATTCTCAGCATTCGTAGAACCTTTTGTTATTTTATTAATTCTTATCGCT
AACGCCGTGGTAGGAGTATGGCAGGAAAGGAACGCAGAATCCGCCATCGAAGCTTTAAAA
GAATACGAACCGGAAATGGGAAAAGTTGTAAGAGGCGACAAATCCGGTGTCCAGAAGATC
CGTGCTAAGGAGATCGTCCCCGGTGACATCGTCGAGGTGTCAGTCGGTGACAAAATCCCA
GCTGACATCCGTCTGATCAAGATTTACTCTACAACTATCCGTATCGATCAGTCCATCCTC
ACCGGTGAGTCGGTGTCTGTGATCAAACACACCGACGCCATCCCCGACCCCCGCGCTGTC
AATCAGGACAAGAAAAACATTCTCTTCTCCGGTACCAATGTCGCCGCTGGTAAAGCCCGT
GGAATCGTCATCGGAACTGGTCTCAACACTGCCATCGGTAAGATTCGTACTGAAATGTCC
GAGACTGAGGAGATCAAGACCCCTCTGCAACAAAAACTCGATGAATTCGGTGAGCAGCTC
TCGAAGGTTATCTCCGTCATCTGTGTCGCCGTCTGGGCTATCAACATCGGCCACTTCAAC
GACCCCGCCCACGGCGGAAGCTGGATCAAGGGTGCCGTATACTATTTCAAGATCGCTGTG
GCTTTGGCTGTAGCTGCCATCCCTGAAGGTTTGCCTGCTGTCATCACCACCTGTCTGGCC
CTCGGTACTAGGAGAATGGCTAAGAAGAACGCTATCGTTAGGTCTCTGCCATCAGTTGAG
ACCCTCGGTTGTACCTCAGTTATTTGCTCAGACAAGACCGGAACTCTCACCACCAACCAA
ATGTCCGTCTCTCGCATGTTCATCTTCGAAAAGGTCGAAGGGGGCGACAGCAGCTTCTTG
GAATTCGAAATCACTGGCTCTACATACGAACCCATCGGCGACGTGTACTTGAAGGGACAG
AAAGTAAAGGCCTCCGAATTCGATGCTCTCCATGAACTGGGTACTATTTGCGTTATGTGC
AATGACTCCGCTATCGATTTCAACGAATTCAAACAGGCTTTCGAAAAGGTCGGTGAAGCT
ACTGAAACAGCTCTTATCGTGCTCGCTGAAAAAATGAATCCTTTCAATGTCCCTAAAACT
GGTCTCGATCGCCGCTCATCCGCTATCGTTGTCCGCCAAGAAGTTGAAACCAAATGGAAG
AAAGAGTTCACTCTCGAGTTCTCTCGTGACAGAAAATCTATGTCGACTTACTGCACACCT
CTCAAACCCTCTCGTCTTGGAAACGGACCTAAACTTTTCGTTAAGGGCGCCCCAGAAGGA
GTCTTGGAGCGTTGTACCCACGCTCGTGTTGGAACCGCCAAAGTCCCTCTTAGCTCCACC
CTCAAGAACCGCATTCTCGAACTCACCCGTTCATACGGTACCGGCCGTGACACCCTGCGT
TGCTTAGCTTTGGCCACCGCCGACAACCCCATGAAACCAGATGAGATGGACCTCGGAGAC
TCCACCAAATTCTACACCTACGAAGTTAACCTAACCTTTGTCGGAGTCGTGGGCATGTTG
GACCCTCCACGTAAAGAAGTATTCGATTCTATCGTCCGCTGCCGCGCCGCCGGAATCCGC
GTCATTGTCATCACCGGTGACAACAAGGCCACAGCTGAAGCTATCTGCAGACGTATTGGT
GTATTCAAAGAGGATGAGGACACCACTGGCAAGTCTTACTCTGGACGTGAATTCGACGAT
CTTCCCGTTGCTGAACAACGCCAGGCCTGCGCTAGAGCACGTCTGTTCTCAAGAGTGGAA
CCCGCTCACAAGTCCAAGATCGTTGAATACCTGCAGAGCATGAACGAAATCTCCGCTATG
ACTGGTGATGGTGTCAATGACGCCCCTGCTCTCAAAAAGGCTGAGATCGGTATTGCCATG
GGTTCAGGTACCGCCGTAGCCAAGTCTGCCGCTGAGATGGTGCTCGCCGACGACAACTTC
TCATCCATCGTCGCTGCCGTTGAAGAAGGTCGCGCTATCTACAACAACATGAAACAGTTC
ATCCGCTACCTGATCTCGTCCAACATCGGTGAAGTGGTGTCTATCTTCCTGACGGCCGCT
CTGGGTCTCCCCGAAGCTCTGATCCCCGTCCAACTGTTGTGGGTGAACCTGGTCACTGAC
GGTCTACCCGCCACCGCCCTCGGCTTCAATCCACCCGATCTTGACATTATGGACAAACCA
CCGCGCAAGGCTGACGAGGGTCTCATCTCTGGATGGCTGTTCTTCAGATACATGGCTATC
GGTGGCTACGTGGGTATGGCGACCGTCGGAGCTGCTTCCTGGTGGTTCATGTACTCTCCC
TTCGGACCTCAGATGACCTACTGGCAACTTACACACCACTTGCAATGCATCAACAGCCCC
GAAGACTTCAAGGGTATCGACTGCAAGATCTTCACAGACCCCCACCCCATGACCATGGCT
CTCTCAGTATTGGTAACCATAGAAATGTTGAACGCCATGAACTCGTTGTCTGAGAACCAG
TCGCTGGTCACCATGCCCCCATGGTCCAACATGTGGCTAGTCGGCTCTATGGCGCTGTCT
TTCACACTCCACTTCGTCATTCTGTATGTGGAGGTCCTGTCGGCCGTGTTCCAAGTGACG
CCTCTGTCCGTGGACGAGTGGATGACGGTGATGAAGTTCTCAGTGCCGGTGGTGTTGCTG
GACGAGGTCCTCAAGTTCGTCGCCCGCAAGATCTCCGACGGTGAGACCCGCTCTGTGCTT
GACTGGATGCGAGGCATGCAGTGGATTGTGCTCGCGTGGGCGGTTTTCTTTGCCCTCATC
GTGTACGGACCGCTTTAA
Protein sequence:
MEDAHTKSVDEVLGYFGTDPDKGLTPDQIKRNQEKYGPNELPAEEGKSIWQLVLEQFDDL
LVKILLLAAIISFVLALFEEHEDAFSAFVEPFVILLILIANAVVGVWQERNAESAIEALK
EYEPEMGKVVRGDKSGVQKIRAKEIVPGDIVEVSVGDKIPADIRLIKIYSTTIRIDQSIL
TGESVSVIKHTDAIPDPRAVNQDKKNILFSGTNVAAGKARGIVIGTGLNTAIGKIRTEMS
ETEEIKTPLQQKLDEFGEQLSKVISVICVAVWAINIGHFNDPAHGGSWIKGAVYYFKIAV
ALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQ
MSVSRMFIFEKVEGGDSSFLEFEITGSTYEPIGDVYLKGQKVKASEFDALHELGTICVMC
NDSAIDFNEFKQAFEKVGEATETALIVLAEKMNPFNVPKTGLDRRSSAIVVRQEVETKWK
KEFTLEFSRDRKSMSTYCTPLKPSRLGNGPKLFVKGAPEGVLERCTHARVGTAKVPLSST
LKNRILELTRSYGTGRDTLRCLALATADNPMKPDEMDLGDSTKFYTYEVNLTFVGVVGML
DPPRKEVFDSIVRCRAAGIRVIVITGDNKATAEAICRRIGVFKEDEDTTGKSYSGREFDD
LPVAEQRQACARARLFSRVEPAHKSKIVEYLQSMNEISAMTGDGVNDAPALKKAEIGIAM
GSGTAVAKSAAEMVLADDNFSSIVAAVEEGRAIYNNMKQFIRYLISSNIGEVVSIFLTAA
LGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDKPPRKADEGLISGWLFFRYMAI
GGYVGMATVGAASWWFMYSPFGPQMTYWQLTHHLQCINSPEDFKGIDCKIFTDPHPMTMA
LSVLVTIEMLNAMNSLSENQSLVTMPPWSNMWLVGSMALSFTLHFVILYVEVLSAVFQVT
PLSVDEWMTVMKFSVPVVLLDEVLKFVARKISDGETRSVLDWMRGMQWIVLAWAVFFALI
VYGPL