| Entry |
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| Symbol |
ATP2A2
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| Name |
(RefSeq) ATPase sarcoplasmic/endoplasmic reticulum Ca2+ transporting 2
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| KO |
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| Organism |
mdo Monodelphis domestica (gray short-tailed opossum)
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| Pathway |
| mdo04261 | Adrenergic signaling in cardiomyocytes |
| mdo04919 | Thyroid hormone signaling pathway |
| mdo05022 | Pathways of neurodegeneration - multiple diseases |
| mdo05412 | Arrhythmogenic right ventricular cardiomyopathy |
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| Brite |
KEGG Orthology (KO) [BR:mdo00001]
09130 Environmental Information Processing
09132 Signal transduction
04020 Calcium signaling pathway
100015597 (ATP2A2)
04024 cAMP signaling pathway
100015597 (ATP2A2)
04022 cGMP-PKG signaling pathway
100015597 (ATP2A2)
09140 Cellular Processes
09141 Transport and catabolism
04148 Efferocytosis
100015597 (ATP2A2)
09150 Organismal Systems
09152 Endocrine system
04919 Thyroid hormone signaling pathway
100015597 (ATP2A2)
09153 Circulatory system
04260 Cardiac muscle contraction
100015597 (ATP2A2)
04261 Adrenergic signaling in cardiomyocytes
100015597 (ATP2A2)
09154 Digestive system
04972 Pancreatic secretion
100015597 (ATP2A2)
09158 Development and regeneration
04380 Osteoclast differentiation
100015597 (ATP2A2)
09160 Human Diseases
09164 Neurodegenerative disease
05010 Alzheimer disease
100015597 (ATP2A2)
05017 Spinocerebellar ataxia
100015597 (ATP2A2)
05022 Pathways of neurodegeneration - multiple diseases
100015597 (ATP2A2)
09166 Cardiovascular disease
05410 Hypertrophic cardiomyopathy
100015597 (ATP2A2)
05412 Arrhythmogenic right ventricular cardiomyopathy
100015597 (ATP2A2)
05414 Dilated cardiomyopathy
100015597 (ATP2A2)
05415 Diabetic cardiomyopathy
100015597 (ATP2A2)
Enzymes [BR:mdo01000]
7. Translocases
7.2 Catalysing the translocation of inorganic cations
7.2.2 Linked to the hydrolysis of a nucleoside triphosphate
7.2.2.10 P-type Ca2+ transporter
100015597 (ATP2A2)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
3:complement(484209376..484266731)
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| AA seq |
997 aa
MENAHTKTVEEVLGYFGVNESTGLSLEQVKKLKERWGSNELPAEEGKTLLELVIEQFEDL
LVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILVANAIVGVWQERNAENAIEALK
EYEPEMGKVYRQDRKSVQRIKAKDIVPGDIVEIAVGDKVPADIRLTSIKSTTLRVDQSIL
TGESVSVIKHTDPVPDPRAVNQDKKNMLFSGTNIAAGKAMGVVVATGVNTEIGKIRDEMV
ATEQERTPLQQKLDEFGEQLSKVISLICIAVWMINIGHFNDPVHGGSWIRGAIYYFKIAV
ALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQ
MSVCRMFILDRVEGDSCSLNEFTITGSTYAPMGEVHKDDKPVKCHQYDGLVELATICALC
NDSALDYNEAKGVYEKVGEATETALTCLVEKMNVFDTELKGLSRIERANACNSVIKQLMK
KEFTLEFSRDRKSMSVYCTPNKPSRTSMSKMFVKGAPEGVIDRCTHIRVGSTKVPMTPGV
KQKIMTVIREWGTGRDTLRCLALATHDNPPRREDMNLEDSANFIKYETNLTFVGCVGMLD
PPRTEVASSIKLCRQAGIRVIMITGDNKGTAVAICRRIGIFGNEEDVTAKAFTGREFDEL
NPSAQRDACLNARCFARVEPSHKSKIVEFLQSFDEITAMTGDGVNDAPALKKSEIGIAMG
SGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAAL
GFPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMNKPPRNPKEPLISGWLFFRYLAIG
CYVGAATVGAAAWWFIAADGGPRITFYQLSHFLQCKEDNPDFEGVDCAIFESPYPMTMAL
SVLVTIEMCNALNSLSENQSLLRMPPWENIWLVGSICLSMSLHFLILYVEPLPLIFQITP
LNVTQWLMVLKISLPVILMDETLKFVARNYLEPAVLE |
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| NT seq |
2994 nt +upstreamnt +downstreamnt
atggagaacgcgcacaccaagaccgtggaggaggtgctcggctacttcggtgtcaacgag
agcaccgggctgagcttggagcaggtcaagaagctcaaggagcgctggggctccaacgaa
ttgccagcagaagaagggaaaaccttactggagcttgtcattgaacagtttgaagattta
ttagttagaattttactgctggcagcctgcatatcttttgtcctggcctggtttgaagaa
ggtgaagaaacaatcactgcatttgttgagccttttgtgattctacttatcttggtggcc
aatgcaattgtgggtgtgtggcaggaaagaaatgccgagaatgcaattgaagcccttaag
gaatatgaacctgaaatgggtaaagtttatcgacaggacaggaagagtgtccagcggatc
aaagccaaagacatcgttcctggtgatattgtggaaatagctgttggtgacaaagttcct
gctgacataaggttgacttccattaaatctaccaccttaagagtggaccagtcaattctc
acaggtgaatctgtctctgttattaaacacacggaccctgtgccagatccccgggctgtg
aaccaagataagaagaatatgctcttttctggtacaaatattgctgctggaaaagccatg
ggagtggtggtcgccaccggtgtcaacactgaaattggcaaaatccgtgatgaaatggta
gcaaccgagcaggagaggacccccttgcagcagaagcttgatgagtttggggagcagcta
tccaaagtcatctccctcatctgcattgctgtgtggatgatcaacattgggcatttcaat
gacccagtgcatgggggctcctggatccgaggtgctatctactacttcaagattgcagtt
gccctggccgtcgcagccattcccgagggcctgcccgccgtcatcaccacctgcctggcc
ctgggcacccgcagaatggccaaaaagaacgccattgtcaggagcctgccatctgtggag
accctgggttgcacctcagtcatctgctctgacaagaccggaactctaactaccaaccag
atgtctgtgtgtaggatgtttattctggaccgagttgaaggggatagctgttccttgaat
gagtttaccataactggatcaacatatgctcccatgggagaagtgcataaagatgataaa
ccagtgaaatgccatcagtatgatggtcttgtagaattggccacaatctgtgccctttgc
aatgactctgctttggactacaatgaggcaaaaggagtatatgaaaaagttggggaagct
acagagacagccctcacttgtctggtcgagaagatgaacgtctttgacacggagctcaaa
ggcctctccaggattgaacgtgccaatgcctgtaactcggttataaaacagctgatgaag
aaagaattcaccctcgaattttccagagatagaaaatcaatgtctgtgtattgtacgcca
aataaaccaagccggacatcaatgagcaagatgtttgttaagggagcccctgaaggtgtc
attgacaggtgtacacacattcgtgttgggagtaccaaagtgcccatgacccctggggtc
aagcagaagatcatgacagtcattagggaatggggcactggcagagataccctgcgctgc
ttagcgctggccactcatgacaatcctcccagaagagaagacatgaatctggaggactcg
gccaactttattaaatatgagaccaatctgacttttgttggctgtgtgggcatgcttgac
cctccaagaactgaagtggcctcatcgataaaactctgtcggcaagctggcatccgagtc
atcatgatcactggcgacaacaagggcacagccgtggccatctgtcgtcggatcggcatc
tttgggaatgaggaagatgtcactgccaaggctttcacaggtcgagagtttgatgagctg
aatccttctgcccagagggacgcctgcctcaatgctcgctgctttgcaagagtggagccc
tcccacaaatccaagatcgtagaatttctgcagtcttttgatgagattacagctatgact
ggggacggcgtcaatgatgctccagccttgaagaaatccgagattggtattgccatgggc
tctgggactgcagtggcaaaaactgcttcagagatggtgctggcagatgacaacttctcg
accatcgtggcagccgtcgaggaaggacgcgccatctacaacaacatgaagcagttcatt
cgctacctcatctcttccaatgtgggggaagtcgtgtgtattttcctgactgctgctcta
ggttttcctgaggctctaatccctgtccagcttttatgggtaaatctggtgacagacggc
cttccagccacagctttgggattcaacccccctgacttggacatcatgaacaagcctccc
cgaaatcccaaagagcccctcatcagcggttggctcttcttccgctacctggccatcgga
tgttacgtcggagctgcgacggtgggggcggctgcgtggtggttcattgctgctgatggc
ggtccaaggattaccttctaccagctgagtcacttcctgcagtgtaaagaggataacccg
gactttgagggggtggactgtgccatcttcgagtccccgtaccccatgaccatggcgctc
tccgtgctggtgacaatcgagatgtgcaatgctctcaacagcttatcggaaaaccagtcc
ctcctgaggatgccaccttgggagaacatctggctggtgggctccatctgcctctccatg
tccctccacttcctgatcctctacgtcgagcccctgccgctcatcttccagatcacgcct
ctgaacgtgacccagtggctcatggtgctcaagatctcgctgcccgtgatcctcatggac
gagacgctgaaatttgtggcccgaaactacctggaacctgccgtactggagtaa |
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