atp2a3 Summary [species: Xenopus laevis and Xenopus tropicalis] - Xenbase Gene Catalog

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Summary

Gene Literature (1)

Nucleotides (136)

Interactants (5)

XB-GENEPAGE-949482

Gene Symbol: atp2a3 Gene Name: ATPase, Ca++ transporting, ubiquitous Synonyms: serca3 Add Xenopus synonyms Gene Function: Ca2+ transporting ATPase Interactants: atp2a1(1) , atp2a2(1) , mecom(1) , myod1(1) , slc12a1(1) , View All

XB-GENE-949483

XB-GENE-949488

Molecules		tropicalis	laevis
Gene		JGI XT Genome 7.1 JGI XT Genome 4.1	JGI XL Genome 6.0
		Entrez Gene	Entrez Gene
mRNA		Refseq >NM_001078865\|Xenopus (Silurana) tropicalis ATPase, Ca++ transporting, ubiquitous (atp2a3), mRNA GTAAGGGCACGCTGAGGGGCCCAGGCTCCTCGCATTACTTGTGGATTTAAGCTTGTTGCTGTAACTGGGACCCAACATGGACAGCGCTCACGCCAAGACAGTCAGTGAGGTGCTGCGGCACTTCGAAGTGAATGAGAACTGCGGACTGAGCAGCGAGCAGGTCCGACGGAGCAGAGAGAAATATGGGCTGAACGAGCTGCCGGCTGAAGAAGGAAAATCTCTTTGGGAATTGGTTTTGGAGCAGTTTGAAGACCTCCTAGTTCGCATTCTTCTTCTTGCTGCTTTTGTTTCATTTATACTGGCCTGGTTCGAGGAGGGTGAAGAGACAACAACTGCTTTTGTAGAACCAATAGTTATTATTATGATCCTAGTAATCAATGCCTTTGTGGGAGTATGGCAGGAGAGGAATGCAGAGAGTGCTATTGAAGCCCTCAAGGAATATGAACCAGAGATGGGGAAGGTAATCCGTGGAGATCGGAGTGGAGTGCAACGCATCAGAGCCAGAGACATTGTTCCTGGAGACATTGTTGAAGTTGCAGTTGGTGACAAGGTACCTGCCGATATCCGAATTACAGAGATTCGATCTACCACACTTCGTGTGGATCAGTCTATTCTTACAGGGGAATCTGTGTCTGTGATTAAACATACAGATCCTATTCCAGACCCAAGAGCTGTTAATCAAGACAAGAAAAATATGCTTTTTTCTGGCACAAATATTGCAGCTGGAAAGGCAGTGGGGATCGTAATTGCGACTGGTATTTACACAGAAATTGGAAAAATCAGAAACCAAATGGTTGCAACTGAACCTGAGAAGACCCCACTACAGCAGAAGCTTGATGAATTTGGTCAGCAGCTCTCCAAAGTCATCTCCCTTATCTGTGTTGCTGTCTGGGTGATCAATATTGGCCACTTTAATGACCCAGTGCATGGTGGCTCCTGGTTTCGAGGTGCTATTTACTATTTTAAGATTGCAGTGGCATTGGCTGTAGCTGCTATTCCAGAGGGTCTTCCAGCTGTGATAACAACCTGCCTGGCATTGGGTACACGTCGCATGGCAAAAAAGAATGCCATTGTAAGGAGCCTTCCATCTGTTGAGACACTTGGGTGCACTTCTGTCATCTGTTCAGACAAGACTGGTACATTAACTACAAATCAGATGTCTGTGTCCAGGATGTTTGTAATTGAAAAAATTGAAGGAGTGAATTGCAGCTTTCATGAGTTCAGCATCACCGGATCCACATATGCCCCAGTTGGTCAAGTCCTAAAAGATGAACAGCCCGTTAACTGTGGACAATATGATGGATTGGTGGAATTAGCAACAATCTGCGCTTTGTGCAATGATTCTTCCTTGGATTTCAATGAGTCCAAGGGAGTTTATGAGAAGGTGGGAGAGGCGACAGAGACTGCTTTGACATGCTTGGTTGAGAAGATGAATGTTTTTAATACTGATTTGAGCACCCTTTCTAAGGTGGAGAGAGCAAATGCCTGCAATTCTGTAATAAAGAAACTGATGAAAAAAGAGTGCACACTGGAGTTTTCACGAGATCGCAAGTCCATGTCTGTCTATTGCAACTCTGTAGCTCCTAATTCAGGTCAATCTGCTAGCAAAATGTTTGTCAAGGGTGCTCCCGAAAGTGTAATTGAACGCTGCAACTATGTGCGTGTTGGCTCTACAAAGCTTCCCCTGACTCCATCAGCAAGAGAAAAGATCATGTCCAAGATTCGGGACTGGGGCACTGGAATGGACACACTTCGCTGCCTTGCTCTTGCAACCCGAGATGTCCCACCAAAATTAGAAGACATGCAACTGGATGATTCTACAAAATTCATCAATTATGAGACAAACCTGACATTTGTTGGATGTGTTGGAATGTTGGATCCTCCCAGGAAAGAGGTCTCTATATCAATAGAATTGTGCAAGAGAGCTGGTATCAAGGTAATAATGATAACAGGTGACAACAAAGGTACTGCAGTGGCAATCTGCCGAAAGATTGGAATTTTCTCAGATTATGAAGATATAACAGACAAAGCTTACACTGGAAGGGAGTTTGATGACCTACCACCAGAGAGACAGAGAGAAGCCTGCCGTAGTGCCCGCTGCTTTGCACGTGTGGAACCAGCACATAAGTCTAAGATTGTTGAGTATCTACAGTCCTACAGTGAAATTACTGCCATGACTGGTGATGGAGTAAATGATGCACCAGCCCTTAAAAAAGCAGAGATTGGCATTGCTATGGGCTCAGGCACTGCGGTGGCAAAATCAGCTGCAGAAATGGTCTTAGCTGATGACAACTTTTCATCTATTGTGTCTGCAGTAGAGGAGGGGAGAGCCATTTACAACAACATGAAGCAGTTCATCCGCTATCTCATTTCTTCAAATGTTGGCGAGGTTGTTTGTATCTTTCTGACTGCTATTCTTGGTCTGCCTGAAGCACTTATTCCAGTTCAGTTGCTCTGGGTAAACCTGGTCACTGATGGTCTCCCTGCCACTGCTTTGGGATTTAATCCACCTGACTTGGACATCATGGAGAAACTTCCTCGTAATCCAAGGGAACCTCTCATCAGTGGCTGGCTCTTTTTCAGATACCTTGCAATTGGAGTCTATGTTGGCCTGGCTACTGTGGGTGCAGCAACATGGTGGTTCTTATATGATGAAGATGGACCACAAGTCACTTTTTACCAGCTGAGGCATTTCATGAAATGTACTAGTGACAACCCTCTGTTTTCAGGAATTGACTGTGATGTGTTTGAGTCCCGTTACCCCACTACTATGGCACTTTCTGTGCTAGTAACAATTGAGATGTGCAATGCCCTAAACAGTTTGTCTGAGAATCAGTCATTACTAAGGATGCCGCCATGGCTCAACATCTGGCTGCTTGGTGCTATAATTATGTCTATGGCTCTGCATTTTCTGATCCTCTATATAAAGCCAATGCCGCTAGTTTTTCAAGTGATTCCGCTAAACTGGTCCCAGTGGGTAGTGGTTCTGAAGATTTCATTGCCAGTTATCTTGCTCGATGAAGGACTCAAATATATATCAAGACATCATCTAGATGGCCTACTAAAGACAGTAGAACAGTCTTGGAATGGGACTGCGCAAATGAAACCACATAGATCTCATGATCAGACTGGGAGGAACAGGTTTCAGCAACACACAGACAATAACATTTCTAAGTAAAGAATCCTTACGTTCCAAGCCCAACTGAAGTCTCCTGCATGAGCAGCCATCACAAGAGAACAAGCAGAATTTGCGTGTCTCTAACCCAAGGAGACAACTCTGGGGGAAACGTAAACAGCAAAATACTGAAATATTTGTTTGTAGCTTTTTTTTCTGTGCATAAAGGTGCAATAACTGGACAGCTAAAAAAAAAAAAAAAAA	Refseq >NM_001095094\|Xenopus laevis ATPase, Ca++ transporting, ubiquitous (atp2a3), mRNA GGCTGTGCTAGTCAGTGCGGAGGCGGGGGAAGAACTCACCTTCGTTAGAGGAAGAAAAGGTGCAGCAGCAGCGGCGAGGGAGAAGAGCTGTAACTGGAGGAAGGAGCTCGGGGCGGTGCGAGGATCCGTTCCGCTTGACTAAACTTGCTCCTACGACGCCCCTGCCAAACTAGTTACCGGCACCGCTGAGGGGCTCCGTGTCCCCGCACCACTAGTGGATTTAAAGCTGCAGCAGCAGGTGTGACTGGGAGCCGACATGGACAGCGCTCACGCCAAGACTGTCACTGAGGTGCTGCGGCTCTTCGAAGTGAATGAGAACTGCGGACTGAGCAGCGAGCAGGTCCGGAGGAGCAGAGAGAAATATGGGCTGAACGAGCTGCCAGCCGAAGAAGGTAAATCTCTTTGGGAATTGGTTCTGGAACAGTTTGAAGACCTCTTAGTTCGCATTCTTCTCCTCGCTGCATTTGTATCTTTTGTGCTGGCCTGGTTCGAGGAAGGTGAAGAGACAACAACTGCTTTTGTAGAACCAATAGTTATTATTATGATCCTAGTAATCAATGCCTTTGTGGGAGTATGGCAAGAGAGGAATGCAGAGAGTGCTATTGAAGCCCTCAAGGAATATGAACCAGAGATGGGGAAGGTGATCCGTGCTGATCGGAGTGGAGTGCAACGCATCAGAGCCAGAGACATTGTCCCTGGAGACATTGTAGAAGTTGCAGTTGGCGACAAGGTACCTGCTGATATTCGAATTTCAGAGATTCGATCTACCACTCTTCGTGTCGATCAATCTATACTTACAGGGGAATCTGTGTCTATAATAAAACATACAGATCCTATTCCAGACCCAAGAGCTGTTAATCAGGACAAGAAAAATATGCTTTTTTCTGGCACAAATATTGCGTCTGGAAAGGCAGTGGGGATCGTAATTGCGACTGGTATTTACACAGAAATTGGAAAGATCAGAAACCAAATGGTTGCTACTGAGCCAGAGAAGACCCCATTACAACAGAAGCTTGATGAATTTGGTCAGCAGCTCTCAAAAGTCATCTCCCTTATCTGCGTAGCTGTCTGGGTGATCAATATTGGCCACTTTAATGACCCTGTGCATGGTGGCTCCTGGTTTCGAGGTGCCATCTACTATTTTAAAATTGCCGTGGCATTGGCTGTAGCAGCTATTCCAGAGGGTCTTCCAGCTGTCATAACAACCTGTCTGGCGTTGGGTACACGCCGCATGGCAAAAAAGAATGCCATTGTGAGGAGCCTTCCATCTGTTGAGACACTTGGGTGCACTTCGGTTATCTGTTCAGACAAGACCGGTACATTAACCACAAATCAAATGTCTGTGTCCAGGATGTTTGTAATTGAAAAAATTGAAGGCGTGAATTGCAGCTTTCATGAGTTCAGCATTACTGGATCCACATATGCCCCAGAAGGTCACATCCTTAAAGACGAAGAGCCTGTTAACTGTGGACAATATGATGGATTGGTAGAGTTAGCAACAATCTGTGCCTTGTGCAACGATTCCTCCTTGGATTTCAACGAGTCCAAGGGAGTTTATGAGAAAGTGGGAGAGGCGACAGAGACTGCATTGACATGCTTGGTTGAAAAGATGAATGTTTTTAATACCAATCTGAGTACCCTTTCAAAGGTGGAGAGAGCAAACACCTGCAATTCTGTTATAAAGAAACTGATGAAAAAAGAATGCACGCTGGAGTTTTCACGGGATCGCAAGTCCATGTCTGTCTATTGCAACTCTGAAGCTCCCAATTCAGGTCATTCTGCTAGCAAGATGTTTGTTAAGGGTGCTCCCGAAAGTGTGATTGAACGCTGTAACTATGTGCGTGTTGGCTCTACAAAGCTTCCACTGACTCCATCAGCAAGAGAAAAGATCATGTCCAAGATTCGGGACTGGGGAACTGGAATAGACACTCTTCGCTGTCTTGCTCTCGCAACCCGAGATGTCCCACCAAAATTAGAAGACTTGCAATTGGAGGATTCTACAAAATTTATTAATTATGAGACAAACCTGACATTTGTGGGATGTGTTGGAATGTTGGATCCTCCCAGGAAAGAGGTTTCTACCTCCATAGAACTGTGCAAGAAAGCTGGTATTAAAGTAATAATGATAACAGGTGATAACAAAGGTACTGCAGTGGCAATCTGCCGAAAGATTGGCATTTTCTCAGAATATGAGGATATAACAGACAAAGCATACACCGGAAGGGAGTTTGATGACCTATCACCAGAGAAACAAAGGGAAGCCTGTCGCAGTGCCCGTTGCTTTGCACGTGTGGAACCAGCACATAAGTCCAAGATTGTTGAGTATCTACAGTCCTACAATGAAATTACTGCCATGACTGGTGATGGAGTAAATGATGCGCCAGCCCTTAAAAAGGCAGAGATTGGCATTGCTATGGGCTCAGGCACTGCGGTGGCAAAATCAGCAGCAGAAATGGTCTTAGCTGACGATAACTTCTCATCTATTGTGTCTGCAGTAGAGGAGGGGAGAGCTATTTACAACAATATGAAGCAGTTCATTCGCTATCTCATTTCTTCAAATGTTGGCGAGGTTGTCTGTATCTTTCTGACTGCTATTCTTGGCCTGCCTGAAGCACTTATTCCAGTTCAGCTGCTCTGGGTAAACCTGGTCACTGATGGTCTCCCTGCCACTGCTTTGGGATTCAACCCACCTGACTTGGACATCATGGAGAAACTTCCTCGCAATGCAAGGGAACCTCTCATCAGTGGCTGGCTCTTTTTCAGATACCTTGCAATTGGAGTCTATGTTGGCTTGGCTACTGTGGGTGCAGCAACATGGTGGTTCTTATATGATGAAGATGGACCACAAGTTACTTTTTACCAGTTGAGCCATTTCATGAAATGTACTAGCGACAACCCTTTGTTTTCAGGAATTGACTGCGAGGTTTTCGAGTCCCGTTACCCAACTACTATGGCGCTTTCTGTGCTAGTAACAATTGAGATGTGCAATGCCCTAAACAGTTTGTCTGAGAATCAGTCATTACTAAGGATGCCACCATGGCTCAACATTTGGCTGCTTGGTGCTATAATTATGTCTATGGCTCTTCACTTCCTGATCCTCTATATAAAACCAATGCCGCTAGTTTTCCAAGTGACTCCACTAAACTGGACCCAGTGGGTGGTAGTTCTGAAGATTTCACTGCCAGTTATCCTGCTTGATGAAGGACTCAAATATATATCAAGACATCATCTAGACGGCCTGCTAAAGACAGTAGAACAGTCTTGGAATGGGACTGCGCAAATGAAACCACATAGATCTCATGACCAGACTGGGAGGAACAGGTTTCAGCAACACACAGACAACAACATTTCTAAGTAAAGAATCCTTACGTTGCAAGCCCAACTAAAGTCTCCTGCATGAGCAGCCATTACAAGAGAACAAGCAGAATTTGCATGTCTCTAACCCAAGGAGACCAGTCTGGGAAAACGTAAACTGCAAAATACTGAAATATTTGTTTGTAGCTTTTTTTTCTGTGCATAAAGGTGCAATAACTGGACAGCTGAATTGTGGTTTGGGATATATGTTGTTGCAATTTTTTGGGTTAAAGCTGCAGCTCTTGAAAATTCAGGACCTGTCTTATATTTCAATTTTTGTTACTGTAAAATGAAGAGGTTAACAACCCCCCCCCCTTCCAAAATATTAAATAGATATAGGTAAATTAGCAGTTTTGCAAGGAAACAATGGCGCTTTTGTAGTGTGCATAATGATCAGACTTGCAGGCTTGAGGGTTTGATTTGAAGAAGACAACTCTGGTCTGGCAGACACATAACCCTCCTGCTGTTGTGAAGTGCATTTCTTAGTCTTAATCTTGCCACAAATATTGGATGTCCTAGGTGCCCTAGTGTGAGCTTATATATAATATAATAGTTAATATATAAATTACAAGATTCACTTCTGCTACATTATTGGCATGCCTCTGAGAAGCTGTGACATTGTTTATGTGAACCTTTCAATTGGTTTAAGTTAAATATCACTATTTACAGTGCCTGAGAATTGCATCCCTTGGTAGAGCTGATTTGTTATTTTTCCCCCTCTTTTAATGCATTTTTAGCTCATCCACTTAATATATAAACACTTTTTAATGTAATGCAGAGCTATATAGTAACCAGATAGCAGGTAGCATATACTGATCACCCTTGGTGTTGCTGTGTCTGGGCAAACTTTGTGCCCTTTAATATACTGGGGGTTTGGGTCAATTTCCATACAGTTGCACTTGTTCTCAGTAGGTTAATGTCCCACCAAACATGGAGTTGCCTTGATTTATTCACTTTGAAATTATTTATAGTAGCTGTGAATTGTTTCCTATCATTTCACATGGCATCACCACAAGTATCACCTGAAACCACAGACGGGCACAATTGATGGCAGTTCATAACAGGAAGCGAATAAAGACCATGTGTTTCTCACCACTATACCACTATTAAATACAGACACATCTCCTGTTGTGATAGTAGGATCTGTTTTAATTGATGGACATTTTCTTTCCAAATCTAAAGACTAATTTTATAGACCCTAGCATTTTAGTCCCTAAACAAAGAATACAAAACCTGTGGCTGCCCATCATTTTTGGAACTATAGCATCCAGCATTGTGAGAGTACCATCATGCACCACTACTAGAGATTGTCTAACATTCCTGACTTACACCTTGCTAAGCCTTCATTTGTTACTTTGCATCACTTCCCATTCAATTTAGGCATTGCTTTGTCTCATGGCAGCTTGAAATACTTCAGTCTACTGGAGCCTAGTACAACTGTTAATATGTTAATCCAGCTGATAAAAAATGCACAAATGAATACTGTATATTTGATTTGAAGGCACCCTGGGAATCATCCAAGAATAAAAGGGGATGACACAAACTGCTTCCACCATAATTCTTATATAGCTCGGGCAGGTGCATCTGGGCTTTTTCGTTTACTTTTATTTTGATTCATATAATGATCTTTGTACTATAATGACAATAGAAATCATAACAATTCAGGGTTTCTTAATTTTGCCATGCAATGCAGTGTGTGCCCTGTGATGGAACCAAACAGTCTCAACTGCCCCAATATGTAATATCCAGGATTCCCTTTAGAAAACCATTTTCTCAGTCTCCTTATCTTAATATTTGGATCTCATGGATATTCCGCTTTATAGTTAGTTGATCTCAAGGTAATGTACCATGCCAACAACATTGGGCTGGATGGGCTCCAAAGAGCTGATCTATTCATGTCAGTGTATAGAGCCCTAGGATTGGCCCGAGGTGGGTTTCTACTTTGCTCCTGGCCTTACTTCACATTATTTAAGGCTTCTTCCAAGGTATAGGCACAGTATATGAGGAAAATACACCATTTCAGTAAGTTACGCTTGGCTTCTATTAGGAAAATATTTCATGACCGTTTTACCACCAGGGAATTTACAAAATAAGTTTCTTTTTTTCTTGTTGATCCTTTCTGTTTGCCATATGAAAATGTTGGCAGTTTAAGTCACTTTTATGTGGTTCTGTAATGTTCACAAAGGCAGGTGGTGTGCCTTTGGCCGATGCCTGATTATATATGGTATAATGAACCATTAATATGAATTATATAAATATTAGAGGCTAGGGGCTGGGTGCTTTTGGTACAGGTCAACCAATGAATTCTATCATTATTATCATGAGTAAACAGAATATATTTGAAATCACTCTGTGTTTGAAGTTAGGCTTTCCAGTTGAAGGCCCACATGTCACATCTGGCCCCAGAATGCCAAAGAACTCTATAGACTTATTTGAATCTACCCACTACTGGTCACAGATTTATCAAGGGTCGAATTGAATATTCGAAATTCTAATTTTTTTATGGTCAAAACTATCAAATTTGACTAGGGAGTTATTCAAATTTGATTTGAGTTGATCATACTCTGGCCCTAGGAACTCATTCGACTATTCACTACCTAAAACCTGCCGAATTGCTGTTAAAGTCAATGGGAGACGTCCAGGGATCAATTTGGAGTTGTTTGTGTGTTCTAAAAAAAAACTCGAATCAAGTTTTTAAAATTCCAATTGAATTCGCTTCGAGTTTTTAGGTCGATCCTATTCCCCCGAGTTTAAAAAATTAGATTTTTATAATAAATTTCGATTGGTCGAATTTCGAGTTCACGGGAGGAGATTTATATGAATTTGAAATTGGACCCTTGATAAATGTGCCTGTAGATATGCCAATTCTTTGCTAGGGACTTCCAGGCAATAGAGTGTCTTTTTCTGGTGTGGTTTAGCTCTTAACCACCTACAATAGACTGTTGAGCCATGAGACAAAGCCAATGTCTATAGATAATCATTCAATTCATCTTTACTGTCTGCCCCTCTGTGATTTATCTCTTACTCCTACAGACCAATGGATGTGTATGCAGTCATTATACTACTGAGCAGTGTAGTCATTGTACAGAGAAAAAACTCACAAGATGTTACTGTAATTAATATATACTGTATTTAAGGATTTCTAATGCTATATGAGACACCTTGTACAAATGCTATTGTAACCGGAAACGTTTTGACCAAAAAAAAAAAAAAAAAAAAAAAAA
Protein		Refseq >NP_001072333\|ATPase, Ca++ transporting, ubiquitous [Xenopus (Silurana) tropicalis] MDSAHAKTVSEVLRHFEVNENCGLSSEQVRRSREKYGLNELPAEEGKSLWELVLEQFEDLLVRILLLAAFVSFILAWFEEGEETTTAFVEPIVIIMILVINAFVGVWQERNAESAIEALKEYEPEMGKVIRGDRSGVQRIRARDIVPGDIVEVAVGDKVPADIRITEIRSTTLRVDQSILTGESVSVIKHTDPIPDPRAVNQDKKNMLFSGTNIAAGKAVGIVIATGIYTEIGKIRNQMVATEPEKTPLQQKLDEFGQQLSKVISLICVAVWVINIGHFNDPVHGGSWFRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVSRMFVIEKIEGVNCSFHEFSITGSTYAPVGQVLKDEQPVNCGQYDGLVELATICALCNDSSLDFNESKGVYEKVGEATETALTCLVEKMNVFNTDLSTLSKVERANACNSVIKKLMKKECTLEFSRDRKSMSVYCNSVAPNSGQSASKMFVKGAPESVIERCNYVRVGSTKLPLTPSAREKIMSKIRDWGTGMDTLRCLALATRDVPPKLEDMQLDDSTKFINYETNLTFVGCVGMLDPPRKEVSISIELCKRAGIKVIMITGDNKGTAVAICRKIGIFSDYEDITDKAYTGREFDDLPPERQREACRSARCFARVEPAHKSKIVEYLQSYSEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKSAAEMVLADDNFSSIVSAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAILGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMEKLPRNPREPLISGWLFFRYLAIGVYVGLATVGAATWWFLYDEDGPQVTFYQLRHFMKCTSDNPLFSGIDCDVFESRYPTTMALSVLVTIEMCNALNSLSENQSLLRMPPWLNIWLLGAIIMSMALHFLILYIKPMPLVFQVIPLNWSQWVVVLKISLPVILLDEGLKYISRHHLDGLLKTVEQSWNGTAQMKPHRSHDQTGRNRFQQHTDNNISK	Refseq >NP_001088563\|ATPase, Ca++ transporting, ubiquitous [Xenopus laevis] MDSAHAKTVTEVLRLFEVNENCGLSSEQVRRSREKYGLNELPAEEGKSLWELVLEQFEDLLVRILLLAAFVSFVLAWFEEGEETTTAFVEPIVIIMILVINAFVGVWQERNAESAIEALKEYEPEMGKVIRADRSGVQRIRARDIVPGDIVEVAVGDKVPADIRISEIRSTTLRVDQSILTGESVSIIKHTDPIPDPRAVNQDKKNMLFSGTNIASGKAVGIVIATGIYTEIGKIRNQMVATEPEKTPLQQKLDEFGQQLSKVISLICVAVWVINIGHFNDPVHGGSWFRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVSRMFVIEKIEGVNCSFHEFSITGSTYAPEGHILKDEEPVNCGQYDGLVELATICALCNDSSLDFNESKGVYEKVGEATETALTCLVEKMNVFNTNLSTLSKVERANTCNSVIKKLMKKECTLEFSRDRKSMSVYCNSEAPNSGHSASKMFVKGAPESVIERCNYVRVGSTKLPLTPSAREKIMSKIRDWGTGIDTLRCLALATRDVPPKLEDLQLEDSTKFINYETNLTFVGCVGMLDPPRKEVSTSIELCKKAGIKVIMITGDNKGTAVAICRKIGIFSEYEDITDKAYTGREFDDLSPEKQREACRSARCFARVEPAHKSKIVEYLQSYNEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKSAAEMVLADDNFSSIVSAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAILGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMEKLPRNAREPLISGWLFFRYLAIGVYVGLATVGAATWWFLYDEDGPQVTFYQLSHFMKCTSDNPLFSGIDCEVFESRYPTTMALSVLVTIEMCNALNSLSENQSLLRMPPWLNIWLLGAIIMSMALHFLILYIKPMPLVFQVTPLNWTQWVVVLKISLPVILLDEGLKYISRHHLDGLLKTVEQSWNGTAQMKPHRSHDQTGRNRFQQHTDNNISK

Genomic		tropicalis
Genome Browser		Xenbase	Xenbase JGI UCSC		Xenbase

Synteny		Metazome

Expression		tropicalis	laevis
UniGene		Str.35455 [+] Str.56007 Str.70112	Xl.1572 [+] Xl.2410
Unigene EST Profile		EST Profile	EST Profile
GEO data			GEO
Images		16 expression image(s) for tropicalis and laevis

Orthology		MOD	Entrez Gene	Genetic Phenotypes	Morphants
human		OMIM:Gene, HGNC	ATP2A3
mouse		MGI	Atp2a3	All(3) Targeted, knock Out(1) Targeted, other(2)
zebrafish		ZFIN	atp2a3	1 Lines(s)

Publications
First:		Tissue-specific expression of Sarcoplasmic/Endoplasmic Reticulum Calcium ATPases (ATP2A/SERCA) 1, 2, 3 during Xenopus laevis development. [Gene Expr Patterns 2011]
Most recent:
		View All Papers

Functional Ontologies
GO: Molecular:		ATP binding ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism calcium-transporting ATPase activity More[+] catalytic activity hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances
Biological:		calcium ion transport cation transport metabolic process More[+] proton transport
Cellular Component:		integral to membrane membrane
EC:		Ca2+-transporting ATPase
KOG:		[P] Ca2+ transporting ATPase

Reagents		tropicalis	laevis
Clones		open biosystems	open biosystems
		geneservice/RZPD imagenes	geneservice/RZPD imagenes
Affymetrix 1.0		Str.35455.1.A1_at [+] Str.44709.2.S1_at Str.44709.1.S1_at Str.44709.3.S1_a_at	Xl.2410.1.A1_at
Affymetrix 2.0			Xl2.1572.1.S1_at [+] Xl2.2410.1.S1_at

Symbol legend[+]