Ryanodine Receptor 3 (RYR3) (NM_001243996) Human Untagged Clone

Specifications

Product Data
Type	Human Untagged Clone
Tag	Tag Free
Synonyms	RYR-3
Vector	pCMV6-Entry
Sequence Data	Fully Sequenced ORF (showhide) >SC332058 representing NM_001243996. Blue=Insert sequence Red=Cloning site Green=Tag(s) ATGGCCGAAGGGGGAGAAGGAGGCGAGGACGAGATCCAGTTTCTGAGGACTGAGGATGAAGTGGTACTC CAGTGCATCGCCACCATTCATAAGGAGCAGAGGAAGTTCTGCCTGGCAGCCGAGGGACTTGGGAATCGC CTGTGCTTCTTGGAACCCACTTCAGAAGCCAAGTACATTCCTCCAGATCTCTGCGTCTGCAATTTTGTG CTGGAACAGTCCCTATCTGTCAGAGCCCTGCAGGAAATGCTTGCCAACACAGGTGAAAATGGCGGCGAA GGGGCAGCACAAGGAGGTGGCCACAGGACCCTGTTATACGGCCATGCAGTTCTCCTGAGGCACTCTTTC AGCGGAATGTATCTAACATGCTTGACTACATCAAGATCCCAGACAGACAAACTTGCCTTTGATGTAGGT CTACGGGAACATGCCACAGGAGAAGCCTGTTGGTGGACTATACATCCTGCTTCCAAACAGAGGTCCGAA GGAGAGAAAGTTCGAATTGGCGATGACCTCATCCTCGTCAGCGTGTCCTCTGAAAGATACCTTCATCTC TCAGTATCAAATGGTAACATACAAGTGGATGCCTCCTTTATGCAAACACTCTGGAATGTACATCCTACG TGCTCAGGAAGTAGCATCGAAGAAGGATACCTACTTGGTGGGCATGTAGTACGTCTTTTCCATGGTCAT GATGAATGTTTGACGATACCATCTACAGACCAGAATGATTCCCAGCACAGGAGGATATTCTACGAAGCT GGGGGAGCTGGGACTCGAGCCAGGTCTCTTTGGAGAGTGGAACCCCTTCGGATAAGCTGGAGTGGCAGT AACATCAGATGGGGCCAGGCTTTCCGACTCCGGCATCTCACCACAGGCCACTACCTGGCCTTGACAGAA GACCAAGGCCTTATACTGCAAGACCGGGCAAAGTCAGACACCAAGTCCACAGCTTTCTCTTTCCGGGCA TCAAAGGAACTCAAGGAGAAATTAGACTCCAGTCACAAGCGAGACATAGAAGGCATGGGAGTTCCAGAA ATCAAGTATGGAGATTCTGTCTGCTTTGTGCAGCATATAGCCAGTGGTCTGTGGGTGACCTACAAAGCA CAAGACGCCAAAACTTCCCGCCTGGGACCTCTAAAAAGAAAGGTCATACTCCATCAGGAAGGCCACATG GATGATGGATTAACACTGCAGAGATGCCAGCGTGAGGAGTCCCAGGCTGCTCGGATCATCCGGAACACT ACAGCCTTATTCAGCCAGTTTGTCAGCGGAAACAATCGCACAGCTGCCCCCATCACCCTGCCTATAGAA GAAGTCCTGCAGACCCTACAGGACTTGATCGCCTACTTCCAGCCCCCAGAGGAGGAGATGCGACATGAA GACAAGCAGAACAAGCTCCGCTCACTCAAAAACAGACAAAATCTTTTCAAGGAAGAGGGAATGTTGGCC CTTGTCTTAAATTGCATTGACCGCTTAAATGTCTACAATAGCGTAGCACACTTTGCAGGGATTGCAAGG GAAGAGAGTGGCATGGCCTGGAAAGAAATTCTGAACCTCCTCTACAAATTGCTGGCTGCTCTCATTCGC GGAAACAGAAACAATTGCGCTCAATTCTCCAATAACCTTGATTGGCTCATCAGTAAATTGGACAGACTA GAATCTTCCTCAGGTATCTTGGAAGTTTTGCACTGCATCTTAACTGAAAGCCCAGAAGCCTTAAATCTG ATAGCGGAGGGCCACATCAAGTCGATCATCTCCCTGTTGGATAAGCACGGGCGGAATCACAAGGTTCTG GATATCCTGTGCTCCCTCTGTCTCTGCAATGGGGTTGCAGTGAGAGCCAACCAGAATCTGATCTGTGAC AACTTGCTGCCCCGGAGAAACCTACTCCTGCAGACACGACTGATTAACGATGTAACCAGTATCCGGCCA AACATCTTCCTGGGAGTCGCGGAGGGCTCAGCCCAGTACAAGAAGTGGTACTTCGAGCTGATTATCGAC CAGGTGGACCCCTTCCTAACAGCAGAGCCCACACATCTGCGGGTGGGCTGGGCCTCTTCTTCAGGCTAT GCCCCATACCCAGGAGGTGGAGAAGGATGGGGAGGCAATGGTGTTGGTGACGACCTGTACTCCTATGGC TTTGATGGACTTCACCTTTGGTCAGGCCGGATACCCAGAGCTGTGGCTTCCATCAACCAGCACCTCCTG AGATCGGATGACGTGGTAAGCTGCTGCCTGGACCTCGGGGTGCCCAGCATCTCATTCCGCATCAATGGG CAGCCCGTGCAGGGGATGTTTGAGAACTTCAACACAGACGGGCTCTTCTTCCCTGTGATGAGCTTTTCA GCAGGTGTCAAAGTACGTTTCCTGATGGGTGGACGTCATGGAGAGTTTAAGTTCCTGCCTCCCTCTGGC TATGCCCCTTGCTATGAAGCCTTACTTCCAAAAGAGAAGATGAGATTGGAGCCTGTCAAAGAATATAAA CGTGATGCTGATGGCATTAGAGATCTCTTGGGTACCACCCAGTTCCTCTCCCAAGCCTCTTTCATCCCA TGCCCCGTAGACACCAGTCAGGTTATTTTGCCACCTCACCTAGAAAAGATCCGAGACAGACTAGCTGAA AACATCCATGAGCTTTGGGGAATGAATAAAATAGAACTTGGCTGGACTTTCGGCAAGATACGAGATGAC AATAAAAGACAACACCCTTGCCTTGTGGAGTTTTCAAAGCTCCCAGAAACTGAGAAGAACTATAACCTG CAAATGTCAACTGAAACCTTAAAAACCCTCTTGGCCCTGGGGTGCCACATTGCTCATGTTAACCCAGCT GCTGAGGAGGATCTCAAGAAGGTCAAACTGCCCAAAAACTATATGATGTCCAACGGCTATAAGCCAGCC CCTTTGGATTTGTCTGATGTGAAGCTGTTACCTCCTCAAGAAATTTTAGTGGATAAGCTTGCAGAAAAT GCACACAATGTTTGGGCAAAAGACAGAATAAAACAAGGATGGACCTATGGCATCCAACAGGATTTGAAG AACAAAAGAAATCCCCGTCTGGTGCCATATGCATTACTGGATGAGCGTACCAAGAAGTCAAACAGGGAC AGCCTGCGGGAAGCTGTGCGCACTTTTGTTGGTTACGGGTATAACATTGAGCCATCAGACCAAGAACTA GCTGACTCGGCTGTGGAGAAGGTCAGCATAGACAAGATCCGATTTTTCCGGGTAGAGCGATCTTATGCA GTGAGATCTGGAAAGTGGTATTTTGAGTTTGAAGTGGTGACTGGAGGAGACATGCGAGTCGGCTGGGCG AGGCCAGGCTGTCGACCTGATGTCGAGCTGGGGGCCGATGACCAAGCCTTTGTGTTTGAAGGCAACAGG GGCCAGCGTTGGCATCAAGGAAGTGGGTATTTTGGGCGTACCTGGCAGCCAGGGGATGTGGTCGGATGT ATGATTAACCTGGATGATGCTTCAATGATCTTCACACTGAATGGGGAGCTGCTGATCACCAACAAAGGC TCTGAACTTGCCTTCGCTGACTACGAGATTGAGAATGGCTTCGTGCCCATCTGCTGTCTGGGTCTATCT CAGATCGGCCGCATGAATCTCGGGACAGATGCCAGTACCTTCAAGTTTTATACCATGTGCGGTCTCCAA GAGGGCTTTGAGCCTTTTGCTGTCAACATGAACAGAGATGTTGCTATGTGGTTCAGCAAGCGCCTCCCG ACGTTTGTCAACGTGCCAAAGGATCATCCACACATAGAGGTCATGAGGATTGATGGCACCATGGACAGC CCTCCGTGTCTCAAGGTGACGCATAAGACATTTGGCACACAGAATAGCAATGCCGACATGATCTATTGC CGCTTGAGCATGCCTGTCGAGTGCCACTCCTCCTTCAGCCACAGCCCCTGTCTGGACAGTGAAGCTTTC CAGAAAAGGAAACAGATGCAAGAAATACTCTCTCATACAACAACACAGTGCTACTACGCCATCCGCATC TTTGCTGGACAGGATCCATCCTGTGTCTGGGTCGGATGGGTGACTCCAGACTATCACTTGTACAGTGAA AAGTTTGACCTGAATAAAAACTGCACAGTGACTGTCACCCTAGGGGATGAAAGAGGCCGGGTCCATGAA AGTGTGAAACGCAGCAACTGCTACATGGTCTGGGGTGGAGACATTGTAGCCAGTTCCCAGAGATCAAAT CGGAGCAACGTGGACCTGGAGATCGGCTGTCTCGTGGATCTGGCCATGGGCATGTTGTCCTTCTCAGCC AATGGAAAGGAACTGGGCACCTGCTACCAGGTGGAGCCTAATACCAAAGTGTTTCCAGCAGTCTTCCTG CAGCCTACAAGTACTTCTTTGTTTCAGTTTGAACTTGGAAAGCTGAAGAACGCAATGCCCCTGTCAGCG GCCATATTCAGGAGTGAAGAGAAGAACCCAGTCCCACAGTGTCCACCTCGGCTGGACGTCCAAACCATC CAGCCCGTGCTCTGGAGCCGCATGCCCAACAGCTTCCTGAAGGTGGAGACCGAGCGTGTGAGCGAGCGC CACGGCTGGGTGGTGCAGTGCCTGGAGCCCCTGCAGATGATGGCGCTCCACATCCCCGAGGAGAACAGG TGTGTGGATATCCTGGAGCTCTGTGAGCAGGAGGACCTGATGCGGTTCCATTACCACACGCTGAGGCTC TACAGCGCGGTGTGCGCCCTGGGAAACAGCCGCGTGGCCTACGCCCTGTGCAGCCACGTGGACCTCTCC CAGCTCTTCTATGCCATTGACAACAAGTACCTCCCCGGCCTCCTTCGATCTGGTTTCTATGACCTGCTC ATCAGCATCCACCTGGCCAGCGCCAAGGAGAGGAAGCTGATGATGAAGAACGAGTACATCATCCCCATT ACCAGCACCACCAGGAATATCCGCCTCTTCCCGGACGAGTCCAAGAGGCATGGACTGCCTGGGGTGGGC CTGAGAACATGTCTCAAGCCCGGGTTCAGGTTCTCCACCCCTTGCTTTGTTGTGACTGGTGAGGATCAC CAAAAGCAGAGCCCCGAGATTCCCTTGGAGAGTCTCAGGACGAAGGCTCTGAGTATGCTGACAGAGGCA GTGCAGTGCAGCGGGGCCCACATCCGAGACCCTGTAGGGGGGTCTGTGGAGTTCCAGTTTGTGCCTGTG CTGAAACTCATTGGAACCCTGCTGGTCATGGGCGTGTTTGATGATGATGATGTTCGGCAGATCCTCCTC CTGATTGATCCCTCTGTGTTTGGGGAGCATAGTGCGGGGACAGAGGAGGGAGCAGAAAAGGAGGAAGTG ACCCAGGTGGAGGAGAAGGCTGTGGAGGCTGGGGAGAAGGCCGGCAAGGAGGCTCCTGTCAAAGGCTTG TTGCAGACTCGATTACCCGAATCCGTCAAGCTGCAGATGTGTGAGCTCCTCAGCTATCTCTGCGACTGT GAGCTGCAGCACCGAGTGGAGGCCATTGTGGCATTTGGTGACATTTATGTCTCCAAGCTGCAGGCAAAT CAGAAGTTCCGCTACAATGAGCTCATGCAGGCCCTGAACATGTCTGCGGCCCTGACTGCCCGGAAGACC AAGGAGTTCCGCTCACCCCCACAGGAGCAGATCAACATGCTGCTTAACTTTCAACTGGGAGAGAACTGC CCCTGCCCAGAGGAGATTCGGGAGGAGCTGTATGATTTCCATGAGGACCTTCTCCTTCACTGTGGGGTT CCTTTGGAAGAAGAGGAAGAGGAGGAGGAGGACACCTCCTGGACAGGAAAACTCTGTGCCTTGGTTTAC AAAATCAAAGGCCCACCCAAGCCAGAGAAGGAGCAGCCGACGGAGGAGGAGGAGAGATGCCCCACAACA TTGAAGGAACTCATCTCACAGACGATGATCTGCTGGGCCCAGGAGGACCAGATCCAGGATTCAGAGCTG GTCCGAATGATGTTCAACCTCCTCCGGAGGCAGTATGACAGCATTGGGGAGCTGCTGCAGGCGCTGCGG AAGACCTACACCATCAGCCACACCTCTGTAAGCGACACCATCAACCTGCTGGCTGCCCTGGGCCAAATC CGCTCCCTCCTCAGTGTCAGGATGGGCAAGGAAGAGGAGTTGCTCATGATCAATGGGCTGGGAGACATA ATGAACAACAAGGTGTTTTACCAGCATCCCAACCTCATGAGAGTCCTGGGCATGCACGAGACGGTGATG GAGGTGATGGTGAACGTGTTGGGTACAGAGAAATCTCAGATTGCATTTCCAAAGATGGTTGCTAGCTGC TGCCGTTTCCTTTGCTATTTCTGTCGAATTAGCCGGCAAAATCAGAAGGCCATGTTTGAGCATCTGAGT TATCTTCTGGAGAATAGCAGTGTTGGCCTAGCCTCCCCGTCGATGAGGGGATCCACCCCGCTGGATGTG GCAGCTTCCTCTGTGATGGACAACAATGAGTTAGCGCTGAGCTTAGAGGAACCAGACCTCGAGAAGGTG GTGACCTACTTGGCAGGCTGTGGCCTACAGAGCTGCCCCATGCTTCTGGCCAAAGGATACCCTGATGTC GGCTGGAACCCCATTGAAGGGGAACGCTACCTGTCCTTCCTGAGGTTTGCTGTCTTCGTGAACAGTGAG AGTGTGGAAGAAAACGCCAGCGTTGTGGTCAAGCTGCTCATCAGACGCCCAGAGTGCTTCGGCCCGGCC CTGCGGGGTGAGGGGGGAAACGGGCTCTTGGCAGCCATGCAGGGTGCCATTAAGATCTCTGAGAACCCA GCGCTCGACCTCCCCTCTCAAGGATACAAAAGAGAAGTCAGCACGGGGGACGATGAAGAGGAAGAAGAA ATCGTGCATATGGGCAATGCAATTATGTCATTTTATTCGGCCCTTATAGATCTACTGGGCCGCTGTGCT CCTGAAATGCACCTCATCCAGACAGGAAAGGGGGAAGCCATCCGCATCAGGTCCATCCTGCGCTCCCTG GTCCCCACAGAAGACCTGGTTGGGATCATCAGCATCCCCTTGAAACTGCCCTCCCTCAACAAAGATGGG TCGGTCAGTGAGCCAGATATGGCGGCCAATTTCTGCCCTGACCACAAGGCACCTATGGTGCTGTTCTTG GACCGCGTTTATGGCATTAAGGATCAAACTTTTCTGCTCCACTTGCTGGAGGTTGGATTTTTACCTGAC CTAAGAGCTTCTGCCTCTCTAGATACAGTTTCCCTAAGCACCACAGAGGCTGCGCTTGCACTAAATAGG TATATATGTTCTGCTGTGCTCCCGCTCCTCACAAGATGTGCCCCTCTCTTTGCCGGAACAGAACACTGC ACCTCTCTGATTGATTCCACACTGCAGACAATATACAGGCTATCCAAGGGACGTTCCCTCACCAAAGCA CAAAGGGACACTATAGAAGAATGTTTGCTTGCCATTTGCAATCACTTGAGGCCTTCCATGTTACAGCAA CTCCTGCGACGCCTCGTTTTTGATGTGCCGCAACTCAATGAATACTGCAAAATGCCTCTCAAGCTTCTG ACGAATCACTATGAACAGTGTTGGAAGTATTACTGCCTGCCTTCAGGATGGGGGAGCTACGGGCTAGCT GTGGAAGAAGAGCTGCACCTAACGGAGAAGCTTTTCTGGGGGATTTTTGACTCGCTCTCCCATAAGAAA TATGACCCAGATCTTTTCCGAATGGCCCTGCCTTGTCTCAGTGCTATAGCTGGGGCCTTGCCACCAGAT TATTTAGATACCAGAATCACAGCCACGTTGGAGAAACAGATCTCAGTGGATGCGGATGGCAACTTTGAC CCAAAACCTATTAACACCATGAATTTTTCCTTGCCTGAAAAATTGGAATACATCGTCACCAAGTATGCT GAGCATTCACATGATAAATGGGCCTGTGACAAGAGTCAGAGTGGATGGAAATATGGGATTTCCCTGGAT GAAAATGTGAAGACCCACCCACTGATAAGGCCTTTCAAGACATTAACGGAGAAGGAGAAGGAAATTTAT CGCTGGCCTGCGCGAGAGTCCCTGAAAACCATGCTGGCTGTGGGCTGGACTGTGGAGAGGACCAAAGAG GGAGAAGCTTTGGTTCAACAGCGGGAAAATGAGAAGCTTCGAAGTGTGTCCCAGGCCAACCAGGGCAAC AGCTACAGTCCTGCTCCCCTCGACCTCTCAAACGTTGTGCTCTCCAGAGAGCTCCAGGGAATGGTGGAG GTCGTGGCTGAGAACTATCACAATATCTGGGCCAAGAAGAAGAAGCTGGAGCTGGAGAGCAAAGGTGGT GGCAGCCACCCTCTTCTGGTACCATATGACACCTTGACTGCCAAGGAAAAGTTCAAGGACCGGGAGAAG GCACAGGACCTGTTTAAGTTCCTCCAAGTGAATGGCATCATAGTTTCCAGGGGTATGAAGGATATGGAG CTGGATGCCTCCTCCATGGAGAAGAGGTTTGCCTATAAGTTCTTGAAGAAGATCCTGAAATACGTTGAT TCTGCTCAAGAATTTATTGCCCATTTAGAAGCCATTGTCAGCAGTGGGAAAACTGAAAAGTCTCCCCGT GACCAGGAGATCAAATTCTTTGCCAAAGTTCTCCTCCCGCTGGTTGACCAGTACTTCACCAGTCATTGC CTCTACTTCTTGTCATCCCCTCTGAAGCCCCTTAGCAGCAGCGGATATGCCTCCCATAAGGAGAAAGAA ATGGTGGCCGGCCTGTTCTGCAAACTTGCCGCTCTCGTTAGACACAGAATTTCCCTCTTTGGTAGTGAT TCTACTACAATGGTGAGCTGTCTTCACATCTTAGCTCAGACACTTGACACAAGGACTGTCATGAAGTCA GGCTCAGAGCTGGTGAAGGCTGGGTTACGAGCATTCTTTGAAAATGCTGCAGAAGATTTGGAGAAGACT TCAGAAAACCTGAAACTTGGGAAGTTCACCCATTCCCGAACGCAGATTAAAGGCGTTTCTCAGAATATT AACTACACTACAGTGGCTCTGCTCCCCATCCTGACGTCCATCTTTGAGCACGTCACTCAGCATCAGTTT GGAATGGATCTACTCTTGGGTGATGTGCAGATTTCATGCTACCACATACTGTGCAGCCTCTACTCCCTT GGGACGGGAAAGAACATTTATGTTGAAAGGCAACGCCCTGCCCTTGGAGAATGTCTGGCCTCGCTGGCA GCTGCCATACCAGTGGCATTCCTGGAGCCCACCCTTAATCGCTACAATCCACTCTCGGTCTTCAACACC AAAACCCCCAGGGAGAGGTCTATTCTGGGGATGCCAGACACGGTAGAAGACATGTGTCCTGACATCCCC CAGCTGGAAGGCCTGATGAAGGAAATCAACGACCTGGCCGAGTCAGGGGCCCGGTACACAGAGATGCCC CATGTCATCGAGGTGATCTTACCCATGCTCTGCAACTACTTGTCCTACTGGTGGGAGCGGGGTCCTGAG AACCTGCCCCCCAGCACAGGGCCATGCTGCACCAAGGTCACCTCTGAACACCTCAGTCTCATCCTGGGC AACATTCTGAAAATCATCAACAACAACCTGGGCATCGATGAGGCCTCCTGGATGAAGCGCATTGCAGTG TATGCACAGCCCATCATCAGCAAAGCCAGGCCCGACCTGCTGAGAAGCCACTTCATCCCAACTCTGGAG AAGCTGAAGAAAAAGGCTGTCAAGACGGTGCAGGAGGAGGAGCAGTTGAAAGCCGATGGCAAAGGGGAC ACCCAGGAGGCAGAACTCCTCATCCTGGACGAGTTCGCGGTCCTCTGCAGAGATCTCTATGCCTTCTAC CCCATGCTGATCCGCTACGTGGACAACAACAGATCTAACTGGCTGAAAAGTCCTGATGCTGATTCTGAC CAGCTCTTCCGCATGGTGGCAGAAGTCTTCATTCTGTGGTGTAAATCTCATAACTTCAAGAGAGAAGAG CAAAATTTTGTGATTCAGAATGAAATTAATAATTTGGCATTTTTAACTGGAGACAGCAAAAGCAAGATG TCAAAATCTGGAGGACAAGACCAGGAGCGGAAGAAGACAAAGCGGCGGGGAGACTTGTATTCCATCCAG ACCTCCCTCATCGTGGCTGCACTCAAGAAAATGCTGCCCATTGGTTTGAATATGTGTACTCCAGGCGAC CAGGAGCTGATCTCCCTCGCAAAATCGCGATACAGCCATAGGGACACAGATGAAGAGGTCAGAGAACAT CTGCGGAACAACTTGCACTTGCAGGAAAAGTCTGATGACCCAGCTGTAAAATGGCAACTGAACCTCTAC AAGGATGTTCTGAAGAGTGAAGAACCTTTCAATCCGGAAAAGACAGTGGAGCGTGTGCAGAGAATTTCA GCAGCTGTCTTCCACCTGGAACAGGTGGAACAGCCTTTGAGGTCCAAGAAGGCCGTCTGGCACAAACTG TTATCAAAGCAACGGAAACGGGCAGTGGTGGCCTGTTTCAGGATGGCCCCTCTCTACAACCTGCCCAGG CACCGCTCTATTAACCTCTTCCTCCATGGCTATCAGAGATTTTGGATAGAAACAGAGGAGTATTCCTTT GAAGAGAAACTAGTACAGGATTTGGCTAAATCTCCAAAGGTGGAAGAGGAGGAGGAGGAAGAGACAGAA AAACAACCTGACCCACTACATCAGATCATTCTCTATTTTAGCCGCAACGCTCTCACGGAGAGGAGCAAA TTGGAAGACGACCCTTTGTACACCTCCTATTCCAGCATGATGGCCAAGAGTTGTCAAAGTGGTGAGGAT GAAGAAGAAGATGAAGACAAGGAAAAAACATTCGAAGAGAAAGAGATGGAGAAGCAAAAAACCCTCTAT CAGCAAGCTCGGCTGCATGAGCGTGGTGCTGCAGAGATGGTCCTTCAGATGATAAGCGCTAGCAAAGGT GAGATGAGCCCCATGGTGGTTGAGACGCTGAAGCTGGGGATCGCCATTCTGAACGGAGGCAATGCTGGT GTGCAACAGAAAATGCTAGATTACCTAAAGGAGAAAAAGGATGCTGGATTCTTTCAAAGCCTTTCTGGT CTTATGCAGTCTTGCAGTGTCCTTGATTTGAATGCATTTGAGAGGCAGAATAAAGCTGAAGGCCTGGGG ATGGTGACTGAAGAAGGAACACTCATTGTTCGGGAACGTGGTGAAAAAGTACTCCAGAATGACGAGTTC ACGCGTGATCTCTTTAGATTCCTACAGTTACTTTGTGAGGGACATAACAGTGACTTTCAGAACTTCCTG CGGACTCAGATGGGCAACACCACCACCGTGAATGTCATCATCAGCACTGTGGACTACCTTCTGCGTCTG CAGGAATCAATCAGTGATTTCTACTGGTATTATTCAGGGAAGGACATCATTGATGAATCTGGACAGCAC AATTTTTCCAAAGCTCTGGCAGTCACCAAGCAGATTTTCAATTCTCTTACAGAATACATCCAGGGCCCT TGCATTGGTAATCAACAGAGCCTGGCTCACAGCAGGCTGTGGGACGCAGTGGTTGGCTTCCTCCATGTC TTTGCTAATATGCAGATGAAACTCTCTCAGGATTCCAGTCAGATCGAGCTGCTGAAGGAACTCTTGGAT CTCCTTCAGGACATGGTGGTGATGCTTCTGTCCCTCCTGGAAGGGAATGTGGTAAATGGCACCATTGGC AAGCAGATGGTTGACACACTGGTAGAATCATCTACCAATGTAGAAATGATCTTGAAATTCTTTGACATG TTCTTGAAACTTAAAGACTTAACCAGCTCAGACACCTTCAAAGAATATGACCCAGATGGTAAAGGAATT ATCTCCAAAAAAGAATTCCAGAAGGCCATGGAAGGGCAAAAACAGTACACGCAGTCAGAGATTGACTTT CTCCTGTCGTGTGCAGAAGCTGATGAGAATGACATGTTTAATTACGTTGATTTTGTAGACCGGTTCCAT GAGCCAGCCAAGGACATAGGGTTTAATGTGGCTGTGTTATTGACAAATCTTTCTGAACACATGCCAAAC GATTCCCGCCTGAAGTGTCTGTTGGACCCAGCAGAAAGTGTGCTAAATTACTTCGAACCCTACCTAGGA CGCATCGAGATCATGGGTGGGGCCAAGAAGATTGAGCGTGTTTATTTTGAGATCAGTGAATCCAGTCGC ACTCAGTGGGAGAAGCCCCAGGTGAAGGAATCTAAGCGACAGTTCATTTTTGATGTTGTCAATGAAGGT GGGGAGCAGGAAAAGATGGAGCTGTTTGTGAACTTCTGTGAGGACACCATCTTTGAAATGCAGTTAGCA TCTCAGATCTCTGAATCCGATTCAGCTGACAGGCCAGAAGAGGAGGAAGAAGATGAAGATTCTTCTTAC GTGTTAGAAATTGCGGGTGAAGAGGAAGAAGACGGGTCTCTTGAGCCGGCCTCTGCATTTGCTATGGCC TGTGCCTCTGTGAAGAGGAATGTCACCGACTTCCTGAAGAGAGCAACCCTGAAGAACCTCAGGAAGCAG TACAGGAACGTGAAAAAGATGACTGCGAAGGAGCTGGTGAAGGTGCTCTTCTCCTTTTTCTGGATGCTG TTCGTGGGGCTATTCCAGTTGCTCTTCACCATCCTGGGAGGAATCTTTCAGATCCTCTGGAGCACAGTG TTTGGAGGGGGCCTGGTAGAAGGGGCAAAGAACATCAGAGTGACCAAGATCCTGGGTGACATGCCTGAC CCAACCCAATTTGGTATCCATGATGACACTATGGAGGCTGAGAGGGCAGAGGTGATGGAGCCAGGTATC ACCACTGAACTAGTACACTTCATAAAGGGGGAGAAGGGAGATACAGATATCATGTCAGACCTCTTTGGA CTCCACCCAAAGAAAGAGGGCAGCTTAAAGCATGGGCCTGAAGTGGGTTTGGGTGACCTCTCAGAAATT ATTGGCAAGGATGAACCCCCTACATTAGAGAGTACTGTACAGAAGAAGAGGAAAGCTCAGGCAGCAGAA ATGAAAGCAGCAAATGAAGCAGAAGGAAAAGTAGAATCCGAGAAGGCAGACATGGAAGATGGAGAGAAG GAAGACAAAGACAAAGAAGAGGAGCAAGCTGAGTACCTGTGGACAGAAGTGACAAAAAAGAAGAAGCGG CGGTGTGGTCAGAAGGTTGAGAAGCCGGAAGCTTTCACAGCCAATTTCTTTAAAGGGCTGGAAATCTAT CAGACCAAGTTACTGCATTACCTGGCCAGGAATTTCTACAACCTGAGGTTCCTTGCTCTGTTTGTAGCC TTCGCTATCAACTTCATCCTGCTTTTTTATAAGGTCACTGAAGAACCTTTAGAAGAAGAGACAGAGGAT GTTGCAAACCTATGGAATTCCTTTAATGACGAGGAAGAGGAAGAAGCGATGGTATTCTTTGTCCTTCAG GAGAGCACCGGGTATATGGCACCAACCCTGCGTGCCCTGGCCATCATCCATACCATCATCTCTCTAGTC TGTGTGGTGGGCTACTACTGCCTGAAGGTGCCTTTGGTGGTTTTCAAAAGGGAAAAAGAAATCGCCAGG AAGCTGGAGTTTGATGGCCTATATATCACCGAACAGCCATCTGAAGATGACATCAAGGGGCAGTGGGAC CGCTTGGTGATCAACACACCATCTTTTCCTAATAACTACTGGGACAAGTTTGTAAAGAGAAAGGTGATC AACAAGTATGGAGATCTCTACGGAGCAGAACGCATTGCTGAACTTCTGGGTTTGGACAAAAATGCTCTT GACTTTAGCCCAGTAGAAGAGACCAAAGCAGAAGCGGCTTCTCTGGTGTCATGGCTAAGTTCCATAGAC ATGAAGTACCATATCTGGAAGCTTGGAGTTGTTTTTACTGACAACTCCTTTCTCTACCTTGCCTGGTAT ACAACCATGTCAGTCCTGGGCCACTACAATAACTTCTTCTTTGCTGCTCACCTATTGGACATCGCAATG GGCTTCAAGACACTGAGGACCATTCTGTCATCTGTAACTCACAATGGCAAACAGTTGGTTCTGACTGTC GGTCTCCTGGCCGTGGTGGTTTATCTCTATACTGTGGTGGCTTTCAACTTCTTCCGCAAGTTCTACAAC AAAAGCGAAGACGATGACGAGCCCGATATGAAGTGCGACGACATGATGACGTGTTACCTTTTCCACATG TACGTGGGAGTGAGAGCAGGAGGTGGCATTGGTGATGAAATTGAAGACCCTGCTGGTGATCCTTATGAA ATGTATCGCATTGTCTTTGACATTACCTTTTTCTTCTTCGTCATTGTCATCTTGCTGGCCATCATTCAA GGTCTTATTATTGATGCTTTCGGAGAGCTAAGAGACCAGCAGGAACAAGTACGAGAAGATATGGAGACT AAATGTTTCATCTGTGGGATTGGCAATGACTACTTTGACACAACCCCTCATGGTTTTGAAACACATACA TTACAAGAGCACAACTTAGCCAACTACTTGTTCTTTCTGATGTATTTGATTAATAAAGATGAAACAGAG CACACGGGTCAGGAATCTTATGTCTGGAAGATGTACCAAGAAAGGTGTTGGGATTTCTTCCCAGCCGGT GACTGCTTTCGTAAACAATATGAAGATCAGCTTGGATAA
Restriction Sites	SgfI-RsrII
ACCN	NM_001243996
Insert Size	14598 bp
OTI Disclaimer	Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
Product Components	The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution	1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Reference Data
RefSeq	NM_001243996.1
RefSeq Size	15548 bp
RefSeq ORF	14598 bp
Locus ID	6263
UniProt ID	Q15413
Protein Families	Druggable Genome, Transmembrane
Protein Pathways	Alzheimer's disease, Calcium signaling pathway
MW	551.5 kDa
Gene Summary	The protein encoded by this gene is a ryanodine receptor, which functions to release calcium from intracellular storage for use in many cellular processes. For example, the encoded protein is involved in skeletal muscle contraction by releasing calcium from the sarcoplasmic reticulum followed by depolarization of T-tubules. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Sep 2011] Transcript Variant: This variant (2) lacks an alternate in-frame exon in the 3' coding region compared to variant 1. The resulting isoform (2) is shorter than isoform 1.

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