Ryanodine Receptor 3 (RYR3) (NM_001036) Human Tagged ORF Clone

CAT#: RC223355

  • TrueORF®

RYR3 (Myc-DDK-tagged)-Human ryanodine receptor 3 (RYR3)

Datasheet
SDS
Plasmid Map

  "NM_001036" in other vectors (1)

Reconstitution Protocol

USD 5,808.00

In Stock*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (4)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
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PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
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TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

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TA329026
Rabbit polyclonal Anti-Ryanodine Receptor 3
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Other products for "Ryanodine Receptor 3"

Specifications

Product Data
Type Human Tagged ORF Clone
Tag Myc-DDK
Symbol Ryanodine Receptor 3
Synonyms RYR-3
Vector pCMV6-AC-Myc-DDK
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RC223355 representing NM_001036.
Blue=ORF Red=Cloning site Green=Tag(s)

GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG
GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC
ATGGCCGAAGGGGGAGAAGGAGGCGAGGACGAGATCCAGTTTCTGAGGACTGAGGATGAAGTGGTACTC
CAGTGCATCGCCACCATTCATAAGGAGCAGAGGAAGTTCTGCCTGGCAGCCGAGGGACTTGGGAATCGC
CTGTGCTTCTTGGAACCCACTTCAGAAGCCAAGTACATTCCTCCAGATCTCTGCGTCTGCAATTTTGTG
CTGGAACAGTCCCTATCTGTCAGAGCCCTGCAGGAAATGCTTGCCAACACAGGTGAAAATGGCGGCGAA
GGGGCAGCACAAGGAGGTGGCCACAGGACCCTGTTATACGGCCATGCAGTTCTCCTGAGGCACTCTTTC
AGCGGAATGTATCTAACATGCTTGACTACATCAAGATCCCAGACAGACAAACTTGCCTTTGATGTAGGT
CTACGGGAACATGCCACAGGAGAAGCCTGTTGGTGGACTATACATCCTGCTTCCAAACAGAGGTCCGAA
GGAGAGAAAGTTCGAATTGGCGATGACCTCATCCTCGTCAGCGTGTCCTCTGAAAGATACCTTCATCTC
TCAGTATCAAATGGTAACATACAAGTGGATGCCTCCTTTATGCAAACACTCTGGAATGTACATCCTACG
TGCTCAGGAAGTAGCATCGAAGAAGGATACCTACTTGGTGGGCATGTAGTACGTCTTTTCCATGGTCAT
GATGAATGTTTGACGATACCATCTACAGACCAGAATGATTCCCAGCACAGGAGGATATTCTACGAAGCT
GGGGGAGCTGGGACTCGAGCCAGGTCTCTTTGGAGAGTGGAACCCCTTCGGATAAGCTGGAGTGGCAGT
AACATCAGATGGGGCCAGGCTTTCCGACTCCGGCATCTCACCACAGGCCACTACCTGGCCTTGACAGAA
GACCAAGGCCTTATACTGCAAGACCGGGCAAAGTCAGACACCAAGTCCACAGCTTTCTCTTTCCGGGCA
TCAAAGGAACTCAAGGAGAAATTAGACTCCAGTCACAAGCGAGACATAGAAGGCATGGGAGTTCCAGAA
ATCAAGTATGGAGATTCTGTCTGCTTTGTGCAGCATATAGCCAGTGGTCTGTGGGTGACCTACAAAGCA
CAAGACGCCAAAACTTCCCGCCTGGGACCTCTAAAAAGAAAGGTCATACTCCATCAGGAAGGCCACATG
GATGATGGATTAACACTGCAGAGATGCCAGCGTGAGGAGTCCCAGGCTGCTCGGATCATCCGGAACACT
ACAGCCTTATTCAGCCAGTTTGTCAGTGGAAACAATCGCACAGCTGCCCCCATCACCCTGCCTATAGAA
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
ACCAGCACCACCAGGAATATCTGCCTCTTCCCGGACGAGTCCAAGAGGCATGGACTGCCTGGGGTGGGC
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
GCGCTCGACCTCCCCTCTCAAGGATACAAAAGAGAAGTCAGCACGGAGGACGATGAAGAGGAAGAAGAA
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
TCAAAAGCCATGCAAGTAAAGTCTGGAGGACAAGACCAGGAGCGGAAGAAGACAAAGCGGCGGGGAGAC
TTGTATTCCATCCAGACCTCCCTCATCGTGGCTGCACTCAAGAAAATGCTGCCCATTGGTTTGAATATG
TGTACTCCAGGCGACCAGGAGCTGATCTCCCTCGCAAAATCGCGATACAGCCATAGGGACACAGATGAA
GAGGTCAGAGAACATCTGCGGAACAACTTGCACTTGCAGGAAAAGTCTGATGACCCAGCTGTAAAATGG
CAACTGAACCTCTACAAGGATGTTCTGAAGAGTGAAGAACCTTTCAATCCGGAAAAGACAGTGGAGCGT
GTGCAGAGAATTTCAGCAGCTGTCTTCCACCTGGAACAGGTGGAACAGCCTTTGAGGTCCAAGAAGGCC
GTCTGGCACAAACTGTTATCAAAGCAACGGAAACGGGCAGTGGTGGCCTGTTTCAGGATGGCCCCTCTC
TACAACCTGCCCAGGCACCGCTCTATTAACCTCTTCCTCCATGGCTATCAGAGATTTTGGATAGAAACA
GAGGAGTATTCCTTTGAAGAGAAACTAGTACAGGATTTGGCTAAATCTCCAAAGGTGGAAGAGGAGGAG
GAGGAAGAGACAGAAAAACAACCTGACCCACTACATCAGATCATTCTCTATTTTAGCCGCAACGCTCTC
ACGGAGAGGAGCAAATTGGAAGACGACCCTTTGTACACCTCCTATTCCAGCATGATGGCCAAGAGTTGT
CAAAGTGGTGAGGATGAAGAAGAAGATGAAGACAAGGAAAAAACATTCGAAGAGAAAGAGATGGAGAAG
CAAAAAACCCTCTATCAGCAAGCTCGGCTGCATGAGCGTGGTGCTGCAGAGATGGTCCTTCAGATGATA
AGCGCTAGCAAAGGTGAGATGAGCCCCATGGTGGTTGAGACGCTGAAGCTGGGGATCGCCATTCTGAAC
GGAGGCAATGCTGGTGTGCAACAGAAAATGCTAGATTACCTAAAGGAGAAAAAGGATGCTGGATTCTTT
CAAAGCCTTTCTGGTCTTATGCAGTCTTGCAGTGTCCTTGATTTGAATGCATTTGAGAGGCAGAATAAA
GCTGAAGGCCTGGGGATGGTGACTGAAGAAGGAACACTCATTGTTCGGGAACGTGGTGAAAAAGTACTC
CAGAATGACGAGTTCACGCGTGATCTCTTTAGATTCCTACAGTTACTTTGTGAGGGACATAACAGTGAC
TTTCAGAACTTCCTGCGGACTCAGATGGGCAACACCACCACCGTGAATGTCATCATCAGCACTGTGGAC
TACCTTCTGCGTCTGCAGGAATCAATCAGTGATTTCTACTGGTATTATTCAGGGAAGGACATCATTGAT
GAATCTGGACAGCACAATTTTTCCAAAGCTCTGGCAGTCACCAAGCAGATTTTCAATTCTCTTACAGAA
TACATCCAGGGCCCTTGCATTGGTAATCAACAGAGCCTGGCTCACAGCAGGCTGTGGGACGCAGTGGTT
GGCTTCCTCCATGTCTTTGCTAATATGCAGATGAAACTCTCTCAGGATTCCAGTCAGATCGAGCTGCTG
AAGGAACTCTTGGATCTCCTTCAGGACATGGTGGTGATGCTTCTGTCCCTCCTGGAAGGGAATGTGGTA
AATGGCACCATTGGCAAGCAGATGGTTGACACACTGGTAGAATCATCTACCAATGTAGAAATGATCTTG
AAATTCTTTGACATGTTCTTGAAACTTAAAGACTTAACCAGCTCAGACACCTTCAAAGAATATGACCCA
GATGGTAAAGGAATTATCTCCAAAAAAGAATTCCAGAAGGCCATGGAAGGGCAAAAACAGTACACGCAG
TCAGAGATTGACTTTCTCCTGTCGTGTGCAGAAGCTGATGAGAATGACATGTTTAATTACGTTGATTTT
GTAGACCGGTTCCATGAGCCAGCCAAGGACATAGGGTTTAATGTGGCTGTGTTATTGACAAATCTTTCT
GAACACATGCCAAACGATTCCCGCCTGAAGTGTCTGTTGGACCCAGCAGAAAGTGTGCTAAATTACTTC
GAACCCTACCTAGGACGCATCGAGATCATGGGTGGGGCCAAGAAGATTGAGCGTGTTTATTTTGAGATC
AGTGAATCCAGTCGCACTCAGTGGGAGAAGCCCCAGGTGAAGGAATCTAAGCGACAGTTCATTTTTGAT
GTTGTCAATGAAGGTGGGGAGCAGGAAAAGATGGAGCTGTTTGTGAACTTCTGTGAGGACACCATCTTT
GAAATGCAGTTAGCATCTCAGATCTCTGAATCCGATTCAGCTGACAGGCCAGAAGAGGAGGAAGAAGAT
GAAGATTCTTCTTACGTGTTAGAAATTGCGGGTGAAGAGGAAGAAGACGGGTCTCTTGAGCCGGCCTCT
GCATTTGCTATGGCCTGTGCCTCTGTGAAGAGGAATGTCACCGACTTCCTGAAGAGAGCAACCCTGAAG
AACCTCAGGAAGCAGTACAGGAACGTGAAAAAGATGACTGCGAAGGAGCTGGTGAAGGTGCTCTTCTCC
TTTTTCTGGATGCTGTTCGTGGGGCTATTCCAGTTGCTCTTCACCATCCTGGGAGGAATCTTTCAGATC
CTCTGGAGCACAGTGTTTGGAGGGGGCCTGGTAGAAGGGGCAAAGAACATCAGAGTGACCAAGATCCTG
GGTGACATGCCTGACCCAACCCAATTTGGTATCCATGATGACACTATGGAGGCTGAGAGGGCAGAGGTG
ATGGAGCCAGGTATCACCACTGAACTAGTACACTTCATAAAGGGGGAGAAGGGAGATACAGATATCATG
TCAGACCTCTTTGGACTCCACCCAAAGAAAGAGGGCAGCTTAAAGCATGGGCCTGAAGTGGGTTTGGGT
GACCTCTCAGAAATTATTGGCAAGGATGAACCCCCTACATTAGAGAGTACTGTACAGAAGAAGAGGAAA
GCTCAGGCAGCAGAAATGAAAGCAGCAAATGAAGCAGAAGGAAAAGTAGAATCCGAGAAGGCAGACATG
GAAGATGGAGAGAAGGAAGACAAAGACAAAGAAGAGGAGCAAGCTGAGTACCTGTGGACAGAAGTGACA
AAAAAGAAGAAGCGGCGGTGTGGTCAGAAGGTTGAGAAGCCGGAAGCTTTCACAGCCAATTTCTTTAAA
GGGCTGGAAATCTATCAGACCAAGTTACTGCATTACCTGGCCAGGAATTTCTACAACCTGAGGTTCCTT
GCTCTGTTTGTAGCCTTCGCTATCAACTTCATCCTGCTTTTTTATAAGGTCACTGAAGAACCTTTAGAA
GAAGAGACAGAGGATGTTGCAAACCTATGGAATTCCTTTAATGACGAGGAAGAGGAAGAAGCGATGGTA
TTCTTTGTCCTTCAGGAGAGCACCGGGTATATGGCACCAACCCTGCGTGCCCTGGCCATCATCCATACC
ATCATCTCTCTAGTCTGTGTGGTGGGCTACTACTGCCTGAAGGTGCCTTTGGTGGTTTTCAAAAGGGAA
AAAGAAATCGCCAGGAAGCTGGAGTTTGATGGCCTATATATCACCGAACAGCCATCTGAAGATGACATC
AAGGGGCAGTGGGACCGCTTGGTGATCAACACACCATCTTTTCCTAATAACTACTGGGACAAGTTTGTA
AAGAGAAAGGTGATCAACAAGTATGGAGATCTCTACGGAGCAGAACGCATTGCTGAACTTCTGGGTTTG
GACAAAAATGCTCTTGACTTTAGCCCAGTAGAAGAGACCAAAGCAGAAGCGGCTTCTCTGGTGTCATGG
CTAAGTTCCATAGACATGAAGTACCATATCTGGAAGCTTGGAGTTGTTTTTACTGACAACTCCTTTCTC
TACCTTGCCTGGTATACAACCATGTCAGTCCTGGGCCACTACAATAACTTCTTCTTTGCTGCTCACCTA
TTGGACATCGCAATGGGCTTCAAGACACTGAGGACCATTCTGTCATCTGTAACTCACAATGGCAAACAG
TTGGTTCTGACTGTCGGTCTCCTGGCCGTGGTGGTTTATCTCTATACTGTGGTGGCTTTCAACTTCTTC
CGCAAGTTCTACAACAAAAGCGAAGACGATGACGAGCCCGATATGAAGTGCGACGACATGATGACGTGT
TACCTTTTCCACATGTACGTGGGAGTGAGAGCAGGAGGTGGCATTGGTGATGAAATTGAAGACCCTGCT
GGTGATCCTTATGAAATGTATCGCATTGTCTTTGACATTACCTTTTTCTTCTTCGTCATTGTCATCTTG
CTGGCCATCATTCAAGGTCTTATTATTGATGCTTTCGGAGAGCTAAGAGACCAGCAGGAACAAGTACGA
GAAGATATGGAGACTAAATGTTTCATCTGTGGGATTGGCAATGACTACTTTGACACAACCCCTCATGGT
TTTGAAACACATACATTACAAGAGCACAACTTAGCCAACTACTTGTTCTTTCTGATGTATTTGATTAAT
AAAGATGAAACAGAGCACACGGGTCAGGAATCTTATGTCTGGAAGATGTACCAAGAAAGGTGTTGGGAT
TTCTTCCCAGCCGGTGACTGCTTTCGTAAACAATATGAAGATCAGCTTGGA
AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGAT
ATCCTGGATTACAAGGATGACGACGATAAGGTTTAA
>Peptide sequence encoded by RC223355
Blue=ORF Red=Cloning site Green=Tag(s)

MAEGGEGGEDEIQFLRTEDEVVLQCIATIHKEQRKFCLAAEGLGNRLCFLEPTSEAKYIPPDLCVCNFV
LEQSLSVRALQEMLANTGENGGEGAAQGGGHRTLLYGHAVLLRHSFSGMYLTCLTTSRSQTDKLAFDVG
LREHATGEACWWTIHPASKQRSEGEKVRIGDDLILVSVSSERYLHLSVSNGNIQVDASFMQTLWNVHPT
CSGSSIEEGYLLGGHVVRLFHGHDECLTIPSTDQNDSQHRRIFYEAGGAGTRARSLWRVEPLRISWSGS
NIRWGQAFRLRHLTTGHYLALTEDQGLILQDRAKSDTKSTAFSFRASKELKEKLDSSHKRDIEGMGVPE
IKYGDSVCFVQHIASGLWVTYKAQDAKTSRLGPLKRKVILHQEGHMDDGLTLQRCQREESQAARIIRNT
TALFSQFVSGNNRTAAPITLPIEEVLQTLQDLIAYFQPPEEEMRHEDKQNKLRSLKNRQNLFKEEGMLA
LVLNCIDRLNVYNSVAHFAGIAREESGMAWKEILNLLYKLLAALIRGNRNNCAQFSNNLDWLISKLDRL
ESSSGILEVLHCILTESPEALNLIAEGHIKSIISLLDKHGRNHKVLDILCSLCLCNGVAVRANQNLICD
NLLPRRNLLLQTRLINDVTSIRPNIFLGVAEGSAQYKKWYFELIIDQVDPFLTAEPTHLRVGWASSSGY
APYPGGGEGWGGNGVGDDLYSYGFDGLHLWSGRIPRAVASINQHLLRSDDVVSCCLDLGVPSISFRING
QPVQGMFENFNTDGLFFPVMSFSAGVKVRFLMGGRHGEFKFLPPSGYAPCYEALLPKEKMRLEPVKEYK
RDADGIRDLLGTTQFLSQASFIPCPVDTSQVILPPHLEKIRDRLAENIHELWGMNKIELGWTFGKIRDD
NKRQHPCLVEFSKLPETEKNYNLQMSTETLKTLLALGCHIAHVNPAAEEDLKKVKLPKNYMMSNGYKPA
PLDLSDVKLLPPQEILVDKLAENAHNVWAKDRIKQGWTYGIQQDLKNKRNPRLVPYALLDERTKKSNRD
SLREAVRTFVGYGYNIEPSDQELADSAVEKVSIDKIRFFRVERSYAVRSGKWYFEFEVVTGGDMRVGWA
RPGCRPDVELGADDQAFVFEGNRGQRWHQGSGYFGRTWQPGDVVGCMINLDDASMIFTLNGELLITNKG
SELAFADYEIENGFVPICCLGLSQIGRMNLGTDASTFKFYTMCGLQEGFEPFAVNMNRDVAMWFSKRLP
TFVNVPKDHPHIEVMRIDGTMDSPPCLKVTHKTFGTQNSNADMIYCRLSMPVECHSSFSHSPCLDSEAF
QKRKQMQEILSHTTTQCYYAIRIFAGQDPSCVWVGWVTPDYHLYSEKFDLNKNCTVTVTLGDERGRVHE
SVKRSNCYMVWGGDIVASSQRSNRSNVDLEIGCLVDLAMGMLSFSANGKELGTCYQVEPNTKVFPAVFL
QPTSTSLFQFELGKLKNAMPLSAAIFRSEEKNPVPQCPPRLDVQTIQPVLWSRMPNSFLKVETERVSER
HGWVVQCLEPLQMMALHIPEENRCVDILELCEQEDLMRFHYHTLRLYSAVCALGNSRVAYALCSHVDLS
QLFYAIDNKYLPGLLRSGFYDLLISIHLASAKERKLMMKNEYIIPITSTTRNICLFPDESKRHGLPGVG
LRTCLKPGFRFSTPCFVVTGEDHQKQSPEIPLESLRTKALSMLTEAVQCSGAHIRDPVGGSVEFQFVPV
LKLIGTLLVMGVFDDDDVRQILLLIDPSVFGEHSAGTEEGAEKEEVTQVEEKAVEAGEKAGKEAPVKGL
LQTRLPESVKLQMCELLSYLCDCELQHRVEAIVAFGDIYVSKLQANQKFRYNELMQALNMSAALTARKT
KEFRSPPQEQINMLLNFQLGENCPCPEEIREELYDFHEDLLLHCGVPLEEEEEEEEDTSWTGKLCALVY
KIKGPPKPEKEQPTEEEERCPTTLKELISQTMICWAQEDQIQDSELVRMMFNLLRRQYDSIGELLQALR
KTYTISHTSVSDTINLLAALGQIRSLLSVRMGKEEELLMINGLGDIMNNKVFYQHPNLMRVLGMHETVM
EVMVNVLGTEKSQIAFPKMVASCCRFLCYFCRISRQNQKAMFEHLSYLLENSSVGLASPSMRGSTPLDV
AASSVMDNNELALSLEEPDLEKVVTYLAGCGLQSCPMLLAKGYPDVGWNPIEGERYLSFLRFAVFVNSE
SVEENASVVVKLLIRRPECFGPALRGEGGNGLLAAMQGAIKISENPALDLPSQGYKREVSTEDDEEEEE
IVHMGNAIMSFYSALIDLLGRCAPEMHLIQTGKGEAIRIRSILRSLVPTEDLVGIISIPLKLPSLNKDG
SVSEPDMAANFCPDHKAPMVLFLDRVYGIKDQTFLLHLLEVGFLPDLRASASLDTVSLSTTEAALALNR
YICSAVLPLLTRCAPLFAGTEHCTSLIDSTLQTIYRLSKGRSLTKAQRDTIEECLLAICNHLRPSMLQQ
LLRRLVFDVPQLNEYCKMPLKLLTNHYEQCWKYYCLPSGWGSYGLAVEEELHLTEKLFWGIFDSLSHKK
YDPDLFRMALPCLSAIAGALPPDYLDTRITATLEKQISVDADGNFDPKPINTMNFSLPEKLEYIVTKYA
EHSHDKWACDKSQSGWKYGISLDENVKTHPLIRPFKTLTEKEKEIYRWPARESLKTMLAVGWTVERTKE
GEALVQQRENEKLRSVSQANQGNSYSPAPLDLSNVVLSRELQGMVEVVAENYHNIWAKKKKLELESKGG
GSHPLLVPYDTLTAKEKFKDREKAQDLFKFLQVNGIIVSRGMKDMELDASSMEKRFAYKFLKKILKYVD
SAQEFIAHLEAIVSSGKTEKSPRDQEIKFFAKVLLPLVDQYFTSHCLYFLSSPLKPLSSSGYASHKEKE
MVAGLFCKLAALVRHRISLFGSDSTTMVSCLHILAQTLDTRTVMKSGSELVKAGLRAFFENAAEDLEKT
SENLKLGKFTHSRTQIKGVSQNINYTTVALLPILTSIFEHVTQHQFGMDLLLGDVQISCYHILCSLYSL
GTGKNIYVERQRPALGECLASLAAAIPVAFLEPTLNRYNPLSVFNTKTPRERSILGMPDTVEDMCPDIP
QLEGLMKEINDLAESGARYTEMPHVIEVILPMLCNYLSYWWERGPENLPPSTGPCCTKVTSEHLSLILG
NILKIINNNLGIDEASWMKRIAVYAQPIISKARPDLLRSHFIPTLEKLKKKAVKTVQEEEQLKADGKGD
TQEAELLILDEFAVLCRDLYAFYPMLIRYVDNNRSNWLKSPDADSDQLFRMVAEVFILWCKSHNFKREE
QNFVIQNEINNLAFLTGDSKSKMSKAMQVKSGGQDQERKKTKRRGDLYSIQTSLIVAALKKMLPIGLNM
CTPGDQELISLAKSRYSHRDTDEEVREHLRNNLHLQEKSDDPAVKWQLNLYKDVLKSEEPFNPEKTVER
VQRISAAVFHLEQVEQPLRSKKAVWHKLLSKQRKRAVVACFRMAPLYNLPRHRSINLFLHGYQRFWIET
EEYSFEEKLVQDLAKSPKVEEEEEEETEKQPDPLHQIILYFSRNALTERSKLEDDPLYTSYSSMMAKSC
QSGEDEEEDEDKEKTFEEKEMEKQKTLYQQARLHERGAAEMVLQMISASKGEMSPMVVETLKLGIAILN
GGNAGVQQKMLDYLKEKKDAGFFQSLSGLMQSCSVLDLNAFERQNKAEGLGMVTEEGTLIVRERGEKVL
QNDEFTRDLFRFLQLLCEGHNSDFQNFLRTQMGNTTTVNVIISTVDYLLRLQESISDFYWYYSGKDIID
ESGQHNFSKALAVTKQIFNSLTEYIQGPCIGNQQSLAHSRLWDAVVGFLHVFANMQMKLSQDSSQIELL
KELLDLLQDMVVMLLSLLEGNVVNGTIGKQMVDTLVESSTNVEMILKFFDMFLKLKDLTSSDTFKEYDP
DGKGIISKKEFQKAMEGQKQYTQSEIDFLLSCAEADENDMFNYVDFVDRFHEPAKDIGFNVAVLLTNLS
EHMPNDSRLKCLLDPAESVLNYFEPYLGRIEIMGGAKKIERVYFEISESSRTQWEKPQVKESKRQFIFD
VVNEGGEQEKMELFVNFCEDTIFEMQLASQISESDSADRPEEEEEDEDSSYVLEIAGEEEEDGSLEPAS
AFAMACASVKRNVTDFLKRATLKNLRKQYRNVKKMTAKELVKVLFSFFWMLFVGLFQLLFTILGGIFQI
LWSTVFGGGLVEGAKNIRVTKILGDMPDPTQFGIHDDTMEAERAEVMEPGITTELVHFIKGEKGDTDIM
SDLFGLHPKKEGSLKHGPEVGLGDLSEIIGKDEPPTLESTVQKKRKAQAAEMKAANEAEGKVESEKADM
EDGEKEDKDKEEEQAEYLWTEVTKKKKRRCGQKVEKPEAFTANFFKGLEIYQTKLLHYLARNFYNLRFL
ALFVAFAINFILLFYKVTEEPLEEETEDVANLWNSFNDEEEEEAMVFFVLQESTGYMAPTLRALAIIHT
IISLVCVVGYYCLKVPLVVFKREKEIARKLEFDGLYITEQPSEDDIKGQWDRLVINTPSFPNNYWDKFV
KRKVINKYGDLYGAERIAELLGLDKNALDFSPVEETKAEAASLVSWLSSIDMKYHIWKLGVVFTDNSFL
YLAWYTTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFF
RKFYNKSEDDDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDPYEMYRIVFDITFFFFVIVIL
LAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGNDYFDTTPHGFETHTLQEHNLANYLFFLMYLIN
KDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLG
SGPTRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-RsrII      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_001036
ORF Size 14610 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.

The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
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_001036.2, NP_001027.2
RefSeq Size 15563 bp
RefSeq ORF 14613 bp
Locus ID 6263
UniProt ID Q15413
Cytogenetics 15q13.3-q14
Protein Families Druggable Genome, Transmembrane
Protein Pathways Alzheimer's disease, Calcium signaling pathway
MW 552.1 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]

Other Versions

SKU Description Size Price
SC302845 RYR3 (untagged)-Human ryanodine receptor 3 (RYR3)
    • 10 ug

USD 6,196.00

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