Ryr2 (NM_032078) Rat Untagged Clone
CAT#: RN210756
Ryr2 (untagged ORF) - Rat ryanodine receptor 2, cardiac (Ryr2), (10 ug)
CNY 95,290.00
货期*
14周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Rat Untagged Clone |
Tag | Tag Free |
Synonyms | RyR; RYR-2 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RN210756 representing NM_032078
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCTGATGCGGGCGAAGGCGAGGACGAGATCCAGTTCCTGAGAACTGATGATGAGGTGGTTCTACAGT GCACCGCAACCATCCACAAAGAGCAGCAGAAGCTGTGCTTGGCTGCAGGAGGATTTGGCAACAGACTTTG CTTTTTGGAGTCTACTTCCAATTCTAAGAATGTCCCCCCGGACCTGTCCATCTGCACCTTTGTGCTGGAG CAGTCCCTGTCAGTACGGGCCCTGCAGGAGATGCTAGCCAACACAGTGGAAAAGTCAGAAGGGAAGTTCA TGATGAAGACTGCTCAAGGTGGAGGCCACCGGACACTCCTCTATGGACACGCCATACTACTACGCCATTC CTACAGTGGTATGTATCTCTGCTGTCTCTCCACCTCCCGGTCTTCCACCGACAAACTGGCCTTTGATGTT GGCCTTCAAGAGGATACCACAGGGGAGGCTTGCTGGTGGACCATACATCCTGCCTCTAAGCAGAGATCAG AAGGAGAAAAGGTGCGGGTTGGAGACGACCTCATATTGGTCAGCGTGTCCTCAGAAAGGTACTTGCACTT GTCATACGGCAACAGCAGCTGGCGTGTAGACGCAGCCTTCCAGCAGACCCTCTGGAGCGTGGCCCCTATC AGCTCAGGAAGTGAAGCAGCCCAAGGGTATCTCATTGGTGGTGATGTTCTCCGGCTGCTACATGGACACA TGGATGAATGTCTCACTGTTCCTTCAGGAGAACATGGTGAAGAACAGCGGAGAACAGTCCATTATGAAGG TGGTGCTGTATCAGTTCATGCCCGCTCCCTCTGGAGACTAGAGACCCTAAGAGTCGCGTGGAGTGGAAGT CACATAAGATGGGGCCAGCCATTCCGACTGCGGCACGTCACGACAGGAAAATACTTAAGCCTCATGGAAG ACAAGAACCTTCTACTCATGGACAAAGAAAAAGCTGATGTAAAATCAACGGCGTTTGCCTTCCGGTCTTC CAAGGAAAAATTGGATGCAGGTGTAAGGAAAGAAGTCGATGGCATGGGAACCTCAGAAATCAAGTATGGA GACTCCATTTGCTATATACAACATGTGGACACGGGCCTGCGGCTAACCTACCAGGCCGTGGATGTCAAAT CAGCACGAATGGGATCCATACAGCGTAAGGCTATCATGCACCACGAAGGCCACATGGATGACGGCTTGAA CTTATCCAGATCGCAGCACGAGGAGTCCCGCACTGCCCGTGTCATCCGGAGCACAGTGTTTCTCTTCAAT AGGTTCATAAGGGGCCTGGATGCTCTCAGCAAGAGAGCGAAGCTGCCCACTGTTGACTTGCCCATCGAGT CTGTGAGCCTGAGTTTGCAGGACCTCATCGGCTACTTCCACCCCCCAGACGAGCACCTGGAGCACGAGGA CAAGCAGAACAGGCTGCGAGCCCTGAAGAACCGGCAGAATCTCTTCCAGGAAGAGGGAATGATCAACCTG GTTCTGGAGTGCATCGACCGCCTCCATGTCTACAGCAGTGCAGCCCACTTTGCAGACGTTGCAGGACGAG AAGCGGGGGAGTCTTGGAAATCCATCCTGAATTCTCTGTATGAGTTGCTGGCGGCTCTAATTAGAGGAAA TCGTAAAAACTGTGCTCAATTTTCTGGCTCCCTCGACTGGCTGATCAGCAGACTGGAGAGACTGGAAGCG TCCTCTGGTATCCTGGAGGTCCTCCACTGTGTGTTAGTGGAGAGCCCGGAAGCTCTGAATATCATCAAAG AAGGACACATCAAGTCCATTATTTCCCTTTTAGACAAGCATGGGAGAAACCACAAGGTCCTGGATGTGCT GTGTTCTCTCTGTGTGTGCCATGGAGTTGCCGTCCGTTCTAATCAGCATCTCATCTGTGATAACCTCCTG CCGGGACGAGACCTCTTACTGCAGACCCGGCTTGTGAATCATGTCAGCAGCATGAGGCCTAATATTTTCC TGGGTGTCAGCGAAGGATCAGCACAGTATAAGAAGTGGTACTACGAGCTCATGGTGGACCACACGGAACC CTTTGTGACCGCAGAAGCCACTCACCTGCGAGTGGGCTGGGCTTCCACTGAAGGGTATTCCCCGTACCCA GGTGGGGGTGAAGAGTGGGGTGGCAATGGCGTTGGTGATGACCTCTTCTCCTATGGGTTTGATGGCCTTC ACCTCTGGTCAGGTTGTATAGCTCGAACAGTGAGCTCCCCCAACCAGCACCTGCTGAGAACTGATGATGT CATAAGTTGCTGTTTAGATCTAAGTGCCCCGAGCATCTCGTTTCGCATTAATGGACAACCTGTGCAAGGG ATGTTTGAGAACTTCAATATCGATGGCCTGTTCTTTCCGGTTGTCAGTTTCTCTGCAGGAATAAAGGTTC GCTTTTTGCTTGGGGGGAGACACGGAGAATTCAAATTTCTCCCTCCACCGGGCTATGCAGCTTGCTATGA AGCTGTTTTGCCCAAAGAGAAATTGAAGGTGGAACACAGCCGAGAATATAAGCAAGAGAGGACGTACACA CGAGACCTGCTGGGGCCTACAGTGTCCCTGACCCAAGCTGCCTTCACACCTGTTCCTGTGGACACCAGCC AGATTGTGTTGCCTCCTCACCTGGAAAGGATAAGAGAAAGACTGGCAGAAAATATCCACGAGCTCTGGGT TATGAATAAAATTGAGCTTGGCTGGCAGTATGGTCCGGTTAGAGATGACAACAAGAGACAGCACCCATGT CTGGTGGAGTTCTGCAAGCTTCCGGAACAGGAACGCAACTACAATTTGCAGATGTCTCTGGAAACCCTCA AGACTTTGCTGGCATTAGGATGTCATGTGGGTATAGCGGATGAACATGCTGAAGAGAAGGTGAAGAAAAT GAAGCTGCCCAAGAATTACCAGCTGACCAGTGGATACAAGCCTGCCCCCATGGATCTGAGCTTTATAAAA CTTACCCCGTCTCAGGAAGCAATGGTGGACAAGTTGGCTGAAAATGCTCACAACGTGTGGGCCCGGGACC GAATCCGGCAGGGCTGGACTTACGGCATCCAGCAGGATGTGAAGAACAGGAGAAACCCTCGTCTGGTTCC CTACACTCTTCTGGATGACAGAACCAAGAAGTCCAACAAAGACAGTCTCCGAGAGGCAGTGCGAACACTG CTGGGCTACGGCTACCACCTGGAAGCTCCTGATCAGGACCACGCCTCAAGAGCCGAGGTGTGCAGCGGTA CTGGGGAGAGGTTCCGCATCTTCAGGGCAGAGAAGACCTATGCAGTAAAGGCTGGGCGCTGGTACTTTGA ATTTGAGGCCGTCACTGCTGGAGACATGAGGGTGGGATGGAGCAGGCCAGGCTGCCAACCGGATCTAGAA CTGGGTTCTGATGAACGTGCCTTCGCTTTTGACGGCTTTAAGGCCCAGCGGTGGCACCAGGGCAATGAAC ACTACGGGCGTTCTTGGCAAGCAGGTGATGTCGTGGGCTGCATGGTTGATATGAATGAACACACCATGAT GTTCACTCTGAACGGTGAGATCCTGCTGGATGACTCAGGCTCCGAGCTGGCTTTCAAGGACTTTGATGTT GGTGACGGATTCATCCCTGTGTGTAGCCTCGGGGTGGCACAAGTAGGCAGGATGAACTTTGGAAAGGACG TCAGCACTTTGAAATACTTTACCATCTGTGGCTTACAAGAGGGCTACGAGCCATTTGCAGTTAACACAAA TAGGGACATCACCATGTGGCTGAGCAAGCGGCTTCCTCAGTTCCTCCAGGTCCCCTCAAACCACGAACAC ATCGAGGTGACCAGAATAGATGGTACCATAGACAGTTCTCCATGTCTGAAGGTCACTCAGAAGTCCTTTG GTTCTCAGAACAGCAACACAGACATCATGTTTTACCGCCTGAGTATGCCCATTGAGTGTGCTGAGGTCTT CTCAAAGTCCGTGGCTGGAGGGATCCCTGGCGCCGGCTTCTATGGGCCCAAGAATGATTTGGAGGACTTT GATGTGGATTCTGACTTTGAGGTTCTGATGAAGACAGCTCATGGTCATCTTGTGCCCGACCGCATGGACA AGGACAAAGAGACCCCCAAGCCAGAATTCAATAACCACAAAGATTATGCTCAGGAAAAGCCCTCACGCCT AAAGCAAAGATTCTTACTTAGAAGGACCAAGCCAGATTACAGCACAAGCCATTCTGCAAGACTCACTGAA GACGTCCTTGCTGATGACCGGGATGACTATGAATATCTGATGCAGACATCTACATACTATTATTCAGTGA GGATCTTTCCTGGACAAGAACCAGCTAACGTCTGGGTGGGCTGGATTACATCTGACTTCCACCAGTATGA CACAGGCTTCGATTTGGACAGAGTGCGCACAGTGACAGTCACCCTAGGAGATGAAAAAGGGAAAGTGCAC GAGAGCATCAAACGCAGCAACTGCTATATGGTGTGTGCGGGAGAGAGCATGAGCCCCGGGCAAGGCCGAA ACAACAGCAATGGCTTGGAGATCGGCTGTGTGGTGGACGCTGCCAGTGGGCTGCTCACATTCATAGCCAA CGGCAAGGAGCTAAGCACTTACTATCAGGTGGAGCCAAGCACGAAGTTATTTCCTGCGGTTTTCGCGCAA GCTACAAGTCCCAATGTTTTCCAGTTTGAGTTGGGCAGAATAAAGAATGTGATGCCTCTCTCAGCGGGAT TGTTTAAGAGTGAGCACAAAAACCCCGTGCCCCAGTGTCCTCCACGTCTGCACGTGCAGTTCCTGTCACA TGTCCTGTGGAGCCGGATGCCCAACCAGTTCCTCAAGGTGGACGTCTCTCGAATCAGTGAACGCCAAGGC TGGCTGGTGCAGTGTCTGGATCCTCTGCAGTTCATGTCCCTCCACATCCCCGAGGAGAACAGATCTGTTG ATATCTTAGAGCTGACCGAGCAGGAGGAGTTGTTGCAGTTTCACTACCACACCCTCCGCCTCTACTCTGC AGTCTGTGCCCTTGGGAATCACCGGGTGGCGCATGCACTGTGCAGCCACGTGGACGAACCTCAGCTGCTC TATGCCATTGAGAACAAGTACATGCCTGGCTTGCTGCGAGCCGGGTACTATGACCTGCTGATTGACATCC ACCTCAGCTCCTACGCCACCGCCAGGCTCATGATGAACAATGAGTTCATCGTCCCGATGACAGAGGAGAC AAAGAGCATCACCCTCTTCCCTGATGAGAACAAGAAACATGGCCTCCCGGGCATAGGCCTCAGCACCTCT CTCCGCCCTCGGATGTGCTTTTCCTCCCCTAGTTTCGTGAGCATTAGCAACGAATGCTATCAGTATAGTC CCGAGTTCCCACTGGACATCCTCAAGGCCAAGACCATCCAGATGCTCACAGAAGCGGTGAAGGAGGGCAG CCTCCACGCGCGGGATCCCGTGGGCGGGACCACCGAGTTCCTCTTTGTGCCTCTCATCAAGCTCTTCTAC ACCCTGCTCATCATGGGCATCTTTCACAATGAGGATTTGAAACACATCCTGCGGTTGATTGAGCCTAGTG TGTTTAAGGAAGCTGCCACTCCAGAGGAGGAAGGAGGTGCCCCAGAGAAGGAGATTAGTATAGACGACTC TAAACTGGAAGTCAAAGAGGAAGCCAAAGCAGGCAAAAGGCCTAAGGAAGGCTTACTCCAGATGAAACTC CCGGAGCCTGTTAAACTACAGATGTGCCTCTTGCTTCAGTACCTCTGTGACTGCCAGGTTCGGCACCGGA TAGAAGCCATTGTAGCCTTTTCAGATGACTTTGTAGCCAAACTCCAAGACAATCAGCGGTTCAGGTATAA TGAAGTCATGCAAGCCTTAAACATGTCTGCTGCACTCACTGCCAGGAAGGAGTTCCGGTCACCACCACAG GAGCAGATCAATATGCTTCTTAATTTTAAGGATGATAAAAGTGAATGCCCCTGCCCTGAAGAAATCCGAG ACCAACTCCTAGATTTCCATGAGGACCTGATGACTCACTGTGGAATTGAACTGGATGAAGATGGATCTCT AGACGGAAGCAATGACTTAACAATCAGAGGACGTCTGCTGTCCCTGGTAGAAAAGGTGACCTACCTGAAG AAAAAGCAAGCTGAAAAACCAGTCGCAAGTGACTCCAGAAAGTCCTCCAGCCTCCAGCAACTCATTTCTG AGACTATGGTGCGGTGGGCTCAAGAGTCTGTCATCGAGGACCCTGAGCTGGTGAGGGCTATGTTTGTGCT GCTGCACCGGCAGTATGATGGCATTGGGGGTCTCGTTCGAGCACTGCCAAAGACCTACACTATCAACGGC GTCTCTGTGGAGGACACCATCAATCTGCTTGCATCACTTGGTCAGATCCGATCCCTGCTGAGTGTGAGGA TGGGCAAAGAAGAAGAGAAGCTGATGATCCGAGGATTAGGGGATATTATGAATAACAAGGTGTTTTATCA GCATCCCAATCTCATGAGGGCCCTTGGGATGCACGAAACAGTGATGGAAGTCATGGTGAACGTCCTTGGA GGTGGGGAGTCCAAGGAAATCACCTTCCCCAAGATGGTGGCCAACTGCTGCCGTTTTCTCTGTTACTTCT GTCGTATAAGTAGGCAGAATCAGAAAGCCATGTTTGATCATCTCAGTTATTTACTGGAAAACAGCAGTGT TGGTCTTGCCTCACCAGCCATGAGAGGTTCAACTCCATTAGACGTGGCCGCAGCGTCAGTGATGGATAAC AATGAGCTTGCCCTTGCTCTACGAGAGCCGGATCTGGAGAAGGTGGTTCGCTATCTGGCCGGCTGTGGTC TGCAGAGCTGCCAGATGCTGGTGTCTAAGGGTTACCCAGACATTGGGTGGAATCCAGTTGAAGGAGAACG ATATCTTGACTTTCTCAGATTTGCCGTCTTCTGTAATGGGGAGAGTGTGGAAGAGAATGCAAATGTTGTG GTGAGGTTGCTCATCCGGAGACCGGAGTGCTTTGGCCCTGCCTTGAGAGGAGAAGGTGGTAATGGTCTCC TTGCAGCCATGGAAGAAGCCATAAAAATAGCTGAGGATCCTTCTAGAGATGGCCCCTCTCCAACCAGTGG ATCCAGCAAAACCCTTGATGCGGAAGAGGAGGAAGACGACACCATCCACATGGGGAACGCAATCATGACC TTCTACGCAGCTTTGATTGACCTGCTTGGTCGCTGTGCTCCTGAAATGCATTTGATTCATGCTGGAAAGG GAGAAGCCATCCGAATCAGGTCTATTTTGCGATCCCTGATTCCATTGGGAGACTTGGTGGGTGTAATCAG CATTGCATTTCAGATGCCAACAATAGCCAAAGATGGGAAGGTGGTGGAGCCTGACATGTCCGCGGGGTTT TGCCCAGATCACAAGGCAGCCATGGTTTTGTTCCTTGACAGGGTCTATGGAATTGAGGTGCAAGATTTCC TCCTCCATCTCCTTGAGGTTGGCTTTCTGCCAGATCTTCGCGCTGCTGCCTCTCTAGACACGGCTGCACT AAGTGCTACAGACATGGCCTTGGCCCTCAATCGGTACCTCTGCACAGCTGTCCTGCCTTTGTTAACGAGA TGTGCTCCCCTGTTTGCTGGAACAGAGCACCATGCTTCCCTCATTGACTCTCTGCTACACACTGTATATA GACTCTCTAAGGGATGTTCCCTCACCAAAGCTCAGCGGGACTCCATAGAAGTGTGCCTGCTCTCTATATG TGGCCAACTGCGACCTTCTATGATGCAGCACCTACTCCGAAGGCTGGTGTTTGATGTCCCACTGCTGAAC GAGCACGCAAAGATGCCTCTAAAGCTGCTGACCAATCATTATGAAAGATGCTGGAAATATTACTGCCTAC CTGGAGGGTGGAGCAACTTTGGTGCTGCCTCGGAAGAAGAACTTCATTTATCAAGAAAATTATTTTGGGG CATTTTTGATGCTTTGTCTCAAAAGAAATACGAACAAGAACTTTTCAAACTGGCCCTGCCTTGCCTGAGT GCAGTTGCGGGAGCTTTACCTCCAGACTACATGGAGTCAAACTATGTCAGTATGATGGAAAAACAGTCAT CCATGGACTCTGAAGGGAACTCTAACCCACAACCTGTTGATACCTCAAACATTACAATTCCCGAGAAGCT GGAATACTTCATTAACAAGTATGCGGAGCATTCCCATGATAAATGGTCTATGGACAAGTTGGCGAATGGA TGGATTTATGGGGAAATATATTCAGACTCTTCTAAGATCCAGCCACTAATGAAGCCATATAAACTCTTAT CTGAAAAGGAAAAAGAAATTTATCGTTGGCCAATCAAGGAGTCTTTAAAAACGATGCTGGCTTGGGGTTG GAGAATTGAGAGGACACGGGAGGGAGACAGTATGGCCCTTTATAACCGGACTCGGCGCATTTCTCAGACT AGCCAGGTGTCTATAGATGCTGCACATGGGTATAGCCCCCGTGCTATCGACATGAGTAACGTTACCCTCT CGAGAGACCTGCATGCTATGGCGGAGATGATGGCTGAAAACTACCACAACATATGGGCCAAGAAAAAGAA AATGGAGCTGGAATCCAAAGGAGGAGGAAACCACCCCCTGCTAGTGCCCTACGACACACTGACAGCCAAG GAGAAAGCCAAGGACAGAGAAAAGGCCCAGGACATCTTCAAGTTCCTACAGATCAGTGGTTATGCTGTAT CCAGAGGGTTCAAGGACCTGGATCTGGACACACCTTCCATTGAGAAGCGATTTGCCTACAGTTTCCTGCA GCAGCTGATCCGATATGTGGACGAGGCCCATCAGTACATCCTGGAGTTTGACGGTGGCAGCAGAAGCAAA GGAGAGCATTTCCCGTACGAGCAAGAGATCAAGTTCTTCGCCAAAGTTGTTCTTCCTTTAATTGATCAGT ATTTCAAAAACCATCGCCTGTACTTCTTGTCTGCTGCAAGCAGGCCTCTTTGCACCGGAGGACATGCGTC CAACAAGGAGAAGGAGATGGTTACAAGCCTGTTCTGCAAACTTGGAGTTCTTGTCAGGCATAGGATTTCA CTGTTTGGGAATGATGCTACCTCAATTGTGAACTGTCTTCATATTTTGGGTCAGACTTTGGATGCAAGGA CTGTGATGAAGACGGGTCTGGACAGCGTGAAAAGTGCTCTCAGGGCCTTTCTGGACAATGCGGCGGAGGA TCTGGAAAAGACGATGGAAAACCTTAAGCAGGGCCAGTTTACTCACACCAGGAGCCAGCCCAAGGGCGTG ACTCAGATCATCAACTATACCACCGTGGCGCTCCTGCCCATGCTCTCTTCCCTGTTTGAGCACATTGGCC AGCATCAGTTTGGAGAAGATCTGATATTGGAGGATGTGCAGGTGTCTTGTTACAGAATTCTGACCAGCTT GTATGCCTTGGGAACCAGCAAGAGCATCTATGTGGAAAGGCAACGTTCTGCACTCGGAGAATGCCTAGCT GCCTTTGCTGGTGCCTTCCCTATCGCCTTTCTAGAAACCCACCTGGACAAACATAATGTTTACTCCATCT ACAACACCAGGTCTTCACGAGAAAGAGCAGCTCTCAGTTTACCCGCAAATGTGGAGGATGTCTGCCCAAA TATACCATCCCTGGAGAAGCTCATGACTGAGATCATAGAGCTGGCAGAGTCAGGAACCCGTTACACTCAG ATGCCACACATGATGGGGGTGGTACTGCCCATGTTATGCAGCTACATGTCAAGGTGGTGGGAGCACGGTC CTGAGAACCATCCAGAGAGGGCTGAGATGTGCTGCACAGCGCTCAACTCAGAGCACATGAACACACTGCT GGGCAACATTCTCAAGATCATCTACAACAACCTGGGGATTGATGAAGGGGCCTGGATGAAGCGCTTAGCT GTATTTTCACAGCCAATCATCAACAAGGTGAAACCTCAGCTCTTAAAAACTCATTTCTTACCCTTAATGG AGAAACTAAAGAAAAAGGCTGCCATGGTAGTGTCTGAGGAAGACCACCTAAAAGCCGAAGCCAGAGGGGA CATGTCCGAAGCGGAGCTGCTCATTCTAGATGAGTTTACCACATTGGCCAGGAATCTCTATGCCTTCTAC CCACTCTTGATCCGATTTGTGGACTATAACAGGGCAAAGTGGCTGAAGGAACCCAACCCAGAAGCAGAGG AGCTATTTCGAATGGTAGCTGAAGTCTTCATTTACTGGTCCAAATCCCATAATTTCAAAAGAGAGGAACA GAACTTTGTGGTGCAGAATGAAATCAACAACATGTCCTTCCTCATCACCGACACAAAGTCTAAGATGTCC AAGGCAGCCATTTCTGATCAAGAGAGGAAGAAAATGAAGCGGAAAGGAGACCGGTATTCTATGCAGACAT CTTTGATTGTGGCAGCTCTGAAGCGATTGCTTCCCATTGGACTGAACATCTGTGCCCCTGGGGACCAAGA GCTCATTGCTCTGGCCAAAAACCGATTTAGCTTGAAAGACACTGAGGAGGAAGTACGTGATGTAATCCGC AGTAATATACACTTGCAAGGCAAGCTGGAAGACCCTGCAATCAGGTGGCAGATGGCTCTATACAAAGACT TGCCAAACAGGGCAGAAGACACCTCAGACCCAGAGAGGACAGTGGAGCGTATCCTGGATATAGCGAATGT GCTTTTTCACCTTGAACAGGTGGAGCACCCTCAGAGATCAAAGAAAGCCGTGTGGCACAAACTGCTCTCT AAGCAGAGAAAAAGAGCTGTTGTTGCCTGTTTCCGGATGGCCCCTTTGTACAATCTGCCAAGGCATCGGG CTGTCAATCTCTTTCTTCAGGGATATGAAAAGTCTTGGATTGAAACAGAAGAGCATTACTTTGAGGATAA ATTGATCGAAGATTTAGCGAAACCGGGGTCTGAACTCCCAGAAGAAGATGAAGCCATGAAAAGAGTTGAT CCTCTGCATCAGCTTATTCTTCTGTTCAGCCGCACAGCCTTAACAGAGAAATGCAAACTGGAGGAAGATT TTCTGTACATGGCGTATGCAGACATTATGGCAAAGAGTTGTCACGATGAAGAAGACGATGATGGTGAAGA AGAAGTGAAGAGCTTTGAAGTCACAGGATCCCAACGCAGCAAGGAAAAGGAAATGGAAAAGCAGAAGCTT CTGTACCAGCAAGCCAGACTGCATGACCGCGGGGCTGCCGAGATGGTTCTCCAGACCTTCAGTGCCAGCA AAGGTGAAACTGGACCAATGGTGGCTGCCACTTTGAAGCTGGGTATTGCTACTTTAAATGGTGGGAACTC CACGGTGCAGCAGAAGATGCTGGATTACCTGAAGGAGAAAAAAGATGTAGGCTTCTTCCAGAGCCTGGCA GGCCTCATGCAGTCTTGCAGTGTCCTGGACCTGAATGCCTTTGAGAGGCAAAACAAAGCAGAAGGACTTG GGATGGTGACTGAGGAAGGATCAGGAGAGAAGGTACTTCAGGATGATGAGTTCACCTGTGACCTCTTCCG ATTCCTGCAGCTGCTCTGTGAAGGACACAACTCAGATTTTCAGAATTACCTGAGAACCCAGACTGGCAAC AACACCACAGTTAATATCATCATCTCTACTGTGGACTACCTCCTTCGAGTGCAGGAGTCCATTAGTGATT TCTATTGGTACTACTCTGGCAAGGACATCATAGGTGAGCAGGGCCAGCGTAACTTTTCCAAAGCCATCCA AGTGGCGAAGCAGGTGTTCAACACACTCACGGAGTACATCCAGGGTCCTTGTACCGGAAACCAGCAGAGT TTGGCACACAGCAGGCTCTGGGATGCTGTTGTGGGCTTCCTTCATGTATTTGCACACATGCAGATGAAGC TGTCTCAGGATTCCAGCCAGATTGAGCTCTTAAAAGAACTGATGGATCTCCAAAAGGACATGGTGGTCAT GCTGCTGTCTATGCTAGAGGGTAATGTGGTAAACGGAACAATAGGCAAGCAGATGGTGGACATGCTTGCG GAGTCATCCAACAACGTGGAGATGATCCTCAAGTTCTTTGACATGTTTCTGAAGTTAAAGGACTTGACAT CCTCTGACACATTTAAAGAGTATGACCCTGATGGCAAAGGCGTCATTTCCAAGAGAGACTTCCACAAAGC CATGGAGAGCCACAAACACTACACCCAGTCAGAGACTGAGTTTCTGTTGTCCTGTGCAGAGACAGATGAG AACGAGACGCTGGATTATGAAGAGTTTGTCAAAAGGTTCCACGAGCCTGCCAAGGACATCGGCTTCAACG TCGCCGTTCTGCTGACCAACCTCTCAGAGCACATGCCCAATGACACGAGGCTGCAGACCTTCTTGGAGCT GGCAGAGAGTGTCCTCAACTACTTCCAACCTTTCCTGGGTCGCATCGAGATCATGGGCAGCGCCAAGCGC ATCGAGAGGGTCTACTTTGAGATCAGCGAATCCAGCCGAACCCAGTGGGAGAAGCCCCAGGTCAAGGAGT CCAAGAGGCAGTTCATATTCGATGTGGTCAATGAGGGCGGGGAAAAGGAGAAGATGGAGCTCTTTGTGAA CTTCTGTGAGGACACCATCTTTGAGATGCAGCTGGCAGCTCAGATCTCAGAGTCCGGCCTGAATGAGAGG TCGGCAAATAAAGAGGAGAGTGAAAAGGAGAGGCCAGAGGAGCAGGCCCCACGGATGGGCTTCTTCTCCC TGCTCACCGTCCAGTCAGCCCTGTTTGCACTCAGGTACAATGTCCTAACCCTTGTGAGGATGCTCAGCCT GAAGAGCCTGAAGAAGCAGATGAAGAGAATGAAGAAGATGACAGCGAAGGACATGGTCTCAGCCTTCTTC TCGTCCTACTGGAGTGTGTTTGTCACCCTCCTACACTTCGTGGCCAGCGTCTGTAGGGGCTTCTTCCGCA TTGTCTCCAGCCTACTGCTGGGGGGCAGCCTGGTGGAAGGTGCTAAGAAAATCAAAGTGGCGGAGCTTCT TGCCAACATGCCAGACCCTACTCAGGATGAGGTGCGAGGAGATGAAGAGGAGGGAGAGAGGAAGCCATTA GAGTCAGCCCTGCCCTCTGAAGACCTAACGGACTTGAAGGAACTGACGGAGGAAAGTGACCTTCTTTCAG ACATATTTGGCTTGGATCTGAAGAGAGAAGGAGGGCAGTACAAACTAATTCCTCACAACCCAAATGCTGG TCTCAGTGACCTCATGACGAACCCCATCCCTGTCCCTGAGGTACAAGAAAAGTTTCAGGAGCAGAAGGTA AAAGAAGAAAAGGAAGGAAAGGAAGAAACCAAGTCTGAACCGGAGAAGGCTGAGGGAGAGGATGGAGAAA AAGAAGAAAAAGCCAAAGATGATAAGGGTAAACAGAAGTTGAGGCAGCTTCATACACATCGATATGGGGA GCCTGAGGTCCCCGAGTCAGCATTCTGGAAGAAAATCATAGCCTACCAACAGAAGCTGCTGAACTATTTT GCTCGCAACTTTTACAACATGAGAATGCTGGCCCTGTTTGTCGCCTTCGCCATCAATTTCATCCTGCTCT TCTACAAGGTCTCCACTTCTTCTGTGGTTGAAGGAAAGGAGCTGCCTACCCGAACTTCCAGCGATGCCGC TAAAGTGACCACCAGCCTGGACAGCGGCCCCCACAGAATCATTGCGGTTCACTACGTCCTGGAGGAGAGT AGCGGCTACATGGAACCCACCTTGCGCATCCTAGCCATCCTCCACACCATCATCTCCTTCTTCTGCATCA TCGGATACTACTGCCTGAAAGTCCCCTTGGTTATTTTTAAGCGAGAGAAGGAAGTGGCACGGAAGTTGGA GTTTGATGGGCTTTACATTACGGAGCAGCCATCGGAAGACGATATCAAAGGCCAGTGGGACAGACTGGTG ATCAACACACAGTCATTTCCCAATAACTACTGGGATAAATTTGTTAAAAGAAAGGTAATGGATAAATATG GAGAGTTTTATGGGAGAGACAGAATCAGCGAGTTACTGGGCATGGATAAGGCTGCACTGGATTTCAGCGG TGCAAGAGAGAAGAAGAAGCCCAAGAAGGACAGTTCCTTGTCTGCTGTATTGAACTCTATTGACGTGAAG TACCAGATGTGGAAACTTGGAGTCGTGTTCACAGACAATTCCTTCCTCTACCTAGCCTGGTATATGACCA TGTCTGTTCTTGGACACTACAACAACTTTTTTTTTGCTGCCCACCTCCTTGACATCGCGATGGGCTTCAA GACCTTGAGAACTATCCTGTCCTCAGTTACCCATAATGGCAAACAGCTCGTGTTAACTGTTGGCTTGTTG GCTGTCGTTGTATACCTGTACACTGTTGTGGCGTTCAATTTCTTCCGAAAATTCTACAATAAAAGCGAGG ATGGTGACACGCCGGACATGAAGTGTGACGACATGCTGACGTGTTACATGTTCCACATGTATGTGGGCGT CCGTGCTGGAGGGGGCATCGGTGATGAAATTGAAGACCCAGCAGGAGATGAGTACGAGATCTACCGAATC ATCTTTGATATCACATTCTTCTTCTTTGTGATTGTCATCCTTTTGGCTATCATACAAGGTTTGATCATTG ATGCTTTTGGAGAACTCAGAGACCAACAAGAGCAAGTCAAGGAAGACATGGAGACCAAGTGCTTCATCTG TGGGATAGGCAACGACTACTTTGATACAGTGCCGCATGGCTTTGAAACCCATACTCTACAGGAGCACAAC CTGGCCAACTACCTGTTTTTTCTGATGTACCTCATAAACAAGGATGAAACAGAACACACGGGACAGGAAT CTTATGTCTGGAAGATGCACCAAGAGAGGTGTTGGGAATTTTTCCCAGCAGGAGACTGTTTCCGGAAACA GTATGAGGACCAGTTAAATTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_032078 |
Insert Size | 14862 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. |
Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
Reference Data | |
RefSeq | NM_032078.2, NP_114467.1 |
RefSeq Size | 14862 bp |
RefSeq ORF | 14862 bp |
Locus ID | 689560 |
UniProt ID | B0LPN4 |
Gene Summary | may play a role in associative memory and heart function in diabetic rats [RGD, Feb 2006] |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RR210756 | Ryr2 (Myc-DDK-tagged ORF) - Rat ryanodine receptor 2, cardiac (Ryr2), (10 ug) |
CNY 95,290.00 |
Customer
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