Ryr2 (NM_032078) Rat Untagged Clone

CAT#: RN210756

Ryr2 (untagged ORF) - Rat ryanodine receptor 2, cardiac (Ryr2), (10 ug)



  "NM_032078" in other vectors (1)

CNY 95,290.00


货期*
14周

规格
    • 10 ug

Product images

经常一起买 (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

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]
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

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