Trpm5 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Trpm5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Trpm5 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ORa07959 NM_001191896.1
Latest version!
Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 16 $559.30
$799.00
ORa56761 XM_017589501.1
Latest version!
Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORa56762 XM_017589502.1
Latest version!
Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa48727 XM_008760160.2
Latest version!
Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID ORa07959
    Clone ID Related Accession (Same CDS sequence) NM_001191896.1
    Accession Version NM_001191896.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3471bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-26
    Organism Rattus norvegicus(Norway rat)
    Product transient receptor potential cation channel subfamily M member 5
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AC095135.11. On Jul 17, 2010 this sequence version replaced XM_344979.4. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2689599 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGCCGATGG CCCAGAGCTC TTGTCCTGGA AGCCCCCCAG ATACTGGGGA TGGATGGGAG 
    CCAGTCCTAT GCAAGGGAGA GGTCAACTTC GGAGGGTCTG GGAAAAAGCG AAGCAAGTTT
    GTGAAGGTGC CAAGCAATGT GGCCCCCTCC ATGCTCTTTG AACTCCTGCT CACCGAGTGG
    CACCTGCCAG CCCCCAACCT GGTGGTGTCC CTGGTGGGCG AGGAACGGCT TTTTGCTATG
    AAGTCCTGGC TTCGGGATGT CTTGCGCAAG GGGCTGGTGA AAGCAGCTCA GAGCACAGGT
    GCCTGGATCC TGACCAGTGC CCTCCATGTG GGCCTGGCAC GCCATGTTGG ACAGGCTGTA
    CGTGATCACT CTCTGGCTAG CACGTCCACC AAGGTCCGTG TGGTGGCCAT CGGAATGGCC
    TCTCTGGACC GAATCCTTCA CCGCCAACTT CTAGATGGTG TCCAGGAGGA TACTCCCATC
    CACTACCCAG CAGATGAGGG CAGCACTCAG GGACCCCTCT GCCCTCTGGA CAGCAATCTC
    TCCCACTTCA TCCTCGTGGA GCCAGGCACC CTTGGGAGTG GGAACGACGG ACTGGCAGAG
    CTGCAGCTGA GCCTGGAGAA GCACATCTCT CAGCAGAGGA CAGGTTATGG GGGTACCAGC
    AGCATCCAGA TACCTGTCCT TTGCTTGCTA GTCAATGGTG ACCCCAGCAC CCTAGAGAGG
    ATGTCCAGGG CAGTGGAGCA GGCTGCCCCA TGGCTGATCC TGGCAGGTTC TGGGGGCATT
    GCTGATGTAC TCGCTGCCCT GGTGGGCCAG CCTCATCTCC TGGTGCCCCA GGTGACCGAG
    AAGCAGTTCA GAGAGAAATT CCCAAGCGAG TGTTTCTCTT GGGAAGCCAT TGTACACTGG
    ACAGAGCTGC TACAGAACAT TGCTGCACAC CCCCACCTGC TCACAGTGTA CGACTTTGAG
    CAGGAGGGTT CCGAGGACCT GGACACCGTC ATCCTCAAGG CACTTGTGAA AGCCTGCAAG
    AGTCACAGCC GAGACGCACA AGACTACCTA GATGAGCTCA AGTTAGCAGT GGCCTGGGAT
    CGCGTGGACA TTGCCAAGAG TGAAATCTTC AATGGGGACG TGGAGTGGAA GTCCTGTGAC
    TTGGAAGAGG TGATGACAGA TGCCCTAGTG AGCAACAAGC CTGACTTCGT GCGCCTCTTT
    GTGGACAGTG GTGCTGACAT GGCCGAGTTC TTGACCTATG GGCGGCTGCA GCAGCTTTAC
    CACTCTGTGT CCCCCAAGAG CCTCCTCTTT GAACTGCTGG AGCGTAAGCA TGAGGAGGGT
    CGGCTGACAC TGGCTGGCCT GGGTGCCCAG CAGACCCGGG AGCTGCCCGT TGGTCTGCCT
    GCCTTTTCAC TCCATGAGGT CTCCCGAGTT CTCAAAGATT TCCTGCATGA CGCCTGCCGT
    GGCTTCTACC AGGATGGGCG CAGGATGGAG GAGAGAGGGC CACCCAAGCG GCCTGCAGGC
    CAGAAATGGC TGCCGGACCT CAGTCGGAAG AGTGAAGACC CATGGAGGGA CCTGTTCCTT
    TGGGCTGTGC TGCAGAACCG TTATGAGATG GCCACATACT TCTGGGCCAT GGGCCGGGAG
    GGTGTGGCTG CTGCTCTGGC GGCCTGCAAG ATCATCAAGG AAATGTCCCA CCTGGAGAAA
    GAGGCAGAGG TGGCCCGCAC TATGCGTGAG GCCAAGTATG AGCAGCTGGC CCTCGATCTT
    TTCTCAGAGT GCTACAGCAA CAGTGAGGAC CGTGCCTTTG CCCTGTTGGT GCGCAGGAAC
    CACAGCTGGA GCAGGACCAC CTGCCTGCAC CTGGCCACTG AGGCCGATGC CAAGGCCTTC
    TTTGCCCATG ATGGTGTGCA AGCATTCCTG ACGAAGATCT GGTGGGGAGA CATGGCCACA
    GGCACACCCA TCTTACGACT TCTGGGTGCC TTCACCTGCC CAGCCCTCAT CTACACAAAT
    CTCATCTCCT TCAGTGAGGA TGCCCCGCAG AGGATGGACC TGGAAGATCT GCAGGAGCCA
    GACAGTTTGG ATATGGAAAA GAGCTTCCTG TGCAGCCATG GTGGCCAATT GGAGAAGTTA
    ACAGAGGCGC CAAGGGCTCC TGGCGATCTA GGCCCACAAG CTGCCTTCCT GCTCACACGG
    TGGAGGAAGT TCTGGGGCGC TCCTGTGACT GTGTTCTTGG GGAATGTGGT CATGTACTTT
    GCATTCCTCT TCCTATTCTC CTACGTCCTG CTGGTGGATT TCAGGCCACC ACCCCAGGGG
    CCATCTGGGT CGGAAGTTAC CCTGTATTTC TGGGTCTTCA CACTGGTGCT GGAGGAAATC
    CGACAGGGAT TCTTCACAAA CGAGGACACC CGTCTGGTGA AGAAGTTCAC TCTGTACGTA
    GAAGACAACT GGAACAAATG TGACATGGTG GCCATCTTCC TGTTCATTGT TGGTGTCACC
    TGTAGAATGG TGCCCTCCGT GTTTGAGGCT GGCCGGACTG TTCTGGCCAT TGACTTCATG
    GTGTTCACAC TTCGGCTCAT CCACATCTTT GCTATTCACA AGCAGCTGGG TCCTAAGATC
    ATCATTGTAG AGCGGATGAT GAAAGATGTC TTCTTCTTCC TCTTCTTCCT GAGCGTGTGG
    CTCGTGGCCT ATGGCGTGAC CACTCAGGCC CTGCTGCACC CCCACGATGG CCGTCTGGAG
    TGGATTTTCC GCCGTGTGCT CTACAGGCCT TACCTGCAGA TCTTTGGGCA AATCCCTCTG
    GATGAAATTG ATGAGGCCCG TGTGAACTGC TCTCTTCACC CGTTGCTGCT GGACAGCTCA
    GCTTCCTGCC CTAATCTCTA TGCCAACTGG CTGGTCATTC TCCTGCTGGT TACCTTCCTC
    CTCGTCACTA ATGTGCTACT TATGAACCTT CTGATCGCCA TGTTCAGCTA CACATTCCAG
    GTGGTGCAGG GCAATGCAGA CATGTTCTGG AAGTTTCAAC GCTACCACCT CATCGTTGAA
    TACCACGGAA GGCCGGCTCT GGCCCCGCCC TTCATCCTGC TCAGCCACCT GAGCCTGGTG
    CTCAAGCAGG TCTTCAGGAA GGAAGCCCAG CACAAACAGC AACACCTGGA GAGAGACTTG
    CCTGACCCCG TGGACCAGAA GATCATTACC TGGGAAACAG TTCAAAAGGA GAACTTCCTG
    AGTACCATGG AGAAACGGAG GAGGGACAGT GAGGAGGAGG TGCTGAGGAA AACGGCACAC
    AGAGTGGACT TGATTGCCAA ATACATCGGG GGTCTGAGAG AGCAAGAAAA GAGGATCAAG
    TGTCTGGAGT CACAGGCCAA CTACTGTATG CTCCTCTTGT CCTCCATGAC TGACACACTG
    GCTCCTGGAG GCACCTACTC AAGTTCTCAA AACTGTGGTC GCAGGAGTCA GCCAGCCTCT
    GCTAGAGACA GGGAGTACCT AGAGGCTGGC TTGCCACACT CAGACACCTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001178825.1
    CDS1..3471
    Translation

    Target ORF information:

    RefSeq Version NM_001191896.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001191896.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGCCGATGG CCCAGAGCTC TTGTCCTGGA AGCCCCCCAG ATACTGGGGA TGGATGGGAG 
    CCAGTCCTAT GCAAGGGAGA GGTCAACTTC GGAGGGTCTG GGAAAAAGCG AAGCAAGTTT
    GTGAAGGTGC CAAGCAATGT GGCCCCCTCC ATGCTCTTTG AACTCCTGCT CACCGAGTGG
    CACCTGCCAG CCCCCAACCT GGTGGTGTCC CTGGTGGGCG AGGAACGGCT TTTTGCTATG
    AAGTCCTGGC TTCGGGATGT CTTGCGCAAG GGGCTGGTGA AAGCAGCTCA GAGCACAGGT
    GCCTGGATCC TGACCAGTGC CCTCCATGTG GGCCTGGCAC GCCATGTTGG ACAGGCTGTA
    CGTGATCACT CTCTGGCTAG CACGTCCACC AAGGTCCGTG TGGTGGCCAT CGGAATGGCC
    TCTCTGGACC GAATCCTTCA CCGCCAACTT CTAGATGGTG TCCAGGAGGA TACTCCCATC
    CACTACCCAG CAGATGAGGG CAGCACTCAG GGACCCCTCT GCCCTCTGGA CAGCAATCTC
    TCCCACTTCA TCCTCGTGGA GCCAGGCACC CTTGGGAGTG GGAACGACGG ACTGGCAGAG
    CTGCAGCTGA GCCTGGAGAA GCACATCTCT CAGCAGAGGA CAGGTTATGG GGGTACCAGC
    AGCATCCAGA TACCTGTCCT TTGCTTGCTA GTCAATGGTG ACCCCAGCAC CCTAGAGAGG
    ATGTCCAGGG CAGTGGAGCA GGCTGCCCCA TGGCTGATCC TGGCAGGTTC TGGGGGCATT
    GCTGATGTAC TCGCTGCCCT GGTGGGCCAG CCTCATCTCC TGGTGCCCCA GGTGACCGAG
    AAGCAGTTCA GAGAGAAATT CCCAAGCGAG TGTTTCTCTT GGGAAGCCAT TGTACACTGG
    ACAGAGCTGC TACAGAACAT TGCTGCACAC CCCCACCTGC TCACAGTGTA CGACTTTGAG
    CAGGAGGGTT CCGAGGACCT GGACACCGTC ATCCTCAAGG CACTTGTGAA AGCCTGCAAG
    AGTCACAGCC GAGACGCACA AGACTACCTA GATGAGCTCA AGTTAGCAGT GGCCTGGGAT
    CGCGTGGACA TTGCCAAGAG TGAAATCTTC AATGGGGACG TGGAGTGGAA GTCCTGTGAC
    TTGGAAGAGG TGATGACAGA TGCCCTAGTG AGCAACAAGC CTGACTTCGT GCGCCTCTTT
    GTGGACAGTG GTGCTGACAT GGCCGAGTTC TTGACCTATG GGCGGCTGCA GCAGCTTTAC
    CACTCTGTGT CCCCCAAGAG CCTCCTCTTT GAACTGCTGG AGCGTAAGCA TGAGGAGGGT
    CGGCTGACAC TGGCTGGCCT GGGTGCCCAG CAGACCCGGG AGCTGCCCGT TGGTCTGCCT
    GCCTTTTCAC TCCATGAGGT CTCCCGAGTT CTCAAAGATT TCCTGCATGA CGCCTGCCGT
    GGCTTCTACC AGGATGGGCG CAGGATGGAG GAGAGAGGGC CACCCAAGCG GCCTGCAGGC
    CAGAAATGGC TGCCGGACCT CAGTCGGAAG AGTGAAGACC CATGGAGGGA CCTGTTCCTT
    TGGGCTGTGC TGCAGAACCG TTATGAGATG GCCACATACT TCTGGGCCAT GGGCCGGGAG
    GGTGTGGCTG CTGCTCTGGC GGCCTGCAAG ATCATCAAGG AAATGTCCCA CCTGGAGAAA
    GAGGCAGAGG TGGCCCGCAC TATGCGTGAG GCCAAGTATG AGCAGCTGGC CCTCGATCTT
    TTCTCAGAGT GCTACAGCAA CAGTGAGGAC CGTGCCTTTG CCCTGTTGGT GCGCAGGAAC
    CACAGCTGGA GCAGGACCAC CTGCCTGCAC CTGGCCACTG AGGCCGATGC CAAGGCCTTC
    TTTGCCCATG ATGGTGTGCA AGCATTCCTG ACGAAGATCT GGTGGGGAGA CATGGCCACA
    GGCACACCCA TCTTACGACT TCTGGGTGCC TTCACCTGCC CAGCCCTCAT CTACACAAAT
    CTCATCTCCT TCAGTGAGGA TGCCCCGCAG AGGATGGACC TGGAAGATCT GCAGGAGCCA
    GACAGTTTGG ATATGGAAAA GAGCTTCCTG TGCAGCCATG GTGGCCAATT GGAGAAGTTA
    ACAGAGGCGC CAAGGGCTCC TGGCGATCTA GGCCCACAAG CTGCCTTCCT GCTCACACGG
    TGGAGGAAGT TCTGGGGCGC TCCTGTGACT GTGTTCTTGG GGAATGTGGT CATGTACTTT
    GCATTCCTCT TCCTATTCTC CTACGTCCTG CTGGTGGATT TCAGGCCACC ACCCCAGGGG
    CCATCTGGGT CGGAAGTTAC CCTGTATTTC TGGGTCTTCA CACTGGTGCT GGAGGAAATC
    CGACAGGGAT TCTTCACAAA CGAGGACACC CGTCTGGTGA AGAAGTTCAC TCTGTACGTA
    GAAGACAACT GGAACAAATG TGACATGGTG GCCATCTTCC TGTTCATTGT TGGTGTCACC
    TGTAGAATGG TGCCCTCCGT GTTTGAGGCT GGCCGGACTG TTCTGGCCAT TGACTTCATG
    GTGTTCACAC TTCGGCTCAT CCACATCTTT GCTATTCACA AGCAGCTGGG TCCTAAGATC
    ATCATTGTAG AGCGGATGAT GAAAGATGTC TTCTTCTTCC TCTTCTTCCT GAGCGTGTGG
    CTCGTGGCCT ATGGCGTGAC CACTCAGGCC CTGCTGCACC CCCACGATGG CCGTCTGGAG
    TGGATTTTCC GCCGTGTGCT CTACAGGCCT TACCTGCAGA TCTTTGGGCA AATCCCTCTG
    GATGAAATTG ATGAGGCCCG TGTGAACTGC TCTCTTCACC CGTTGCTGCT GGACAGCTCA
    GCTTCCTGCC CTAATCTCTA TGCCAACTGG CTGGTCATTC TCCTGCTGGT TACCTTCCTC
    CTCGTCACTA ATGTGCTACT TATGAACCTT CTGATCGCCA TGTTCAGCTA CACATTCCAG
    GTGGTGCAGG GCAATGCAGA CATGTTCTGG AAGTTTCAAC GCTACCACCT CATCGTTGAA
    TACCACGGAA GGCCGGCTCT GGCCCCGCCC TTCATCCTGC TCAGCCACCT GAGCCTGGTG
    CTCAAGCAGG TCTTCAGGAA GGAAGCCCAG CACAAACAGC AACACCTGGA GAGAGACTTG
    CCTGACCCCG TGGACCAGAA GATCATTACC TGGGAAACAG TTCAAAAGGA GAACTTCCTG
    AGTACCATGG AGAAACGGAG GAGGGACAGT GAGGAGGAGG TGCTGAGGAA AACGGCACAC
    AGAGTGGACT TGATTGCCAA ATACATCGGG GGTCTGAGAG AGCAAGAAAA GAGGATCAAG
    TGTCTGGAGT CACAGGCCAA CTACTGTATG CTCCTCTTGT CCTCCATGAC TGACACACTG
    GCTCCTGGAG GCACCTACTC AAGTTCTCAA AACTGTGGTC GCAGGAGTCA GCCAGCCTCT
    GCTAGAGACA GGGAGTACCT AGAGGCTGGC TTGCCACACT CAGACACCTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID ORa56761
    Clone ID Related Accession (Same CDS sequence) XM_017589501.1
    Accession Version XM_017589501.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3576bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product transient receptor potential cation channel subfamily M member 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCAGGAG TCTGGAAGGA ACAGACAGGA GACCCTCTGC AAAAGCCTCT GGAGAGCTGT 
    GTCGAGGGTG TTGGAATCCA GATGCCCGGA GTTCGAAAAG TCACAATGCC GATGGCCCAG
    AGCTCTTGTC CTGGAAGCCC CCCAGATACT GGGGATGGAT GGGAGCCAGT CCTATGCAAG
    GGAGAGGTCA ACTTCGGAGG GTCTGGGAAA AAGCGAAGCA AGTTTGTGAA GGTGCCAAGC
    AATGTGGCCC CCTCCATGCT CTTTGAACTC CTGCTCACCG AGTGGCACCT GCCAGCCCCC
    AACCTGGTGG TGTCCCTGGT GGGCGAGGAA CGGCTTTTTG CTATGAAGTC CTGGCTTCGG
    GATGTCTTGC GCAAGGGGCT GGTGAAAGCA GCTCAGAGCA CAGGTGCCTG GATCCTGACC
    AGTGCCCTCC ATGTGGGCCT GGCACGCCAT GTTGGACAGG CTGTACGTGA TCACTCTCTG
    GCTAGCACGT CCACCAAGGT CCGTGTGGTG GCCATCGGAA TGGCCTCTCT GGACCGAATC
    CTTCACCGCC AACTTCTAGA TGGTGTCCAG GAGGATACTC CCATCCACTA CCCAGCAGAT
    GAGGGCAGCA CTCAGGGACC CCTCTGCCCT CTGGACAGCA ATCTCTCCCA CTTCATCCTC
    GTGGAGCCAG GCACCCTTGG GAGTGGGAAC GACGGACTGG CAGAGCTGCA GCTGAGCCTG
    GAGAAGCACA TCTCTCAGCA GAGGACAGGT TATGGGGGTA CCAGCAGCAT CCAGATACCT
    GTCCTTTGCT TGCTAGTCAA TGGTGACCCC AGCACCCTAG AGAGGATGTC CAGGGCAGTG
    GAGCAGGCTG CCCCATGGCT GATCCTGGCA GGTTCTGGGG GCATTGCTGA TGTACTCGCT
    GCCCTGGTGG GCCAGCCTCA TCTCCTGGTG CCCCAGGTGA CCGAGAAGCA GTTCAGAGAG
    AAATTCCCAA GCGAGTGTTT CTCTTGGGAA GCCATTGTAC ACTGGACAGA GCTGCTACAG
    AACATTGCTG CACACCCCCA CCTGCTCACA GTGTACGACT TTGAGCAGGA GGGTTCCGAG
    GACCTGGACA CCGTCATCCT CAAGGCACTT GTGAAAGCCT GCAAGAGTCA CAGCCGAGAC
    GCACAAGACT ACCTAGATGA GCTCAAGTTA GCAGTGGCCT GGGATCGCGT GGACATTGCC
    AAGAGTGAAA TCTTCAATGG GGACGTGGAG TGGAAGTCCT GTGACTTGGA AGAGGTGATG
    ACAGATGCCC TAGTGAGCAA CAAGCCTGAC TTCGTGCGCC TCTTTGTGGA CAGTGGTGCT
    GACATGGCCG AGTTCTTGAC CTATGGGCGG CTGCAGCAGC TTTACCACTC TGTGTCCCCC
    AAGAGCCTCC TCTTTGAACT GCTGGAGCGT AAGCATGAGG AGGGTCGGCT GACACTGGCT
    GGCCTGGGTG CCCAGCAGAC CCGGGAGCTG CCCGTTGGTC TGCCTGCCTT TTCACTCCAT
    GAGGTCTCCC GAGTTCTCAA AGATTTCCTG CATGACGCCT GCCGTGGCTT CTACCAGGAT
    GGGCGCAGGA TGGAGGAGAG AGGGCCACCC AAGCGGCCTG CAGGCCAGAA ATGGCTGCCG
    GACCTCAGTC GGAAGAGTGA AGACCCATGG AGGGACCTGT TCCTTTGGGC TGTGCTGCAG
    AACCGTTATG AGATGGCCAC ATACTTCTGG GCCATGGGCC GGGAGGGTGT GGCTGCTGCT
    CTGGCGGCCT GCAAGATCAT CAAGGAAATG TCCCACCTGG AGAAAGAGGC AGAGGTGGCC
    CGCACTATGC GTGAGGCCAA GTATGAGCAG CTGGCCCTCG ATCTTTTCTC AGAGTGCTAC
    AGCAACAGTG AGGACCGTGC CTTTGCCCTG TTGGTGCGCA GGAACCACAG CTGGAGCAGG
    ACCACCTGCC TGCACCTGGC CACTGAGGCC GATGCCAAGG CCTTCTTTGC CCATGATGGT
    GTGCAAGCAT TCCTGACGAA GATCTGGTGG GGAGACATGG CCACAGGCAC ACCCATCTTA
    CGACTTCTGG GTGCCTTCAC CTGCCCAGCC CTCATCTACA CAAATCTCAT CTCCTTCAGT
    GAGGATGCCC CGCAGAGGAT GGACCTGGAA GATCTGCAGG AGCCAGACAG TTTGGATATG
    GAAAAGAGCT TCCTGTGCAG CCATGGTGGC CAATTGGAGA AGTTAACAGA GGCGCCAAGG
    GCTCCTGGCG ATCTAGGCCC ACAAGCTGCC TTCCTGCTCA CACGGTGGAG GAAGTTCTGG
    GGCGCTCCTG TGACTGTGTT CTTGGGGAAT GTGGTCATGT ACTTTGCATT CCTCTTCCTA
    TTCTCCTACG TCCTGCTGGT GGATTTCAGG CCACCACCCC AGGGGCCATC TGGGTCGGAA
    GTTACCCTGT ATTTCTGGGT CTTCACACTG GTGCTGGAGG AAATCCGACA GGGATTCTTC
    ACAAACGAGG ACACCCGTCT GGTGAAGAAG TTCACTCTGT ACGTAGAAGA CAACTGGAAC
    AAATGTGACA TGGTGGCCAT CTTCCTGTTC ATTGTTGGTG TCACCTGTAG AATGGTGCCC
    TCCGTGTTTG AGGCTGGCCG GACTGTTCTG GCCATTGACT TCATGGTGTT CACACTTCGG
    CTCATCCACA TCTTTGCTAT TCACAAGCAG CTGGGTCCTA AGATCATCAT TGTAGAGCGG
    ATGATGAAAG ATGTCTTCTT CTTCCTCTTC TTCCTGAGCG TGTGGCTCGT GGCCTATGGC
    GTGACCACTC AGGCCCTGCT GCACCCCCAC GATGGCCGTC TGGAGTGGAT TTTCCGCCGT
    GTGCTCTACA GGCCTTACCT GCAGATCTTT GGGCAAATCC CTCTGGATGA AATTGATGAG
    GCCCGTGTGA ACTGCTCTCT TCACCCGTTG CTGCTGGACA GCTCAGCTTC CTGCCCTAAT
    CTCTATGCCA ACTGGCTGGT CATTCTCCTG CTGGTTACCT TCCTCCTCGT CACTAATGTG
    CTACTTATGA ACCTTCTGAT CGCCATGTTC AGCTACACAT TCCAGGTGGT GCAGGGCAAT
    GCAGACATGT TCTGGAAGTT TCAACGCTAC CACCTCATCG TTGAATACCA CGGAAGGCCG
    GCTCTGGCCC CGCCCTTCAT CCTGCTCAGC CACCTGAGCC TGGTGCTCAA GCAGGTCTTC
    AGGAAGGAAG CCCAGCACAA ACAGCAACAC CTGGAGAGAG ACTTGCCTGA CCCCGTGGAC
    CAGAAGATCA TTACCTGGGA AACAGTTCAA AAGGAGAACT TCCTGAGTAC CATGGAGAAA
    CGGAGGAGGG ACAGTGAGGA GGAGGTGCTG AGGAAAACGG CACACAGAGT GGACTTGATT
    GCCAAATACA TCGGGGGTCT GAGAGAGCAA GAAAAGAGGA TCAAGTGTCT GGAGTCACAG
    GCCAACTACT GTATGCTCCT CTTGTCCTCC ATGACTGACA CACTGGCTCC TGGAGGCACC
    TACTCAAGTT CTCAAAACTG TGGTCGCAGG AGTCAGCCAG CCTCTGCTAG AGACAGGGAG
    TACCTAGAGG CTGGCTTGCC ACACTCAGAC ACCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017444990.1
    CDS2107..5682
    Translation

    Target ORF information:

    RefSeq Version XM_017589501.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017589501.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCAGGAG TCTGGAAGGA ACAGACAGGA GACCCTCTGC AAAAGCCTCT GGAGAGCTGT 
    GTCGAGGGTG TTGGAATCCA GATGCCCGGA GTTCGAAAAG TCACAATGCC GATGGCCCAG
    AGCTCTTGTC CTGGAAGCCC CCCAGATACT GGGGATGGAT GGGAGCCAGT CCTATGCAAG
    GGAGAGGTCA ACTTCGGAGG GTCTGGGAAA AAGCGAAGCA AGTTTGTGAA GGTGCCAAGC
    AATGTGGCCC CCTCCATGCT CTTTGAACTC CTGCTCACCG AGTGGCACCT GCCAGCCCCC
    AACCTGGTGG TGTCCCTGGT GGGCGAGGAA CGGCTTTTTG CTATGAAGTC CTGGCTTCGG
    GATGTCTTGC GCAAGGGGCT GGTGAAAGCA GCTCAGAGCA CAGGTGCCTG GATCCTGACC
    AGTGCCCTCC ATGTGGGCCT GGCACGCCAT GTTGGACAGG CTGTACGTGA TCACTCTCTG
    GCTAGCACGT CCACCAAGGT CCGTGTGGTG GCCATCGGAA TGGCCTCTCT GGACCGAATC
    CTTCACCGCC AACTTCTAGA TGGTGTCCAG GAGGATACTC CCATCCACTA CCCAGCAGAT
    GAGGGCAGCA CTCAGGGACC CCTCTGCCCT CTGGACAGCA ATCTCTCCCA CTTCATCCTC
    GTGGAGCCAG GCACCCTTGG GAGTGGGAAC GACGGACTGG CAGAGCTGCA GCTGAGCCTG
    GAGAAGCACA TCTCTCAGCA GAGGACAGGT TATGGGGGTA CCAGCAGCAT CCAGATACCT
    GTCCTTTGCT TGCTAGTCAA TGGTGACCCC AGCACCCTAG AGAGGATGTC CAGGGCAGTG
    GAGCAGGCTG CCCCATGGCT GATCCTGGCA GGTTCTGGGG GCATTGCTGA TGTACTCGCT
    GCCCTGGTGG GCCAGCCTCA TCTCCTGGTG CCCCAGGTGA CCGAGAAGCA GTTCAGAGAG
    AAATTCCCAA GCGAGTGTTT CTCTTGGGAA GCCATTGTAC ACTGGACAGA GCTGCTACAG
    AACATTGCTG CACACCCCCA CCTGCTCACA GTGTACGACT TTGAGCAGGA GGGTTCCGAG
    GACCTGGACA CCGTCATCCT CAAGGCACTT GTGAAAGCCT GCAAGAGTCA CAGCCGAGAC
    GCACAAGACT ACCTAGATGA GCTCAAGTTA GCAGTGGCCT GGGATCGCGT GGACATTGCC
    AAGAGTGAAA TCTTCAATGG GGACGTGGAG TGGAAGTCCT GTGACTTGGA AGAGGTGATG
    ACAGATGCCC TAGTGAGCAA CAAGCCTGAC TTCGTGCGCC TCTTTGTGGA CAGTGGTGCT
    GACATGGCCG AGTTCTTGAC CTATGGGCGG CTGCAGCAGC TTTACCACTC TGTGTCCCCC
    AAGAGCCTCC TCTTTGAACT GCTGGAGCGT AAGCATGAGG AGGGTCGGCT GACACTGGCT
    GGCCTGGGTG CCCAGCAGAC CCGGGAGCTG CCCGTTGGTC TGCCTGCCTT TTCACTCCAT
    GAGGTCTCCC GAGTTCTCAA AGATTTCCTG CATGACGCCT GCCGTGGCTT CTACCAGGAT
    GGGCGCAGGA TGGAGGAGAG AGGGCCACCC AAGCGGCCTG CAGGCCAGAA ATGGCTGCCG
    GACCTCAGTC GGAAGAGTGA AGACCCATGG AGGGACCTGT TCCTTTGGGC TGTGCTGCAG
    AACCGTTATG AGATGGCCAC ATACTTCTGG GCCATGGGCC GGGAGGGTGT GGCTGCTGCT
    CTGGCGGCCT GCAAGATCAT CAAGGAAATG TCCCACCTGG AGAAAGAGGC AGAGGTGGCC
    CGCACTATGC GTGAGGCCAA GTATGAGCAG CTGGCCCTCG ATCTTTTCTC AGAGTGCTAC
    AGCAACAGTG AGGACCGTGC CTTTGCCCTG TTGGTGCGCA GGAACCACAG CTGGAGCAGG
    ACCACCTGCC TGCACCTGGC CACTGAGGCC GATGCCAAGG CCTTCTTTGC CCATGATGGT
    GTGCAAGCAT TCCTGACGAA GATCTGGTGG GGAGACATGG CCACAGGCAC ACCCATCTTA
    CGACTTCTGG GTGCCTTCAC CTGCCCAGCC CTCATCTACA CAAATCTCAT CTCCTTCAGT
    GAGGATGCCC CGCAGAGGAT GGACCTGGAA GATCTGCAGG AGCCAGACAG TTTGGATATG
    GAAAAGAGCT TCCTGTGCAG CCATGGTGGC CAATTGGAGA AGTTAACAGA GGCGCCAAGG
    GCTCCTGGCG ATCTAGGCCC ACAAGCTGCC TTCCTGCTCA CACGGTGGAG GAAGTTCTGG
    GGCGCTCCTG TGACTGTGTT CTTGGGGAAT GTGGTCATGT ACTTTGCATT CCTCTTCCTA
    TTCTCCTACG TCCTGCTGGT GGATTTCAGG CCACCACCCC AGGGGCCATC TGGGTCGGAA
    GTTACCCTGT ATTTCTGGGT CTTCACACTG GTGCTGGAGG AAATCCGACA GGGATTCTTC
    ACAAACGAGG ACACCCGTCT GGTGAAGAAG TTCACTCTGT ACGTAGAAGA CAACTGGAAC
    AAATGTGACA TGGTGGCCAT CTTCCTGTTC ATTGTTGGTG TCACCTGTAG AATGGTGCCC
    TCCGTGTTTG AGGCTGGCCG GACTGTTCTG GCCATTGACT TCATGGTGTT CACACTTCGG
    CTCATCCACA TCTTTGCTAT TCACAAGCAG CTGGGTCCTA AGATCATCAT TGTAGAGCGG
    ATGATGAAAG ATGTCTTCTT CTTCCTCTTC TTCCTGAGCG TGTGGCTCGT GGCCTATGGC
    GTGACCACTC AGGCCCTGCT GCACCCCCAC GATGGCCGTC TGGAGTGGAT TTTCCGCCGT
    GTGCTCTACA GGCCTTACCT GCAGATCTTT GGGCAAATCC CTCTGGATGA AATTGATGAG
    GCCCGTGTGA ACTGCTCTCT TCACCCGTTG CTGCTGGACA GCTCAGCTTC CTGCCCTAAT
    CTCTATGCCA ACTGGCTGGT CATTCTCCTG CTGGTTACCT TCCTCCTCGT CACTAATGTG
    CTACTTATGA ACCTTCTGAT CGCCATGTTC AGCTACACAT TCCAGGTGGT GCAGGGCAAT
    GCAGACATGT TCTGGAAGTT TCAACGCTAC CACCTCATCG TTGAATACCA CGGAAGGCCG
    GCTCTGGCCC CGCCCTTCAT CCTGCTCAGC CACCTGAGCC TGGTGCTCAA GCAGGTCTTC
    AGGAAGGAAG CCCAGCACAA ACAGCAACAC CTGGAGAGAG ACTTGCCTGA CCCCGTGGAC
    CAGAAGATCA TTACCTGGGA AACAGTTCAA AAGGAGAACT TCCTGAGTAC CATGGAGAAA
    CGGAGGAGGG ACAGTGAGGA GGAGGTGCTG AGGAAAACGG CACACAGAGT GGACTTGATT
    GCCAAATACA TCGGGGGTCT GAGAGAGCAA GAAAAGAGGA TCAAGTGTCT GGAGTCACAG
    GCCAACTACT GTATGCTCCT CTTGTCCTCC ATGACTGACA CACTGGCTCC TGGAGGCACC
    TACTCAAGTT CTCAAAACTG TGGTCGCAGG AGTCAGCCAG CCTCTGCTAG AGACAGGGAG
    TACCTAGAGG CTGGCTTGCC ACACTCAGAC ACCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID ORa56762
    Clone ID Related Accession (Same CDS sequence) XM_017589502.1
    Accession Version XM_017589502.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3495bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product transient receptor potential cation channel subfamily M member 5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCCCGGAG TTCGAAAAGT CACAATGCCG ATGGCCCAGA GCTCTTGTCC TGGAAGCCCC 
    CCAGATACTG GGGATGGATG GGAGCCAGTC CTATGCAAGG GAGAGGTCAA CTTCGGAGGG
    TCTGGGAAAA AGCGAAGCAA GTTTGTGAAG GTGCCAAGCA ATGTGGCCCC CTCCATGCTC
    TTTGAACTCC TGCTCACCGA GTGGCACCTG CCAGCCCCCA ACCTGGTGGT GTCCCTGGTG
    GGCGAGGAAC GGCTTTTTGC TATGAAGTCC TGGCTTCGGG ATGTCTTGCG CAAGGGGCTG
    GTGAAAGCAG CTCAGAGCAC AGGTGCCTGG ATCCTGACCA GTGCCCTCCA TGTGGGCCTG
    GCACGCCATG TTGGACAGGC TGTACGTGAT CACTCTCTGG CTAGCACGTC CACCAAGGTC
    CGTGTGGTGG CCATCGGAAT GGCCTCTCTG GACCGAATCC TTCACCGCCA ACTTCTAGAT
    GGTGTCCAGG AGGATACTCC CATCCACTAC CCAGCAGATG AGGGCAGCAC TCAGGGACCC
    CTCTGCCCTC TGGACAGCAA TCTCTCCCAC TTCATCCTCG TGGAGCCAGG CACCCTTGGG
    AGTGGGAACG ACGGACTGGC AGAGCTGCAG CTGAGCCTGG AGAAGCACAT CTCTCAGCAG
    AGGACAGGTT ATGGGGGTAC CAGCAGCATC CAGATACCTG TCCTTTGCTT GCTAGTCAAT
    GGTGACCCCA GCACCCTAGA GAGGATGTCC AGGGCAGTGG AGCAGGCTGC CCCATGGCTG
    ATCCTGGCAG GTTCTGGGGG CATTGCTGAT GTACTCGCTG CCCTGGTGGG CCAGCCTCAT
    CTCCTGGTGC CCCAGGTGAC CGAGAAGCAG TTCAGAGAGA AATTCCCAAG CGAGTGTTTC
    TCTTGGGAAG CCATTGTACA CTGGACAGAG CTGCTACAGA ACATTGCTGC ACACCCCCAC
    CTGCTCACAG TGTACGACTT TGAGCAGGAG GGTTCCGAGG ACCTGGACAC CGTCATCCTC
    AAGGCACTTG TGAAAGCCTG CAAGAGTCAC AGCCGAGACG CACAAGACTA CCTAGATGAG
    CTCAAGTTAG CAGTGGCCTG GGATCGCGTG GACATTGCCA AGAGTGAAAT CTTCAATGGG
    GACGTGGAGT GGAAGTCCTG TGACTTGGAA GAGGTGATGA CAGATGCCCT AGTGAGCAAC
    AAGCCTGACT TCGTGCGCCT CTTTGTGGAC AGTGGTGCTG ACATGGCCGA GTTCTTGACC
    TATGGGCGGC TGCAGCAGCT TTACCACTCT GTGTCCCCCA AGAGCCTCCT CTTTGAACTG
    CTGGAGCGTA AGCATGAGGA GGGTCGGCTG ACACTGGCTG GCCTGGGTGC CCAGCAGACC
    CGGGAGCTGC CCGTTGGTCT GCCTGCCTTT TCACTCCATG AGGTCTCCCG AGTTCTCAAA
    GATTTCCTGC ATGACGCCTG CCGTGGCTTC TACCAGGATG GGCGCAGGAT GGAGGAGAGA
    GGGCCACCCA AGCGGCCTGC AGGCCAGAAA TGGCTGCCGG ACCTCAGTCG GAAGAGTGAA
    GACCCATGGA GGGACCTGTT CCTTTGGGCT GTGCTGCAGA ACCGTTATGA GATGGCCACA
    TACTTCTGGG CCATGGGCCG GGAGGGTGTG GCTGCTGCTC TGGCGGCCTG CAAGATCATC
    AAGGAAATGT CCCACCTGGA GAAAGAGGCA GAGGTGGCCC GCACTATGCG TGAGGCCAAG
    TATGAGCAGC TGGCCCTCGA TCTTTTCTCA GAGTGCTACA GCAACAGTGA GGACCGTGCC
    TTTGCCCTGT TGGTGCGCAG GAACCACAGC TGGAGCAGGA CCACCTGCCT GCACCTGGCC
    ACTGAGGCCG ATGCCAAGGC CTTCTTTGCC CATGATGGTG TGCAAGCATT CCTGACGAAG
    ATCTGGTGGG GAGACATGGC CACAGGCACA CCCATCTTAC GACTTCTGGG TGCCTTCACC
    TGCCCAGCCC TCATCTACAC AAATCTCATC TCCTTCAGTG AGGATGCCCC GCAGAGGATG
    GACCTGGAAG ATCTGCAGGA GCCAGACAGT TTGGATATGG AAAAGAGCTT CCTGTGCAGC
    CATGGTGGCC AATTGGAGAA GTTAACAGAG GCGCCAAGGG CTCCTGGCGA TCTAGGCCCA
    CAAGCTGCCT TCCTGCTCAC ACGGTGGAGG AAGTTCTGGG GCGCTCCTGT GACTGTGTTC
    TTGGGGAATG TGGTCATGTA CTTTGCATTC CTCTTCCTAT TCTCCTACGT CCTGCTGGTG
    GATTTCAGGC CACCACCCCA GGGGCCATCT GGGTCGGAAG TTACCCTGTA TTTCTGGGTC
    TTCACACTGG TGCTGGAGGA AATCCGACAG GGATTCTTCA CAAACGAGGA CACCCGTCTG
    GTGAAGAAGT TCACTCTGTA CGTAGAAGAC AACTGGAACA AATGTGACAT GGTGGCCATC
    TTCCTGTTCA TTGTTGGTGT CACCTGTAGA ATGGTGCCCT CCGTGTTTGA GGCTGGCCGG
    ACTGTTCTGG CCATTGACTT CATGGTGTTC ACACTTCGGC TCATCCACAT CTTTGCTATT
    CACAAGCAGC TGGGTCCTAA GATCATCATT GTAGAGCGGA TGATGAAAGA TGTCTTCTTC
    TTCCTCTTCT TCCTGAGCGT GTGGCTCGTG GCCTATGGCG TGACCACTCA GGCCCTGCTG
    CACCCCCACG ATGGCCGTCT GGAGTGGATT TTCCGCCGTG TGCTCTACAG GCCTTACCTG
    CAGATCTTTG GGCAAATCCC TCTGGATGAA ATTGATGAGG CCCGTGTGAA CTGCTCTCTT
    CACCCGTTGC TGCTGGACAG CTCAGCTTCC TGCCCTAATC TCTATGCCAA CTGGCTGGTC
    ATTCTCCTGC TGGTTACCTT CCTCCTCGTC ACTAATGTGC TACTTATGAA CCTTCTGATC
    GCCATGTTCA GCTACACATT CCAGGTGGTG CAGGGCAATG CAGACATGTT CTGGAAGTTT
    CAACGCTACC ACCTCATCGT TGAATACCAC GGAAGGCCGG CTCTGGCCCC GCCCTTCATC
    CTGCTCAGCC ACCTGAGCCT GGTGCTCAAG CAGGTCTTCA GGAAGGAAGC CCAGCACAAA
    CAGCAACACC TGGAGAGAGA CTTGCCTGAC CCCGTGGACC AGAAGATCAT TACCTGGGAA
    ACAGTTCAAA AGGAGAACTT CCTGAGTACC ATGGAGAAAC GGAGGAGGGA CAGTGAGGAG
    GAGGTGCTGA GGAAAACGGC ACACAGAGTG GACTTGATTG CCAAATACAT CGGGGGTCTG
    AGAGAGCAAG AAAAGAGGAT CAAGTGTCTG GAGTCACAGG CCAACTACTG TATGCTCCTC
    TTGTCCTCCA TGACTGACAC ACTGGCTCCT GGAGGCACCT ACTCAAGTTC TCAAAACTGT
    GGTCGCAGGA GTCAGCCAGC CTCTGCTAGA GACAGGGAGT ACCTAGAGGC TGGCTTGCCA
    CACTCAGACA CCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017444991.1
    CDS93..3587
    Translation

    Target ORF information:

    RefSeq Version XM_017589502.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017589502.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCCCGGAG TTCGAAAAGT CACAATGCCG ATGGCCCAGA GCTCTTGTCC TGGAAGCCCC 
    CCAGATACTG GGGATGGATG GGAGCCAGTC CTATGCAAGG GAGAGGTCAA CTTCGGAGGG
    TCTGGGAAAA AGCGAAGCAA GTTTGTGAAG GTGCCAAGCA ATGTGGCCCC CTCCATGCTC
    TTTGAACTCC TGCTCACCGA GTGGCACCTG CCAGCCCCCA ACCTGGTGGT GTCCCTGGTG
    GGCGAGGAAC GGCTTTTTGC TATGAAGTCC TGGCTTCGGG ATGTCTTGCG CAAGGGGCTG
    GTGAAAGCAG CTCAGAGCAC AGGTGCCTGG ATCCTGACCA GTGCCCTCCA TGTGGGCCTG
    GCACGCCATG TTGGACAGGC TGTACGTGAT CACTCTCTGG CTAGCACGTC CACCAAGGTC
    CGTGTGGTGG CCATCGGAAT GGCCTCTCTG GACCGAATCC TTCACCGCCA ACTTCTAGAT
    GGTGTCCAGG AGGATACTCC CATCCACTAC CCAGCAGATG AGGGCAGCAC TCAGGGACCC
    CTCTGCCCTC TGGACAGCAA TCTCTCCCAC TTCATCCTCG TGGAGCCAGG CACCCTTGGG
    AGTGGGAACG ACGGACTGGC AGAGCTGCAG CTGAGCCTGG AGAAGCACAT CTCTCAGCAG
    AGGACAGGTT ATGGGGGTAC CAGCAGCATC CAGATACCTG TCCTTTGCTT GCTAGTCAAT
    GGTGACCCCA GCACCCTAGA GAGGATGTCC AGGGCAGTGG AGCAGGCTGC CCCATGGCTG
    ATCCTGGCAG GTTCTGGGGG CATTGCTGAT GTACTCGCTG CCCTGGTGGG CCAGCCTCAT
    CTCCTGGTGC CCCAGGTGAC CGAGAAGCAG TTCAGAGAGA AATTCCCAAG CGAGTGTTTC
    TCTTGGGAAG CCATTGTACA CTGGACAGAG CTGCTACAGA ACATTGCTGC ACACCCCCAC
    CTGCTCACAG TGTACGACTT TGAGCAGGAG GGTTCCGAGG ACCTGGACAC CGTCATCCTC
    AAGGCACTTG TGAAAGCCTG CAAGAGTCAC AGCCGAGACG CACAAGACTA CCTAGATGAG
    CTCAAGTTAG CAGTGGCCTG GGATCGCGTG GACATTGCCA AGAGTGAAAT CTTCAATGGG
    GACGTGGAGT GGAAGTCCTG TGACTTGGAA GAGGTGATGA CAGATGCCCT AGTGAGCAAC
    AAGCCTGACT TCGTGCGCCT CTTTGTGGAC AGTGGTGCTG ACATGGCCGA GTTCTTGACC
    TATGGGCGGC TGCAGCAGCT TTACCACTCT GTGTCCCCCA AGAGCCTCCT CTTTGAACTG
    CTGGAGCGTA AGCATGAGGA GGGTCGGCTG ACACTGGCTG GCCTGGGTGC CCAGCAGACC
    CGGGAGCTGC CCGTTGGTCT GCCTGCCTTT TCACTCCATG AGGTCTCCCG AGTTCTCAAA
    GATTTCCTGC ATGACGCCTG CCGTGGCTTC TACCAGGATG GGCGCAGGAT GGAGGAGAGA
    GGGCCACCCA AGCGGCCTGC AGGCCAGAAA TGGCTGCCGG ACCTCAGTCG GAAGAGTGAA
    GACCCATGGA GGGACCTGTT CCTTTGGGCT GTGCTGCAGA ACCGTTATGA GATGGCCACA
    TACTTCTGGG CCATGGGCCG GGAGGGTGTG GCTGCTGCTC TGGCGGCCTG CAAGATCATC
    AAGGAAATGT CCCACCTGGA GAAAGAGGCA GAGGTGGCCC GCACTATGCG TGAGGCCAAG
    TATGAGCAGC TGGCCCTCGA TCTTTTCTCA GAGTGCTACA GCAACAGTGA GGACCGTGCC
    TTTGCCCTGT TGGTGCGCAG GAACCACAGC TGGAGCAGGA CCACCTGCCT GCACCTGGCC
    ACTGAGGCCG ATGCCAAGGC CTTCTTTGCC CATGATGGTG TGCAAGCATT CCTGACGAAG
    ATCTGGTGGG GAGACATGGC CACAGGCACA CCCATCTTAC GACTTCTGGG TGCCTTCACC
    TGCCCAGCCC TCATCTACAC AAATCTCATC TCCTTCAGTG AGGATGCCCC GCAGAGGATG
    GACCTGGAAG ATCTGCAGGA GCCAGACAGT TTGGATATGG AAAAGAGCTT CCTGTGCAGC
    CATGGTGGCC AATTGGAGAA GTTAACAGAG GCGCCAAGGG CTCCTGGCGA TCTAGGCCCA
    CAAGCTGCCT TCCTGCTCAC ACGGTGGAGG AAGTTCTGGG GCGCTCCTGT GACTGTGTTC
    TTGGGGAATG TGGTCATGTA CTTTGCATTC CTCTTCCTAT TCTCCTACGT CCTGCTGGTG
    GATTTCAGGC CACCACCCCA GGGGCCATCT GGGTCGGAAG TTACCCTGTA TTTCTGGGTC
    TTCACACTGG TGCTGGAGGA AATCCGACAG GGATTCTTCA CAAACGAGGA CACCCGTCTG
    GTGAAGAAGT TCACTCTGTA CGTAGAAGAC AACTGGAACA AATGTGACAT GGTGGCCATC
    TTCCTGTTCA TTGTTGGTGT CACCTGTAGA ATGGTGCCCT CCGTGTTTGA GGCTGGCCGG
    ACTGTTCTGG CCATTGACTT CATGGTGTTC ACACTTCGGC TCATCCACAT CTTTGCTATT
    CACAAGCAGC TGGGTCCTAA GATCATCATT GTAGAGCGGA TGATGAAAGA TGTCTTCTTC
    TTCCTCTTCT TCCTGAGCGT GTGGCTCGTG GCCTATGGCG TGACCACTCA GGCCCTGCTG
    CACCCCCACG ATGGCCGTCT GGAGTGGATT TTCCGCCGTG TGCTCTACAG GCCTTACCTG
    CAGATCTTTG GGCAAATCCC TCTGGATGAA ATTGATGAGG CCCGTGTGAA CTGCTCTCTT
    CACCCGTTGC TGCTGGACAG CTCAGCTTCC TGCCCTAATC TCTATGCCAA CTGGCTGGTC
    ATTCTCCTGC TGGTTACCTT CCTCCTCGTC ACTAATGTGC TACTTATGAA CCTTCTGATC
    GCCATGTTCA GCTACACATT CCAGGTGGTG CAGGGCAATG CAGACATGTT CTGGAAGTTT
    CAACGCTACC ACCTCATCGT TGAATACCAC GGAAGGCCGG CTCTGGCCCC GCCCTTCATC
    CTGCTCAGCC ACCTGAGCCT GGTGCTCAAG CAGGTCTTCA GGAAGGAAGC CCAGCACAAA
    CAGCAACACC TGGAGAGAGA CTTGCCTGAC CCCGTGGACC AGAAGATCAT TACCTGGGAA
    ACAGTTCAAA AGGAGAACTT CCTGAGTACC ATGGAGAAAC GGAGGAGGGA CAGTGAGGAG
    GAGGTGCTGA GGAAAACGGC ACACAGAGTG GACTTGATTG CCAAATACAT CGGGGGTCTG
    AGAGAGCAAG AAAAGAGGAT CAAGTGTCTG GAGTCACAGG CCAACTACTG TATGCTCCTC
    TTGTCCTCCA TGACTGACAC ACTGGCTCCT GGAGGCACCT ACTCAAGTTC TCAAAACTGT
    GGTCGCAGGA GTCAGCCAGC CTCTGCTAGA GACAGGGAGT ACCTAGAGGC TGGCTTGCCA
    CACTCAGACA CCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID ORa48727
    Clone ID Related Accession (Same CDS sequence) XM_008760160.2
    Accession Version XM_008760160.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3564bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product transient receptor potential cation channel subfamily M member 5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008760160.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCAGGAG TCTGGAAGGA ACAGACAGGA GACCCTCTGC AAAAGCCTCT GGAGAGCTGT 
    GTCGAGGGTG TTGGAATCCA GATGCCCGGA GTTCGAAAAG TCACAATGCC GATGGCCCAG
    AGCTCTTGTC CTGGAAGCCC CCCAGATACT GGGGATGGAT GGGAGCCAGT CCTATGCAAG
    GGAGAGGTCA ACTTCGGAGG GTCTGGGAAA AAGCGAAGCA AGTTTGTGAA GGTGCCAAGC
    AATGTGGCCC CCTCCATGCT CTTTGAACTC CTGCTCACCG AGTGGCACCT GCCAGCCCCC
    AACCTGGTGG TGTCCCTGGT GGGCGAGGAA CGGCTTTTTG CTATGAAGTC CTGGCTTCGG
    GATGTCTTGC GCAAGGGGCT GGTGAAAGCA GCTCAGAGCA CAGGTGCCTG GATCCTGACC
    AGTGCCCTCC ATGTGGGCCT GGCACGCCAT GTTGGACAGG CTGTACGTGA TCACTCTCTG
    GCTAGCACGT CCACCAAGGT CCGTGTGGTG GCCATCGGAA TGGCCTCTCT GGACCGAATC
    CTTCACCGCC AACTTCTAGA TGGTGTCCAG GAGGATACTC CCATCCACTA CCCAGCAGAT
    GAGGGCAGCA CTCAGGGACC CCTCTGCCCT CTGGACAGCA ATCTCTCCCA CTTCATCCTC
    GTGGAGCCAG GCACCCTTGG GAGTGGGAAC GACGGACTGG CAGAGCTGCA GCTGAGCCTG
    GAGAAGCACA TCTCTCAGCA GAGGACAGGT TATGGGGGTA CCAGCAGCAT CCAGATACCT
    GTCCTTTGCT TGCTAGTCAA TGGTGACCCC AGCACCCTAG AGAGGATGTC CAGGGCAGTG
    GAGCAGGCTG CCCCATGGCT GATCCTGGCA GGTTCTGGGG GCATTGCTGA TGTACTCGCT
    GCCCTGGTGG GCCAGCCTCA TCTCCTGGTG CCCCAGGTGA CCGAGAAGCA GTTCAGAGAG
    AAATTCCCAA GCGAGTGTTT CTCTTGGGAA GCCATTGTAC ACTGGACAGA GCTGCTACAG
    AACATTGCTG CACACCCCCA CCTGCTCACA GTGTACGACT TTGAGCAGGA GGGTTCCGAG
    GACCTGGACA CCGTCATCCT CAAGGCACTT GTGAAAGCCT GCAAGAGTCA CAGCCGAGAC
    GCACAAGACT ACCTAGATGA GCTCAAGTTA GCAGTGGCCT GGGATCGCGT GGACATTGCC
    AAGAGTGAAA TCTTCAATGG GGACGTGGAG TGGAAGTCCT GTGACTTGGA AGAGGTGATG
    ACAGATGCCC TAGTGAGCAA CAAGCCTGAC TTCGTGCGCC TCTTTGTGGA CAGTGGTGCT
    GACATGGCCG AGTTCTTGAC CTATGGGCGG CTGCAGCAGC TTTACCACTC TGTGTCCCCC
    AAGAGCCTCC TCTTTGAACT GCTGGAGCGT AAGCATGAGG AGGGTCGGCT GACACTGGCT
    GGCCTGGGTG CCCAGCAGAC CCGGGAGCTG CCCGTTGGTC TGCCTGCCTT TTCACTCCAT
    GAGGTCTCCC GAGTTCTCAA AGATTTCCTG CATGACGCCT GCCGTGGCTT CTACCAGGAT
    GGGCGCAGGA TGGAGGAGAG AGGGCCACCC AAGCGGCCTG CAGGCCAGAA ATGGCTGCCG
    GACCTCAGTC GGAAGAGTGA AGACCCATGG AGGGACCTGT TCCTTTGGGC TGTGCTGCAG
    AACCGTTATG AGATGGCCAC ATACTTCTGG GCCATGGGCC GGGAGGGTGT GGCTGCTGCT
    CTGGCGGCCT GCAAGATCAT CAAGGAAATG TCCCACCTGG AGAAAGAGGC AGAGGTGGCC
    CGCACTATGC GTGAGGCCAA GTATGAGCAG CTGGCCCTCG AGTGCTACAG CAACAGTGAG
    GACCGTGCCT TTGCCCTGTT GGTGCGCAGG AACCACAGCT GGAGCAGGAC CACCTGCCTG
    CACCTGGCCA CTGAGGCCGA TGCCAAGGCC TTCTTTGCCC ATGATGGTGT GCAAGCATTC
    CTGACGAAGA TCTGGTGGGG AGACATGGCC ACAGGCACAC CCATCTTACG ACTTCTGGGT
    GCCTTCACCT GCCCAGCCCT CATCTACACA AATCTCATCT CCTTCAGTGA GGATGCCCCG
    CAGAGGATGG ACCTGGAAGA TCTGCAGGAG CCAGACAGTT TGGATATGGA AAAGAGCTTC
    CTGTGCAGCC ATGGTGGCCA ATTGGAGAAG TTAACAGAGG CGCCAAGGGC TCCTGGCGAT
    CTAGGCCCAC AAGCTGCCTT CCTGCTCACA CGGTGGAGGA AGTTCTGGGG CGCTCCTGTG
    ACTGTGTTCT TGGGGAATGT GGTCATGTAC TTTGCATTCC TCTTCCTATT CTCCTACGTC
    CTGCTGGTGG ATTTCAGGCC ACCACCCCAG GGGCCATCTG GGTCGGAAGT TACCCTGTAT
    TTCTGGGTCT TCACACTGGT GCTGGAGGAA ATCCGACAGG GATTCTTCAC AAACGAGGAC
    ACCCGTCTGG TGAAGAAGTT CACTCTGTAC GTAGAAGACA ACTGGAACAA ATGTGACATG
    GTGGCCATCT TCCTGTTCAT TGTTGGTGTC ACCTGTAGAA TGGTGCCCTC CGTGTTTGAG
    GCTGGCCGGA CTGTTCTGGC CATTGACTTC ATGGTGTTCA CACTTCGGCT CATCCACATC
    TTTGCTATTC ACAAGCAGCT GGGTCCTAAG ATCATCATTG TAGAGCGGAT GATGAAAGAT
    GTCTTCTTCT TCCTCTTCTT CCTGAGCGTG TGGCTCGTGG CCTATGGCGT GACCACTCAG
    GCCCTGCTGC ACCCCCACGA TGGCCGTCTG GAGTGGATTT TCCGCCGTGT GCTCTACAGG
    CCTTACCTGC AGATCTTTGG GCAAATCCCT CTGGATGAAA TTGATGAGGC CCGTGTGAAC
    TGCTCTCTTC ACCCGTTGCT GCTGGACAGC TCAGCTTCCT GCCCTAATCT CTATGCCAAC
    TGGCTGGTCA TTCTCCTGCT GGTTACCTTC CTCCTCGTCA CTAATGTGCT ACTTATGAAC
    CTTCTGATCG CCATGTTCAG CTACACATTC CAGGTGGTGC AGGGCAATGC AGACATGTTC
    TGGAAGTTTC AACGCTACCA CCTCATCGTT GAATACCACG GAAGGCCGGC TCTGGCCCCG
    CCCTTCATCC TGCTCAGCCA CCTGAGCCTG GTGCTCAAGC AGGTCTTCAG GAAGGAAGCC
    CAGCACAAAC AGCAACACCT GGAGAGAGAC TTGCCTGACC CCGTGGACCA GAAGATCATT
    ACCTGGGAAA CAGTTCAAAA GGAGAACTTC CTGAGTACCA TGGAGAAACG GAGGAGGGAC
    AGTGAGGAGG AGGTGCTGAG GAAAACGGCA CACAGAGTGG ACTTGATTGC CAAATACATC
    GGGGGTCTGA GAGAGCAAGA AAAGAGGATC AAGTGTCTGG AGTCACAGGC CAACTACTGT
    ATGCTCCTCT TGTCCTCCAT GACTGACACA CTGGCTCCTG GAGGCACCTA CTCAAGTTCT
    CAAAACTGTG GTCGCAGGAG TCAGCCAGCC TCTGCTAGAG ACAGGGAGTA CCTAGAGGCT
    GGCTTGCCAC ACTCAGACAC CTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008758382.1
    CDS2107..5670
    Translation

    Target ORF information:

    RefSeq Version XM_008760160.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus transient receptor potential cation channel, subfamily M, member 5 (Trpm5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008760160.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCAGGAG TCTGGAAGGA ACAGACAGGA GACCCTCTGC AAAAGCCTCT GGAGAGCTGT 
    GTCGAGGGTG TTGGAATCCA GATGCCCGGA GTTCGAAAAG TCACAATGCC GATGGCCCAG
    AGCTCTTGTC CTGGAAGCCC CCCAGATACT GGGGATGGAT GGGAGCCAGT CCTATGCAAG
    GGAGAGGTCA ACTTCGGAGG GTCTGGGAAA AAGCGAAGCA AGTTTGTGAA GGTGCCAAGC
    AATGTGGCCC CCTCCATGCT CTTTGAACTC CTGCTCACCG AGTGGCACCT GCCAGCCCCC
    AACCTGGTGG TGTCCCTGGT GGGCGAGGAA CGGCTTTTTG CTATGAAGTC CTGGCTTCGG
    GATGTCTTGC GCAAGGGGCT GGTGAAAGCA GCTCAGAGCA CAGGTGCCTG GATCCTGACC
    AGTGCCCTCC ATGTGGGCCT GGCACGCCAT GTTGGACAGG CTGTACGTGA TCACTCTCTG
    GCTAGCACGT CCACCAAGGT CCGTGTGGTG GCCATCGGAA TGGCCTCTCT GGACCGAATC
    CTTCACCGCC AACTTCTAGA TGGTGTCCAG GAGGATACTC CCATCCACTA CCCAGCAGAT
    GAGGGCAGCA CTCAGGGACC CCTCTGCCCT CTGGACAGCA ATCTCTCCCA CTTCATCCTC
    GTGGAGCCAG GCACCCTTGG GAGTGGGAAC GACGGACTGG CAGAGCTGCA GCTGAGCCTG
    GAGAAGCACA TCTCTCAGCA GAGGACAGGT TATGGGGGTA CCAGCAGCAT CCAGATACCT
    GTCCTTTGCT TGCTAGTCAA TGGTGACCCC AGCACCCTAG AGAGGATGTC CAGGGCAGTG
    GAGCAGGCTG CCCCATGGCT GATCCTGGCA GGTTCTGGGG GCATTGCTGA TGTACTCGCT
    GCCCTGGTGG GCCAGCCTCA TCTCCTGGTG CCCCAGGTGA CCGAGAAGCA GTTCAGAGAG
    AAATTCCCAA GCGAGTGTTT CTCTTGGGAA GCCATTGTAC ACTGGACAGA GCTGCTACAG
    AACATTGCTG CACACCCCCA CCTGCTCACA GTGTACGACT TTGAGCAGGA GGGTTCCGAG
    GACCTGGACA CCGTCATCCT CAAGGCACTT GTGAAAGCCT GCAAGAGTCA CAGCCGAGAC
    GCACAAGACT ACCTAGATGA GCTCAAGTTA GCAGTGGCCT GGGATCGCGT GGACATTGCC
    AAGAGTGAAA TCTTCAATGG GGACGTGGAG TGGAAGTCCT GTGACTTGGA AGAGGTGATG
    ACAGATGCCC TAGTGAGCAA CAAGCCTGAC TTCGTGCGCC TCTTTGTGGA CAGTGGTGCT
    GACATGGCCG AGTTCTTGAC CTATGGGCGG CTGCAGCAGC TTTACCACTC TGTGTCCCCC
    AAGAGCCTCC TCTTTGAACT GCTGGAGCGT AAGCATGAGG AGGGTCGGCT GACACTGGCT
    GGCCTGGGTG CCCAGCAGAC CCGGGAGCTG CCCGTTGGTC TGCCTGCCTT TTCACTCCAT
    GAGGTCTCCC GAGTTCTCAA AGATTTCCTG CATGACGCCT GCCGTGGCTT CTACCAGGAT
    GGGCGCAGGA TGGAGGAGAG AGGGCCACCC AAGCGGCCTG CAGGCCAGAA ATGGCTGCCG
    GACCTCAGTC GGAAGAGTGA AGACCCATGG AGGGACCTGT TCCTTTGGGC TGTGCTGCAG
    AACCGTTATG AGATGGCCAC ATACTTCTGG GCCATGGGCC GGGAGGGTGT GGCTGCTGCT
    CTGGCGGCCT GCAAGATCAT CAAGGAAATG TCCCACCTGG AGAAAGAGGC AGAGGTGGCC
    CGCACTATGC GTGAGGCCAA GTATGAGCAG CTGGCCCTCG AGTGCTACAG CAACAGTGAG
    GACCGTGCCT TTGCCCTGTT GGTGCGCAGG AACCACAGCT GGAGCAGGAC CACCTGCCTG
    CACCTGGCCA CTGAGGCCGA TGCCAAGGCC TTCTTTGCCC ATGATGGTGT GCAAGCATTC
    CTGACGAAGA TCTGGTGGGG AGACATGGCC ACAGGCACAC CCATCTTACG ACTTCTGGGT
    GCCTTCACCT GCCCAGCCCT CATCTACACA AATCTCATCT CCTTCAGTGA GGATGCCCCG
    CAGAGGATGG ACCTGGAAGA TCTGCAGGAG CCAGACAGTT TGGATATGGA AAAGAGCTTC
    CTGTGCAGCC ATGGTGGCCA ATTGGAGAAG TTAACAGAGG CGCCAAGGGC TCCTGGCGAT
    CTAGGCCCAC AAGCTGCCTT CCTGCTCACA CGGTGGAGGA AGTTCTGGGG CGCTCCTGTG
    ACTGTGTTCT TGGGGAATGT GGTCATGTAC TTTGCATTCC TCTTCCTATT CTCCTACGTC
    CTGCTGGTGG ATTTCAGGCC ACCACCCCAG GGGCCATCTG GGTCGGAAGT TACCCTGTAT
    TTCTGGGTCT TCACACTGGT GCTGGAGGAA ATCCGACAGG GATTCTTCAC AAACGAGGAC
    ACCCGTCTGG TGAAGAAGTT CACTCTGTAC GTAGAAGACA ACTGGAACAA ATGTGACATG
    GTGGCCATCT TCCTGTTCAT TGTTGGTGTC ACCTGTAGAA TGGTGCCCTC CGTGTTTGAG
    GCTGGCCGGA CTGTTCTGGC CATTGACTTC ATGGTGTTCA CACTTCGGCT CATCCACATC
    TTTGCTATTC ACAAGCAGCT GGGTCCTAAG ATCATCATTG TAGAGCGGAT GATGAAAGAT
    GTCTTCTTCT TCCTCTTCTT CCTGAGCGTG TGGCTCGTGG CCTATGGCGT GACCACTCAG
    GCCCTGCTGC ACCCCCACGA TGGCCGTCTG GAGTGGATTT TCCGCCGTGT GCTCTACAGG
    CCTTACCTGC AGATCTTTGG GCAAATCCCT CTGGATGAAA TTGATGAGGC CCGTGTGAAC
    TGCTCTCTTC ACCCGTTGCT GCTGGACAGC TCAGCTTCCT GCCCTAATCT CTATGCCAAC
    TGGCTGGTCA TTCTCCTGCT GGTTACCTTC CTCCTCGTCA CTAATGTGCT ACTTATGAAC
    CTTCTGATCG CCATGTTCAG CTACACATTC CAGGTGGTGC AGGGCAATGC AGACATGTTC
    TGGAAGTTTC AACGCTACCA CCTCATCGTT GAATACCACG GAAGGCCGGC TCTGGCCCCG
    CCCTTCATCC TGCTCAGCCA CCTGAGCCTG GTGCTCAAGC AGGTCTTCAG GAAGGAAGCC
    CAGCACAAAC AGCAACACCT GGAGAGAGAC TTGCCTGACC CCGTGGACCA GAAGATCATT
    ACCTGGGAAA CAGTTCAAAA GGAGAACTTC CTGAGTACCA TGGAGAAACG GAGGAGGGAC
    AGTGAGGAGG AGGTGCTGAG GAAAACGGCA CACAGAGTGG ACTTGATTGC CAAATACATC
    GGGGGTCTGA GAGAGCAAGA AAAGAGGATC AAGTGTCTGG AGTCACAGGC CAACTACTGT
    ATGCTCCTCT TGTCCTCCAT GACTGACACA CTGGCTCCTG GAGGCACCTA CTCAAGTTCT
    CAAAACTGTG GTCGCAGGAG TCAGCCAGCC TCTGCTAGAG ACAGGGAGTA CCTAGAGGCT
    GGCTTGCCAC ACTCAGACAC CTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.