Trpm3 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Trpm3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Trpm3 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
ORa63289 NM_001354180.1
Latest version!
Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
ORa39819 NM_001191562.1
Latest version!
Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00

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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 ORa63289
    Clone ID Related Accession (Same CDS sequence) NM_001354180.1
    Accession Version NM_001354180.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5160bp)
    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 2017-10-02
    Organism Rattus norvegicus(Norway rat)
    Product transient receptor potential cation channel subfamily M member 3 isoform b
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07006564.1, AABR07006566.1, AABR07006569.1, AABR07006575.1 and AABR07006576.1. Transcript Variant: This variant (2) differs in the 5' UTR and coding sequence compared to variant 1. The resulting isoform (b) has a shorter and distinct N-terminus compared to isoform a. 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 SAMD00052296, SAMD00052297 [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
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCCAGGGC CGTGGGGGAC CGTTTATTTT CTAGGCACTG CCCAGATTTG CAGTTTCTTA 
    TCTTCCCGGT GGAATTTGGA AGGGGTCATG AATCAGACTG ATGCTTCTCG ACCCCTAAAT
    TGGACCATCC GGAAGCTATG CCACGCAGCC TTTCTCCCAT CTGTCAGACT TCTCAAGGCT
    CAGAAATCCT GGATTGAAAG AGCATTTTAT AAAAGAGAAT GTGTTCACAT CATACCCAGC
    ACCAAAGACC CCCATAGGTG TTGCTGTGGG CGCCTGATAG GCCAGCATGT CGGACTCACT
    CCCAGTATCT CTGTGCTTCA GAATGAGAAA AATGAGAGTC GCCTCTCCCG AAATGACATC
    CAGTCTGAGA AGTGGTCTAT CAGCAAACAC ACTCAGCTCA GCCCAACGGA TGCTTTTGGG
    ACTATTGAGT TCCAAGGAGG CGGTCATTCC AACAAAGCCA TGTATGTCCG AGTATCTTTT
    GATACGAAAC CTGATCTCTT GCTACACCTG ATGACCAAGG AATGGCAACT AGAGCTTCCC
    AAACTTCTCA TCTCTGTGCA CGGAGGGCTG CAGAACTTTG AACTCCAGCC CAAACTCAAG
    CAAGTCTTCG GGAAAGGGCT CATCAAAGCA GCCATGACAA CTGGAGCCTG GATCTTCACT
    GGAGGGGTCA ACACAGGTGT CATCCGTCAT GTGGGAGATG CCTTGAAGGA CCACGCATCT
    AAGTCTCGAG GGAAGATATG CACCATAGGT ATCGCACCCT GGGGAATTGT GGAAAACCAG
    GAAGACCTGA TCGGAAGAGA TGTAGTCCGA CCATACCAGA CCATGTCAAA CCCTATGAGC
    AAGCTCACGG TTCTCAACAG CATGCACTCC CACTTCATCC TGGCTGACAA TGGGACCACG
    GGAAAATACG GGGCCGAGGT GAAACTCCGC AGACAACTGG AAAAGCACAT TTCACTCCAG
    AAGATAAACA CAAGAATCGG TCAAGGGGTT CCAGTGGTGG CCCTCATCGT GGAAGGAGGA
    CCCAATGTGA TCTCAATTGT TTTGGAATAC CTTCGAGACA CCCCTCCTGT ACCAGTCGTG
    GTCTGCGATG GCAGTGGACG GGCATCCGAC ATTCTGGCAT TTGGGCATAA ATATTCAGAA
    GAAGGCGGTC TTATCAATGA ATCTTTGAGG GACCAGCTGT TGGTGACAAT ACAGAAGACC
    TTCACATACA CCCGCACCCA AGCCCAGCAC CTGTTCATCA TCCTCATGGA ATGCATGAAG
    AAGAAGGAAT TGATCACAGT GTTTCGAATG GGATCAGAAG GCCACCAGGA CATTGATTTA
    GCTATCCTGA CAGCACTACT CAAAGGAGCC AATGCATCCG CCCCAGACCA GCTGAGCTTA
    GCATTAGCCT GGAACAGAGT TGACATCGCT CGCAGCCAGA TCTTTATTTA CGGGCAGCAG
    TGGCCGGTAG GGTCCCTGGA GCAAGCCATG CTGGATGCCC TAGTCCTGGA CAGAGTGGAC
    TTTGTGAAAT TACTCATAGA AAACGGAGTA AGCATGCACC GTTTTCTCAC CATCTCCAGA
    CTAGAGGAAC TGTACAATAC GAGACATGGG CCCTCAAATA CATTGTACCA CTTGGTCAGG
    GATGTCAAAA AGGGAAACCT GCCCCCGGAC TACAGAATCA GCCTGATAGA CATTGGCCTG
    GTGATCGAGT ACCTGATGGG TGGGGCTTAC CGCTGCAACT ACACACGCAA GCGCTTTCGG
    ACCCTCTACC ACAATCTCTT TGGCCCCAAA AGGCCCAAAG CCTTGAAACT GCTGGGAATG
    GAGGATGATA TTCCCTTGAG GAGAGGAAGA AAGACAACTA AGAAACGTGA GGAAGAGGTG
    GACATAGACT TGGATGACCC TGAGATCAAC CACTTCCCAT TCCCTTTCCA TGAGCTGATG
    GTGTGGGCTG TCCTCATGAA GAGGCAGAAG ATGGCCCTGT TCTTCTGGCA GCATGGAGAG
    GAGGCCATGG CTAAAGCCCT GGTGGCCTGC AAGCTCTGCA AAGCCATGGC CCATGAGGCT
    TCTGAGAATG ATATGGTGGA TGACATTTCC CAAGAGCTGA ACCACAACTC CAGGGACTTT
    GGCCAGCTGG CTGTGGAGCT TTTGGACCAG TCCTACAAAC AGGATGAGCA GCTGGCCATG
    AAACTGCTGA CGTATGAGTT GAAGAACTGG AGCAATGCCA CATGCCTGCA GCTGGCTGTG
    GCTGCCAAGC ACCGTGACTT CATTGCACAC ACGTGCAGCC AGATGTTACT TACCGACATG
    TGGATGGGAC GGCTCCGCAT GCGAAAGAAC TCAGGCCTCA AGGTAATTCT GGGAATTCTA
    CTTCCTCCTT CAATTCTCAG CTTGGAGTTC AAGAACAAAG ATGACATGCC CTATATGACT
    CAGGCCCAAG AAATTCATCT CCAAGAGAAG GAGCCGGAGG AACCGGAGAA GCCTACAAAG
    GAAAAAGATG AAGAGGACAT GGAGCTAACA GCAATGTTGG GACGAAACAA TGGGGAGTCA
    TCCAGAAAGA AAGACGAAGA AGAAGTTCAA AGCAGGCATC GACTAATCCC TGTGGGCCGA
    AAAATCTATG AGTTCTACAA CGCACCCATT GTGAAGTTCT GGTTCTACAC TCTGGCGTAC
    ATTGGATACC TGATGCTCTT CAATTACATC GTGCTGGTGA AGATGGAGCG CTGGCCTTCC
    ACTCAGGAAT GGATCGTCAT CTCCTACATC TTCACTCTGG GAATAGAGAA GATGAGAGAG
    ATCCTGATGT CAGAGCCGGG CAAGCTGCTG CAGAAAGTCA AAGTGTGGCT GCAGGAGTAC
    TGGAACGTCA CGGACCTCAT CGCCATCCTC CTCTTCTCGG TGGGAATGAT CCTTCGTCTT
    CAAGACCAGC CCTTCAGGAG TGACGGGAGG GTCATCTACT GTGTGAACAT CATTTATTGG
    TATATCCGTT TACTAGACAT CTTCGGCGTG AACAAGTATC TGGGCCCATA CGTAATGATG
    ATTGGGAAAA TGATGATAGA CATGATGTAC TTCGTCATCA TTATGCTGGT GGTGCTGATG
    AGCTTTGGGG TCGCCAGGCA AGCCATTCTC TTTCCCAATG AGGAGCCATC TTGGAAACTG
    GCCAAGAATA TCTTCTACAT GCCTTATTGG ATGATTTATG GGGAAGTGTT TGCTGACCAG
    ATAGACCGTA AGCAAGTTTA TGATTCTCAT ACACCAAAGT CAGCTCCCTG TGGACAGAAC
    GAGACCCGAG AGGATGGCAA GACAATCCAG CTGCCCCCAT GCAAGACAGG AGCATGGATT
    GTGCCAGCCA TCATGGCCTG CTACCTCTTA GTAGCGAACA TCCTTCTGGT CAACCTCCTT
    ATTGCTGTCT TCAACAATAC ATTTTTTGAG GTCAAGTCGA TATCCAACCA AGTATGGAAA
    TTTCAGAGGT ACCAGCTCAT CATGACTTTC CATGAGAGAC CAGTTCTGCC TCCACCGCTC
    ATCATCTTCA GTCACATGAC CATGATATTC CAGCATGTGT GCTGCCGATG GAGGAAGCAT
    GAGAGTGACC CGGATGAAAG GGACTACGGC CTGAAACTCT TCATAACTGA TGATGAGCTC
    AAGAAAGTAC ATGATTTTGA AGAGCAGTGC ATAGAGGAAT ATTTCAGAGA GAAGGATGAC
    CGCTTCAATT CATCCAATGA TGAGAGGATA CGGGTTACGT CAGAAAGGGT GGAGAACATG
    TCCATGAGGC TGGAGGAAGT CAATGAGAGA GAACATTCCA TGAAGGCTTC ACTCCAGACT
    GTGGACATCC GGCTAGCACA GCTGGAGGAT CTCATCGGGC GCATGGCCAC TGCCCTGGAG
    CGCCTAACAG GTCTGGAGCG GGCAGAGTCT AACAAAATCC GCTCAAGGAC CTCCTCAGAC
    TGCACAGACG CAGCCTACAT CGTCCGCCAG AGCAGCTTCA ACAGTCAGGA AGGGAACACC
    TTCAAACTTC AAGAGAGTAT AGACCCTGCA GGTGAGGAGA CCATGTCCCC AACTTCTCCA
    ACCTTAATGC CCCGTATGCG AAGCCATTCT TTCTATTCGG TCAATGTGAA AGACAAAGGT
    GGTATAGAAA AGTTGGAGAG CATTTTCAAA GAAAGGTCCC TGAGCTTACA CCGTGCTACT
    AGCTCCCACT CAGTAGCCAA GGAGCCCAAA GCTCCTGCAG CCCCTGCAAA CACCTTGGCC
    ATTGTTCCTG ATTCCAGAAG ACCATCGTCA TGCATAGACA TCTATGTCTC TGCCATGGAT
    GAGCTCCACT GTGATATAGA CCCTCTGGAT AATTCCATGA ACATCCTTGG GCTGGGCGAG
    CCAAGCTTTT CAGCTCTAGC ACCTTCCACA GCCCCTTCAA GCAGTGCCTA TGCAACCCTT
    GCACCTACAG ACCGACCTCC AAGCAGGAGC ATTGATTTTG AAGACCTCAC CTCCATGGAC
    ACTAGATCTT TTTCTTCAGA CTATACCCAC CTCCCAGAAT GCCAAAACCC CTGGGACACA
    GACCCTCCAA TGTACCATAC CATCGAGCGT TCCAAGAGTA GCCGCTACCT AGCCACTACA
    CCCTTCCTTC TGGAAGAGGC CCCCATTGTA AAATCCCATA GCTTTATGTT TTCTCCTTCA
    AGGAGTTACT ACGCCAACTT TGGGGTGCCC GTGAAAACAG CAGAATACAC AAGTATTACA
    GACTGTATCG ACACAAGATG TGTCAATGCC CCCCAAGCAA TAGCTGACAG AGCCACCTTC
    CCCGGAGGTC TCGGAGACAA AGTGGAAGAT TTATCTTGTT GCCACCCTGA GCGAGAAGCA
    GAGCTGAGCC ACCCTAGCTC TGACAGTGAG GAAAATGAGG CCAGAGGCCG GAGAGCTGCC
    AATCCGATAT CCTCTCAGGA GACTGAAAAT GCAGACAGAA CCCTATCCAA CAACATCACA
    GTTCCCAAGA TAGAGCGCGC CAACAGCTAC TCGGCAGAGG AGCCAAGCGC GCCATATGCA
    CATACCAGAA AGAGCTTCTC CATCAGTGAC AAGCTTGATA GACAGAGGAA CACAGCAAGC
    CTCCGAAATC CCTTCCAGAG AAGTAAGTCC TCCAAGCCGG AGGGCCGAGG GGACAGCGTA
    TCCATGAGAA GACTGTCTAG AACATCGGCT TTTCATAGCT TTGAGAGCAA GCACAACTAA

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

    RefSeq NP_001341109.1
    CDS1..5160
    Translation

    Target ORF information:

    RefSeq Version NM_001354180.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001354180.1

    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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGCCAGGGC CGTGGGGGAC CGTTTATTTT CTAGGCACTG CCCAGATTTG CAGTTTCTTA 
    TCTTCCCGGT GGAATTTGGA AGGGGTCATG AATCAGACTG ATGCTTCTCG ACCCCTAAAT
    TGGACCATCC GGAAGCTATG CCACGCAGCC TTTCTCCCAT CTGTCAGACT TCTCAAGGCT
    CAGAAATCCT GGATTGAAAG AGCATTTTAT AAAAGAGAAT GTGTTCACAT CATACCCAGC
    ACCAAAGACC CCCATAGGTG TTGCTGTGGG CGCCTGATAG GCCAGCATGT CGGACTCACT
    CCCAGTATCT CTGTGCTTCA GAATGAGAAA AATGAGAGTC GCCTCTCCCG AAATGACATC
    CAGTCTGAGA AGTGGTCTAT CAGCAAACAC ACTCAGCTCA GCCCAACGGA TGCTTTTGGG
    ACTATTGAGT TCCAAGGAGG CGGTCATTCC AACAAAGCCA TGTATGTCCG AGTATCTTTT
    GATACGAAAC CTGATCTCTT GCTACACCTG ATGACCAAGG AATGGCAACT AGAGCTTCCC
    AAACTTCTCA TCTCTGTGCA CGGAGGGCTG CAGAACTTTG AACTCCAGCC CAAACTCAAG
    CAAGTCTTCG GGAAAGGGCT CATCAAAGCA GCCATGACAA CTGGAGCCTG GATCTTCACT
    GGAGGGGTCA ACACAGGTGT CATCCGTCAT GTGGGAGATG CCTTGAAGGA CCACGCATCT
    AAGTCTCGAG GGAAGATATG CACCATAGGT ATCGCACCCT GGGGAATTGT GGAAAACCAG
    GAAGACCTGA TCGGAAGAGA TGTAGTCCGA CCATACCAGA CCATGTCAAA CCCTATGAGC
    AAGCTCACGG TTCTCAACAG CATGCACTCC CACTTCATCC TGGCTGACAA TGGGACCACG
    GGAAAATACG GGGCCGAGGT GAAACTCCGC AGACAACTGG AAAAGCACAT TTCACTCCAG
    AAGATAAACA CAAGAATCGG TCAAGGGGTT CCAGTGGTGG CCCTCATCGT GGAAGGAGGA
    CCCAATGTGA TCTCAATTGT TTTGGAATAC CTTCGAGACA CCCCTCCTGT ACCAGTCGTG
    GTCTGCGATG GCAGTGGACG GGCATCCGAC ATTCTGGCAT TTGGGCATAA ATATTCAGAA
    GAAGGCGGTC TTATCAATGA ATCTTTGAGG GACCAGCTGT TGGTGACAAT ACAGAAGACC
    TTCACATACA CCCGCACCCA AGCCCAGCAC CTGTTCATCA TCCTCATGGA ATGCATGAAG
    AAGAAGGAAT TGATCACAGT GTTTCGAATG GGATCAGAAG GCCACCAGGA CATTGATTTA
    GCTATCCTGA CAGCACTACT CAAAGGAGCC AATGCATCCG CCCCAGACCA GCTGAGCTTA
    GCATTAGCCT GGAACAGAGT TGACATCGCT CGCAGCCAGA TCTTTATTTA CGGGCAGCAG
    TGGCCGGTAG GGTCCCTGGA GCAAGCCATG CTGGATGCCC TAGTCCTGGA CAGAGTGGAC
    TTTGTGAAAT TACTCATAGA AAACGGAGTA AGCATGCACC GTTTTCTCAC CATCTCCAGA
    CTAGAGGAAC TGTACAATAC GAGACATGGG CCCTCAAATA CATTGTACCA CTTGGTCAGG
    GATGTCAAAA AGGGAAACCT GCCCCCGGAC TACAGAATCA GCCTGATAGA CATTGGCCTG
    GTGATCGAGT ACCTGATGGG TGGGGCTTAC CGCTGCAACT ACACACGCAA GCGCTTTCGG
    ACCCTCTACC ACAATCTCTT TGGCCCCAAA AGGCCCAAAG CCTTGAAACT GCTGGGAATG
    GAGGATGATA TTCCCTTGAG GAGAGGAAGA AAGACAACTA AGAAACGTGA GGAAGAGGTG
    GACATAGACT TGGATGACCC TGAGATCAAC CACTTCCCAT TCCCTTTCCA TGAGCTGATG
    GTGTGGGCTG TCCTCATGAA GAGGCAGAAG ATGGCCCTGT TCTTCTGGCA GCATGGAGAG
    GAGGCCATGG CTAAAGCCCT GGTGGCCTGC AAGCTCTGCA AAGCCATGGC CCATGAGGCT
    TCTGAGAATG ATATGGTGGA TGACATTTCC CAAGAGCTGA ACCACAACTC CAGGGACTTT
    GGCCAGCTGG CTGTGGAGCT TTTGGACCAG TCCTACAAAC AGGATGAGCA GCTGGCCATG
    AAACTGCTGA CGTATGAGTT GAAGAACTGG AGCAATGCCA CATGCCTGCA GCTGGCTGTG
    GCTGCCAAGC ACCGTGACTT CATTGCACAC ACGTGCAGCC AGATGTTACT TACCGACATG
    TGGATGGGAC GGCTCCGCAT GCGAAAGAAC TCAGGCCTCA AGGTAATTCT GGGAATTCTA
    CTTCCTCCTT CAATTCTCAG CTTGGAGTTC AAGAACAAAG ATGACATGCC CTATATGACT
    CAGGCCCAAG AAATTCATCT CCAAGAGAAG GAGCCGGAGG AACCGGAGAA GCCTACAAAG
    GAAAAAGATG AAGAGGACAT GGAGCTAACA GCAATGTTGG GACGAAACAA TGGGGAGTCA
    TCCAGAAAGA AAGACGAAGA AGAAGTTCAA AGCAGGCATC GACTAATCCC TGTGGGCCGA
    AAAATCTATG AGTTCTACAA CGCACCCATT GTGAAGTTCT GGTTCTACAC TCTGGCGTAC
    ATTGGATACC TGATGCTCTT CAATTACATC GTGCTGGTGA AGATGGAGCG CTGGCCTTCC
    ACTCAGGAAT GGATCGTCAT CTCCTACATC TTCACTCTGG GAATAGAGAA GATGAGAGAG
    ATCCTGATGT CAGAGCCGGG CAAGCTGCTG CAGAAAGTCA AAGTGTGGCT GCAGGAGTAC
    TGGAACGTCA CGGACCTCAT CGCCATCCTC CTCTTCTCGG TGGGAATGAT CCTTCGTCTT
    CAAGACCAGC CCTTCAGGAG TGACGGGAGG GTCATCTACT GTGTGAACAT CATTTATTGG
    TATATCCGTT TACTAGACAT CTTCGGCGTG AACAAGTATC TGGGCCCATA CGTAATGATG
    ATTGGGAAAA TGATGATAGA CATGATGTAC TTCGTCATCA TTATGCTGGT GGTGCTGATG
    AGCTTTGGGG TCGCCAGGCA AGCCATTCTC TTTCCCAATG AGGAGCCATC TTGGAAACTG
    GCCAAGAATA TCTTCTACAT GCCTTATTGG ATGATTTATG GGGAAGTGTT TGCTGACCAG
    ATAGACCGTA AGCAAGTTTA TGATTCTCAT ACACCAAAGT CAGCTCCCTG TGGACAGAAC
    GAGACCCGAG AGGATGGCAA GACAATCCAG CTGCCCCCAT GCAAGACAGG AGCATGGATT
    GTGCCAGCCA TCATGGCCTG CTACCTCTTA GTAGCGAACA TCCTTCTGGT CAACCTCCTT
    ATTGCTGTCT TCAACAATAC ATTTTTTGAG GTCAAGTCGA TATCCAACCA AGTATGGAAA
    TTTCAGAGGT ACCAGCTCAT CATGACTTTC CATGAGAGAC CAGTTCTGCC TCCACCGCTC
    ATCATCTTCA GTCACATGAC CATGATATTC CAGCATGTGT GCTGCCGATG GAGGAAGCAT
    GAGAGTGACC CGGATGAAAG GGACTACGGC CTGAAACTCT TCATAACTGA TGATGAGCTC
    AAGAAAGTAC ATGATTTTGA AGAGCAGTGC ATAGAGGAAT ATTTCAGAGA GAAGGATGAC
    CGCTTCAATT CATCCAATGA TGAGAGGATA CGGGTTACGT CAGAAAGGGT GGAGAACATG
    TCCATGAGGC TGGAGGAAGT CAATGAGAGA GAACATTCCA TGAAGGCTTC ACTCCAGACT
    GTGGACATCC GGCTAGCACA GCTGGAGGAT CTCATCGGGC GCATGGCCAC TGCCCTGGAG
    CGCCTAACAG GTCTGGAGCG GGCAGAGTCT AACAAAATCC GCTCAAGGAC CTCCTCAGAC
    TGCACAGACG CAGCCTACAT CGTCCGCCAG AGCAGCTTCA ACAGTCAGGA AGGGAACACC
    TTCAAACTTC AAGAGAGTAT AGACCCTGCA GGTGAGGAGA CCATGTCCCC AACTTCTCCA
    ACCTTAATGC CCCGTATGCG AAGCCATTCT TTCTATTCGG TCAATGTGAA AGACAAAGGT
    GGTATAGAAA AGTTGGAGAG CATTTTCAAA GAAAGGTCCC TGAGCTTACA CCGTGCTACT
    AGCTCCCACT CAGTAGCCAA GGAGCCCAAA GCTCCTGCAG CCCCTGCAAA CACCTTGGCC
    ATTGTTCCTG ATTCCAGAAG ACCATCGTCA TGCATAGACA TCTATGTCTC TGCCATGGAT
    GAGCTCCACT GTGATATAGA CCCTCTGGAT AATTCCATGA ACATCCTTGG GCTGGGCGAG
    CCAAGCTTTT CAGCTCTAGC ACCTTCCACA GCCCCTTCAA GCAGTGCCTA TGCAACCCTT
    GCACCTACAG ACCGACCTCC AAGCAGGAGC ATTGATTTTG AAGACCTCAC CTCCATGGAC
    ACTAGATCTT TTTCTTCAGA CTATACCCAC CTCCCAGAAT GCCAAAACCC CTGGGACACA
    GACCCTCCAA TGTACCATAC CATCGAGCGT TCCAAGAGTA GCCGCTACCT AGCCACTACA
    CCCTTCCTTC TGGAAGAGGC CCCCATTGTA AAATCCCATA GCTTTATGTT TTCTCCTTCA
    AGGAGTTACT ACGCCAACTT TGGGGTGCCC GTGAAAACAG CAGAATACAC AAGTATTACA
    GACTGTATCG ACACAAGATG TGTCAATGCC CCCCAAGCAA TAGCTGACAG AGCCACCTTC
    CCCGGAGGTC TCGGAGACAA AGTGGAAGAT TTATCTTGTT GCCACCCTGA GCGAGAAGCA
    GAGCTGAGCC ACCCTAGCTC TGACAGTGAG GAAAATGAGG CCAGAGGCCG GAGAGCTGCC
    AATCCGATAT CCTCTCAGGA GACTGAAAAT GCAGACAGAA CCCTATCCAA CAACATCACA
    GTTCCCAAGA TAGAGCGCGC CAACAGCTAC TCGGCAGAGG AGCCAAGCGC GCCATATGCA
    CATACCAGAA AGAGCTTCTC CATCAGTGAC AAGCTTGATA GACAGAGGAA CACAGCAAGC
    CTCCGAAATC CCTTCCAGAG AAGTAAGTCC TCCAAGCCGG AGGGCCGAGG GGACAGCGTA
    TCCATGAGAA GACTGTCTAG AACATCGGCT TTTCATAGCT TTGAGAGCAA GCACAACTAA

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

    CloneID ORa39819
    Clone ID Related Accession (Same CDS sequence) NM_001191562.1
    Accession Version NM_001191562.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5166bp)
    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 2017-10-01
    Organism Rattus norvegicus(Norway rat)
    Product transient receptor potential cation channel subfamily M member 3 isoform a
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AAHX01009945.1, AAHX01009970.1, AAHX01009971.1, AAHX01009973.1, AAHX01009975.1, AAHX01009976.1, AAHX01009979.1, AAHX01009980.1, AAHX01009981.1 and AAHX01009982.1. On Jul 17, 2010 this sequence version replaced XM_002728871.1. 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.

    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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGGGCAAGA AGTGGAGGGA CGCGGGCGAG ATGGAGCGAG GCTGCTCTGA TCGCGAGGGC 
    AGCGCGGAGA GCCGCCGGCG CAGCCGCAGC GCCAGCCGGG GCAGGTTTGC CGAGTCGTGG
    AAAAGGTTAA GTTCCAAGCA GGGGTCCACC AAGCGCTCGG GACTGCCAGC ACAGCAGACA
    CCGGCTCAGA AATCCTGGAT TGAAAGAGCA TTTTATAAAA GAGAATGTGT TCACATCATA
    CCCAGCACCA AAGACCCCCA TAGGTGTTGC TGTGGGCGCC TGATAGGCCA GCATGTCGGA
    CTCACTCCCA GTATCTCTGT GCTTCAGAAT GAGAAAAATG AGAGTCGCCT CTCCCGAAAT
    GACATCCAGT CTGAGAAGTG GTCTATCAGC AAACACACTC AGCTCAGCCC AACGGATGCT
    TTTGGGACTA TTGAGTTCCA AGGAGGCGGT CATTCCAACA AAGCCATGTA TGTCCGAGTA
    TCTTTTGATA CGAAACCTGA TCTCTTGCTA CACCTGATGA CCAAGGAATG GCAACTAGAG
    CTTCCCAAAC TTCTCATCTC TGTGCACGGA GGGCTGCAGA ACTTTGAACT CCAGCCCAAA
    CTCAAGCAAG TCTTCGGGAA AGGGCTCATC AAAGCAGCCA TGACAACTGG AGCCTGGATC
    TTCACTGGAG GGGTCAACAC AGGTGTCATC CGTCATGTGG GAGATGCCTT GAAGGACCAC
    GCATCTAAGT CTCGAGGGAA GATATGCACC ATAGGTATCG CACCCTGGGG AATTGTGGAA
    AACCAGGAAG ACCTGATCGG AAGAGATGTA GTCCGACCAT ACCAGACCAT GTCAAACCCT
    ATGAGCAAGC TCACGGTTCT CAACAGCATG CACTCCCACT TCATCCTGGC TGACAATGGG
    ACCACGGGAA AATACGGGGC CGAGGTGAAA CTCCGCAGAC AACTGGAAAA GCACATTTCA
    CTCCAGAAGA TAAACACAAG AATCGGTCAA GGGGTTCCAG TGGTGGCCCT CATCGTGGAA
    GGAGGACCCA ATGTGATCTC AATTGTTTTG GAATACCTTC GAGACACCCC TCCTGTACCA
    GTCGTGGTCT GCGATGGCAG TGGACGGGCA TCCGACATTC TGGCATTTGG GCATAAATAT
    TCAGAAGAAG GCGGTCTTAT CAATGAATCT TTGAGGGACC AGCTGTTGGT GACAATACAG
    AAGACCTTCA CATACACCCG CACCCAAGCC CAGCACCTGT TCATCATCCT CATGGAATGC
    ATGAAGAAGA AGGAATTGAT CACAGTGTTT CGAATGGGAT CAGAAGGCCA CCAGGACATT
    GATTTAGCTA TCCTGACAGC ACTACTCAAA GGAGCCAATG CATCCGCCCC AGACCAGCTG
    AGCTTAGCAT TAGCCTGGAA CAGAGTTGAC ATCGCTCGCA GCCAGATCTT TATTTACGGG
    CAGCAGTGGC CGGTAGGGTC CCTGGAGCAA GCCATGCTGG ATGCCCTAGT CCTGGACAGA
    GTGGACTTTG TGAAATTACT CATAGAAAAC GGAGTAAGCA TGCACCGTTT TCTCACCATC
    TCCAGACTAG AGGAACTGTA CAATACGAGA CATGGGCCCT CAAATACATT GTACCACTTG
    GTCAGGGATG TCAAAAAGGG AAACCTGCCC CCGGACTACA GAATCAGCCT GATAGACATT
    GGCCTGGTGA TCGAGTACCT GATGGGTGGG GCTTACCGCT GCAACTACAC ACGCAAGCGC
    TTTCGGACCC TCTACCACAA TCTCTTTGGC CCCAAAAGGC CCAAAGCCTT GAAACTGCTG
    GGAATGGAGG ATGATATTCC CTTGAGGAGA GGAAGAAAGA CAACTAAGAA ACGTGAGGAA
    GAGGTGGACA TAGACTTGGA TGACCCTGAG ATCAACCACT TCCCATTCCC TTTCCATGAG
    CTGATGGTGT GGGCTGTCCT CATGAAGAGG CAGAAGATGG CCCTGTTCTT CTGGCAGCAT
    GGAGAGGAGG CCATGGCTAA AGCCCTGGTG GCCTGCAAGC TCTGCAAAGC CATGGCCCAT
    GAGGCTTCTG AGAATGATAT GGTGGATGAC ATTTCCCAAG AGCTGAACCA CAACTCCAGG
    GACTTTGGCC AGCTGGCTGT GGAGCTTTTG GACCAGTCCT ACAAACAGGA TGAGCAGCTG
    GCCATGAAAC TGCTGACGTA TGAGTTGAAG AACTGGAGCA ATGCCACATG CCTGCAGCTG
    GCTGTGGCTG CCAAGCACCG TGACTTCATT GCACACACGT GCAGCCAGAT GTTACTTACC
    GACATGTGGA TGGGACGGCT CCGCATGCGA AAGAACTCAG GCCTCAAGGT AATTCTGGGA
    ATTCTACTTC CTCCTTCAAT TCTCAGCTTG GAGTTCAAGA ACAAAGATGA CATGCCCTAT
    ATGACTCAGG CCCAAGAAAT TCATCTCCAA GAGAAGGAGC CGGAGGAACC GGAGAAGCCT
    ACAAAGGAAA AAGATGAAGA GGACATGGAG CTAACAGCAA TGTTGGGACG AAACAATGGG
    GAGTCATCCA GAAAGAAAGA CGAAGAAGAA GTTCAAAGCA GGCATCGACT AATCCCTGTG
    GGCCGAAAAA TCTATGAGTT CTACAACGCA CCCATTGTGA AGTTCTGGTT CTACACTCTG
    GCGTACATTG GATACCTGAT GCTCTTCAAT TACATCGTGC TGGTGAAGAT GGAGCGCTGG
    CCTTCCACTC AGGAATGGAT CGTCATCTCC TACATCTTCA CTCTGGGAAT AGAGAAGATG
    AGAGAGATCC TGATGTCAGA GCCGGGCAAG CTGCTGCAGA AAGTCAAAGT GTGGCTGCAG
    GAGTACTGGA ACGTCACGGA CCTCATCGCC ATCCTCCTCT TCTCGGTGGG AATGATCCTT
    CGTCTTCAAG ACCAGCCCTT CAGGAGTGAC GGGAGGGTCA TCTACTGTGT GAACATCATT
    TATTGGTATA TCCGTTTACT AGACATCTTC GGCGTGAACA AGTATCTGGG CCCATACGTA
    ATGATGATTG GGAAAATGAT GATAGACATG ATGTACTTCG TCATCATTAT GCTGGTGGTG
    CTGATGAGCT TTGGGGTCGC CAGGCAAGCC ATTCTCTTTC CCAATGAGGA GCCATCTTGG
    AAACTGGCCA AGAATATCTT CTACATGCCT TATTGGATGA TTTATGGGGA AGTGTTTGCT
    GACCAGATAG ACCGTAAGCA AGTTTATGAT TCTCATACAC CAAAGTCAGC TCCCTGTGGA
    CAGAACGAGA CCCGAGAGGA TGGCAAGACA ATCCAGCTGC CCCCATGCAA GACAGGAGCA
    TGGATTGTGC CAGCCATCAT GGCCTGCTAC CTCTTAGTAG CGAACATCCT TCTGGTCAAC
    CTCCTTATTG CTGTCTTCAA CAATACATTT TTTGAGGTCA AGTCGATATC CAACCAAGTA
    TGGAAATTTC AGAGGTACCA GCTCATCATG ACTTTCCATG AGAGACCAGT TCTGCCTCCA
    CCGCTCATCA TCTTCAGTCA CATGACCATG ATATTCCAGC ATGTGTGCTG CCGATGGAGG
    AAGCATGAGA GTGACCCGGA TGAAAGGGAC TACGGCCTGA AACTCTTCAT AACTGATGAT
    GAGCTCAAGA AAGTACATGA TTTTGAAGAG CAGTGCATAG AGGAATATTT CAGAGAGAAG
    GATGACCGCT TCAATTCATC CAATGATGAG AGGATACGGG TTACGTCAGA AAGGGTGGAG
    AACATGTCCA TGAGGCTGGA GGAAGTCAAT GAGAGAGAAC ATTCCATGAA GGCTTCACTC
    CAGACTGTGG ACATCCGGCT AGCACAGCTG GAGGATCTCA TCGGGCGCAT GGCCACTGCC
    CTGGAGCGCC TAACAGGTCT GGAGCGGGCA GAGTCTAACA AAATCCGCTC AAGGACCTCC
    TCAGACTGCA CAGACGCAGC CTACATCGTC CGCCAGAGCA GCTTCAACAG TCAGGAAGGG
    AACACCTTCA AACTTCAAGA GAGTATAGAC CCTGCAGGTG AGGAGACCAT GTCCCCAACT
    TCTCCAACCT TAATGCCCCG TATGCGAAGC CATTCTTTCT ATTCGGTCAA TGTGAAAGAC
    AAAGGTGGTA TAGAAAAGTT GGAGAGCATT TTCAAAGAAA GGTCCCTGAG CTTACACCGT
    GCTACTAGCT CCCACTCAGT AGCCAAGGAG CCCAAAGCTC CTGCAGCCCC TGCAAACACC
    TTGGCCATTG TTCCTGATTC CAGAAGACCA TCGTCATGCA TAGACATCTA TGTCTCTGCC
    ATGGATGAGC TCCACTGTGA TATAGACCCT CTGGATAATT CCATGAACAT CCTTGGGCTG
    GGCGAGCCAA GCTTTTCAGC TCTAGCACCT TCCACAGCCC CTTCAAGCAG TGCCTATGCA
    ACCCTTGCAC CTACAGACCG ACCTCCAAGC AGGAGCATTG ATTTTGAAGA CCTCACCTCC
    ATGGACACTA GATCTTTTTC TTCAGACTAT ACCCACCTCC CAGAATGCCA AAACCCCTGG
    GACACAGACC CTCCAATGTA CCATACCATC GAGCGTTCCA AGAGTAGCCG CTACCTAGCC
    ACTACACCCT TCCTTCTGGA AGAGGCCCCC ATTGTAAAAT CCCATAGCTT TATGTTTTCT
    CCTTCAAGGA GTTACTACGC CAACTTTGGG GTGCCCGTGA AAACAGCAGA ATACACAAGT
    ATTACAGACT GTATCGACAC AAGATGTGTC AATGCCCCCC AAGCAATAGC TGACAGAGCC
    ACCTTCCCCG GAGGTCTCGG AGACAAAGTG GAAGATTTAT CTTGTTGCCA CCCTGAGCGA
    GAAGCAGAGC TGAGCCACCC TAGCTCTGAC AGTGAGGAAA ATGAGGCCAG AGGCCGGAGA
    GCTGCCAATC CGATATCCTC TCAGGAGACT GAAAATGCAG ACAGAACCCT ATCCAACAAC
    ATCACAGTTC CCAAGATAGA GCGCGCCAAC AGCTACTCGG CAGAGGAGCC AAGCGCGCCA
    TATGCACATA CCAGAAAGAG CTTCTCCATC AGTGACAAGC TTGATAGACA GAGGAACACA
    GCAAGCCTCC GAAATCCCTT CCAGAGAAGT AAGTCCTCCA AGCCGGAGGG CCGAGGGGAC
    AGCGTATCCA TGAGAAGACT GTCTAGAACA TCGGCTTTTC ATAGCTTTGA GAGCAAGCAC
    AACTAA

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

    RefSeq NP_001178491.1
    CDS1..5166
    Translation

    Target ORF information:

    RefSeq Version NM_001191562.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus transient receptor potential cation channel, subfamily M, member 3 (Trpm3), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001191562.1

    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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGGGCAAGA AGTGGAGGGA CGCGGGCGAG ATGGAGCGAG GCTGCTCTGA TCGCGAGGGC 
    AGCGCGGAGA GCCGCCGGCG CAGCCGCAGC GCCAGCCGGG GCAGGTTTGC CGAGTCGTGG
    AAAAGGTTAA GTTCCAAGCA GGGGTCCACC AAGCGCTCGG GACTGCCAGC ACAGCAGACA
    CCGGCTCAGA AATCCTGGAT TGAAAGAGCA TTTTATAAAA GAGAATGTGT TCACATCATA
    CCCAGCACCA AAGACCCCCA TAGGTGTTGC TGTGGGCGCC TGATAGGCCA GCATGTCGGA
    CTCACTCCCA GTATCTCTGT GCTTCAGAAT GAGAAAAATG AGAGTCGCCT CTCCCGAAAT
    GACATCCAGT CTGAGAAGTG GTCTATCAGC AAACACACTC AGCTCAGCCC AACGGATGCT
    TTTGGGACTA TTGAGTTCCA AGGAGGCGGT CATTCCAACA AAGCCATGTA TGTCCGAGTA
    TCTTTTGATA CGAAACCTGA TCTCTTGCTA CACCTGATGA CCAAGGAATG GCAACTAGAG
    CTTCCCAAAC TTCTCATCTC TGTGCACGGA GGGCTGCAGA ACTTTGAACT CCAGCCCAAA
    CTCAAGCAAG TCTTCGGGAA AGGGCTCATC AAAGCAGCCA TGACAACTGG AGCCTGGATC
    TTCACTGGAG GGGTCAACAC AGGTGTCATC CGTCATGTGG GAGATGCCTT GAAGGACCAC
    GCATCTAAGT CTCGAGGGAA GATATGCACC ATAGGTATCG CACCCTGGGG AATTGTGGAA
    AACCAGGAAG ACCTGATCGG AAGAGATGTA GTCCGACCAT ACCAGACCAT GTCAAACCCT
    ATGAGCAAGC TCACGGTTCT CAACAGCATG CACTCCCACT TCATCCTGGC TGACAATGGG
    ACCACGGGAA AATACGGGGC CGAGGTGAAA CTCCGCAGAC AACTGGAAAA GCACATTTCA
    CTCCAGAAGA TAAACACAAG AATCGGTCAA GGGGTTCCAG TGGTGGCCCT CATCGTGGAA
    GGAGGACCCA ATGTGATCTC AATTGTTTTG GAATACCTTC GAGACACCCC TCCTGTACCA
    GTCGTGGTCT GCGATGGCAG TGGACGGGCA TCCGACATTC TGGCATTTGG GCATAAATAT
    TCAGAAGAAG GCGGTCTTAT CAATGAATCT TTGAGGGACC AGCTGTTGGT GACAATACAG
    AAGACCTTCA CATACACCCG CACCCAAGCC CAGCACCTGT TCATCATCCT CATGGAATGC
    ATGAAGAAGA AGGAATTGAT CACAGTGTTT CGAATGGGAT CAGAAGGCCA CCAGGACATT
    GATTTAGCTA TCCTGACAGC ACTACTCAAA GGAGCCAATG CATCCGCCCC AGACCAGCTG
    AGCTTAGCAT TAGCCTGGAA CAGAGTTGAC ATCGCTCGCA GCCAGATCTT TATTTACGGG
    CAGCAGTGGC CGGTAGGGTC CCTGGAGCAA GCCATGCTGG ATGCCCTAGT CCTGGACAGA
    GTGGACTTTG TGAAATTACT CATAGAAAAC GGAGTAAGCA TGCACCGTTT TCTCACCATC
    TCCAGACTAG AGGAACTGTA CAATACGAGA CATGGGCCCT CAAATACATT GTACCACTTG
    GTCAGGGATG TCAAAAAGGG AAACCTGCCC CCGGACTACA GAATCAGCCT GATAGACATT
    GGCCTGGTGA TCGAGTACCT GATGGGTGGG GCTTACCGCT GCAACTACAC ACGCAAGCGC
    TTTCGGACCC TCTACCACAA TCTCTTTGGC CCCAAAAGGC CCAAAGCCTT GAAACTGCTG
    GGAATGGAGG ATGATATTCC CTTGAGGAGA GGAAGAAAGA CAACTAAGAA ACGTGAGGAA
    GAGGTGGACA TAGACTTGGA TGACCCTGAG ATCAACCACT TCCCATTCCC TTTCCATGAG
    CTGATGGTGT GGGCTGTCCT CATGAAGAGG CAGAAGATGG CCCTGTTCTT CTGGCAGCAT
    GGAGAGGAGG CCATGGCTAA AGCCCTGGTG GCCTGCAAGC TCTGCAAAGC CATGGCCCAT
    GAGGCTTCTG AGAATGATAT GGTGGATGAC ATTTCCCAAG AGCTGAACCA CAACTCCAGG
    GACTTTGGCC AGCTGGCTGT GGAGCTTTTG GACCAGTCCT ACAAACAGGA TGAGCAGCTG
    GCCATGAAAC TGCTGACGTA TGAGTTGAAG AACTGGAGCA ATGCCACATG CCTGCAGCTG
    GCTGTGGCTG CCAAGCACCG TGACTTCATT GCACACACGT GCAGCCAGAT GTTACTTACC
    GACATGTGGA TGGGACGGCT CCGCATGCGA AAGAACTCAG GCCTCAAGGT AATTCTGGGA
    ATTCTACTTC CTCCTTCAAT TCTCAGCTTG GAGTTCAAGA ACAAAGATGA CATGCCCTAT
    ATGACTCAGG CCCAAGAAAT TCATCTCCAA GAGAAGGAGC CGGAGGAACC GGAGAAGCCT
    ACAAAGGAAA AAGATGAAGA GGACATGGAG CTAACAGCAA TGTTGGGACG AAACAATGGG
    GAGTCATCCA GAAAGAAAGA CGAAGAAGAA GTTCAAAGCA GGCATCGACT AATCCCTGTG
    GGCCGAAAAA TCTATGAGTT CTACAACGCA CCCATTGTGA AGTTCTGGTT CTACACTCTG
    GCGTACATTG GATACCTGAT GCTCTTCAAT TACATCGTGC TGGTGAAGAT GGAGCGCTGG
    CCTTCCACTC AGGAATGGAT CGTCATCTCC TACATCTTCA CTCTGGGAAT AGAGAAGATG
    AGAGAGATCC TGATGTCAGA GCCGGGCAAG CTGCTGCAGA AAGTCAAAGT GTGGCTGCAG
    GAGTACTGGA ACGTCACGGA CCTCATCGCC ATCCTCCTCT TCTCGGTGGG AATGATCCTT
    CGTCTTCAAG ACCAGCCCTT CAGGAGTGAC GGGAGGGTCA TCTACTGTGT GAACATCATT
    TATTGGTATA TCCGTTTACT AGACATCTTC GGCGTGAACA AGTATCTGGG CCCATACGTA
    ATGATGATTG GGAAAATGAT GATAGACATG ATGTACTTCG TCATCATTAT GCTGGTGGTG
    CTGATGAGCT TTGGGGTCGC CAGGCAAGCC ATTCTCTTTC CCAATGAGGA GCCATCTTGG
    AAACTGGCCA AGAATATCTT CTACATGCCT TATTGGATGA TTTATGGGGA AGTGTTTGCT
    GACCAGATAG ACCGTAAGCA AGTTTATGAT TCTCATACAC CAAAGTCAGC TCCCTGTGGA
    CAGAACGAGA CCCGAGAGGA TGGCAAGACA ATCCAGCTGC CCCCATGCAA GACAGGAGCA
    TGGATTGTGC CAGCCATCAT GGCCTGCTAC CTCTTAGTAG CGAACATCCT TCTGGTCAAC
    CTCCTTATTG CTGTCTTCAA CAATACATTT TTTGAGGTCA AGTCGATATC CAACCAAGTA
    TGGAAATTTC AGAGGTACCA GCTCATCATG ACTTTCCATG AGAGACCAGT TCTGCCTCCA
    CCGCTCATCA TCTTCAGTCA CATGACCATG ATATTCCAGC ATGTGTGCTG CCGATGGAGG
    AAGCATGAGA GTGACCCGGA TGAAAGGGAC TACGGCCTGA AACTCTTCAT AACTGATGAT
    GAGCTCAAGA AAGTACATGA TTTTGAAGAG CAGTGCATAG AGGAATATTT CAGAGAGAAG
    GATGACCGCT TCAATTCATC CAATGATGAG AGGATACGGG TTACGTCAGA AAGGGTGGAG
    AACATGTCCA TGAGGCTGGA GGAAGTCAAT GAGAGAGAAC ATTCCATGAA GGCTTCACTC
    CAGACTGTGG ACATCCGGCT AGCACAGCTG GAGGATCTCA TCGGGCGCAT GGCCACTGCC
    CTGGAGCGCC TAACAGGTCT GGAGCGGGCA GAGTCTAACA AAATCCGCTC AAGGACCTCC
    TCAGACTGCA CAGACGCAGC CTACATCGTC CGCCAGAGCA GCTTCAACAG TCAGGAAGGG
    AACACCTTCA AACTTCAAGA GAGTATAGAC CCTGCAGGTG AGGAGACCAT GTCCCCAACT
    TCTCCAACCT TAATGCCCCG TATGCGAAGC CATTCTTTCT ATTCGGTCAA TGTGAAAGAC
    AAAGGTGGTA TAGAAAAGTT GGAGAGCATT TTCAAAGAAA GGTCCCTGAG CTTACACCGT
    GCTACTAGCT CCCACTCAGT AGCCAAGGAG CCCAAAGCTC CTGCAGCCCC TGCAAACACC
    TTGGCCATTG TTCCTGATTC CAGAAGACCA TCGTCATGCA TAGACATCTA TGTCTCTGCC
    ATGGATGAGC TCCACTGTGA TATAGACCCT CTGGATAATT CCATGAACAT CCTTGGGCTG
    GGCGAGCCAA GCTTTTCAGC TCTAGCACCT TCCACAGCCC CTTCAAGCAG TGCCTATGCA
    ACCCTTGCAC CTACAGACCG ACCTCCAAGC AGGAGCATTG ATTTTGAAGA CCTCACCTCC
    ATGGACACTA GATCTTTTTC TTCAGACTAT ACCCACCTCC CAGAATGCCA AAACCCCTGG
    GACACAGACC CTCCAATGTA CCATACCATC GAGCGTTCCA AGAGTAGCCG CTACCTAGCC
    ACTACACCCT TCCTTCTGGA AGAGGCCCCC ATTGTAAAAT CCCATAGCTT TATGTTTTCT
    CCTTCAAGGA GTTACTACGC CAACTTTGGG GTGCCCGTGA AAACAGCAGA ATACACAAGT
    ATTACAGACT GTATCGACAC AAGATGTGTC AATGCCCCCC AAGCAATAGC TGACAGAGCC
    ACCTTCCCCG GAGGTCTCGG AGACAAAGTG GAAGATTTAT CTTGTTGCCA CCCTGAGCGA
    GAAGCAGAGC TGAGCCACCC TAGCTCTGAC AGTGAGGAAA ATGAGGCCAG AGGCCGGAGA
    GCTGCCAATC CGATATCCTC TCAGGAGACT GAAAATGCAG ACAGAACCCT ATCCAACAAC
    ATCACAGTTC CCAAGATAGA GCGCGCCAAC AGCTACTCGG CAGAGGAGCC AAGCGCGCCA
    TATGCACATA CCAGAAAGAG CTTCTCCATC AGTGACAAGC TTGATAGACA GAGGAACACA
    GCAAGCCTCC GAAATCCCTT CCAGAGAAGT AAGTCCTCCA AGCCGGAGGG CCGAGGGGAC
    AGCGTATCCA TGAGAAGACT GTCTAGAACA TCGGCTTTTC ATAGCTTTGA GAGCAAGCAC
    AACTAA

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