Ylpm1 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Ylpm1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ylpm1 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
ORa10775 NM_001271258.1
Latest version!
Rattus norvegicus YLP motif containing 1 (Ylpm1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1091.30
$1559.00

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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 ORa10775
    Clone ID Related Accession (Same CDS sequence) NM_001271258.1
    Accession Version NM_001271258.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6369bp)
    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 2019-06-06
    Organism Rattus norvegicus(Norway rat)
    Product YLP motif-containing protein 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAHX01045600.1, AAHX01045601.1 and AAHX01045602.1. On or before Sep 12, 2012 this sequence version replaced XM_234416.6, XM_001057111.3. ##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
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    ATGTACCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC ACCGGTCCCG 
    CCGCCGCCGC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG
    ACGGCTCCCG CGGCCCCTTC TTCTTCGGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAGCCCCAC
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC
    TGGCAGCCGC CACCGCCACC GATGCCCCCG CCACCTGGGC CAGCCCTCAG CTATCAGAAG
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC CGGTTTGGTT
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTATATGCCC
    CCATCTCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCTTCC
    GCTCAGCCCT ACCTGCCCCC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC
    TATCTGGCGC CTACTCCTTC TTATTCTTCC TCTTCCTCCT CGCAATCATA TTTGAGCCAT
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCC
    AAACCCCAGC TACCACCACC ACCACCGTCC ATCCCTTCTG GGAATAAAAC AACTATCCAG
    CAAGAGCCTT TGGAGACTGG GGCCAAGAAC AAGAATGCTG AACAGAAACA AGCTGCTCCT
    GAACCAGATC CCTCTACAAT GACTCCACAG GAGCAACAAC AATATTGGTA TCGACAGCAT
    CTGCTTAGCT TGCAGCAGAG GACAAAAGTG CATTTGCCAG GACATAAAAA GGGTCTTGTC
    ACGGCAAAGG ATGTACCAGA ACCCATAAAA GAAGAAGCTC CAGTGCCAGC TACCAGTCAG
    ATAGCAGAGC CTCTTGCAGC GGAAGAGCCC CCATTACCAC CTCCAAATGA AGAGATGCCA
    CCTCCACTCC CGCCTGAGGA GCCCCAGTCA GAAGACCCAG AAGAAGATGC CAGATTAAAA
    CAGTTGCAGG CTGCAGCGGC ACATTGGCAA CAGCACCAGC AGCATCGAGT CGGCTTCCAG
    TATCAAGGAA TAATGCAGAG GCACACTCAG CTACAGCAGA TCCTACAGCA GTACCAGCAA
    GTCATCCAGC ACTCGCCACA TATACAGACC ATGTCTCTCG ATGTGCAGCT GCGACACTAT
    GAGATGCAGC AGCAACAGTT TCAACGTCTC TATCAGGAGT GGGAGCGAGA GTTCCAGCTG
    TGGGAGGAGC AGCTCCATTC CTACCCCCAT AAAGATCAGC TTGAGGAGTA TGAGAAGCAG
    TGGAAATCAT GGCAAGGACA TATGCGAGCC ACTCAGACCT ATCTCCAGGA GAAAGTCACC
    TCATTTCAGG CTGTGAAGAA CCAGTACATG GGAAACATGG CAATGCCACC TCCATTTGTC
    CCATATTCGC AGATGCCGCC ACCTCTGCCA ACAATGCCCC CTCCAGTATT ACCTCCATCA
    TTGCCACCAC CAGTGATGCC CCCCGCCCTG CCTTCCACCA TACCACCACC TGGCATGCCT
    CCACCTGTGA TGCCACCTTC TCTACCAACC TCTGTTCCCC CACCAGGAAT GCCTCCATCA
    CTTTCTTCAG CAGTTCTCCC CCCGCCCTCC CTCTCTTCAG CAGGACCACC ACCAGTCCTT
    CCCCCTCCAT CTCTCTCTGG GGCACCACCT GTCCTGCCCC TCCCACCGTT ATCTTCAGCC
    ACACCTCCCC CTGGAATACC TCCCCCTGGA GTCCCACAAG GGATGCCGCC TCAGTTAACA
    GCCCCGGTTC CACCAGCCTC CAGTTCTCAG AACTCACAGG TCCCAGAGAA ACCTAGACAA
    GCACTGCTTC CCACACCTGT GTCTTTTGGT TCAACCCCAC CTTCACCATA TCACCCTCCA
    CCTCAGTCAG AACAAGGGAA TTCCAAACCT CTGAACAAGG TGTTCTCATC TGAGCAAGGA
    CTGGGCGAGT CTTCTTCTGC TCTATCTCAA TCCGTCATTG CAGCTAAGGA CACGCCAGTG
    AAGTCAGGTG GACTGCTTGC AGACCCTCCT AAAGGCAGTT TCTTAGAAGG TCCGAGAGGT
    CCAAGATTTG ATGGTCCTCG AAGATTTGAG GATTTAGGGT CAAGGTGTGA AGGACCGAGA
    CCCAAAGGGC CTCGTTTTGA AGGAAATCGC CCCGATGGGC CAAGACCCAG ATATGAAAGT
    CACCCAGCAG AGGGCACTAA AAGCAAATGG GGAACGATCC CCCGGGGCCC AGCATCTCAA
    TTTTATATAA CTCCTAATAC ATCCCTGAGT CCTCGACAGA GTGGACCACA GTGGAAAGGC
    CACAAAGCAA CTGTCGGACA GCAGCATCAG CAGCAGCCTA AGCAGCAACC TAAGTCACAA
    GCAGAACCTC TTTCAGGAAA CAAAGAGCCA TTAGCAGACA CAAGTAGTAA CCAGCAGAAG
    AATTTAAAAA TTCAGTCAGC CGCGTTTTCC ATTTCTGCAG ATGTCAAGGA TACCAAGGCG
    GCTCAGTCAA ATGAGAATCT AAGCAACTCT CAACAAGAGC CACCTAAAAG CCAAGTCTCG
    GAAGCACCCA TAGAGCCCTC TAATTGGAAC CAGAATTCTC AAAGTATGGA GACTGAAATG
    GACAAAGCCC AAGGTGTTAC TCAGCCTGTA TCCCTTGCAA ATAAACCTGT ACCTTCTCAA
    TCTCCTTTCC CCTCAAAAGT AGGGAGCATG GAGGGAGGAG CTGCAGTAGC AGCAGCAGCA
    TTGTCTGCAG ATGATTTCAA ACCTTTGGGT GTTGGTTTGT CCCACTCAGA AAACCACCAA
    GAAAAAGCTC TTCCTCAGCC AGACAGCAGA GAAAATAGAT TAGAAGGCAA TAAAGGCAGC
    AGCTCATCCT ACAGAGGTCC TGGGCAAAAT AGAGTGGAAG ATTCACGGGA TAAAGGACTA
    GTAAACAGAG GTCGTGGCCA GACAATTAAT CGAGGTCCAG GTCTGATCAA GCAAGAAGAT
    TTCCACGATA AAATGCTGGG TAGAAGAGAA GACAGTCGTG AGAAAATAAA CAAAGGAGAA
    GGCAGCCGGG ACAGGGTGTT TGTGAGACCG GGAAGCAGTC GGGATAAAAT ACCAGGTGGC
    CTACAAGACA GTCAGGACAG TAGAGCCAAC AGTAGAGAAA GAGGGCCACC TCGCAGGGCT
    GGCAGTCAGG AGAGAGGACC TCCTCGAAGG GCTGGAAGTA GAGAGAGAGT ACCCCCTCAA
    AGAGCTGGGA GCAGGGAGAG GGGACCACCT CGAGGGCCAG GTAGTCGAGA AAGGGGATTA
    GGAAGGCCAG ATTTTGGTCA TGATAGAGTT CCATTCAGAC CAGAACCAGG AGATGGTGGA
    GACAAAATGT ATCCTTACCA CCGAGATGAA CCTTCTAGGG CTTCGTGGAA CCATGGAGAA
    GAGAGAGGAC ACGAAGAGTT CCCATTAGAT GGTAGAAATG TACCAATTGA GCGAGAGAGA
    CTCGATGACT GGGATAGAAA AAGATACTGG AGAGAGTGTG AACGTGACTA TCAAGATGAT
    ACACTAGATT CATACGGCAG AGAGGACAGG TTCTCAGCAC CACCATCTCG GCCTCATGAT
    GGAGACAGGC GAGGCCCTTG GTGGGATGAT TGGGAAAGAG ATCAAGATAT GGATGAGGGT
    TATGGTAGGG AAGTGGACAG GGACTTAGAC AGAGATGTGG ATCGGATTAG AAGACCTGTG
    GATATATATG ATAGAAATGT GGATAACGAA TGGGACAGAG ATTATGGGAG GCCACTGGAT
    GAACAGGAAT CACAGTTTCG TGAACGGGAT ATCCCATCTC TTCCACCTTT ACCACCTCTC
    CCACCTTTGG ATAGATATCG GGATGATAGA TGGAGAGAAG AAAGAAATCG AGAACATGGG
    TATGACCGAG ATTTCCGTGA TAGGGGTGAG TTGAGGATTC GAGAGTACCC AGAAAGAGGA
    GATACATGGC GGGAAAAGCG AGATTATGTT CCTGACAGAA TGGACTGGGA AAGAGAGCGG
    TTGTCAGACA GATGGTACCC CTCTGATGCG GAAAGACACT CCCCCATGGC GGAACATATG
    CCATCCTCAC ATCATTCCTC TGAAATGATG GGGTCCGATG CAAACTTAGA CTCTGACCAA
    GGCCTTGGAG GGGTAATGGT TCTCAGTCAG AGGCAGCACG AAATCATTTT GAAAGCTGCA
    CAAGAATTGA AAATGCTTCG AGAACAGAAA GAGCAGCTTC AAAAGTTGAA AGACTTTGGG
    TCTGAGCCAC AGACGGCTGA CCATCTACCA CCCCCGGACT CAAGACTACA GAATACGTCA
    AGGCCTGGGA TGTACCCGCC TCCAGGATCC TATAGACCAC CCCCTCCTAT GGGTAAGCCA
    CCTGGGTCAA TTGTGAGACC CTCTGCTCCA CCAGCAAGAT CATGTGTTCC TATGACTAGG
    CCTCCTGTGC CAATACCACC ACCGCCTCCT CCACCTCCAC CACCACCACC TCCTCCTCCG
    GTTATAAAGC CAAAAACTTC ATCTGTGAAA CAGGAACGCT GGGACGAAGA TTCTTTCTTT
    GGGCTCTGGG ATACAAATGA TGATCAAGGA CTGAATTCAG AATTTAAGCG AGACACTGCA
    GCAATTCCAT CTGCTCCGGT ATTACCACCC CCACCTGTTC ATCCTTCCAT TCCCCCTCCT
    GGCCCAATGC CTATGGGTAT GCCACCAATG TCCAAACCAC CACCAGTGCA GCATACAGTT
    GACTATGGCC ATGGCCGAGA TATGCCTACT AATAAAGTTG AACAGATCCC GTATGGAGAA
    AGAATAACTC TACGCCCAGA TCCATTACCT GAAAGGTCAG CTTTCGATGC AGATCATGCA
    GGCCAGCGTG ACCGCTATGA TAGAGATAGA GACCGTGAAC CTTATTTTGA CCGTCAAAGT
    AATATGACAG ATCATCGAGA TTTTAAAAGG GACCGAGAGA CACACAGAGA TCGGGATCGT
    GTTCTTGACT ATGAGCGGGA TCGATTTGAC AGAGAGCGTA GACCCCGAGA TGACAGGAAT
    CAATCATACC GTGACAAAAA AGACCATTCT TCATCCAGAA GAGGAGGATT TGATAGGCCA
    TCCTATGACA GGAAGTCTGA TAGACCGCCC TATGAAGGCC CACCCATGTT TGGAGGAGAA
    CGAAGAACTT ACCCGGAGGA GCGGATGCCT CTGCCAGCTC CTTCCCTGGG CCACCAGCCA
    CCTCCAGTTC CACGGGTTGA GAAGAAGCCT GAGTCCAAGA ATGTGGACGA CATTCTGAAA
    CCACCAGGCC GGGAGAGCCG GCCTGAAAGA ATTGTTGTTA TAATGAGAGG ATTGCCTGGC
    AGTGGAAAGA CACATGTTGC AAAACTTATC CGGGATAAGG AAGTAGAATT CGGAGGACCT
    GCACCCAGGG TTTTAAGTCT AGATGATTAT TTCATTGCTG AAGTAGAAAA AGAAGAAAAA
    GATCCAGATT CTGGAAAGAA AGTGAAAAAG AAGGTAATGG AGTATGAATA TGAAGCTGAC
    ATGGAGGAGA CTTACCGCAC CAGCATGTTC AAAACTTTCA AAAAGACGCT AGATGATGGC
    TTTTTCCCTT TCATTATTCT GGATGCTATC AATGACAGAG TTAGACATTT TGACCAGTTT
    TGGAGCGCAG CAAAAACCAA GGGTTTTGAG GTGTATTTGG CTGAAATGAG TGCCGATAAC
    CAGACTTGTG GCAAGAGAAA TATTCATGGA AGAAAGCTTA AAGAAATAAA CAAGATGGCG
    GAACATTGGG AAGCTGCACC CCGTCACATG ATGCGTCTGG ACATCCGTTC CCTGCTACAA
    GATGCTGCAA TTGAAGAAGT AGAGATGGAA GATTTTGATG CAAACATTGA AGACCAGAAG
    GAAGAAAAGA AAGATGCAGA AGAAGAGGAA AGCGAACTGG GTTACATTCC GAAAAGCAAA
    TGGGAGATGG ACACTTCTGA GGCAAAGCTA GACAAGTTGG ATGGCTTGAG GACTGGTACT
    AAAAGGAAAC GAGACTGGGA GGCAATCGCC AGCAGAATGG AGGACTACCT TCAGCTCCCT
    GATGACTACG AAACTCGCGC TTCTGAACCT GGGAAGAAGA GGGTGAGATG GGCAGACCTG
    GAAGAAAAGA AGGACGCAGA CAGGAAAAGG GCCATAGGTT TTGTGGTCGG GCAGACTGAC
    TGGGAGAAGA TCACAGATGA GAGCGGCCAC CTGGCTGAGA GAGCCCTCAA CCGGACCAAA
    TACATATGA

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

    RefSeq NP_001258187.1
    CDS147..6515
    Translation

    Target ORF information:

    RefSeq Version NM_001271258.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus YLP motif containing 1 (Ylpm1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001271258.1

    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
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    ATGTACCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC ACCGGTCCCG 
    CCGCCGCCGC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG
    ACGGCTCCCG CGGCCCCTTC TTCTTCGGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAGCCCCAC
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC
    TGGCAGCCGC CACCGCCACC GATGCCCCCG CCACCTGGGC CAGCCCTCAG CTATCAGAAG
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC CGGTTTGGTT
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTATATGCCC
    CCATCTCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCTTCC
    GCTCAGCCCT ACCTGCCCCC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC
    TATCTGGCGC CTACTCCTTC TTATTCTTCC TCTTCCTCCT CGCAATCATA TTTGAGCCAT
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCC
    AAACCCCAGC TACCACCACC ACCACCGTCC ATCCCTTCTG GGAATAAAAC AACTATCCAG
    CAAGAGCCTT TGGAGACTGG GGCCAAGAAC AAGAATGCTG AACAGAAACA AGCTGCTCCT
    GAACCAGATC CCTCTACAAT GACTCCACAG GAGCAACAAC AATATTGGTA TCGACAGCAT
    CTGCTTAGCT TGCAGCAGAG GACAAAAGTG CATTTGCCAG GACATAAAAA GGGTCTTGTC
    ACGGCAAAGG ATGTACCAGA ACCCATAAAA GAAGAAGCTC CAGTGCCAGC TACCAGTCAG
    ATAGCAGAGC CTCTTGCAGC GGAAGAGCCC CCATTACCAC CTCCAAATGA AGAGATGCCA
    CCTCCACTCC CGCCTGAGGA GCCCCAGTCA GAAGACCCAG AAGAAGATGC CAGATTAAAA
    CAGTTGCAGG CTGCAGCGGC ACATTGGCAA CAGCACCAGC AGCATCGAGT CGGCTTCCAG
    TATCAAGGAA TAATGCAGAG GCACACTCAG CTACAGCAGA TCCTACAGCA GTACCAGCAA
    GTCATCCAGC ACTCGCCACA TATACAGACC ATGTCTCTCG ATGTGCAGCT GCGACACTAT
    GAGATGCAGC AGCAACAGTT TCAACGTCTC TATCAGGAGT GGGAGCGAGA GTTCCAGCTG
    TGGGAGGAGC AGCTCCATTC CTACCCCCAT AAAGATCAGC TTGAGGAGTA TGAGAAGCAG
    TGGAAATCAT GGCAAGGACA TATGCGAGCC ACTCAGACCT ATCTCCAGGA GAAAGTCACC
    TCATTTCAGG CTGTGAAGAA CCAGTACATG GGAAACATGG CAATGCCACC TCCATTTGTC
    CCATATTCGC AGATGCCGCC ACCTCTGCCA ACAATGCCCC CTCCAGTATT ACCTCCATCA
    TTGCCACCAC CAGTGATGCC CCCCGCCCTG CCTTCCACCA TACCACCACC TGGCATGCCT
    CCACCTGTGA TGCCACCTTC TCTACCAACC TCTGTTCCCC CACCAGGAAT GCCTCCATCA
    CTTTCTTCAG CAGTTCTCCC CCCGCCCTCC CTCTCTTCAG CAGGACCACC ACCAGTCCTT
    CCCCCTCCAT CTCTCTCTGG GGCACCACCT GTCCTGCCCC TCCCACCGTT ATCTTCAGCC
    ACACCTCCCC CTGGAATACC TCCCCCTGGA GTCCCACAAG GGATGCCGCC TCAGTTAACA
    GCCCCGGTTC CACCAGCCTC CAGTTCTCAG AACTCACAGG TCCCAGAGAA ACCTAGACAA
    GCACTGCTTC CCACACCTGT GTCTTTTGGT TCAACCCCAC CTTCACCATA TCACCCTCCA
    CCTCAGTCAG AACAAGGGAA TTCCAAACCT CTGAACAAGG TGTTCTCATC TGAGCAAGGA
    CTGGGCGAGT CTTCTTCTGC TCTATCTCAA TCCGTCATTG CAGCTAAGGA CACGCCAGTG
    AAGTCAGGTG GACTGCTTGC AGACCCTCCT AAAGGCAGTT TCTTAGAAGG TCCGAGAGGT
    CCAAGATTTG ATGGTCCTCG AAGATTTGAG GATTTAGGGT CAAGGTGTGA AGGACCGAGA
    CCCAAAGGGC CTCGTTTTGA AGGAAATCGC CCCGATGGGC CAAGACCCAG ATATGAAAGT
    CACCCAGCAG AGGGCACTAA AAGCAAATGG GGAACGATCC CCCGGGGCCC AGCATCTCAA
    TTTTATATAA CTCCTAATAC ATCCCTGAGT CCTCGACAGA GTGGACCACA GTGGAAAGGC
    CACAAAGCAA CTGTCGGACA GCAGCATCAG CAGCAGCCTA AGCAGCAACC TAAGTCACAA
    GCAGAACCTC TTTCAGGAAA CAAAGAGCCA TTAGCAGACA CAAGTAGTAA CCAGCAGAAG
    AATTTAAAAA TTCAGTCAGC CGCGTTTTCC ATTTCTGCAG ATGTCAAGGA TACCAAGGCG
    GCTCAGTCAA ATGAGAATCT AAGCAACTCT CAACAAGAGC CACCTAAAAG CCAAGTCTCG
    GAAGCACCCA TAGAGCCCTC TAATTGGAAC CAGAATTCTC AAAGTATGGA GACTGAAATG
    GACAAAGCCC AAGGTGTTAC TCAGCCTGTA TCCCTTGCAA ATAAACCTGT ACCTTCTCAA
    TCTCCTTTCC CCTCAAAAGT AGGGAGCATG GAGGGAGGAG CTGCAGTAGC AGCAGCAGCA
    TTGTCTGCAG ATGATTTCAA ACCTTTGGGT GTTGGTTTGT CCCACTCAGA AAACCACCAA
    GAAAAAGCTC TTCCTCAGCC AGACAGCAGA GAAAATAGAT TAGAAGGCAA TAAAGGCAGC
    AGCTCATCCT ACAGAGGTCC TGGGCAAAAT AGAGTGGAAG ATTCACGGGA TAAAGGACTA
    GTAAACAGAG GTCGTGGCCA GACAATTAAT CGAGGTCCAG GTCTGATCAA GCAAGAAGAT
    TTCCACGATA AAATGCTGGG TAGAAGAGAA GACAGTCGTG AGAAAATAAA CAAAGGAGAA
    GGCAGCCGGG ACAGGGTGTT TGTGAGACCG GGAAGCAGTC GGGATAAAAT ACCAGGTGGC
    CTACAAGACA GTCAGGACAG TAGAGCCAAC AGTAGAGAAA GAGGGCCACC TCGCAGGGCT
    GGCAGTCAGG AGAGAGGACC TCCTCGAAGG GCTGGAAGTA GAGAGAGAGT ACCCCCTCAA
    AGAGCTGGGA GCAGGGAGAG GGGACCACCT CGAGGGCCAG GTAGTCGAGA AAGGGGATTA
    GGAAGGCCAG ATTTTGGTCA TGATAGAGTT CCATTCAGAC CAGAACCAGG AGATGGTGGA
    GACAAAATGT ATCCTTACCA CCGAGATGAA CCTTCTAGGG CTTCGTGGAA CCATGGAGAA
    GAGAGAGGAC ACGAAGAGTT CCCATTAGAT GGTAGAAATG TACCAATTGA GCGAGAGAGA
    CTCGATGACT GGGATAGAAA AAGATACTGG AGAGAGTGTG AACGTGACTA TCAAGATGAT
    ACACTAGATT CATACGGCAG AGAGGACAGG TTCTCAGCAC CACCATCTCG GCCTCATGAT
    GGAGACAGGC GAGGCCCTTG GTGGGATGAT TGGGAAAGAG ATCAAGATAT GGATGAGGGT
    TATGGTAGGG AAGTGGACAG GGACTTAGAC AGAGATGTGG ATCGGATTAG AAGACCTGTG
    GATATATATG ATAGAAATGT GGATAACGAA TGGGACAGAG ATTATGGGAG GCCACTGGAT
    GAACAGGAAT CACAGTTTCG TGAACGGGAT ATCCCATCTC TTCCACCTTT ACCACCTCTC
    CCACCTTTGG ATAGATATCG GGATGATAGA TGGAGAGAAG AAAGAAATCG AGAACATGGG
    TATGACCGAG ATTTCCGTGA TAGGGGTGAG TTGAGGATTC GAGAGTACCC AGAAAGAGGA
    GATACATGGC GGGAAAAGCG AGATTATGTT CCTGACAGAA TGGACTGGGA AAGAGAGCGG
    TTGTCAGACA GATGGTACCC CTCTGATGCG GAAAGACACT CCCCCATGGC GGAACATATG
    CCATCCTCAC ATCATTCCTC TGAAATGATG GGGTCCGATG CAAACTTAGA CTCTGACCAA
    GGCCTTGGAG GGGTAATGGT TCTCAGTCAG AGGCAGCACG AAATCATTTT GAAAGCTGCA
    CAAGAATTGA AAATGCTTCG AGAACAGAAA GAGCAGCTTC AAAAGTTGAA AGACTTTGGG
    TCTGAGCCAC AGACGGCTGA CCATCTACCA CCCCCGGACT CAAGACTACA GAATACGTCA
    AGGCCTGGGA TGTACCCGCC TCCAGGATCC TATAGACCAC CCCCTCCTAT GGGTAAGCCA
    CCTGGGTCAA TTGTGAGACC CTCTGCTCCA CCAGCAAGAT CATGTGTTCC TATGACTAGG
    CCTCCTGTGC CAATACCACC ACCGCCTCCT CCACCTCCAC CACCACCACC TCCTCCTCCG
    GTTATAAAGC CAAAAACTTC ATCTGTGAAA CAGGAACGCT GGGACGAAGA TTCTTTCTTT
    GGGCTCTGGG ATACAAATGA TGATCAAGGA CTGAATTCAG AATTTAAGCG AGACACTGCA
    GCAATTCCAT CTGCTCCGGT ATTACCACCC CCACCTGTTC ATCCTTCCAT TCCCCCTCCT
    GGCCCAATGC CTATGGGTAT GCCACCAATG TCCAAACCAC CACCAGTGCA GCATACAGTT
    GACTATGGCC ATGGCCGAGA TATGCCTACT AATAAAGTTG AACAGATCCC GTATGGAGAA
    AGAATAACTC TACGCCCAGA TCCATTACCT GAAAGGTCAG CTTTCGATGC AGATCATGCA
    GGCCAGCGTG ACCGCTATGA TAGAGATAGA GACCGTGAAC CTTATTTTGA CCGTCAAAGT
    AATATGACAG ATCATCGAGA TTTTAAAAGG GACCGAGAGA CACACAGAGA TCGGGATCGT
    GTTCTTGACT ATGAGCGGGA TCGATTTGAC AGAGAGCGTA GACCCCGAGA TGACAGGAAT
    CAATCATACC GTGACAAAAA AGACCATTCT TCATCCAGAA GAGGAGGATT TGATAGGCCA
    TCCTATGACA GGAAGTCTGA TAGACCGCCC TATGAAGGCC CACCCATGTT TGGAGGAGAA
    CGAAGAACTT ACCCGGAGGA GCGGATGCCT CTGCCAGCTC CTTCCCTGGG CCACCAGCCA
    CCTCCAGTTC CACGGGTTGA GAAGAAGCCT GAGTCCAAGA ATGTGGACGA CATTCTGAAA
    CCACCAGGCC GGGAGAGCCG GCCTGAAAGA ATTGTTGTTA TAATGAGAGG ATTGCCTGGC
    AGTGGAAAGA CACATGTTGC AAAACTTATC CGGGATAAGG AAGTAGAATT CGGAGGACCT
    GCACCCAGGG TTTTAAGTCT AGATGATTAT TTCATTGCTG AAGTAGAAAA AGAAGAAAAA
    GATCCAGATT CTGGAAAGAA AGTGAAAAAG AAGGTAATGG AGTATGAATA TGAAGCTGAC
    ATGGAGGAGA CTTACCGCAC CAGCATGTTC AAAACTTTCA AAAAGACGCT AGATGATGGC
    TTTTTCCCTT TCATTATTCT GGATGCTATC AATGACAGAG TTAGACATTT TGACCAGTTT
    TGGAGCGCAG CAAAAACCAA GGGTTTTGAG GTGTATTTGG CTGAAATGAG TGCCGATAAC
    CAGACTTGTG GCAAGAGAAA TATTCATGGA AGAAAGCTTA AAGAAATAAA CAAGATGGCG
    GAACATTGGG AAGCTGCACC CCGTCACATG ATGCGTCTGG ACATCCGTTC CCTGCTACAA
    GATGCTGCAA TTGAAGAAGT AGAGATGGAA GATTTTGATG CAAACATTGA AGACCAGAAG
    GAAGAAAAGA AAGATGCAGA AGAAGAGGAA AGCGAACTGG GTTACATTCC GAAAAGCAAA
    TGGGAGATGG ACACTTCTGA GGCAAAGCTA GACAAGTTGG ATGGCTTGAG GACTGGTACT
    AAAAGGAAAC GAGACTGGGA GGCAATCGCC AGCAGAATGG AGGACTACCT TCAGCTCCCT
    GATGACTACG AAACTCGCGC TTCTGAACCT GGGAAGAAGA GGGTGAGATG GGCAGACCTG
    GAAGAAAAGA AGGACGCAGA CAGGAAAAGG GCCATAGGTT TTGTGGTCGG GCAGACTGAC
    TGGGAGAAGA TCACAGATGA GAGCGGCCAC CTGGCTGAGA GAGCCCTCAA CCGGACCAAA
    TACATATGA

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