Malrd1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Malrd1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Malrd1 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
OMv39346 XM_021156265.1
Latest version!
Mus caroli MAM and LDL receptor class A domain containing 1 (Malrd1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1161.30
$1659.00

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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 OMv39346
    Clone ID Related Accession (Same CDS sequence) XM_021156265.1
    Accession Version XM_021156265.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6354bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product MAM and LDL-receptor class A domain-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034571.1) 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 Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    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
    ATGTTTCTCC GCGAGGCTGC TGTGTCAGCC TTCTCAATGC ATGGATTTCT TTGTTTCCTT 
    TGGACTGTCT GTCTTTCTAT TTCTTCACTG AGTCAGCAAG GAGTCCAAGC CTTTCAGTGC
    AGTAATGGAG TCTCTTTGCC TTCTGACTAT GTGTGTGACT TTACAGACCA CTGTGGGGAC
    AACAGTGACG AGCAGCAATG CTGGAGTTAT GGGAGATGCA ACTTTGAGGA CAGGCTCTGT
    AGCATGACAG AGGACCAGAC CCTGCTACCT GGTTGGACAA GAAGAAGTGG GATGATTAGT
    ACTTCTCCTC CATTTTGGGA CCACAATGGA AACATATCTG CCCATTTTCT CGCACTGGTC
    TCCAGGGTTG ATTCCATCTC CTCAAACTTA AGAAGCAGAA TTTTCCTACC AACTAATGAT
    CAGCAAGTTT GTCAGATTAC CTTTTATAAC TTCTCCAGTA ACCAGAATGG CAAATTGATA
    GCAGGCCTTC AAACCATGTC TGGGGATCCT ATTGAGCATT TATGGCAGCA AACAGAGATA
    CTCCAGAGTC GGTGGGAAAG AAATGTCATC ACAGTACGGA GCTCACAGCA CTTTCAGGTC
    ATTTTTCAAG CTCAAATGCT TGCAACTCAT GGACAGGAGG AAGTTATAGC TATCGATGAC
    ATATCTTTCA GTTCTGGTTG CTTGCCTGCA GATGTGTGCC AGACTTGTGG ATTTGACCTT
    GACACCTGTG GATTGACAAC TGAGGCATCT GCTGGGCAAA CTTCTTGGAT GTGCACAAAA
    GTAGGAGAGG TCCCTTCACT GGACTCTGTA CCTTGGCAGG ATCAAAGTGG CCATGATGAA
    GGTTCCTTTG TATGGATGAG GGCCGGTCAT GCATCTATTT CTAGACTCGT TGAGAGCAGT
    GCATATTTAA ACAGCTCTGT ATGTCACTGC ATGGATGGGA ACTGCCGTCT TCAGTTCAAT
    TACAGGATGG AAAACAGTGT CCTGAGAGTA AGACTGTACA ATGATAAGGA AGAAAAAAAG
    ACTTGGACAT TCAATACATC AACTTACAGT GCATGGATGA AAGCAGATGT GTTAATACCA
    GAAGATCTGA AGGCATTTAA GGTTGTTTTG GAAGGCACAG TTTTGAGTCA GAAAAGTTTT
    ATTGGGATTG ATCAGCTGTT AGTCTACAAC TTTGGACAGA CCCACTCCCA GCAGCTTTGT
    TCTGTAAATG AATACACTCC TGCCAGTAGG CAGTGTCTTA CCCACTCTTC TGTCTGCGAC
    TCTGGAATGG ACCACTCCAA TGGGATTGAT GAAGACTCAG AGGCTTGTGC GAGTCTCCTC
    ACCTGGGACT TCGAGTCTGG TTTCTGTGGC TGGGAACCAT TTCCCACAGA AGACTCCCAC
    TGGGAGGTAG TGGGAGGACT GAGCATTGAG GCTGGTCACA CACTGAGCAG AAAGCAAGGA
    TCATTTATTT ATTTTGGACC CCAGAAGTCC ACTGCGGTGG CCAGGCTTGG TAGTCCTATC
    CTTACCCAAT CACTCACTAC CTTTACTCCT TGCCAGGTGC GGTTTTGGTA TCGTTTATCA
    GAGCATTCCA GTCTCTCTGT TTTCACAAGA ACATCAGTAG ATGGCAGTTT GCTAAAGCAG
    AGTGAAGTGA CCCAATTCTC TGACTCTCAG TGGAGCCAAG CAAAAGTTGA TCTCCACGCA
    AAAGCTGAAG AGTCTACTCT TCCTTTCCAG TTAGTTTTAG AAGCTACCAT TTTGTCATCA
    AATGCTACGG TTGCTGTAGA TGACATCAGT ATATCCCATG AATGTGAAAT TTCCTATAAG
    TCACTTCGAA GTACCAGCAT ACAAAATAAA GTTGCTGATT GTGACTTTGA AGCAAACAGC
    TGTGGGTGGT TTGAAGCCAG TGGTGGTGAT CATTTTGACT GGGTGTGGAG CTCCCAAAGT
    AATCTTTCTG CTGATTTAGA ACAACAAGCT CCACCTAGAG ATCACACTCA TGGAACAGCT
    CAAGGGCATT TCATGTTCAT TTTGAAGACG AGCAACAGCT TCTTTCAAAC TGCTAAACTT
    CAGAGCCCAA CTTTCAGCCA GACAGGGCCT GGGTGCACAC TGTCATTCTG GTTTTATAAC
    TATGGACTGT CAGTGGGGGC AGCTGAGTTG CAGCTACATC TAGAAAATTC CAGGGACACC
    ACTGCCCTCT GGAGAGTGCT ATATAACCAA GGCAGCCAGT GGTCAGAGGC AACTGTCCAG
    CTTGGACGCC TCACTCAACC CTTCTATCTG TCACTAGAGA AAGTCAGTCT GGCAGTTTAT
    AGTGGGGTCT CTGCGATTGA TGACATCCAT TTTGAAAACT GTGCTCTTCC TCCTCCTGTG
    GAGAGTTGTG ATGAACCAGA CCACTTTTGG TGTAGACAGA CGAAGGCTTG CATAGGAAGG
    CATCAGCTCT GTGATCTGGT TGATGATTGT GGAGATCACA CAGATGAGAC TGGCTGTGGA
    CCAGAACTAC AGTGTGACTT TGAAAATGGA ATTTGTAACT GGGAACAAAG TACAGAGGAT
    GACTTCAACT GGACCAGATA CCAGGGTCCT ACTTCAACGA TGAACACTGG CCCAATGAAG
    GACCATACAC TGGGCACAGC CAAAGGACAC TACCTTTACA TTGAAACCTC AGGGCCACAG
    GGTTTTCAAG ACAAAGCTAT TTTACTTAGC CCCATCCTTA ATGCAACTGA CGCAAATGTC
    TGCACCTTCC GCCTGTACTA TCACATGTTT GGAAAGCATA TTTATCAGCT GGCTATCTAC
    CAGAGAATTT GGAGGAATTC CAGGGGACAG CTGCTGTGGC AGATATTTGG GGATCAAGGC
    AACAGATGGA TAAGAAAAGA CCTCAGTATT ACCAGCAGGA AGCCCTTTCA GATCTTGATA
    GTGGCCTCAG TGGGAGATGG ATTTACTGGA GATATTGCAA TTGATGATCT GTCATTCATG
    GATTGTACCC TCTACCCAGA TAATTTGCCA ATGGACATTC CAAGTCCACC AGAAACTTCA
    GTTCCAGTGA CCTTGCCTCC AAACAACTGC ACCGATGATC AATTTGTCTG CAGGTCTAAT
    GGTCACTGTG TTGGAAACAT TCAGAAATGT GACTTCAGAT ATGACTGCAT TGATAAATCG
    GATGAGTCAT CTTGTGTACT GGAGGTTTGT ACATTTGAAG AGAGAAACCT ATGTAAATGG
    TACCAACCAA TCCCAGAAAA TTCACTCCAT GATTCAAATA CATTCAGGTG GGGACTCGGT
    AATGGGATCA GTATTCATCA TGGGGAAGAA AACCACAGAC CATCAGTAGA TCACACAAAA
    AATACCACAG ATGGTTGGTA CCTGTATGCT GACAGTTCAA ATGGGAAGTT TGGTGACCTT
    GCCGATATTG TTACTCCTGT CATCTCACTC ATGGGACCGA GGTGTACATT GGTGTTCTGG
    ACTTATATGA ACGGTGCTAC GGTGGGCTCT CTCCAGGTAC TCATCAAGAT GGGCAATACG
    ATTTCCAAAG TGTGGGCTCA GAGTGGACAG CAAGGGCCAC AGTGGAAGAA AGCAGAAGTG
    TTTTTAGGCA TTCATTCACA CGTGGAGATC ATCTTTAGGG CGAAACGTGG TGTCAGTTAC
    ATAGGAGATG TGGCAGTAGA TGATGTTTCC TTTCAAAATT GCTCCCCACT ACTTAGCACA
    AACAGAAAGT GCACCACTGA TGAATTCATG TGTGCTAACA AGCATTGCAT TGAAAAGGAC
    AAACTATGTG ACTTTGTGAA TGACTGTGCA GATAATTCAG ATGAGACCAC ATTCATCTGT
    GGTACCTCTA CTGGGCGCTG TGACTTCGAG TTTGACCTTT GTACCTGGGA GCAAGATCAG
    GATGAGGACA TTGACTGGAA CCTGAAAGCT AGCAACATCC CAGCTACAAG CACTGAGCCA
    GCAGTGGACC ACACCCTGGG AAACTCCTCT GGTCATTACA TCGTTCTCAA AAGCTTTTTC
    CCACAGCAGC CCGTGAAAGC AGGCAGAATA TCAAGCCCAG TTATAAGCAA GAGAAGCAAA
    GACTGCAAGA TTATTTTTAA CTATCACATG TATGGAAGTG GCATTGGGGC CCTCCTCTTG
    CTCCAGGTGA CAGTCACAAA CCACACAAAG GTGCTCCTGA ATCTCACTAA AGAACAAGGC
    AATTTCTGGC AGAGGAAAGA ATTGTCATTG TCTAGTGATG AAGACTTTCG AGTCAAATTT
    GAAGGCAGAG TTGGGGAAGG CCTCCGTGGT AACATTGCAC TTGATGACAT TGTACTTACA
    AAGAGCTGTC TGCCATCTCA CCACTCCACA AGGGAAGAAC CAGCCTTTCC CCTGCCAACA
    GGCTTTTGCC CACGGGGCTA TGAGGAGTGT CAGAATGGCA GATGCTACAG TCCAGAGCAG
    AGGTGTAATT TTGTAGATGA CTGTGGAGAT AACAGTGATG AGAATGAGTG TGGTGGCTCC
    TGCACTTTTG AGAAAGGTTG GTGTGGCTGG AAGAACTCCC TAGCTGAAAA CTTCGATTGG
    GTTTTAGGAA TTGGGTCTTA TAAAAGCCAA CGACCTCCCA AAGACCACAC ACTTGGAAAT
    GAACATGGTC ACTTCATGTA TCTGGAGGCT ACCCCAGTGG GTCTTCATGG TGACAAAGCC
    CACTTCAAGA GTGCCACATG GCAAGAATCC AGCGCTGCCT GCACTATGAG CTTCTGGTAT
    TTCATATCTG CAAAAGCCAC AGGATCCATT CAGATTCTCA TTAAGACAGA CAAAGGACTC
    TGGGAAGTAT GGCAACAAAG CAAGCCAGAT CCTGGTAATC ACTGGCGAAG GGCCACCATC
    CTGTTGGGAA AATTGAGGAA TTTTGAGGTC ATATTTCAAG GAATCAGAAC AAGGGACCTA
    GGAGGCGGAG CTGCGATTGA TGATATTGAA TTCAATAATT GCACAACTGT TGGAGAAACC
    GCTGATATTT GTTCAGAAGA AACAGATTTT TTGTGCCAAG ACAAGAAGTG CATCGCATCC
    CACCTTGTTT GTGACTACAA GCCAGACTGC TCTGACACGT CTGATGAAGC TCATTGTGGG
    TATTACATAA GCACCCCAGG AAGCTGCAAT TTTGAAACAA CTTCAGGAGA CTGGACTGTG
    GACTGTGGAC TCACCCAAGA TCCTGAAGAT GACTTGGATT GGAGCATCGG TAGCATAATT
    CCTACTGAAG GCTTGACCAG AGATTCGGAC CACACACCAG GTAGTGGTCG GCATTTCTTG
    TATGTCAACA CTTCTCTCAC TGAAGAAGGA TCTACTGCAA GAATCGTTAC CTCTCACTTT
    TTTCGAGCAA GCCTTGGAAT ATGTACTGTT CGGTTCTGGT TCTACATGGT GGATCCCCAT
    ATTGTGGGGA TATTAAAGGT ATATCTTATT GAGGAATCAG GACTAAACAT CCTGATGTGG
    TCCATGATCC GAAACAAAAA CACTGGTTGG ACCTATGCGC ATGTACCTCT TTCTAGTAAC
    AGTCCCTTCA AGGTTGCATT CGAGGCTGAC TTGGGTGGAA AGGAGGACAT CTTTATTGCT
    CTTGATGACA TCACTTTCAC ACCAACGTGT GCATCTGGAG GACCAGCCTT ACCACAGCCA
    CCACTTTGTG AAGAAGGCCA GTTTGCTTGT ATCTATGCAC TCCAGTGTGT CTCTGCTTCA
    GAGAAGTGTG ATGGGCAAGA AGATTGTATA GATGGATCTG ATGAAATGAA TTGCTCTCTT
    GGACCCTCTC CTCAACCATG CAGTGATACA GAATTCCAGT GCTTTGAAAG CCAGTGTATC
    CCATCTCTCC TGCTATGTGA TGGAGTGGCT GATTGCCACT TTAATGAAGA TGAATCCAGC
    TGTGTCAATC AGAGCTGCCC CAGTGGAGCT TTGGCATGTA ACTCATCCGG CCGCTGTATC
    CCAGCTCACC AGCGCTGTGA TGGTACTGCC CACTGCAAGG ACATTCAAGT AGATGAATCC
    AGCTGCTCAG AGTGTCCAAT ACATTATTGC AGAAATGGTG GCACTTGTGT GATAGAGAAT
    ATTGGTCCCA CGTGTAGGTG TGTACAAGGA TGGACAGGGA ATCGATGCCA CATCAGGTCT
    AACCTTTCTA CTGAGGGTTT TGTGCATACT CAAAATTACA TATGGACTCT GCTGGGTATC
    GGATTTGGGT TCCTTCTGAC TCATATTGCA GTGGCCATCT TGTGTTGCCT TGGCATCAGA
    AGAAGACCAA TGAGGAAATC TGAGGGGGGT GGCAACCATT CCTTTATCAA TCCAGTTTAT
    AGGAACTGCA TCAACCAAGA GAAAACTGAG AGTTCCATCT ATTCTTTCCC AAATCCATTT
    TATGGTGCAG CATCTGGAAG CCTGGAGACA GTGTCACATC ATCTCAAATC TTAA

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

    RefSeq XP_021011924.1
    CDS152..6505
    Translation

    Target ORF information:

    RefSeq Version XM_021156265.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli MAM and LDL receptor class A domain containing 1 (Malrd1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021156265.1

    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
    ATGTTTCTCC GCGAGGCTGC TGTGTCAGCC TTCTCAATGC ATGGATTTCT TTGTTTCCTT 
    TGGACTGTCT GTCTTTCTAT TTCTTCACTG AGTCAGCAAG GAGTCCAAGC CTTTCAGTGC
    AGTAATGGAG TCTCTTTGCC TTCTGACTAT GTGTGTGACT TTACAGACCA CTGTGGGGAC
    AACAGTGACG AGCAGCAATG CTGGAGTTAT GGGAGATGCA ACTTTGAGGA CAGGCTCTGT
    AGCATGACAG AGGACCAGAC CCTGCTACCT GGTTGGACAA GAAGAAGTGG GATGATTAGT
    ACTTCTCCTC CATTTTGGGA CCACAATGGA AACATATCTG CCCATTTTCT CGCACTGGTC
    TCCAGGGTTG ATTCCATCTC CTCAAACTTA AGAAGCAGAA TTTTCCTACC AACTAATGAT
    CAGCAAGTTT GTCAGATTAC CTTTTATAAC TTCTCCAGTA ACCAGAATGG CAAATTGATA
    GCAGGCCTTC AAACCATGTC TGGGGATCCT ATTGAGCATT TATGGCAGCA AACAGAGATA
    CTCCAGAGTC GGTGGGAAAG AAATGTCATC ACAGTACGGA GCTCACAGCA CTTTCAGGTC
    ATTTTTCAAG CTCAAATGCT TGCAACTCAT GGACAGGAGG AAGTTATAGC TATCGATGAC
    ATATCTTTCA GTTCTGGTTG CTTGCCTGCA GATGTGTGCC AGACTTGTGG ATTTGACCTT
    GACACCTGTG GATTGACAAC TGAGGCATCT GCTGGGCAAA CTTCTTGGAT GTGCACAAAA
    GTAGGAGAGG TCCCTTCACT GGACTCTGTA CCTTGGCAGG ATCAAAGTGG CCATGATGAA
    GGTTCCTTTG TATGGATGAG GGCCGGTCAT GCATCTATTT CTAGACTCGT TGAGAGCAGT
    GCATATTTAA ACAGCTCTGT ATGTCACTGC ATGGATGGGA ACTGCCGTCT TCAGTTCAAT
    TACAGGATGG AAAACAGTGT CCTGAGAGTA AGACTGTACA ATGATAAGGA AGAAAAAAAG
    ACTTGGACAT TCAATACATC AACTTACAGT GCATGGATGA AAGCAGATGT GTTAATACCA
    GAAGATCTGA AGGCATTTAA GGTTGTTTTG GAAGGCACAG TTTTGAGTCA GAAAAGTTTT
    ATTGGGATTG ATCAGCTGTT AGTCTACAAC TTTGGACAGA CCCACTCCCA GCAGCTTTGT
    TCTGTAAATG AATACACTCC TGCCAGTAGG CAGTGTCTTA CCCACTCTTC TGTCTGCGAC
    TCTGGAATGG ACCACTCCAA TGGGATTGAT GAAGACTCAG AGGCTTGTGC GAGTCTCCTC
    ACCTGGGACT TCGAGTCTGG TTTCTGTGGC TGGGAACCAT TTCCCACAGA AGACTCCCAC
    TGGGAGGTAG TGGGAGGACT GAGCATTGAG GCTGGTCACA CACTGAGCAG AAAGCAAGGA
    TCATTTATTT ATTTTGGACC CCAGAAGTCC ACTGCGGTGG CCAGGCTTGG TAGTCCTATC
    CTTACCCAAT CACTCACTAC CTTTACTCCT TGCCAGGTGC GGTTTTGGTA TCGTTTATCA
    GAGCATTCCA GTCTCTCTGT TTTCACAAGA ACATCAGTAG ATGGCAGTTT GCTAAAGCAG
    AGTGAAGTGA CCCAATTCTC TGACTCTCAG TGGAGCCAAG CAAAAGTTGA TCTCCACGCA
    AAAGCTGAAG AGTCTACTCT TCCTTTCCAG TTAGTTTTAG AAGCTACCAT TTTGTCATCA
    AATGCTACGG TTGCTGTAGA TGACATCAGT ATATCCCATG AATGTGAAAT TTCCTATAAG
    TCACTTCGAA GTACCAGCAT ACAAAATAAA GTTGCTGATT GTGACTTTGA AGCAAACAGC
    TGTGGGTGGT TTGAAGCCAG TGGTGGTGAT CATTTTGACT GGGTGTGGAG CTCCCAAAGT
    AATCTTTCTG CTGATTTAGA ACAACAAGCT CCACCTAGAG ATCACACTCA TGGAACAGCT
    CAAGGGCATT TCATGTTCAT TTTGAAGACG AGCAACAGCT TCTTTCAAAC TGCTAAACTT
    CAGAGCCCAA CTTTCAGCCA GACAGGGCCT GGGTGCACAC TGTCATTCTG GTTTTATAAC
    TATGGACTGT CAGTGGGGGC AGCTGAGTTG CAGCTACATC TAGAAAATTC CAGGGACACC
    ACTGCCCTCT GGAGAGTGCT ATATAACCAA GGCAGCCAGT GGTCAGAGGC AACTGTCCAG
    CTTGGACGCC TCACTCAACC CTTCTATCTG TCACTAGAGA AAGTCAGTCT GGCAGTTTAT
    AGTGGGGTCT CTGCGATTGA TGACATCCAT TTTGAAAACT GTGCTCTTCC TCCTCCTGTG
    GAGAGTTGTG ATGAACCAGA CCACTTTTGG TGTAGACAGA CGAAGGCTTG CATAGGAAGG
    CATCAGCTCT GTGATCTGGT TGATGATTGT GGAGATCACA CAGATGAGAC TGGCTGTGGA
    CCAGAACTAC AGTGTGACTT TGAAAATGGA ATTTGTAACT GGGAACAAAG TACAGAGGAT
    GACTTCAACT GGACCAGATA CCAGGGTCCT ACTTCAACGA TGAACACTGG CCCAATGAAG
    GACCATACAC TGGGCACAGC CAAAGGACAC TACCTTTACA TTGAAACCTC AGGGCCACAG
    GGTTTTCAAG ACAAAGCTAT TTTACTTAGC CCCATCCTTA ATGCAACTGA CGCAAATGTC
    TGCACCTTCC GCCTGTACTA TCACATGTTT GGAAAGCATA TTTATCAGCT GGCTATCTAC
    CAGAGAATTT GGAGGAATTC CAGGGGACAG CTGCTGTGGC AGATATTTGG GGATCAAGGC
    AACAGATGGA TAAGAAAAGA CCTCAGTATT ACCAGCAGGA AGCCCTTTCA GATCTTGATA
    GTGGCCTCAG TGGGAGATGG ATTTACTGGA GATATTGCAA TTGATGATCT GTCATTCATG
    GATTGTACCC TCTACCCAGA TAATTTGCCA ATGGACATTC CAAGTCCACC AGAAACTTCA
    GTTCCAGTGA CCTTGCCTCC AAACAACTGC ACCGATGATC AATTTGTCTG CAGGTCTAAT
    GGTCACTGTG TTGGAAACAT TCAGAAATGT GACTTCAGAT ATGACTGCAT TGATAAATCG
    GATGAGTCAT CTTGTGTACT GGAGGTTTGT ACATTTGAAG AGAGAAACCT ATGTAAATGG
    TACCAACCAA TCCCAGAAAA TTCACTCCAT GATTCAAATA CATTCAGGTG GGGACTCGGT
    AATGGGATCA GTATTCATCA TGGGGAAGAA AACCACAGAC CATCAGTAGA TCACACAAAA
    AATACCACAG ATGGTTGGTA CCTGTATGCT GACAGTTCAA ATGGGAAGTT TGGTGACCTT
    GCCGATATTG TTACTCCTGT CATCTCACTC ATGGGACCGA GGTGTACATT GGTGTTCTGG
    ACTTATATGA ACGGTGCTAC GGTGGGCTCT CTCCAGGTAC TCATCAAGAT GGGCAATACG
    ATTTCCAAAG TGTGGGCTCA GAGTGGACAG CAAGGGCCAC AGTGGAAGAA AGCAGAAGTG
    TTTTTAGGCA TTCATTCACA CGTGGAGATC ATCTTTAGGG CGAAACGTGG TGTCAGTTAC
    ATAGGAGATG TGGCAGTAGA TGATGTTTCC TTTCAAAATT GCTCCCCACT ACTTAGCACA
    AACAGAAAGT GCACCACTGA TGAATTCATG TGTGCTAACA AGCATTGCAT TGAAAAGGAC
    AAACTATGTG ACTTTGTGAA TGACTGTGCA GATAATTCAG ATGAGACCAC ATTCATCTGT
    GGTACCTCTA CTGGGCGCTG TGACTTCGAG TTTGACCTTT GTACCTGGGA GCAAGATCAG
    GATGAGGACA TTGACTGGAA CCTGAAAGCT AGCAACATCC CAGCTACAAG CACTGAGCCA
    GCAGTGGACC ACACCCTGGG AAACTCCTCT GGTCATTACA TCGTTCTCAA AAGCTTTTTC
    CCACAGCAGC CCGTGAAAGC AGGCAGAATA TCAAGCCCAG TTATAAGCAA GAGAAGCAAA
    GACTGCAAGA TTATTTTTAA CTATCACATG TATGGAAGTG GCATTGGGGC CCTCCTCTTG
    CTCCAGGTGA CAGTCACAAA CCACACAAAG GTGCTCCTGA ATCTCACTAA AGAACAAGGC
    AATTTCTGGC AGAGGAAAGA ATTGTCATTG TCTAGTGATG AAGACTTTCG AGTCAAATTT
    GAAGGCAGAG TTGGGGAAGG CCTCCGTGGT AACATTGCAC TTGATGACAT TGTACTTACA
    AAGAGCTGTC TGCCATCTCA CCACTCCACA AGGGAAGAAC CAGCCTTTCC CCTGCCAACA
    GGCTTTTGCC CACGGGGCTA TGAGGAGTGT CAGAATGGCA GATGCTACAG TCCAGAGCAG
    AGGTGTAATT TTGTAGATGA CTGTGGAGAT AACAGTGATG AGAATGAGTG TGGTGGCTCC
    TGCACTTTTG AGAAAGGTTG GTGTGGCTGG AAGAACTCCC TAGCTGAAAA CTTCGATTGG
    GTTTTAGGAA TTGGGTCTTA TAAAAGCCAA CGACCTCCCA AAGACCACAC ACTTGGAAAT
    GAACATGGTC ACTTCATGTA TCTGGAGGCT ACCCCAGTGG GTCTTCATGG TGACAAAGCC
    CACTTCAAGA GTGCCACATG GCAAGAATCC AGCGCTGCCT GCACTATGAG CTTCTGGTAT
    TTCATATCTG CAAAAGCCAC AGGATCCATT CAGATTCTCA TTAAGACAGA CAAAGGACTC
    TGGGAAGTAT GGCAACAAAG CAAGCCAGAT CCTGGTAATC ACTGGCGAAG GGCCACCATC
    CTGTTGGGAA AATTGAGGAA TTTTGAGGTC ATATTTCAAG GAATCAGAAC AAGGGACCTA
    GGAGGCGGAG CTGCGATTGA TGATATTGAA TTCAATAATT GCACAACTGT TGGAGAAACC
    GCTGATATTT GTTCAGAAGA AACAGATTTT TTGTGCCAAG ACAAGAAGTG CATCGCATCC
    CACCTTGTTT GTGACTACAA GCCAGACTGC TCTGACACGT CTGATGAAGC TCATTGTGGG
    TATTACATAA GCACCCCAGG AAGCTGCAAT TTTGAAACAA CTTCAGGAGA CTGGACTGTG
    GACTGTGGAC TCACCCAAGA TCCTGAAGAT GACTTGGATT GGAGCATCGG TAGCATAATT
    CCTACTGAAG GCTTGACCAG AGATTCGGAC CACACACCAG GTAGTGGTCG GCATTTCTTG
    TATGTCAACA CTTCTCTCAC TGAAGAAGGA TCTACTGCAA GAATCGTTAC CTCTCACTTT
    TTTCGAGCAA GCCTTGGAAT ATGTACTGTT CGGTTCTGGT TCTACATGGT GGATCCCCAT
    ATTGTGGGGA TATTAAAGGT ATATCTTATT GAGGAATCAG GACTAAACAT CCTGATGTGG
    TCCATGATCC GAAACAAAAA CACTGGTTGG ACCTATGCGC ATGTACCTCT TTCTAGTAAC
    AGTCCCTTCA AGGTTGCATT CGAGGCTGAC TTGGGTGGAA AGGAGGACAT CTTTATTGCT
    CTTGATGACA TCACTTTCAC ACCAACGTGT GCATCTGGAG GACCAGCCTT ACCACAGCCA
    CCACTTTGTG AAGAAGGCCA GTTTGCTTGT ATCTATGCAC TCCAGTGTGT CTCTGCTTCA
    GAGAAGTGTG ATGGGCAAGA AGATTGTATA GATGGATCTG ATGAAATGAA TTGCTCTCTT
    GGACCCTCTC CTCAACCATG CAGTGATACA GAATTCCAGT GCTTTGAAAG CCAGTGTATC
    CCATCTCTCC TGCTATGTGA TGGAGTGGCT GATTGCCACT TTAATGAAGA TGAATCCAGC
    TGTGTCAATC AGAGCTGCCC CAGTGGAGCT TTGGCATGTA ACTCATCCGG CCGCTGTATC
    CCAGCTCACC AGCGCTGTGA TGGTACTGCC CACTGCAAGG ACATTCAAGT AGATGAATCC
    AGCTGCTCAG AGTGTCCAAT ACATTATTGC AGAAATGGTG GCACTTGTGT GATAGAGAAT
    ATTGGTCCCA CGTGTAGGTG TGTACAAGGA TGGACAGGGA ATCGATGCCA CATCAGGTCT
    AACCTTTCTA CTGAGGGTTT TGTGCATACT CAAAATTACA TATGGACTCT GCTGGGTATC
    GGATTTGGGT TCCTTCTGAC TCATATTGCA GTGGCCATCT TGTGTTGCCT TGGCATCAGA
    AGAAGACCAA TGAGGAAATC TGAGGGGGGT GGCAACCATT CCTTTATCAA TCCAGTTTAT
    AGGAACTGCA TCAACCAAGA GAAAACTGAG AGTTCCATCT ATTCTTTCCC AAATCCATTT
    TATGGTGCAG CATCTGGAAG CCTGGAGACA GTGTCACATC ATCTCAAATC TTAA

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