ORF » Species Summary » Elephantulus edwardii » FREM1 cDNA ORF clone

FREM1 cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew)

The following FREM1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FREM1 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
OEl37662 XM_006881353.1
Latest version!		 Elephantulus edwardii FRAS1 related extracellular matrix 1 (FREM1), 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)
    FREM1 ( XM_006881353.1 ) cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew) -> XP_006881415.1 Elephantulus edwardii FRAS1 related extracellular matrix 1 (FREM1), mRNA.
    Price & Availability↑
    CloneID OEl37662
    Clone ID Related Accession (Same CDS sequence) XM_006881353.1
    Accession Version XM_006881353.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6564bp)
    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 2014-02-17
    Organism Elephantulus edwardii(Cape elephant shrew)
    Product FRAS1-related extracellular matrix protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006399764.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Elephantulus edwardii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
    6361
    6421
    6481
    6541
    ATGATGTCTC CGGCATGGGG TGGCCCACAC GGCCTGCTGG CCCTCTTGCT CCTGCTCCTG 
    CTTGTGGGCT GGGCCAGCCC TACCTTGGTC AGCGTGAACC TCGGGTTGAC GGTGACAAAG 
    GGCCGCTCCG CCTTCCTGTC TGGGGACAAC CTGAAGTTTG CCATTCCCAA GGAGAAAGAT 
    GCCTGCAAAG TGGAAGTCGT GATGAATGAG CCTGTCACCC AGAGGGTTGG GCAGCTCACC 
    CCACAGGTAT TTGACTGCCA TTTCCTTCCC AATGAAGTGA AGTATGTTCA CAATGGCTGC 
    CCAATTCTTG ATGAAGACAC GGTGAAGCTT AGACTTTACA GATTTACTGA AACAGACACC 
    TTCACGGAGA CCTTTATCCT GCGGGTCTAT CTGTTGGAAC CAGACTGTAA CATCATCCGG 
    ATGAGCAACA ATGTGCTGGA GGTGTCTGAG TTCTACGGCC TGTCTCGGGC AATTGATAAG 
    AATGTGCTCA GCTTTGATTA TGGTGGGGTG GCCAACCTGG AGTGTACTGT CCGGCTGGCC 
    CCCGTGGGAA CCTGGCTGCC TGCCCACGGC CAGATGGTCC TGGTGGAACC CAGGCCAGAA 
    GGACCTCGTG GAGATGAGCC ACACAGCTTT TTCCCTGAAT CCCAATTGGG AACTGAACTG 
    AGGTGTCCAG GTGGAAGCTG CACCATAGGA CTGAAGAAAG TAGGAAGTCT CCAGGTGAGC 
    TGTGAGGAGT TCCTGCTGAT GGGCCTACGC TATCAACACC TGGATCCCCC TTCCCCCAAC 
    ATTGATTACA TCTCCATCCA CCTGGATCTC ACCGACAGCA GGAGTAAAAG CATATACAAG 
    TCAGAGAGAG CATGGTTGCC TGTCCACATC CGAGCCGGCA TTCCGAATCA GCTTCCAAGG 
    GCCGCTTTCA TGGCCATGTT CATCCTGGAA GTGGATCAGT TTATCCTGAC CTCTCTCACC 
    ACATCGGTTC TGGACTGTGA AGATGACGAG ACCCCCAAAC CTTTGCTGGT GTTCAACATC 
    ACCAAGCCCC CGGACCAGGG CTACATGACT CACCTGTTGG ACCACACCAG ACCCATCTCC 
    TCTTTCACCT GGAAAGACCT AAATGATCTG CAGATTGCCT ACCAGCCCCC TAACAGCAGC 
    CACTCTGAGA GGAGAAATTA TGAGGTGGAG TTGGAGGTTT ATGACTTCTT CTTTGAAAAG 
    GGCGCTCCGA TGACAGTCTA TATCTCCATC AGAACAGCAG ATACAAATGC CCCACGGGTT 
    TCCTGGAACA CAGGTCTGAA TCTCCTAGAA GGTCAGTCTC GGGCCATTAC TTGGGAACAA 
    TTTCAGGTTG TAGATAATGA TGACATTGGT GCCGTCCGGC TGGTCGCCAT TGATGGACTG 
    CTCCATGGAC GTCTTACACT AAGAGAGGGA AAAGGATTTT TCTTTACCGT TGCTGACCTG 
    CAAGCTGGGG TAGTGCGTTA CCATCATGAC GACAGTGATT CCACCAAAGA CTTCGTGGTC 
    TTCAGGATAT TTGATGGCCA CCACAGCATC CGCCATAAGT TCCCCATCAA CATTCTGCCC 
    AAGGATGACA GTCCCCCGTT CCTCATAAGC AATGTTGTGA TTGAACTGGA GGAGGGGCAG 
    GCTGTGCTGA TCCAGGGTTC CATGCTGACA GCGTCAGACA TGGATTCCAG CGACGACTAT 
    ATCTTCTTTA ATATCACAGC CCCGCCACAA GCTGGAGAGA TCATGAAAAA GCCAGGACCA 
    GGACTCATAG GCTATCCAGT CCCTGGCTTC CTTCAGAGGG ATCTGTTTAA TGGGCTCATT 
    TACTACCGAC ATTTTGGTGG CGAGACCTTT GAAGACTCTT TTGAATTTGT CCTGGGGGAT 
    AGCCACGACC CTCCAAATCT TTCAGTACCT CAGGTGGTGA CAATTCATAT CACACCAGTG 
    AATGACCAGC TTCCCAAAGA GGCCCCTGGG GTTTCTCGTC ATTTGGTTGT CAAGGAAACT 
    GAGGTGACCT GTATAACTAG GAAGCACCTG CATTTCATAG ATGTGGAATC CCACGACAGG 
    GAGCTTCTCT ACACTGTGAC GACCCCTCCA GTCTTCTCTG TTAGCCCCAG ACATTTAGAT 
    GCTGGGAGAT TATTCCTGGT GGACAGCATT CCAAAGCTAA CCAAAAATCC TGTGGCTGAG 
    AGACTGAAGT CATTCACGCA GCATGCCGTG AACTACATGA AAGTGGCCTA CATGCCCCCC 
    ATAGAAGACA TAGGCCCTTA TCTGCGCCAC GTCCACTTCA CGTTTTCTGT CAGTAACCAG 
    CATGGCGGGA CCCTGCACGG GCTCTGTTTT AACATCACCC TCCTCCCTGT GGACAATCAA 
    GCCCCCAAGG TATTTACCAA CCCGCTGAAG GTGGCTGAGG GAGGTCAGGG TGTCATCAGC 
    ACAGAGCACA TTCTTGTTTC TGACGTGGAT ACCACGCTGG ACAATATCTA CCTCTCCCTC 
    CAGAGACTGC CTCTCCATGG AAGGGTGGAA CTTGATGGAA CTCCTCTAGA CACGGGGAGC 
    ACGTTTTCCT GGGAAGACCT CCACGCCTTA AAAGTTAGGT ATCAGCACGA TGGATCTGAG 
    ACGCTTCAGG ATGACATTTT CTTGGAGGTC ACTGATGGCA CGAATCCAGC CGACTGTATT 
    CTACCTGTGC AGGTCGTCCC TGTAAATGAC GAGCCACCAG TCCTGAAGGC TGGCCTCAAT 
    CCCACGATGC ATTGCTCAGA GGGCGGAGAG GTGGTCATTA CCTCTGAGCA CATTTTTGCT 
    ACTGATGTGG ACAGTGACGA CTCGAAACTG ATGTTTATCA TCGCCCAGAA ACCTCTGCAC 
    GGAGTGGTGA GGAATGCTGG GGTGATAACG GGTCAGTTCT ACCAGGAAGA TGTCCTCTCT 
    GGGACTGTGA CGTACACACA CACAGGTGGT GAGATCGGCC TGGTGTCCTG TCTTGACACC 
    ATTCTGTTGG TGGTTTCGGA TGGACAAGCT GGGCCCTTTG TGAATGGCTG TTGCTATGGT 
    GACCCTCCTC TGTATGATCC TTCTCATGGG ACCTTCCCAG TGTATGAGCT CAACATCACA 
    GTACATCCCG TGGACAACCA GCCACCTTCA ATTGCAATCG GCACCGTGTT TGTTGTAGAT 
    GAGGGTTTCT CTGCAGCAAT AACTGTTGAC CACCTGTCCA CTACTGACCC TGACACGGAA 
    GAAGGAGATC TGGAGTTTGT TTTGGTTTCT CCACCCAAAT TTGGTTACAT TGAAAACACA 
    CGCCCCACTG TAGGCTTTGA GAAAAGCAAT ATGGGCATAG GTATAGCTTC ATTTCGGTGG 
    AAAGACGTGA AGACATTGGC CATTAACTAT GTGCAGTCCA AGCATCTGAG GACCGAACCA 
    ACTGCCGACC AGTTCGTGGT GTACGTCACA GATGGGACGC GACGGTCCTT GGAGATACCA 
    TTTTATGTCA TAATCAACCC TACAAACGAT GAAGTGCCTG ACTTCGTAGT GCACAATATC 
    ACTGTGCTTG AGGGACACAT GAAAGAGTTG GATTCTTCTA TCATCAATGC TGTTGACCTG 
    GATATTCCCC AGGACCCCTT GCTGTTCACT GTCTCCCATG GACCTCGCCA TGGTCTCCTC 
    ATCAATGTGT GTAGGGAAGG CTTCCCTCAG TATAAGAAGC CAGCAAATTC TCACCAATAC 
    CAGCAACCTG TTCAAAACTT TTCCATGGAG CTCCTTGAGA CTGGCATGAG GCTGCTGTAT 
    GTGCACGATG ACTCTGAGAA CCTTGTTGAT GACTTCACGA TTCAGTTGTC TGATGGGAAA 
    CATAAAATAC TTAAAACTGT TTCAGTTGAG GTCACTCCGG TTAATGATCA GAAGCCAGTG 
    CTGAGCAAGA AGGCAGAAAT GACAATGAAT GTGGGTGAAA CTCGTATCAT TTCTAGAGCT 
    GTTCTTTCGG CCACAGATGA AGACTCTCCC AGGGAGAAGA TATACTATTT TTTTGAAAGG 
    CTTCCCCAAA ATGGGCAACT TCAGTTTAAG ATAGGGAGGT CCTGGGCCCT GCTCTCTCAT 
    GGCATGAGAT GCACTCAGGA GGAGGTGGAT CTCAATTTGC TAAGATACAC ACACACTGGA 
    CCGGTGAATT CCCAGGACCA GGACAGCTTC ACTTTCTATC TGTGGGATGG TGACAACAGG 
    TCACCCATCT TTGACTGTCA CATTACCATC AAAGGCACGG GAAAAGGTGA GATTGTGATC 
    CTTACAAAGC CCCTTGTGGT GTCCAAAGGC GGCAGGGGTC TCTTGACGAC CACCACTCTT 
    CTTGCTGTGG ATGGAACAGA CAAGCCGGAG GAGTTACTCT ACGTCATCAC CTCCCCGCCA 
    CAGTACGGCC AGGTGGAATA CGTTCGCTAT CCTGGAGTGC CCATCACAAG CTTCAGCCAG 
    ATGGACATCG CAGGACAGAC AGTCTGTTAC ATACACTTGA GCAAAGTCAC TGTCTCCAGG 
    GACACATTCC GATTCATTGT CAGCAACGGC GCACGGACCA GCCATGGTGT GTTTGAAATC 
    ACACTGGGGA CTGTGGACAA AGCCTTGCCT GTGTTGTCAA GAAAGAAAGA ACTGAGACTG 
    GATGAAGGGG CCACGGGTCT GCTCTCATCT GATCTCCTCC AGCTGACTGA CACTGACACT 
    CCACCAGAGA AACTCGCCTT CGTCCTGGTC CAGCTCCCAC AACGTGGCCA GCTGACCCTG 
    CGGGGGAAAG CACTGCTTCA ACCACGTTTC ACTCAGCAGG ATGTGGACAG CAGGAACGTG 
    GCCTACAGGC ACTTGGGAGG GAACGCCACG ACTGACCAGT TTACTTTTGT GGCCTCAGAT 
    GGAACAAACC AAGGCTTTGT TGTGAATGGG AGAGCATGGG AAGAACCCGT TTCATTCTTC 
    ATCCAGGTCG ACCCGTTGGA CAGAAGAGCT CCCCAGCTTG TACACTCCCA TTCTCCCTCT 
    CAAGTGGGAC TCCTGAAAAA TGGCTGTTAT GGGATTTACA TCACCTCACG GGTGCTGAAG 
    GCCTCTGATC CTGACACTGC GGATGAAGAG ATCATCTTTA AGATTTTACG AGGCCCACAA 
    CACGGGCATC TGGAGAACAC AACAACAGGT GAATTTATCC ATGAAAAATT TACCCAAAAG 
    GACTTAAACA GTAAGACTGT TCTTTACATC ATTGATCCAT CTTTGGAAGT AAATTCAGAC 
    GTCATGGAGT TTCAAATCAT GGACCCCACA GGGAACTCTG GCCCTCCTCA AATTTTGGAA 
    CTGAAGTGGG CTCATATTGG ATGGTCGCAG ACCGAGCACC AGGTCTGTGA AGATGCAGGC 
    TTGCTGTCCT TAGAAATCAC CAGAAAGGGA CACTCCATGG ACTCAGCCTT CGTGAGCGTC 
    AAGGTCAACC CAGTGTCAGC TACAGTTGGA AAGGATTTCA CTGTGACTCC GTCTAAGCTG 
    ATTCAGTTTG ATCCAGGAAT GTCAACGAAG ATGTGGAATA TAGCAATTAC CTATGACGGA 
    TTAGAGGAAG ATGATGAGGT CTTTGAAGTA ATTCTGAACT CCCCTGTGAA TGCAGTTCTT 
    GGCACAAAGA CAAAAGCTGC AGTGAAAATT TTGGACTCAA AAGGAGGACA ATGCCATCGC 
    TCATATCCCT TCAACCAAAG CAAGCACAAC CGGCGCGAGA AGGGCATTTG GCGGCCACTG 
    TCCCCAGGGT CTTCCTCCCC CACCACTTCT GGTTCCTTTC ATCTGGAAAG AAGACCCCGT 
    CCAGCTTCCA AAAGGCTAGA GGTCACCAGA GGAGACACTC CACAGAGATT TGATTCTATA 
    GATCCTTCTC GAATGAGGCT GAGGCCCCGT GGGAATGGCA AAACAATCCA CCCTTCCTCT 
    GTCTTTAGAA ATGGAACAGA CATCATCTAT AACTATCATG GGATGGTTTC TCTGAAACTG 
    GAGGATGACA GTTCCTCAGC ACACAAACAG AAGGTCAAAC TCACCATCAC GAGCGGGCCT 
    CAGGGGACAA GGAAAACCTC AGAACTGCCA CAAGCAGATA ATGGGGAATC CACAAGCAAC 
    TCACACTTCT CCAGACAGGC CCAGGTACCC TCATTTCCAA AGAACTGCAC TCTGGAGTTA 
    AAAGAACTTT TCTATTTTGA AGAAAACCTC CAAAAGCTGT ATCAGTGCAA TGGGATTGCC 
    TGGCAAATCT GGATCCCTGA AGCCAAGAAG CTGGAAGACA GGTCCTGCCC AGCGGGGTGG 
    CTGCATCACT CTGGTTACTG CCACACCTTG ACCACGGAGC CGAGGCGCAC CTGGACCCAG 
    GCAGCCCGAG CTTGCCGCGA ACAACACCTG GGTAGCCTTG TTACTGTCCT TACCAGGCAG 
    CACATGCGAT GGCTCTGGAA CATCAGTGGA AGGAAGCCCT TCTGGATTGG GTTGAGTGAC 
    CAAGGACCCC AGGGTCACTG GCAATGGATT GGTGGTGAAC CTGTCACCTT CACCAACTGG 
    AAGAAAATGC CCCCTCAGCA TTCAAAGTCC AGGAAAAACT GCGTTTTGGT TCAAAGACAA 
    GGGAAGTGGC AAGCACGGGA CTGTAGGCAA GGCCGAGGGC ACAGTTACAT CTGCTCCAGA 
    AGACTGGCGG GGCCTGGCCT CTAG

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

    RefSeq XP_006881415.1
    CDS1..6564
    Translation

    Target ORF information:

    RefSeq Version XM_006881353.1
    Organism Elephantulus edwardii(Cape elephant shrew)
    Definition Elephantulus edwardii FRAS1 related extracellular matrix 1 (FREM1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006881353.1

    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
    6421
    6481
    6541
    ATGATGTCTC CGGCATGGGG TGGCCCACAC GGCCTGCTGG CCCTCTTGCT CCTGCTCCTG 
    CTTGTGGGCT GGGCCAGCCC TACCTTGGTC AGCGTGAACC TCGGGTTGAC GGTGACAAAG 
    GGCCGCTCCG CCTTCCTGTC TGGGGACAAC CTGAAGTTTG CCATTCCCAA GGAGAAAGAT 
    GCCTGCAAAG TGGAAGTCGT GATGAATGAG CCTGTCACCC AGAGGGTTGG GCAGCTCACC 
    CCACAGGTAT TTGACTGCCA TTTCCTTCCC AATGAAGTGA AGTATGTTCA CAATGGCTGC 
    CCAATTCTTG ATGAAGACAC GGTGAAGCTT AGACTTTACA GATTTACTGA AACAGACACC 
    TTCACGGAGA CCTTTATCCT GCGGGTCTAT CTGTTGGAAC CAGACTGTAA CATCATCCGG 
    ATGAGCAACA ATGTGCTGGA GGTGTCTGAG TTCTACGGCC TGTCTCGGGC AATTGATAAG 
    AATGTGCTCA GCTTTGATTA TGGTGGGGTG GCCAACCTGG AGTGTACTGT CCGGCTGGCC 
    CCCGTGGGAA CCTGGCTGCC TGCCCACGGC CAGATGGTCC TGGTGGAACC CAGGCCAGAA 
    GGACCTCGTG GAGATGAGCC ACACAGCTTT TTCCCTGAAT CCCAATTGGG AACTGAACTG 
    AGGTGTCCAG GTGGAAGCTG CACCATAGGA CTGAAGAAAG TAGGAAGTCT CCAGGTGAGC 
    TGTGAGGAGT TCCTGCTGAT GGGCCTACGC TATCAACACC TGGATCCCCC TTCCCCCAAC 
    ATTGATTACA TCTCCATCCA CCTGGATCTC ACCGACAGCA GGAGTAAAAG CATATACAAG 
    TCAGAGAGAG CATGGTTGCC TGTCCACATC CGAGCCGGCA TTCCGAATCA GCTTCCAAGG 
    GCCGCTTTCA TGGCCATGTT CATCCTGGAA GTGGATCAGT TTATCCTGAC CTCTCTCACC 
    ACATCGGTTC TGGACTGTGA AGATGACGAG ACCCCCAAAC CTTTGCTGGT GTTCAACATC 
    ACCAAGCCCC CGGACCAGGG CTACATGACT CACCTGTTGG ACCACACCAG ACCCATCTCC 
    TCTTTCACCT GGAAAGACCT AAATGATCTG CAGATTGCCT ACCAGCCCCC TAACAGCAGC 
    CACTCTGAGA GGAGAAATTA TGAGGTGGAG TTGGAGGTTT ATGACTTCTT CTTTGAAAAG 
    GGCGCTCCGA TGACAGTCTA TATCTCCATC AGAACAGCAG ATACAAATGC CCCACGGGTT 
    TCCTGGAACA CAGGTCTGAA TCTCCTAGAA GGTCAGTCTC GGGCCATTAC TTGGGAACAA 
    TTTCAGGTTG TAGATAATGA TGACATTGGT GCCGTCCGGC TGGTCGCCAT TGATGGACTG 
    CTCCATGGAC GTCTTACACT AAGAGAGGGA AAAGGATTTT TCTTTACCGT TGCTGACCTG 
    CAAGCTGGGG TAGTGCGTTA CCATCATGAC GACAGTGATT CCACCAAAGA CTTCGTGGTC 
    TTCAGGATAT TTGATGGCCA CCACAGCATC CGCCATAAGT TCCCCATCAA CATTCTGCCC 
    AAGGATGACA GTCCCCCGTT CCTCATAAGC AATGTTGTGA TTGAACTGGA GGAGGGGCAG 
    GCTGTGCTGA TCCAGGGTTC CATGCTGACA GCGTCAGACA TGGATTCCAG CGACGACTAT 
    ATCTTCTTTA ATATCACAGC CCCGCCACAA GCTGGAGAGA TCATGAAAAA GCCAGGACCA 
    GGACTCATAG GCTATCCAGT CCCTGGCTTC CTTCAGAGGG ATCTGTTTAA TGGGCTCATT 
    TACTACCGAC ATTTTGGTGG CGAGACCTTT GAAGACTCTT TTGAATTTGT CCTGGGGGAT 
    AGCCACGACC CTCCAAATCT TTCAGTACCT CAGGTGGTGA CAATTCATAT CACACCAGTG 
    AATGACCAGC TTCCCAAAGA GGCCCCTGGG GTTTCTCGTC ATTTGGTTGT CAAGGAAACT 
    GAGGTGACCT GTATAACTAG GAAGCACCTG CATTTCATAG ATGTGGAATC CCACGACAGG 
    GAGCTTCTCT ACACTGTGAC GACCCCTCCA GTCTTCTCTG TTAGCCCCAG ACATTTAGAT 
    GCTGGGAGAT TATTCCTGGT GGACAGCATT CCAAAGCTAA CCAAAAATCC TGTGGCTGAG 
    AGACTGAAGT CATTCACGCA GCATGCCGTG AACTACATGA AAGTGGCCTA CATGCCCCCC 
    ATAGAAGACA TAGGCCCTTA TCTGCGCCAC GTCCACTTCA CGTTTTCTGT CAGTAACCAG 
    CATGGCGGGA CCCTGCACGG GCTCTGTTTT AACATCACCC TCCTCCCTGT GGACAATCAA 
    GCCCCCAAGG TATTTACCAA CCCGCTGAAG GTGGCTGAGG GAGGTCAGGG TGTCATCAGC 
    ACAGAGCACA TTCTTGTTTC TGACGTGGAT ACCACGCTGG ACAATATCTA CCTCTCCCTC 
    CAGAGACTGC CTCTCCATGG AAGGGTGGAA CTTGATGGAA CTCCTCTAGA CACGGGGAGC 
    ACGTTTTCCT GGGAAGACCT CCACGCCTTA AAAGTTAGGT ATCAGCACGA TGGATCTGAG 
    ACGCTTCAGG ATGACATTTT CTTGGAGGTC ACTGATGGCA CGAATCCAGC CGACTGTATT 
    CTACCTGTGC AGGTCGTCCC TGTAAATGAC GAGCCACCAG TCCTGAAGGC TGGCCTCAAT 
    CCCACGATGC ATTGCTCAGA GGGCGGAGAG GTGGTCATTA CCTCTGAGCA CATTTTTGCT 
    ACTGATGTGG ACAGTGACGA CTCGAAACTG ATGTTTATCA TCGCCCAGAA ACCTCTGCAC 
    GGAGTGGTGA GGAATGCTGG GGTGATAACG GGTCAGTTCT ACCAGGAAGA TGTCCTCTCT 
    GGGACTGTGA CGTACACACA CACAGGTGGT GAGATCGGCC TGGTGTCCTG TCTTGACACC 
    ATTCTGTTGG TGGTTTCGGA TGGACAAGCT GGGCCCTTTG TGAATGGCTG TTGCTATGGT 
    GACCCTCCTC TGTATGATCC TTCTCATGGG ACCTTCCCAG TGTATGAGCT CAACATCACA 
    GTACATCCCG TGGACAACCA GCCACCTTCA ATTGCAATCG GCACCGTGTT TGTTGTAGAT 
    GAGGGTTTCT CTGCAGCAAT AACTGTTGAC CACCTGTCCA CTACTGACCC TGACACGGAA 
    GAAGGAGATC TGGAGTTTGT TTTGGTTTCT CCACCCAAAT TTGGTTACAT TGAAAACACA 
    CGCCCCACTG TAGGCTTTGA GAAAAGCAAT ATGGGCATAG GTATAGCTTC ATTTCGGTGG 
    AAAGACGTGA AGACATTGGC CATTAACTAT GTGCAGTCCA AGCATCTGAG GACCGAACCA 
    ACTGCCGACC AGTTCGTGGT GTACGTCACA GATGGGACGC GACGGTCCTT GGAGATACCA 
    TTTTATGTCA TAATCAACCC TACAAACGAT GAAGTGCCTG ACTTCGTAGT GCACAATATC 
    ACTGTGCTTG AGGGACACAT GAAAGAGTTG GATTCTTCTA TCATCAATGC TGTTGACCTG 
    GATATTCCCC AGGACCCCTT GCTGTTCACT GTCTCCCATG GACCTCGCCA TGGTCTCCTC 
    ATCAATGTGT GTAGGGAAGG CTTCCCTCAG TATAAGAAGC CAGCAAATTC TCACCAATAC 
    CAGCAACCTG TTCAAAACTT TTCCATGGAG CTCCTTGAGA CTGGCATGAG GCTGCTGTAT 
    GTGCACGATG ACTCTGAGAA CCTTGTTGAT GACTTCACGA TTCAGTTGTC TGATGGGAAA 
    CATAAAATAC TTAAAACTGT TTCAGTTGAG GTCACTCCGG TTAATGATCA GAAGCCAGTG 
    CTGAGCAAGA AGGCAGAAAT GACAATGAAT GTGGGTGAAA CTCGTATCAT TTCTAGAGCT 
    GTTCTTTCGG CCACAGATGA AGACTCTCCC AGGGAGAAGA TATACTATTT TTTTGAAAGG 
    CTTCCCCAAA ATGGGCAACT TCAGTTTAAG ATAGGGAGGT CCTGGGCCCT GCTCTCTCAT 
    GGCATGAGAT GCACTCAGGA GGAGGTGGAT CTCAATTTGC TAAGATACAC ACACACTGGA 
    CCGGTGAATT CCCAGGACCA GGACAGCTTC ACTTTCTATC TGTGGGATGG TGACAACAGG 
    TCACCCATCT TTGACTGTCA CATTACCATC AAAGGCACGG GAAAAGGTGA GATTGTGATC 
    CTTACAAAGC CCCTTGTGGT GTCCAAAGGC GGCAGGGGTC TCTTGACGAC CACCACTCTT 
    CTTGCTGTGG ATGGAACAGA CAAGCCGGAG GAGTTACTCT ACGTCATCAC CTCCCCGCCA 
    CAGTACGGCC AGGTGGAATA CGTTCGCTAT CCTGGAGTGC CCATCACAAG CTTCAGCCAG 
    ATGGACATCG CAGGACAGAC AGTCTGTTAC ATACACTTGA GCAAAGTCAC TGTCTCCAGG 
    GACACATTCC GATTCATTGT CAGCAACGGC GCACGGACCA GCCATGGTGT GTTTGAAATC 
    ACACTGGGGA CTGTGGACAA AGCCTTGCCT GTGTTGTCAA GAAAGAAAGA ACTGAGACTG 
    GATGAAGGGG CCACGGGTCT GCTCTCATCT GATCTCCTCC AGCTGACTGA CACTGACACT 
    CCACCAGAGA AACTCGCCTT CGTCCTGGTC CAGCTCCCAC AACGTGGCCA GCTGACCCTG 
    CGGGGGAAAG CACTGCTTCA ACCACGTTTC ACTCAGCAGG ATGTGGACAG CAGGAACGTG 
    GCCTACAGGC ACTTGGGAGG GAACGCCACG ACTGACCAGT TTACTTTTGT GGCCTCAGAT 
    GGAACAAACC AAGGCTTTGT TGTGAATGGG AGAGCATGGG AAGAACCCGT TTCATTCTTC 
    ATCCAGGTCG ACCCGTTGGA CAGAAGAGCT CCCCAGCTTG TACACTCCCA TTCTCCCTCT 
    CAAGTGGGAC TCCTGAAAAA TGGCTGTTAT GGGATTTACA TCACCTCACG GGTGCTGAAG 
    GCCTCTGATC CTGACACTGC GGATGAAGAG ATCATCTTTA AGATTTTACG AGGCCCACAA 
    CACGGGCATC TGGAGAACAC AACAACAGGT GAATTTATCC ATGAAAAATT TACCCAAAAG 
    GACTTAAACA GTAAGACTGT TCTTTACATC ATTGATCCAT CTTTGGAAGT AAATTCAGAC 
    GTCATGGAGT TTCAAATCAT GGACCCCACA GGGAACTCTG GCCCTCCTCA AATTTTGGAA 
    CTGAAGTGGG CTCATATTGG ATGGTCGCAG ACCGAGCACC AGGTCTGTGA AGATGCAGGC 
    TTGCTGTCCT TAGAAATCAC CAGAAAGGGA CACTCCATGG ACTCAGCCTT CGTGAGCGTC 
    AAGGTCAACC CAGTGTCAGC TACAGTTGGA AAGGATTTCA CTGTGACTCC GTCTAAGCTG 
    ATTCAGTTTG ATCCAGGAAT GTCAACGAAG ATGTGGAATA TAGCAATTAC CTATGACGGA 
    TTAGAGGAAG ATGATGAGGT CTTTGAAGTA ATTCTGAACT CCCCTGTGAA TGCAGTTCTT 
    GGCACAAAGA CAAAAGCTGC AGTGAAAATT TTGGACTCAA AAGGAGGACA ATGCCATCGC 
    TCATATCCCT TCAACCAAAG CAAGCACAAC CGGCGCGAGA AGGGCATTTG GCGGCCACTG 
    TCCCCAGGGT CTTCCTCCCC CACCACTTCT GGTTCCTTTC ATCTGGAAAG AAGACCCCGT 
    CCAGCTTCCA AAAGGCTAGA GGTCACCAGA GGAGACACTC CACAGAGATT TGATTCTATA 
    GATCCTTCTC GAATGAGGCT GAGGCCCCGT GGGAATGGCA AAACAATCCA CCCTTCCTCT 
    GTCTTTAGAA ATGGAACAGA CATCATCTAT AACTATCATG GGATGGTTTC TCTGAAACTG 
    GAGGATGACA GTTCCTCAGC ACACAAACAG AAGGTCAAAC TCACCATCAC GAGCGGGCCT 
    CAGGGGACAA GGAAAACCTC AGAACTGCCA CAAGCAGATA ATGGGGAATC CACAAGCAAC 
    TCACACTTCT CCAGACAGGC CCAGGTACCC TCATTTCCAA AGAACTGCAC TCTGGAGTTA 
    AAAGAACTTT TCTATTTTGA AGAAAACCTC CAAAAGCTGT ATCAGTGCAA TGGGATTGCC 
    TGGCAAATCT GGATCCCTGA AGCCAAGAAG CTGGAAGACA GGTCCTGCCC AGCGGGGTGG 
    CTGCATCACT CTGGTTACTG CCACACCTTG ACCACGGAGC CGAGGCGCAC CTGGACCCAG 
    GCAGCCCGAG CTTGCCGCGA ACAACACCTG GGTAGCCTTG TTACTGTCCT TACCAGGCAG 
    CACATGCGAT GGCTCTGGAA CATCAGTGGA AGGAAGCCCT TCTGGATTGG GTTGAGTGAC 
    CAAGGACCCC AGGGTCACTG GCAATGGATT GGTGGTGAAC CTGTCACCTT CACCAACTGG 
    AAGAAAATGC CCCCTCAGCA TTCAAAGTCC AGGAAAAACT GCGTTTTGGT TCAAAGACAA 
    GGGAAGTGGC AAGCACGGGA CTGTAGGCAA GGCCGAGGGC ACAGTTACAT CTGCTCCAGA 
    AGACTGGCGG GGCCTGGCCT CTAG

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

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