ORF » Species Summary » Monodelphis domestica » YLPM1 cDNA ORF clone

YLPM1 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

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
OMc02753 XM_007472807.2
Latest version!		 Monodelphis domestica YLP motif containing 1 (YLPM1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $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)
    YLPM1 ( XM_007472807.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007472869.1 Monodelphis domestica YLP motif containing 1 (YLPM1), mRNA.
    Price & Availability↑
    CloneID OMc02753
    Clone ID Related Accession (Same CDS sequence) XM_007472807.2
    Accession Version XM_007472807.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6609bp)
    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 1461600000000
    Organism Monodelphis domestica(gray short-tailed opossum)
    Product LOW QUALITY PROTEIN: YLP motif-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007472807.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 2 indels ##RefSeq-Attributes-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
    6601
    ATGTACCCGA CTTGGGGCCG GTATGGCGGA GCCAGCCATT ACCCGCCGCC CCCGGTGCCT 
    CCGCCGCCTC CGCCCGTGGG GCTCCCCGAG GCCTCCCCGG GGCCCGGCGG CTACTCGAGC 
    GCGGCGGCGC CGGCGGCCCC TGCCTCCTCA GGCTTCCTGA GCTTCCGCGA GCAGCACTTG 
    GCGCAGCTCC AGCAGCTGCA GCAGATGCAC CAGAAGCAGA TGCAGTGCGT CCTTCAGCCC 
    CATCACCTCC CCCCGCCGCC CTTGCCGCCC CCTCCGGTCA TGCCCGGCGG GGGCTACGGG 
    GACTGGCAGC CGCCGCCGCC GCCTATGCCC CCACCGCCGG GACCGGTCCT AAGCTATCAG 
    AAGCAGCAGC AGTACAAGCA TCAGATGCTC CAGCAGCACC GAGATGGGCC CCCTGGTCCA 
    GTACCCATGG AGCTGGATTC CCCTCCCGAG TCTCCCCGGG GGCCCCGGGG TTCTTACNAT 
    CCTTCTTTCC AAATCTACAT GCCCCCCGCT CAACTTCCGC CTNTTTATTT CCCCCAATCC 
    TCATCCCAGT CCTACCTGCC ACCAGCTCAA CCATCCCCTT CCCAGTCCCC ACCTTCCCAA 
    TCCTACATTG CACCTTCTCA GTCCACCCCA TCCTACTCCA CCTCCTCTCA ATCATACTTG 
    CCCCATTCCC AGCCTTATTT GCCCCAATCC CAGTCATCTC CTTCCCACTC CTCTCAGTCC 
    CATTCCAAAT CACAACTGGC TTCACTACAA CCCAGCCCTT CTGGTACCAG TACAGCTGCC 
    CAGCAAGAGC CACTGGAGAG TGGTGCCAAG AACACAGGTG CTGAGCAGCC CGTCCCTCAT 
    CAACCAGATC CTTCCACTAT GACCCCACAG GAACAGCAGC AGTATTGGTA CAAACAGCAT 
    TTGCTTAGCC TGCAGCAGAG GGCAAAAGCA CATGCACAGG GACAACAACC ACTAAAGGGC 
    CCTGGAATGG TGAAAGATAT ACCAGAAGCA GCAAAAGAAG AAACTACACC AACCAGTCAG 
    ATACCTGAAC CTCCTCCATG TCAAGATCCC CCACTGCCAC CTCCTAGTGA AGAGGTTCCA 
    CCTCCTCTGC CTCCTGATGA GCCCCAGTCT GAAGACCCTG AAGAAGAGGC CAGATTAAAG 
    CAATTACAGG CTGCTGCTGC ACATTGGCAG CAGCATCAGC ATCACCGAGT TGGCTTTCAA 
    TATCAGGGAA TCATGCAGAA GCATGCCCAG CTGCAGCAGA TCCTGCAACA ATACCAGCAG 
    ATCATACAGC AGCCACCACA TATACAGACT ATGTCCGTAG ATATGCAGCT GAGACACTAT 
    GAGATGCAAC AGCAGCAGTT TCAGCATCTT TACAAAGAAT GGGAACGAGA GTTTCAGCAG 
    TGGCAAGATC AGCTCCATAC TTATCCTCAC AAAGATCAGC TTCAAGAGTA TGAAAAGCAA 
    TGGAACTCAT GGCAGGGACA TTTAAAAGCT ACCCAATCCA GCCTTCAAGA GAAAGTGAGC 
    ACACTTCAGA ATGTGAAAAA TCAGTATATG GGAAATATGA CAATACCACC ACCTTTTGTT 
    CCATACTCTC AAATGCCTCC AGCAATACCA ACAATGCCCC CTCCTGTATT GCCTCCATCT 
    CTATCAACAT CACTACCACC ACCAGTGATG CCCCCTACTC TGCCTGCCAC AGTGCCACCA 
    CCTGTGATGC CCCCACCAGT GATGCCTCCA ATACCAACAT CTGTTCCTCC ACCTGGGGTG 
    CCTCCATCTC TGCCTTCAGC TGGGCCTCCA CCGGTTCTTC CTCCACCATC TCTCTCTTCA 
    TCTGGGCCTC CTCCAGTTCT TCCTCCACCA TCTCTCTCTT CAACAGGACC TCCACCTGTT 
    CTTCCCCCAC CATCTCTTTC TTCAACAGCA GCACCACCTG TCTTGCCTCC CCCACCTTTG 
    TCATCAGCAA CACCCCCTCC AGGAATGCCT CCCCCAAATC TCTCTTCAGC TGTTCTCCCT 
    CAAGGGTTAC CCCCTCAATT AACTACCACA TCAGTTCCAC CAGTTGCCGG TTCTCAAAGT 
    TCAAAACCTC CAGACAAACC TAGGCCAGCA CTACTTCCCA CTCCTATATC CTTTGGTTCA 
    CCTCCACCTT ACCATCCTCC AGTAAAATCG TCCATGGGCT CTTCAGAACA AGTGAATTCT 
    AAAGCTCCTC TGCCATTCAG TTCTTTTTCA TCTGAACAAG GACATATGGA ACCCAAAATT 
    TCTACCACAG GATCTTCATC TGCTTCAAAT CAGCCTGGTA ACACAATTAA AGACACACCA 
    GTGAGATCAG GTGGGCTGCT TCCAGATCCT CCTAGAAGTG CTTACTTGGA AGGTCCAAGA 
    GGAGGTCCTA GGTTTGATGG TCCTCGAGGA AGATTTGATT CACCAGGGGC AAGATGCGAA 
    GGACCAAGAC CTAAAGGACC TCGTTTTGAA GGACATCGTT CAGATGGACC AAGACCCAAA 
    TATGAAGGGC ACCACTCAGA GGGTACCTCT AAAAGCAAAT GGGGGACAAT TCCCCGGGGG 
    CCTGCATCTC AGTTTTATAT TTCTTCAAAT ACTTCCCAAG GCCCTCGACA AAGTGGACCT 
    CAGTGGAGAG GATCTAAGCC AGCTTATGGC CAGCAGCAAC AACAGCAACA TCCACCTAAA 
    TCACAAGCAG AATCTCATCT GGGAAACAAG GAACCTTTGA TAGACCCCAG TAGTGGACAA 
    CAAAAGAACA ACAGAATGTC TCCAACTCCA TTTTCTCTTA CTACAGATGT GAAGGAATCA 
    AAGTCATTTC AGTCCAGTGA GAAAATAAAA GATGTTCAAC ATGATATCCC CCAATCTGAA 
    GTCCAAGCAG GATCCAATGA TCCTTCAAAT TGGAGTCAGA ATTCTCAAAA TATGGAAAAA 
    CAAATAGATA AAACTGGTCA GCCTATACCT GGACAATGCC AGAAACCCTT TGTAAACAAA 
    TCATCTATTC AATCAACTTT TCCATCAAGA ACAGGAGGAA TGGATGGAGG AGGAGCACCA 
    CCTATGTCAT CATTAACTGC AAATAATGAT TTAAAATCTG TAGGTGTTGG TATTCCTCAG 
    TTAGAAAATA ACCAGGACAA GGGATTGACC AGGCTAGATA ACAGAGATCA TAGACCAGAA 
    GGCAATAGAG GTAGCAGTTC ATCTTACAGA GGTAGAGGAC AAGGAAGAAT TGAAGACATG 
    AGGGAAAAGG GCCTAACAAA CAGAGGTAGA GGACAAATAA TTAATCAGGG ACCAGGGATG 
    GGTAAACCAG AAGACATTAG AGAGAAAATA ATTGGCAGAA GGGAAGAGAG TCGAGAGAAG 
    ATGGGTAGGC AAGAAGGTAG TCGAGAGAGA CTGATGGGAA GACGATCAGG CAGCCGAGAT 
    AGAGGATTAG GAAGACTGGG AAGCAGTAGG GAAAAAATTC CAGGTAGTCA GGCAGACATC 
    CAAGATAGGG GGAGAGCCGG CAGCCGGGAA AGAGGACCTC CCCGGAGGGC CAACAGTCAA 
    GAGAGAGGAC CTCCTAGAAG GGCTGGGAGT CGGGAGAGAG GACCTCCACT ACACAGGGCT 
    GGAAGCAGAG AGAGGGGACC ACCTCGGCGT CCTGGAAGTC GGGAAAGGGG ACTTGGCAGA 
    CCAGAATTTG GGAGGGATAA AGGTATACCC AGACTAGAAC CTGGTAATGT AGATAAATCA 
    GTTAGGATTG GAGATGGGGA AAAAATGCCC CCTTATCATC GAGATGAAGC ATCTAGGGCT 
    CCCTGGAATC ATGGAGAGGA TAGAGGACAT GAAGACTTTG CATTAGATGG TAGAAATGTC 
    CCTCCCTTAG AACGGGAAAG ACTTGATGAT TGGGACAGAG AGAGGTATTG GAGAGAATGT 
    GAGCCAGATT ATCAAGATGA TGTAGATCCA TACAACAGAG AGGATAGATT TTCACTGCCA 
    CCTTCTCGGT CCCATGATGT GGATCGTCGA GGATCTTGGT GGGATGATTG GGATAGAGAT 
    CGGGATATGG ATCGGGACTT CCGGGATATG GATAGGGAAA TGGACAGGGA CCGGGACAGA 
    GACCGGGACC GGATGGGAAG ACCTATGGAT ATGTATGACC GAGAATTGGA TAGAGAATGG 
    GACAGAGATT ACATGAGACC AATGGATGAC CAAGAATCAC AATTTCATGA ACGTGATATT 
    CCTCCCCTTC CACCTTTGCC ACCCCTTCCA CCTCTTCCAC CTTTGGATCG ATATCGTGAT 
    GACAGATGGA GAGATGAAAG AGACAGAGAT CACATGTATG ATCGGGACCT TCGTGACAGG 
    GGAGAGTTGA GAATTAGAGA ATATCCTGAG AGAGGAGAAA CATGGCGGGA AAAACGAGAT 
    TACCTTCCTG AGCGAATGGA CTGGGAAAGA GAACGGTTGT CAGACAGATG GTACTCATCT 
    GATGTAGATA GACATTCCCC TATGGGGGAT CATATGCCAC CTATTCCCCC ATCACACCAT 
    TCATCTGAAA TGTTGGGAGC AGAAGGAAAC CTGGACTCTG ATCAGTCTCT TGGAGGGGTA 
    ATGGTCCTTA GTCAAAGGCA GCATGAAATA ATTTTGAAAG CTGCACAGGA ACTGAAAATG 
    CTACGAGAAC AGAAAGAACA GCTTCAGAAA CTCAAAGACT TTGCCACTGA GCCGCAGGCA 
    CCTGATCTTC CACCACCACC ACCTGAGCCA CCAAGATTGC AGACTGCATC TTCACGTCCA 
    CCAGGAATCT TTCAGCCTCC AGGATCTTAC AGGCCACCTC CTCCTATGGG TAAACCAACC 
    CTTCCAGGGA TGAGACAATC TGCTCCATCA GCAAGACCGT CTCTTCCTAT GACAAGGCCA 
    CCTGTCCCAA TACCACCTCC CCCTCCAGTG GTAAAGCCTC AGCCTGCTGC TATGGAACAA 
    GAACGTTGGG ATGAAGATTC TTTTCATGGA CTCTGGGATA CAAATGAAGA TAAAGGATTG 
    AATTCAGAAT ATACCTCAGA GACAGGTCCA CCATCTGTTG CAATGAAAGC ACCACCTATT 
    CATCCTTCTA TTCCCCCTCC AAGCCCAATT CCTGTGGTTA TGCAGTCAAT GTCTAAACCC 
    CCACCAGTGC AGCAGACAGT AGACTATGGC CATGGCCGAG ACATATCCAC CAATAAAATT 
    GAACAAATAC CTTATGGGGA GAGAATAACT CTTCGTCCTG ACCCCTTGCC TGAAAGATCA 
    GCTTTTGAGA CAGAGCATCC AGGCCAACGA GACCGTTATG ATAGAGATAG GGATCGTGAA 
    CCTTATTTTG ATCGTCAGAG CAACATCATG GTAGATCATA GAGATTTTAA AAGGGATAGA 
    GAAACACACA GGGACCGAGA CCGTGATCGC GGCATTATTG AATATGATCG TGATAGATTT 
    GACAGAGATC GCCGTCCTCG TGAAGATCGA GCACCCCCAA TCACACCTTC AAGGACACAG 
    TCTTATCGTG ATAAAAAAGA ACACTCCTCA TCCAGACGTG GCGGATTTGA TAGGCCTTCA 
    TATGAACGGA AAACTGACAG GCCAGCTTAT GACCATGGAC CTTCCATGTT TGGAGGAGAC 
    CGAAGGACTT ATCCTGAGGA ACGGATGCCT ATGTCTGCAC CATCATTAAG TCACCAGCCA 
    CCTCCGGCAC CTCGGGTAGA GAAGAAACCC GAATCTAAGA ATGTAGATGA TATTCTGAAA 
    CCACCAGGCC GAGAGAGCCG ACCTGAGAGA ATAGTTGTCA TAATGAGAGG ATTACCTGGA 
    AGTGGAAAGA CACATGTTGC AAAACTTATT CGTGATAAGG AAGTGGAGTG TGGGGGACCT 
    GCACCTAGAG TTCTCAGCCT GGATGATTAC TTTATCACAG AAGTGGAAAA AGAAGAAAAA 
    GACCCTGATA CTGGAAAGAG AGTAAAAAAG AAGGTAATGG AATATGAATA TGAAGCTGAT 
    ATGGAGGAGA CCTACCGTAC CAGCATGTTC AAAACTTTCA AGAAGACCTT GGATGATGGC 
    TTTTTCCCCT TCATAATTCT AGATGCCATT AATGACCGAG TTAGGCATTT TGAACAGTTT 
    TGGAGTGCTG CAAAAACCAA GGGCTTTGAG GTATATTTAG CTGAAATGAG TGCAGACAAC 
    CAAACTTGTG GCAAAAGGAA TATCCATGGA AGAAAACTTA AGGAAATTAA TAAGATGGCT 
    GATCACTGGG AGACTGCACC TCGTCACATG ATGCGTCTAG ACATCCGTTC CTTGTTGCAA 
    GATGCTGCTA TTGAAGAGGT GGAGATGGAA GATTTTGATG CAAATATTGA AGAGCAGAAA 
    GAAGAAAAGA AAGACGCGGA GGAAGAGGAA AGCGAACTGG GTTACATTCC GAAAAGCAAA 
    TGGGAGATGG ACACATCTGA GGCAAAGCTA GACAAGTTGG ATGGCCTGAG GACTGGCACT 
    AAGAGGAAGC GTGACTGGGA AGCAATTGCC AGTAGGATGG AGGATTATCT TCAGCTTCCT 
    GATGATTATG ATACCCGAGC TTCTGAACCT GGAAAGAAAA GGGTAAGATG GGCAGACTTG 
    GAAGAAAAGA AAGATGCAGA TAGGAAAAGG GCCATAGGTT TTGTGGTTGG ACAAACTGAC 
    TGGGAGAAAA TCACAGATGA AAGTGGTCAC CTTGCTGAAA GAGCCCTCAA TCGCACCAAA 
    TATATTTGA

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

    RefSeq XP_007472869.1
    CDS151..6759
    Translation

    Target ORF information:

    RefSeq Version XM_007472807.2
    Organism Monodelphis domestica(gray short-tailed opossum)
    Definition Monodelphis domestica YLP motif containing 1 (YLPM1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_007472807.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    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
    6601
    ATGTACCCGA CTTGGGGCCG GTATGGCGGA GCCAGCCATT ACCCGCCGCC CCCGGTGCCT 
    CCGCCGCCTC CGCCCGTGGG GCTCCCCGAG GCCTCCCCGG GGCCCGGCGG CTACTCGAGC 
    GCGGCGGCGC CGGCGGCCCC TGCCTCCTCA GGCTTCCTGA GCTTCCGCGA GCAGCACTTG 
    GCGCAGCTCC AGCAGCTGCA GCAGATGCAC CAGAAGCAGA TGCAGTGCGT CCTTCAGCCC 
    CATCACCTCC CCCCGCCGCC CTTGCCGCCC CCTCCGGTCA TGCCCGGCGG GGGCTACGGG 
    GACTGGCAGC CGCCGCCGCC GCCTATGCCC CCACCGCCGG GACCGGTCCT AAGCTATCAG 
    AAGCAGCAGC AGTACAAGCA TCAGATGCTC CAGCAGCACC GAGATGGGCC CCCTGGTCCA 
    GTACCCATGG AGCTGGATTC CCCTCCCGAG TCTCCCCGGG GGCCCCGGGG TTCTTACNAT 
    CCTTCTTTCC AAATCTACAT GCCCCCCGCT CAACTTCCGC CTNTTTATTT CCCCCAATCC 
    TCATCCCAGT CCTACCTGCC ACCAGCTCAA CCATCCCCTT CCCAGTCCCC ACCTTCCCAA 
    TCCTACATTG CACCTTCTCA GTCCACCCCA TCCTACTCCA CCTCCTCTCA ATCATACTTG 
    CCCCATTCCC AGCCTTATTT GCCCCAATCC CAGTCATCTC CTTCCCACTC CTCTCAGTCC 
    CATTCCAAAT CACAACTGGC TTCACTACAA CCCAGCCCTT CTGGTACCAG TACAGCTGCC 
    CAGCAAGAGC CACTGGAGAG TGGTGCCAAG AACACAGGTG CTGAGCAGCC CGTCCCTCAT 
    CAACCAGATC CTTCCACTAT GACCCCACAG GAACAGCAGC AGTATTGGTA CAAACAGCAT 
    TTGCTTAGCC TGCAGCAGAG GGCAAAAGCA CATGCACAGG GACAACAACC ACTAAAGGGC 
    CCTGGAATGG TGAAAGATAT ACCAGAAGCA GCAAAAGAAG AAACTACACC AACCAGTCAG 
    ATACCTGAAC CTCCTCCATG TCAAGATCCC CCACTGCCAC CTCCTAGTGA AGAGGTTCCA 
    CCTCCTCTGC CTCCTGATGA GCCCCAGTCT GAAGACCCTG AAGAAGAGGC CAGATTAAAG 
    CAATTACAGG CTGCTGCTGC ACATTGGCAG CAGCATCAGC ATCACCGAGT TGGCTTTCAA 
    TATCAGGGAA TCATGCAGAA GCATGCCCAG CTGCAGCAGA TCCTGCAACA ATACCAGCAG 
    ATCATACAGC AGCCACCACA TATACAGACT ATGTCCGTAG ATATGCAGCT GAGACACTAT 
    GAGATGCAAC AGCAGCAGTT TCAGCATCTT TACAAAGAAT GGGAACGAGA GTTTCAGCAG 
    TGGCAAGATC AGCTCCATAC TTATCCTCAC AAAGATCAGC TTCAAGAGTA TGAAAAGCAA 
    TGGAACTCAT GGCAGGGACA TTTAAAAGCT ACCCAATCCA GCCTTCAAGA GAAAGTGAGC 
    ACACTTCAGA ATGTGAAAAA TCAGTATATG GGAAATATGA CAATACCACC ACCTTTTGTT 
    CCATACTCTC AAATGCCTCC AGCAATACCA ACAATGCCCC CTCCTGTATT GCCTCCATCT 
    CTATCAACAT CACTACCACC ACCAGTGATG CCCCCTACTC TGCCTGCCAC AGTGCCACCA 
    CCTGTGATGC CCCCACCAGT GATGCCTCCA ATACCAACAT CTGTTCCTCC ACCTGGGGTG 
    CCTCCATCTC TGCCTTCAGC TGGGCCTCCA CCGGTTCTTC CTCCACCATC TCTCTCTTCA 
    TCTGGGCCTC CTCCAGTTCT TCCTCCACCA TCTCTCTCTT CAACAGGACC TCCACCTGTT 
    CTTCCCCCAC CATCTCTTTC TTCAACAGCA GCACCACCTG TCTTGCCTCC CCCACCTTTG 
    TCATCAGCAA CACCCCCTCC AGGAATGCCT CCCCCAAATC TCTCTTCAGC TGTTCTCCCT 
    CAAGGGTTAC CCCCTCAATT AACTACCACA TCAGTTCCAC CAGTTGCCGG TTCTCAAAGT 
    TCAAAACCTC CAGACAAACC TAGGCCAGCA CTACTTCCCA CTCCTATATC CTTTGGTTCA 
    CCTCCACCTT ACCATCCTCC AGTAAAATCG TCCATGGGCT CTTCAGAACA AGTGAATTCT 
    AAAGCTCCTC TGCCATTCAG TTCTTTTTCA TCTGAACAAG GACATATGGA ACCCAAAATT 
    TCTACCACAG GATCTTCATC TGCTTCAAAT CAGCCTGGTA ACACAATTAA AGACACACCA 
    GTGAGATCAG GTGGGCTGCT TCCAGATCCT CCTAGAAGTG CTTACTTGGA AGGTCCAAGA 
    GGAGGTCCTA GGTTTGATGG TCCTCGAGGA AGATTTGATT CACCAGGGGC AAGATGCGAA 
    GGACCAAGAC CTAAAGGACC TCGTTTTGAA GGACATCGTT CAGATGGACC AAGACCCAAA 
    TATGAAGGGC ACCACTCAGA GGGTACCTCT AAAAGCAAAT GGGGGACAAT TCCCCGGGGG 
    CCTGCATCTC AGTTTTATAT TTCTTCAAAT ACTTCCCAAG GCCCTCGACA AAGTGGACCT 
    CAGTGGAGAG GATCTAAGCC AGCTTATGGC CAGCAGCAAC AACAGCAACA TCCACCTAAA 
    TCACAAGCAG AATCTCATCT GGGAAACAAG GAACCTTTGA TAGACCCCAG TAGTGGACAA 
    CAAAAGAACA ACAGAATGTC TCCAACTCCA TTTTCTCTTA CTACAGATGT GAAGGAATCA 
    AAGTCATTTC AGTCCAGTGA GAAAATAAAA GATGTTCAAC ATGATATCCC CCAATCTGAA 
    GTCCAAGCAG GATCCAATGA TCCTTCAAAT TGGAGTCAGA ATTCTCAAAA TATGGAAAAA 
    CAAATAGATA AAACTGGTCA GCCTATACCT GGACAATGCC AGAAACCCTT TGTAAACAAA 
    TCATCTATTC AATCAACTTT TCCATCAAGA ACAGGAGGAA TGGATGGAGG AGGAGCACCA 
    CCTATGTCAT CATTAACTGC AAATAATGAT TTAAAATCTG TAGGTGTTGG TATTCCTCAG 
    TTAGAAAATA ACCAGGACAA GGGATTGACC AGGCTAGATA ACAGAGATCA TAGACCAGAA 
    GGCAATAGAG GTAGCAGTTC ATCTTACAGA GGTAGAGGAC AAGGAAGAAT TGAAGACATG 
    AGGGAAAAGG GCCTAACAAA CAGAGGTAGA GGACAAATAA TTAATCAGGG ACCAGGGATG 
    GGTAAACCAG AAGACATTAG AGAGAAAATA ATTGGCAGAA GGGAAGAGAG TCGAGAGAAG 
    ATGGGTAGGC AAGAAGGTAG TCGAGAGAGA CTGATGGGAA GACGATCAGG CAGCCGAGAT 
    AGAGGATTAG GAAGACTGGG AAGCAGTAGG GAAAAAATTC CAGGTAGTCA GGCAGACATC 
    CAAGATAGGG GGAGAGCCGG CAGCCGGGAA AGAGGACCTC CCCGGAGGGC CAACAGTCAA 
    GAGAGAGGAC CTCCTAGAAG GGCTGGGAGT CGGGAGAGAG GACCTCCACT ACACAGGGCT 
    GGAAGCAGAG AGAGGGGACC ACCTCGGCGT CCTGGAAGTC GGGAAAGGGG ACTTGGCAGA 
    CCAGAATTTG GGAGGGATAA AGGTATACCC AGACTAGAAC CTGGTAATGT AGATAAATCA 
    GTTAGGATTG GAGATGGGGA AAAAATGCCC CCTTATCATC GAGATGAAGC ATCTAGGGCT 
    CCCTGGAATC ATGGAGAGGA TAGAGGACAT GAAGACTTTG CATTAGATGG TAGAAATGTC 
    CCTCCCTTAG AACGGGAAAG ACTTGATGAT TGGGACAGAG AGAGGTATTG GAGAGAATGT 
    GAGCCAGATT ATCAAGATGA TGTAGATCCA TACAACAGAG AGGATAGATT TTCACTGCCA 
    CCTTCTCGGT CCCATGATGT GGATCGTCGA GGATCTTGGT GGGATGATTG GGATAGAGAT 
    CGGGATATGG ATCGGGACTT CCGGGATATG GATAGGGAAA TGGACAGGGA CCGGGACAGA 
    GACCGGGACC GGATGGGAAG ACCTATGGAT ATGTATGACC GAGAATTGGA TAGAGAATGG 
    GACAGAGATT ACATGAGACC AATGGATGAC CAAGAATCAC AATTTCATGA ACGTGATATT 
    CCTCCCCTTC CACCTTTGCC ACCCCTTCCA CCTCTTCCAC CTTTGGATCG ATATCGTGAT 
    GACAGATGGA GAGATGAAAG AGACAGAGAT CACATGTATG ATCGGGACCT TCGTGACAGG 
    GGAGAGTTGA GAATTAGAGA ATATCCTGAG AGAGGAGAAA CATGGCGGGA AAAACGAGAT 
    TACCTTCCTG AGCGAATGGA CTGGGAAAGA GAACGGTTGT CAGACAGATG GTACTCATCT 
    GATGTAGATA GACATTCCCC TATGGGGGAT CATATGCCAC CTATTCCCCC ATCACACCAT 
    TCATCTGAAA TGTTGGGAGC AGAAGGAAAC CTGGACTCTG ATCAGTCTCT TGGAGGGGTA 
    ATGGTCCTTA GTCAAAGGCA GCATGAAATA ATTTTGAAAG CTGCACAGGA ACTGAAAATG 
    CTACGAGAAC AGAAAGAACA GCTTCAGAAA CTCAAAGACT TTGCCACTGA GCCGCAGGCA 
    CCTGATCTTC CACCACCACC ACCTGAGCCA CCAAGATTGC AGACTGCATC TTCACGTCCA 
    CCAGGAATCT TTCAGCCTCC AGGATCTTAC AGGCCACCTC CTCCTATGGG TAAACCAACC 
    CTTCCAGGGA TGAGACAATC TGCTCCATCA GCAAGACCGT CTCTTCCTAT GACAAGGCCA 
    CCTGTCCCAA TACCACCTCC CCCTCCAGTG GTAAAGCCTC AGCCTGCTGC TATGGAACAA 
    GAACGTTGGG ATGAAGATTC TTTTCATGGA CTCTGGGATA CAAATGAAGA TAAAGGATTG 
    AATTCAGAAT ATACCTCAGA GACAGGTCCA CCATCTGTTG CAATGAAAGC ACCACCTATT 
    CATCCTTCTA TTCCCCCTCC AAGCCCAATT CCTGTGGTTA TGCAGTCAAT GTCTAAACCC 
    CCACCAGTGC AGCAGACAGT AGACTATGGC CATGGCCGAG ACATATCCAC CAATAAAATT 
    GAACAAATAC CTTATGGGGA GAGAATAACT CTTCGTCCTG ACCCCTTGCC TGAAAGATCA 
    GCTTTTGAGA CAGAGCATCC AGGCCAACGA GACCGTTATG ATAGAGATAG GGATCGTGAA 
    CCTTATTTTG ATCGTCAGAG CAACATCATG GTAGATCATA GAGATTTTAA AAGGGATAGA 
    GAAACACACA GGGACCGAGA CCGTGATCGC GGCATTATTG AATATGATCG TGATAGATTT 
    GACAGAGATC GCCGTCCTCG TGAAGATCGA GCACCCCCAA TCACACCTTC AAGGACACAG 
    TCTTATCGTG ATAAAAAAGA ACACTCCTCA TCCAGACGTG GCGGATTTGA TAGGCCTTCA 
    TATGAACGGA AAACTGACAG GCCAGCTTAT GACCATGGAC CTTCCATGTT TGGAGGAGAC 
    CGAAGGACTT ATCCTGAGGA ACGGATGCCT ATGTCTGCAC CATCATTAAG TCACCAGCCA 
    CCTCCGGCAC CTCGGGTAGA GAAGAAACCC GAATCTAAGA ATGTAGATGA TATTCTGAAA 
    CCACCAGGCC GAGAGAGCCG ACCTGAGAGA ATAGTTGTCA TAATGAGAGG ATTACCTGGA 
    AGTGGAAAGA CACATGTTGC AAAACTTATT CGTGATAAGG AAGTGGAGTG TGGGGGACCT 
    GCACCTAGAG TTCTCAGCCT GGATGATTAC TTTATCACAG AAGTGGAAAA AGAAGAAAAA 
    GACCCTGATA CTGGAAAGAG AGTAAAAAAG AAGGTAATGG AATATGAATA TGAAGCTGAT 
    ATGGAGGAGA CCTACCGTAC CAGCATGTTC AAAACTTTCA AGAAGACCTT GGATGATGGC 
    TTTTTCCCCT TCATAATTCT AGATGCCATT AATGACCGAG TTAGGCATTT TGAACAGTTT 
    TGGAGTGCTG CAAAAACCAA GGGCTTTGAG GTATATTTAG CTGAAATGAG TGCAGACAAC 
    CAAACTTGTG GCAAAAGGAA TATCCATGGA AGAAAACTTA AGGAAATTAA TAAGATGGCT 
    GATCACTGGG AGACTGCACC TCGTCACATG ATGCGTCTAG ACATCCGTTC CTTGTTGCAA 
    GATGCTGCTA TTGAAGAGGT GGAGATGGAA GATTTTGATG CAAATATTGA AGAGCAGAAA 
    GAAGAAAAGA AAGACGCGGA GGAAGAGGAA AGCGAACTGG GTTACATTCC GAAAAGCAAA 
    TGGGAGATGG ACACATCTGA GGCAAAGCTA GACAAGTTGG ATGGCCTGAG GACTGGCACT 
    AAGAGGAAGC GTGACTGGGA AGCAATTGCC AGTAGGATGG AGGATTATCT TCAGCTTCCT 
    GATGATTATG ATACCCGAGC TTCTGAACCT GGAAAGAAAA GGGTAAGATG GGCAGACTTG 
    GAAGAAAAGA AAGATGCAGA TAGGAAAAGG GCCATAGGTT TTGTGGTTGG ACAAACTGAC 
    TGGGAGAAAA TCACAGATGA AAGTGGTCAC CTTGCTGAAA GAGCCCTCAA TCGCACCAAA 
    TATATTTGA

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

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