ORF » Species Summary » Xenopus tropicalis » spag17 cDNA ORF clone

spag17 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

The following spag17 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the spag17 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
OXa22256 NM_001130282.1
Latest version!		 Xenopus tropicalis sperm associated antigen 17 (spag17), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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)
    spag17 ( NM_001130282.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001123754.1 Xenopus tropicalis sperm associated antigen 17 (spag17), mRNA.
    Price & Availability↑
    CloneID OXa22256
    Clone ID Related Accession (Same CDS sequence) NM_001130282.1
    Accession Version NM_001130282.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6840bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product sperm-associated antigen 17
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC167470.1. ##Evidence-Data-START## CDS exon combination :: BC167470.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMD00028291, SAMD00028292 [ECO:0000350] ##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
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    ATGGGCCCGA AAAGAGCGAA GAGCACCGTC CCCCCGGCGG GTAGTGGCCC TGTGGGGGCC 
    CCGGGTGTGG GCTCTCGGAG CTGGGAGTCC GGCCTTATCC TGGCGCAGCT GGAGCAGGAT 
    GACTGGAGGG TCAGCATCGC CTTTGTCATT GAGAACCGCC CCGAGGATGA AGCCCACACG 
    AAGGCGCTGT CCCAGGCTGT GTCCGTGCCG CTGCGCCAGC TCTTCAGTGT GGTGTCGTGG 
    GCCGACATGA TCCGACAGGT CCAGGAGCTG GGAAATCCGA AGGTCAAGAA AACAAAGGAG 
    TCGCCATTAT ATTGGGAGGT CACTGAGGTG GCCAAACTGC TGTTGGATCA CGGAGAAAAA 
    CTGCCCCTGT CCCTGATTGC AAAACTGCTG AAATTCCAGT TCCTGAACAT CAAGCAGAAA 
    GACCTGCAGA GGAGGGAGGC CGAGAAGAAG GCCCCAGAAG ACAAGTCGAA GAACAAACCC 
    ACAAAGGCCA AATCACCCGG TGCCCGGTCT GCCGGCAAAT CAAAAGGAAA AAAAGGCCCA 
    GAGGCTCCAC CCCCTGTCCA AAAAGTTACC TCCCTGAAGC GCCGGGGGGA AGAAGAAGAA 
    ACCAACAGAT ATATAGATGA TGAGCCGGAC GATGGTGCCC AACATTACAT CATTGTCCTT 
    GGCTTCTATC AGCCTCAGCT CGTGGCCCTG TTGGCCGAAC TAGGGATCTC CGTGTCCTGT 
    ATTATAAGGA TATCGTCCCA GAACTACACG AGCCTTCCTG CCAATGAGCC GGATCCAACA 
    GTGGCCCCTG AAGTTCTAGA GGCAGAACAG CTCAGGAAAG TGACTCTCAC AAAATCCTTG 
    GAAACGTTCT GGAAGTACCT GGAGCCCATT CTGAACAGCG GCCCCCCGGG ATCCCGACTT 
    CTGGAAGTGG CTCGGCTGCA CTATATGGTC AAGGAAAGGC ACTTTCCTCA GGACTGGGGT 
    GACAGTGACC TCCTGTTGGC ATATGCCACA GAGCTGTATG AGAACGTTGC CTGCCTCATG 
    TACGACTGTC TGGACTGGAG GCGGCAGCAC CGGCGCTACC TGCGTAACCT GCGGCTCATC 
    CGCGTCCCCT CTGTGTCCGT AGGGAAGAGC CCAGACAGAC AGAACGTCCC GCCCGAGGCC 
    CAGGAAGCTG ACCCCATCCC ATCATCCCCT ACAGGCAGGA GGAAAACTCA GACTGATGTG 
    GCGCCTCCAG CTGCTTCTCT GCCACCGTCA TCTCCAATGC ACATGGAGGT CGAGGGCCCG 
    AGTGGGGCGG CTGAGGTGGA TACGAGATTT TACACTGATC TCCTGAGCGA TCTCCCAGAG 
    GAGCTTCAGT CGGTCCCAGT GATACTGCAC TGTGTGCTGG AACAGGTTGT GGCCACTACG 
    GAGGATCTTG TGCCCCCCAG CCAAGCTGCA CCCAAGCCCC GCCCAGATGG GCTGGACCCC 
    AATATTGCCA GTCACATGAT ATCTGTGTTG GATTCTCTCT CCCTGTCGGA CAAGGAAAAG 
    AAGAACCTGT ACAACGCGTT CCGTGCCCAA GAGGCAGAGG GTGAGCGGGC AGAGGAGAGA 
    CGGCCGGAGC TGCTGAACCA CCATGATAAG ATTGGGCACA GGGCCGCCCA GGCACAGCCC 
    CCCAGCGCAT TGGATCCAGT CAGAATAGAG CAGGAAATGA TTGGAAAACT TCCCCTTGCG 
    CAACTTCTGC GATTTCCCCA ACCTGCAGCG GAGAGGAACT CACGGAGACT CGCGCAGATA 
    CATGAACTCA TGCACTACTG CACGTCTGAC CTGACACCCT GGGAAGGAGT CTCGTGGGCA 
    TTCAAGCTGT TCACGTTGGA GAGCCTCCCG CTGACTGGAT TGGATGACCT GGGGGAAGTG 
    GAGGGCAGTG GGGTGGAGGT GCAGCAAGAT GGCGACATTC CGTGGGACGA TCCCGCCAGA 
    TTCGCTCGCA CACTGGGCAG GATGGAAAGT GTGAGGCGGC TGCACGGGCC CAAAGCGCCA 
    GAACCTGAAG GGAATTCTTC CGGGCAAAGT CAAGATCAGG AGGAAACGGC AGGAGCAGAA 
    AAGGAGATTT CCCCAGAGGA GGAGGCCGCA CAGACACAAC TGGGAGACAT TAGGAGGACA 
    CAGAGAAGAT CTCTGAGTGA CTGGTGCTAC TGGGAGCATT TTAATTCAGA ACTACTCAAG 
    CAGGTGGTGT GTGACGCCGC TCAGGCCTAC AGGTGTGTGG ATTACTATTA TCACTCTCAG 
    GATAACTCTC TGCTCCTCGT TATGCACAAT CCCATGAACC CCTACCATCA GAGCGAGGAA 
    TCCTGGGACA TGGCTCTCCA TTCCAACGTC AGTTTCAGAA ACTACCTGGA GTTGGTAGCA 
    GAGTCCATTT CCAACTGGGT GAGGGAGGAG GAGGAGAAGT ATCAGGAGGA GATGGCAGTC 
    AGAGAGTTGG AAGCTTTGAA ACAAATTCAA TCTAGGCAGG ATGGTGAGGC CCTACCAAAA 
    GCCAACACCA AGAAATCCAA GAGATCCCCC TCACCAAGAA AGTCAAAAAG CCCCAAGTCG 
    AAGAGATCAG AGAGCAAGGC TGAAGAACCC TCATTGGCTG AAGCACCTGA TAATCCCTTT 
    ATCCGAGAGG GTTCTCTCAA GGCGTGGAAG GAGGAGCAGG ACCGACTGAA GGAGGAGGAG 
    CGTCTCAGGG AGGAAAAGAA AGCTGTAAAG GGGAGGAAGT CAGCAATTAA GAAGAAAGGA 
    GGTAGCAAGG AGCGGTCGGA GTCCCGGGGG AGCAAGGGGT CCCCAAAATC TCCTAGAAGC 
    AGGAGAAAGA GCTCAAAAGA CAAAAGTACC GATGAGGAAA TAAAGTCACA GGAGTCAGTG 
    ACTTTTGCAC CTGATCTTCC TGCGGCACCG GCACAAAAGG ACTTCAGGTT TCTTGGTTAC 
    AACATGGGGG ACAATTTGAT CCAGGTCTCT GGGGGCAGCC GGCACCTCTT CCCCACAGAT 
    GGGGGGCAGA TCCAGGCGGA ACATGTGCAC TTTGAGAAAG GCTCTTCCTT TGTGAAAGTG 
    AAATTACTGA AGGACGGGCA CACGTTCCTG GTACATATCA CCAACCCCAC GAGACCCACC 
    CAGGAAGAGC AGGAGGAGAC TGTCTGTGCT GATCAGGAAG GGAGACCAAA CATCACAAAG 
    AAGAGCGTCA GTGAGTTTGG CTCCTTCTCA GCCACCCTGG AGAATGGCAT CCAGCTCTCT 
    CTCAGTCACT ATGGCGCCTC GGGGAAAGGA CCAGAGGAGA AGGACCCGGC CCTGGCAGAA 
    ATGCTGACCT TACCTAGTTT ACACACTCCG GGTTTAGTCC CAACACCTCC ACCTCCTGAA 
    GCTTCTCCAC CTGCTGGAAA AGGCCGCAAA TCCCCCCGGC AGAAATCGGC CAAAGCTTCA 
    AAGACTCCAC AGCCGCCACC GCAACCAGTT GAGGAGCCTC CTAAGCCTCC AGAGATAAAG 
    GCAGAACCAG TAGAGCCCCC AGCCCAGCTT CCTTTAGAAC CAGCACCAGA AATTTCTACC 
    TTCCAGAGTC TGAATGTCTC CTGTCCCAGT GGGCTCCTTG TGACATTCCT GCAGGAGCAG 
    CCAACAGATC CGAAGGCTTC AGCTCCGGGG CCCAGGGAGA CACTGCTTGT GCGCCAGACT 
    TACCCAGTGA GAGTGAGGAA CGCTCAACTC TACAAATCCA AAAATATTCT GGAGGCCTCC 
    AGGGTCATCA CAGCCCAGGG CTCAGTCATT AAATACATGC TGGACGGCTC AACCAAGGTT 
    CTGTTTCCTG ATGGGACAAT CAGCAGAAGT CCAGACTCTG GTCCCATTGT CCAGCCCCAG 
    ACACCCCCGC CATCATCATC TGGAGAGGCT TCAGCACATG CCGAGACGGA GCCACCACCT 
    CAGTCACTTC CCACGACCCC CCAGGAATCT AAAGAGGCAG CGGCAGAAGT TAGGAAAGGC 
    AAAAGTGGCC AAAAAGTGCC AGTGGGCAAG ATGGAGATTC CGGAACCCTC TTTTCCCGAA 
    ACTTCCCCTT TAACTTCAAG CGCCACTAAT GTCAAGCCAG CGGGCACCTG GATTACAACC 
    ACCTCCTCTG GGCAACAGAT TGGTACCAGG GGCTCTGAGA GGCTGGAGCT GAACCCCCTT 
    ATGTCCTACA TGGCTACCGA CCCTGTAAAT GGAACGGTGA TGATCACTCG AGAAGATCAG 
    GTTGTTACTG TGCTCAAGCC CGATGGGACC AAGATCGCAG AACACGCAGA CGGTACCAGG 
    ATCACAACAT TCTACCAGGA GACTGAGATG CCGGTACTGC GGGACCACAT GGAAACAGGG 
    GAAGTCCCGC CCACTGTCAT AAAGAGGGTG GAGTTTGTAC GAGTTGAGAG CCCAGACTTC 
    GCCACCGTTA TACTGAACCA GGAAGAGAAT ATCTGCTGCG CCGTGTTTGG GGATGGGACT 
    GAGGTTCTGG CAACGCCTCA GGGGACCTAT CAGGTGCACC CCTCCATGTC TGGCACCCTG 
    ACCATCAACC AGGATGGCGA CGCAGTCTAC TCACCTCACA CAAGCGCCTC CATTTTGGCC 
    TCCCCCAGGC AGAAGGACCT GCCCCCAGGA AGTTACATCA TGAGTCACAC GGCGCCAGTG 
    ATCTGTGAGG TTCTAGATCC AGAGGGGAAC CTCTTCCAGG TGCTGGTAGA TGGGAGCACA 
    TCGGTGCATA TTGCCAGTGG GGAGAGCGGC GAGGAAGAGG AGGATGGTGA GAAAGGCCTT 
    GCAGAGGCTG ATACCAGGGA ACCCAGCCCT GAGGTGTATG ATCTGCACGT GCCCAGGTTC 
    TTCATTGTAA ATGCCGACGG CTCCGGGGGG GAGATTCTCC GCAATCGGGA AGTGGAAGAT 
    TTCTTGGCTT CTTGTTACTC CGACCCTGCG ACTGCGGTGA TCCGGGAACC GGCGCCGGAA 
    CTGCCAGGAG TCCAGTTCAT CACCGTCCTG AAGCCTCTCC CCGAAACGTC TCCGTGGGTC 
    GTACAGAAAG AAACAAGTGA CCTGGTTCCC CCCAACCTCA TCTCCCGACC GTGGCACAAC 
    TTTCCCCCTA TAGAGAGGGT ACGTGCGGGG CCGCCGTTGG GCATTGGAGT TTGGAAAGGG 
    CTCAGTATTG GGGCTAAAGG GGAAGCCAGA TCTCACCCCC CAGCACTGAA ATGCCCCAAG 
    GTTCTCCAGA TCCGCCAGCT CTCTTGCTAT GAGCCAATCA GTAAAGAGCA GCGCGAGAGG 
    CTGCAGTTAT CTCTCAAGGG ATACATTGAT CATGTGCGCA AGAAGGAGGC GGAGCTAATG 
    GAGGCAGCCA ATAAGGAACC CAGGACAGAG AATTCCACAG ACCTGCTAAA GCTGGTCCTG 
    TCGTTTCCAG AATCCAGAGA ATCATCACAA ATATCAAGTT TGGACCAAGT TCAAGATGAC 
    ATTGTTACCC TGTATGAGAG CGCAGTTGCC CCCAGCCCAG AGCCTCCTGC CCCCCCAGCC 
    CAGCCGCACA GACATGGGGG AGACTGGCAA GAGATAAGGA GAGAAATCCA GGAGCAGAAG 
    GAGACCCTGG AGGCAATGAG GGGCCGGGAC ATCCCCCCCT ACTTCCAGTC CGAGATGGGC 
    AGGGCCTTCC TGGATACCCA GGGATACATT GATCATGTGC GCAAGAAGGA GGCGGAGCTA 
    ATGGAGGCAG CCAATAAGGA ACCCAGGACA GAGAATTCCA CAGACCTGCT AAAGCTGGTC 
    CTGTCGTTTC CAGAATCCAG AGAATCATCA CAAATATCAA GTTTGGACCA AGTTCAAGAT 
    GACATTGTTA CCCTGTATGA GAGCGCAGTT GCCCCCAGCC CAGAGCCTCC TGCCCCCCCA 
    GCCCAGCCGC ACAGACATGG GGGAGACTGG CAAGAGATAA GGAGAGAAAT CCAGGAGCAG 
    AAGGAGACCC TGGAGGCAAT GAGGGGCCGG GACATCCCCC CCTACTTCCA GTCCGAGATG 
    GGCAGGGCCT TCCTGGATAC CCAGGTGCCT GACATGGACC TGCTCTCCAG CCGGCTGCCC 
    CCGTTCCCCC AGTCCCAGGA GAGAGAGGAG CAGCAGGAGT CCGGGTCCAG CGGTTCTGAT 
    CCTGCAGCAG ACTTGAATCA TGGGGAGGGG CCCTCCAGCT CTGAGGAGTC CGATGAACCC 
    ACCCGAAGCT CCAGCGCCCC CCGGAGAGAC ACAGAAGCAG CCAAGGAGCC CCCCCCATAC 
    GTTCCAGAAA ATTCTGAGCC GAACTTTAAT TGGGCAGAGA TAATCCCGCC CAGGAACTAT 
    TACCCAATGG CACGAAGTCT GAATTTGGAT GTAACTGGGA GGCCAAGGAA AGGGAAAGTA 
    AAACTGCCGA ATTCCATCCT CAGTTCCAAA CCTGCCTCTG TGCCCAACAT TAAGCATGCA 
    GTGGCAGAAG ATGCAGCGCG ACACAGAGGG AACATGGGTT CCGCCCCTTT GGGGGTTTGT 
    ACCAGACACG TGCCGCGAGG TTTCCATCTC TCCCCGCCCG CTGTGCAGTT TGGGGTCCTG 
    CGGGAAGGCT ACACCTACAC AGCGACAGTC ACAATAAAGA ATGTGGGGGT GGATCTCTGC 
    AGGTTCCGAG TGAAGCAGCC GCCGCCCAGC ACTGGTTTGA GGGTGACGTA CACCCCGGGA 
    CCGGTGGCGC CAGGGATGGA GAGCGACTTG GAGGTGGAGC TATTTGCTAT GGCGGTGGGA 
    CTGGGGGGGC CGGAGGGGGC GGCAGAATGG TCTCACTGCA TAGAGATCCA CAGCGAGACT 
    GAGATTCTCT TCCTCCCAGT CACTGGCACA GTTCTCACTG ACTCAGTGTA TGAGGCTGGA 
    AGACTCCCCT GCGGGGGGAG GGCCCCCGGC ATCAGATTAG TCAGCACCGC CCCAAACTCC 
    CGACTCCAGA TCCTGCGGCC CAGACGGACA CCCGACACAG TGTCATCCCT GGGATCCTGA

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

    RefSeq NP_001123754.1
    CDS146..6985
    Translation

    Target ORF information:

    RefSeq Version NM_001130282.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis sperm associated antigen 17 (spag17), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001130282.1

    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
    6601
    6661
    6721
    6781
    ATGGGCCCGA AAAGAGCGAA GAGCACCGTC CCCCCGGCGG GTAGTGGCCC TGTGGGGGCC 
    CCGGGTGTGG GCTCTCGGAG CTGGGAGTCC GGCCTTATCC TGGCGCAGCT GGAGCAGGAT 
    GACTGGAGGG TCAGCATCGC CTTTGTCATT GAGAACCGCC CCGAGGATGA AGCCCACACG 
    AAGGCGCTGT CCCAGGCTGT GTCCGTGCCG CTGCGCCAGC TCTTCAGTGT GGTGTCGTGG 
    GCCGACATGA TCCGACAGGT CCAGGAGCTG GGAAATCCGA AGGTCAAGAA AACAAAGGAG 
    TCGCCATTAT ATTGGGAGGT CACTGAGGTG GCCAAACTGC TGTTGGATCA CGGAGAAAAA 
    CTGCCCCTGT CCCTGATTGC AAAACTGCTG AAATTCCAGT TCCTGAACAT CAAGCAGAAA 
    GACCTGCAGA GGAGGGAGGC CGAGAAGAAG GCCCCAGAAG ACAAGTCGAA GAACAAACCC 
    ACAAAGGCCA AATCACCCGG TGCCCGGTCT GCCGGCAAAT CAAAAGGAAA AAAAGGCCCA 
    GAGGCTCCAC CCCCTGTCCA AAAAGTTACC TCCCTGAAGC GCCGGGGGGA AGAAGAAGAA 
    ACCAACAGAT ATATAGATGA TGAGCCGGAC GATGGTGCCC AACATTACAT CATTGTCCTT 
    GGCTTCTATC AGCCTCAGCT CGTGGCCCTG TTGGCCGAAC TAGGGATCTC CGTGTCCTGT 
    ATTATAAGGA TATCGTCCCA GAACTACACG AGCCTTCCTG CCAATGAGCC GGATCCAACA 
    GTGGCCCCTG AAGTTCTAGA GGCAGAACAG CTCAGGAAAG TGACTCTCAC AAAATCCTTG 
    GAAACGTTCT GGAAGTACCT GGAGCCCATT CTGAACAGCG GCCCCCCGGG ATCCCGACTT 
    CTGGAAGTGG CTCGGCTGCA CTATATGGTC AAGGAAAGGC ACTTTCCTCA GGACTGGGGT 
    GACAGTGACC TCCTGTTGGC ATATGCCACA GAGCTGTATG AGAACGTTGC CTGCCTCATG 
    TACGACTGTC TGGACTGGAG GCGGCAGCAC CGGCGCTACC TGCGTAACCT GCGGCTCATC 
    CGCGTCCCCT CTGTGTCCGT AGGGAAGAGC CCAGACAGAC AGAACGTCCC GCCCGAGGCC 
    CAGGAAGCTG ACCCCATCCC ATCATCCCCT ACAGGCAGGA GGAAAACTCA GACTGATGTG 
    GCGCCTCCAG CTGCTTCTCT GCCACCGTCA TCTCCAATGC ACATGGAGGT CGAGGGCCCG 
    AGTGGGGCGG CTGAGGTGGA TACGAGATTT TACACTGATC TCCTGAGCGA TCTCCCAGAG 
    GAGCTTCAGT CGGTCCCAGT GATACTGCAC TGTGTGCTGG AACAGGTTGT GGCCACTACG 
    GAGGATCTTG TGCCCCCCAG CCAAGCTGCA CCCAAGCCCC GCCCAGATGG GCTGGACCCC 
    AATATTGCCA GTCACATGAT ATCTGTGTTG GATTCTCTCT CCCTGTCGGA CAAGGAAAAG 
    AAGAACCTGT ACAACGCGTT CCGTGCCCAA GAGGCAGAGG GTGAGCGGGC AGAGGAGAGA 
    CGGCCGGAGC TGCTGAACCA CCATGATAAG ATTGGGCACA GGGCCGCCCA GGCACAGCCC 
    CCCAGCGCAT TGGATCCAGT CAGAATAGAG CAGGAAATGA TTGGAAAACT TCCCCTTGCG 
    CAACTTCTGC GATTTCCCCA ACCTGCAGCG GAGAGGAACT CACGGAGACT CGCGCAGATA 
    CATGAACTCA TGCACTACTG CACGTCTGAC CTGACACCCT GGGAAGGAGT CTCGTGGGCA 
    TTCAAGCTGT TCACGTTGGA GAGCCTCCCG CTGACTGGAT TGGATGACCT GGGGGAAGTG 
    GAGGGCAGTG GGGTGGAGGT GCAGCAAGAT GGCGACATTC CGTGGGACGA TCCCGCCAGA 
    TTCGCTCGCA CACTGGGCAG GATGGAAAGT GTGAGGCGGC TGCACGGGCC CAAAGCGCCA 
    GAACCTGAAG GGAATTCTTC CGGGCAAAGT CAAGATCAGG AGGAAACGGC AGGAGCAGAA 
    AAGGAGATTT CCCCAGAGGA GGAGGCCGCA CAGACACAAC TGGGAGACAT TAGGAGGACA 
    CAGAGAAGAT CTCTGAGTGA CTGGTGCTAC TGGGAGCATT TTAATTCAGA ACTACTCAAG 
    CAGGTGGTGT GTGACGCCGC TCAGGCCTAC AGGTGTGTGG ATTACTATTA TCACTCTCAG 
    GATAACTCTC TGCTCCTCGT TATGCACAAT CCCATGAACC CCTACCATCA GAGCGAGGAA 
    TCCTGGGACA TGGCTCTCCA TTCCAACGTC AGTTTCAGAA ACTACCTGGA GTTGGTAGCA 
    GAGTCCATTT CCAACTGGGT GAGGGAGGAG GAGGAGAAGT ATCAGGAGGA GATGGCAGTC 
    AGAGAGTTGG AAGCTTTGAA ACAAATTCAA TCTAGGCAGG ATGGTGAGGC CCTACCAAAA 
    GCCAACACCA AGAAATCCAA GAGATCCCCC TCACCAAGAA AGTCAAAAAG CCCCAAGTCG 
    AAGAGATCAG AGAGCAAGGC TGAAGAACCC TCATTGGCTG AAGCACCTGA TAATCCCTTT 
    ATCCGAGAGG GTTCTCTCAA GGCGTGGAAG GAGGAGCAGG ACCGACTGAA GGAGGAGGAG 
    CGTCTCAGGG AGGAAAAGAA AGCTGTAAAG GGGAGGAAGT CAGCAATTAA GAAGAAAGGA 
    GGTAGCAAGG AGCGGTCGGA GTCCCGGGGG AGCAAGGGGT CCCCAAAATC TCCTAGAAGC 
    AGGAGAAAGA GCTCAAAAGA CAAAAGTACC GATGAGGAAA TAAAGTCACA GGAGTCAGTG 
    ACTTTTGCAC CTGATCTTCC TGCGGCACCG GCACAAAAGG ACTTCAGGTT TCTTGGTTAC 
    AACATGGGGG ACAATTTGAT CCAGGTCTCT GGGGGCAGCC GGCACCTCTT CCCCACAGAT 
    GGGGGGCAGA TCCAGGCGGA ACATGTGCAC TTTGAGAAAG GCTCTTCCTT TGTGAAAGTG 
    AAATTACTGA AGGACGGGCA CACGTTCCTG GTACATATCA CCAACCCCAC GAGACCCACC 
    CAGGAAGAGC AGGAGGAGAC TGTCTGTGCT GATCAGGAAG GGAGACCAAA CATCACAAAG 
    AAGAGCGTCA GTGAGTTTGG CTCCTTCTCA GCCACCCTGG AGAATGGCAT CCAGCTCTCT 
    CTCAGTCACT ATGGCGCCTC GGGGAAAGGA CCAGAGGAGA AGGACCCGGC CCTGGCAGAA 
    ATGCTGACCT TACCTAGTTT ACACACTCCG GGTTTAGTCC CAACACCTCC ACCTCCTGAA 
    GCTTCTCCAC CTGCTGGAAA AGGCCGCAAA TCCCCCCGGC AGAAATCGGC CAAAGCTTCA 
    AAGACTCCAC AGCCGCCACC GCAACCAGTT GAGGAGCCTC CTAAGCCTCC AGAGATAAAG 
    GCAGAACCAG TAGAGCCCCC AGCCCAGCTT CCTTTAGAAC CAGCACCAGA AATTTCTACC 
    TTCCAGAGTC TGAATGTCTC CTGTCCCAGT GGGCTCCTTG TGACATTCCT GCAGGAGCAG 
    CCAACAGATC CGAAGGCTTC AGCTCCGGGG CCCAGGGAGA CACTGCTTGT GCGCCAGACT 
    TACCCAGTGA GAGTGAGGAA CGCTCAACTC TACAAATCCA AAAATATTCT GGAGGCCTCC 
    AGGGTCATCA CAGCCCAGGG CTCAGTCATT AAATACATGC TGGACGGCTC AACCAAGGTT 
    CTGTTTCCTG ATGGGACAAT CAGCAGAAGT CCAGACTCTG GTCCCATTGT CCAGCCCCAG 
    ACACCCCCGC CATCATCATC TGGAGAGGCT TCAGCACATG CCGAGACGGA GCCACCACCT 
    CAGTCACTTC CCACGACCCC CCAGGAATCT AAAGAGGCAG CGGCAGAAGT TAGGAAAGGC 
    AAAAGTGGCC AAAAAGTGCC AGTGGGCAAG ATGGAGATTC CGGAACCCTC TTTTCCCGAA 
    ACTTCCCCTT TAACTTCAAG CGCCACTAAT GTCAAGCCAG CGGGCACCTG GATTACAACC 
    ACCTCCTCTG GGCAACAGAT TGGTACCAGG GGCTCTGAGA GGCTGGAGCT GAACCCCCTT 
    ATGTCCTACA TGGCTACCGA CCCTGTAAAT GGAACGGTGA TGATCACTCG AGAAGATCAG 
    GTTGTTACTG TGCTCAAGCC CGATGGGACC AAGATCGCAG AACACGCAGA CGGTACCAGG 
    ATCACAACAT TCTACCAGGA GACTGAGATG CCGGTACTGC GGGACCACAT GGAAACAGGG 
    GAAGTCCCGC CCACTGTCAT AAAGAGGGTG GAGTTTGTAC GAGTTGAGAG CCCAGACTTC 
    GCCACCGTTA TACTGAACCA GGAAGAGAAT ATCTGCTGCG CCGTGTTTGG GGATGGGACT 
    GAGGTTCTGG CAACGCCTCA GGGGACCTAT CAGGTGCACC CCTCCATGTC TGGCACCCTG 
    ACCATCAACC AGGATGGCGA CGCAGTCTAC TCACCTCACA CAAGCGCCTC CATTTTGGCC 
    TCCCCCAGGC AGAAGGACCT GCCCCCAGGA AGTTACATCA TGAGTCACAC GGCGCCAGTG 
    ATCTGTGAGG TTCTAGATCC AGAGGGGAAC CTCTTCCAGG TGCTGGTAGA TGGGAGCACA 
    TCGGTGCATA TTGCCAGTGG GGAGAGCGGC GAGGAAGAGG AGGATGGTGA GAAAGGCCTT 
    GCAGAGGCTG ATACCAGGGA ACCCAGCCCT GAGGTGTATG ATCTGCACGT GCCCAGGTTC 
    TTCATTGTAA ATGCCGACGG CTCCGGGGGG GAGATTCTCC GCAATCGGGA AGTGGAAGAT 
    TTCTTGGCTT CTTGTTACTC CGACCCTGCG ACTGCGGTGA TCCGGGAACC GGCGCCGGAA 
    CTGCCAGGAG TCCAGTTCAT CACCGTCCTG AAGCCTCTCC CCGAAACGTC TCCGTGGGTC 
    GTACAGAAAG AAACAAGTGA CCTGGTTCCC CCCAACCTCA TCTCCCGACC GTGGCACAAC 
    TTTCCCCCTA TAGAGAGGGT ACGTGCGGGG CCGCCGTTGG GCATTGGAGT TTGGAAAGGG 
    CTCAGTATTG GGGCTAAAGG GGAAGCCAGA TCTCACCCCC CAGCACTGAA ATGCCCCAAG 
    GTTCTCCAGA TCCGCCAGCT CTCTTGCTAT GAGCCAATCA GTAAAGAGCA GCGCGAGAGG 
    CTGCAGTTAT CTCTCAAGGG ATACATTGAT CATGTGCGCA AGAAGGAGGC GGAGCTAATG 
    GAGGCAGCCA ATAAGGAACC CAGGACAGAG AATTCCACAG ACCTGCTAAA GCTGGTCCTG 
    TCGTTTCCAG AATCCAGAGA ATCATCACAA ATATCAAGTT TGGACCAAGT TCAAGATGAC 
    ATTGTTACCC TGTATGAGAG CGCAGTTGCC CCCAGCCCAG AGCCTCCTGC CCCCCCAGCC 
    CAGCCGCACA GACATGGGGG AGACTGGCAA GAGATAAGGA GAGAAATCCA GGAGCAGAAG 
    GAGACCCTGG AGGCAATGAG GGGCCGGGAC ATCCCCCCCT ACTTCCAGTC CGAGATGGGC 
    AGGGCCTTCC TGGATACCCA GGGATACATT GATCATGTGC GCAAGAAGGA GGCGGAGCTA 
    ATGGAGGCAG CCAATAAGGA ACCCAGGACA GAGAATTCCA CAGACCTGCT AAAGCTGGTC 
    CTGTCGTTTC CAGAATCCAG AGAATCATCA CAAATATCAA GTTTGGACCA AGTTCAAGAT 
    GACATTGTTA CCCTGTATGA GAGCGCAGTT GCCCCCAGCC CAGAGCCTCC TGCCCCCCCA 
    GCCCAGCCGC ACAGACATGG GGGAGACTGG CAAGAGATAA GGAGAGAAAT CCAGGAGCAG 
    AAGGAGACCC TGGAGGCAAT GAGGGGCCGG GACATCCCCC CCTACTTCCA GTCCGAGATG 
    GGCAGGGCCT TCCTGGATAC CCAGGTGCCT GACATGGACC TGCTCTCCAG CCGGCTGCCC 
    CCGTTCCCCC AGTCCCAGGA GAGAGAGGAG CAGCAGGAGT CCGGGTCCAG CGGTTCTGAT 
    CCTGCAGCAG ACTTGAATCA TGGGGAGGGG CCCTCCAGCT CTGAGGAGTC CGATGAACCC 
    ACCCGAAGCT CCAGCGCCCC CCGGAGAGAC ACAGAAGCAG CCAAGGAGCC CCCCCCATAC 
    GTTCCAGAAA ATTCTGAGCC GAACTTTAAT TGGGCAGAGA TAATCCCGCC CAGGAACTAT 
    TACCCAATGG CACGAAGTCT GAATTTGGAT GTAACTGGGA GGCCAAGGAA AGGGAAAGTA 
    AAACTGCCGA ATTCCATCCT CAGTTCCAAA CCTGCCTCTG TGCCCAACAT TAAGCATGCA 
    GTGGCAGAAG ATGCAGCGCG ACACAGAGGG AACATGGGTT CCGCCCCTTT GGGGGTTTGT 
    ACCAGACACG TGCCGCGAGG TTTCCATCTC TCCCCGCCCG CTGTGCAGTT TGGGGTCCTG 
    CGGGAAGGCT ACACCTACAC AGCGACAGTC ACAATAAAGA ATGTGGGGGT GGATCTCTGC 
    AGGTTCCGAG TGAAGCAGCC GCCGCCCAGC ACTGGTTTGA GGGTGACGTA CACCCCGGGA 
    CCGGTGGCGC CAGGGATGGA GAGCGACTTG GAGGTGGAGC TATTTGCTAT GGCGGTGGGA 
    CTGGGGGGGC CGGAGGGGGC GGCAGAATGG TCTCACTGCA TAGAGATCCA CAGCGAGACT 
    GAGATTCTCT TCCTCCCAGT CACTGGCACA GTTCTCACTG ACTCAGTGTA TGAGGCTGGA 
    AGACTCCCCT GCGGGGGGAG GGCCCCCGGC ATCAGATTAG TCAGCACCGC CCCAAACTCC 
    CGACTCCAGA TCCTGCGGCC CAGACGGACA CCCGACACAG TGTCATCCCT GGGATCCTGA

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

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