ORF » Species Summary » Ailuropoda melanoleuca » NEK1 cDNA ORF clone

NEK1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

The following NEK1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NEK1 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
OAc32454 XM_011223581.2
Latest version!		 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAc32456 XM_011223584.2
Latest version!		 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAc32457 XM_011223585.2
Latest version!		 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAc92042 XM_019798523.1
Latest version!		 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAc92043 XM_019798524.1
Latest version!		 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAc92044 XM_019798525.1
Latest version!		 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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)
    NEK1 ( XM_011223581.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011221883.1 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAc32454
    Clone ID Related Accession (Same CDS sequence) XM_011223581.2
    Accession Version XM_011223581.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3783bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product serine/threonine-protein kinase Nek1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217532.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011223581.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGTGGGTAT GGACAGAAGT TTAACTGATA CCCAGGAAAC CTCAGAAGAC 
    ATTCAGAAGA CTAACAATGC TATTTCAAGT AAGCGAGAAA TACTACGTAG ATTAAATCAA 
    AATCTTAAAG CTCAAGAAGA TGAAAAAGGA AAGCAATGTC ACTCTGATAC GAGTGAGATA 
    GTTGTTAATG AAGATGCCAA AGAGCGTGAA AAAGAAAAAT CTGTTTCATC TGATCGCAAG 
    AAATGGGAGG CAGGAGGTCA ACTTGTGATT CCTTTGGATG AGTTAACATT GGACACATCC 
    TTCTCTGCAA CTGAAAAACA TACAGTGGGA GAGGTTATTA AATTAGATCC TGGTGGCTCT 
    CCAAGAAAAG TCTGGGGGAG AAGCCCTACA GATTCAGTTC TAAAGATACT GGGAGAAGCT 
    GAACTACAAC TTCAGACAGA ACTATTGGAA AACACAACCG TTAGAAGTGA GACTTCTCCT 
    GAAAGGGAGA AGTACAAACC TTTAATTACT GGAGAAGAAA AAGTAAAATA TGTTTCACTT 
    GAAATGAATC CATCAGGTAC TGTTGGTTCT TCTGTTGAAA CGAACAGTCC AGAGTTCAGT 
    GAGGCATCTC CACAGTCGTC ATTGAAGCCA GAAGGAAATG TGGATGAAGC TGATGGCTTA 
    GAAACAGAAG TACTGCAAGA GCCAAGTGGA GCAAGCAAAG ATGGTAGCAT GCCATGCACA 
    ATTATTGATG TGTGGATTAG TGAGATAAAA GAAACAAAGG AAACTGAGTT GGAAGATAAG 
    ATCCCTGTTC AGCAAAATGA AGTTTCTGAA GATGAAATCC CAAGGAATGT GGACCACCTT 
    AGTGAAGTCG ATATAAGACC TGAAATAGGT GATTCTCAGC ACTCTAAATG TGATGTTGAT 
    AAATCTGTGC AACCAGAACC ATTTTTCCAT AGAGTGGTTC TTTCAAAACA CTTGAATGTA 
    GTCTCTCAAA TACAGTCAAT TCTTTGTTCA CCAGAAGAAT CCTTTCTGCT TCGATCTCGC 
    TCTGATTCAC CACCAAAAAA TAAAGACCAG AATTCCTTGC TGATTGGACT TTCAACCGGT 
    CTGTTTGATG CAAACAACCC AAAGATGTTG AGGACATGTT CACTTCCAGA TCTCTCAAAG 
    TTGTTCAGAA CACTGATGGA TGTTCCCACT GTAGGAGATG TATGTCAAGA CAATCTTGAA 
    ATAGATGAAA TTGAAGATGA GCATATTAAA GAAGGACCTT CTGATTCTGA AGACATTGTT 
    TTCGAAGAAA CTGACACAGA TTTACAAGAG CTTCAGGCCT CTATGGAACA ATTACTTAGA 
    GAACAACCTG GAGAAGAATA CAGTGAGGAG GAAGAATCAG TCTTAAAGAA CAGTGACATA 
    GAGCAGACTG CAAATGGGAC AGATCTGGCA GATGAGGATG ACAATCCCAG CAGTGAAAGT 
    GCCCTAAATG AAGAATGGCA CTCAGATAAC AGTGATGGTG AGATTACTAG TGAATGTGAA 
    TATGATAGTG TCTTTAACCA TTTAGAGGAA CTGAGACTTC ACCTGGAGCA GGAAATAGGC 
    TTTGAAAAAT TCTTTGAGGT TTATGAGAAA ATAAAAGCTA TTCATGAAGA TGAAGATGAA 
    AATATTGAGA TATGTTCAAC AATAGTTCAG GATATTTTAG GAAATGAACA TGAACATCTT 
    TATGCCAAGA TTCTTCATTT AGTCATGGCA GATGGAGCCT ATCAAGAAGA TAATGATGAA 
    TAA

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

    RefSeq XP_011221883.1
    CDS310..4092
    Translation

    Target ORF information:

    RefSeq Version XM_011223581.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011223581.2

    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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGTGGGTAT GGACAGAAGT TTAACTGATA CCCAGGAAAC CTCAGAAGAC 
    ATTCAGAAGA CTAACAATGC TATTTCAAGT AAGCGAGAAA TACTACGTAG ATTAAATCAA 
    AATCTTAAAG CTCAAGAAGA TGAAAAAGGA AAGCAATGTC ACTCTGATAC GAGTGAGATA 
    GTTGTTAATG AAGATGCCAA AGAGCGTGAA AAAGAAAAAT CTGTTTCATC TGATCGCAAG 
    AAATGGGAGG CAGGAGGTCA ACTTGTGATT CCTTTGGATG AGTTAACATT GGACACATCC 
    TTCTCTGCAA CTGAAAAACA TACAGTGGGA GAGGTTATTA AATTAGATCC TGGTGGCTCT 
    CCAAGAAAAG TCTGGGGGAG AAGCCCTACA GATTCAGTTC TAAAGATACT GGGAGAAGCT 
    GAACTACAAC TTCAGACAGA ACTATTGGAA AACACAACCG TTAGAAGTGA GACTTCTCCT 
    GAAAGGGAGA AGTACAAACC TTTAATTACT GGAGAAGAAA AAGTAAAATA TGTTTCACTT 
    GAAATGAATC CATCAGGTAC TGTTGGTTCT TCTGTTGAAA CGAACAGTCC AGAGTTCAGT 
    GAGGCATCTC CACAGTCGTC ATTGAAGCCA GAAGGAAATG TGGATGAAGC TGATGGCTTA 
    GAAACAGAAG TACTGCAAGA GCCAAGTGGA GCAAGCAAAG ATGGTAGCAT GCCATGCACA 
    ATTATTGATG TGTGGATTAG TGAGATAAAA GAAACAAAGG AAACTGAGTT GGAAGATAAG 
    ATCCCTGTTC AGCAAAATGA AGTTTCTGAA GATGAAATCC CAAGGAATGT GGACCACCTT 
    AGTGAAGTCG ATATAAGACC TGAAATAGGT GATTCTCAGC ACTCTAAATG TGATGTTGAT 
    AAATCTGTGC AACCAGAACC ATTTTTCCAT AGAGTGGTTC TTTCAAAACA CTTGAATGTA 
    GTCTCTCAAA TACAGTCAAT TCTTTGTTCA CCAGAAGAAT CCTTTCTGCT TCGATCTCGC 
    TCTGATTCAC CACCAAAAAA TAAAGACCAG AATTCCTTGC TGATTGGACT TTCAACCGGT 
    CTGTTTGATG CAAACAACCC AAAGATGTTG AGGACATGTT CACTTCCAGA TCTCTCAAAG 
    TTGTTCAGAA CACTGATGGA TGTTCCCACT GTAGGAGATG TATGTCAAGA CAATCTTGAA 
    ATAGATGAAA TTGAAGATGA GCATATTAAA GAAGGACCTT CTGATTCTGA AGACATTGTT 
    TTCGAAGAAA CTGACACAGA TTTACAAGAG CTTCAGGCCT CTATGGAACA ATTACTTAGA 
    GAACAACCTG GAGAAGAATA CAGTGAGGAG GAAGAATCAG TCTTAAAGAA CAGTGACATA 
    GAGCAGACTG CAAATGGGAC AGATCTGGCA GATGAGGATG ACAATCCCAG CAGTGAAAGT 
    GCCCTAAATG AAGAATGGCA CTCAGATAAC AGTGATGGTG AGATTACTAG TGAATGTGAA 
    TATGATAGTG TCTTTAACCA TTTAGAGGAA CTGAGACTTC ACCTGGAGCA GGAAATAGGC 
    TTTGAAAAAT TCTTTGAGGT TTATGAGAAA ATAAAAGCTA TTCATGAAGA TGAAGATGAA 
    AATATTGAGA TATGTTCAAC AATAGTTCAG GATATTTTAG GAAATGAACA TGAACATCTT 
    TATGCCAAGA TTCTTCATTT AGTCATGGCA GATGGAGCCT ATCAAGAAGA TAATGATGAA 
    TAA

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

    NEK1 ( XM_011223584.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011221886.1 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAc32456
    Clone ID Related Accession (Same CDS sequence) XM_011223584.2
    Accession Version XM_011223584.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3726bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product serine/threonine-protein kinase Nek1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217532.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011223584.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGAGAAGT ATGTTAGACT ACAGAAGATT GGAGAAGGTT CATTTGGAAA AGCCATTCTT 
    GTTAAATCTA CAGAAGATGG CAGGCAATAT GTTATCAAAG AAATTAACAT CTCAAGAATG 
    TCCAATAAAG AAAGGGAAGA ATCAAGGAGA GAAGTTGCAG TATTGGCAAA CATGAAGCAT 
    CCAAATATTG TCCAGTATAG AGAATCATTT GAAGAAAATG GCTCCCTGTA CATAGTGATG 
    GATTACTGTG AAGGAGGCGA TCTGTTTAAA CGAATTAATG CTCAGAAAGG CATTTTGTTT 
    CAAGAGGATC AGATTTTGGA CTGGTTTGTA CAGATATGTC TGGCCTTGAA ACATGTACAT 
    GATCGAAAAA TTCTTCATCG AGACATAAAG TCCCAGAATA TATTTTTAAC CAAAGATGGG 
    ACTATACAAC TTGGAGATTT TGGAATCGCT CGAGTACTTA ATAGTACTGT GGAGCTGGCT 
    CGAACTTGCA TAGGGACCCC TTACTACTTG TCACCGGAAA TCTGTGAAAA CAAACCTTAC 
    AACAATAAAA GTGACATTTG GGCTCTGGGG TGTGTCTTAT ATGAGATGTG TACACTTAAA 
    CATGCATTTG AAGCTGGCAA TATGAAAAAC CTGGTACTGA AGATAATATC TGGATCTTTT 
    CCACCTGTAT CATTACATTA TTCTTATGAT CTCCGCAATT TACTGTCTCA GTTATTTAAA 
    AGAAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAGGTTT TATAGCCAAA 
    CGCATTGAAA AGTTTCTCTC GCCTCAGCTT ATTGCAGAAG AATTTTGTCT AAAAACATTT 
    TCCAAGTTTG GAGCGCAGCC TGTACCAGCG AAAAGACCAG CTTCAGGACA AAGCTTGGCT 
    TCTGTTGTGT CTGCTCAGAA AATTACAAAA CCTGCTGCTA AATATGGAGT GCCTTTAACA 
    TATAAGAAAT TTGGAGATAA AAAAGTACAT GAAAAGAAAC CACTCCAGAA ACATAAACAG 
    GCCCATCAAA TTCCAGTGAA GAAAGTGAAT CCTGGAGAAG AAAGGAGGAA AATGTTTGAG 
    GAAGCAGCAA GAAAGAGAAG GTTGGAATTT ATTGAAAAAG AAAAGAAACA AAAGGATCAG 
    ATTAGTTTAA TGAAGGCCGA GCAGATGAAA AGACAGGAAA AGGAAAGGTT GGAGAGAATA 
    AATAGGGCCA GGGAACAAGG ATGGAGAAAC GTGCTAAGTG CTGGTGGAAG TGGTGAAGTA 
    AAGGCTCCCT TTTTTGGCAG TGGAGGGGCT GTGGCTCCAT CATCTTTTTC TTCTCGAGGA 
    CAGTATGAAC ATTATCATGC TGTTTTTGAT CAAATGCAGC AACAAAGAGC AGAAAATAAT 
    GAAACTAAAT GGAGAGGAGA AATATATGGC CGAAGACATC CAGAAAGGCA AAAGGGGCAG 
    CTAGCTGTGG AAAGAGCTAA ACAAGTGGAA GAGTTCCTAC AGCGAAAACG GGAAGCACGG 
    CAAAATAAAG CTCGAGCCGA AGGACATATG GGAATCCTGC AAAACCTGGC AGCTATGTAT 
    GGAGGCAGGT CCAGCTCTTC AAGAGGAGGG AAGCCAAGAA ACAAAGAGGA AGAGGTATAT 
    CTGGCAAGAC TGAGGCAAAT AAGACTGCAG AATTTCAATG AGCGCCAACA GATTAAAGCC 
    AAACTTCGTG GTGAAAAGAA AGAAGCTGAT TATTCCGAAG GACAAGAAGG AAGTGAGGAG 
    GCTGACGTGC GGCGTAAAAA AGTTGAAGCG TTTAAGGCCC AAGCAAGTGC ACGTGCTGCT 
    GTACTAAAAG AACAATTAGA ACGAAAGAGA AAGGAAGCAT ATGAGAGAGA AAAGAAAGTC 
    TGGGAAGAGC ATTTGGTGGC CAAAGGAGTA AAGAATTCTG ATATGTCTCC ACCTTTGGGA 
    CAACATGAAG CAGGTGGCTC TCCATTGAAG CAACAGATGA GATCTGTTAT TTCTGTGACT 
    TCAGCTTTAA AAGAAGTGGG TATGGACAGA AGTTTAACTG ATACCCAGGA AACCTCAGAA 
    GACATTCAGA AGACTAACAA TGCTATTTCA AGTAAGCGAG AAATACTACG TAGATTAAAT 
    CAAAATCTTA AAGCTCAAGA AGATGAAAAA GGAAAGCAAT GTCACTCTGA TACGAGTGAG 
    ATAGTTGTTA ATGAAGATGC CAAAGAGCGT GAAAAAGAAA AATCTGTTTC ATCTGATCGC 
    AAGAAATGGG AGGCAGGAGG TCAACTTGTG ATTCCTTTGG ATGAGTTAAC ATTGGACACA 
    TCCTTCTCTG CAACTGAAAA ACATACAGTG GGAGAGGTTA TTAAATTAGA TCCTGGTGGC 
    TCTCCAAGAA AAGTCTGGGG GAGAAGCCCT ACAGATTCAG TTCTAAAGAT ACTGGGAGAA 
    GCTGAACTAC AACTTCAGAC AGAACTATTG GAAAACACAA CCGTTAGAAG TGAGACTTCT 
    CCTGAAAGGG AGAAGTACAA ACCTTTAATT ACTGGAGAAG AAAAAGTAAA ATATGTTTCA 
    CTTGAAATGA ATCCATCAGG TACTGTTGGT TCTTCTGTTG AAACGAACAG TCCAGAGTTC 
    AGTGAGGCAT CTCCACAGTC GTCATTGAAG CCAGAAGGAA ATGTGGATGA AGCTGATGGC 
    TTAGAAACAG AAGTACTGCA AGAGCCAAGT GGAGCAAGCA AAGATGGTAG CATGCCATGC 
    ACAATTATTG ATGTGTGGAT TAGTGAGATA AAAGAAACAA AGGAAACTGA GTTGGAAGAT 
    AAGATCCCTG TTCAGCAAAA TGAAGTTTCT GAAGATGAAA TCCCAAGGAA TGTGGACCAC 
    CTTAGTGAAG TCGATATAAG ACCTGAAATA GGTGATTCTC AGCACTCTAA ATGTGATGTT 
    GATAAATCTG TGCAACCAGA ACCATTTTTC CATAGAGTGG TTCTTTCAAA ACACTTGAAT 
    GTAGTCTCTC AAATACAGTC AATTCTTTGT TCACCAGAAG AATCCTTTCT GCTTCGATCT 
    CGCTCTGATT CACCACCAAA AAATAAAGAC CAGAATTCCT TGCTGATTGG ACTTTCAACC 
    GGTCTGTTTG ATGCAAACAA CCCAAAGATG TTGAGGACAT GTTCACTTCC AGATCTCTCA 
    AAGTTGTTCA GAACACTGAT GGATGTTCCC ACTGTAGGAG ATGTATGTCA AGACAATCTT 
    GAAATAGATG AAATTGAAGA TGAGCATATT AAAGAAGGAC CTTCTGATTC TGAAGACATT 
    GTTTTCGAAG AAACTGACAC AGATTTACAA GAGCTTCAGG CCTCTATGGA ACAATTACTT 
    AGAGAACAAC CTGGAGAAGA ATACAGTGAG GAGGAAGAAT CAGTCTTAAA GAACAGTGAC 
    ATAGAGCAGA CTGCAAATGG GACAGATCTG GCAGATGAGG ATGACAATCC CAGCAGTGAA 
    AGTGCCCTAA ATGAAGAATG GCACTCAGAT AACAGTGATG GTGAGATTAC TAGTGAATGT 
    GAATATGATA GTGTCTTTAA CCATTTAGAG GAACTGAGAC TTCACCTGGA GCAGGAAATA 
    GGCTTTGAAA AATTCTTTGA GGTTTATGAG AAAATAAAAG CTATTCATGA AGATGAAGAT 
    GAAAATATTG AGATATGTTC AACAATAGTT CAGGATATTT TAGGAAATGA ACATGAACAT 
    CTTTATGCCA AGATTCTTCA TTTAGTCATG GCAGATGGAG CCTATCAAGA AGATAATGAT 
    GAATAA

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

    RefSeq XP_011221886.1
    CDS308..4033
    Translation

    Target ORF information:

    RefSeq Version XM_011223584.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011223584.2

    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
    ATGGAGAAGT ATGTTAGACT ACAGAAGATT GGAGAAGGTT CATTTGGAAA AGCCATTCTT 
    GTTAAATCTA CAGAAGATGG CAGGCAATAT GTTATCAAAG AAATTAACAT CTCAAGAATG 
    TCCAATAAAG AAAGGGAAGA ATCAAGGAGA GAAGTTGCAG TATTGGCAAA CATGAAGCAT 
    CCAAATATTG TCCAGTATAG AGAATCATTT GAAGAAAATG GCTCCCTGTA CATAGTGATG 
    GATTACTGTG AAGGAGGCGA TCTGTTTAAA CGAATTAATG CTCAGAAAGG CATTTTGTTT 
    CAAGAGGATC AGATTTTGGA CTGGTTTGTA CAGATATGTC TGGCCTTGAA ACATGTACAT 
    GATCGAAAAA TTCTTCATCG AGACATAAAG TCCCAGAATA TATTTTTAAC CAAAGATGGG 
    ACTATACAAC TTGGAGATTT TGGAATCGCT CGAGTACTTA ATAGTACTGT GGAGCTGGCT 
    CGAACTTGCA TAGGGACCCC TTACTACTTG TCACCGGAAA TCTGTGAAAA CAAACCTTAC 
    AACAATAAAA GTGACATTTG GGCTCTGGGG TGTGTCTTAT ATGAGATGTG TACACTTAAA 
    CATGCATTTG AAGCTGGCAA TATGAAAAAC CTGGTACTGA AGATAATATC TGGATCTTTT 
    CCACCTGTAT CATTACATTA TTCTTATGAT CTCCGCAATT TACTGTCTCA GTTATTTAAA 
    AGAAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAGGTTT TATAGCCAAA 
    CGCATTGAAA AGTTTCTCTC GCCTCAGCTT ATTGCAGAAG AATTTTGTCT AAAAACATTT 
    TCCAAGTTTG GAGCGCAGCC TGTACCAGCG AAAAGACCAG CTTCAGGACA AAGCTTGGCT 
    TCTGTTGTGT CTGCTCAGAA AATTACAAAA CCTGCTGCTA AATATGGAGT GCCTTTAACA 
    TATAAGAAAT TTGGAGATAA AAAAGTACAT GAAAAGAAAC CACTCCAGAA ACATAAACAG 
    GCCCATCAAA TTCCAGTGAA GAAAGTGAAT CCTGGAGAAG AAAGGAGGAA AATGTTTGAG 
    GAAGCAGCAA GAAAGAGAAG GTTGGAATTT ATTGAAAAAG AAAAGAAACA AAAGGATCAG 
    ATTAGTTTAA TGAAGGCCGA GCAGATGAAA AGACAGGAAA AGGAAAGGTT GGAGAGAATA 
    AATAGGGCCA GGGAACAAGG ATGGAGAAAC GTGCTAAGTG CTGGTGGAAG TGGTGAAGTA 
    AAGGCTCCCT TTTTTGGCAG TGGAGGGGCT GTGGCTCCAT CATCTTTTTC TTCTCGAGGA 
    CAGTATGAAC ATTATCATGC TGTTTTTGAT CAAATGCAGC AACAAAGAGC AGAAAATAAT 
    GAAACTAAAT GGAGAGGAGA AATATATGGC CGAAGACATC CAGAAAGGCA AAAGGGGCAG 
    CTAGCTGTGG AAAGAGCTAA ACAAGTGGAA GAGTTCCTAC AGCGAAAACG GGAAGCACGG 
    CAAAATAAAG CTCGAGCCGA AGGACATATG GGAATCCTGC AAAACCTGGC AGCTATGTAT 
    GGAGGCAGGT CCAGCTCTTC AAGAGGAGGG AAGCCAAGAA ACAAAGAGGA AGAGGTATAT 
    CTGGCAAGAC TGAGGCAAAT AAGACTGCAG AATTTCAATG AGCGCCAACA GATTAAAGCC 
    AAACTTCGTG GTGAAAAGAA AGAAGCTGAT TATTCCGAAG GACAAGAAGG AAGTGAGGAG 
    GCTGACGTGC GGCGTAAAAA AGTTGAAGCG TTTAAGGCCC AAGCAAGTGC ACGTGCTGCT 
    GTACTAAAAG AACAATTAGA ACGAAAGAGA AAGGAAGCAT ATGAGAGAGA AAAGAAAGTC 
    TGGGAAGAGC ATTTGGTGGC CAAAGGAGTA AAGAATTCTG ATATGTCTCC ACCTTTGGGA 
    CAACATGAAG CAGGTGGCTC TCCATTGAAG CAACAGATGA GATCTGTTAT TTCTGTGACT 
    TCAGCTTTAA AAGAAGTGGG TATGGACAGA AGTTTAACTG ATACCCAGGA AACCTCAGAA 
    GACATTCAGA AGACTAACAA TGCTATTTCA AGTAAGCGAG AAATACTACG TAGATTAAAT 
    CAAAATCTTA AAGCTCAAGA AGATGAAAAA GGAAAGCAAT GTCACTCTGA TACGAGTGAG 
    ATAGTTGTTA ATGAAGATGC CAAAGAGCGT GAAAAAGAAA AATCTGTTTC ATCTGATCGC 
    AAGAAATGGG AGGCAGGAGG TCAACTTGTG ATTCCTTTGG ATGAGTTAAC ATTGGACACA 
    TCCTTCTCTG CAACTGAAAA ACATACAGTG GGAGAGGTTA TTAAATTAGA TCCTGGTGGC 
    TCTCCAAGAA AAGTCTGGGG GAGAAGCCCT ACAGATTCAG TTCTAAAGAT ACTGGGAGAA 
    GCTGAACTAC AACTTCAGAC AGAACTATTG GAAAACACAA CCGTTAGAAG TGAGACTTCT 
    CCTGAAAGGG AGAAGTACAA ACCTTTAATT ACTGGAGAAG AAAAAGTAAA ATATGTTTCA 
    CTTGAAATGA ATCCATCAGG TACTGTTGGT TCTTCTGTTG AAACGAACAG TCCAGAGTTC 
    AGTGAGGCAT CTCCACAGTC GTCATTGAAG CCAGAAGGAA ATGTGGATGA AGCTGATGGC 
    TTAGAAACAG AAGTACTGCA AGAGCCAAGT GGAGCAAGCA AAGATGGTAG CATGCCATGC 
    ACAATTATTG ATGTGTGGAT TAGTGAGATA AAAGAAACAA AGGAAACTGA GTTGGAAGAT 
    AAGATCCCTG TTCAGCAAAA TGAAGTTTCT GAAGATGAAA TCCCAAGGAA TGTGGACCAC 
    CTTAGTGAAG TCGATATAAG ACCTGAAATA GGTGATTCTC AGCACTCTAA ATGTGATGTT 
    GATAAATCTG TGCAACCAGA ACCATTTTTC CATAGAGTGG TTCTTTCAAA ACACTTGAAT 
    GTAGTCTCTC AAATACAGTC AATTCTTTGT TCACCAGAAG AATCCTTTCT GCTTCGATCT 
    CGCTCTGATT CACCACCAAA AAATAAAGAC CAGAATTCCT TGCTGATTGG ACTTTCAACC 
    GGTCTGTTTG ATGCAAACAA CCCAAAGATG TTGAGGACAT GTTCACTTCC AGATCTCTCA 
    AAGTTGTTCA GAACACTGAT GGATGTTCCC ACTGTAGGAG ATGTATGTCA AGACAATCTT 
    GAAATAGATG AAATTGAAGA TGAGCATATT AAAGAAGGAC CTTCTGATTC TGAAGACATT 
    GTTTTCGAAG AAACTGACAC AGATTTACAA GAGCTTCAGG CCTCTATGGA ACAATTACTT 
    AGAGAACAAC CTGGAGAAGA ATACAGTGAG GAGGAAGAAT CAGTCTTAAA GAACAGTGAC 
    ATAGAGCAGA CTGCAAATGG GACAGATCTG GCAGATGAGG ATGACAATCC CAGCAGTGAA 
    AGTGCCCTAA ATGAAGAATG GCACTCAGAT AACAGTGATG GTGAGATTAC TAGTGAATGT 
    GAATATGATA GTGTCTTTAA CCATTTAGAG GAACTGAGAC TTCACCTGGA GCAGGAAATA 
    GGCTTTGAAA AATTCTTTGA GGTTTATGAG AAAATAAAAG CTATTCATGA AGATGAAGAT 
    GAAAATATTG AGATATGTTC AACAATAGTT CAGGATATTT TAGGAAATGA ACATGAACAT 
    CTTTATGCCA AGATTCTTCA TTTAGTCATG GCAGATGGAG CCTATCAAGA AGATAATGAT 
    GAATAA

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

    NEK1 ( XM_011223585.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011221887.1 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAc32457
    Clone ID Related Accession (Same CDS sequence) XM_011223585.2
    Accession Version XM_011223585.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product serine/threonine-protein kinase Nek1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217532.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011223585.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGTA TATCTGGCAA GACTGAGGCA AATAAGACTG 
    CAGAATTTCA ATGAGCGCCA ACAGATTAAA GCCAAACTTC GTGGTGAAAA GAAAGAAGCT 
    GATTATTCCG AAGGACAAGA AGGAAGTGAG GAGGCTGACG TGCGGCGTAA AAAAGTTGAA 
    GCGTTTAAGG CCCAAGCAAG TGCACGTGCT GCTGTACTAA AAGAACAATT AGAACGAAAG 
    AGAAAGGAAG CATATGAGAG AGAAAAGAAA GTCTGGGAAG AGCATTTGGT GGCCAAAGGA 
    GTAAAGAATT CTGATATGTC TCCACCTTTG GGACAACATG AAGCAGGTGG CTCTCCATTG 
    AAGCAACAGA TGAGATCTGT TATTTCTGTG ACTTCAGCTT TAAAAGAAGT GGGTATGGAC 
    AGAAGTTTAA CTGATACCCA GGAAACCTCA GAAGACATTC AGAAGACTAA CAATGCTATT 
    TCAAGTAAGC GAGAAATACT ACGTAGATTA AATCAAAATC TTAAAGCTCA AGAAGATGAA 
    AAAGGAAAGC AATGTCACTC TGATACGAGT GAGATAGTTG TTAATGAAGA TGCCAAAGAG 
    CGTGAAAAAG AAAAATCTGT TTCATCTGAT CGCAAGAAAT GGGAGGCAGG AGGTCAACTT 
    GTGATTCCTT TGGATGAGTT AACATTGGAC ACATCCTTCT CTGCAACTGA AAAACATACA 
    GTGGGAGAGG TTATTAAATT AGATCCTGGT GGCTCTCCAA GAAAAGTCTG GGGGAGAAGC 
    CCTACAGATT CAGTTCTAAA GATACTGGGA GAAGCTGAAC TACAACTTCA GACAGAACTA 
    TTGGAAAACA CAACCGTTAG AAGTGAGACT TCTCCTGAAA GGGAGAAGTA CAAACCTTTA 
    ATTACTGGAG AAGAAAAAGT AAAATATGTT TCACTTGAAA TGAATCCATC AGGTACTGTT 
    GGTTCTTCTG TTGAAACGAA CAGTCCAGAG TTCAGTGAGG CATCTCCACA GTCGTCATTG 
    AAGCCAGAAG GAAATGTGGA TGAAGCTGAT GGCTTAGAAA CAGAAGTACT GCAAGAGCCA 
    AGTGGAGCAA GCAAAGATGG TAGCATGCCA TGCACAATTA TTGATGTGTG GATTAGTGAG 
    ATAAAAGAAA CAAAGGAAAC TGAGTTGGAA GATAAGATCC CTGTTCAGCA AAATGAAGTT 
    TCTGAAGATG AAATCCCAAG GAATGTGGAC CACCTTAGTG AAGTCGATAT AAGACCTGAA 
    ATAGGTGATT CTCAGCACTC TAAATGTGAT GTTGATAAAT CTGTGCAACC AGAACCATTT 
    TTCCATAGAG TGGTTCTTTC AAAACACTTG AATGTAGTCT CTCAAATACA GTCAATTCTT 
    TGTTCACCAG AAGAATCCTT TCTGCTTCGA TCTCGCTCTG ATTCACCACC AAAAAATAAA 
    GACCAGAATT CCTTGCTGAT TGGACTTTCA ACCGGTCTGT TTGATGCAAA CAACCCAAAG 
    ATGTTGAGGA CATGTTCACT TCCAGATCTC TCAAAGTTGT TCAGAACACT GATGGATGTT 
    CCCACTGTAG GAGATGTATG TCAAGACAAT CTTGAAATAG ATGAAATTGA AGATGAGCAT 
    ATTAAAGAAG GACCTTCTGA TTCTGAAGAC ATTGTTTTCG AAGAAACTGA CACAGATTTA 
    CAAGAGCTTC AGGCCTCTAT GGAACAATTA CTTAGAGAAC AACCTGGAGA AGAATACAGT 
    GAGGAGGAAG AATCAGTCTT AAAGAACAGT GACATAGAGC AGACTGCAAA TGGGACAGAT 
    CTGGCAGATG AGGATGACAA TCCCAGCAGT GAAAGTGCCC TAAATGAAGA ATGGCACTCA 
    GATAACAGTG ATGGTGAGAT TACTAGTGAA TGTGAATATG ATAGTGTCTT TAACCATTTA 
    GAGGAACTGA GACTTCACCT GGAGCAGGAA ATAGGCTTTG AAAAATTCTT TGAGGTTTAT 
    GAGAAAATAA AAGCTATTCA TGAAGATGAA GATGAAAATA TTGAGATATG TTCAACAATA 
    GTTCAGGATA TTTTAGGAAA TGAACATGAA CATCTTTATG CCAAGATTCT TCATTTAGTC 
    ATGGCAGATG GAGCCTATCA AGAAGATAAT GATGAATAA

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

    RefSeq XP_011221887.1
    CDS310..4008
    Translation

    Target ORF information:

    RefSeq Version XM_011223585.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011223585.2

    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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGTA TATCTGGCAA GACTGAGGCA AATAAGACTG 
    CAGAATTTCA ATGAGCGCCA ACAGATTAAA GCCAAACTTC GTGGTGAAAA GAAAGAAGCT 
    GATTATTCCG AAGGACAAGA AGGAAGTGAG GAGGCTGACG TGCGGCGTAA AAAAGTTGAA 
    GCGTTTAAGG CCCAAGCAAG TGCACGTGCT GCTGTACTAA AAGAACAATT AGAACGAAAG 
    AGAAAGGAAG CATATGAGAG AGAAAAGAAA GTCTGGGAAG AGCATTTGGT GGCCAAAGGA 
    GTAAAGAATT CTGATATGTC TCCACCTTTG GGACAACATG AAGCAGGTGG CTCTCCATTG 
    AAGCAACAGA TGAGATCTGT TATTTCTGTG ACTTCAGCTT TAAAAGAAGT GGGTATGGAC 
    AGAAGTTTAA CTGATACCCA GGAAACCTCA GAAGACATTC AGAAGACTAA CAATGCTATT 
    TCAAGTAAGC GAGAAATACT ACGTAGATTA AATCAAAATC TTAAAGCTCA AGAAGATGAA 
    AAAGGAAAGC AATGTCACTC TGATACGAGT GAGATAGTTG TTAATGAAGA TGCCAAAGAG 
    CGTGAAAAAG AAAAATCTGT TTCATCTGAT CGCAAGAAAT GGGAGGCAGG AGGTCAACTT 
    GTGATTCCTT TGGATGAGTT AACATTGGAC ACATCCTTCT CTGCAACTGA AAAACATACA 
    GTGGGAGAGG TTATTAAATT AGATCCTGGT GGCTCTCCAA GAAAAGTCTG GGGGAGAAGC 
    CCTACAGATT CAGTTCTAAA GATACTGGGA GAAGCTGAAC TACAACTTCA GACAGAACTA 
    TTGGAAAACA CAACCGTTAG AAGTGAGACT TCTCCTGAAA GGGAGAAGTA CAAACCTTTA 
    ATTACTGGAG AAGAAAAAGT AAAATATGTT TCACTTGAAA TGAATCCATC AGGTACTGTT 
    GGTTCTTCTG TTGAAACGAA CAGTCCAGAG TTCAGTGAGG CATCTCCACA GTCGTCATTG 
    AAGCCAGAAG GAAATGTGGA TGAAGCTGAT GGCTTAGAAA CAGAAGTACT GCAAGAGCCA 
    AGTGGAGCAA GCAAAGATGG TAGCATGCCA TGCACAATTA TTGATGTGTG GATTAGTGAG 
    ATAAAAGAAA CAAAGGAAAC TGAGTTGGAA GATAAGATCC CTGTTCAGCA AAATGAAGTT 
    TCTGAAGATG AAATCCCAAG GAATGTGGAC CACCTTAGTG AAGTCGATAT AAGACCTGAA 
    ATAGGTGATT CTCAGCACTC TAAATGTGAT GTTGATAAAT CTGTGCAACC AGAACCATTT 
    TTCCATAGAG TGGTTCTTTC AAAACACTTG AATGTAGTCT CTCAAATACA GTCAATTCTT 
    TGTTCACCAG AAGAATCCTT TCTGCTTCGA TCTCGCTCTG ATTCACCACC AAAAAATAAA 
    GACCAGAATT CCTTGCTGAT TGGACTTTCA ACCGGTCTGT TTGATGCAAA CAACCCAAAG 
    ATGTTGAGGA CATGTTCACT TCCAGATCTC TCAAAGTTGT TCAGAACACT GATGGATGTT 
    CCCACTGTAG GAGATGTATG TCAAGACAAT CTTGAAATAG ATGAAATTGA AGATGAGCAT 
    ATTAAAGAAG GACCTTCTGA TTCTGAAGAC ATTGTTTTCG AAGAAACTGA CACAGATTTA 
    CAAGAGCTTC AGGCCTCTAT GGAACAATTA CTTAGAGAAC AACCTGGAGA AGAATACAGT 
    GAGGAGGAAG AATCAGTCTT AAAGAACAGT GACATAGAGC AGACTGCAAA TGGGACAGAT 
    CTGGCAGATG AGGATGACAA TCCCAGCAGT GAAAGTGCCC TAAATGAAGA ATGGCACTCA 
    GATAACAGTG ATGGTGAGAT TACTAGTGAA TGTGAATATG ATAGTGTCTT TAACCATTTA 
    GAGGAACTGA GACTTCACCT GGAGCAGGAA ATAGGCTTTG AAAAATTCTT TGAGGTTTAT 
    GAGAAAATAA AAGCTATTCA TGAAGATGAA GATGAAAATA TTGAGATATG TTCAACAATA 
    GTTCAGGATA TTTTAGGAAA TGAACATGAA CATCTTTATG CCAAGATTCT TCATTTAGTC 
    ATGGCAGATG GAGCCTATCA AGAAGATAAT GATGAATAA

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

    NEK1 ( XM_019798523.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654082.1 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAc92042
    Clone ID Related Accession (Same CDS sequence) XM_019798523.1
    Accession Version XM_019798523.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3774bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product serine/threonine-protein kinase Nek1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217532.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGACAGAAG TTTAACTGAT ACCCAGGAAA CCTCAGAAGA CATTCAGAAG 
    ACTAACAATG CTATTTCAAG TAAGCGAGAA ATACTACGTA GATTAAATCA AAATCTTAAA 
    GCTCAAGAAG ATGAAAAAGG AAAGCAATGT CACTCTGATA CGAGTGAGAT AGTTGTTAAT 
    GAAGATGCCA AAGAGCGTGA AAAAGAAAAA TCTGTTTCAT CTGATCGCAA GAAATGGGAG 
    GCAGGAGGTC AACTTGTGAT TCCTTTGGAT GAGTTAACAT TGGACACATC CTTCTCTGCA 
    ACTGAAAAAC ATACAGTGGG AGAGGTTATT AAATTAGATC CTGGTGGCTC TCCAAGAAAA 
    GTCTGGGGGA GAAGCCCTAC AGATTCAGTT CTAAAGATAC TGGGAGAAGC TGAACTACAA 
    CTTCAGACAG AACTATTGGA AAACACAACC GTTAGAAGTG AGACTTCTCC TGAAAGGGAG 
    AAGTACAAAC CTTTAATTAC TGGAGAAGAA AAAGTAAAAT ATGTTTCACT TGAAATGAAT 
    CCATCAGGTA CTGTTGGTTC TTCTGTTGAA ACGAACAGTC CAGAGTTCAG TGAGGCATCT 
    CCACAGTCGT CATTGAAGCC AGAAGGAAAT GTGGATGAAG CTGATGGCTT AGAAACAGAA 
    GTACTGCAAG AGCCAAGTGG AGCAAGCAAA GATGGTAGCA TGCCATGCAC AATTATTGAT 
    GTGTGGATTA GTGAGATAAA AGAAACAAAG GAAACTGAGT TGGAAGATAA GATCCCTGTT 
    CAGCAAAATG AAGTTTCTGA AGATGAAATC CCAAGGAATG TGGACCACCT TAGTGAAGTC 
    GATATAAGAC CTGAAATAGG TGATTCTCAG CACTCTAAAT GTGATGTTGA TAAATCTGTG 
    CAACCAGAAC CATTTTTCCA TAGAGTGGTT CTTTCAAAAC ACTTGAATGT AGTCTCTCAA 
    ATACAGTCAA TTCTTTGTTC ACCAGAAGAA TCCTTTCTGC TTCGATCTCG CTCTGATTCA 
    CCACCAAAAA ATAAAGACCA GAATTCCTTG CTGATTGGAC TTTCAACCGG TCTGTTTGAT 
    GCAAACAACC CAAAGATGTT GAGGACATGT TCACTTCCAG ATCTCTCAAA GTTGTTCAGA 
    ACACTGATGG ATGTTCCCAC TGTAGGAGAT GTATGTCAAG ACAATCTTGA AATAGATGAA 
    ATTGAAGATG AGCATATTAA AGAAGGACCT TCTGATTCTG AAGACATTGT TTTCGAAGAA 
    ACTGACACAG ATTTACAAGA GCTTCAGGCC TCTATGGAAC AATTACTTAG AGAACAACCT 
    GGAGAAGAAT ACAGTGAGGA GGAAGAATCA GTCTTAAAGA ACAGTGACAT AGAGCAGACT 
    GCAAATGGGA CAGATCTGGC AGATGAGGAT GACAATCCCA GCAGTGAAAG TGCCCTAAAT 
    GAAGAATGGC ACTCAGATAA CAGTGATGGT GAGATTACTA GTGAATGTGA ATATGATAGT 
    GTCTTTAACC ATTTAGAGGA ACTGAGACTT CACCTGGAGC AGGAAATAGG CTTTGAAAAA 
    TTCTTTGAGG TTTATGAGAA AATAAAAGCT ATTCATGAAG ATGAAGATGA AAATATTGAG 
    ATATGTTCAA CAATAGTTCA GGATATTTTA GGAAATGAAC ATGAACATCT TTATGCCAAG 
    ATTCTTCATT TAGTCATGGC AGATGGAGCC TATCAAGAAG ATAATGATGA ATAA

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

    RefSeq XP_019654082.1
    CDS310..4083
    Translation

    Target ORF information:

    RefSeq Version XM_019798523.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019798523.1

    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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGACAGAAG TTTAACTGAT ACCCAGGAAA CCTCAGAAGA CATTCAGAAG 
    ACTAACAATG CTATTTCAAG TAAGCGAGAA ATACTACGTA GATTAAATCA AAATCTTAAA 
    GCTCAAGAAG ATGAAAAAGG AAAGCAATGT CACTCTGATA CGAGTGAGAT AGTTGTTAAT 
    GAAGATGCCA AAGAGCGTGA AAAAGAAAAA TCTGTTTCAT CTGATCGCAA GAAATGGGAG 
    GCAGGAGGTC AACTTGTGAT TCCTTTGGAT GAGTTAACAT TGGACACATC CTTCTCTGCA 
    ACTGAAAAAC ATACAGTGGG AGAGGTTATT AAATTAGATC CTGGTGGCTC TCCAAGAAAA 
    GTCTGGGGGA GAAGCCCTAC AGATTCAGTT CTAAAGATAC TGGGAGAAGC TGAACTACAA 
    CTTCAGACAG AACTATTGGA AAACACAACC GTTAGAAGTG AGACTTCTCC TGAAAGGGAG 
    AAGTACAAAC CTTTAATTAC TGGAGAAGAA AAAGTAAAAT ATGTTTCACT TGAAATGAAT 
    CCATCAGGTA CTGTTGGTTC TTCTGTTGAA ACGAACAGTC CAGAGTTCAG TGAGGCATCT 
    CCACAGTCGT CATTGAAGCC AGAAGGAAAT GTGGATGAAG CTGATGGCTT AGAAACAGAA 
    GTACTGCAAG AGCCAAGTGG AGCAAGCAAA GATGGTAGCA TGCCATGCAC AATTATTGAT 
    GTGTGGATTA GTGAGATAAA AGAAACAAAG GAAACTGAGT TGGAAGATAA GATCCCTGTT 
    CAGCAAAATG AAGTTTCTGA AGATGAAATC CCAAGGAATG TGGACCACCT TAGTGAAGTC 
    GATATAAGAC CTGAAATAGG TGATTCTCAG CACTCTAAAT GTGATGTTGA TAAATCTGTG 
    CAACCAGAAC CATTTTTCCA TAGAGTGGTT CTTTCAAAAC ACTTGAATGT AGTCTCTCAA 
    ATACAGTCAA TTCTTTGTTC ACCAGAAGAA TCCTTTCTGC TTCGATCTCG CTCTGATTCA 
    CCACCAAAAA ATAAAGACCA GAATTCCTTG CTGATTGGAC TTTCAACCGG TCTGTTTGAT 
    GCAAACAACC CAAAGATGTT GAGGACATGT TCACTTCCAG ATCTCTCAAA GTTGTTCAGA 
    ACACTGATGG ATGTTCCCAC TGTAGGAGAT GTATGTCAAG ACAATCTTGA AATAGATGAA 
    ATTGAAGATG AGCATATTAA AGAAGGACCT TCTGATTCTG AAGACATTGT TTTCGAAGAA 
    ACTGACACAG ATTTACAAGA GCTTCAGGCC TCTATGGAAC AATTACTTAG AGAACAACCT 
    GGAGAAGAAT ACAGTGAGGA GGAAGAATCA GTCTTAAAGA ACAGTGACAT AGAGCAGACT 
    GCAAATGGGA CAGATCTGGC AGATGAGGAT GACAATCCCA GCAGTGAAAG TGCCCTAAAT 
    GAAGAATGGC ACTCAGATAA CAGTGATGGT GAGATTACTA GTGAATGTGA ATATGATAGT 
    GTCTTTAACC ATTTAGAGGA ACTGAGACTT CACCTGGAGC AGGAAATAGG CTTTGAAAAA 
    TTCTTTGAGG TTTATGAGAA AATAAAAGCT ATTCATGAAG ATGAAGATGA AAATATTGAG 
    ATATGTTCAA CAATAGTTCA GGATATTTTA GGAAATGAAC ATGAACATCT TTATGCCAAG 
    ATTCTTCATT TAGTCATGGC AGATGGAGCC TATCAAGAAG ATAATGATGA ATAA

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

    NEK1 ( XM_019798524.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654083.1 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAc92043
    Clone ID Related Accession (Same CDS sequence) XM_019798524.1
    Accession Version XM_019798524.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product serine/threonine-protein kinase Nek1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217532.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGTGGGTAT GGACAGAAGT TTAACTGATA CCCAGGAAAC CTCAGAAGAC 
    ATTCAGAAGA CTAACAATGC TATTTCAAGT AAGCGAGAAA TACTACGTAG ATTAAATCAA 
    AATCTTAAAG CTCAAGAAGA TGAAAAAGGA AAGCAATGTC ACTCTGATAC GAGTGAGATA 
    GTTGTTAATG AAGATGCCAA AGAGCGTGAA AAAGAAAAAT CTGTTTCATC TGATCGCAAG 
    AAATGGGAGG CAGGAGGTCA ACTTGTGATT CCTTTGGATG AGTTAACATT GGACACATCC 
    TTCTCTGCAA CTGAAAAACA TACAGTGGGA GAGGTTATTA AATTAGATCC TGGTGGCTCT 
    CCAAGAAAAG TCTGGGGGAG AAGCCCTACA GATTCAGTTC TAAAGATACT GGGAGAAGCT 
    GAACTACAAC TTCAGACAGA ACTATTGGAA AACACAACCG TTAGAAGTGA GACTTCTCCT 
    GAAAGGGAGA AGTACAAACC TTTAATTACT GGAGAAGAAA AAGTAAAATA TGTTTCACTT 
    GAAATGAATC CATCAGGTAC TGTTGGTTCT TCTGTTGAAA CGAACAGTCC AGAGTTCAGT 
    GAGGCATCTC CACAGTCGTC ATTGAAGCCA GAAGGAAATG TGGATGAAGC TGATGGCTTA 
    GAAACAGAAG TACTGCAAGA GCCAAGTGGA GCAAGCAAAG ATGGTAGCAT GCCATGCACA 
    ATTATTGATG TGTGGATTAG TGAGATAAAA GAAACAAAGG AAACTGAGTT GGAAGATAAG 
    ATCCCTGTTC AGCAAAATGA AGTTTCTGAA GATGAAATCC CAAGGAATGT GGACCACCTT 
    AGTGAAGTCG ATATAAAAGA ATCCTTTCTG CTTCGATCTC GCTCTGATTC ACCACCAAAA 
    AATAAAGACC AGAATTCCTT GCTGATTGGA CTTTCAACCG GTCTGTTTGA TGCAAACAAC 
    CCAAAGATGT TGAGGACATG TTCACTTCCA GATCTCTCAA AGTTGTTCAG AACACTGATG 
    GATGTTCCCA CTGTAGGAGA TGTATGTCAA GACAATCTTG AAATAGATGA AATTGAAGAT 
    GAGCATATTA AAGAAGGACC TTCTGATTCT GAAGACATTG TTTTCGAAGA AACTGACACA 
    GATTTACAAG AGCTTCAGGC CTCTATGGAA CAATTACTTA GAGAACAACC TGGAGAAGAA 
    TACAGTGAGG AGGAAGAATC AGTCTTAAAG AACAGTGACA TAGAGCAGAC TGCAAATGGG 
    ACAGATCTGG CAGATGAGGA TGACAATCCC AGCAGTGAAA GTGCCCTAAA TGAAGAATGG 
    CACTCAGATA ACAGTGATGG TGAGATTACT AGTGAATGTG AATATGATAG TGTCTTTAAC 
    CATTTAGAGG AACTGAGACT TCACCTGGAG CAGGAAATAG GCTTTGAAAA ATTCTTTGAG 
    GTTTATGAGA AAATAAAAGC TATTCATGAA GATGAAGATG AAAATATTGA GATATGTTCA 
    ACAATAGTTC AGGATATTTT AGGAAATGAA CATGAACATC TTTATGCCAA GATTCTTCAT 
    TTAGTCATGG CAGATGGAGC CTATCAAGAA GATAATGATG AATAA

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

    RefSeq XP_019654083.1
    CDS310..3954
    Translation

    Target ORF information:

    RefSeq Version XM_019798524.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019798524.1

    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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGTGGGTAT GGACAGAAGT TTAACTGATA CCCAGGAAAC CTCAGAAGAC 
    ATTCAGAAGA CTAACAATGC TATTTCAAGT AAGCGAGAAA TACTACGTAG ATTAAATCAA 
    AATCTTAAAG CTCAAGAAGA TGAAAAAGGA AAGCAATGTC ACTCTGATAC GAGTGAGATA 
    GTTGTTAATG AAGATGCCAA AGAGCGTGAA AAAGAAAAAT CTGTTTCATC TGATCGCAAG 
    AAATGGGAGG CAGGAGGTCA ACTTGTGATT CCTTTGGATG AGTTAACATT GGACACATCC 
    TTCTCTGCAA CTGAAAAACA TACAGTGGGA GAGGTTATTA AATTAGATCC TGGTGGCTCT 
    CCAAGAAAAG TCTGGGGGAG AAGCCCTACA GATTCAGTTC TAAAGATACT GGGAGAAGCT 
    GAACTACAAC TTCAGACAGA ACTATTGGAA AACACAACCG TTAGAAGTGA GACTTCTCCT 
    GAAAGGGAGA AGTACAAACC TTTAATTACT GGAGAAGAAA AAGTAAAATA TGTTTCACTT 
    GAAATGAATC CATCAGGTAC TGTTGGTTCT TCTGTTGAAA CGAACAGTCC AGAGTTCAGT 
    GAGGCATCTC CACAGTCGTC ATTGAAGCCA GAAGGAAATG TGGATGAAGC TGATGGCTTA 
    GAAACAGAAG TACTGCAAGA GCCAAGTGGA GCAAGCAAAG ATGGTAGCAT GCCATGCACA 
    ATTATTGATG TGTGGATTAG TGAGATAAAA GAAACAAAGG AAACTGAGTT GGAAGATAAG 
    ATCCCTGTTC AGCAAAATGA AGTTTCTGAA GATGAAATCC CAAGGAATGT GGACCACCTT 
    AGTGAAGTCG ATATAAAAGA ATCCTTTCTG CTTCGATCTC GCTCTGATTC ACCACCAAAA 
    AATAAAGACC AGAATTCCTT GCTGATTGGA CTTTCAACCG GTCTGTTTGA TGCAAACAAC 
    CCAAAGATGT TGAGGACATG TTCACTTCCA GATCTCTCAA AGTTGTTCAG AACACTGATG 
    GATGTTCCCA CTGTAGGAGA TGTATGTCAA GACAATCTTG AAATAGATGA AATTGAAGAT 
    GAGCATATTA AAGAAGGACC TTCTGATTCT GAAGACATTG TTTTCGAAGA AACTGACACA 
    GATTTACAAG AGCTTCAGGC CTCTATGGAA CAATTACTTA GAGAACAACC TGGAGAAGAA 
    TACAGTGAGG AGGAAGAATC AGTCTTAAAG AACAGTGACA TAGAGCAGAC TGCAAATGGG 
    ACAGATCTGG CAGATGAGGA TGACAATCCC AGCAGTGAAA GTGCCCTAAA TGAAGAATGG 
    CACTCAGATA ACAGTGATGG TGAGATTACT AGTGAATGTG AATATGATAG TGTCTTTAAC 
    CATTTAGAGG AACTGAGACT TCACCTGGAG CAGGAAATAG GCTTTGAAAA ATTCTTTGAG 
    GTTTATGAGA AAATAAAAGC TATTCATGAA GATGAAGATG AAAATATTGA GATATGTTCA 
    ACAATAGTTC AGGATATTTT AGGAAATGAA CATGAACATC TTTATGCCAA GATTCTTCAT 
    TTAGTCATGG CAGATGGAGC CTATCAAGAA GATAATGATG AATAA

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

    NEK1 ( XM_019798525.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654084.1 Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OAc92044
    Clone ID Related Accession (Same CDS sequence) XM_019798525.1
    Accession Version XM_019798525.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3606bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product serine/threonine-protein kinase Nek1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217532.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGTGGGTAT GGACAGAAGT TTAACTGATA CCCAGGAAAC CTCAGAAGAC 
    ATTCAGAAGA CTAACAATGC TATTTCAAGT AAGCGAGAAA TACTACGTAG ATTAAATCAA 
    AATCTTAAAG CTCAAGAAGA TGAAAAAGGA AAGCAATGTC ACTCTGATAC GAGTGAGATA 
    GTTGTTAATG AAGATGCCAA AGAGCGTGAA AAAGAAAAAT CTGTTTCATC TGATCGCAAG 
    AAATGGGAGG CAGGAGGTCA ACTTGTGATT CCTTTGGATG AGTTAACATT GGACACATCC 
    TTCTCTGCAA CTGAAAAACA TACAGTGGGA GAGGTTATTA AATTAGATCC TGGTGGCTCT 
    CCAAGAAAAG TCTGGGGGAG AAGCCCTACA GATTCAGTTC TAAAGATACT GGGAGAAGCT 
    GAACTACAAC TTCAGACAGA ACTATTGGAA AACACAACCG TTAGAAGTGA AGCTGATGGC 
    TTAGAAACAG AAGTACTGCA AGAGCCAAGT GGAGCAAGCA AAGATGGTAG CATGCCATGC 
    ACAATTATTG ATGTGTGGAT TAGTGAGATA AAAGAAACAA AGGAAACTGA GTTGGAAGAT 
    AAGATCCCTG TTCAGCAAAA TGAAGTTTCT GAAGATGAAA TCCCAAGGAA TGTGGACCAC 
    CTTAGTGAAG TCGATATAAG ACCTGAAATA GGTGATTCTC AGCACTCTAA ATGTGATGTT 
    GATAAATCTG TGCAACCAGA ACCATTTTTC CATAGAGTGG TTCTTTCAAA ACACTTGAAT 
    GTAGTCTCTC AAATACAGTC AATTCTTTGT TCACCAGAAG AATCCTTTCT GCTTCGATCT 
    CGCTCTGATT CACCACCAAA AAATAAAGAC CAGAATTCCT TGCTGATTGG ACTTTCAACC 
    GGTCTGTTTG ATGCAAACAA CCCAAAGATG TTGAGGACAT GTTCACTTCC AGATCTCTCA 
    AAGTTGTTCA GAACACTGAT GGATGTTCCC ACTGTAGGAG ATGTATGTCA AGACAATCTT 
    GAAATAGATG AAATTGAAGA TGAGCATATT AAAGAAGGAC CTTCTGATTC TGAAGACATT 
    GTTTTCGAAG AAACTGACAC AGATTTACAA GAGCTTCAGG CCTCTATGGA ACAATTACTT 
    AGAGAACAAC CTGGAGAAGA ATACAGTGAG GAGGAAGAAT CAGTCTTAAA GAACAGTGAC 
    ATAGAGCAGA CTGCAAATGG GACAGATCTG GCAGATGAGG ATGACAATCC CAGCAGTGAA 
    AGTGCCCTAA ATGAAGAATG GCACTCAGAT AACAGTGATG GTGAGATTAC TAGTGAATGT 
    GAATATGATA GTGTCTTTAA CCATTTAGAG GAACTGAGAC TTCACCTGGA GCAGGAAATA 
    GGCTTTGAAA AATTCTTTGA GGTTTATGAG AAAATAAAAG CTATTCATGA AGATGAAGAT 
    GAAAATATTG AGATATGTTC AACAATAGTT CAGGATATTT TAGGAAATGA ACATGAACAT 
    CTTTATGCCA AGATTCTTCA TTTAGTCATG GCAGATGGAG CCTATCAAGA AGATAATGAT 
    GAATAA

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

    RefSeq XP_019654084.1
    CDS310..3915
    Translation

    Target ORF information:

    RefSeq Version XM_019798525.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca NIMA related kinase 1 (NEK1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019798525.1

    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
    ATGGAAATAG AAGACTGCAA GTTAGCGTAT CTGTTAAGAT GCCTTAGAAA AAGAATCATG 
    GAGAAGTATG TTAGACTACA GAAGATTGGA GAAGGTTCAT TTGGAAAAGC CATTCTTGTT 
    AAATCTACAG AAGATGGCAG GCAATATGTT ATCAAAGAAA TTAACATCTC AAGAATGTCC 
    AATAAAGAAA GGGAAGAATC AAGGAGAGAA GTTGCAGTAT TGGCAAACAT GAAGCATCCA 
    AATATTGTCC AGTATAGAGA ATCATTTGAA GAAAATGGCT CCCTGTACAT AGTGATGGAT 
    TACTGTGAAG GAGGCGATCT GTTTAAACGA ATTAATGCTC AGAAAGGCAT TTTGTTTCAA 
    GAGGATCAGA TTTTGGACTG GTTTGTACAG ATATGTCTGG CCTTGAAACA TGTACATGAT 
    CGAAAAATTC TTCATCGAGA CATAAAGTCC CAGAATATAT TTTTAACCAA AGATGGGACT 
    ATACAACTTG GAGATTTTGG AATCGCTCGA GTACTTAATA GTACTGTGGA GCTGGCTCGA 
    ACTTGCATAG GGACCCCTTA CTACTTGTCA CCGGAAATCT GTGAAAACAA ACCTTACAAC 
    AATAAAAGTG ACATTTGGGC TCTGGGGTGT GTCTTATATG AGATGTGTAC ACTTAAACAT 
    GCATTTGAAG CTGGCAATAT GAAAAACCTG GTACTGAAGA TAATATCTGG ATCTTTTCCA 
    CCTGTATCAT TACATTATTC TTATGATCTC CGCAATTTAC TGTCTCAGTT ATTTAAAAGA 
    AATCCTAGGG ATAGACCATC AGTCAACTCC ATATTGGAGA AAGGTTTTAT AGCCAAACGC 
    ATTGAAAAGT TTCTCTCGCC TCAGCTTATT GCAGAAGAAT TTTGTCTAAA AACATTTTCC 
    AAGTTTGGAG CGCAGCCTGT ACCAGCGAAA AGACCAGCTT CAGGACAAAG CTTGGCTTCT 
    GTTGTGTCTG CTCAGAAAAT TACAAAACCT GCTGCTAAAT ATGGAGTGCC TTTAACATAT 
    AAGAAATTTG GAGATAAAAA AGTACATGAA AAGAAACCAC TCCAGAAACA TAAACAGGCC 
    CATCAAATTC CAGTGAAGAA AGTGAATCCT GGAGAAGAAA GGAGGAAAAT GTTTGAGGAA 
    GCAGCAAGAA AGAGAAGGTT GGAATTTATT GAAAAAGAAA AGAAACAAAA GGATCAGATT 
    AGTTTAATGA AGGCCGAGCA GATGAAAAGA CAGGAAAAGG AAAGGTTGGA GAGAATAAAT 
    AGGGCCAGGG AACAAGGATG GAGAAACGTG CTAAGTGCTG GTGGAAGTGG TGAAGTAAAG 
    GCTCCCTTTT TTGGCAGTGG AGGGGCTGTG GCTCCATCAT CTTTTTCTTC TCGAGGACAG 
    TATGAACATT ATCATGCTGT TTTTGATCAA ATGCAGCAAC AAAGAGCAGA AAATAATGAA 
    ACTAAATGGA GAGGAGAAAT ATATGGCCGA AGACATCCAG AAAGGCAAAA GGGGCAGCTA 
    GCTGTGGAAA GAGCTAAACA AGTGGAAGAG TTCCTACAGC GAAAACGGGA AGCACGGCAA 
    AATAAAGCTC GAGCCGAAGG ACATATGGGA ATCCTGCAAA ACCTGGCAGC TATGTATGGA 
    GGCAGGTCCA GCTCTTCAAG AGGAGGGAAG CCAAGAAACA AAGAGGAAGA GGTATATCTG 
    GCAAGACTGA GGCAAATAAG ACTGCAGAAT TTCAATGAGC GCCAACAGAT TAAAGCCAAA 
    CTTCGTGGTG AAAAGAAAGA AGCTGATTAT TCCGAAGGAC AAGAAGGAAG TGAGGAGGCT 
    GACGTGCGGC GTAAAAAAGT TGAAGCGTTT AAGGCCCAAG CAAGTGCACG TGCTGCTGTA 
    CTAAAAGAAC AATTAGAACG AAAGAGAAAG GAAGCATATG AGAGAGAAAA GAAAGTCTGG 
    GAAGAGCATT TGGTGGCCAA AGGAGTAAAG AATTCTGATA TGTCTCCACC TTTGGGACAA 
    CATGAAGCAG GTGGCTCTCC ATTGAAGCAA CAGATGAGAT CTGTTATTTC TGTGACTTCA 
    GCTTTAAAAG AAGTGGGTAT GGACAGAAGT TTAACTGATA CCCAGGAAAC CTCAGAAGAC 
    ATTCAGAAGA CTAACAATGC TATTTCAAGT AAGCGAGAAA TACTACGTAG ATTAAATCAA 
    AATCTTAAAG CTCAAGAAGA TGAAAAAGGA AAGCAATGTC ACTCTGATAC GAGTGAGATA 
    GTTGTTAATG AAGATGCCAA AGAGCGTGAA AAAGAAAAAT CTGTTTCATC TGATCGCAAG 
    AAATGGGAGG CAGGAGGTCA ACTTGTGATT CCTTTGGATG AGTTAACATT GGACACATCC 
    TTCTCTGCAA CTGAAAAACA TACAGTGGGA GAGGTTATTA AATTAGATCC TGGTGGCTCT 
    CCAAGAAAAG TCTGGGGGAG AAGCCCTACA GATTCAGTTC TAAAGATACT GGGAGAAGCT 
    GAACTACAAC TTCAGACAGA ACTATTGGAA AACACAACCG TTAGAAGTGA AGCTGATGGC 
    TTAGAAACAG AAGTACTGCA AGAGCCAAGT GGAGCAAGCA AAGATGGTAG CATGCCATGC 
    ACAATTATTG ATGTGTGGAT TAGTGAGATA AAAGAAACAA AGGAAACTGA GTTGGAAGAT 
    AAGATCCCTG TTCAGCAAAA TGAAGTTTCT GAAGATGAAA TCCCAAGGAA TGTGGACCAC 
    CTTAGTGAAG TCGATATAAG ACCTGAAATA GGTGATTCTC AGCACTCTAA ATGTGATGTT 
    GATAAATCTG TGCAACCAGA ACCATTTTTC CATAGAGTGG TTCTTTCAAA ACACTTGAAT 
    GTAGTCTCTC AAATACAGTC AATTCTTTGT TCACCAGAAG AATCCTTTCT GCTTCGATCT 
    CGCTCTGATT CACCACCAAA AAATAAAGAC CAGAATTCCT TGCTGATTGG ACTTTCAACC 
    GGTCTGTTTG ATGCAAACAA CCCAAAGATG TTGAGGACAT GTTCACTTCC AGATCTCTCA 
    AAGTTGTTCA GAACACTGAT GGATGTTCCC ACTGTAGGAG ATGTATGTCA AGACAATCTT 
    GAAATAGATG AAATTGAAGA TGAGCATATT AAAGAAGGAC CTTCTGATTC TGAAGACATT 
    GTTTTCGAAG AAACTGACAC AGATTTACAA GAGCTTCAGG CCTCTATGGA ACAATTACTT 
    AGAGAACAAC CTGGAGAAGA ATACAGTGAG GAGGAAGAAT CAGTCTTAAA GAACAGTGAC 
    ATAGAGCAGA CTGCAAATGG GACAGATCTG GCAGATGAGG ATGACAATCC CAGCAGTGAA 
    AGTGCCCTAA ATGAAGAATG GCACTCAGAT AACAGTGATG GTGAGATTAC TAGTGAATGT 
    GAATATGATA GTGTCTTTAA CCATTTAGAG GAACTGAGAC TTCACCTGGA GCAGGAAATA 
    GGCTTTGAAA AATTCTTTGA GGTTTATGAG AAAATAAAAG CTATTCATGA AGATGAAGAT 
    GAAAATATTG AGATATGTTC AACAATAGTT CAGGATATTT TAGGAAATGA ACATGAACAT 
    CTTTATGCCA AGATTCTTCA TTTAGTCATG GCAGATGGAG CCTATCAAGA AGATAATGAT 
    GAATAA

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

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