ORF » Species Summary » Alligator mississippiensis » CEP162 cDNA ORF clone

CEP162 cDNA ORF clone, Alligator mississippiensis(American alligator)

The following CEP162 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CEP162 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
OAl67992 XM_019496857.1
Latest version!		 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OAl67992 XM_019496856.1
Latest version!		 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OAl67993 XM_019496858.1
Latest version!		 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OAl67994 XM_019496859.1
Latest version!		 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OAl67995 XM_019496860.1
Latest version!		 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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)
    CEP162 ( XM_019496856.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019352401.1 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl67992
    Clone ID Related Accession (Same CDS sequence) XM_019496856.1 , XM_019496857.1
    Accession Version XM_019496856.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4296bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product centrosomal protein of 162 kDa isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712464.1) 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 :: Alligator mississippiensis 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCTCATC GGTTTTCAAA AGAAGAACTA GATGAGCAAT TTGAACAGTT TCTGAAAGAG 
    TCTCTTTCAG ATGATTCGTT TGGACATTCA AAAGAAAAGT CCAGTGTTCT TGAGACACTG 
    GGGAAACCCA GTAGGAAAGA ATCGAAAAAA AAAGATGCTG TGCCATGGTG GATAGCTGAG 
    GATGATTCTG ATGATGGTGG AATGCTTGGG ACAAATGGAA GCTTTCTCAA GTCACAAAAG 
    AGTTCCCAGC CCCTTGCAGA AACAGATGAG GGTGCTCGTG TAGAAATGAT GCAGCTTCAA 
    AAAAATGATG GTGTTTCTGT TTCCTTAAGC AGAGATAGCT TGGAAACTAA TGATTCAGTT 
    GTGGCCTCTG GGCCTAATCC AAGCATTTTA GGAGTTGGAT TGGATACTTT GGAAGAACAA 
    GAAGAAAAAG AGAGGTTCTT TGCCAAACTT GAGAAAGGAG CTTCATCTAC CATTGATTAT 
    TCAAGATTAA ACAAAGAGCT GGATTCTAAT GATTCTCTGG TATTAGCACC ATTTAGCCGG 
    AATGAACAGG CTGTTGAACA AATGGAAGAG GAAAAGGAAT CTAAACACAA CGAGAGATCT 
    GAAGATTATA GTGAAGATTT TGCAGACGAG GAAGATGCTA TTACTCCTTC TAAAAGTGAA 
    AATAATCAAG TTAAACAAAC GACAAGATCA GATGATGACT TAAGTGTCCA ACGACAGGAA 
    GAAACACCTG GGATGCTGGC TAAAGTTGTA TTGCTTGATT CACAAGACTC TACTATGGAA 
    GTTCAGAAGG TCTCTGAACA ACAGGGTGTA GCTGTGACTG AACATCAAAC ATCTCAAGAA 
    GTTGCTGAGA GTAAAATGAA CAGGAGTGGT GTTTCCTGTG TGCAAACTAA CAGTGACATT 
    GAAGCATTAC ATCAGGCATA TTATCATATT GATCAGTCTT TAGGAGACAC AGATGAACAA 
    AGAATTCATA TCGGTGTAAT GGAAAATATA GAATGCTTTG TCCAGGATGG TTCACAAAAT 
    AATGAAGCTG GTGCAAAAAA TGCTTCAACT ACTGAATCAG ATTTACCTAC TATAGAAGAG 
    TTAATGAAAC CTATTAAAGC AGATTCATCG TATGCCAGAG GCTTTGACCT GGAGTCTATA 
    AGCAGAATGA AACCAGCAGA CAGCAAAGCA GATGAATGTG TCAGCCATTT GCCATTTAAA 
    GAGAACCAAT ATGATACAGA TGTAGAGAAA CAAAGTTTAG ATGTTTTGTT TAAAGAACAT 
    AATAAAGAAG AGAACAATTT TCTGTGGGCA GCTGTAAATG ATGGTAGTGA AAGTAGCAAT 
    CAAAAAAGGA CTGAGAGAGA AGTCCAGACT GAGAGAGTGC AGCTCAACAT ACTGAGACAA 
    AAGTTAGCAC AAAATTCTAT CCTGTTGCGT CAAGATGAAA AAATGAATCA AGCACATCTG 
    TCCAGCTCTT GGAAGCATGA TGGATTACAA TCAGTGACCA ATAAACAAAC AGTGTACAAG 
    AACACTAGAA ATACTGCTTC TTTACATAAG AGGAAATCTG TATATGGAGC AGTTAGAAGT 
    TCTGGATATG GTAAATCCAT TTCACCTTTA AAACAACTTT CCACAACTAT TGAAAAGAAA 
    ACATCAAAAG ATGCTTTCAG AAGGACAAGT TTAAAAGCTA AATCACCTGC AGATAAAGCA 
    AAGCCCAAAG AAACATTATT TACTACTAGG GTAATATCTG CAGTAAAGGA ACCAGCTTCT 
    AAAAAGGGTA TTAATGTGGT TACATCTGAC CACTCAGCTA TAAAAGACCT TGGGCAGCAG 
    ATGAAGGATG TGGATTCCTG TGTGCAGTTT CAACGTGATT CCTCATTTGT ATCTGTCAAC 
    AATAATGTGA GAGAGCTTTA TTTGTTAAGA AGAGTACAGG CAGCAGAGGA AGAGTTGAAT 
    TCAGCACATG ATGTAATTCA GCATTTAAAA GATGTGGTCT CTCAGAAAGA GAAGGAAATG 
    GAGAATAAGA TGGTGGAAAT GAAAATGCAG TCTGATAAAG AGCTTTCCCA GCTGAGTCAA 
    GAAAATTATG AACTTCAGAC CAAGTTAAAA AGTGTGGAGG AACTGAACAA AGGAAAGAAA 
    TGGTTCCAGC CAGAGATGAC AGATCCTATC ACTGAAGAAA AGTTAAAAGA AATACAGAAG 
    GAAATTCAAG ATCAAGAGAC CCTTCTTCAA GGTTATCAAC AGGAAAATGA AAGGTTATAC 
    AAGCAAGTGA AAGAGCTACA GCTACAAAAC AAGAAAAATG AGGAAAGGAT GTTTAAAGAA 
    AATCAATATT TAATGTCTGA ATTAGCATCC TTAAGAGAAA AGATGGATCA AAATAACTTC 
    CAGTCACAGT TAGTGCAGGA TTCTGAGCCA GTAAGAAACC AAAGTTTCTC AGAATTGATT 
    TCAGAACTTC GAGCAGCACA GAAAGAAGAA ACCAAACTGC TGGAAGAGAT AAAACGGCTT 
    AAACAAGACA AACAAGCCCT TGAAGTAGAT TTGGGACAAA TGAAAAGAGA AAGAGATCTG 
    GCAAGAACAC AGTTTTTTTC TGCTTCAGGC GAGAAGAATT ATGAGATAAA GATTATGGAA 
    GAATCATACA AACAAGAAAT TAGTAATTTG AAAAAGAGGT TGCAGTGGTA TGCAGAAAAT 
    CAAGACCTTT TGGATAAAGA TGCAGCACGT CTTAAAAATG CAAAAGAAGA AATTGAGAAA 
    TTAAAACTAC AGGTTGAGAA GCTCACAACA GAAGCTGGGA ATCGGTCTGT GCAACAGAAG 
    AAACGTTGGA AGGACAGGGC AGCAGATGCT AAAAGAATTC AAGATCTCGA GCGACAGATT 
    AAGGAAATGG AAGGGATTCT GAAGAGAAGG CATCCAAATT CATTGCCTGC TTTAATATAT 
    GCTGCTGCAG CAGCCTCTGA AGAAGTTGAT GTTTCAGCTA AGACCAATAC AATTGATTTT 
    CTAGAAAGAA GAATAAAAAA GTTAGAAACA GAGTTAGAGG GGAAAGATGA GGAAGCTAAG 
    AAAAGTCTCC GTGCTATGGA ACAACAATTT CAAAAAATAA AGCTTCAGTA TGAGCAAAGA 
    CTTATAGAGC TTGAAAAATT ACTTGCTTCG AAGTTGATGA ATGAACCCCA GAAATTGCAT 
    GACAACAAAT GCGGTTTTAT AACACTTGAG CAAGAACTTA ACAATGAAAG AGAGACCTAT 
    CAGATCACTA TAAAAAATCT TCAAACAGAA ATTGAAAATC TTAAAGATCA AAACTCTCAA 
    TTAAAACTGA AAAGTGAAAG AGGTGATAAA CATTTAGAGA ACCAGGTGGA ACAAGCTAGT 
    GCAAAAGCCA GGTTGGTAAA ATTAAATCAA GAACTGGTCA CCAAAAGTAA AGAAATACAG 
    GACCTTACAA AAACGGTGGA GAAGCTTCAG AGAGAGAGAA GGAGGATGCT GTGTGATCAG 
    AATTCAAATG ACAAAGCTGA CAACAGTGAA AAGTCCACAG AGATTTTACA GAAGGATACT 
    TCAGCAACAG ATAAAAGGAA ATCTAGCAAC CATGAACCTT TTCCCAACAC TCTCGATGAA 
    AAAATATATC AACCACATAC CTTTGCTGAT CCCCATATTT CAGAAGTTCT GCAAGAAAAT 
    GCAAAGTTGA AAGATGAGCT TGAAAGATTG TCTCTAGAAA TGAAGCAGGA GCAAGTGAAG 
    TCTCAAGCAG CACTGGCTTA TTCCGAAAAT AATGTGCGCA GGATAAAAGA AGAGATGGCT 
    GAATACATCA CAGCTCTTAA AGCATCCCAC CAGAGAGAAG TAGAGAAAAT TCTTTGCCAG 
    CATGCAATGG AGCATTCCAC TTCTAAACTA GCAAAACTAA ATAGCAAAAT TTCAACCCAA 
    GAGATCCTAA TAAAACATCT CCAAGAACAA GTTAAAGAGC TACAGAGGGA TCAAGAAGCC 
    TTAGTAGTTT CACAGATGCG AGAGGAAATC TTACAGAAGG AGATGGCAAA ATTACTAAAA 
    GACTTGAGAG AAGCTAAGGA GAGCCAGAGT CCTGAAATGA AACGCTTCTT GTGCCTAGAA 
    AGAAAAATCA AGCATATGGA GACCAGACAT GACCAAAGAG AACAAGAACT ACAGCAGGTG 
    GTGCAACAGA CACAGCATGT TGCTGAAGCA CAGCAAATCC AGGAGATTGA GAAATGGAGG 
    AAACTTGCTC AAATAAAGAA TCAGGAGCTG GAGAAATTTC GAGTGGAATT AGATTCAATA 
    CTGGATGTTC TACGGGAATT ACAGAAACAA GGAGTTATTA TTCCAGCACC TATTTCCAGT 
    GGGTTAAACA TACCAGGAAG TTATTGGAAG TTGTGA

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

    RefSeq XP_019352401.1
    CDS285..4580
    Translation

    Target ORF information:

    RefSeq Version XM_019496856.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019496856.1

    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
    ATGGCTCATC GGTTTTCAAA AGAAGAACTA GATGAGCAAT TTGAACAGTT TCTGAAAGAG 
    TCTCTTTCAG ATGATTCGTT TGGACATTCA AAAGAAAAGT CCAGTGTTCT TGAGACACTG 
    GGGAAACCCA GTAGGAAAGA ATCGAAAAAA AAAGATGCTG TGCCATGGTG GATAGCTGAG 
    GATGATTCTG ATGATGGTGG AATGCTTGGG ACAAATGGAA GCTTTCTCAA GTCACAAAAG 
    AGTTCCCAGC CCCTTGCAGA AACAGATGAG GGTGCTCGTG TAGAAATGAT GCAGCTTCAA 
    AAAAATGATG GTGTTTCTGT TTCCTTAAGC AGAGATAGCT TGGAAACTAA TGATTCAGTT 
    GTGGCCTCTG GGCCTAATCC AAGCATTTTA GGAGTTGGAT TGGATACTTT GGAAGAACAA 
    GAAGAAAAAG AGAGGTTCTT TGCCAAACTT GAGAAAGGAG CTTCATCTAC CATTGATTAT 
    TCAAGATTAA ACAAAGAGCT GGATTCTAAT GATTCTCTGG TATTAGCACC ATTTAGCCGG 
    AATGAACAGG CTGTTGAACA AATGGAAGAG GAAAAGGAAT CTAAACACAA CGAGAGATCT 
    GAAGATTATA GTGAAGATTT TGCAGACGAG GAAGATGCTA TTACTCCTTC TAAAAGTGAA 
    AATAATCAAG TTAAACAAAC GACAAGATCA GATGATGACT TAAGTGTCCA ACGACAGGAA 
    GAAACACCTG GGATGCTGGC TAAAGTTGTA TTGCTTGATT CACAAGACTC TACTATGGAA 
    GTTCAGAAGG TCTCTGAACA ACAGGGTGTA GCTGTGACTG AACATCAAAC ATCTCAAGAA 
    GTTGCTGAGA GTAAAATGAA CAGGAGTGGT GTTTCCTGTG TGCAAACTAA CAGTGACATT 
    GAAGCATTAC ATCAGGCATA TTATCATATT GATCAGTCTT TAGGAGACAC AGATGAACAA 
    AGAATTCATA TCGGTGTAAT GGAAAATATA GAATGCTTTG TCCAGGATGG TTCACAAAAT 
    AATGAAGCTG GTGCAAAAAA TGCTTCAACT ACTGAATCAG ATTTACCTAC TATAGAAGAG 
    TTAATGAAAC CTATTAAAGC AGATTCATCG TATGCCAGAG GCTTTGACCT GGAGTCTATA 
    AGCAGAATGA AACCAGCAGA CAGCAAAGCA GATGAATGTG TCAGCCATTT GCCATTTAAA 
    GAGAACCAAT ATGATACAGA TGTAGAGAAA CAAAGTTTAG ATGTTTTGTT TAAAGAACAT 
    AATAAAGAAG AGAACAATTT TCTGTGGGCA GCTGTAAATG ATGGTAGTGA AAGTAGCAAT 
    CAAAAAAGGA CTGAGAGAGA AGTCCAGACT GAGAGAGTGC AGCTCAACAT ACTGAGACAA 
    AAGTTAGCAC AAAATTCTAT CCTGTTGCGT CAAGATGAAA AAATGAATCA AGCACATCTG 
    TCCAGCTCTT GGAAGCATGA TGGATTACAA TCAGTGACCA ATAAACAAAC AGTGTACAAG 
    AACACTAGAA ATACTGCTTC TTTACATAAG AGGAAATCTG TATATGGAGC AGTTAGAAGT 
    TCTGGATATG GTAAATCCAT TTCACCTTTA AAACAACTTT CCACAACTAT TGAAAAGAAA 
    ACATCAAAAG ATGCTTTCAG AAGGACAAGT TTAAAAGCTA AATCACCTGC AGATAAAGCA 
    AAGCCCAAAG AAACATTATT TACTACTAGG GTAATATCTG CAGTAAAGGA ACCAGCTTCT 
    AAAAAGGGTA TTAATGTGGT TACATCTGAC CACTCAGCTA TAAAAGACCT TGGGCAGCAG 
    ATGAAGGATG TGGATTCCTG TGTGCAGTTT CAACGTGATT CCTCATTTGT ATCTGTCAAC 
    AATAATGTGA GAGAGCTTTA TTTGTTAAGA AGAGTACAGG CAGCAGAGGA AGAGTTGAAT 
    TCAGCACATG ATGTAATTCA GCATTTAAAA GATGTGGTCT CTCAGAAAGA GAAGGAAATG 
    GAGAATAAGA TGGTGGAAAT GAAAATGCAG TCTGATAAAG AGCTTTCCCA GCTGAGTCAA 
    GAAAATTATG AACTTCAGAC CAAGTTAAAA AGTGTGGAGG AACTGAACAA AGGAAAGAAA 
    TGGTTCCAGC CAGAGATGAC AGATCCTATC ACTGAAGAAA AGTTAAAAGA AATACAGAAG 
    GAAATTCAAG ATCAAGAGAC CCTTCTTCAA GGTTATCAAC AGGAAAATGA AAGGTTATAC 
    AAGCAAGTGA AAGAGCTACA GCTACAAAAC AAGAAAAATG AGGAAAGGAT GTTTAAAGAA 
    AATCAATATT TAATGTCTGA ATTAGCATCC TTAAGAGAAA AGATGGATCA AAATAACTTC 
    CAGTCACAGT TAGTGCAGGA TTCTGAGCCA GTAAGAAACC AAAGTTTCTC AGAATTGATT 
    TCAGAACTTC GAGCAGCACA GAAAGAAGAA ACCAAACTGC TGGAAGAGAT AAAACGGCTT 
    AAACAAGACA AACAAGCCCT TGAAGTAGAT TTGGGACAAA TGAAAAGAGA AAGAGATCTG 
    GCAAGAACAC AGTTTTTTTC TGCTTCAGGC GAGAAGAATT ATGAGATAAA GATTATGGAA 
    GAATCATACA AACAAGAAAT TAGTAATTTG AAAAAGAGGT TGCAGTGGTA TGCAGAAAAT 
    CAAGACCTTT TGGATAAAGA TGCAGCACGT CTTAAAAATG CAAAAGAAGA AATTGAGAAA 
    TTAAAACTAC AGGTTGAGAA GCTCACAACA GAAGCTGGGA ATCGGTCTGT GCAACAGAAG 
    AAACGTTGGA AGGACAGGGC AGCAGATGCT AAAAGAATTC AAGATCTCGA GCGACAGATT 
    AAGGAAATGG AAGGGATTCT GAAGAGAAGG CATCCAAATT CATTGCCTGC TTTAATATAT 
    GCTGCTGCAG CAGCCTCTGA AGAAGTTGAT GTTTCAGCTA AGACCAATAC AATTGATTTT 
    CTAGAAAGAA GAATAAAAAA GTTAGAAACA GAGTTAGAGG GGAAAGATGA GGAAGCTAAG 
    AAAAGTCTCC GTGCTATGGA ACAACAATTT CAAAAAATAA AGCTTCAGTA TGAGCAAAGA 
    CTTATAGAGC TTGAAAAATT ACTTGCTTCG AAGTTGATGA ATGAACCCCA GAAATTGCAT 
    GACAACAAAT GCGGTTTTAT AACACTTGAG CAAGAACTTA ACAATGAAAG AGAGACCTAT 
    CAGATCACTA TAAAAAATCT TCAAACAGAA ATTGAAAATC TTAAAGATCA AAACTCTCAA 
    TTAAAACTGA AAAGTGAAAG AGGTGATAAA CATTTAGAGA ACCAGGTGGA ACAAGCTAGT 
    GCAAAAGCCA GGTTGGTAAA ATTAAATCAA GAACTGGTCA CCAAAAGTAA AGAAATACAG 
    GACCTTACAA AAACGGTGGA GAAGCTTCAG AGAGAGAGAA GGAGGATGCT GTGTGATCAG 
    AATTCAAATG ACAAAGCTGA CAACAGTGAA AAGTCCACAG AGATTTTACA GAAGGATACT 
    TCAGCAACAG ATAAAAGGAA ATCTAGCAAC CATGAACCTT TTCCCAACAC TCTCGATGAA 
    AAAATATATC AACCACATAC CTTTGCTGAT CCCCATATTT CAGAAGTTCT GCAAGAAAAT 
    GCAAAGTTGA AAGATGAGCT TGAAAGATTG TCTCTAGAAA TGAAGCAGGA GCAAGTGAAG 
    TCTCAAGCAG CACTGGCTTA TTCCGAAAAT AATGTGCGCA GGATAAAAGA AGAGATGGCT 
    GAATACATCA CAGCTCTTAA AGCATCCCAC CAGAGAGAAG TAGAGAAAAT TCTTTGCCAG 
    CATGCAATGG AGCATTCCAC TTCTAAACTA GCAAAACTAA ATAGCAAAAT TTCAACCCAA 
    GAGATCCTAA TAAAACATCT CCAAGAACAA GTTAAAGAGC TACAGAGGGA TCAAGAAGCC 
    TTAGTAGTTT CACAGATGCG AGAGGAAATC TTACAGAAGG AGATGGCAAA ATTACTAAAA 
    GACTTGAGAG AAGCTAAGGA GAGCCAGAGT CCTGAAATGA AACGCTTCTT GTGCCTAGAA 
    AGAAAAATCA AGCATATGGA GACCAGACAT GACCAAAGAG AACAAGAACT ACAGCAGGTG 
    GTGCAACAGA CACAGCATGT TGCTGAAGCA CAGCAAATCC AGGAGATTGA GAAATGGAGG 
    AAACTTGCTC AAATAAAGAA TCAGGAGCTG GAGAAATTTC GAGTGGAATT AGATTCAATA 
    CTGGATGTTC TACGGGAATT ACAGAAACAA GGAGTTATTA TTCCAGCACC TATTTCCAGT 
    GGGTTAAACA TACCAGGAAG TTATTGGAAG TTGTGA

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

    CEP162 ( XM_019496857.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019352402.1 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl67992
    Clone ID Related Accession (Same CDS sequence) XM_019496856.1 , XM_019496857.1
    Accession Version XM_019496857.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4296bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product centrosomal protein of 162 kDa isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712464.1) 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 :: Alligator mississippiensis 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCTCATC GGTTTTCAAA AGAAGAACTA GATGAGCAAT TTGAACAGTT TCTGAAAGAG 
    TCTCTTTCAG ATGATTCGTT TGGACATTCA AAAGAAAAGT CCAGTGTTCT TGAGACACTG 
    GGGAAACCCA GTAGGAAAGA ATCGAAAAAA AAAGATGCTG TGCCATGGTG GATAGCTGAG 
    GATGATTCTG ATGATGGTGG AATGCTTGGG ACAAATGGAA GCTTTCTCAA GTCACAAAAG 
    AGTTCCCAGC CCCTTGCAGA AACAGATGAG GGTGCTCGTG TAGAAATGAT GCAGCTTCAA 
    AAAAATGATG GTGTTTCTGT TTCCTTAAGC AGAGATAGCT TGGAAACTAA TGATTCAGTT 
    GTGGCCTCTG GGCCTAATCC AAGCATTTTA GGAGTTGGAT TGGATACTTT GGAAGAACAA 
    GAAGAAAAAG AGAGGTTCTT TGCCAAACTT GAGAAAGGAG CTTCATCTAC CATTGATTAT 
    TCAAGATTAA ACAAAGAGCT GGATTCTAAT GATTCTCTGG TATTAGCACC ATTTAGCCGG 
    AATGAACAGG CTGTTGAACA AATGGAAGAG GAAAAGGAAT CTAAACACAA CGAGAGATCT 
    GAAGATTATA GTGAAGATTT TGCAGACGAG GAAGATGCTA TTACTCCTTC TAAAAGTGAA 
    AATAATCAAG TTAAACAAAC GACAAGATCA GATGATGACT TAAGTGTCCA ACGACAGGAA 
    GAAACACCTG GGATGCTGGC TAAAGTTGTA TTGCTTGATT CACAAGACTC TACTATGGAA 
    GTTCAGAAGG TCTCTGAACA ACAGGGTGTA GCTGTGACTG AACATCAAAC ATCTCAAGAA 
    GTTGCTGAGA GTAAAATGAA CAGGAGTGGT GTTTCCTGTG TGCAAACTAA CAGTGACATT 
    GAAGCATTAC ATCAGGCATA TTATCATATT GATCAGTCTT TAGGAGACAC AGATGAACAA 
    AGAATTCATA TCGGTGTAAT GGAAAATATA GAATGCTTTG TCCAGGATGG TTCACAAAAT 
    AATGAAGCTG GTGCAAAAAA TGCTTCAACT ACTGAATCAG ATTTACCTAC TATAGAAGAG 
    TTAATGAAAC CTATTAAAGC AGATTCATCG TATGCCAGAG GCTTTGACCT GGAGTCTATA 
    AGCAGAATGA AACCAGCAGA CAGCAAAGCA GATGAATGTG TCAGCCATTT GCCATTTAAA 
    GAGAACCAAT ATGATACAGA TGTAGAGAAA CAAAGTTTAG ATGTTTTGTT TAAAGAACAT 
    AATAAAGAAG AGAACAATTT TCTGTGGGCA GCTGTAAATG ATGGTAGTGA AAGTAGCAAT 
    CAAAAAAGGA CTGAGAGAGA AGTCCAGACT GAGAGAGTGC AGCTCAACAT ACTGAGACAA 
    AAGTTAGCAC AAAATTCTAT CCTGTTGCGT CAAGATGAAA AAATGAATCA AGCACATCTG 
    TCCAGCTCTT GGAAGCATGA TGGATTACAA TCAGTGACCA ATAAACAAAC AGTGTACAAG 
    AACACTAGAA ATACTGCTTC TTTACATAAG AGGAAATCTG TATATGGAGC AGTTAGAAGT 
    TCTGGATATG GTAAATCCAT TTCACCTTTA AAACAACTTT CCACAACTAT TGAAAAGAAA 
    ACATCAAAAG ATGCTTTCAG AAGGACAAGT TTAAAAGCTA AATCACCTGC AGATAAAGCA 
    AAGCCCAAAG AAACATTATT TACTACTAGG GTAATATCTG CAGTAAAGGA ACCAGCTTCT 
    AAAAAGGGTA TTAATGTGGT TACATCTGAC CACTCAGCTA TAAAAGACCT TGGGCAGCAG 
    ATGAAGGATG TGGATTCCTG TGTGCAGTTT CAACGTGATT CCTCATTTGT ATCTGTCAAC 
    AATAATGTGA GAGAGCTTTA TTTGTTAAGA AGAGTACAGG CAGCAGAGGA AGAGTTGAAT 
    TCAGCACATG ATGTAATTCA GCATTTAAAA GATGTGGTCT CTCAGAAAGA GAAGGAAATG 
    GAGAATAAGA TGGTGGAAAT GAAAATGCAG TCTGATAAAG AGCTTTCCCA GCTGAGTCAA 
    GAAAATTATG AACTTCAGAC CAAGTTAAAA AGTGTGGAGG AACTGAACAA AGGAAAGAAA 
    TGGTTCCAGC CAGAGATGAC AGATCCTATC ACTGAAGAAA AGTTAAAAGA AATACAGAAG 
    GAAATTCAAG ATCAAGAGAC CCTTCTTCAA GGTTATCAAC AGGAAAATGA AAGGTTATAC 
    AAGCAAGTGA AAGAGCTACA GCTACAAAAC AAGAAAAATG AGGAAAGGAT GTTTAAAGAA 
    AATCAATATT TAATGTCTGA ATTAGCATCC TTAAGAGAAA AGATGGATCA AAATAACTTC 
    CAGTCACAGT TAGTGCAGGA TTCTGAGCCA GTAAGAAACC AAAGTTTCTC AGAATTGATT 
    TCAGAACTTC GAGCAGCACA GAAAGAAGAA ACCAAACTGC TGGAAGAGAT AAAACGGCTT 
    AAACAAGACA AACAAGCCCT TGAAGTAGAT TTGGGACAAA TGAAAAGAGA AAGAGATCTG 
    GCAAGAACAC AGTTTTTTTC TGCTTCAGGC GAGAAGAATT ATGAGATAAA GATTATGGAA 
    GAATCATACA AACAAGAAAT TAGTAATTTG AAAAAGAGGT TGCAGTGGTA TGCAGAAAAT 
    CAAGACCTTT TGGATAAAGA TGCAGCACGT CTTAAAAATG CAAAAGAAGA AATTGAGAAA 
    TTAAAACTAC AGGTTGAGAA GCTCACAACA GAAGCTGGGA ATCGGTCTGT GCAACAGAAG 
    AAACGTTGGA AGGACAGGGC AGCAGATGCT AAAAGAATTC AAGATCTCGA GCGACAGATT 
    AAGGAAATGG AAGGGATTCT GAAGAGAAGG CATCCAAATT CATTGCCTGC TTTAATATAT 
    GCTGCTGCAG CAGCCTCTGA AGAAGTTGAT GTTTCAGCTA AGACCAATAC AATTGATTTT 
    CTAGAAAGAA GAATAAAAAA GTTAGAAACA GAGTTAGAGG GGAAAGATGA GGAAGCTAAG 
    AAAAGTCTCC GTGCTATGGA ACAACAATTT CAAAAAATAA AGCTTCAGTA TGAGCAAAGA 
    CTTATAGAGC TTGAAAAATT ACTTGCTTCG AAGTTGATGA ATGAACCCCA GAAATTGCAT 
    GACAACAAAT GCGGTTTTAT AACACTTGAG CAAGAACTTA ACAATGAAAG AGAGACCTAT 
    CAGATCACTA TAAAAAATCT TCAAACAGAA ATTGAAAATC TTAAAGATCA AAACTCTCAA 
    TTAAAACTGA AAAGTGAAAG AGGTGATAAA CATTTAGAGA ACCAGGTGGA ACAAGCTAGT 
    GCAAAAGCCA GGTTGGTAAA ATTAAATCAA GAACTGGTCA CCAAAAGTAA AGAAATACAG 
    GACCTTACAA AAACGGTGGA GAAGCTTCAG AGAGAGAGAA GGAGGATGCT GTGTGATCAG 
    AATTCAAATG ACAAAGCTGA CAACAGTGAA AAGTCCACAG AGATTTTACA GAAGGATACT 
    TCAGCAACAG ATAAAAGGAA ATCTAGCAAC CATGAACCTT TTCCCAACAC TCTCGATGAA 
    AAAATATATC AACCACATAC CTTTGCTGAT CCCCATATTT CAGAAGTTCT GCAAGAAAAT 
    GCAAAGTTGA AAGATGAGCT TGAAAGATTG TCTCTAGAAA TGAAGCAGGA GCAAGTGAAG 
    TCTCAAGCAG CACTGGCTTA TTCCGAAAAT AATGTGCGCA GGATAAAAGA AGAGATGGCT 
    GAATACATCA CAGCTCTTAA AGCATCCCAC CAGAGAGAAG TAGAGAAAAT TCTTTGCCAG 
    CATGCAATGG AGCATTCCAC TTCTAAACTA GCAAAACTAA ATAGCAAAAT TTCAACCCAA 
    GAGATCCTAA TAAAACATCT CCAAGAACAA GTTAAAGAGC TACAGAGGGA TCAAGAAGCC 
    TTAGTAGTTT CACAGATGCG AGAGGAAATC TTACAGAAGG AGATGGCAAA ATTACTAAAA 
    GACTTGAGAG AAGCTAAGGA GAGCCAGAGT CCTGAAATGA AACGCTTCTT GTGCCTAGAA 
    AGAAAAATCA AGCATATGGA GACCAGACAT GACCAAAGAG AACAAGAACT ACAGCAGGTG 
    GTGCAACAGA CACAGCATGT TGCTGAAGCA CAGCAAATCC AGGAGATTGA GAAATGGAGG 
    AAACTTGCTC AAATAAAGAA TCAGGAGCTG GAGAAATTTC GAGTGGAATT AGATTCAATA 
    CTGGATGTTC TACGGGAATT ACAGAAACAA GGAGTTATTA TTCCAGCACC TATTTCCAGT 
    GGGTTAAACA TACCAGGAAG TTATTGGAAG TTGTGA

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

    RefSeq XP_019352402.1
    CDS219..4514
    Translation

    Target ORF information:

    RefSeq Version XM_019496857.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019496857.1

    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
    ATGGCTCATC GGTTTTCAAA AGAAGAACTA GATGAGCAAT TTGAACAGTT TCTGAAAGAG 
    TCTCTTTCAG ATGATTCGTT TGGACATTCA AAAGAAAAGT CCAGTGTTCT TGAGACACTG 
    GGGAAACCCA GTAGGAAAGA ATCGAAAAAA AAAGATGCTG TGCCATGGTG GATAGCTGAG 
    GATGATTCTG ATGATGGTGG AATGCTTGGG ACAAATGGAA GCTTTCTCAA GTCACAAAAG 
    AGTTCCCAGC CCCTTGCAGA AACAGATGAG GGTGCTCGTG TAGAAATGAT GCAGCTTCAA 
    AAAAATGATG GTGTTTCTGT TTCCTTAAGC AGAGATAGCT TGGAAACTAA TGATTCAGTT 
    GTGGCCTCTG GGCCTAATCC AAGCATTTTA GGAGTTGGAT TGGATACTTT GGAAGAACAA 
    GAAGAAAAAG AGAGGTTCTT TGCCAAACTT GAGAAAGGAG CTTCATCTAC CATTGATTAT 
    TCAAGATTAA ACAAAGAGCT GGATTCTAAT GATTCTCTGG TATTAGCACC ATTTAGCCGG 
    AATGAACAGG CTGTTGAACA AATGGAAGAG GAAAAGGAAT CTAAACACAA CGAGAGATCT 
    GAAGATTATA GTGAAGATTT TGCAGACGAG GAAGATGCTA TTACTCCTTC TAAAAGTGAA 
    AATAATCAAG TTAAACAAAC GACAAGATCA GATGATGACT TAAGTGTCCA ACGACAGGAA 
    GAAACACCTG GGATGCTGGC TAAAGTTGTA TTGCTTGATT CACAAGACTC TACTATGGAA 
    GTTCAGAAGG TCTCTGAACA ACAGGGTGTA GCTGTGACTG AACATCAAAC ATCTCAAGAA 
    GTTGCTGAGA GTAAAATGAA CAGGAGTGGT GTTTCCTGTG TGCAAACTAA CAGTGACATT 
    GAAGCATTAC ATCAGGCATA TTATCATATT GATCAGTCTT TAGGAGACAC AGATGAACAA 
    AGAATTCATA TCGGTGTAAT GGAAAATATA GAATGCTTTG TCCAGGATGG TTCACAAAAT 
    AATGAAGCTG GTGCAAAAAA TGCTTCAACT ACTGAATCAG ATTTACCTAC TATAGAAGAG 
    TTAATGAAAC CTATTAAAGC AGATTCATCG TATGCCAGAG GCTTTGACCT GGAGTCTATA 
    AGCAGAATGA AACCAGCAGA CAGCAAAGCA GATGAATGTG TCAGCCATTT GCCATTTAAA 
    GAGAACCAAT ATGATACAGA TGTAGAGAAA CAAAGTTTAG ATGTTTTGTT TAAAGAACAT 
    AATAAAGAAG AGAACAATTT TCTGTGGGCA GCTGTAAATG ATGGTAGTGA AAGTAGCAAT 
    CAAAAAAGGA CTGAGAGAGA AGTCCAGACT GAGAGAGTGC AGCTCAACAT ACTGAGACAA 
    AAGTTAGCAC AAAATTCTAT CCTGTTGCGT CAAGATGAAA AAATGAATCA AGCACATCTG 
    TCCAGCTCTT GGAAGCATGA TGGATTACAA TCAGTGACCA ATAAACAAAC AGTGTACAAG 
    AACACTAGAA ATACTGCTTC TTTACATAAG AGGAAATCTG TATATGGAGC AGTTAGAAGT 
    TCTGGATATG GTAAATCCAT TTCACCTTTA AAACAACTTT CCACAACTAT TGAAAAGAAA 
    ACATCAAAAG ATGCTTTCAG AAGGACAAGT TTAAAAGCTA AATCACCTGC AGATAAAGCA 
    AAGCCCAAAG AAACATTATT TACTACTAGG GTAATATCTG CAGTAAAGGA ACCAGCTTCT 
    AAAAAGGGTA TTAATGTGGT TACATCTGAC CACTCAGCTA TAAAAGACCT TGGGCAGCAG 
    ATGAAGGATG TGGATTCCTG TGTGCAGTTT CAACGTGATT CCTCATTTGT ATCTGTCAAC 
    AATAATGTGA GAGAGCTTTA TTTGTTAAGA AGAGTACAGG CAGCAGAGGA AGAGTTGAAT 
    TCAGCACATG ATGTAATTCA GCATTTAAAA GATGTGGTCT CTCAGAAAGA GAAGGAAATG 
    GAGAATAAGA TGGTGGAAAT GAAAATGCAG TCTGATAAAG AGCTTTCCCA GCTGAGTCAA 
    GAAAATTATG AACTTCAGAC CAAGTTAAAA AGTGTGGAGG AACTGAACAA AGGAAAGAAA 
    TGGTTCCAGC CAGAGATGAC AGATCCTATC ACTGAAGAAA AGTTAAAAGA AATACAGAAG 
    GAAATTCAAG ATCAAGAGAC CCTTCTTCAA GGTTATCAAC AGGAAAATGA AAGGTTATAC 
    AAGCAAGTGA AAGAGCTACA GCTACAAAAC AAGAAAAATG AGGAAAGGAT GTTTAAAGAA 
    AATCAATATT TAATGTCTGA ATTAGCATCC TTAAGAGAAA AGATGGATCA AAATAACTTC 
    CAGTCACAGT TAGTGCAGGA TTCTGAGCCA GTAAGAAACC AAAGTTTCTC AGAATTGATT 
    TCAGAACTTC GAGCAGCACA GAAAGAAGAA ACCAAACTGC TGGAAGAGAT AAAACGGCTT 
    AAACAAGACA AACAAGCCCT TGAAGTAGAT TTGGGACAAA TGAAAAGAGA AAGAGATCTG 
    GCAAGAACAC AGTTTTTTTC TGCTTCAGGC GAGAAGAATT ATGAGATAAA GATTATGGAA 
    GAATCATACA AACAAGAAAT TAGTAATTTG AAAAAGAGGT TGCAGTGGTA TGCAGAAAAT 
    CAAGACCTTT TGGATAAAGA TGCAGCACGT CTTAAAAATG CAAAAGAAGA AATTGAGAAA 
    TTAAAACTAC AGGTTGAGAA GCTCACAACA GAAGCTGGGA ATCGGTCTGT GCAACAGAAG 
    AAACGTTGGA AGGACAGGGC AGCAGATGCT AAAAGAATTC AAGATCTCGA GCGACAGATT 
    AAGGAAATGG AAGGGATTCT GAAGAGAAGG CATCCAAATT CATTGCCTGC TTTAATATAT 
    GCTGCTGCAG CAGCCTCTGA AGAAGTTGAT GTTTCAGCTA AGACCAATAC AATTGATTTT 
    CTAGAAAGAA GAATAAAAAA GTTAGAAACA GAGTTAGAGG GGAAAGATGA GGAAGCTAAG 
    AAAAGTCTCC GTGCTATGGA ACAACAATTT CAAAAAATAA AGCTTCAGTA TGAGCAAAGA 
    CTTATAGAGC TTGAAAAATT ACTTGCTTCG AAGTTGATGA ATGAACCCCA GAAATTGCAT 
    GACAACAAAT GCGGTTTTAT AACACTTGAG CAAGAACTTA ACAATGAAAG AGAGACCTAT 
    CAGATCACTA TAAAAAATCT TCAAACAGAA ATTGAAAATC TTAAAGATCA AAACTCTCAA 
    TTAAAACTGA AAAGTGAAAG AGGTGATAAA CATTTAGAGA ACCAGGTGGA ACAAGCTAGT 
    GCAAAAGCCA GGTTGGTAAA ATTAAATCAA GAACTGGTCA CCAAAAGTAA AGAAATACAG 
    GACCTTACAA AAACGGTGGA GAAGCTTCAG AGAGAGAGAA GGAGGATGCT GTGTGATCAG 
    AATTCAAATG ACAAAGCTGA CAACAGTGAA AAGTCCACAG AGATTTTACA GAAGGATACT 
    TCAGCAACAG ATAAAAGGAA ATCTAGCAAC CATGAACCTT TTCCCAACAC TCTCGATGAA 
    AAAATATATC AACCACATAC CTTTGCTGAT CCCCATATTT CAGAAGTTCT GCAAGAAAAT 
    GCAAAGTTGA AAGATGAGCT TGAAAGATTG TCTCTAGAAA TGAAGCAGGA GCAAGTGAAG 
    TCTCAAGCAG CACTGGCTTA TTCCGAAAAT AATGTGCGCA GGATAAAAGA AGAGATGGCT 
    GAATACATCA CAGCTCTTAA AGCATCCCAC CAGAGAGAAG TAGAGAAAAT TCTTTGCCAG 
    CATGCAATGG AGCATTCCAC TTCTAAACTA GCAAAACTAA ATAGCAAAAT TTCAACCCAA 
    GAGATCCTAA TAAAACATCT CCAAGAACAA GTTAAAGAGC TACAGAGGGA TCAAGAAGCC 
    TTAGTAGTTT CACAGATGCG AGAGGAAATC TTACAGAAGG AGATGGCAAA ATTACTAAAA 
    GACTTGAGAG AAGCTAAGGA GAGCCAGAGT CCTGAAATGA AACGCTTCTT GTGCCTAGAA 
    AGAAAAATCA AGCATATGGA GACCAGACAT GACCAAAGAG AACAAGAACT ACAGCAGGTG 
    GTGCAACAGA CACAGCATGT TGCTGAAGCA CAGCAAATCC AGGAGATTGA GAAATGGAGG 
    AAACTTGCTC AAATAAAGAA TCAGGAGCTG GAGAAATTTC GAGTGGAATT AGATTCAATA 
    CTGGATGTTC TACGGGAATT ACAGAAACAA GGAGTTATTA TTCCAGCACC TATTTCCAGT 
    GGGTTAAACA TACCAGGAAG TTATTGGAAG TTGTGA

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

    CEP162 ( XM_019496858.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019352403.1 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAl67993
    Clone ID Related Accession (Same CDS sequence) XM_019496858.1
    Accession Version XM_019496858.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product centrosomal protein of 162 kDa isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712464.1) 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 :: Alligator mississippiensis 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCTCATC GGTTTTCAAA AGAAGAACTA GATGAGCAAT TTGAACAGTT TCTGAAAGAG 
    TCTCTTTCAG ATGATTCGTT TGGACATTCA AAAGAAAAGT CCAGTGTTCT TGAGACACTG 
    GGGAAACCCA GTAGGAAAGA ATCGAAAAAA AAAGATGCTG TGCCATGGTG GATAGCTGAG 
    GATGATTCTG ATGATGGTGG AATGCTTGGG ACAAATGGAA GCTTTCTCAA GTCACAAAAG 
    AGTTCCCAGC CCCTTGCAGA AACAGATGAG GGTGCTCGTG TAGAAATGAT GCAGCTTCAA 
    AAAAATGATG GTGTTTCTGT TTCCTTAAGC AGAGATAGCT TGGAAACTAA TGATTCAGTT 
    GTGGCCTCTG GGCCTAATCC AAGCATTTTA GGAGTTGGAT TGGATACTTT GGAAGAACAA 
    GAAGAAAAAG AGAGGTTCTT TGCCAAACTT GAGAAAGGAG CTTCATCTAC CATTGATTAT 
    TCAAGATTAA ACAAAGAGCT GGATTCTAAT GATTCTCTGG TATTAGCACC ATTTAGCCGG 
    AATGAACAGG CTGTTGAACA AATGGAAGAG GAAAAGGAAT CTAAACACAA CGAGAGATCT 
    GAAGATTATA GTGAAGATTT TGCAGACGAG GAAGATGCTA TTACTCCTTC TAAAAGTGAA 
    AATAATCAAG TTAAACAAAC GACAAGATCA GATGATGACT TAAGTGTCCA ACGACAGGAA 
    GAAACACCTG GGATGCTGGC TAAAGTTGTA TTGCTTGATT CACAAGACTC TACTATGGAA 
    GTTCAGAAGG TCTCTGAACA ACAGGGTGTA GCTGTGACTG AACATCAAAC ATCTCAAGAA 
    GTTGCTGAGA GTAAAATGAA CAGGAGTGGT GTTTCCTGTG TGCAAACTAA CAGTGACATT 
    GAAGCATTAC ATCAGGCATA TTATCATATT GATCAGTCTT TAGGAGACAC AGATGAACAA 
    AGAATTCATA TCGGTGTAAT GGAAAATATA GAATGCTTTG TCCAGGATGG TTCACAAAAT 
    AATGAAGCTG GTGCAAAAAA TGCTTCAACT ACTGAATCAG ATTTACCTAC TATAGAAGAG 
    TTAATGAAAC CTATTAAAGC AGATTCATCG TATGCCAGAG GCTTTGACCT GGAGTCTATA 
    AGAATGAAAC CAGCAGACAG CAAAGCAGAT GAATGTGTCA GCCATTTGCC ATTTAAAGAG 
    AACCAATATG ATACAGATGT AGAGAAACAA AGTTTAGATG TTTTGTTTAA AGAACATAAT 
    AAAGAAGAGA ACAATTTTCT GTGGGCAGCT GTAAATGATG GTAGTGAAAG TAGCAATCAA 
    AAAAGGACTG AGAGAGAAGT CCAGACTGAG AGAGTGCAGC TCAACATACT GAGACAAAAG 
    TTAGCACAAA ATTCTATCCT GTTGCGTCAA GATGAAAAAA TGAATCAAGC ACATCTGTCC 
    AGCTCTTGGA AGCATGATGG ATTACAATCA GTGACCAATA AACAAACAGT GTACAAGAAC 
    ACTAGAAATA CTGCTTCTTT ACATAAGAGG AAATCTGTAT ATGGAGCAGT TAGAAGTTCT 
    GGATATGGTA AATCCATTTC ACCTTTAAAA CAACTTTCCA CAACTATTGA AAAGAAAACA 
    TCAAAAGATG CTTTCAGAAG GACAAGTTTA AAAGCTAAAT CACCTGCAGA TAAAGCAAAG 
    CCCAAAGAAA CATTATTTAC TACTAGGGTA ATATCTGCAG TAAAGGAACC AGCTTCTAAA 
    AAGGGTATTA ATGTGGTTAC ATCTGACCAC TCAGCTATAA AAGACCTTGG GCAGCAGATG 
    AAGGATGTGG ATTCCTGTGT GCAGTTTCAA CGTGATTCCT CATTTGTATC TGTCAACAAT 
    AATGTGAGAG AGCTTTATTT GTTAAGAAGA GTACAGGCAG CAGAGGAAGA GTTGAATTCA 
    GCACATGATG TAATTCAGCA TTTAAAAGAT GTGGTCTCTC AGAAAGAGAA GGAAATGGAG 
    AATAAGATGG TGGAAATGAA AATGCAGTCT GATAAAGAGC TTTCCCAGCT GAGTCAAGAA 
    AATTATGAAC TTCAGACCAA GTTAAAAAGT GTGGAGGAAC TGAACAAAGG AAAGAAATGG 
    TTCCAGCCAG AGATGACAGA TCCTATCACT GAAGAAAAGT TAAAAGAAAT ACAGAAGGAA 
    ATTCAAGATC AAGAGACCCT TCTTCAAGGT TATCAACAGG AAAATGAAAG GTTATACAAG 
    CAAGTGAAAG AGCTACAGCT ACAAAACAAG AAAAATGAGG AAAGGATGTT TAAAGAAAAT 
    CAATATTTAA TGTCTGAATT AGCATCCTTA AGAGAAAAGA TGGATCAAAA TAACTTCCAG 
    TCACAGTTAG TGCAGGATTC TGAGCCAGTA AGAAACCAAA GTTTCTCAGA ATTGATTTCA 
    GAACTTCGAG CAGCACAGAA AGAAGAAACC AAACTGCTGG AAGAGATAAA ACGGCTTAAA 
    CAAGACAAAC AAGCCCTTGA AGTAGATTTG GGACAAATGA AAAGAGAAAG AGATCTGGCA 
    AGAACACAGT TTTTTTCTGC TTCAGGCGAG AAGAATTATG AGATAAAGAT TATGGAAGAA 
    TCATACAAAC AAGAAATTAG TAATTTGAAA AAGAGGTTGC AGTGGTATGC AGAAAATCAA 
    GACCTTTTGG ATAAAGATGC AGCACGTCTT AAAAATGCAA AAGAAGAAAT TGAGAAATTA 
    AAACTACAGG TTGAGAAGCT CACAACAGAA GCTGGGAATC GGTCTGTGCA ACAGAAGAAA 
    CGTTGGAAGG ACAGGGCAGC AGATGCTAAA AGAATTCAAG ATCTCGAGCG ACAGATTAAG 
    GAAATGGAAG GGATTCTGAA GAGAAGGCAT CCAAATTCAT TGCCTGCTTT AATATATGCT 
    GCTGCAGCAG CCTCTGAAGA AGTTGATGTT TCAGCTAAGA CCAATACAAT TGATTTTCTA 
    GAAAGAAGAA TAAAAAAGTT AGAAACAGAG TTAGAGGGGA AAGATGAGGA AGCTAAGAAA 
    AGTCTCCGTG CTATGGAACA ACAATTTCAA AAAATAAAGC TTCAGTATGA GCAAAGACTT 
    ATAGAGCTTG AAAAATTACT TGCTTCGAAG TTGATGAATG AACCCCAGAA ATTGCATGAC 
    AACAAATGCG GTTTTATAAC ACTTGAGCAA GAACTTAACA ATGAAAGAGA GACCTATCAG 
    ATCACTATAA AAAATCTTCA AACAGAAATT GAAAATCTTA AAGATCAAAA CTCTCAATTA 
    AAACTGAAAA GTGAAAGAGG TGATAAACAT TTAGAGAACC AGGTGGAACA AGCTAGTGCA 
    AAAGCCAGGT TGGTAAAATT AAATCAAGAA CTGGTCACCA AAAGTAAAGA AATACAGGAC 
    CTTACAAAAA CGGTGGAGAA GCTTCAGAGA GAGAGAAGGA GGATGCTGTG TGATCAGAAT 
    TCAAATGACA AAGCTGACAA CAGTGAAAAG TCCACAGAGA TTTTACAGAA GGATACTTCA 
    GCAACAGATA AAAGGAAATC TAGCAACCAT GAACCTTTTC CCAACACTCT CGATGAAAAA 
    ATATATCAAC CACATACCTT TGCTGATCCC CATATTTCAG AAGTTCTGCA AGAAAATGCA 
    AAGTTGAAAG ATGAGCTTGA AAGATTGTCT CTAGAAATGA AGCAGGAGCA AGTGAAGTCT 
    CAAGCAGCAC TGGCTTATTC CGAAAATAAT GTGCGCAGGA TAAAAGAAGA GATGGCTGAA 
    TACATCACAG CTCTTAAAGC ATCCCACCAG AGAGAAGTAG AGAAAATTCT TTGCCAGCAT 
    GCAATGGAGC ATTCCACTTC TAAACTAGCA AAACTAAATA GCAAAATTTC AACCCAAGAG 
    ATCCTAATAA AACATCTCCA AGAACAAGTT AAAGAGCTAC AGAGGGATCA AGAAGCCTTA 
    GTAGTTTCAC AGATGCGAGA GGAAATCTTA CAGAAGGAGA TGGCAAAATT ACTAAAAGAC 
    TTGAGAGAAG CTAAGGAGAG CCAGAGTCCT GAAATGAAAC GCTTCTTGTG CCTAGAAAGA 
    AAAATCAAGC ATATGGAGAC CAGACATGAC CAAAGAGAAC AAGAACTACA GCAGGTGGTG 
    CAACAGACAC AGCATGTTGC TGAAGCACAG CAAATCCAGG AGATTGAGAA ATGGAGGAAA 
    CTTGCTCAAA TAAAGAATCA GGAGCTGGAG AAATTTCGAG TGGAATTAGA TTCAATACTG 
    GATGTTCTAC GGGAATTACA GAAACAAGGA GTTATTATTC CAGCACCTAT TTCCAGTGGG 
    TTAAACATAC CAGGAAGTTA TTGGAAGTTG TGA

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

    RefSeq XP_019352403.1
    CDS286..4578
    Translation

    Target ORF information:

    RefSeq Version XM_019496858.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019496858.1

    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
    ATGGCTCATC GGTTTTCAAA AGAAGAACTA GATGAGCAAT TTGAACAGTT TCTGAAAGAG 
    TCTCTTTCAG ATGATTCGTT TGGACATTCA AAAGAAAAGT CCAGTGTTCT TGAGACACTG 
    GGGAAACCCA GTAGGAAAGA ATCGAAAAAA AAAGATGCTG TGCCATGGTG GATAGCTGAG 
    GATGATTCTG ATGATGGTGG AATGCTTGGG ACAAATGGAA GCTTTCTCAA GTCACAAAAG 
    AGTTCCCAGC CCCTTGCAGA AACAGATGAG GGTGCTCGTG TAGAAATGAT GCAGCTTCAA 
    AAAAATGATG GTGTTTCTGT TTCCTTAAGC AGAGATAGCT TGGAAACTAA TGATTCAGTT 
    GTGGCCTCTG GGCCTAATCC AAGCATTTTA GGAGTTGGAT TGGATACTTT GGAAGAACAA 
    GAAGAAAAAG AGAGGTTCTT TGCCAAACTT GAGAAAGGAG CTTCATCTAC CATTGATTAT 
    TCAAGATTAA ACAAAGAGCT GGATTCTAAT GATTCTCTGG TATTAGCACC ATTTAGCCGG 
    AATGAACAGG CTGTTGAACA AATGGAAGAG GAAAAGGAAT CTAAACACAA CGAGAGATCT 
    GAAGATTATA GTGAAGATTT TGCAGACGAG GAAGATGCTA TTACTCCTTC TAAAAGTGAA 
    AATAATCAAG TTAAACAAAC GACAAGATCA GATGATGACT TAAGTGTCCA ACGACAGGAA 
    GAAACACCTG GGATGCTGGC TAAAGTTGTA TTGCTTGATT CACAAGACTC TACTATGGAA 
    GTTCAGAAGG TCTCTGAACA ACAGGGTGTA GCTGTGACTG AACATCAAAC ATCTCAAGAA 
    GTTGCTGAGA GTAAAATGAA CAGGAGTGGT GTTTCCTGTG TGCAAACTAA CAGTGACATT 
    GAAGCATTAC ATCAGGCATA TTATCATATT GATCAGTCTT TAGGAGACAC AGATGAACAA 
    AGAATTCATA TCGGTGTAAT GGAAAATATA GAATGCTTTG TCCAGGATGG TTCACAAAAT 
    AATGAAGCTG GTGCAAAAAA TGCTTCAACT ACTGAATCAG ATTTACCTAC TATAGAAGAG 
    TTAATGAAAC CTATTAAAGC AGATTCATCG TATGCCAGAG GCTTTGACCT GGAGTCTATA 
    AGAATGAAAC CAGCAGACAG CAAAGCAGAT GAATGTGTCA GCCATTTGCC ATTTAAAGAG 
    AACCAATATG ATACAGATGT AGAGAAACAA AGTTTAGATG TTTTGTTTAA AGAACATAAT 
    AAAGAAGAGA ACAATTTTCT GTGGGCAGCT GTAAATGATG GTAGTGAAAG TAGCAATCAA 
    AAAAGGACTG AGAGAGAAGT CCAGACTGAG AGAGTGCAGC TCAACATACT GAGACAAAAG 
    TTAGCACAAA ATTCTATCCT GTTGCGTCAA GATGAAAAAA TGAATCAAGC ACATCTGTCC 
    AGCTCTTGGA AGCATGATGG ATTACAATCA GTGACCAATA AACAAACAGT GTACAAGAAC 
    ACTAGAAATA CTGCTTCTTT ACATAAGAGG AAATCTGTAT ATGGAGCAGT TAGAAGTTCT 
    GGATATGGTA AATCCATTTC ACCTTTAAAA CAACTTTCCA CAACTATTGA AAAGAAAACA 
    TCAAAAGATG CTTTCAGAAG GACAAGTTTA AAAGCTAAAT CACCTGCAGA TAAAGCAAAG 
    CCCAAAGAAA CATTATTTAC TACTAGGGTA ATATCTGCAG TAAAGGAACC AGCTTCTAAA 
    AAGGGTATTA ATGTGGTTAC ATCTGACCAC TCAGCTATAA AAGACCTTGG GCAGCAGATG 
    AAGGATGTGG ATTCCTGTGT GCAGTTTCAA CGTGATTCCT CATTTGTATC TGTCAACAAT 
    AATGTGAGAG AGCTTTATTT GTTAAGAAGA GTACAGGCAG CAGAGGAAGA GTTGAATTCA 
    GCACATGATG TAATTCAGCA TTTAAAAGAT GTGGTCTCTC AGAAAGAGAA GGAAATGGAG 
    AATAAGATGG TGGAAATGAA AATGCAGTCT GATAAAGAGC TTTCCCAGCT GAGTCAAGAA 
    AATTATGAAC TTCAGACCAA GTTAAAAAGT GTGGAGGAAC TGAACAAAGG AAAGAAATGG 
    TTCCAGCCAG AGATGACAGA TCCTATCACT GAAGAAAAGT TAAAAGAAAT ACAGAAGGAA 
    ATTCAAGATC AAGAGACCCT TCTTCAAGGT TATCAACAGG AAAATGAAAG GTTATACAAG 
    CAAGTGAAAG AGCTACAGCT ACAAAACAAG AAAAATGAGG AAAGGATGTT TAAAGAAAAT 
    CAATATTTAA TGTCTGAATT AGCATCCTTA AGAGAAAAGA TGGATCAAAA TAACTTCCAG 
    TCACAGTTAG TGCAGGATTC TGAGCCAGTA AGAAACCAAA GTTTCTCAGA ATTGATTTCA 
    GAACTTCGAG CAGCACAGAA AGAAGAAACC AAACTGCTGG AAGAGATAAA ACGGCTTAAA 
    CAAGACAAAC AAGCCCTTGA AGTAGATTTG GGACAAATGA AAAGAGAAAG AGATCTGGCA 
    AGAACACAGT TTTTTTCTGC TTCAGGCGAG AAGAATTATG AGATAAAGAT TATGGAAGAA 
    TCATACAAAC AAGAAATTAG TAATTTGAAA AAGAGGTTGC AGTGGTATGC AGAAAATCAA 
    GACCTTTTGG ATAAAGATGC AGCACGTCTT AAAAATGCAA AAGAAGAAAT TGAGAAATTA 
    AAACTACAGG TTGAGAAGCT CACAACAGAA GCTGGGAATC GGTCTGTGCA ACAGAAGAAA 
    CGTTGGAAGG ACAGGGCAGC AGATGCTAAA AGAATTCAAG ATCTCGAGCG ACAGATTAAG 
    GAAATGGAAG GGATTCTGAA GAGAAGGCAT CCAAATTCAT TGCCTGCTTT AATATATGCT 
    GCTGCAGCAG CCTCTGAAGA AGTTGATGTT TCAGCTAAGA CCAATACAAT TGATTTTCTA 
    GAAAGAAGAA TAAAAAAGTT AGAAACAGAG TTAGAGGGGA AAGATGAGGA AGCTAAGAAA 
    AGTCTCCGTG CTATGGAACA ACAATTTCAA AAAATAAAGC TTCAGTATGA GCAAAGACTT 
    ATAGAGCTTG AAAAATTACT TGCTTCGAAG TTGATGAATG AACCCCAGAA ATTGCATGAC 
    AACAAATGCG GTTTTATAAC ACTTGAGCAA GAACTTAACA ATGAAAGAGA GACCTATCAG 
    ATCACTATAA AAAATCTTCA AACAGAAATT GAAAATCTTA AAGATCAAAA CTCTCAATTA 
    AAACTGAAAA GTGAAAGAGG TGATAAACAT TTAGAGAACC AGGTGGAACA AGCTAGTGCA 
    AAAGCCAGGT TGGTAAAATT AAATCAAGAA CTGGTCACCA AAAGTAAAGA AATACAGGAC 
    CTTACAAAAA CGGTGGAGAA GCTTCAGAGA GAGAGAAGGA GGATGCTGTG TGATCAGAAT 
    TCAAATGACA AAGCTGACAA CAGTGAAAAG TCCACAGAGA TTTTACAGAA GGATACTTCA 
    GCAACAGATA AAAGGAAATC TAGCAACCAT GAACCTTTTC CCAACACTCT CGATGAAAAA 
    ATATATCAAC CACATACCTT TGCTGATCCC CATATTTCAG AAGTTCTGCA AGAAAATGCA 
    AAGTTGAAAG ATGAGCTTGA AAGATTGTCT CTAGAAATGA AGCAGGAGCA AGTGAAGTCT 
    CAAGCAGCAC TGGCTTATTC CGAAAATAAT GTGCGCAGGA TAAAAGAAGA GATGGCTGAA 
    TACATCACAG CTCTTAAAGC ATCCCACCAG AGAGAAGTAG AGAAAATTCT TTGCCAGCAT 
    GCAATGGAGC ATTCCACTTC TAAACTAGCA AAACTAAATA GCAAAATTTC AACCCAAGAG 
    ATCCTAATAA AACATCTCCA AGAACAAGTT AAAGAGCTAC AGAGGGATCA AGAAGCCTTA 
    GTAGTTTCAC AGATGCGAGA GGAAATCTTA CAGAAGGAGA TGGCAAAATT ACTAAAAGAC 
    TTGAGAGAAG CTAAGGAGAG CCAGAGTCCT GAAATGAAAC GCTTCTTGTG CCTAGAAAGA 
    AAAATCAAGC ATATGGAGAC CAGACATGAC CAAAGAGAAC AAGAACTACA GCAGGTGGTG 
    CAACAGACAC AGCATGTTGC TGAAGCACAG CAAATCCAGG AGATTGAGAA ATGGAGGAAA 
    CTTGCTCAAA TAAAGAATCA GGAGCTGGAG AAATTTCGAG TGGAATTAGA TTCAATACTG 
    GATGTTCTAC GGGAATTACA GAAACAAGGA GTTATTATTC CAGCACCTAT TTCCAGTGGG 
    TTAAACATAC CAGGAAGTTA TTGGAAGTTG TGA

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

    CEP162 ( XM_019496859.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019352404.1 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAl67994
    Clone ID Related Accession (Same CDS sequence) XM_019496859.1
    Accession Version XM_019496859.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4188bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product centrosomal protein of 162 kDa isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712464.1) 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 :: Alligator mississippiensis 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
    3841
    3901
    3961
    4021
    4081
    4141
    ATGCTGGAAA AATTCCACAA GGCCAAGAAA GATGCGTTTT TAAACAAGGA AGATGGCAGC 
    ATCAGATCTG ACAGTCCAAA CAGTTCTGAG GGAATGCTTG GGACAAATGG AAGCTTTCTC 
    AAGTCACAAA AGAGTTCCCA GCCCCTTGCA GAAACAGATG AGGGTGCTCG TGTAGAAATG 
    ATGCAGCTTC AAAAAAATGA TGGTGTTTCT GTTTCCTTAA GCAGAGATAG CTTGGAAACT 
    AATGATTCAG TTGTGGCCTC TGGGCCTAAT CCAAGCATTT TAGGAGTTGG ATTGGATACT 
    TTGGAAGAAC AAGAAGAAAA AGAGAGGTTC TTTGCCAAAC TTGAGAAAGG AGCTTCATCT 
    ACCATTGATT ATTCAAGATT AAACAAAGAG CTGGATTCTA ATGATTCTCT GGTATTAGCA 
    CCATTTAGCC GGAATGAACA GGCTGTTGAA CAAATGGAAG AGGAAAAGGA ATCTAAACAC 
    AACGAGAGAT CTGAAGATTA TAGTGAAGAT TTTGCAGACG AGGAAGATGC TATTACTCCT 
    TCTAAAAGTG AAAATAATCA AGTTAAACAA ACGACAAGAT CAGATGATGA CTTAAGTGTC 
    CAACGACAGG AAGAAACACC TGGGATGCTG GCTAAAGTTG TATTGCTTGA TTCACAAGAC 
    TCTACTATGG AAGTTCAGAA GGTCTCTGAA CAACAGGGTG TAGCTGTGAC TGAACATCAA 
    ACATCTCAAG AAGTTGCTGA GAGTAAAATG AACAGGAGTG GTGTTTCCTG TGTGCAAACT 
    AACAGTGACA TTGAAGCATT ACATCAGGCA TATTATCATA TTGATCAGTC TTTAGGAGAC 
    ACAGATGAAC AAAGAATTCA TATCGGTGTA ATGGAAAATA TAGAATGCTT TGTCCAGGAT 
    GGTTCACAAA ATAATGAAGC TGGTGCAAAA AATGCTTCAA CTACTGAATC AGATTTACCT 
    ACTATAGAAG AGTTAATGAA ACCTATTAAA GCAGATTCAT CGTATGCCAG AGGCTTTGAC 
    CTGGAGTCTA TAAGCAGAAT GAAACCAGCA GACAGCAAAG CAGATGAATG TGTCAGCCAT 
    TTGCCATTTA AAGAGAACCA ATATGATACA GATGTAGAGA AACAAAGTTT AGATGTTTTG 
    TTTAAAGAAC ATAATAAAGA AGAGAACAAT TTTCTGTGGG CAGCTGTAAA TGATGGTAGT 
    GAAAGTAGCA ATCAAAAAAG GACTGAGAGA GAAGTCCAGA CTGAGAGAGT GCAGCTCAAC 
    ATACTGAGAC AAAAGTTAGC ACAAAATTCT ATCCTGTTGC GTCAAGATGA AAAAATGAAT 
    CAAGCACATC TGTCCAGCTC TTGGAAGCAT GATGGATTAC AATCAGTGAC CAATAAACAA 
    ACAGTGTACA AGAACACTAG AAATACTGCT TCTTTACATA AGAGGAAATC TGTATATGGA 
    GCAGTTAGAA GTTCTGGATA TGGTAAATCC ATTTCACCTT TAAAACAACT TTCCACAACT 
    ATTGAAAAGA AAACATCAAA AGATGCTTTC AGAAGGACAA GTTTAAAAGC TAAATCACCT 
    GCAGATAAAG CAAAGCCCAA AGAAACATTA TTTACTACTA GGGTAATATC TGCAGTAAAG 
    GAACCAGCTT CTAAAAAGGG TATTAATGTG GTTACATCTG ACCACTCAGC TATAAAAGAC 
    CTTGGGCAGC AGATGAAGGA TGTGGATTCC TGTGTGCAGT TTCAACGTGA TTCCTCATTT 
    GTATCTGTCA ACAATAATGT GAGAGAGCTT TATTTGTTAA GAAGAGTACA GGCAGCAGAG 
    GAAGAGTTGA ATTCAGCACA TGATGTAATT CAGCATTTAA AAGATGTGGT CTCTCAGAAA 
    GAGAAGGAAA TGGAGAATAA GATGGTGGAA ATGAAAATGC AGTCTGATAA AGAGCTTTCC 
    CAGCTGAGTC AAGAAAATTA TGAACTTCAG ACCAAGTTAA AAAGTGTGGA GGAACTGAAC 
    AAAGGAAAGA AATGGTTCCA GCCAGAGATG ACAGATCCTA TCACTGAAGA AAAGTTAAAA 
    GAAATACAGA AGGAAATTCA AGATCAAGAG ACCCTTCTTC AAGGTTATCA ACAGGAAAAT 
    GAAAGGTTAT ACAAGCAAGT GAAAGAGCTA CAGCTACAAA ACAAGAAAAA TGAGGAAAGG 
    ATGTTTAAAG AAAATCAATA TTTAATGTCT GAATTAGCAT CCTTAAGAGA AAAGATGGAT 
    CAAAATAACT TCCAGTCACA GTTAGTGCAG GATTCTGAGC CAGTAAGAAA CCAAAGTTTC 
    TCAGAATTGA TTTCAGAACT TCGAGCAGCA CAGAAAGAAG AAACCAAACT GCTGGAAGAG 
    ATAAAACGGC TTAAACAAGA CAAACAAGCC CTTGAAGTAG ATTTGGGACA AATGAAAAGA 
    GAAAGAGATC TGGCAAGAAC ACAGTTTTTT TCTGCTTCAG GCGAGAAGAA TTATGAGATA 
    AAGATTATGG AAGAATCATA CAAACAAGAA ATTAGTAATT TGAAAAAGAG GTTGCAGTGG 
    TATGCAGAAA ATCAAGACCT TTTGGATAAA GATGCAGCAC GTCTTAAAAA TGCAAAAGAA 
    GAAATTGAGA AATTAAAACT ACAGGTTGAG AAGCTCACAA CAGAAGCTGG GAATCGGTCT 
    GTGCAACAGA AGAAACGTTG GAAGGACAGG GCAGCAGATG CTAAAAGAAT TCAAGATCTC 
    GAGCGACAGA TTAAGGAAAT GGAAGGGATT CTGAAGAGAA GGCATCCAAA TTCATTGCCT 
    GCTTTAATAT ATGCTGCTGC AGCAGCCTCT GAAGAAGTTG ATGTTTCAGC TAAGACCAAT 
    ACAATTGATT TTCTAGAAAG AAGAATAAAA AAGTTAGAAA CAGAGTTAGA GGGGAAAGAT 
    GAGGAAGCTA AGAAAAGTCT CCGTGCTATG GAACAACAAT TTCAAAAAAT AAAGCTTCAG 
    TATGAGCAAA GACTTATAGA GCTTGAAAAA TTACTTGCTT CGAAGTTGAT GAATGAACCC 
    CAGAAATTGC ATGACAACAA ATGCGGTTTT ATAACACTTG AGCAAGAACT TAACAATGAA 
    AGAGAGACCT ATCAGATCAC TATAAAAAAT CTTCAAACAG AAATTGAAAA TCTTAAAGAT 
    CAAAACTCTC AATTAAAACT GAAAAGTGAA AGAGGTGATA AACATTTAGA GAACCAGGTG 
    GAACAAGCTA GTGCAAAAGC CAGGTTGGTA AAATTAAATC AAGAACTGGT CACCAAAAGT 
    AAAGAAATAC AGGACCTTAC AAAAACGGTG GAGAAGCTTC AGAGAGAGAG AAGGAGGATG 
    CTGTGTGATC AGAATTCAAA TGACAAAGCT GACAACAGTG AAAAGTCCAC AGAGATTTTA 
    CAGAAGGATA CTTCAGCAAC AGATAAAAGG AAATCTAGCA ACCATGAACC TTTTCCCAAC 
    ACTCTCGATG AAAAAATATA TCAACCACAT ACCTTTGCTG ATCCCCATAT TTCAGAAGTT 
    CTGCAAGAAA ATGCAAAGTT GAAAGATGAG CTTGAAAGAT TGTCTCTAGA AATGAAGCAG 
    GAGCAAGTGA AGTCTCAAGC AGCACTGGCT TATTCCGAAA ATAATGTGCG CAGGATAAAA 
    GAAGAGATGG CTGAATACAT CACAGCTCTT AAAGCATCCC ACCAGAGAGA AGTAGAGAAA 
    ATTCTTTGCC AGCATGCAAT GGAGCATTCC ACTTCTAAAC TAGCAAAACT AAATAGCAAA 
    ATTTCAACCC AAGAGATCCT AATAAAACAT CTCCAAGAAC AAGTTAAAGA GCTACAGAGG 
    GATCAAGAAG CCTTAGTAGT TTCACAGATG CGAGAGGAAA TCTTACAGAA GGAGATGGCA 
    AAATTACTAA AAGACTTGAG AGAAGCTAAG GAGAGCCAGA GTCCTGAAAT GAAACGCTTC 
    TTGTGCCTAG AAAGAAAAAT CAAGCATATG GAGACCAGAC ATGACCAAAG AGAACAAGAA 
    CTACAGCAGG TGGTGCAACA GACACAGCAT GTTGCTGAAG CACAGCAAAT CCAGGAGATT 
    GAGAAATGGA GGAAACTTGC TCAAATAAAG AATCAGGAGC TGGAGAAATT TCGAGTGGAA 
    TTAGATTCAA TACTGGATGT TCTACGGGAA TTACAGAAAC AAGGAGTTAT TATTCCAGCA 
    CCTATTTCCA GTGGGTTAAA CATACCAGGA AGTTATTGGA AGTTGTGA

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

    RefSeq XP_019352404.1
    CDS121..4308
    Translation

    Target ORF information:

    RefSeq Version XM_019496859.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019496859.1

    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
    ATGCTGGAAA AATTCCACAA GGCCAAGAAA GATGCGTTTT TAAACAAGGA AGATGGCAGC 
    ATCAGATCTG ACAGTCCAAA CAGTTCTGAG GGAATGCTTG GGACAAATGG AAGCTTTCTC 
    AAGTCACAAA AGAGTTCCCA GCCCCTTGCA GAAACAGATG AGGGTGCTCG TGTAGAAATG 
    ATGCAGCTTC AAAAAAATGA TGGTGTTTCT GTTTCCTTAA GCAGAGATAG CTTGGAAACT 
    AATGATTCAG TTGTGGCCTC TGGGCCTAAT CCAAGCATTT TAGGAGTTGG ATTGGATACT 
    TTGGAAGAAC AAGAAGAAAA AGAGAGGTTC TTTGCCAAAC TTGAGAAAGG AGCTTCATCT 
    ACCATTGATT ATTCAAGATT AAACAAAGAG CTGGATTCTA ATGATTCTCT GGTATTAGCA 
    CCATTTAGCC GGAATGAACA GGCTGTTGAA CAAATGGAAG AGGAAAAGGA ATCTAAACAC 
    AACGAGAGAT CTGAAGATTA TAGTGAAGAT TTTGCAGACG AGGAAGATGC TATTACTCCT 
    TCTAAAAGTG AAAATAATCA AGTTAAACAA ACGACAAGAT CAGATGATGA CTTAAGTGTC 
    CAACGACAGG AAGAAACACC TGGGATGCTG GCTAAAGTTG TATTGCTTGA TTCACAAGAC 
    TCTACTATGG AAGTTCAGAA GGTCTCTGAA CAACAGGGTG TAGCTGTGAC TGAACATCAA 
    ACATCTCAAG AAGTTGCTGA GAGTAAAATG AACAGGAGTG GTGTTTCCTG TGTGCAAACT 
    AACAGTGACA TTGAAGCATT ACATCAGGCA TATTATCATA TTGATCAGTC TTTAGGAGAC 
    ACAGATGAAC AAAGAATTCA TATCGGTGTA ATGGAAAATA TAGAATGCTT TGTCCAGGAT 
    GGTTCACAAA ATAATGAAGC TGGTGCAAAA AATGCTTCAA CTACTGAATC AGATTTACCT 
    ACTATAGAAG AGTTAATGAA ACCTATTAAA GCAGATTCAT CGTATGCCAG AGGCTTTGAC 
    CTGGAGTCTA TAAGCAGAAT GAAACCAGCA GACAGCAAAG CAGATGAATG TGTCAGCCAT 
    TTGCCATTTA AAGAGAACCA ATATGATACA GATGTAGAGA AACAAAGTTT AGATGTTTTG 
    TTTAAAGAAC ATAATAAAGA AGAGAACAAT TTTCTGTGGG CAGCTGTAAA TGATGGTAGT 
    GAAAGTAGCA ATCAAAAAAG GACTGAGAGA GAAGTCCAGA CTGAGAGAGT GCAGCTCAAC 
    ATACTGAGAC AAAAGTTAGC ACAAAATTCT ATCCTGTTGC GTCAAGATGA AAAAATGAAT 
    CAAGCACATC TGTCCAGCTC TTGGAAGCAT GATGGATTAC AATCAGTGAC CAATAAACAA 
    ACAGTGTACA AGAACACTAG AAATACTGCT TCTTTACATA AGAGGAAATC TGTATATGGA 
    GCAGTTAGAA GTTCTGGATA TGGTAAATCC ATTTCACCTT TAAAACAACT TTCCACAACT 
    ATTGAAAAGA AAACATCAAA AGATGCTTTC AGAAGGACAA GTTTAAAAGC TAAATCACCT 
    GCAGATAAAG CAAAGCCCAA AGAAACATTA TTTACTACTA GGGTAATATC TGCAGTAAAG 
    GAACCAGCTT CTAAAAAGGG TATTAATGTG GTTACATCTG ACCACTCAGC TATAAAAGAC 
    CTTGGGCAGC AGATGAAGGA TGTGGATTCC TGTGTGCAGT TTCAACGTGA TTCCTCATTT 
    GTATCTGTCA ACAATAATGT GAGAGAGCTT TATTTGTTAA GAAGAGTACA GGCAGCAGAG 
    GAAGAGTTGA ATTCAGCACA TGATGTAATT CAGCATTTAA AAGATGTGGT CTCTCAGAAA 
    GAGAAGGAAA TGGAGAATAA GATGGTGGAA ATGAAAATGC AGTCTGATAA AGAGCTTTCC 
    CAGCTGAGTC AAGAAAATTA TGAACTTCAG ACCAAGTTAA AAAGTGTGGA GGAACTGAAC 
    AAAGGAAAGA AATGGTTCCA GCCAGAGATG ACAGATCCTA TCACTGAAGA AAAGTTAAAA 
    GAAATACAGA AGGAAATTCA AGATCAAGAG ACCCTTCTTC AAGGTTATCA ACAGGAAAAT 
    GAAAGGTTAT ACAAGCAAGT GAAAGAGCTA CAGCTACAAA ACAAGAAAAA TGAGGAAAGG 
    ATGTTTAAAG AAAATCAATA TTTAATGTCT GAATTAGCAT CCTTAAGAGA AAAGATGGAT 
    CAAAATAACT TCCAGTCACA GTTAGTGCAG GATTCTGAGC CAGTAAGAAA CCAAAGTTTC 
    TCAGAATTGA TTTCAGAACT TCGAGCAGCA CAGAAAGAAG AAACCAAACT GCTGGAAGAG 
    ATAAAACGGC TTAAACAAGA CAAACAAGCC CTTGAAGTAG ATTTGGGACA AATGAAAAGA 
    GAAAGAGATC TGGCAAGAAC ACAGTTTTTT TCTGCTTCAG GCGAGAAGAA TTATGAGATA 
    AAGATTATGG AAGAATCATA CAAACAAGAA ATTAGTAATT TGAAAAAGAG GTTGCAGTGG 
    TATGCAGAAA ATCAAGACCT TTTGGATAAA GATGCAGCAC GTCTTAAAAA TGCAAAAGAA 
    GAAATTGAGA AATTAAAACT ACAGGTTGAG AAGCTCACAA CAGAAGCTGG GAATCGGTCT 
    GTGCAACAGA AGAAACGTTG GAAGGACAGG GCAGCAGATG CTAAAAGAAT TCAAGATCTC 
    GAGCGACAGA TTAAGGAAAT GGAAGGGATT CTGAAGAGAA GGCATCCAAA TTCATTGCCT 
    GCTTTAATAT ATGCTGCTGC AGCAGCCTCT GAAGAAGTTG ATGTTTCAGC TAAGACCAAT 
    ACAATTGATT TTCTAGAAAG AAGAATAAAA AAGTTAGAAA CAGAGTTAGA GGGGAAAGAT 
    GAGGAAGCTA AGAAAAGTCT CCGTGCTATG GAACAACAAT TTCAAAAAAT AAAGCTTCAG 
    TATGAGCAAA GACTTATAGA GCTTGAAAAA TTACTTGCTT CGAAGTTGAT GAATGAACCC 
    CAGAAATTGC ATGACAACAA ATGCGGTTTT ATAACACTTG AGCAAGAACT TAACAATGAA 
    AGAGAGACCT ATCAGATCAC TATAAAAAAT CTTCAAACAG AAATTGAAAA TCTTAAAGAT 
    CAAAACTCTC AATTAAAACT GAAAAGTGAA AGAGGTGATA AACATTTAGA GAACCAGGTG 
    GAACAAGCTA GTGCAAAAGC CAGGTTGGTA AAATTAAATC AAGAACTGGT CACCAAAAGT 
    AAAGAAATAC AGGACCTTAC AAAAACGGTG GAGAAGCTTC AGAGAGAGAG AAGGAGGATG 
    CTGTGTGATC AGAATTCAAA TGACAAAGCT GACAACAGTG AAAAGTCCAC AGAGATTTTA 
    CAGAAGGATA CTTCAGCAAC AGATAAAAGG AAATCTAGCA ACCATGAACC TTTTCCCAAC 
    ACTCTCGATG AAAAAATATA TCAACCACAT ACCTTTGCTG ATCCCCATAT TTCAGAAGTT 
    CTGCAAGAAA ATGCAAAGTT GAAAGATGAG CTTGAAAGAT TGTCTCTAGA AATGAAGCAG 
    GAGCAAGTGA AGTCTCAAGC AGCACTGGCT TATTCCGAAA ATAATGTGCG CAGGATAAAA 
    GAAGAGATGG CTGAATACAT CACAGCTCTT AAAGCATCCC ACCAGAGAGA AGTAGAGAAA 
    ATTCTTTGCC AGCATGCAAT GGAGCATTCC ACTTCTAAAC TAGCAAAACT AAATAGCAAA 
    ATTTCAACCC AAGAGATCCT AATAAAACAT CTCCAAGAAC AAGTTAAAGA GCTACAGAGG 
    GATCAAGAAG CCTTAGTAGT TTCACAGATG CGAGAGGAAA TCTTACAGAA GGAGATGGCA 
    AAATTACTAA AAGACTTGAG AGAAGCTAAG GAGAGCCAGA GTCCTGAAAT GAAACGCTTC 
    TTGTGCCTAG AAAGAAAAAT CAAGCATATG GAGACCAGAC ATGACCAAAG AGAACAAGAA 
    CTACAGCAGG TGGTGCAACA GACACAGCAT GTTGCTGAAG CACAGCAAAT CCAGGAGATT 
    GAGAAATGGA GGAAACTTGC TCAAATAAAG AATCAGGAGC TGGAGAAATT TCGAGTGGAA 
    TTAGATTCAA TACTGGATGT TCTACGGGAA TTACAGAAAC AAGGAGTTAT TATTCCAGCA 
    CCTATTTCCA GTGGGTTAAA CATACCAGGA AGTTATTGGA AGTTGTGA

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

    CEP162 ( XM_019496860.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019352405.1 Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAl67995
    Clone ID Related Accession (Same CDS sequence) XM_019496860.1
    Accession Version XM_019496860.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4095bp)
    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 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product centrosomal protein of 162 kDa isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712464.1) 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 :: Alligator mississippiensis 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
    3841
    3901
    3961
    4021
    4081
    ATGCTTGGGA CAAATGGAAG CTTTCTCAAG TCACAAAAGA GTTCCCAGCC CCTTGCAGAA 
    ACAGATGAGG GTGCTCGTGT AGAAATGATG CAGCTTCAAA AAAATGATGG TGTTTCTGTT 
    TCCTTAAGCA GAGATAGCTT GGAAACTAAT GATTCAGTTG TGGCCTCTGG GCCTAATCCA 
    AGCATTTTAG GAGTTGGATT GGATACTTTG GAAGAACAAG AAGAAAAAGA GAGGTTCTTT 
    GCCAAACTTG AGAAAGGAGC TTCATCTACC ATTGATTATT CAAGATTAAA CAAAGAGCTG 
    GATTCTAATG ATTCTCTGGT ATTAGCACCA TTTAGCCGGA ATGAACAGGC TGTTGAACAA 
    ATGGAAGAGG AAAAGGAATC TAAACACAAC GAGAGATCTG AAGATTATAG TGAAGATTTT 
    GCAGACGAGG AAGATGCTAT TACTCCTTCT AAAAGTGAAA ATAATCAAGT TAAACAAACG 
    ACAAGATCAG ATGATGACTT AAGTGTCCAA CGACAGGAAG AAACACCTGG GATGCTGGCT 
    AAAGTTGTAT TGCTTGATTC ACAAGACTCT ACTATGGAAG TTCAGAAGGT CTCTGAACAA 
    CAGGGTGTAG CTGTGACTGA ACATCAAACA TCTCAAGAAG TTGCTGAGAG TAAAATGAAC 
    AGGAGTGGTG TTTCCTGTGT GCAAACTAAC AGTGACATTG AAGCATTACA TCAGGCATAT 
    TATCATATTG ATCAGTCTTT AGGAGACACA GATGAACAAA GAATTCATAT CGGTGTAATG 
    GAAAATATAG AATGCTTTGT CCAGGATGGT TCACAAAATA ATGAAGCTGG TGCAAAAAAT 
    GCTTCAACTA CTGAATCAGA TTTACCTACT ATAGAAGAGT TAATGAAACC TATTAAAGCA 
    GATTCATCGT ATGCCAGAGG CTTTGACCTG GAGTCTATAA GCAGAATGAA ACCAGCAGAC 
    AGCAAAGCAG ATGAATGTGT CAGCCATTTG CCATTTAAAG AGAACCAATA TGATACAGAT 
    GTAGAGAAAC AAAGTTTAGA TGTTTTGTTT AAAGAACATA ATAAAGAAGA GAACAATTTT 
    CTGTGGGCAG CTGTAAATGA TGGTAGTGAA AGTAGCAATC AAAAAAGGAC TGAGAGAGAA 
    GTCCAGACTG AGAGAGTGCA GCTCAACATA CTGAGACAAA AGTTAGCACA AAATTCTATC 
    CTGTTGCGTC AAGATGAAAA AATGAATCAA GCACATCTGT CCAGCTCTTG GAAGCATGAT 
    GGATTACAAT CAGTGACCAA TAAACAAACA GTGTACAAGA ACACTAGAAA TACTGCTTCT 
    TTACATAAGA GGAAATCTGT ATATGGAGCA GTTAGAAGTT CTGGATATGG TAAATCCATT 
    TCACCTTTAA AACAACTTTC CACAACTATT GAAAAGAAAA CATCAAAAGA TGCTTTCAGA 
    AGGACAAGTT TAAAAGCTAA ATCACCTGCA GATAAAGCAA AGCCCAAAGA AACATTATTT 
    ACTACTAGGG TAATATCTGC AGTAAAGGAA CCAGCTTCTA AAAAGGGTAT TAATGTGGTT 
    ACATCTGACC ACTCAGCTAT AAAAGACCTT GGGCAGCAGA TGAAGGATGT GGATTCCTGT 
    GTGCAGTTTC AACGTGATTC CTCATTTGTA TCTGTCAACA ATAATGTGAG AGAGCTTTAT 
    TTGTTAAGAA GAGTACAGGC AGCAGAGGAA GAGTTGAATT CAGCACATGA TGTAATTCAG 
    CATTTAAAAG ATGTGGTCTC TCAGAAAGAG AAGGAAATGG AGAATAAGAT GGTGGAAATG 
    AAAATGCAGT CTGATAAAGA GCTTTCCCAG CTGAGTCAAG AAAATTATGA ACTTCAGACC 
    AAGTTAAAAA GTGTGGAGGA ACTGAACAAA GGAAAGAAAT GGTTCCAGCC AGAGATGACA 
    GATCCTATCA CTGAAGAAAA GTTAAAAGAA ATACAGAAGG AAATTCAAGA TCAAGAGACC 
    CTTCTTCAAG GTTATCAACA GGAAAATGAA AGGTTATACA AGCAAGTGAA AGAGCTACAG 
    CTACAAAACA AGAAAAATGA GGAAAGGATG TTTAAAGAAA ATCAATATTT AATGTCTGAA 
    TTAGCATCCT TAAGAGAAAA GATGGATCAA AATAACTTCC AGTCACAGTT AGTGCAGGAT 
    TCTGAGCCAG TAAGAAACCA AAGTTTCTCA GAATTGATTT CAGAACTTCG AGCAGCACAG 
    AAAGAAGAAA CCAAACTGCT GGAAGAGATA AAACGGCTTA AACAAGACAA ACAAGCCCTT 
    GAAGTAGATT TGGGACAAAT GAAAAGAGAA AGAGATCTGG CAAGAACACA GTTTTTTTCT 
    GCTTCAGGCG AGAAGAATTA TGAGATAAAG ATTATGGAAG AATCATACAA ACAAGAAATT 
    AGTAATTTGA AAAAGAGGTT GCAGTGGTAT GCAGAAAATC AAGACCTTTT GGATAAAGAT 
    GCAGCACGTC TTAAAAATGC AAAAGAAGAA ATTGAGAAAT TAAAACTACA GGTTGAGAAG 
    CTCACAACAG AAGCTGGGAA TCGGTCTGTG CAACAGAAGA AACGTTGGAA GGACAGGGCA 
    GCAGATGCTA AAAGAATTCA AGATCTCGAG CGACAGATTA AGGAAATGGA AGGGATTCTG 
    AAGAGAAGGC ATCCAAATTC ATTGCCTGCT TTAATATATG CTGCTGCAGC AGCCTCTGAA 
    GAAGTTGATG TTTCAGCTAA GACCAATACA ATTGATTTTC TAGAAAGAAG AATAAAAAAG 
    TTAGAAACAG AGTTAGAGGG GAAAGATGAG GAAGCTAAGA AAAGTCTCCG TGCTATGGAA 
    CAACAATTTC AAAAAATAAA GCTTCAGTAT GAGCAAAGAC TTATAGAGCT TGAAAAATTA 
    CTTGCTTCGA AGTTGATGAA TGAACCCCAG AAATTGCATG ACAACAAATG CGGTTTTATA 
    ACACTTGAGC AAGAACTTAA CAATGAAAGA GAGACCTATC AGATCACTAT AAAAAATCTT 
    CAAACAGAAA TTGAAAATCT TAAAGATCAA AACTCTCAAT TAAAACTGAA AAGTGAAAGA 
    GGTGATAAAC ATTTAGAGAA CCAGGTGGAA CAAGCTAGTG CAAAAGCCAG GTTGGTAAAA 
    TTAAATCAAG AACTGGTCAC CAAAAGTAAA GAAATACAGG ACCTTACAAA AACGGTGGAG 
    AAGCTTCAGA GAGAGAGAAG GAGGATGCTG TGTGATCAGA ATTCAAATGA CAAAGCTGAC 
    AACAGTGAAA AGTCCACAGA GATTTTACAG AAGGATACTT CAGCAACAGA TAAAAGGAAA 
    TCTAGCAACC ATGAACCTTT TCCCAACACT CTCGATGAAA AAATATATCA ACCACATACC 
    TTTGCTGATC CCCATATTTC AGAAGTTCTG CAAGAAAATG CAAAGTTGAA AGATGAGCTT 
    GAAAGATTGT CTCTAGAAAT GAAGCAGGAG CAAGTGAAGT CTCAAGCAGC ACTGGCTTAT 
    TCCGAAAATA ATGTGCGCAG GATAAAAGAA GAGATGGCTG AATACATCAC AGCTCTTAAA 
    GCATCCCACC AGAGAGAAGT AGAGAAAATT CTTTGCCAGC ATGCAATGGA GCATTCCACT 
    TCTAAACTAG CAAAACTAAA TAGCAAAATT TCAACCCAAG AGATCCTAAT AAAACATCTC 
    CAAGAACAAG TTAAAGAGCT ACAGAGGGAT CAAGAAGCCT TAGTAGTTTC ACAGATGCGA 
    GAGGAAATCT TACAGAAGGA GATGGCAAAA TTACTAAAAG ACTTGAGAGA AGCTAAGGAG 
    AGCCAGAGTC CTGAAATGAA ACGCTTCTTG TGCCTAGAAA GAAAAATCAA GCATATGGAG 
    ACCAGACATG ACCAAAGAGA ACAAGAACTA CAGCAGGTGG TGCAACAGAC ACAGCATGTT 
    GCTGAAGCAC AGCAAATCCA GGAGATTGAG AAATGGAGGA AACTTGCTCA AATAAAGAAT 
    CAGGAGCTGG AGAAATTTCG AGTGGAATTA GATTCAATAC TGGATGTTCT ACGGGAATTA 
    CAGAAACAAG GAGTTATTAT TCCAGCACCT ATTTCCAGTG GGTTAAACAT ACCAGGAAGT 
    TATTGGAAGT TGTGA

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

    RefSeq XP_019352405.1
    CDS68..4162
    Translation

    Target ORF information:

    RefSeq Version XM_019496860.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis centrosomal protein 162 (CEP162), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019496860.1

    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
    ATGCTTGGGA CAAATGGAAG CTTTCTCAAG TCACAAAAGA GTTCCCAGCC CCTTGCAGAA 
    ACAGATGAGG GTGCTCGTGT AGAAATGATG CAGCTTCAAA AAAATGATGG TGTTTCTGTT 
    TCCTTAAGCA GAGATAGCTT GGAAACTAAT GATTCAGTTG TGGCCTCTGG GCCTAATCCA 
    AGCATTTTAG GAGTTGGATT GGATACTTTG GAAGAACAAG AAGAAAAAGA GAGGTTCTTT 
    GCCAAACTTG AGAAAGGAGC TTCATCTACC ATTGATTATT CAAGATTAAA CAAAGAGCTG 
    GATTCTAATG ATTCTCTGGT ATTAGCACCA TTTAGCCGGA ATGAACAGGC TGTTGAACAA 
    ATGGAAGAGG AAAAGGAATC TAAACACAAC GAGAGATCTG AAGATTATAG TGAAGATTTT 
    GCAGACGAGG AAGATGCTAT TACTCCTTCT AAAAGTGAAA ATAATCAAGT TAAACAAACG 
    ACAAGATCAG ATGATGACTT AAGTGTCCAA CGACAGGAAG AAACACCTGG GATGCTGGCT 
    AAAGTTGTAT TGCTTGATTC ACAAGACTCT ACTATGGAAG TTCAGAAGGT CTCTGAACAA 
    CAGGGTGTAG CTGTGACTGA ACATCAAACA TCTCAAGAAG TTGCTGAGAG TAAAATGAAC 
    AGGAGTGGTG TTTCCTGTGT GCAAACTAAC AGTGACATTG AAGCATTACA TCAGGCATAT 
    TATCATATTG ATCAGTCTTT AGGAGACACA GATGAACAAA GAATTCATAT CGGTGTAATG 
    GAAAATATAG AATGCTTTGT CCAGGATGGT TCACAAAATA ATGAAGCTGG TGCAAAAAAT 
    GCTTCAACTA CTGAATCAGA TTTACCTACT ATAGAAGAGT TAATGAAACC TATTAAAGCA 
    GATTCATCGT ATGCCAGAGG CTTTGACCTG GAGTCTATAA GCAGAATGAA ACCAGCAGAC 
    AGCAAAGCAG ATGAATGTGT CAGCCATTTG CCATTTAAAG AGAACCAATA TGATACAGAT 
    GTAGAGAAAC AAAGTTTAGA TGTTTTGTTT AAAGAACATA ATAAAGAAGA GAACAATTTT 
    CTGTGGGCAG CTGTAAATGA TGGTAGTGAA AGTAGCAATC AAAAAAGGAC TGAGAGAGAA 
    GTCCAGACTG AGAGAGTGCA GCTCAACATA CTGAGACAAA AGTTAGCACA AAATTCTATC 
    CTGTTGCGTC AAGATGAAAA AATGAATCAA GCACATCTGT CCAGCTCTTG GAAGCATGAT 
    GGATTACAAT CAGTGACCAA TAAACAAACA GTGTACAAGA ACACTAGAAA TACTGCTTCT 
    TTACATAAGA GGAAATCTGT ATATGGAGCA GTTAGAAGTT CTGGATATGG TAAATCCATT 
    TCACCTTTAA AACAACTTTC CACAACTATT GAAAAGAAAA CATCAAAAGA TGCTTTCAGA 
    AGGACAAGTT TAAAAGCTAA ATCACCTGCA GATAAAGCAA AGCCCAAAGA AACATTATTT 
    ACTACTAGGG TAATATCTGC AGTAAAGGAA CCAGCTTCTA AAAAGGGTAT TAATGTGGTT 
    ACATCTGACC ACTCAGCTAT AAAAGACCTT GGGCAGCAGA TGAAGGATGT GGATTCCTGT 
    GTGCAGTTTC AACGTGATTC CTCATTTGTA TCTGTCAACA ATAATGTGAG AGAGCTTTAT 
    TTGTTAAGAA GAGTACAGGC AGCAGAGGAA GAGTTGAATT CAGCACATGA TGTAATTCAG 
    CATTTAAAAG ATGTGGTCTC TCAGAAAGAG AAGGAAATGG AGAATAAGAT GGTGGAAATG 
    AAAATGCAGT CTGATAAAGA GCTTTCCCAG CTGAGTCAAG AAAATTATGA ACTTCAGACC 
    AAGTTAAAAA GTGTGGAGGA ACTGAACAAA GGAAAGAAAT GGTTCCAGCC AGAGATGACA 
    GATCCTATCA CTGAAGAAAA GTTAAAAGAA ATACAGAAGG AAATTCAAGA TCAAGAGACC 
    CTTCTTCAAG GTTATCAACA GGAAAATGAA AGGTTATACA AGCAAGTGAA AGAGCTACAG 
    CTACAAAACA AGAAAAATGA GGAAAGGATG TTTAAAGAAA ATCAATATTT AATGTCTGAA 
    TTAGCATCCT TAAGAGAAAA GATGGATCAA AATAACTTCC AGTCACAGTT AGTGCAGGAT 
    TCTGAGCCAG TAAGAAACCA AAGTTTCTCA GAATTGATTT CAGAACTTCG AGCAGCACAG 
    AAAGAAGAAA CCAAACTGCT GGAAGAGATA AAACGGCTTA AACAAGACAA ACAAGCCCTT 
    GAAGTAGATT TGGGACAAAT GAAAAGAGAA AGAGATCTGG CAAGAACACA GTTTTTTTCT 
    GCTTCAGGCG AGAAGAATTA TGAGATAAAG ATTATGGAAG AATCATACAA ACAAGAAATT 
    AGTAATTTGA AAAAGAGGTT GCAGTGGTAT GCAGAAAATC AAGACCTTTT GGATAAAGAT 
    GCAGCACGTC TTAAAAATGC AAAAGAAGAA ATTGAGAAAT TAAAACTACA GGTTGAGAAG 
    CTCACAACAG AAGCTGGGAA TCGGTCTGTG CAACAGAAGA AACGTTGGAA GGACAGGGCA 
    GCAGATGCTA AAAGAATTCA AGATCTCGAG CGACAGATTA AGGAAATGGA AGGGATTCTG 
    AAGAGAAGGC ATCCAAATTC ATTGCCTGCT TTAATATATG CTGCTGCAGC AGCCTCTGAA 
    GAAGTTGATG TTTCAGCTAA GACCAATACA ATTGATTTTC TAGAAAGAAG AATAAAAAAG 
    TTAGAAACAG AGTTAGAGGG GAAAGATGAG GAAGCTAAGA AAAGTCTCCG TGCTATGGAA 
    CAACAATTTC AAAAAATAAA GCTTCAGTAT GAGCAAAGAC TTATAGAGCT TGAAAAATTA 
    CTTGCTTCGA AGTTGATGAA TGAACCCCAG AAATTGCATG ACAACAAATG CGGTTTTATA 
    ACACTTGAGC AAGAACTTAA CAATGAAAGA GAGACCTATC AGATCACTAT AAAAAATCTT 
    CAAACAGAAA TTGAAAATCT TAAAGATCAA AACTCTCAAT TAAAACTGAA AAGTGAAAGA 
    GGTGATAAAC ATTTAGAGAA CCAGGTGGAA CAAGCTAGTG CAAAAGCCAG GTTGGTAAAA 
    TTAAATCAAG AACTGGTCAC CAAAAGTAAA GAAATACAGG ACCTTACAAA AACGGTGGAG 
    AAGCTTCAGA GAGAGAGAAG GAGGATGCTG TGTGATCAGA ATTCAAATGA CAAAGCTGAC 
    AACAGTGAAA AGTCCACAGA GATTTTACAG AAGGATACTT CAGCAACAGA TAAAAGGAAA 
    TCTAGCAACC ATGAACCTTT TCCCAACACT CTCGATGAAA AAATATATCA ACCACATACC 
    TTTGCTGATC CCCATATTTC AGAAGTTCTG CAAGAAAATG CAAAGTTGAA AGATGAGCTT 
    GAAAGATTGT CTCTAGAAAT GAAGCAGGAG CAAGTGAAGT CTCAAGCAGC ACTGGCTTAT 
    TCCGAAAATA ATGTGCGCAG GATAAAAGAA GAGATGGCTG AATACATCAC AGCTCTTAAA 
    GCATCCCACC AGAGAGAAGT AGAGAAAATT CTTTGCCAGC ATGCAATGGA GCATTCCACT 
    TCTAAACTAG CAAAACTAAA TAGCAAAATT TCAACCCAAG AGATCCTAAT AAAACATCTC 
    CAAGAACAAG TTAAAGAGCT ACAGAGGGAT CAAGAAGCCT TAGTAGTTTC ACAGATGCGA 
    GAGGAAATCT TACAGAAGGA GATGGCAAAA TTACTAAAAG ACTTGAGAGA AGCTAAGGAG 
    AGCCAGAGTC CTGAAATGAA ACGCTTCTTG TGCCTAGAAA GAAAAATCAA GCATATGGAG 
    ACCAGACATG ACCAAAGAGA ACAAGAACTA CAGCAGGTGG TGCAACAGAC ACAGCATGTT 
    GCTGAAGCAC AGCAAATCCA GGAGATTGAG AAATGGAGGA AACTTGCTCA AATAAAGAAT 
    CAGGAGCTGG AGAAATTTCG AGTGGAATTA GATTCAATAC TGGATGTTCT ACGGGAATTA 
    CAGAAACAAG GAGTTATTAT TCCAGCACCT ATTTCCAGTG GGTTAAACAT ACCAGGAAGT 
    TATTGGAAGT TGTGA

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

見積依頼

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03-6811-6573
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