CCDC144NL cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following CCDC144NL gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC144NL 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
OMb72819 XM_028836122.1
Latest version!
Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMb50085 XM_015118812.1
Latest version!
Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OMb50086 XM_015118813.1
Latest version!
Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OMb50087 XM_015118814.1
Latest version!
Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OMb50088 XM_015118815.1
Latest version!
Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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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)
    CloneID OMb72819
    Clone ID Related Accession (Same CDS sequence) XM_028836122.1
    Accession Version XM_028836122.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5934bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product LOW QUALITY PROTEIN: putative coiled-coil domain-containing protein 144 N-terminal-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG GTAAATTAGA GTGGAAAAAC
    AAATTAAAAC TTGTCACAAA TGAGTTAAAG CAGAGGTTTG GTGAAATTCG TGAAACATAC
    AAAATTCCGG TTTGTCCTGA GGAAGAGCCA CTACTTGATA ACTCTATGAG AAAAACAAAT
    GTAAAAGACA TTCCCTTTAA TTTGACAAAT AATATACCTG GTTGTGTGGA AGAAGATGCA
    TCTGAAGTGT CTGTCTCAGT GGTATTCGAG ACATTTCCTG AACAAAATGA ACCCAGTCTC
    AAAAGTATCA TCCATCCATA CTTTCATCCA TACTCTGGGT CCCTGCAACA TGCTTGCCAG
    TCATCTTCTA AGCTTCATTT ACATGAAAAG AAATTAGACT GTGACAGTGA TAACAAACCA
    GGCGTTGAAC ATATTTTTAG TATGGATGAA AACTTTAGTA ATGATGCAGG CACTAAGAAA
    GCAAGGAACC CAGAAGAGGT TACAGTTGAA ATGAAAGAAG ACCAAGAGTT TGATTTGCAA
    ATGACAAAAA ACATGAACCA AAATAGTGAC AGTTGCAGTA CAAATAACTA TAAAAGTCTG
    AAACCTAAAT TAGAAAATCT GAGTTCTTTA CCACCAGATT CTTACAGAAC ATCAGAAGTA
    TATCTACATG AAGAATTACA GCAAGACATG CAAAAGCCTA AGACTGAGGT TGACAGGGTG
    GAAGAAATGT TCCTGGCTTT GAAGAAAGAA AACGTTCAGC TTCAGAAAGA GAAATCCCAG
    AGACATAGCG AGTCAGAGCC TTCCTTACAA TCAGAGGATG CAGAGGATGC AGATGAGCTT
    TTAAGGGTCC TGAGCACAGA TCTTGAATTT CTTGATTTGG ATCAAATCAG TCCTGAGGAA
    CAGCAGATTA GTTCCCCTGC AAGGCAGCCC TCGGGAGAAC TTCAGGAGAT AACCCACCAG
    ATGCCCCAAG ATGAACTGGG ACGAGAAAGA AGGGACTTGG AGCCAGAAAG CAGAGAGGAG
    GGACAAGAAA GGAGAGTATG TGACATCCAG TCCAAAGCAG GGATCTCCCG GCAGTCATTG
    ATGTCCAGCA CCACAGAGGA CATTCTGTTT CAAAAGGATG AAAGTGCCTG GGTGTATCCC
    TTGAAAAAAA CCCAAAGAGA TAGCAAGTCA AAGCCTTCCT TGCAATCAGA GGATGCAGAG
    GATGCAGATG AGCTTTTAAG AGTCCTGAGC ACAGACCTTG AATTTCTTGA TTTGGATCAA
    ATCAGTCCTG AAGATCAACA GATTAGTTCC CCTGCAAGGC AGCCCTTGAA AGAACTTGAG
    GAGAAAACTG ACCAGATGCC CCAAGATGAA CTGGGACGAG AAAGAAGGGA CTTGGAGCCA
    GAAAGCAGAG AGGAGGGACA AGAAAGGAGA GTATGTGACA TCCAGTCCAA AGCAGGGATC
    TCCCGGCCAT CACTGATGTC CAGCACCACA GACGACACCC TGTTTCAAAA GGATGAAAGT
    GCCTGGGTGT ATCCTTTGAA ATCCCAGAGA CATAGCGAGT CAGAGCCTTC CTTACAATCA
    GAGGATGCAG AGGATGCAGA TGAGCTTTTA AGGGTCCTGA GCACAGATCT TGAATTTCTT
    GATTTGGATC AAATCAGTCC TGAGGAACAA CAGATTAGTT CCCCTGCAAG GCAGCCCTCG
    GGAGAACTTC AGGAGATAAC CCACCAGATG CCCCAAGATG AACTGGGACG AGAAAGAAGG
    GACTTGGAGC CAGAAAACAG AGAGGAGGGA CAAGAAAGGA GAGTATGTGA CATCCAGTCC
    AAAGCAGGGA TCTCCCGGCC ATCACTGATG TCCAGCACCA CAGACGACAC CCTGTTTCAA
    AAGGATGAAA GTGCCTGGAT GTATCCCTTG AAATCCCAGA GACATAGCGA GTCAGAGCCT
    TCCTTACAAT CAGAGGATGC AGAGGATGCA GATGAGCTTT TAAGGGTCCT GAGCACAGAT
    CTTGAATTTC TTGATTTGGA TCAAATCAGT CCTGAGGAAC AACAGATTAG TTCCCCTGCA
    AGGCAGCCCT CGGGAGAACT TCAGGAGATA ACCCACCAGA TGCCCCAAGA TGAACTGGGA
    CGAGAAAGAA GGGACTTGGA GCCAGAAAGC AGAGAGGAGG GACAAGAAAG GAGAGTATGT
    GACATCCAGT CCAAAGCAGG GATCTCCCGG CCATCACTGA TGTCCAGCAC CACAGACGAC
    ACCCTGTTTC AAAAGGATGA AAGTGCCTGG ATGTATCCCT TGGTTGAAGA AGAAGTGGAA
    AAGCAGAGAA GTAATAGCAC AGAATTATCA GGAAACCCAG CTCATGGTGC TGCTGCTGGC
    AATAATGATG ATGGACTAAA TCAGCAGTTT CCTAGGAAGA AGAAGAAAGG GCATGACAGG
    CCTGCAGATA AAACATCTAA TGAAAAGAAC AAGGTCAAAA ACCAAGTACA TCCTGAGGCT
    GACTTTGCTG ACTCAGTGGG GCCATCTGAA ACGACCTCAG AGGATTGTGA GTTATCTCAC
    TCTACTTATG AGAATTTTTT GTTGCTGATT GAACAACTTG GAATGGAGTG TAAAGATTCT
    GTTAGCCTAT CAAGAATCCA AGACACATTT TGTTTCTATG AACACTTACT GAAACTTAAG
    AATAATGACT ATGAACAACT TACAGTAAAA ATTAAACAAA CAGAAAATAT GGTCAGTGTA
    CTACAAAAGG AGCTATCTGA AACAAAAAAG ACAGAATTAC AGTTAGAGCT TCAAAAAATT
    GAATTGGAGA AACAGCTGTA CAGTTTGAGA CTTGCCTTAA AACAAGAAAA AGAGGAGAAA
    GGAAATGCTG TCATGTTATA TAATAAATAT AGTGAACGGT TAAGACTAAA AGAAGAGGAA
    TGTGGGAAAG AGGTTGAAAT GAAGCAACGA CTTAAATGGA CACTGAGAAG ACTCGTTAAG
    GAGTTGAAGA CAGTAAGAAA CAACTTGGAT CTGGTTGTGC AGGAGCGAAA CGATGTCCAG
    AAGCAACTTT CTGAAGAACA GAATGCCAGA ATATTACAAG ATCAGATTCT GACGAGTAAA
    CAAAAGGAGC TAGAAATTGC TCAAAAGAAA ATTAATTCTG AGATTTCTCA TAGGCATAAA
    AAAGAAAAGG ATCTCTTGCA TGAAAATTGC ATGTTGCAGG AAGAAATTGC CTTGCTGAGA
    CTGGAAATAG ATACAGTAAA TAATCAGAAC CAGCAAAAGG AAAAGAAATA TTTTGAAGAC
    ATTGAGGTTG TGAAAGAAAA GAATGATAAC CTTCAAAAAA TTATAAAACT AAATGAGGAA
    AAATTAACAA AAACAATACT GCAGTACAGT GGACAGCTGA ACGATCTGAC AGCTGAGAAT
    AAAATACTCA ATTCTGAACT GGAAAATAAG AAACAGAACC AAGAAAGACT GGAAATAGAA
    ATGGAATCGT ATCGCTGTAG ACTGGCTGCT GCTCTACGTG ATTGTGATCA AAGTCAGACA
    TCAAGAGACC CAAAACTTGA TTTCCAGAGA ACAAGACAAG AGTGGGTTCA TTTACAGGAC
    AAGAAAAACG TTGATATGTC TGACCTACAA GCTAAGACTG AGATTCTTTC TGAAAAACTT
    TCTAATGCTG AAAGTAAAAT CAGCAGCCTA CAAATTCAGC TCCATAACAC AAGAGATGCT
    GTTGAAAGAA AGAGTTTGAT TTTGGAACGT TTGCAAAGAG ACCTCAGCCA AACACACTGT
    GAGAAGAAAG AAATTGAACA AATGTACCAA ACTGAACAAC GCAAACTGAA GAAATACATT
    GCCAAGCAGG AATCTGTAGA GGAGAGATTA TCTCAACTAC AAAATGAAAA TACATTGCTT
    CCACAGCAAC TTGATGATNC CCACAAGAAA GCTAACAGTC AGGAAAAGAC AATCAGTACT
    ATCCAAGACC AATTTCATGC TTTTGCCAAA AATCTTCAAG CTGAGAGTGA AAAGAAGATT
    CTTTCACTAC AAGAGAAGAA CAAGGAGTTG ATGGATGAAT ATAATCATTT ACAAGAAAGA
    ATGCATCAAT GTGAGAAAGA GAAAGCACGA AGAAAAGTAG TTATGAGACA ACTCCAACAA
    GAATGGACCG ATCCCCTAAA ACAACAACCT ACATCAGAGG CTACATCACG TTGTCACATT
    AATTTAGATG AGACACTCAA TTCAAAGAAG AAATTGGGTC AAATCAGAAG TGAAGTTGAC
    CTTATAGAAG CACAGGAAAC TGCACCTTTA CGATGTCTAC ATCTGGATGC AGAGAATGAA
    GTTCTTCAAC TTCAACAGAC ATTATTCTCT ATGAAAGCAA TACGAAAGCA ATGTGAAACA
    CTACAGAAGA ATAAGAAGCA GCTGAAACGA GAAGTAGTAA ACCTCAAAAG TTATATGGAG
    AGAAATATGT TAGAATGTGT TGAAGCTGAA CAGCATAAAC TGTTGATTGA AGAAAAAGCA
    AAGAAAGATA TAGCAGAAAA ATTAAACGAA GCCATTCTCA CCTTGCAGAA ACAAGCAGCA
    GTATCTCAAG AACAGTTAGC ACAGTTAAGG GAGGATAATA CTACTTCAGT AAAAACTCAG
    ATGGAACTCA CAATCAAAAA TCTGGAATCT GAAATCTCCA GAATAAACAC TTCATCAGCC
    GACTTTAATA AAACCGAATT GGAAAGATAT AAGGAACTCT ACCTAGAAGA AGTAAAAGTT
    AGAGAATCCT TGTCAAATGA ACTGAATAGA ACTAATGAGA AGATAGCAGA GGTCAGTGCA
    CAACTTACTG TGGAGAAAGA GCTGACCAGA TCTCCATTCG CTGCTTGTAG TACAAGGCCC
    ATCCTAGAGC CACCTTGTGC TGGAAATCTT AATGATAGTG AAGATCTCAA CAGAAAACAT
    ATTCCAAGAA AAAAGAAGTC TGCTCCTGAG AGCATGGAGA GCTACTTGTT GAAGATGCAG
    CAGAAGTTTC AAAATGATAT AACTAGAGAA GTAACAGCTG CTACTAAATG TGAACCTGAA
    CCATATGTAG CTTCTCCTCC AGAATCTGCA TACCAGAAAA ATCTGAATCA AGATCCAGTG
    TTGGAAGCAA CAAAAGAATA TGCACAGATT TTAAGCAGAA AATACATGAT CTGA

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

    RefSeq XP_028691955.1
    CDS154..6087
    Translation

    Target ORF information:

    RefSeq Version XM_028836122.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836122.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG GTAAATTAGA GTGGAAAAAC
    AAATTAAAAC TTGTCACAAA TGAGTTAAAG CAGAGGTTTG GTGAAATTCG TGAAACATAC
    AAAATTCCGG TTTGTCCTGA GGAAGAGCCA CTACTTGATA ACTCTATGAG AAAAACAAAT
    GTAAAAGACA TTCCCTTTAA TTTGACAAAT AATATACCTG GTTGTGTGGA AGAAGATGCA
    TCTGAAGTGT CTGTCTCAGT GGTATTCGAG ACATTTCCTG AACAAAATGA ACCCAGTCTC
    AAAAGTATCA TCCATCCATA CTTTCATCCA TACTCTGGGT CCCTGCAACA TGCTTGCCAG
    TCATCTTCTA AGCTTCATTT ACATGAAAAG AAATTAGACT GTGACAGTGA TAACAAACCA
    GGCGTTGAAC ATATTTTTAG TATGGATGAA AACTTTAGTA ATGATGCAGG CACTAAGAAA
    GCAAGGAACC CAGAAGAGGT TACAGTTGAA ATGAAAGAAG ACCAAGAGTT TGATTTGCAA
    ATGACAAAAA ACATGAACCA AAATAGTGAC AGTTGCAGTA CAAATAACTA TAAAAGTCTG
    AAACCTAAAT TAGAAAATCT GAGTTCTTTA CCACCAGATT CTTACAGAAC ATCAGAAGTA
    TATCTACATG AAGAATTACA GCAAGACATG CAAAAGCCTA AGACTGAGGT TGACAGGGTG
    GAAGAAATGT TCCTGGCTTT GAAGAAAGAA AACGTTCAGC TTCAGAAAGA GAAATCCCAG
    AGACATAGCG AGTCAGAGCC TTCCTTACAA TCAGAGGATG CAGAGGATGC AGATGAGCTT
    TTAAGGGTCC TGAGCACAGA TCTTGAATTT CTTGATTTGG ATCAAATCAG TCCTGAGGAA
    CAGCAGATTA GTTCCCCTGC AAGGCAGCCC TCGGGAGAAC TTCAGGAGAT AACCCACCAG
    ATGCCCCAAG ATGAACTGGG ACGAGAAAGA AGGGACTTGG AGCCAGAAAG CAGAGAGGAG
    GGACAAGAAA GGAGAGTATG TGACATCCAG TCCAAAGCAG GGATCTCCCG GCAGTCATTG
    ATGTCCAGCA CCACAGAGGA CATTCTGTTT CAAAAGGATG AAAGTGCCTG GGTGTATCCC
    TTGAAAAAAA CCCAAAGAGA TAGCAAGTCA AAGCCTTCCT TGCAATCAGA GGATGCAGAG
    GATGCAGATG AGCTTTTAAG AGTCCTGAGC ACAGACCTTG AATTTCTTGA TTTGGATCAA
    ATCAGTCCTG AAGATCAACA GATTAGTTCC CCTGCAAGGC AGCCCTTGAA AGAACTTGAG
    GAGAAAACTG ACCAGATGCC CCAAGATGAA CTGGGACGAG AAAGAAGGGA CTTGGAGCCA
    GAAAGCAGAG AGGAGGGACA AGAAAGGAGA GTATGTGACA TCCAGTCCAA AGCAGGGATC
    TCCCGGCCAT CACTGATGTC CAGCACCACA GACGACACCC TGTTTCAAAA GGATGAAAGT
    GCCTGGGTGT ATCCTTTGAA ATCCCAGAGA CATAGCGAGT CAGAGCCTTC CTTACAATCA
    GAGGATGCAG AGGATGCAGA TGAGCTTTTA AGGGTCCTGA GCACAGATCT TGAATTTCTT
    GATTTGGATC AAATCAGTCC TGAGGAACAA CAGATTAGTT CCCCTGCAAG GCAGCCCTCG
    GGAGAACTTC AGGAGATAAC CCACCAGATG CCCCAAGATG AACTGGGACG AGAAAGAAGG
    GACTTGGAGC CAGAAAACAG AGAGGAGGGA CAAGAAAGGA GAGTATGTGA CATCCAGTCC
    AAAGCAGGGA TCTCCCGGCC ATCACTGATG TCCAGCACCA CAGACGACAC CCTGTTTCAA
    AAGGATGAAA GTGCCTGGAT GTATCCCTTG AAATCCCAGA GACATAGCGA GTCAGAGCCT
    TCCTTACAAT CAGAGGATGC AGAGGATGCA GATGAGCTTT TAAGGGTCCT GAGCACAGAT
    CTTGAATTTC TTGATTTGGA TCAAATCAGT CCTGAGGAAC AACAGATTAG TTCCCCTGCA
    AGGCAGCCCT CGGGAGAACT TCAGGAGATA ACCCACCAGA TGCCCCAAGA TGAACTGGGA
    CGAGAAAGAA GGGACTTGGA GCCAGAAAGC AGAGAGGAGG GACAAGAAAG GAGAGTATGT
    GACATCCAGT CCAAAGCAGG GATCTCCCGG CCATCACTGA TGTCCAGCAC CACAGACGAC
    ACCCTGTTTC AAAAGGATGA AAGTGCCTGG ATGTATCCCT TGGTTGAAGA AGAAGTGGAA
    AAGCAGAGAA GTAATAGCAC AGAATTATCA GGAAACCCAG CTCATGGTGC TGCTGCTGGC
    AATAATGATG ATGGACTAAA TCAGCAGTTT CCTAGGAAGA AGAAGAAAGG GCATGACAGG
    CCTGCAGATA AAACATCTAA TGAAAAGAAC AAGGTCAAAA ACCAAGTACA TCCTGAGGCT
    GACTTTGCTG ACTCAGTGGG GCCATCTGAA ACGACCTCAG AGGATTGTGA GTTATCTCAC
    TCTACTTATG AGAATTTTTT GTTGCTGATT GAACAACTTG GAATGGAGTG TAAAGATTCT
    GTTAGCCTAT CAAGAATCCA AGACACATTT TGTTTCTATG AACACTTACT GAAACTTAAG
    AATAATGACT ATGAACAACT TACAGTAAAA ATTAAACAAA CAGAAAATAT GGTCAGTGTA
    CTACAAAAGG AGCTATCTGA AACAAAAAAG ACAGAATTAC AGTTAGAGCT TCAAAAAATT
    GAATTGGAGA AACAGCTGTA CAGTTTGAGA CTTGCCTTAA AACAAGAAAA AGAGGAGAAA
    GGAAATGCTG TCATGTTATA TAATAAATAT AGTGAACGGT TAAGACTAAA AGAAGAGGAA
    TGTGGGAAAG AGGTTGAAAT GAAGCAACGA CTTAAATGGA CACTGAGAAG ACTCGTTAAG
    GAGTTGAAGA CAGTAAGAAA CAACTTGGAT CTGGTTGTGC AGGAGCGAAA CGATGTCCAG
    AAGCAACTTT CTGAAGAACA GAATGCCAGA ATATTACAAG ATCAGATTCT GACGAGTAAA
    CAAAAGGAGC TAGAAATTGC TCAAAAGAAA ATTAATTCTG AGATTTCTCA TAGGCATAAA
    AAAGAAAAGG ATCTCTTGCA TGAAAATTGC ATGTTGCAGG AAGAAATTGC CTTGCTGAGA
    CTGGAAATAG ATACAGTAAA TAATCAGAAC CAGCAAAAGG AAAAGAAATA TTTTGAAGAC
    ATTGAGGTTG TGAAAGAAAA GAATGATAAC CTTCAAAAAA TTATAAAACT AAATGAGGAA
    AAATTAACAA AAACAATACT GCAGTACAGT GGACAGCTGA ACGATCTGAC AGCTGAGAAT
    AAAATACTCA ATTCTGAACT GGAAAATAAG AAACAGAACC AAGAAAGACT GGAAATAGAA
    ATGGAATCGT ATCGCTGTAG ACTGGCTGCT GCTCTACGTG ATTGTGATCA AAGTCAGACA
    TCAAGAGACC CAAAACTTGA TTTCCAGAGA ACAAGACAAG AGTGGGTTCA TTTACAGGAC
    AAGAAAAACG TTGATATGTC TGACCTACAA GCTAAGACTG AGATTCTTTC TGAAAAACTT
    TCTAATGCTG AAAGTAAAAT CAGCAGCCTA CAAATTCAGC TCCATAACAC AAGAGATGCT
    GTTGAAAGAA AGAGTTTGAT TTTGGAACGT TTGCAAAGAG ACCTCAGCCA AACACACTGT
    GAGAAGAAAG AAATTGAACA AATGTACCAA ACTGAACAAC GCAAACTGAA GAAATACATT
    GCCAAGCAGG AATCTGTAGA GGAGAGATTA TCTCAACTAC AAAATGAAAA TACATTGCTT
    CCACAGCAAC TTGATGATNC CCACAAGAAA GCTAACAGTC AGGAAAAGAC AATCAGTACT
    ATCCAAGACC AATTTCATGC TTTTGCCAAA AATCTTCAAG CTGAGAGTGA AAAGAAGATT
    CTTTCACTAC AAGAGAAGAA CAAGGAGTTG ATGGATGAAT ATAATCATTT ACAAGAAAGA
    ATGCATCAAT GTGAGAAAGA GAAAGCACGA AGAAAAGTAG TTATGAGACA ACTCCAACAA
    GAATGGACCG ATCCCCTAAA ACAACAACCT ACATCAGAGG CTACATCACG TTGTCACATT
    AATTTAGATG AGACACTCAA TTCAAAGAAG AAATTGGGTC AAATCAGAAG TGAAGTTGAC
    CTTATAGAAG CACAGGAAAC TGCACCTTTA CGATGTCTAC ATCTGGATGC AGAGAATGAA
    GTTCTTCAAC TTCAACAGAC ATTATTCTCT ATGAAAGCAA TACGAAAGCA ATGTGAAACA
    CTACAGAAGA ATAAGAAGCA GCTGAAACGA GAAGTAGTAA ACCTCAAAAG TTATATGGAG
    AGAAATATGT TAGAATGTGT TGAAGCTGAA CAGCATAAAC TGTTGATTGA AGAAAAAGCA
    AAGAAAGATA TAGCAGAAAA ATTAAACGAA GCCATTCTCA CCTTGCAGAA ACAAGCAGCA
    GTATCTCAAG AACAGTTAGC ACAGTTAAGG GAGGATAATA CTACTTCAGT AAAAACTCAG
    ATGGAACTCA CAATCAAAAA TCTGGAATCT GAAATCTCCA GAATAAACAC TTCATCAGCC
    GACTTTAATA AAACCGAATT GGAAAGATAT AAGGAACTCT ACCTAGAAGA AGTAAAAGTT
    AGAGAATCCT TGTCAAATGA ACTGAATAGA ACTAATGAGA AGATAGCAGA GGTCAGTGCA
    CAACTTACTG TGGAGAAAGA GCTGACCAGA TCTCCATTCG CTGCTTGTAG TACAAGGCCC
    ATCCTAGAGC CACCTTGTGC TGGAAATCTT AATGATAGTG AAGATCTCAA CAGAAAACAT
    ATTCCAAGAA AAAAGAAGTC TGCTCCTGAG AGCATGGAGA GCTACTTGTT GAAGATGCAG
    CAGAAGTTTC AAAATGATAT AACTAGAGAA GTAACAGCTG CTACTAAATG TGAACCTGAA
    CCATATGTAG CTTCTCCTCC AGAATCTGCA TACCAGAAAA ATCTGAATCA AGATCCAGTG
    TTGGAAGCAA CAAAAGAATA TGCACAGATT TTAAGCAGAA AATACATGAT CTGA

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

    CloneID OMb50085
    Clone ID Related Accession (Same CDS sequence) XM_015118812.1
    Accession Version XM_015118812.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product putative coiled-coil domain-containing protein 144 N-terminal-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805555.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG GTAAATTAGA GTGGAAAAAC
    AAATTAAAAC TTGTCACAAA TGAGTTAAAG CAGAGGTTTG GTGAAATTCG TGAAACATAC
    AAAATTCCGG TTTGTCCTGA GGAAGAGCCA CTACTTGATA ACTCTATGAG AAAAACAAAT
    GTAAAAGACA TTCCCTTTAA TTTGACAAAT AATATACCTG GTTGTGTGGA AGAAGATGCA
    TCTGAAGTGT CTGTCTCAGT GGTATTCGAG ACATTTCCTG AACAAAATGA ACCCAGTCTC
    AAAAGTATCA TCCATCCATA CTTTCATCCA TACTCTGGGT CCCTGCAACA TGCTTGCCAG
    TCATCTTCTA AGCTTCATTT ACATGAAAAG AAATTAGACT GTGACAGTGA TAACAAACCA
    GGCGTTGAAC ATATTTTTAG TATGGATGAA AACTTTAGTA ATGATGCAGG CACTAAGAAA
    GCAAGGAACC CAGAAGAGGT TACAGTTGAA ATGAAAGAAG ACCAAGAGTT TGATTTGCAA
    ATGACAAAAA ACATGAACCA AAATAGTGAC AGTTGCAGTA CAAATAACTA TAAAAGTCTG
    AAACCTAAAT TAGAAAATCT GAGTTCTTTA CCACCAGATT CTTACAGAAC ATCAGAAGTA
    TATCTACATG AAGAATTACA GCAAGACATG CAAAAGCCTA AGACTGAGGT TGACAGGGTG
    GAAGAAATGT TCCTGGCTTT GAAGAAAGAA AACGTTCAGC TTCAGAAAGA GAAATCCCAG
    AGACATAGCG AGTCAGAGCC TTCCTTACAA TCAGAGGATG CAGAGGATGC AGATGAGCTT
    TTAAGGGTCC TGAGCACAGA TCTTGAATTT CTTGATTTGG ATCAAATCAG TCCTGAGGAA
    CAGCAGATTA GTTCCCCTGC AAGGCAGCCC TCGGGAGAAC TTCAGGAGAT AACCCACCAG
    ATGCCCCAAG ATGAACTGGG ACGAGAAAGA AGGGACTTGG AGCCAGAAAG CAGAGAGGAG
    GGACAAGAAA GGAGAGTATG TGACATCCAG TCCAAAGCAG GGATCTCCCG GCAGTCATTG
    ATGTCCAGCA CCACAGAGGA CATTCTGTTT CAAAAGGATG AAAGTGCCTG GGTGTATCCC
    TTGGTTGAAG AAGAAGTGGA AAAGCAGAGA AGTAATAGCA CAGAATTATC AGGAAACCCA
    GCTCATGGTG CTGCTGCTGG CAATAATGAT GATGGACTAA ATCAGCAGTT TCCTAGGAAG
    AAGAAGAAAG GGCATGACAG GCCTGCAGAT AAAACATCTA ATGAAAAGAA CAAGGTCAAA
    AACCAAGTAC ATCCTGAGGC TGACTTTGCT GACTCAGTGG GGCCATCTGA AACGACCTCA
    GAGGATTGTG AGTTATCTCA CTCTACTTAT GAGAATTTTT TGTTGCTGAT TGAACAACTT
    GGAATGGAGT GTAAAGATTC TGTTAGCCTA TCAAGAATCC AAGACACATT TTGTTTCTAT
    GAACACTTAC TGAAACTTAA GAATAATGAC TATGAACAAC TTACAGTAAA AATTAAACAA
    ACAGAAAATA TGGTCAGTGT ACTACAAAAG GAGCTATCTG AAACAAAAAA GACAGAATTA
    CAGTTAGAGC TTCAAAAAAT TGAATTGGAG AAACAGCTGT ACAGTTTGAG ACTTGCCTTA
    AAACAAGAAA AAGAGGAGAA AGGAAATGCT GTCATGTTAT ATAATAAATA TAGTGAACGG
    TTAAGACTAA AAGAAGAGGA ATGTGGGAAA GAGGTTGAAA TGAAGCAACG ACTTAAATGG
    ACACTGAGAA GACTCGTTAA GGAGTTGAAG ACAGTAAGAA ACAACTTGGA TCTGGTTGTG
    CAGGAGCGAA ACGATGTCCA GAAGCAACTT TCTGAAGAAC AGAATGCCAG AATATTACAA
    GATCAGATTC TGACGAGTAA ACAAAAGGAG CTAGAAATTG CTCAAAAGAA AATTAATTCT
    GAGATTTCTC ATAGGCATAA AAAAGAAAAG GATCTCTTGC ATGAAAATTG CATGTTGCAG
    GAAGAAATTG CCTTGCTGAG ACTGGAAATA GATACAGTAA ATAATCAGAA CCAGCAAAAG
    GAAAAGAAAT ATTTTGAAGA CATTGAGGTT GTGAAAGAAA AGAATGATAA CCTTCAAAAA
    ATTATAAAAC TAAATGAGGA AAAATTAACA AAAACAATAC TGCAGTACAG TGGACAGCTG
    AACGATCTGA CAGCTGAGAA TAAAATACTC AATTCTGAAC TGGAAAATAA GAAACAGAAC
    CAAGAAAGAC TGGAAATAGA AATGGAATCG TATCGCTGTA GACTGGCTGC TGCTCTACGT
    GATTGTGATC AAAGTCAGAC ATCAAGAGAC CCAAAACTTG ATTTCCAGAG AACAAGACAA
    GAGTGGGTTC ATTTACAGGA CAAGAAAAAC GTTGATATGT CTGACCTACA AGCTAAGACT
    GAGATTCTTT CTGAAAAACT TTCTAATGCT GAAAGTAAAA TCAGCAGCCT ACAAATTCAG
    CTCCATAACA CAAGAGATGC TGTTGAAAGA AAGAGTTTGA TTTTGGAACG TTTGCAAAGA
    GACCTCAGCC AAACACACTG TGAGAAGAAA GAAATTGAAC AAATGTACCA AACTGAACAA
    CGCAAACTGA AGAAATACAT TGCCAAGCAG GAATCTGTAG AGGAGAGATT ATCTCAACTA
    CAAAATGAAA ATACATTGCT TCCACAGCAA CTTGATGATG CTCACAAGAA AGCTAACAGT
    CAGGAAAAGA CAATCAGTAC TATCCAAGAC CAATTTCATG CTTTTGCCAA AAATCTTCAA
    GCTGAGAGTG AAAAGAAGAT TCTTTCACTA CAAGAGAAGA ACAAGGAGTT GATGGATGAA
    TATAATCATT TACAAGAAAG AATGCATCAA TGTGAGAAAG AGAAAGCACG AAGAAAAGTA
    GTTATGAGAC AACTCCAACA AGAATGGACC GATCCCCTAA AACAACAACC TACATCAGAG
    GCTACATCAC GTTGTCACAT TAATTTAGAT GAGACACTCA ATTCAAAGAA GAAATTGGGT
    CAAATCAGAA GTGAAGTTGA CCTTATAGAA GCACAGGAAA CTGCACCTTT ACGATGTCTA
    CATCTGGATG CAGAGAATGA AGTTCTTCAA CTTCAACAGA CATTATTCTC TATGAAAGCA
    ATACGAAAGC AATGTGAAAC ACTACAGAAG AATAAGAAGC AGCTGAAACG AGAAGTAGTA
    AACCTCAAAA GTTATATGGA GAGAAATATG TTAGAATGTG TTGAAGCTGA ACAGCATAAA
    CTGTTGATTG AAGAAAAAGC AAAGAAAGAT ATAGCAGAAA AATTAAACGA AGCCATTCTC
    ACCTTGCAGA AACAAGCAGC AGTATCTCAA GAACAGTTAG CACAGTTAAG GGAGGATAAT
    ACTACTTCAG TAAAAACTCA GATGGAACTC ACAATCAAAA ATCTGGAATC TGAAATCTCC
    AGAATAAACA CTTCATCAGC CGACTTTAAT AAAACCGAAT TGGAAAGATA TAAGGAACTC
    TACCTAGAAG AAGTAAAAGT TAGAGAATCC TTGTCAAATG AACTGAATAG AACTAATGAG
    AAGATAGCAG AGGTCAGTGC ACAACTTACT GTGGAGAAAG AGCTGACCAG ATCTCCATTC
    GCTGCTTGTA GTACAAGGCC CATCCTAGAG CCACCTTGTG CTGGAAATCT TAATGATAGT
    GAAGATCTCA ACAGAAAACA TATTCCAAGA AAAAAGAAGT CTGCTCCTGA GAGCATGGAG
    AGCTACTTGT TGAAGATGCA GCAGAAGTTT CAAAATGATA TAACTAGAGA AGTAACAGCT
    GCTACTAAAT GTGAACCTGA ACCATATGTA GCTTCTCCTC CAGAATCTGC ATACCAGAAA
    AATCTGAATC AAGATCCAGT GTTGGAAGCA ACAAAAGAAT ATGCACAGAT TTTAAGCAGA
    AAATACATGA TCTGA

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

    RefSeq XP_014974298.1
    CDS173..4987
    Translation

    Target ORF information:

    RefSeq Version XM_015118812.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118812.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG GTAAATTAGA GTGGAAAAAC
    AAATTAAAAC TTGTCACAAA TGAGTTAAAG CAGAGGTTTG GTGAAATTCG TGAAACATAC
    AAAATTCCGG TTTGTCCTGA GGAAGAGCCA CTACTTGATA ACTCTATGAG AAAAACAAAT
    GTAAAAGACA TTCCCTTTAA TTTGACAAAT AATATACCTG GTTGTGTGGA AGAAGATGCA
    TCTGAAGTGT CTGTCTCAGT GGTATTCGAG ACATTTCCTG AACAAAATGA ACCCAGTCTC
    AAAAGTATCA TCCATCCATA CTTTCATCCA TACTCTGGGT CCCTGCAACA TGCTTGCCAG
    TCATCTTCTA AGCTTCATTT ACATGAAAAG AAATTAGACT GTGACAGTGA TAACAAACCA
    GGCGTTGAAC ATATTTTTAG TATGGATGAA AACTTTAGTA ATGATGCAGG CACTAAGAAA
    GCAAGGAACC CAGAAGAGGT TACAGTTGAA ATGAAAGAAG ACCAAGAGTT TGATTTGCAA
    ATGACAAAAA ACATGAACCA AAATAGTGAC AGTTGCAGTA CAAATAACTA TAAAAGTCTG
    AAACCTAAAT TAGAAAATCT GAGTTCTTTA CCACCAGATT CTTACAGAAC ATCAGAAGTA
    TATCTACATG AAGAATTACA GCAAGACATG CAAAAGCCTA AGACTGAGGT TGACAGGGTG
    GAAGAAATGT TCCTGGCTTT GAAGAAAGAA AACGTTCAGC TTCAGAAAGA GAAATCCCAG
    AGACATAGCG AGTCAGAGCC TTCCTTACAA TCAGAGGATG CAGAGGATGC AGATGAGCTT
    TTAAGGGTCC TGAGCACAGA TCTTGAATTT CTTGATTTGG ATCAAATCAG TCCTGAGGAA
    CAGCAGATTA GTTCCCCTGC AAGGCAGCCC TCGGGAGAAC TTCAGGAGAT AACCCACCAG
    ATGCCCCAAG ATGAACTGGG ACGAGAAAGA AGGGACTTGG AGCCAGAAAG CAGAGAGGAG
    GGACAAGAAA GGAGAGTATG TGACATCCAG TCCAAAGCAG GGATCTCCCG GCAGTCATTG
    ATGTCCAGCA CCACAGAGGA CATTCTGTTT CAAAAGGATG AAAGTGCCTG GGTGTATCCC
    TTGGTTGAAG AAGAAGTGGA AAAGCAGAGA AGTAATAGCA CAGAATTATC AGGAAACCCA
    GCTCATGGTG CTGCTGCTGG CAATAATGAT GATGGACTAA ATCAGCAGTT TCCTAGGAAG
    AAGAAGAAAG GGCATGACAG GCCTGCAGAT AAAACATCTA ATGAAAAGAA CAAGGTCAAA
    AACCAAGTAC ATCCTGAGGC TGACTTTGCT GACTCAGTGG GGCCATCTGA AACGACCTCA
    GAGGATTGTG AGTTATCTCA CTCTACTTAT GAGAATTTTT TGTTGCTGAT TGAACAACTT
    GGAATGGAGT GTAAAGATTC TGTTAGCCTA TCAAGAATCC AAGACACATT TTGTTTCTAT
    GAACACTTAC TGAAACTTAA GAATAATGAC TATGAACAAC TTACAGTAAA AATTAAACAA
    ACAGAAAATA TGGTCAGTGT ACTACAAAAG GAGCTATCTG AAACAAAAAA GACAGAATTA
    CAGTTAGAGC TTCAAAAAAT TGAATTGGAG AAACAGCTGT ACAGTTTGAG ACTTGCCTTA
    AAACAAGAAA AAGAGGAGAA AGGAAATGCT GTCATGTTAT ATAATAAATA TAGTGAACGG
    TTAAGACTAA AAGAAGAGGA ATGTGGGAAA GAGGTTGAAA TGAAGCAACG ACTTAAATGG
    ACACTGAGAA GACTCGTTAA GGAGTTGAAG ACAGTAAGAA ACAACTTGGA TCTGGTTGTG
    CAGGAGCGAA ACGATGTCCA GAAGCAACTT TCTGAAGAAC AGAATGCCAG AATATTACAA
    GATCAGATTC TGACGAGTAA ACAAAAGGAG CTAGAAATTG CTCAAAAGAA AATTAATTCT
    GAGATTTCTC ATAGGCATAA AAAAGAAAAG GATCTCTTGC ATGAAAATTG CATGTTGCAG
    GAAGAAATTG CCTTGCTGAG ACTGGAAATA GATACAGTAA ATAATCAGAA CCAGCAAAAG
    GAAAAGAAAT ATTTTGAAGA CATTGAGGTT GTGAAAGAAA AGAATGATAA CCTTCAAAAA
    ATTATAAAAC TAAATGAGGA AAAATTAACA AAAACAATAC TGCAGTACAG TGGACAGCTG
    AACGATCTGA CAGCTGAGAA TAAAATACTC AATTCTGAAC TGGAAAATAA GAAACAGAAC
    CAAGAAAGAC TGGAAATAGA AATGGAATCG TATCGCTGTA GACTGGCTGC TGCTCTACGT
    GATTGTGATC AAAGTCAGAC ATCAAGAGAC CCAAAACTTG ATTTCCAGAG AACAAGACAA
    GAGTGGGTTC ATTTACAGGA CAAGAAAAAC GTTGATATGT CTGACCTACA AGCTAAGACT
    GAGATTCTTT CTGAAAAACT TTCTAATGCT GAAAGTAAAA TCAGCAGCCT ACAAATTCAG
    CTCCATAACA CAAGAGATGC TGTTGAAAGA AAGAGTTTGA TTTTGGAACG TTTGCAAAGA
    GACCTCAGCC AAACACACTG TGAGAAGAAA GAAATTGAAC AAATGTACCA AACTGAACAA
    CGCAAACTGA AGAAATACAT TGCCAAGCAG GAATCTGTAG AGGAGAGATT ATCTCAACTA
    CAAAATGAAA ATACATTGCT TCCACAGCAA CTTGATGATG CTCACAAGAA AGCTAACAGT
    CAGGAAAAGA CAATCAGTAC TATCCAAGAC CAATTTCATG CTTTTGCCAA AAATCTTCAA
    GCTGAGAGTG AAAAGAAGAT TCTTTCACTA CAAGAGAAGA ACAAGGAGTT GATGGATGAA
    TATAATCATT TACAAGAAAG AATGCATCAA TGTGAGAAAG AGAAAGCACG AAGAAAAGTA
    GTTATGAGAC AACTCCAACA AGAATGGACC GATCCCCTAA AACAACAACC TACATCAGAG
    GCTACATCAC GTTGTCACAT TAATTTAGAT GAGACACTCA ATTCAAAGAA GAAATTGGGT
    CAAATCAGAA GTGAAGTTGA CCTTATAGAA GCACAGGAAA CTGCACCTTT ACGATGTCTA
    CATCTGGATG CAGAGAATGA AGTTCTTCAA CTTCAACAGA CATTATTCTC TATGAAAGCA
    ATACGAAAGC AATGTGAAAC ACTACAGAAG AATAAGAAGC AGCTGAAACG AGAAGTAGTA
    AACCTCAAAA GTTATATGGA GAGAAATATG TTAGAATGTG TTGAAGCTGA ACAGCATAAA
    CTGTTGATTG AAGAAAAAGC AAAGAAAGAT ATAGCAGAAA AATTAAACGA AGCCATTCTC
    ACCTTGCAGA AACAAGCAGC AGTATCTCAA GAACAGTTAG CACAGTTAAG GGAGGATAAT
    ACTACTTCAG TAAAAACTCA GATGGAACTC ACAATCAAAA ATCTGGAATC TGAAATCTCC
    AGAATAAACA CTTCATCAGC CGACTTTAAT AAAACCGAAT TGGAAAGATA TAAGGAACTC
    TACCTAGAAG AAGTAAAAGT TAGAGAATCC TTGTCAAATG AACTGAATAG AACTAATGAG
    AAGATAGCAG AGGTCAGTGC ACAACTTACT GTGGAGAAAG AGCTGACCAG ATCTCCATTC
    GCTGCTTGTA GTACAAGGCC CATCCTAGAG CCACCTTGTG CTGGAAATCT TAATGATAGT
    GAAGATCTCA ACAGAAAACA TATTCCAAGA AAAAAGAAGT CTGCTCCTGA GAGCATGGAG
    AGCTACTTGT TGAAGATGCA GCAGAAGTTT CAAAATGATA TAACTAGAGA AGTAACAGCT
    GCTACTAAAT GTGAACCTGA ACCATATGTA GCTTCTCCTC CAGAATCTGC ATACCAGAAA
    AATCTGAATC AAGATCCAGT GTTGGAAGCA ACAAAAGAAT ATGCACAGAT TTTAAGCAGA
    AAATACATGA TCTGA

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

    CloneID OMb50086
    Clone ID Related Accession (Same CDS sequence) XM_015118813.1
    Accession Version XM_015118813.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4812bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product putative coiled-coil domain-containing protein 144 N-terminal-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805555.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGAAC AAGACTTGGA GCTGACATCA
    GAGGAAGAGC AAGAAAGACT TAAAGGACAT GAAAATAAGC AGCCACAGAA AATGTCTCAA
    GAACCGGAAA TGGCTAAGGA TTGTGATAGA GAGGATATAC CTGTATATTC AATACTTCCT
    CATGCGCAAA AGTCTGAGGA AATGTGGATC GAACAAGGTA AATTAGAGTG GAAAAACAAA
    TTAAAACTTG TCACAAATGA GTTAAAGCAG AGGTTTGGTG AAATTCGTGA AACATACAAA
    ATTCCGGTTT GTCCTGAGGA AGAGCCACTA CTTGATAACT CTATGAGAAA AACAAATGTA
    AAAGACATTC CCTTTAATTT GACAAATAAT ATACCTGGTT GTGTGGAAGA AGATGCATCT
    GAAGTGTCTG TCTCAGTGGT ATTCGAGACA TTTCCTGAAC AAAATGAACC CAGTCTCAAA
    AGTATCATCC ATCCATACTT TCATCCATAC TCTGGGTCCC TGCAACATGC TTGCCAGTCA
    TCTTCTAAGC TTCATTTACA TGAAAAGAAA TTAGACTGTG ACAGTGATAA CAAACCAGGC
    GTTGAACATA TTTTTAGTAT GGATGAAAAC TTTAGTAATG ATGCAGGCAC TAAGAAAGCA
    AGGAACCCAG AAGAGGTTAC AGTTGAAATG AAAGAAGACC AAGAGTTTGA TTTGCAAATG
    ACAAAAAACA TGAACCAAAA TAGTGACAGT TGCAGTACAA ATAACTATAA AAGTCTGAAA
    CCTAAATTAG AAAATCTGAG TTCTTTACCA CCAGATTCTT ACAGAACATC AGAAGTATAT
    CTACATGAAG AATTACAGCA AGACATGCAA AAGCCTAAGA CTGAGGTTGA CAGGGTGGAA
    GAAATGTTCC TGGCTTTGAA GAAAGAAAAC GTTCAGCTTC AGAAAGAGAA ATCCCAGAGA
    CATAGCGAGT CAGAGCCTTC CTTACAATCA GAGGATGCAG AGGATGCAGA TGAGCTTTTA
    AGGGTCCTGA GCACAGATCT TGAATTTCTT GATTTGGATC AAATCAGTCC TGAGGAACAG
    CAGATTAGTT CCCCTGCAAG GCAGCCCTCG GGAGAACTTC AGGAGATAAC CCACCAGATG
    CCCCAAGATG AACTGGGACG AGAAAGAAGG GACTTGGAGC CAGAAAGCAG AGAGGAGGGA
    CAAGAAAGGA GAGTATGTGA CATCCAGTCC AAAGCAGGGA TCTCCCGGCA GTCATTGATG
    TCCAGCACCA CAGAGGACAT TCTGTTTCAA AAGGATGAAA GTGCCTGGGT GTATCCCTTG
    GTTGAAGAAG AAGTGGAAAA GCAGAGAAGT AATAGCACAG AATTATCAGG AAACCCAGCT
    CATGGTGCTG CTGCTGGCAA TAATGATGAT GGACTAAATC AGCAGTTTCC TAGGAAGAAG
    AAGAAAGGGC ATGACAGGCC TGCAGATAAA ACATCTAATG AAAAGAACAA GGTCAAAAAC
    CAAGTACATC CTGAGGCTGA CTTTGCTGAC TCAGTGGGGC CATCTGAAAC GACCTCAGAG
    GATTGTGAGT TATCTCACTC TACTTATGAG AATTTTTTGT TGCTGATTGA ACAACTTGGA
    ATGGAGTGTA AAGATTCTGT TAGCCTATCA AGAATCCAAG ACACATTTTG TTTCTATGAA
    CACTTACTGA AACTTAAGAA TAATGACTAT GAACAACTTA CAGTAAAAAT TAAACAAACA
    GAAAATATGG TCAGTGTACT ACAAAAGGAG CTATCTGAAA CAAAAAAGAC AGAATTACAG
    TTAGAGCTTC AAAAAATTGA ATTGGAGAAA CAGCTGTACA GTTTGAGACT TGCCTTAAAA
    CAAGAAAAAG AGGAGAAAGG AAATGCTGTC ATGTTATATA ATAAATATAG TGAACGGTTA
    AGACTAAAAG AAGAGGAATG TGGGAAAGAG GTTGAAATGA AGCAACGACT TAAATGGACA
    CTGAGAAGAC TCGTTAAGGA GTTGAAGACA GTAAGAAACA ACTTGGATCT GGTTGTGCAG
    GAGCGAAACG ATGTCCAGAA GCAACTTTCT GAAGAACAGA ATGCCAGAAT ATTACAAGAT
    CAGATTCTGA CGAGTAAACA AAAGGAGCTA GAAATTGCTC AAAAGAAAAT TAATTCTGAG
    ATTTCTCATA GGCATAAAAA AGAAAAGGAT CTCTTGCATG AAAATTGCAT GTTGCAGGAA
    GAAATTGCCT TGCTGAGACT GGAAATAGAT ACAGTAAATA ATCAGAACCA GCAAAAGGAA
    AAGAAATATT TTGAAGACAT TGAGGTTGTG AAAGAAAAGA ATGATAACCT TCAAAAAATT
    ATAAAACTAA ATGAGGAAAA ATTAACAAAA ACAATACTGC AGTACAGTGG ACAGCTGAAC
    GATCTGACAG CTGAGAATAA AATACTCAAT TCTGAACTGG AAAATAAGAA ACAGAACCAA
    GAAAGACTGG AAATAGAAAT GGAATCGTAT CGCTGTAGAC TGGCTGCTGC TCTACGTGAT
    TGTGATCAAA GTCAGACATC AAGAGACCCA AAACTTGATT TCCAGAGAAC AAGACAAGAG
    TGGGTTCATT TACAGGACAA GAAAAACGTT GATATGTCTG ACCTACAAGC TAAGACTGAG
    ATTCTTTCTG AAAAACTTTC TAATGCTGAA AGTAAAATCA GCAGCCTACA AATTCAGCTC
    CATAACACAA GAGATGCTGT TGAAAGAAAG AGTTTGATTT TGGAACGTTT GCAAAGAGAC
    CTCAGCCAAA CACACTGTGA GAAGAAAGAA ATTGAACAAA TGTACCAAAC TGAACAACGC
    AAACTGAAGA AATACATTGC CAAGCAGGAA TCTGTAGAGG AGAGATTATC TCAACTACAA
    AATGAAAATA CATTGCTTCC ACAGCAACTT GATGATGCTC ACAAGAAAGC TAACAGTCAG
    GAAAAGACAA TCAGTACTAT CCAAGACCAA TTTCATGCTT TTGCCAAAAA TCTTCAAGCT
    GAGAGTGAAA AGAAGATTCT TTCACTACAA GAGAAGAACA AGGAGTTGAT GGATGAATAT
    AATCATTTAC AAGAAAGAAT GCATCAATGT GAGAAAGAGA AAGCACGAAG AAAAGTAGTT
    ATGAGACAAC TCCAACAAGA ATGGACCGAT CCCCTAAAAC AACAACCTAC ATCAGAGGCT
    ACATCACGTT GTCACATTAA TTTAGATGAG ACACTCAATT CAAAGAAGAA ATTGGGTCAA
    ATCAGAAGTG AAGTTGACCT TATAGAAGCA CAGGAAACTG CACCTTTACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CGAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACGAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAGAG AAATATGTTA GAATGTGTTG AAGCTGAACA GCATAAACTG
    TTGATTGAAG AAAAAGCAAA GAAAGATATA GCAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCAAGAA CAGTTAGCAC AGTTAAGGGA GGATAATACT
    ACTTCAGTAA AAACTCAGAT GGAACTCACA ATCAAAAATC TGGAATCTGA AATCTCCAGA
    ATAAACACTT CATCAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TAAAAGTTAG AGAATCCTTG TCAAATGAAC TGAATAGAAC TAATGAGAAG
    ATAGCAGAGG TCAGTGCACA ACTTACTGTG GAGAAAGAGC TGACCAGATC TCCATTCGCT
    GCTTGTAGTA CAAGGCCCAT CCTAGAGCCA CCTTGTGCTG GAAATCTTAA TGATAGTGAA
    GATCTCAACA GAAAACATAT TCCAAGAAAA AAGAAGTCTG CTCCTGAGAG CATGGAGAGC
    TACTTGTTGA AGATGCAGCA GAAGTTTCAA AATGATATAA CTAGAGAAGT AACAGCTGCT
    ACTAAATGTG AACCTGAACC ATATGTAGCT TCTCCTCCAG AATCTGCATA CCAGAAAAAT
    CTGAATCAAG ATCCAGTGTT GGAAGCAACA AAAGAATATG CACAGATTTT AAGCAGAAAA
    TACATGATCT GA

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

    RefSeq XP_014974299.1
    CDS173..4984
    Translation

    Target ORF information:

    RefSeq Version XM_015118813.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118813.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGAAC AAGACTTGGA GCTGACATCA
    GAGGAAGAGC AAGAAAGACT TAAAGGACAT GAAAATAAGC AGCCACAGAA AATGTCTCAA
    GAACCGGAAA TGGCTAAGGA TTGTGATAGA GAGGATATAC CTGTATATTC AATACTTCCT
    CATGCGCAAA AGTCTGAGGA AATGTGGATC GAACAAGGTA AATTAGAGTG GAAAAACAAA
    TTAAAACTTG TCACAAATGA GTTAAAGCAG AGGTTTGGTG AAATTCGTGA AACATACAAA
    ATTCCGGTTT GTCCTGAGGA AGAGCCACTA CTTGATAACT CTATGAGAAA AACAAATGTA
    AAAGACATTC CCTTTAATTT GACAAATAAT ATACCTGGTT GTGTGGAAGA AGATGCATCT
    GAAGTGTCTG TCTCAGTGGT ATTCGAGACA TTTCCTGAAC AAAATGAACC CAGTCTCAAA
    AGTATCATCC ATCCATACTT TCATCCATAC TCTGGGTCCC TGCAACATGC TTGCCAGTCA
    TCTTCTAAGC TTCATTTACA TGAAAAGAAA TTAGACTGTG ACAGTGATAA CAAACCAGGC
    GTTGAACATA TTTTTAGTAT GGATGAAAAC TTTAGTAATG ATGCAGGCAC TAAGAAAGCA
    AGGAACCCAG AAGAGGTTAC AGTTGAAATG AAAGAAGACC AAGAGTTTGA TTTGCAAATG
    ACAAAAAACA TGAACCAAAA TAGTGACAGT TGCAGTACAA ATAACTATAA AAGTCTGAAA
    CCTAAATTAG AAAATCTGAG TTCTTTACCA CCAGATTCTT ACAGAACATC AGAAGTATAT
    CTACATGAAG AATTACAGCA AGACATGCAA AAGCCTAAGA CTGAGGTTGA CAGGGTGGAA
    GAAATGTTCC TGGCTTTGAA GAAAGAAAAC GTTCAGCTTC AGAAAGAGAA ATCCCAGAGA
    CATAGCGAGT CAGAGCCTTC CTTACAATCA GAGGATGCAG AGGATGCAGA TGAGCTTTTA
    AGGGTCCTGA GCACAGATCT TGAATTTCTT GATTTGGATC AAATCAGTCC TGAGGAACAG
    CAGATTAGTT CCCCTGCAAG GCAGCCCTCG GGAGAACTTC AGGAGATAAC CCACCAGATG
    CCCCAAGATG AACTGGGACG AGAAAGAAGG GACTTGGAGC CAGAAAGCAG AGAGGAGGGA
    CAAGAAAGGA GAGTATGTGA CATCCAGTCC AAAGCAGGGA TCTCCCGGCA GTCATTGATG
    TCCAGCACCA CAGAGGACAT TCTGTTTCAA AAGGATGAAA GTGCCTGGGT GTATCCCTTG
    GTTGAAGAAG AAGTGGAAAA GCAGAGAAGT AATAGCACAG AATTATCAGG AAACCCAGCT
    CATGGTGCTG CTGCTGGCAA TAATGATGAT GGACTAAATC AGCAGTTTCC TAGGAAGAAG
    AAGAAAGGGC ATGACAGGCC TGCAGATAAA ACATCTAATG AAAAGAACAA GGTCAAAAAC
    CAAGTACATC CTGAGGCTGA CTTTGCTGAC TCAGTGGGGC CATCTGAAAC GACCTCAGAG
    GATTGTGAGT TATCTCACTC TACTTATGAG AATTTTTTGT TGCTGATTGA ACAACTTGGA
    ATGGAGTGTA AAGATTCTGT TAGCCTATCA AGAATCCAAG ACACATTTTG TTTCTATGAA
    CACTTACTGA AACTTAAGAA TAATGACTAT GAACAACTTA CAGTAAAAAT TAAACAAACA
    GAAAATATGG TCAGTGTACT ACAAAAGGAG CTATCTGAAA CAAAAAAGAC AGAATTACAG
    TTAGAGCTTC AAAAAATTGA ATTGGAGAAA CAGCTGTACA GTTTGAGACT TGCCTTAAAA
    CAAGAAAAAG AGGAGAAAGG AAATGCTGTC ATGTTATATA ATAAATATAG TGAACGGTTA
    AGACTAAAAG AAGAGGAATG TGGGAAAGAG GTTGAAATGA AGCAACGACT TAAATGGACA
    CTGAGAAGAC TCGTTAAGGA GTTGAAGACA GTAAGAAACA ACTTGGATCT GGTTGTGCAG
    GAGCGAAACG ATGTCCAGAA GCAACTTTCT GAAGAACAGA ATGCCAGAAT ATTACAAGAT
    CAGATTCTGA CGAGTAAACA AAAGGAGCTA GAAATTGCTC AAAAGAAAAT TAATTCTGAG
    ATTTCTCATA GGCATAAAAA AGAAAAGGAT CTCTTGCATG AAAATTGCAT GTTGCAGGAA
    GAAATTGCCT TGCTGAGACT GGAAATAGAT ACAGTAAATA ATCAGAACCA GCAAAAGGAA
    AAGAAATATT TTGAAGACAT TGAGGTTGTG AAAGAAAAGA ATGATAACCT TCAAAAAATT
    ATAAAACTAA ATGAGGAAAA ATTAACAAAA ACAATACTGC AGTACAGTGG ACAGCTGAAC
    GATCTGACAG CTGAGAATAA AATACTCAAT TCTGAACTGG AAAATAAGAA ACAGAACCAA
    GAAAGACTGG AAATAGAAAT GGAATCGTAT CGCTGTAGAC TGGCTGCTGC TCTACGTGAT
    TGTGATCAAA GTCAGACATC AAGAGACCCA AAACTTGATT TCCAGAGAAC AAGACAAGAG
    TGGGTTCATT TACAGGACAA GAAAAACGTT GATATGTCTG ACCTACAAGC TAAGACTGAG
    ATTCTTTCTG AAAAACTTTC TAATGCTGAA AGTAAAATCA GCAGCCTACA AATTCAGCTC
    CATAACACAA GAGATGCTGT TGAAAGAAAG AGTTTGATTT TGGAACGTTT GCAAAGAGAC
    CTCAGCCAAA CACACTGTGA GAAGAAAGAA ATTGAACAAA TGTACCAAAC TGAACAACGC
    AAACTGAAGA AATACATTGC CAAGCAGGAA TCTGTAGAGG AGAGATTATC TCAACTACAA
    AATGAAAATA CATTGCTTCC ACAGCAACTT GATGATGCTC ACAAGAAAGC TAACAGTCAG
    GAAAAGACAA TCAGTACTAT CCAAGACCAA TTTCATGCTT TTGCCAAAAA TCTTCAAGCT
    GAGAGTGAAA AGAAGATTCT TTCACTACAA GAGAAGAACA AGGAGTTGAT GGATGAATAT
    AATCATTTAC AAGAAAGAAT GCATCAATGT GAGAAAGAGA AAGCACGAAG AAAAGTAGTT
    ATGAGACAAC TCCAACAAGA ATGGACCGAT CCCCTAAAAC AACAACCTAC ATCAGAGGCT
    ACATCACGTT GTCACATTAA TTTAGATGAG ACACTCAATT CAAAGAAGAA ATTGGGTCAA
    ATCAGAAGTG AAGTTGACCT TATAGAAGCA CAGGAAACTG CACCTTTACG ATGTCTACAT
    CTGGATGCAG AGAATGAAGT TCTTCAACTT CAACAGACAT TATTCTCTAT GAAAGCAATA
    CGAAAGCAAT GTGAAACACT ACAGAAGAAT AAGAAGCAGC TGAAACGAGA AGTAGTAAAC
    CTCAAAAGTT ATATGGAGAG AAATATGTTA GAATGTGTTG AAGCTGAACA GCATAAACTG
    TTGATTGAAG AAAAAGCAAA GAAAGATATA GCAGAAAAAT TAAACGAAGC CATTCTCACC
    TTGCAGAAAC AAGCAGCAGT ATCTCAAGAA CAGTTAGCAC AGTTAAGGGA GGATAATACT
    ACTTCAGTAA AAACTCAGAT GGAACTCACA ATCAAAAATC TGGAATCTGA AATCTCCAGA
    ATAAACACTT CATCAGCCGA CTTTAATAAA ACCGAATTGG AAAGATATAA GGAACTCTAC
    CTAGAAGAAG TAAAAGTTAG AGAATCCTTG TCAAATGAAC TGAATAGAAC TAATGAGAAG
    ATAGCAGAGG TCAGTGCACA ACTTACTGTG GAGAAAGAGC TGACCAGATC TCCATTCGCT
    GCTTGTAGTA CAAGGCCCAT CCTAGAGCCA CCTTGTGCTG GAAATCTTAA TGATAGTGAA
    GATCTCAACA GAAAACATAT TCCAAGAAAA AAGAAGTCTG CTCCTGAGAG CATGGAGAGC
    TACTTGTTGA AGATGCAGCA GAAGTTTCAA AATGATATAA CTAGAGAAGT AACAGCTGCT
    ACTAAATGTG AACCTGAACC ATATGTAGCT TCTCCTCCAG AATCTGCATA CCAGAAAAAT
    CTGAATCAAG ATCCAGTGTT GGAAGCAACA AAAGAATATG CACAGATTTT AAGCAGAAAA
    TACATGATCT GA

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

    CloneID OMb50087
    Clone ID Related Accession (Same CDS sequence) XM_015118814.1
    Accession Version XM_015118814.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product putative coiled-coil domain-containing protein 144 N-terminal-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805555.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG GTAAATTAGA GTGGAAAAAC
    AAATTAAAAC TTGTCACAAA TGAGTTAAAG CAGAGGTTTG GTGAAATTCG TGAAACATAC
    AAAATTCCGG TTTGTCCTGA GGAAGAGCCA CTACTTGATA ACTCTATGAG AAAAACAAAT
    GTAAAAGACA TTCCCTTTAA TTTGACAAAT AATATACCTG GTTGTGTGGA AGAAGATGCA
    TCTGAAGTGT CTGTCTCAGT GGTATTCGAG ACATTTCCTG AACAAAATGA ACCCAGTCTC
    AAAAGTATCA TCCATCCATA CTTTCATCCA TACTCTGGGT CCCTGCAACA TGCTTGCCAG
    TCATCTTCTA AGCTTCATTT ACATGAAAAG AAATTAGACT GTGACAGTGA TAACAAACCA
    GGCGTTGAAC ATATTTTTAG TATGGATGAA AACTTTAGTA ATGATGCAGG CACTAAGAAA
    GCAAGGAACC CAGAAGAGGT TACAGTTGAA ATGAAAGAAG ACCAAGAGTT TGATTTGCAA
    ATGACAAAAA ACATGAACCA AAATAGTGAC AGTTGCAGTA CAAATAACTA TAAAAGTCTG
    AAACCTAAAT TAGAAAATCT GAGTTCTTTA CCACCAGATT CTTACAGAAC ATCAGAAGTA
    TATCTACATG AAGAATTACA GCAAGACATG CAAAAGCCTA AGACTGAGGT TGACAGGGTG
    GAAGAAATGT TCCTGGCTTT GAAGAAAGAA AACGTTCAGC TTCAGAAAGA GAAATCCCAG
    AGACATAGCG AGTCAGAGCC TTCCTTACAA TCAGAGGATG CAGAGGATGC AGATGAGCTT
    TTAAGGGTCC TGAGCACAGA TCTTGAATTT CTTGATTTGG ATCAAATCAG TCCTGAGGAA
    CAGCAGATTA GTTCCCCTGC AAGGCAGCCC TCGGGAGAAC TTCAGGAGAT AACCCACCAG
    ATGCCCCAAG ATGAACTGGG ACGAGAAAGA AGGGACTTGG AGCCAGAAAG CAGAGAGGAG
    GGACAAGAAA GGAGAGTATG TGACATCCAG TCCAAAGCAG GGATCTCCCG GCAGTCATTG
    ATGTCCAGCA CCACAGAGGA CATTCTGTTT CAAAAGGATG AAAGTGCCTG GGTGTATCCC
    TTGGTTGAAG AAGAAGTGGA AAAGCAGAGA AGTAATAGCA CAGAATTATC AGGAAACCCA
    GCTCATGGTG CTGCTGCTGG CAATAATGAT GATGGACTAA ATCAGCAGTT TCCTAGGAAG
    AAGAAGAAAG GGCATGACAG GCCTGCAGAT AAAACATCTA ATGAAAAGAA CAAGGTCAAA
    AACCAAGTAC ATCCTGAGGC TGACTTTGCT GACTCAGTGG GGCCATCTGA AACGACCTCA
    GAGGATTGTG AGTTATCTCA CTCTACTTAT GAGAATTTTT TGTTGCTGAT TGAACAACTT
    GGAATGGAGT GTAAAGATTC TGTTAGCCTA TCAAGAATCC AAGACACATT TTGTTTCTAT
    GAACACTTAC TGAAACTTAA GAATAATGAC TATGAACAAC TTACAGTAAA AATTAAACAA
    ACAGAAAATA TGGTCAGTGT ACTACAAAAG GAGCTATCTG AAACAAAAAA GACAGAATTA
    CAGTTAGAGC TTCAAAAAAT TGAATTGGAG AAACAGCTGT ACAGTTTGAG ACTTGCCTTA
    AAACAAGAAA AAGAGGAGAA AGGAAATGCT GTCATGTTAT ATAATAAATA TAGTGAACGG
    TTAAGACTAA AAGAAGAGGA ATGTGGGAAA GAGGTTGAAA TGAAGCAACG ACTTAAATGG
    ACACTGAGAA GACTCGTTAA GGAGTTGAAG ACAGTTGTGC AGGAGCGAAA CGATGTCCAG
    AAGCAACTTT CTGAAGAACA GAATGCCAGA ATATTACAAG ATCAGATTCT GACGAGTAAA
    CAAAAGGAGC TAGAAATTGC TCAAAAGAAA ATTAATTCTG AGATTTCTCA TAGGCATAAA
    AAAGAAAAGG ATCTCTTGCA TGAAAATTGC ATGTTGCAGG AAGAAATTGC CTTGCTGAGA
    CTGGAAATAG ATACAGTAAA TAATCAGAAC CAGCAAAAGG AAAAGAAATA TTTTGAAGAC
    ATTGAGGTTG TGAAAGAAAA GAATGATAAC CTTCAAAAAA TTATAAAACT AAATGAGGAA
    AAATTAACAA AAACAATACT GCAGTACAGT GGACAGCTGA ACGATCTGAC AGCTGAGAAT
    AAAATACTCA ATTCTGAACT GGAAAATAAG AAACAGAACC AAGAAAGACT GGAAATAGAA
    ATGGAATCGT ATCGCTGTAG ACTGGCTGCT GCTCTACGTG ATTGTGATCA AAGTCAGACA
    TCAAGAGACC CAAAACTTGA TTTCCAGAGA ACAAGACAAG AGTGGGTTCA TTTACAGGAC
    AAGAAAAACG TTGATATGTC TGACCTACAA GCTAAGACTG AGATTCTTTC TGAAAAACTT
    TCTAATGCTG AAAGTAAAAT CAGCAGCCTA CAAATTCAGC TCCATAACAC AAGAGATGCT
    GTTGAAAGAA AGAGTTTGAT TTTGGAACGT TTGCAAAGAG ACCTCAGCCA AACACACTGT
    GAGAAGAAAG AAATTGAACA AATGTACCAA ACTGAACAAC GCAAACTGAA GAAATACATT
    GCCAAGCAGG AATCTGTAGA GGAGAGATTA TCTCAACTAC AAAATGAAAA TACATTGCTT
    CCACAGCAAC TTGATGATGC TCACAAGAAA GCTAACAGTC AGGAAAAGAC AATCAGTACT
    ATCCAAGACC AATTTCATGC TTTTGCCAAA AATCTTCAAG CTGAGAGTGA AAAGAAGATT
    CTTTCACTAC AAGAGAAGAA CAAGGAGTTG ATGGATGAAT ATAATCATTT ACAAGAAAGA
    ATGCATCAAT GTGAGAAAGA GAAAGCACGA AGAAAAGTAG TTATGAGACA ACTCCAACAA
    GAATGGACCG ATCCCCTAAA ACAACAACCT ACATCAGAGG CTACATCACG TTGTCACATT
    AATTTAGATG AGACACTCAA TTCAAAGAAG AAATTGGGTC AAATCAGAAG TGAAGTTGAC
    CTTATAGAAG CACAGGAAAC TGCACCTTTA CGATGTCTAC ATCTGGATGC AGAGAATGAA
    GTTCTTCAAC TTCAACAGAC ATTATTCTCT ATGAAAGCAA TACGAAAGCA ATGTGAAACA
    CTACAGAAGA ATAAGAAGCA GCTGAAACGA GAAGTAGTAA ACCTCAAAAG TTATATGGAG
    AGAAATATGT TAGAATGTGT TGAAGCTGAA CAGCATAAAC TGTTGATTGA AGAAAAAGCA
    AAGAAAGATA TAGCAGAAAA ATTAAACGAA GCCATTCTCA CCTTGCAGAA ACAAGCAGCA
    GTATCTCAAG AACAGTTAGC ACAGTTAAGG GAGGATAATA CTACTTCAGT AAAAACTCAG
    ATGGAACTCA CAATCAAAAA TCTGGAATCT GAAATCTCCA GAATAAACAC TTCATCAGCC
    GACTTTAATA AAACCGAATT GGAAAGATAT AAGGAACTCT ACCTAGAAGA AGTAAAAGTT
    AGAGAATCCT TGTCAAATGA ACTGAATAGA ACTAATGAGA AGATAGCAGA GGTCAGTGCA
    CAACTTACTG TGGAGAAAGA GCTGACCAGA TCTCCATTCG CTGCTTGTAG TACAAGGCCC
    ATCCTAGAGC CACCTTGTGC TGGAAATCTT AATGATAGTG AAGATCTCAA CAGAAAACAT
    ATTCCAAGAA AAAAGAAGTC TGCTCCTGAG AGCATGGAGA GCTACTTGTT GAAGATGCAG
    CAGAAGTTTC AAAATGATAT AACTAGAGAA GTAACAGCTG CTACTAAATG TGAACCTGAA
    CCATATGTAG CTTCTCCTCC AGAATCTGCA TACCAGAAAA ATCTGAATCA AGATCCAGTG
    TTGGAAGCAA CAAAAGAATA TGCACAGATT TTAAGCAGAA AATACATGAT CTGA

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

    RefSeq XP_014974300.1
    CDS173..4966
    Translation

    Target ORF information:

    RefSeq Version XM_015118814.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118814.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG GTAAATTAGA GTGGAAAAAC
    AAATTAAAAC TTGTCACAAA TGAGTTAAAG CAGAGGTTTG GTGAAATTCG TGAAACATAC
    AAAATTCCGG TTTGTCCTGA GGAAGAGCCA CTACTTGATA ACTCTATGAG AAAAACAAAT
    GTAAAAGACA TTCCCTTTAA TTTGACAAAT AATATACCTG GTTGTGTGGA AGAAGATGCA
    TCTGAAGTGT CTGTCTCAGT GGTATTCGAG ACATTTCCTG AACAAAATGA ACCCAGTCTC
    AAAAGTATCA TCCATCCATA CTTTCATCCA TACTCTGGGT CCCTGCAACA TGCTTGCCAG
    TCATCTTCTA AGCTTCATTT ACATGAAAAG AAATTAGACT GTGACAGTGA TAACAAACCA
    GGCGTTGAAC ATATTTTTAG TATGGATGAA AACTTTAGTA ATGATGCAGG CACTAAGAAA
    GCAAGGAACC CAGAAGAGGT TACAGTTGAA ATGAAAGAAG ACCAAGAGTT TGATTTGCAA
    ATGACAAAAA ACATGAACCA AAATAGTGAC AGTTGCAGTA CAAATAACTA TAAAAGTCTG
    AAACCTAAAT TAGAAAATCT GAGTTCTTTA CCACCAGATT CTTACAGAAC ATCAGAAGTA
    TATCTACATG AAGAATTACA GCAAGACATG CAAAAGCCTA AGACTGAGGT TGACAGGGTG
    GAAGAAATGT TCCTGGCTTT GAAGAAAGAA AACGTTCAGC TTCAGAAAGA GAAATCCCAG
    AGACATAGCG AGTCAGAGCC TTCCTTACAA TCAGAGGATG CAGAGGATGC AGATGAGCTT
    TTAAGGGTCC TGAGCACAGA TCTTGAATTT CTTGATTTGG ATCAAATCAG TCCTGAGGAA
    CAGCAGATTA GTTCCCCTGC AAGGCAGCCC TCGGGAGAAC TTCAGGAGAT AACCCACCAG
    ATGCCCCAAG ATGAACTGGG ACGAGAAAGA AGGGACTTGG AGCCAGAAAG CAGAGAGGAG
    GGACAAGAAA GGAGAGTATG TGACATCCAG TCCAAAGCAG GGATCTCCCG GCAGTCATTG
    ATGTCCAGCA CCACAGAGGA CATTCTGTTT CAAAAGGATG AAAGTGCCTG GGTGTATCCC
    TTGGTTGAAG AAGAAGTGGA AAAGCAGAGA AGTAATAGCA CAGAATTATC AGGAAACCCA
    GCTCATGGTG CTGCTGCTGG CAATAATGAT GATGGACTAA ATCAGCAGTT TCCTAGGAAG
    AAGAAGAAAG GGCATGACAG GCCTGCAGAT AAAACATCTA ATGAAAAGAA CAAGGTCAAA
    AACCAAGTAC ATCCTGAGGC TGACTTTGCT GACTCAGTGG GGCCATCTGA AACGACCTCA
    GAGGATTGTG AGTTATCTCA CTCTACTTAT GAGAATTTTT TGTTGCTGAT TGAACAACTT
    GGAATGGAGT GTAAAGATTC TGTTAGCCTA TCAAGAATCC AAGACACATT TTGTTTCTAT
    GAACACTTAC TGAAACTTAA GAATAATGAC TATGAACAAC TTACAGTAAA AATTAAACAA
    ACAGAAAATA TGGTCAGTGT ACTACAAAAG GAGCTATCTG AAACAAAAAA GACAGAATTA
    CAGTTAGAGC TTCAAAAAAT TGAATTGGAG AAACAGCTGT ACAGTTTGAG ACTTGCCTTA
    AAACAAGAAA AAGAGGAGAA AGGAAATGCT GTCATGTTAT ATAATAAATA TAGTGAACGG
    TTAAGACTAA AAGAAGAGGA ATGTGGGAAA GAGGTTGAAA TGAAGCAACG ACTTAAATGG
    ACACTGAGAA GACTCGTTAA GGAGTTGAAG ACAGTTGTGC AGGAGCGAAA CGATGTCCAG
    AAGCAACTTT CTGAAGAACA GAATGCCAGA ATATTACAAG ATCAGATTCT GACGAGTAAA
    CAAAAGGAGC TAGAAATTGC TCAAAAGAAA ATTAATTCTG AGATTTCTCA TAGGCATAAA
    AAAGAAAAGG ATCTCTTGCA TGAAAATTGC ATGTTGCAGG AAGAAATTGC CTTGCTGAGA
    CTGGAAATAG ATACAGTAAA TAATCAGAAC CAGCAAAAGG AAAAGAAATA TTTTGAAGAC
    ATTGAGGTTG TGAAAGAAAA GAATGATAAC CTTCAAAAAA TTATAAAACT AAATGAGGAA
    AAATTAACAA AAACAATACT GCAGTACAGT GGACAGCTGA ACGATCTGAC AGCTGAGAAT
    AAAATACTCA ATTCTGAACT GGAAAATAAG AAACAGAACC AAGAAAGACT GGAAATAGAA
    ATGGAATCGT ATCGCTGTAG ACTGGCTGCT GCTCTACGTG ATTGTGATCA AAGTCAGACA
    TCAAGAGACC CAAAACTTGA TTTCCAGAGA ACAAGACAAG AGTGGGTTCA TTTACAGGAC
    AAGAAAAACG TTGATATGTC TGACCTACAA GCTAAGACTG AGATTCTTTC TGAAAAACTT
    TCTAATGCTG AAAGTAAAAT CAGCAGCCTA CAAATTCAGC TCCATAACAC AAGAGATGCT
    GTTGAAAGAA AGAGTTTGAT TTTGGAACGT TTGCAAAGAG ACCTCAGCCA AACACACTGT
    GAGAAGAAAG AAATTGAACA AATGTACCAA ACTGAACAAC GCAAACTGAA GAAATACATT
    GCCAAGCAGG AATCTGTAGA GGAGAGATTA TCTCAACTAC AAAATGAAAA TACATTGCTT
    CCACAGCAAC TTGATGATGC TCACAAGAAA GCTAACAGTC AGGAAAAGAC AATCAGTACT
    ATCCAAGACC AATTTCATGC TTTTGCCAAA AATCTTCAAG CTGAGAGTGA AAAGAAGATT
    CTTTCACTAC AAGAGAAGAA CAAGGAGTTG ATGGATGAAT ATAATCATTT ACAAGAAAGA
    ATGCATCAAT GTGAGAAAGA GAAAGCACGA AGAAAAGTAG TTATGAGACA ACTCCAACAA
    GAATGGACCG ATCCCCTAAA ACAACAACCT ACATCAGAGG CTACATCACG TTGTCACATT
    AATTTAGATG AGACACTCAA TTCAAAGAAG AAATTGGGTC AAATCAGAAG TGAAGTTGAC
    CTTATAGAAG CACAGGAAAC TGCACCTTTA CGATGTCTAC ATCTGGATGC AGAGAATGAA
    GTTCTTCAAC TTCAACAGAC ATTATTCTCT ATGAAAGCAA TACGAAAGCA ATGTGAAACA
    CTACAGAAGA ATAAGAAGCA GCTGAAACGA GAAGTAGTAA ACCTCAAAAG TTATATGGAG
    AGAAATATGT TAGAATGTGT TGAAGCTGAA CAGCATAAAC TGTTGATTGA AGAAAAAGCA
    AAGAAAGATA TAGCAGAAAA ATTAAACGAA GCCATTCTCA CCTTGCAGAA ACAAGCAGCA
    GTATCTCAAG AACAGTTAGC ACAGTTAAGG GAGGATAATA CTACTTCAGT AAAAACTCAG
    ATGGAACTCA CAATCAAAAA TCTGGAATCT GAAATCTCCA GAATAAACAC TTCATCAGCC
    GACTTTAATA AAACCGAATT GGAAAGATAT AAGGAACTCT ACCTAGAAGA AGTAAAAGTT
    AGAGAATCCT TGTCAAATGA ACTGAATAGA ACTAATGAGA AGATAGCAGA GGTCAGTGCA
    CAACTTACTG TGGAGAAAGA GCTGACCAGA TCTCCATTCG CTGCTTGTAG TACAAGGCCC
    ATCCTAGAGC CACCTTGTGC TGGAAATCTT AATGATAGTG AAGATCTCAA CAGAAAACAT
    ATTCCAAGAA AAAAGAAGTC TGCTCCTGAG AGCATGGAGA GCTACTTGTT GAAGATGCAG
    CAGAAGTTTC AAAATGATAT AACTAGAGAA GTAACAGCTG CTACTAAATG TGAACCTGAA
    CCATATGTAG CTTCTCCTCC AGAATCTGCA TACCAGAAAA ATCTGAATCA AGATCCAGTG
    TTGGAAGCAA CAAAAGAATA TGCACAGATT TTAAGCAGAA AATACATGAT CTGA

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

    CloneID OMb50088
    Clone ID Related Accession (Same CDS sequence) XM_015118815.1
    Accession Version XM_015118815.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4218bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product putative coiled-coil domain-containing protein 144 N-terminal-like isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805555.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG ATTCTTACAG AACATCAGAA
    GTATATCTAC ATGAAGAATT ACAGCAAGAC ATGCAAAAGC CTAAGACTGA GGTTGACAGG
    GTGGAAGAAA TGTTCCTGGC TTTGAAGAAA GAAAACGTTC AGCTTCAGAA AGAGAAATCC
    CAGAGACATA GCGAGTCAGA GCCTTCCTTA CAATCAGAGG ATGCAGAGGA TGCAGATGAG
    CTTTTAAGGG TCCTGAGCAC AGATCTTGAA TTTCTTGATT TGGATCAAAT CAGTCCTGAG
    GAACAGCAGA TTAGTTCCCC TGCAAGGCAG CCCTCGGGAG AACTTCAGGA GATAACCCAC
    CAGATGCCCC AAGATGAACT GGGACGAGAA AGAAGGGACT TGGAGCCAGA AAGCAGAGAG
    GAGGGACAAG AAAGGAGAGT ATGTGACATC CAGTCCAAAG CAGGGATCTC CCGGCAGTCA
    TTGATGTCCA GCACCACAGA GGACATTCTG TTTCAAAAGG ATGAAAGTGC CTGGGTGTAT
    CCCTTGGTTG AAGAAGAAGT GGAAAAGCAG AGAAGTAATA GCACAGAATT ATCAGGAAAC
    CCAGCTCATG GTGCTGCTGC TGGCAATAAT GATGATGGAC TAAATCAGCA GTTTCCTAGG
    AAGAAGAAGA AAGGGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACAAGGTC
    AAAAACCAAG TACATCCTGA GGCTGACTTT GCTGACTCAG TGGGGCCATC TGAAACGACC
    TCAGAGGATT GTGAGTTATC TCACTCTACT TATGAGAATT TTTTGTTGCT GATTGAACAA
    CTTGGAATGG AGTGTAAAGA TTCTGTTAGC CTATCAAGAA TCCAAGACAC ATTTTGTTTC
    TATGAACACT TACTGAAACT TAAGAATAAT GACTATGAAC AACTTACAGT AAAAATTAAA
    CAAACAGAAA ATATGGTCAG TGTACTACAA AAGGAGCTAT CTGAAACAAA AAAGACAGAA
    TTACAGTTAG AGCTTCAAAA AATTGAATTG GAGAAACAGC TGTACAGTTT GAGACTTGCC
    TTAAAACAAG AAAAAGAGGA GAAAGGAAAT GCTGTCATGT TATATAATAA ATATAGTGAA
    CGGTTAAGAC TAAAAGAAGA GGAATGTGGG AAAGAGGTTG AAATGAAGCA ACGACTTAAA
    TGGACACTGA GAAGACTCGT TAAGGAGTTG AAGACAGTAA GAAACAACTT GGATCTGGTT
    GTGCAGGAGC GAAACGATGT CCAGAAGCAA CTTTCTGAAG AACAGAATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAGCTAGAAA TTGCTCAAAA GAAAATTAAT
    TCTGAGATTT CTCATAGGCA TAAAAAAGAA AAGGATCTCT TGCATGAAAA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAG TAAATAATCA GAACCAGCAA
    AAGGAAAAGA AATATTTTGA AGACATTGAG GTTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAAAATTA ACAAAAACAA TACTGCAGTA CAGTGGACAG
    CTGAACGATC TGACAGCTGA GAATAAAATA CTCAATTCTG AACTGGAAAA TAAGAAACAG
    AACCAAGAAA GACTGGAAAT AGAAATGGAA TCGTATCGCT GTAGACTGGC TGCTGCTCTA
    CGTGATTGTG ATCAAAGTCA GACATCAAGA GACCCAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCATTTACA GGACAAGAAA AACGTTGATA TGTCTGACCT ACAAGCTAAG
    ACTGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATCAGCAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTGTTGAA AGAAAGAGTT TGATTTTGGA ACGTTTGCAA
    AGAGACCTCA GCCAAACACA CTGTGAGAAG AAAGAAATTG AACAAATGTA CCAAACTGAA
    CAACGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAATG AAAATACATT GCTTCCACAG CAACTTGATG ATGCTCACAA GAAAGCTAAC
    AGTCAGGAAA AGACAATCAG TACTATCCAA GACCAATTTC ATGCTTTTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGAA GATTCTTTCA CTACAAGAGA AGAACAAGGA GTTGATGGAT
    GAATATAATC ATTTACAAGA AAGAATGCAT CAATGTGAGA AAGAGAAAGC ACGAAGAAAA
    GTAGTTATGA GACAACTCCA ACAAGAATGG ACCGATCCCC TAAAACAACA ACCTACATCA
    GAGGCTACAT CACGTTGTCA CATTAATTTA GATGAGACAC TCAATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAGT TGACCTTATA GAAGCACAGG AAACTGCACC TTTACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACGAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACGAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAGAGAAAT ATGTTAGAAT GTGTTGAAGC TGAACAGCAT
    AAACTGTTGA TTGAAGAAAA AGCAAAGAAA GATATAGCAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CAAGAACAGT TAGCACAGTT AAGGGAGGAT
    AATACTACTT CAGTAAAAAC TCAGATGGAA CTCACAATCA AAAATCTGGA ATCTGAAATC
    TCCAGAATAA ACACTTCATC AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTAAA AGTTAGAGAA TCCTTGTCAA ATGAACTGAA TAGAACTAAT
    GAGAAGATAG CAGAGGTCAG TGCACAACTT ACTGTGGAGA AAGAGCTGAC CAGATCTCCA
    TTCGCTGCTT GTAGTACAAG GCCCATCCTA GAGCCACCTT GTGCTGGAAA TCTTAATGAT
    AGTGAAGATC TCAACAGAAA ACATATTCCA AGAAAAAAGA AGTCTGCTCC TGAGAGCATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTTCAAAATG ATATAACTAG AGAAGTAACA
    GCTGCTACTA AATGTGAACC TGAACCATAT GTAGCTTCTC CTCCAGAATC TGCATACCAG
    AAAAATCTGA ATCAAGATCC AGTGTTGGAA GCAACAAAAG AATATGCACA GATTTTAAGC
    AGAAAATACA TGATCTGA

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

    RefSeq XP_014974301.1
    CDS173..4390
    Translation

    Target ORF information:

    RefSeq Version XM_015118815.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coiled-coil domain containing 144 family, N-terminal like (CCDC144NL), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118815.1

    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
    ATGGCCTCCA GGGGTGGAGA AAAGCGGGGA GGGTCTGAGG GGTCTCCGAA ACCGACAGTC 
    TCCGCCATGA GGAAGACCCC TAGCGTCGGG AGCGTCCGGA GCCAGGAGGA CCAGTTGTCC
    TTAAGCTACC AGGGGGACCG GTGGTCCTCA GACTCCAGCT GGTTAAGCGA CAGCGCGGGC
    AGCGACAGCG CGGGCAGTGA CAGCGCAGGC AGCGACAGCG CGGGCAGCGA CAGCGAGCAC
    GTTGAGGGCG CCTTAGACCA GCCTCAGCAC GACGTCTGCC TGGAAGATCC CTGCGAGCCC
    CACAGAGCTG CCCGGTCGGG CGACGTCCCT GGGGTGGAGC GCGTCCTGGC TCCTGGAGAC
    CCTGGCGTGA ACAAGAGGGA TAGGAAGGAG AGCCTTTGGC ACCTAATTCC TGAATGTAAG
    ATGGAACAGT CACCTGAAAG TCTTCCTCAG AATAACAATC CAGATTGGCA TCCTACTAAT
    TTGACCGTTA GTGATAAGAC TTGTCAGAAA TCCAAGATTC TGAGCGTTGA TGATCAGTGT
    CCATCTGTAT CACCATCAAT GCCTGAAAAT CAGTCAGCAG CCAAAGAATT GGGACAGATG
    AACTTAACAG AACAAGAAAA GATGAACGTC TTGGGGAATG GTAGTCTCCA TGACCTGTGC
    CAATCACAGC TACCAGAAAA CAAAGAGAGC AAAGAAGCAG AACAAGACTT GGAGCTGACA
    TCAGAGGAAG AGCAAGAAAG ACTTAAAGGA CATGAAAATA AGCAGCCACA GAAAATGTCT
    CAAGAACCGG AAATGGCTAA GGATTGTGAT AGAGAGGATA TACCTGTATA TTCAATACTT
    CCTCATGCGC AAAAGTCTGA GGAAATGTGG ATCGAACAAG ATTCTTACAG AACATCAGAA
    GTATATCTAC ATGAAGAATT ACAGCAAGAC ATGCAAAAGC CTAAGACTGA GGTTGACAGG
    GTGGAAGAAA TGTTCCTGGC TTTGAAGAAA GAAAACGTTC AGCTTCAGAA AGAGAAATCC
    CAGAGACATA GCGAGTCAGA GCCTTCCTTA CAATCAGAGG ATGCAGAGGA TGCAGATGAG
    CTTTTAAGGG TCCTGAGCAC AGATCTTGAA TTTCTTGATT TGGATCAAAT CAGTCCTGAG
    GAACAGCAGA TTAGTTCCCC TGCAAGGCAG CCCTCGGGAG AACTTCAGGA GATAACCCAC
    CAGATGCCCC AAGATGAACT GGGACGAGAA AGAAGGGACT TGGAGCCAGA AAGCAGAGAG
    GAGGGACAAG AAAGGAGAGT ATGTGACATC CAGTCCAAAG CAGGGATCTC CCGGCAGTCA
    TTGATGTCCA GCACCACAGA GGACATTCTG TTTCAAAAGG ATGAAAGTGC CTGGGTGTAT
    CCCTTGGTTG AAGAAGAAGT GGAAAAGCAG AGAAGTAATA GCACAGAATT ATCAGGAAAC
    CCAGCTCATG GTGCTGCTGC TGGCAATAAT GATGATGGAC TAAATCAGCA GTTTCCTAGG
    AAGAAGAAGA AAGGGCATGA CAGGCCTGCA GATAAAACAT CTAATGAAAA GAACAAGGTC
    AAAAACCAAG TACATCCTGA GGCTGACTTT GCTGACTCAG TGGGGCCATC TGAAACGACC
    TCAGAGGATT GTGAGTTATC TCACTCTACT TATGAGAATT TTTTGTTGCT GATTGAACAA
    CTTGGAATGG AGTGTAAAGA TTCTGTTAGC CTATCAAGAA TCCAAGACAC ATTTTGTTTC
    TATGAACACT TACTGAAACT TAAGAATAAT GACTATGAAC AACTTACAGT AAAAATTAAA
    CAAACAGAAA ATATGGTCAG TGTACTACAA AAGGAGCTAT CTGAAACAAA AAAGACAGAA
    TTACAGTTAG AGCTTCAAAA AATTGAATTG GAGAAACAGC TGTACAGTTT GAGACTTGCC
    TTAAAACAAG AAAAAGAGGA GAAAGGAAAT GCTGTCATGT TATATAATAA ATATAGTGAA
    CGGTTAAGAC TAAAAGAAGA GGAATGTGGG AAAGAGGTTG AAATGAAGCA ACGACTTAAA
    TGGACACTGA GAAGACTCGT TAAGGAGTTG AAGACAGTAA GAAACAACTT GGATCTGGTT
    GTGCAGGAGC GAAACGATGT CCAGAAGCAA CTTTCTGAAG AACAGAATGC CAGAATATTA
    CAAGATCAGA TTCTGACGAG TAAACAAAAG GAGCTAGAAA TTGCTCAAAA GAAAATTAAT
    TCTGAGATTT CTCATAGGCA TAAAAAAGAA AAGGATCTCT TGCATGAAAA TTGCATGTTG
    CAGGAAGAAA TTGCCTTGCT GAGACTGGAA ATAGATACAG TAAATAATCA GAACCAGCAA
    AAGGAAAAGA AATATTTTGA AGACATTGAG GTTGTGAAAG AAAAGAATGA TAACCTTCAA
    AAAATTATAA AACTAAATGA GGAAAAATTA ACAAAAACAA TACTGCAGTA CAGTGGACAG
    CTGAACGATC TGACAGCTGA GAATAAAATA CTCAATTCTG AACTGGAAAA TAAGAAACAG
    AACCAAGAAA GACTGGAAAT AGAAATGGAA TCGTATCGCT GTAGACTGGC TGCTGCTCTA
    CGTGATTGTG ATCAAAGTCA GACATCAAGA GACCCAAAAC TTGATTTCCA GAGAACAAGA
    CAAGAGTGGG TTCATTTACA GGACAAGAAA AACGTTGATA TGTCTGACCT ACAAGCTAAG
    ACTGAGATTC TTTCTGAAAA ACTTTCTAAT GCTGAAAGTA AAATCAGCAG CCTACAAATT
    CAGCTCCATA ACACAAGAGA TGCTGTTGAA AGAAAGAGTT TGATTTTGGA ACGTTTGCAA
    AGAGACCTCA GCCAAACACA CTGTGAGAAG AAAGAAATTG AACAAATGTA CCAAACTGAA
    CAACGCAAAC TGAAGAAATA CATTGCCAAG CAGGAATCTG TAGAGGAGAG ATTATCTCAA
    CTACAAAATG AAAATACATT GCTTCCACAG CAACTTGATG ATGCTCACAA GAAAGCTAAC
    AGTCAGGAAA AGACAATCAG TACTATCCAA GACCAATTTC ATGCTTTTGC CAAAAATCTT
    CAAGCTGAGA GTGAAAAGAA GATTCTTTCA CTACAAGAGA AGAACAAGGA GTTGATGGAT
    GAATATAATC ATTTACAAGA AAGAATGCAT CAATGTGAGA AAGAGAAAGC ACGAAGAAAA
    GTAGTTATGA GACAACTCCA ACAAGAATGG ACCGATCCCC TAAAACAACA ACCTACATCA
    GAGGCTACAT CACGTTGTCA CATTAATTTA GATGAGACAC TCAATTCAAA GAAGAAATTG
    GGTCAAATCA GAAGTGAAGT TGACCTTATA GAAGCACAGG AAACTGCACC TTTACGATGT
    CTACATCTGG ATGCAGAGAA TGAAGTTCTT CAACTTCAAC AGACATTATT CTCTATGAAA
    GCAATACGAA AGCAATGTGA AACACTACAG AAGAATAAGA AGCAGCTGAA ACGAGAAGTA
    GTAAACCTCA AAAGTTATAT GGAGAGAAAT ATGTTAGAAT GTGTTGAAGC TGAACAGCAT
    AAACTGTTGA TTGAAGAAAA AGCAAAGAAA GATATAGCAG AAAAATTAAA CGAAGCCATT
    CTCACCTTGC AGAAACAAGC AGCAGTATCT CAAGAACAGT TAGCACAGTT AAGGGAGGAT
    AATACTACTT CAGTAAAAAC TCAGATGGAA CTCACAATCA AAAATCTGGA ATCTGAAATC
    TCCAGAATAA ACACTTCATC AGCCGACTTT AATAAAACCG AATTGGAAAG ATATAAGGAA
    CTCTACCTAG AAGAAGTAAA AGTTAGAGAA TCCTTGTCAA ATGAACTGAA TAGAACTAAT
    GAGAAGATAG CAGAGGTCAG TGCACAACTT ACTGTGGAGA AAGAGCTGAC CAGATCTCCA
    TTCGCTGCTT GTAGTACAAG GCCCATCCTA GAGCCACCTT GTGCTGGAAA TCTTAATGAT
    AGTGAAGATC TCAACAGAAA ACATATTCCA AGAAAAAAGA AGTCTGCTCC TGAGAGCATG
    GAGAGCTACT TGTTGAAGAT GCAGCAGAAG TTTCAAAATG ATATAACTAG AGAAGTAACA
    GCTGCTACTA AATGTGAACC TGAACCATAT GTAGCTTCTC CTCCAGAATC TGCATACCAG
    AAAAATCTGA ATCAAGATCC AGTGTTGGAA GCAACAAAAG AATATGCACA GATTTTAAGC
    AGAAAATACA TGATCTGA

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