ADAR cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following ADAR gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAR 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
OMb59875 XM_015110786.2
Latest version!
Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb59876 XM_015110794.2
Latest version!
Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb59877 XM_015110801.2
Latest version!
Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb59878 XM_002801797.3
Latest version!
Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb59879 XM_001111902.4
Latest version!
Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb26332 XM_015110786.1
Latest version!
Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMb26333 XM_015110794.1
Latest version!
Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMb26334 XM_015110801.1
Latest version!
Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMb26335 XM_002801797.2
Latest version!
Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMb26336 XM_001111902.3
Latest version!
Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OMb59875
    Clone ID Related Accession (Same CDS sequence) XM_015110786.2
    Accession Version XM_015110786.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015110786.1. ##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##

    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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC CAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGGTAACC CCAGTGACAG GGGCCAGTCT CAGAAGAACT
    ATGCTCCTCC TCTCAAGGTC CCCAGAAGCA CAGCCAAAGA CACTCCCTCT CACTGGCAGC
    ACCTTCCATG ACCAGATAGC CATGCTGAGC CACCGGTGCT TCAACACTCT GACTAACAGC
    TTCCAGCCTT CCTTGCTCGG CCGCAAGATT CTGGCCGCCA TCGTTATGAA AAAAGACTCT
    GAGGACATGG GTGTCGTCGT CAGCTTGGGA ACAGGGAATC GCTGTGTGAA AGGAGATTCT
    CTCAGCCTGA AGGGAGAAAC TGTCAATGAC TGCCATGCAG AAATCATCTC CCGGAGAGGC
    TTCATCAGGT TTCTCTACAG TGAGTTAATG AAATACAACC CCCAGACTGC GAAGGATAGT
    ATATTTGAAC CTGCTAAGGG AGGAGAAAAG CTCCAAATAA AAAAGACTGT GTCATTCCAT
    CTCTATATCA GCACCGCTCC ATGTGGAGAT GGTGCCCTCT TTGACAAGTC CTGCAGCGAC
    CGTGCTATGG AAAGCACAGA CTCCCGCCAC TACCCTGTCT TTGAGAATCC CAAACAAGGC
    AAGCTCCGCA CCAAGGTGGA AAACGGAGAA GGCACAATCC CTGTGGAATC CAGTGACATT
    GTACCTACGT GGGATGGCAT TCGGCTCGGG GAGAGACTCC GTACCATGTC CTGTAGTGAC
    AAAATCCTAC GCTGGAATGT GCTGGGCCTG CAAGGGGCAC TGTTGACCCA CTTCCTGCAG
    CCCATTTATC TCAAATCTGT TACATTGGGT TACCTTTTCA GCCAAGGGCA TCTGACCCGG
    GCTATTTGCT GTCGTGTGAC AAGAGATGGG AGTGCATTTG AGGATGGACT ACGACATCCC
    TTTATTGTCA ACCACCCCAA GGTTGGCAGA GTCAGTGTAT ATGATTCCAA AAGGCAATCT
    GGGAAGACTA AGGAGACAAG CGTCAACTGG TGTCTGGCTG ATGGCTATGA CCTGGAGATC
    CTGGATGGTA CCAGAGGCAC CGTGGATGGG CCACGGAATG AATTGTCCCG GGTCTCCAAA
    AAGAACATTT TTCTTCTATT TAAGAAGCTC TGCTCCTTCC GTTACCGCAG GGATCTACTG
    AGACTCTCCT ATGGTGAGGC CAAGAAAGCT GCCCGTGACT ACGAGACGGC CAAGAACTAC
    TTCAAAAAAA GCTTGAAGGA TATGGGCTAT GGGAACTGGA TTAGCAAACC CCAGGAGGAA
    AAGAACTTTT ATCTCTGCCC AGTATAG

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

    RefSeq XP_014966272.1
    CDS13..3819
    Translation

    Target ORF information:

    RefSeq Version XM_015110786.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110786.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC CAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGGTAACC CCAGTGACAG GGGCCAGTCT CAGAAGAACT
    ATGCTCCTCC TCTCAAGGTC CCCAGAAGCA CAGCCAAAGA CACTCCCTCT CACTGGCAGC
    ACCTTCCATG ACCAGATAGC CATGCTGAGC CACCGGTGCT TCAACACTCT GACTAACAGC
    TTCCAGCCTT CCTTGCTCGG CCGCAAGATT CTGGCCGCCA TCGTTATGAA AAAAGACTCT
    GAGGACATGG GTGTCGTCGT CAGCTTGGGA ACAGGGAATC GCTGTGTGAA AGGAGATTCT
    CTCAGCCTGA AGGGAGAAAC TGTCAATGAC TGCCATGCAG AAATCATCTC CCGGAGAGGC
    TTCATCAGGT TTCTCTACAG TGAGTTAATG AAATACAACC CCCAGACTGC GAAGGATAGT
    ATATTTGAAC CTGCTAAGGG AGGAGAAAAG CTCCAAATAA AAAAGACTGT GTCATTCCAT
    CTCTATATCA GCACCGCTCC ATGTGGAGAT GGTGCCCTCT TTGACAAGTC CTGCAGCGAC
    CGTGCTATGG AAAGCACAGA CTCCCGCCAC TACCCTGTCT TTGAGAATCC CAAACAAGGC
    AAGCTCCGCA CCAAGGTGGA AAACGGAGAA GGCACAATCC CTGTGGAATC CAGTGACATT
    GTACCTACGT GGGATGGCAT TCGGCTCGGG GAGAGACTCC GTACCATGTC CTGTAGTGAC
    AAAATCCTAC GCTGGAATGT GCTGGGCCTG CAAGGGGCAC TGTTGACCCA CTTCCTGCAG
    CCCATTTATC TCAAATCTGT TACATTGGGT TACCTTTTCA GCCAAGGGCA TCTGACCCGG
    GCTATTTGCT GTCGTGTGAC AAGAGATGGG AGTGCATTTG AGGATGGACT ACGACATCCC
    TTTATTGTCA ACCACCCCAA GGTTGGCAGA GTCAGTGTAT ATGATTCCAA AAGGCAATCT
    GGGAAGACTA AGGAGACAAG CGTCAACTGG TGTCTGGCTG ATGGCTATGA CCTGGAGATC
    CTGGATGGTA CCAGAGGCAC CGTGGATGGG CCACGGAATG AATTGTCCCG GGTCTCCAAA
    AAGAACATTT TTCTTCTATT TAAGAAGCTC TGCTCCTTCC GTTACCGCAG GGATCTACTG
    AGACTCTCCT ATGGTGAGGC CAAGAAAGCT GCCCGTGACT ACGAGACGGC CAAGAACTAC
    TTCAAAAAAA GCTTGAAGGA TATGGGCTAT GGGAACTGGA TTAGCAAACC CCAGGAGGAA
    AAGAACTTTT ATCTCTGCCC AGTATAG

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

    CloneID OMb59876
    Clone ID Related Accession (Same CDS sequence) XM_015110794.2
    Accession Version XM_015110794.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015110794.1. ##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##

    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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC CAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGCTCCCT CTCACTGGCA GCACCTTCCA TGACCAGATA
    GCCATGCTGA GCCACCGGTG CTTCAACACT CTGACTAACA GCTTCCAGCC TTCCTTGCTC
    GGCCGCAAGA TTCTGGCCGC CATCGTTATG AAAAAAGACT CTGAGGACAT GGGTGTCGTC
    GTCAGCTTGG GAACAGGGAA TCGCTGTGTG AAAGGAGATT CTCTCAGCCT GAAGGGAGAA
    ACTGTCAATG ACTGCCATGC AGAAATCATC TCCCGGAGAG GCTTCATCAG GTTTCTCTAC
    AGTGAGTTAA TGAAATACAA CCCCCAGACT GCGAAGGATA GTATATTTGA ACCTGCTAAG
    GGAGGAGAAA AGCTCCAAAT AAAAAAGACT GTGTCATTCC ATCTCTATAT CAGCACCGCT
    CCATGTGGAG ATGGTGCCCT CTTTGACAAG TCCTGCAGCG ACCGTGCTAT GGAAAGCACA
    GACTCCCGCC ACTACCCTGT CTTTGAGAAT CCCAAACAAG GCAAGCTCCG CACCAAGGTG
    GAAAACGGAG AAGGCACAAT CCCTGTGGAA TCCAGTGACA TTGTACCTAC GTGGGATGGC
    ATTCGGCTCG GGGAGAGACT CCGTACCATG TCCTGTAGTG ACAAAATCCT ACGCTGGAAT
    GTGCTGGGCC TGCAAGGGGC ACTGTTGACC CACTTCCTGC AGCCCATTTA TCTCAAATCT
    GTTACATTGG GTTACCTTTT CAGCCAAGGG CATCTGACCC GGGCTATTTG CTGTCGTGTG
    ACAAGAGATG GGAGTGCATT TGAGGATGGA CTACGACATC CCTTTATTGT CAACCACCCC
    AAGGTTGGCA GAGTCAGTGT ATATGATTCC AAAAGGCAAT CTGGGAAGAC TAAGGAGACA
    AGCGTCAACT GGTGTCTGGC TGATGGCTAT GACCTGGAGA TCCTGGATGG TACCAGAGGC
    ACCGTGGATG GGCCACGGAA TGAATTGTCC CGGGTCTCCA AAAAGAACAT TTTTCTTCTA
    TTTAAGAAGC TCTGCTCCTT CCGTTACCGC AGGGATCTAC TGAGACTCTC CTATGGTGAG
    GCCAAGAAAG CTGCCCGTGA CTACGAGACG GCCAAGAACT ACTTCAAAAA AAGCTTGAAG
    GATATGGGCT ATGGGAACTG GATTAGCAAA CCCCAGGAGG AAAAGAACTT TTATCTCTGC
    CCAGTATAG

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

    RefSeq XP_014966280.1
    CDS13..3741
    Translation

    Target ORF information:

    RefSeq Version XM_015110794.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110794.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC CAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGCTCCCT CTCACTGGCA GCACCTTCCA TGACCAGATA
    GCCATGCTGA GCCACCGGTG CTTCAACACT CTGACTAACA GCTTCCAGCC TTCCTTGCTC
    GGCCGCAAGA TTCTGGCCGC CATCGTTATG AAAAAAGACT CTGAGGACAT GGGTGTCGTC
    GTCAGCTTGG GAACAGGGAA TCGCTGTGTG AAAGGAGATT CTCTCAGCCT GAAGGGAGAA
    ACTGTCAATG ACTGCCATGC AGAAATCATC TCCCGGAGAG GCTTCATCAG GTTTCTCTAC
    AGTGAGTTAA TGAAATACAA CCCCCAGACT GCGAAGGATA GTATATTTGA ACCTGCTAAG
    GGAGGAGAAA AGCTCCAAAT AAAAAAGACT GTGTCATTCC ATCTCTATAT CAGCACCGCT
    CCATGTGGAG ATGGTGCCCT CTTTGACAAG TCCTGCAGCG ACCGTGCTAT GGAAAGCACA
    GACTCCCGCC ACTACCCTGT CTTTGAGAAT CCCAAACAAG GCAAGCTCCG CACCAAGGTG
    GAAAACGGAG AAGGCACAAT CCCTGTGGAA TCCAGTGACA TTGTACCTAC GTGGGATGGC
    ATTCGGCTCG GGGAGAGACT CCGTACCATG TCCTGTAGTG ACAAAATCCT ACGCTGGAAT
    GTGCTGGGCC TGCAAGGGGC ACTGTTGACC CACTTCCTGC AGCCCATTTA TCTCAAATCT
    GTTACATTGG GTTACCTTTT CAGCCAAGGG CATCTGACCC GGGCTATTTG CTGTCGTGTG
    ACAAGAGATG GGAGTGCATT TGAGGATGGA CTACGACATC CCTTTATTGT CAACCACCCC
    AAGGTTGGCA GAGTCAGTGT ATATGATTCC AAAAGGCAAT CTGGGAAGAC TAAGGAGACA
    AGCGTCAACT GGTGTCTGGC TGATGGCTAT GACCTGGAGA TCCTGGATGG TACCAGAGGC
    ACCGTGGATG GGCCACGGAA TGAATTGTCC CGGGTCTCCA AAAAGAACAT TTTTCTTCTA
    TTTAAGAAGC TCTGCTCCTT CCGTTACCGC AGGGATCTAC TGAGACTCTC CTATGGTGAG
    GCCAAGAAAG CTGCCCGTGA CTACGAGACG GCCAAGAACT ACTTCAAAAA AAGCTTGAAG
    GATATGGGCT ATGGGAACTG GATTAGCAAA CCCCAGGAGG AAAAGAACTT TTATCTCTGC
    CCAGTATAG

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

    CloneID OMb59877
    Clone ID Related Accession (Same CDS sequence) XM_015110801.2
    Accession Version XM_015110801.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3708bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015110801.1. ##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##

    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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGGGTA TTCCCTCAAC 
    GGATACTACC CCCATCCATT TCAAGGCTAT GAGCACAGAA AGCTCAGATA CCAGCAGCCT
    GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG
    ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG ACACCATCAC TGCCACCTTC CCTCCCAGGA
    CTCCAGCCAA GGTTTCCAGT ACTACCTGCC TCTAGTACCA GAGGCAGGCA AGTGGATATC
    AGGGGTGTCC CCAGGTGCGT GCATCTCGGA AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT
    CCTTCACCAC GTGGCAGGAT TCCGCCACGG AGAGGTGTTG ATTGCCTTTC CTCACAATTC
    CAGGAACTGA GTATCAACCA AGATCAGGAA CAAAGGATCT TAAAGTTCTT GGAAGAGCTT
    GGGGAAGGGA AGGCCACTAC AGCACATGAT CTGTCTTGGA AACTGGGGGC TCCAAAGAAA
    GAAATCAATC GAGTTTTATA CTCCCTGGCA AAGAAGGGCA AGCTACAGAA AGAGGCAGGA
    ACACCCCCTT TGTGGAAAAT CGCGGTCTCC ACTCAGGCTT GGAACCAGCA CAGCAGAGTG
    GTAAGACCAG ACGGTCATAG CCAAGGAGCC CCAAACTCAG ACCCAAATTT GGAACCTGAA
    GACAGAAACT CCACATCTGT CTCAGAAGAT CTTGAGCCTT TTATCTCAGT CTCAGCTCAG
    GCTTGGAACC AGCACAGCGG AGTGGTAAGA CCAGACGGTC ATAGCCAAGG AGCCCCAAAC
    TCAGAGTCGA GTTTGGAACC TGAAGACAGA AACTCCACAT CTGCCTTGGA AGATCCTCTT
    GAGTTTTTTG ACATGGCTGA GATCAAGGAG AAAATCTGCG ACTATCTCTT CAATGTGTCT
    GACTCCTCTG CCCTGAATTT GGCTAAAAAT ATTGGCCTCA CCAAGGCCCG AGATATAAAT
    GCCGTGCTAA TTGACATGGA AAGGCAGGGG GATGTCTATA GACAAGGGAC AACCCCTCCC
    ATATGGCATT TGACAGACAA GAAGCGAGAG AGGATGCAAA TCAAGAGAAA TACGAACAGT
    GTTCCTGAAA CCGCTCCAGC TGCAATCCCT GAGACCAAAA GAAACACAGA GTTCCTCACC
    TGTAATATAC CCACATCAAA TGCCTCAAAT AACATAGTAA CCACCGAAAA AGTGGAGAAT
    GGGCAGGAAC CTGTCATAAA GTTAGAAAAC AGTCAGGAGG CAAGACCAGA ACCAGTAAGA
    CTGAAACCAC CTGTTCATAA CAATGGCCCC TCAAAAGCAG GGTATGTTGA CTTTGAAAAT
    GGCCAGTGGG CCACAGATGA CATCCCAGAT GACTTGAATA GTATCCGCGC AGCACCAGGT
    GAGTTTCGAG CCATCATGGA GATGCCCTCC TTCTACAGTC ATGGCTTGCC ACGGTGTTCA
    CCCTACAAGA AACTGACAGA GTGCCAGCTG AAGAACCCCA TCAGCGGGCT GTTAGAATAT
    GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC AACATGATAG AGCAGAGTGG ACCACCCCAT
    GAACCTCGAT TTAAATTCCA GGTTGTCATC AATGGCCGAG AGTTTCCCCC AGCTGAAGCT
    GGAAGCAAGA AAGTGGCCAA GCAGGATGCA GCTATGAAAG CCATGACAAT TCTGCTAGAG
    GAAGCCAAAG CCAAGGACAG TGGAAAATCA GAAGAATCAT CCCACTATTC CACAGAAAAA
    GAATCAGAGA AGACCACAGA GTCCCAGACC CCCACCCCTT CAGCTACATC CTTCTTTTCT
    GGGAAGAGCC CCGTCACCAC ACTGCTCGAG TGTATGCACA AATTGGGGAA CTCCTGCGAA
    TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC CATGAGCCCA AGTTCCAGTA CTGTGTTGCA
    GTGGGAGCCC AAACTTTCCC CAGTGTGAGT GCCCCCAGCA AGAAAGTGGC AAAGCAGATG
    GCCGCAGAGG AAGCCATGAA GGCCCTGCAT GGGGAGGCAA CCAACTCCAT GACTTCTGAT
    GACCAGCCCG AAGGTATGAT CTCAGAGTCA CTTGATAACT TGGAATCCGT GATGCCCAAC
    AAGGTCAGGA AGATTGGCGA GCTCGTGAGA TACTTGAACA CCAATCCTGT GGGTGGCCTT
    TTGGAGTACG CCCGCTCCCA TGGCTTTGCT GCTGAATTCA AGTTGGTCGA CCAGTCTGGA
    CCTCCTCACG AGCCCAAGTT CGTTTACCAA GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC
    GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG CAGGAAGCAG CAGATGCGGC TCTCCGTGTC
    TTGATTGGGG AGAACGAGAA GGCAGAACGC ATGGGTTTCA CAGAGGTAAC CCCAGTGACA
    GGGGCCAGTC TCAGAAGAAC TATGCTCCTC CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG
    ACACTCCCTC TCACTGGCAG CACCTTCCAT GACCAGATAG CCATGCTGAG CCACCGGTGC
    TTCAACACTC TGACTAACAG CTTCCAGCCT TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC
    ATCGTTATGA AAAAAGACTC TGAGGACATG GGTGTCGTCG TCAGCTTGGG AACAGGGAAT
    CGCTGTGTGA AAGGAGATTC TCTCAGCCTG AAGGGAGAAA CTGTCAATGA CTGCCATGCA
    GAAATCATCT CCCGGAGAGG CTTCATCAGG TTTCTCTACA GTGAGTTAAT GAAATACAAC
    CCCCAGACTG CGAAGGATAG TATATTTGAA CCTGCTAAGG GAGGAGAAAA GCTCCAAATA
    AAAAAGACTG TGTCATTCCA TCTCTATATC AGCACCGCTC CATGTGGAGA TGGTGCCCTC
    TTTGACAAGT CCTGCAGCGA CCGTGCTATG GAAAGCACAG ACTCCCGCCA CTACCCTGTC
    TTTGAGAATC CCAAACAAGG CAAGCTCCGC ACCAAGGTGG AAAACGGAGA AGGCACAATC
    CCTGTGGAAT CCAGTGACAT TGTACCTACG TGGGATGGCA TTCGGCTCGG GGAGAGACTC
    CGTACCATGT CCTGTAGTGA CAAAATCCTA CGCTGGAATG TGCTGGGCCT GCAAGGGGCA
    CTGTTGACCC ACTTCCTGCA GCCCATTTAT CTCAAATCTG TTACATTGGG TTACCTTTTC
    AGCCAAGGGC ATCTGACCCG GGCTATTTGC TGTCGTGTGA CAAGAGATGG GAGTGCATTT
    GAGGATGGAC TACGACATCC CTTTATTGTC AACCACCCCA AGGTTGGCAG AGTCAGTGTA
    TATGATTCCA AAAGGCAATC TGGGAAGACT AAGGAGACAA GCGTCAACTG GTGTCTGGCT
    GATGGCTATG ACCTGGAGAT CCTGGATGGT ACCAGAGGCA CCGTGGATGG GCCACGGAAT
    GAATTGTCCC GGGTCTCCAA AAAGAACATT TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC
    CGTTACCGCA GGGATCTACT GAGACTCTCC TATGGTGAGG CCAAGAAAGC TGCCCGTGAC
    TACGAGACGG CCAAGAACTA CTTCAAAAAA AGCTTGAAGG ATATGGGCTA TGGGAACTGG
    ATTAGCAAAC CCCAGGAGGA AAAGAACTTT TATCTCTGCC CAGTATAG

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

    RefSeq XP_014966287.1
    CDS13..3720
    Translation

    Target ORF information:

    RefSeq Version XM_015110801.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110801.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGGGTA TTCCCTCAAC 
    GGATACTACC CCCATCCATT TCAAGGCTAT GAGCACAGAA AGCTCAGATA CCAGCAGCCT
    GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG
    ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG ACACCATCAC TGCCACCTTC CCTCCCAGGA
    CTCCAGCCAA GGTTTCCAGT ACTACCTGCC TCTAGTACCA GAGGCAGGCA AGTGGATATC
    AGGGGTGTCC CCAGGTGCGT GCATCTCGGA AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT
    CCTTCACCAC GTGGCAGGAT TCCGCCACGG AGAGGTGTTG ATTGCCTTTC CTCACAATTC
    CAGGAACTGA GTATCAACCA AGATCAGGAA CAAAGGATCT TAAAGTTCTT GGAAGAGCTT
    GGGGAAGGGA AGGCCACTAC AGCACATGAT CTGTCTTGGA AACTGGGGGC TCCAAAGAAA
    GAAATCAATC GAGTTTTATA CTCCCTGGCA AAGAAGGGCA AGCTACAGAA AGAGGCAGGA
    ACACCCCCTT TGTGGAAAAT CGCGGTCTCC ACTCAGGCTT GGAACCAGCA CAGCAGAGTG
    GTAAGACCAG ACGGTCATAG CCAAGGAGCC CCAAACTCAG ACCCAAATTT GGAACCTGAA
    GACAGAAACT CCACATCTGT CTCAGAAGAT CTTGAGCCTT TTATCTCAGT CTCAGCTCAG
    GCTTGGAACC AGCACAGCGG AGTGGTAAGA CCAGACGGTC ATAGCCAAGG AGCCCCAAAC
    TCAGAGTCGA GTTTGGAACC TGAAGACAGA AACTCCACAT CTGCCTTGGA AGATCCTCTT
    GAGTTTTTTG ACATGGCTGA GATCAAGGAG AAAATCTGCG ACTATCTCTT CAATGTGTCT
    GACTCCTCTG CCCTGAATTT GGCTAAAAAT ATTGGCCTCA CCAAGGCCCG AGATATAAAT
    GCCGTGCTAA TTGACATGGA AAGGCAGGGG GATGTCTATA GACAAGGGAC AACCCCTCCC
    ATATGGCATT TGACAGACAA GAAGCGAGAG AGGATGCAAA TCAAGAGAAA TACGAACAGT
    GTTCCTGAAA CCGCTCCAGC TGCAATCCCT GAGACCAAAA GAAACACAGA GTTCCTCACC
    TGTAATATAC CCACATCAAA TGCCTCAAAT AACATAGTAA CCACCGAAAA AGTGGAGAAT
    GGGCAGGAAC CTGTCATAAA GTTAGAAAAC AGTCAGGAGG CAAGACCAGA ACCAGTAAGA
    CTGAAACCAC CTGTTCATAA CAATGGCCCC TCAAAAGCAG GGTATGTTGA CTTTGAAAAT
    GGCCAGTGGG CCACAGATGA CATCCCAGAT GACTTGAATA GTATCCGCGC AGCACCAGGT
    GAGTTTCGAG CCATCATGGA GATGCCCTCC TTCTACAGTC ATGGCTTGCC ACGGTGTTCA
    CCCTACAAGA AACTGACAGA GTGCCAGCTG AAGAACCCCA TCAGCGGGCT GTTAGAATAT
    GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC AACATGATAG AGCAGAGTGG ACCACCCCAT
    GAACCTCGAT TTAAATTCCA GGTTGTCATC AATGGCCGAG AGTTTCCCCC AGCTGAAGCT
    GGAAGCAAGA AAGTGGCCAA GCAGGATGCA GCTATGAAAG CCATGACAAT TCTGCTAGAG
    GAAGCCAAAG CCAAGGACAG TGGAAAATCA GAAGAATCAT CCCACTATTC CACAGAAAAA
    GAATCAGAGA AGACCACAGA GTCCCAGACC CCCACCCCTT CAGCTACATC CTTCTTTTCT
    GGGAAGAGCC CCGTCACCAC ACTGCTCGAG TGTATGCACA AATTGGGGAA CTCCTGCGAA
    TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC CATGAGCCCA AGTTCCAGTA CTGTGTTGCA
    GTGGGAGCCC AAACTTTCCC CAGTGTGAGT GCCCCCAGCA AGAAAGTGGC AAAGCAGATG
    GCCGCAGAGG AAGCCATGAA GGCCCTGCAT GGGGAGGCAA CCAACTCCAT GACTTCTGAT
    GACCAGCCCG AAGGTATGAT CTCAGAGTCA CTTGATAACT TGGAATCCGT GATGCCCAAC
    AAGGTCAGGA AGATTGGCGA GCTCGTGAGA TACTTGAACA CCAATCCTGT GGGTGGCCTT
    TTGGAGTACG CCCGCTCCCA TGGCTTTGCT GCTGAATTCA AGTTGGTCGA CCAGTCTGGA
    CCTCCTCACG AGCCCAAGTT CGTTTACCAA GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC
    GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG CAGGAAGCAG CAGATGCGGC TCTCCGTGTC
    TTGATTGGGG AGAACGAGAA GGCAGAACGC ATGGGTTTCA CAGAGGTAAC CCCAGTGACA
    GGGGCCAGTC TCAGAAGAAC TATGCTCCTC CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG
    ACACTCCCTC TCACTGGCAG CACCTTCCAT GACCAGATAG CCATGCTGAG CCACCGGTGC
    TTCAACACTC TGACTAACAG CTTCCAGCCT TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC
    ATCGTTATGA AAAAAGACTC TGAGGACATG GGTGTCGTCG TCAGCTTGGG AACAGGGAAT
    CGCTGTGTGA AAGGAGATTC TCTCAGCCTG AAGGGAGAAA CTGTCAATGA CTGCCATGCA
    GAAATCATCT CCCGGAGAGG CTTCATCAGG TTTCTCTACA GTGAGTTAAT GAAATACAAC
    CCCCAGACTG CGAAGGATAG TATATTTGAA CCTGCTAAGG GAGGAGAAAA GCTCCAAATA
    AAAAAGACTG TGTCATTCCA TCTCTATATC AGCACCGCTC CATGTGGAGA TGGTGCCCTC
    TTTGACAAGT CCTGCAGCGA CCGTGCTATG GAAAGCACAG ACTCCCGCCA CTACCCTGTC
    TTTGAGAATC CCAAACAAGG CAAGCTCCGC ACCAAGGTGG AAAACGGAGA AGGCACAATC
    CCTGTGGAAT CCAGTGACAT TGTACCTACG TGGGATGGCA TTCGGCTCGG GGAGAGACTC
    CGTACCATGT CCTGTAGTGA CAAAATCCTA CGCTGGAATG TGCTGGGCCT GCAAGGGGCA
    CTGTTGACCC ACTTCCTGCA GCCCATTTAT CTCAAATCTG TTACATTGGG TTACCTTTTC
    AGCCAAGGGC ATCTGACCCG GGCTATTTGC TGTCGTGTGA CAAGAGATGG GAGTGCATTT
    GAGGATGGAC TACGACATCC CTTTATTGTC AACCACCCCA AGGTTGGCAG AGTCAGTGTA
    TATGATTCCA AAAGGCAATC TGGGAAGACT AAGGAGACAA GCGTCAACTG GTGTCTGGCT
    GATGGCTATG ACCTGGAGAT CCTGGATGGT ACCAGAGGCA CCGTGGATGG GCCACGGAAT
    GAATTGTCCC GGGTCTCCAA AAAGAACATT TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC
    CGTTACCGCA GGGATCTACT GAGACTCTCC TATGGTGAGG CCAAGAAAGC TGCCCGTGAC
    TACGAGACGG CCAAGAACTA CTTCAAAAAA AGCTTGAAGG ATATGGGCTA TGGGAACTGG
    ATTAGCAAAC CCCAGGAGGA AAAGAACTTT TATCTCTGCC CAGTATAG

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

    CloneID OMb59878
    Clone ID Related Accession (Same CDS sequence) XM_002801797.3
    Accession Version XM_002801797.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_002801797.2. ##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##

    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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CCAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGGTAAC CCCAGTGACA GGGGCCAGTC TCAGAAGAAC TATGCTCCTC
    CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG ACACTCCCTC TCACTGGCAG CACCTTCCAT
    GACCAGATAG CCATGCTGAG CCACCGGTGC TTCAACACTC TGACTAACAG CTTCCAGCCT
    TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC ATCGTTATGA AAAAAGACTC TGAGGACATG
    GGTGTCGTCG TCAGCTTGGG AACAGGGAAT CGCTGTGTGA AAGGAGATTC TCTCAGCCTG
    AAGGGAGAAA CTGTCAATGA CTGCCATGCA GAAATCATCT CCCGGAGAGG CTTCATCAGG
    TTTCTCTACA GTGAGTTAAT GAAATACAAC CCCCAGACTG CGAAGGATAG TATATTTGAA
    CCTGCTAAGG GAGGAGAAAA GCTCCAAATA AAAAAGACTG TGTCATTCCA TCTCTATATC
    AGCACCGCTC CATGTGGAGA TGGTGCCCTC TTTGACAAGT CCTGCAGCGA CCGTGCTATG
    GAAAGCACAG ACTCCCGCCA CTACCCTGTC TTTGAGAATC CCAAACAAGG CAAGCTCCGC
    ACCAAGGTGG AAAACGGAGA AGGCACAATC CCTGTGGAAT CCAGTGACAT TGTACCTACG
    TGGGATGGCA TTCGGCTCGG GGAGAGACTC CGTACCATGT CCTGTAGTGA CAAAATCCTA
    CGCTGGAATG TGCTGGGCCT GCAAGGGGCA CTGTTGACCC ACTTCCTGCA GCCCATTTAT
    CTCAAATCTG TTACATTGGG TTACCTTTTC AGCCAAGGGC ATCTGACCCG GGCTATTTGC
    TGTCGTGTGA CAAGAGATGG GAGTGCATTT GAGGATGGAC TACGACATCC CTTTATTGTC
    AACCACCCCA AGGTTGGCAG AGTCAGTGTA TATGATTCCA AAAGGCAATC TGGGAAGACT
    AAGGAGACAA GCGTCAACTG GTGTCTGGCT GATGGCTATG ACCTGGAGAT CCTGGATGGT
    ACCAGAGGCA CCGTGGATGG GCCACGGAAT GAATTGTCCC GGGTCTCCAA AAAGAACATT
    TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC CGTTACCGCA GGGATCTACT GAGACTCTCC
    TATGGTGAGG CCAAGAAAGC TGCCCGTGAC TACGAGACGG CCAAGAACTA CTTCAAAAAA
    AGCTTGAAGG ATATGGGCTA TGGGAACTGG ATTAGCAAAC CCCAGGAGGA AAAGAACTTT
    TATCTCTGCC CAGTATAG

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

    RefSeq XP_002801843.1
    CDS427..4104
    Translation

    Target ORF information:

    RefSeq Version XM_002801797.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002801797.3

    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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CCAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGGTAAC CCCAGTGACA GGGGCCAGTC TCAGAAGAAC TATGCTCCTC
    CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG ACACTCCCTC TCACTGGCAG CACCTTCCAT
    GACCAGATAG CCATGCTGAG CCACCGGTGC TTCAACACTC TGACTAACAG CTTCCAGCCT
    TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC ATCGTTATGA AAAAAGACTC TGAGGACATG
    GGTGTCGTCG TCAGCTTGGG AACAGGGAAT CGCTGTGTGA AAGGAGATTC TCTCAGCCTG
    AAGGGAGAAA CTGTCAATGA CTGCCATGCA GAAATCATCT CCCGGAGAGG CTTCATCAGG
    TTTCTCTACA GTGAGTTAAT GAAATACAAC CCCCAGACTG CGAAGGATAG TATATTTGAA
    CCTGCTAAGG GAGGAGAAAA GCTCCAAATA AAAAAGACTG TGTCATTCCA TCTCTATATC
    AGCACCGCTC CATGTGGAGA TGGTGCCCTC TTTGACAAGT CCTGCAGCGA CCGTGCTATG
    GAAAGCACAG ACTCCCGCCA CTACCCTGTC TTTGAGAATC CCAAACAAGG CAAGCTCCGC
    ACCAAGGTGG AAAACGGAGA AGGCACAATC CCTGTGGAAT CCAGTGACAT TGTACCTACG
    TGGGATGGCA TTCGGCTCGG GGAGAGACTC CGTACCATGT CCTGTAGTGA CAAAATCCTA
    CGCTGGAATG TGCTGGGCCT GCAAGGGGCA CTGTTGACCC ACTTCCTGCA GCCCATTTAT
    CTCAAATCTG TTACATTGGG TTACCTTTTC AGCCAAGGGC ATCTGACCCG GGCTATTTGC
    TGTCGTGTGA CAAGAGATGG GAGTGCATTT GAGGATGGAC TACGACATCC CTTTATTGTC
    AACCACCCCA AGGTTGGCAG AGTCAGTGTA TATGATTCCA AAAGGCAATC TGGGAAGACT
    AAGGAGACAA GCGTCAACTG GTGTCTGGCT GATGGCTATG ACCTGGAGAT CCTGGATGGT
    ACCAGAGGCA CCGTGGATGG GCCACGGAAT GAATTGTCCC GGGTCTCCAA AAAGAACATT
    TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC CGTTACCGCA GGGATCTACT GAGACTCTCC
    TATGGTGAGG CCAAGAAAGC TGCCCGTGAC TACGAGACGG CCAAGAACTA CTTCAAAAAA
    AGCTTGAAGG ATATGGGCTA TGGGAACTGG ATTAGCAAAC CCCAGGAGGA AAAGAACTTT
    TATCTCTGCC CAGTATAG

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

    CloneID OMb59879
    Clone ID Related Accession (Same CDS sequence) XM_001111902.4
    Accession Version XM_001111902.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001111902.3. ##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##

    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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CCAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGCTCCC TCTCACTGGC AGCACCTTCC ATGACCAGAT AGCCATGCTG
    AGCCACCGGT GCTTCAACAC TCTGACTAAC AGCTTCCAGC CTTCCTTGCT CGGCCGCAAG
    ATTCTGGCCG CCATCGTTAT GAAAAAAGAC TCTGAGGACA TGGGTGTCGT CGTCAGCTTG
    GGAACAGGGA ATCGCTGTGT GAAAGGAGAT TCTCTCAGCC TGAAGGGAGA AACTGTCAAT
    GACTGCCATG CAGAAATCAT CTCCCGGAGA GGCTTCATCA GGTTTCTCTA CAGTGAGTTA
    ATGAAATACA ACCCCCAGAC TGCGAAGGAT AGTATATTTG AACCTGCTAA GGGAGGAGAA
    AAGCTCCAAA TAAAAAAGAC TGTGTCATTC CATCTCTATA TCAGCACCGC TCCATGTGGA
    GATGGTGCCC TCTTTGACAA GTCCTGCAGC GACCGTGCTA TGGAAAGCAC AGACTCCCGC
    CACTACCCTG TCTTTGAGAA TCCCAAACAA GGCAAGCTCC GCACCAAGGT GGAAAACGGA
    GAAGGCACAA TCCCTGTGGA ATCCAGTGAC ATTGTACCTA CGTGGGATGG CATTCGGCTC
    GGGGAGAGAC TCCGTACCAT GTCCTGTAGT GACAAAATCC TACGCTGGAA TGTGCTGGGC
    CTGCAAGGGG CACTGTTGAC CCACTTCCTG CAGCCCATTT ATCTCAAATC TGTTACATTG
    GGTTACCTTT TCAGCCAAGG GCATCTGACC CGGGCTATTT GCTGTCGTGT GACAAGAGAT
    GGGAGTGCAT TTGAGGATGG ACTACGACAT CCCTTTATTG TCAACCACCC CAAGGTTGGC
    AGAGTCAGTG TATATGATTC CAAAAGGCAA TCTGGGAAGA CTAAGGAGAC AAGCGTCAAC
    TGGTGTCTGG CTGATGGCTA TGACCTGGAG ATCCTGGATG GTACCAGAGG CACCGTGGAT
    GGGCCACGGA ATGAATTGTC CCGGGTCTCC AAAAAGAACA TTTTTCTTCT ATTTAAGAAG
    CTCTGCTCCT TCCGTTACCG CAGGGATCTA CTGAGACTCT CCTATGGTGA GGCCAAGAAA
    GCTGCCCGTG ACTACGAGAC GGCCAAGAAC TACTTCAAAA AAAGCTTGAA GGATATGGGC
    TATGGGAACT GGATTAGCAA ACCCCAGGAG GAAAAGAACT TTTATCTCTG CCCAGTATAG

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

    RefSeq XP_001111902.2
    CDS427..4026
    Translation

    Target ORF information:

    RefSeq Version XM_001111902.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase RNA specific (ADAR), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001111902.4

    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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CCAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGCTCCC TCTCACTGGC AGCACCTTCC ATGACCAGAT AGCCATGCTG
    AGCCACCGGT GCTTCAACAC TCTGACTAAC AGCTTCCAGC CTTCCTTGCT CGGCCGCAAG
    ATTCTGGCCG CCATCGTTAT GAAAAAAGAC TCTGAGGACA TGGGTGTCGT CGTCAGCTTG
    GGAACAGGGA ATCGCTGTGT GAAAGGAGAT TCTCTCAGCC TGAAGGGAGA AACTGTCAAT
    GACTGCCATG CAGAAATCAT CTCCCGGAGA GGCTTCATCA GGTTTCTCTA CAGTGAGTTA
    ATGAAATACA ACCCCCAGAC TGCGAAGGAT AGTATATTTG AACCTGCTAA GGGAGGAGAA
    AAGCTCCAAA TAAAAAAGAC TGTGTCATTC CATCTCTATA TCAGCACCGC TCCATGTGGA
    GATGGTGCCC TCTTTGACAA GTCCTGCAGC GACCGTGCTA TGGAAAGCAC AGACTCCCGC
    CACTACCCTG TCTTTGAGAA TCCCAAACAA GGCAAGCTCC GCACCAAGGT GGAAAACGGA
    GAAGGCACAA TCCCTGTGGA ATCCAGTGAC ATTGTACCTA CGTGGGATGG CATTCGGCTC
    GGGGAGAGAC TCCGTACCAT GTCCTGTAGT GACAAAATCC TACGCTGGAA TGTGCTGGGC
    CTGCAAGGGG CACTGTTGAC CCACTTCCTG CAGCCCATTT ATCTCAAATC TGTTACATTG
    GGTTACCTTT TCAGCCAAGG GCATCTGACC CGGGCTATTT GCTGTCGTGT GACAAGAGAT
    GGGAGTGCAT TTGAGGATGG ACTACGACAT CCCTTTATTG TCAACCACCC CAAGGTTGGC
    AGAGTCAGTG TATATGATTC CAAAAGGCAA TCTGGGAAGA CTAAGGAGAC AAGCGTCAAC
    TGGTGTCTGG CTGATGGCTA TGACCTGGAG ATCCTGGATG GTACCAGAGG CACCGTGGAT
    GGGCCACGGA ATGAATTGTC CCGGGTCTCC AAAAAGAACA TTTTTCTTCT ATTTAAGAAG
    CTCTGCTCCT TCCGTTACCG CAGGGATCTA CTGAGACTCT CCTATGGTGA GGCCAAGAAA
    GCTGCCCGTG ACTACGAGAC GGCCAAGAAC TACTTCAAAA AAAGCTTGAA GGATATGGGC
    TATGGGAACT GGATTAGCAA ACCCCAGGAG GAAAAGAACT TTTATCTCTG CCCAGTATAG

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

    CloneID OMb26332
    Clone ID Related Accession (Same CDS sequence) XM_015110786.1
    Accession Version XM_015110786.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804570.1) 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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC GAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGGTAACC CCAGTGACAG GGGCCAGTCT CAGAAGAACT
    ATGCTCCTCC TCTCAAGGTC CCCAGAAGCA CAGCCAAAGA CACTCCCTCT CACTGGCAGC
    ACCTTCCATG ACCAGATAGC CATGCTGAGC CACCGGTGCT TCAACACTCT GACTAACAGC
    TTCCAGCCTT CCTTGCTCGG CCGCAAGATT CTGGCCGCCA TCGTTATGAA AAAAGACTCT
    GAGGACATGG GTGTCGTCGT CAGCTTGGGA ACAGGGAATC GCTGTGTGAA AGGAGATTCT
    CTCAGCCTGA AGGGAGAAAC TGTCAATGAC TGCCATGCAG AAATCATCTC CCGGAGAGGC
    TTCATCAGGT TTCTCTACAG TGAGTTAATG AAATACAACC CCCAGACTGC GAAGGATAGT
    ATATTTGAAC CTGCTAAGGG AGGAGAAAAG CTCCAAATAA AAAAGACTGT GTCATTCCAT
    CTCTATATCA GCACCGCTCC ATGTGGAGAT GGTGCCCTCT TTGACAAGTC CTGCAGCGAC
    CGTGCTATGG AAAGCACAGA CTCCCGCCAC TACCCTGTCT TTGAGAATCC CAAACAAGGC
    AAGCTCCGCA CCAAGGTGGA AAACGGAGAA GGCACAATCC CTGTGGAATC CAGTGACATT
    GTACCTACGT GGGATGGCAT TCGGCTCGGG GAGAGACTCC GTACCATGTC CTGTAGTGAC
    AAAATCCTAC GCTGGAATGT GCTGGGCCTG CAAGGGGCAC TGTTGACCCA CTTCCTGCAG
    CCCATTTATC TCAAATCTGT TACATTGGGT TACCTTTTCA GCCAAGGGCA TCTGACCCGG
    GCTATTTGCT GTCGTGTGAC AAGAGATGGG AGTGCATTTG AGGATGGACT ACGACATCCC
    TTTATTGTCA ACCACCCCAA GGTTGGCAGA GTCAGTGTAT ATGATTCCAA AAGGCAATCT
    GGGAAGACTA AGGAGACAAG CGTCAACTGG TGTCTGGCTG ATGGCTATGA CCTGGAGATC
    CTGGATGGTA CCAGAGGCAC CGTGGATGGG CCACGGAATG AATTGTCCCG GGTCTCCAAA
    AAGAACATTT TTCTTCTATT TAAGAAGCTC TGCTCCTTCC GTTACCGCAG GGATCTACTG
    AGACTCTCCT ATGGTGAGGC CAAGAAAGCT GCCCGTGACT ACGAGACGGC CAAGAACTAC
    TTCAAAAAAA GCTTGAAGGA TATGGGCTAT GGGAACTGGA TTAGCAAACC CCAGGAGGAA
    AAGAACTTTT ATCTCTGCCC AGTATAG

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

    RefSeq XP_014966272.1
    CDS16..3822
    Translation

    Target ORF information:

    RefSeq Version XM_015110786.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110786.1

    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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC GAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGGTAACC CCAGTGACAG GGGCCAGTCT CAGAAGAACT
    ATGCTCCTCC TCTCAAGGTC CCCAGAAGCA CAGCCAAAGA CACTCCCTCT CACTGGCAGC
    ACCTTCCATG ACCAGATAGC CATGCTGAGC CACCGGTGCT TCAACACTCT GACTAACAGC
    TTCCAGCCTT CCTTGCTCGG CCGCAAGATT CTGGCCGCCA TCGTTATGAA AAAAGACTCT
    GAGGACATGG GTGTCGTCGT CAGCTTGGGA ACAGGGAATC GCTGTGTGAA AGGAGATTCT
    CTCAGCCTGA AGGGAGAAAC TGTCAATGAC TGCCATGCAG AAATCATCTC CCGGAGAGGC
    TTCATCAGGT TTCTCTACAG TGAGTTAATG AAATACAACC CCCAGACTGC GAAGGATAGT
    ATATTTGAAC CTGCTAAGGG AGGAGAAAAG CTCCAAATAA AAAAGACTGT GTCATTCCAT
    CTCTATATCA GCACCGCTCC ATGTGGAGAT GGTGCCCTCT TTGACAAGTC CTGCAGCGAC
    CGTGCTATGG AAAGCACAGA CTCCCGCCAC TACCCTGTCT TTGAGAATCC CAAACAAGGC
    AAGCTCCGCA CCAAGGTGGA AAACGGAGAA GGCACAATCC CTGTGGAATC CAGTGACATT
    GTACCTACGT GGGATGGCAT TCGGCTCGGG GAGAGACTCC GTACCATGTC CTGTAGTGAC
    AAAATCCTAC GCTGGAATGT GCTGGGCCTG CAAGGGGCAC TGTTGACCCA CTTCCTGCAG
    CCCATTTATC TCAAATCTGT TACATTGGGT TACCTTTTCA GCCAAGGGCA TCTGACCCGG
    GCTATTTGCT GTCGTGTGAC AAGAGATGGG AGTGCATTTG AGGATGGACT ACGACATCCC
    TTTATTGTCA ACCACCCCAA GGTTGGCAGA GTCAGTGTAT ATGATTCCAA AAGGCAATCT
    GGGAAGACTA AGGAGACAAG CGTCAACTGG TGTCTGGCTG ATGGCTATGA CCTGGAGATC
    CTGGATGGTA CCAGAGGCAC CGTGGATGGG CCACGGAATG AATTGTCCCG GGTCTCCAAA
    AAGAACATTT TTCTTCTATT TAAGAAGCTC TGCTCCTTCC GTTACCGCAG GGATCTACTG
    AGACTCTCCT ATGGTGAGGC CAAGAAAGCT GCCCGTGACT ACGAGACGGC CAAGAACTAC
    TTCAAAAAAA GCTTGAAGGA TATGGGCTAT GGGAACTGGA TTAGCAAACC CCAGGAGGAA
    AAGAACTTTT ATCTCTGCCC AGTATAG

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

    CloneID OMb26333
    Clone ID Related Accession (Same CDS sequence) XM_015110794.1
    Accession Version XM_015110794.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804570.1) 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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC GAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGCTCCCT CTCACTGGCA GCACCTTCCA TGACCAGATA
    GCCATGCTGA GCCACCGGTG CTTCAACACT CTGACTAACA GCTTCCAGCC TTCCTTGCTC
    GGCCGCAAGA TTCTGGCCGC CATCGTTATG AAAAAAGACT CTGAGGACAT GGGTGTCGTC
    GTCAGCTTGG GAACAGGGAA TCGCTGTGTG AAAGGAGATT CTCTCAGCCT GAAGGGAGAA
    ACTGTCAATG ACTGCCATGC AGAAATCATC TCCCGGAGAG GCTTCATCAG GTTTCTCTAC
    AGTGAGTTAA TGAAATACAA CCCCCAGACT GCGAAGGATA GTATATTTGA ACCTGCTAAG
    GGAGGAGAAA AGCTCCAAAT AAAAAAGACT GTGTCATTCC ATCTCTATAT CAGCACCGCT
    CCATGTGGAG ATGGTGCCCT CTTTGACAAG TCCTGCAGCG ACCGTGCTAT GGAAAGCACA
    GACTCCCGCC ACTACCCTGT CTTTGAGAAT CCCAAACAAG GCAAGCTCCG CACCAAGGTG
    GAAAACGGAG AAGGCACAAT CCCTGTGGAA TCCAGTGACA TTGTACCTAC GTGGGATGGC
    ATTCGGCTCG GGGAGAGACT CCGTACCATG TCCTGTAGTG ACAAAATCCT ACGCTGGAAT
    GTGCTGGGCC TGCAAGGGGC ACTGTTGACC CACTTCCTGC AGCCCATTTA TCTCAAATCT
    GTTACATTGG GTTACCTTTT CAGCCAAGGG CATCTGACCC GGGCTATTTG CTGTCGTGTG
    ACAAGAGATG GGAGTGCATT TGAGGATGGA CTACGACATC CCTTTATTGT CAACCACCCC
    AAGGTTGGCA GAGTCAGTGT ATATGATTCC AAAAGGCAAT CTGGGAAGAC TAAGGAGACA
    AGCGTCAACT GGTGTCTGGC TGATGGCTAT GACCTGGAGA TCCTGGATGG TACCAGAGGC
    ACCGTGGATG GGCCACGGAA TGAATTGTCC CGGGTCTCCA AAAAGAACAT TTTTCTTCTA
    TTTAAGAAGC TCTGCTCCTT CCGTTACCGC AGGGATCTAC TGAGACTCTC CTATGGTGAG
    GCCAAGAAAG CTGCCCGTGA CTACGAGACG GCCAAGAACT ACTTCAAAAA AAGCTTGAAG
    GATATGGGCT ATGGGAACTG GATTAGCAAA CCCCAGGAGG AAAAGAACTT TTATCTCTGC
    CCAGTATAG

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

    RefSeq XP_014966280.1
    CDS16..3744
    Translation

    Target ORF information:

    RefSeq Version XM_015110794.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110794.1

    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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGTAGA GAGGGCTACG 
    TGGTGGGGGA GGGCGGGGGG AGGGTATCGG CCGCACTGGC AGCCTCCGGG TGTTCGGCCG
    TGTCCGGAGG AAGTACAAGA CCCGGGGTAT TCCCTCAACG GATACTACCC CCATCCATTT
    CAAGGCTATG AGCACAGAAA GCTCAGATAC CAGCAGCCTG GGCCAGGATC TTCCCCCAAT
    AGTTTCCTGC TTAAGCAAAT AGAGTTTCTC AAGGGGCAGA TCCCAGAAGC GCCGGTGATT
    GGAAAGCAGA CACCATCACT GCCACCTTCC CTCCCAGGAC TCCAGCCAAG GTTTCCAGTA
    CTACCTGCCT CTAGTACCAG AGGCAGGCAA GTGGATATCA GGGGTGTCCC CAGGTGCGTG
    CATCTCGGAA GTCAGGGGCT CCAGAGAGGG TTCCAGCATC CTTCACCACG TGGCAGGATT
    CCGCCACGGA GAGGTGTTGA TTGCCTTTCC TCACAATTCC AGGAACTGAG TATCAACCAA
    GATCAGGAAC AAAGGATCTT AAAGTTCTTG GAAGAGCTTG GGGAAGGGAA GGCCACTACA
    GCACATGATC TGTCTTGGAA ACTGGGGGCT CCAAAGAAAG AAATCAATCG AGTTTTATAC
    TCCCTGGCAA AGAAGGGCAA GCTACAGAAA GAGGCAGGAA CACCCCCTTT GTGGAAAATC
    GCGGTCTCCA CTCAGGCTTG GAACCAGCAC AGCAGAGTGG TAAGACCAGA CGGTCATAGC
    CAAGGAGCCC CAAACTCAGA CCCAAATTTG GAACCTGAAG ACAGAAACTC CACATCTGTC
    TCAGAAGATC TTGAGCCTTT TATCTCAGTC TCAGCTCAGG CTTGGAACCA GCACAGCGGA
    GTGGTAAGAC CAGACGGTCA TAGCCAAGGA GCCCCAAACT CAGAGTCGAG TTTGGAACCT
    GAAGACAGAA ACTCCACATC TGCCTTGGAA GATCCTCTTG AGTTTTTTGA CATGGCTGAG
    ATCAAGGAGA AAATCTGCGA CTATCTCTTC AATGTGTCTG ACTCCTCTGC CCTGAATTTG
    GCTAAAAATA TTGGCCTCAC CAAGGCCCGA GATATAAATG CCGTGCTAAT TGACATGGAA
    AGGCAGGGGG ATGTCTATAG ACAAGGGACA ACCCCTCCCA TATGGCATTT GACAGACAAG
    AAGCGAGAGA GGATGCAAAT CAAGAGAAAT ACGAACAGTG TTCCTGAAAC CGCTCCAGCT
    GCAATCCCTG AGACCAAAAG AAACACAGAG TTCCTCACCT GTAATATACC CACATCAAAT
    GCCTCAAATA ACATAGTAAC CACCGAAAAA GTGGAGAATG GGCAGGAACC TGTCATAAAG
    TTAGAAAACA GTCAGGAGGC AAGACCAGAA CCAGTAAGAC TGAAACCACC TGTTCATAAC
    AATGGCCCCT CAAAAGCAGG GTATGTTGAC TTTGAAAATG GCCAGTGGGC CACAGATGAC
    ATCCCAGATG ACTTGAATAG TATCCGCGCA GCACCAGGTG AGTTTCGAGC CATCATGGAG
    ATGCCCTCCT TCTACAGTCA TGGCTTGCCA CGGTGTTCAC CCTACAAGAA ACTGACAGAG
    TGCCAGCTGA AGAACCCCAT CAGCGGGCTG TTAGAATATG CCCAGTTCGC TAGTCAAACC
    TGTGAGTTCA ACATGATAGA GCAGAGTGGA CCACCCCATG AACCTCGATT TAAATTCCAG
    GTTGTCATCA ATGGCCGAGA GTTTCCCCCA GCTGAAGCTG GAAGCAAGAA AGTGGCCAAG
    CAGGATGCAG CTATGAAAGC CATGACAATT CTGCTAGAGG AAGCCAAAGC CAAGGACAGT
    GGAAAATCAG AAGAATCATC CCACTATTCC ACAGAAAAAG AATCAGAGAA GACCACAGAG
    TCCCAGACCC CCACCCCTTC AGCTACATCC TTCTTTTCTG GGAAGAGCCC CGTCACCACA
    CTGCTCGAGT GTATGCACAA ATTGGGGAAC TCCTGCGAAT TCCGTCTCCT GTCCAAAGAA
    GGCCCTGCCC ATGAGCCCAA GTTCCAGTAC TGTGTTGCAG TGGGAGCCCA AACTTTCCCC
    AGTGTGAGTG CCCCCAGCAA GAAAGTGGCA AAGCAGATGG CCGCAGAGGA AGCCATGAAG
    GCCCTGCATG GGGAGGCAAC GAACTCCATG ACTTCTGATG ACCAGCCCGA AGGTATGATC
    TCAGAGTCAC TTGATAACTT GGAATCCGTG ATGCCCAACA AGGTCAGGAA GATTGGCGAG
    CTCGTGAGAT ACTTGAACAC CAATCCTGTG GGTGGCCTTT TGGAGTACGC CCGCTCCCAT
    GGCTTTGCTG CTGAATTCAA GTTGGTCGAC CAGTCTGGAC CTCCTCACGA GCCCAAGTTC
    GTTTACCAAG CAAAAGTTGG GGGTCGCTGG TTCCCAGCCG TCTGCGCACA CAGCAAGAAG
    CAAGGCAAGC AGGAAGCAGC AGATGCGGCT CTCCGTGTCT TGATTGGGGA GAACGAGAAG
    GCAGAACGCA TGGGTTTCAC AGAGCTCCCT CTCACTGGCA GCACCTTCCA TGACCAGATA
    GCCATGCTGA GCCACCGGTG CTTCAACACT CTGACTAACA GCTTCCAGCC TTCCTTGCTC
    GGCCGCAAGA TTCTGGCCGC CATCGTTATG AAAAAAGACT CTGAGGACAT GGGTGTCGTC
    GTCAGCTTGG GAACAGGGAA TCGCTGTGTG AAAGGAGATT CTCTCAGCCT GAAGGGAGAA
    ACTGTCAATG ACTGCCATGC AGAAATCATC TCCCGGAGAG GCTTCATCAG GTTTCTCTAC
    AGTGAGTTAA TGAAATACAA CCCCCAGACT GCGAAGGATA GTATATTTGA ACCTGCTAAG
    GGAGGAGAAA AGCTCCAAAT AAAAAAGACT GTGTCATTCC ATCTCTATAT CAGCACCGCT
    CCATGTGGAG ATGGTGCCCT CTTTGACAAG TCCTGCAGCG ACCGTGCTAT GGAAAGCACA
    GACTCCCGCC ACTACCCTGT CTTTGAGAAT CCCAAACAAG GCAAGCTCCG CACCAAGGTG
    GAAAACGGAG AAGGCACAAT CCCTGTGGAA TCCAGTGACA TTGTACCTAC GTGGGATGGC
    ATTCGGCTCG GGGAGAGACT CCGTACCATG TCCTGTAGTG ACAAAATCCT ACGCTGGAAT
    GTGCTGGGCC TGCAAGGGGC ACTGTTGACC CACTTCCTGC AGCCCATTTA TCTCAAATCT
    GTTACATTGG GTTACCTTTT CAGCCAAGGG CATCTGACCC GGGCTATTTG CTGTCGTGTG
    ACAAGAGATG GGAGTGCATT TGAGGATGGA CTACGACATC CCTTTATTGT CAACCACCCC
    AAGGTTGGCA GAGTCAGTGT ATATGATTCC AAAAGGCAAT CTGGGAAGAC TAAGGAGACA
    AGCGTCAACT GGTGTCTGGC TGATGGCTAT GACCTGGAGA TCCTGGATGG TACCAGAGGC
    ACCGTGGATG GGCCACGGAA TGAATTGTCC CGGGTCTCCA AAAAGAACAT TTTTCTTCTA
    TTTAAGAAGC TCTGCTCCTT CCGTTACCGC AGGGATCTAC TGAGACTCTC CTATGGTGAG
    GCCAAGAAAG CTGCCCGTGA CTACGAGACG GCCAAGAACT ACTTCAAAAA AAGCTTGAAG
    GATATGGGCT ATGGGAACTG GATTAGCAAA CCCCAGGAGG AAAAGAACTT TTATCTCTGC
    CCAGTATAG

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

    CloneID OMb26334
    Clone ID Related Accession (Same CDS sequence) XM_015110801.1
    Accession Version XM_015110801.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3708bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804570.1) 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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGGGTA TTCCCTCAAC 
    GGATACTACC CCCATCCATT TCAAGGCTAT GAGCACAGAA AGCTCAGATA CCAGCAGCCT
    GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG
    ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG ACACCATCAC TGCCACCTTC CCTCCCAGGA
    CTCCAGCCAA GGTTTCCAGT ACTACCTGCC TCTAGTACCA GAGGCAGGCA AGTGGATATC
    AGGGGTGTCC CCAGGTGCGT GCATCTCGGA AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT
    CCTTCACCAC GTGGCAGGAT TCCGCCACGG AGAGGTGTTG ATTGCCTTTC CTCACAATTC
    CAGGAACTGA GTATCAACCA AGATCAGGAA CAAAGGATCT TAAAGTTCTT GGAAGAGCTT
    GGGGAAGGGA AGGCCACTAC AGCACATGAT CTGTCTTGGA AACTGGGGGC TCCAAAGAAA
    GAAATCAATC GAGTTTTATA CTCCCTGGCA AAGAAGGGCA AGCTACAGAA AGAGGCAGGA
    ACACCCCCTT TGTGGAAAAT CGCGGTCTCC ACTCAGGCTT GGAACCAGCA CAGCAGAGTG
    GTAAGACCAG ACGGTCATAG CCAAGGAGCC CCAAACTCAG ACCCAAATTT GGAACCTGAA
    GACAGAAACT CCACATCTGT CTCAGAAGAT CTTGAGCCTT TTATCTCAGT CTCAGCTCAG
    GCTTGGAACC AGCACAGCGG AGTGGTAAGA CCAGACGGTC ATAGCCAAGG AGCCCCAAAC
    TCAGAGTCGA GTTTGGAACC TGAAGACAGA AACTCCACAT CTGCCTTGGA AGATCCTCTT
    GAGTTTTTTG ACATGGCTGA GATCAAGGAG AAAATCTGCG ACTATCTCTT CAATGTGTCT
    GACTCCTCTG CCCTGAATTT GGCTAAAAAT ATTGGCCTCA CCAAGGCCCG AGATATAAAT
    GCCGTGCTAA TTGACATGGA AAGGCAGGGG GATGTCTATA GACAAGGGAC AACCCCTCCC
    ATATGGCATT TGACAGACAA GAAGCGAGAG AGGATGCAAA TCAAGAGAAA TACGAACAGT
    GTTCCTGAAA CCGCTCCAGC TGCAATCCCT GAGACCAAAA GAAACACAGA GTTCCTCACC
    TGTAATATAC CCACATCAAA TGCCTCAAAT AACATAGTAA CCACCGAAAA AGTGGAGAAT
    GGGCAGGAAC CTGTCATAAA GTTAGAAAAC AGTCAGGAGG CAAGACCAGA ACCAGTAAGA
    CTGAAACCAC CTGTTCATAA CAATGGCCCC TCAAAAGCAG GGTATGTTGA CTTTGAAAAT
    GGCCAGTGGG CCACAGATGA CATCCCAGAT GACTTGAATA GTATCCGCGC AGCACCAGGT
    GAGTTTCGAG CCATCATGGA GATGCCCTCC TTCTACAGTC ATGGCTTGCC ACGGTGTTCA
    CCCTACAAGA AACTGACAGA GTGCCAGCTG AAGAACCCCA TCAGCGGGCT GTTAGAATAT
    GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC AACATGATAG AGCAGAGTGG ACCACCCCAT
    GAACCTCGAT TTAAATTCCA GGTTGTCATC AATGGCCGAG AGTTTCCCCC AGCTGAAGCT
    GGAAGCAAGA AAGTGGCCAA GCAGGATGCA GCTATGAAAG CCATGACAAT TCTGCTAGAG
    GAAGCCAAAG CCAAGGACAG TGGAAAATCA GAAGAATCAT CCCACTATTC CACAGAAAAA
    GAATCAGAGA AGACCACAGA GTCCCAGACC CCCACCCCTT CAGCTACATC CTTCTTTTCT
    GGGAAGAGCC CCGTCACCAC ACTGCTCGAG TGTATGCACA AATTGGGGAA CTCCTGCGAA
    TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC CATGAGCCCA AGTTCCAGTA CTGTGTTGCA
    GTGGGAGCCC AAACTTTCCC CAGTGTGAGT GCCCCCAGCA AGAAAGTGGC AAAGCAGATG
    GCCGCAGAGG AAGCCATGAA GGCCCTGCAT GGGGAGGCAA CGAACTCCAT GACTTCTGAT
    GACCAGCCCG AAGGTATGAT CTCAGAGTCA CTTGATAACT TGGAATCCGT GATGCCCAAC
    AAGGTCAGGA AGATTGGCGA GCTCGTGAGA TACTTGAACA CCAATCCTGT GGGTGGCCTT
    TTGGAGTACG CCCGCTCCCA TGGCTTTGCT GCTGAATTCA AGTTGGTCGA CCAGTCTGGA
    CCTCCTCACG AGCCCAAGTT CGTTTACCAA GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC
    GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG CAGGAAGCAG CAGATGCGGC TCTCCGTGTC
    TTGATTGGGG AGAACGAGAA GGCAGAACGC ATGGGTTTCA CAGAGGTAAC CCCAGTGACA
    GGGGCCAGTC TCAGAAGAAC TATGCTCCTC CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG
    ACACTCCCTC TCACTGGCAG CACCTTCCAT GACCAGATAG CCATGCTGAG CCACCGGTGC
    TTCAACACTC TGACTAACAG CTTCCAGCCT TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC
    ATCGTTATGA AAAAAGACTC TGAGGACATG GGTGTCGTCG TCAGCTTGGG AACAGGGAAT
    CGCTGTGTGA AAGGAGATTC TCTCAGCCTG AAGGGAGAAA CTGTCAATGA CTGCCATGCA
    GAAATCATCT CCCGGAGAGG CTTCATCAGG TTTCTCTACA GTGAGTTAAT GAAATACAAC
    CCCCAGACTG CGAAGGATAG TATATTTGAA CCTGCTAAGG GAGGAGAAAA GCTCCAAATA
    AAAAAGACTG TGTCATTCCA TCTCTATATC AGCACCGCTC CATGTGGAGA TGGTGCCCTC
    TTTGACAAGT CCTGCAGCGA CCGTGCTATG GAAAGCACAG ACTCCCGCCA CTACCCTGTC
    TTTGAGAATC CCAAACAAGG CAAGCTCCGC ACCAAGGTGG AAAACGGAGA AGGCACAATC
    CCTGTGGAAT CCAGTGACAT TGTACCTACG TGGGATGGCA TTCGGCTCGG GGAGAGACTC
    CGTACCATGT CCTGTAGTGA CAAAATCCTA CGCTGGAATG TGCTGGGCCT GCAAGGGGCA
    CTGTTGACCC ACTTCCTGCA GCCCATTTAT CTCAAATCTG TTACATTGGG TTACCTTTTC
    AGCCAAGGGC ATCTGACCCG GGCTATTTGC TGTCGTGTGA CAAGAGATGG GAGTGCATTT
    GAGGATGGAC TACGACATCC CTTTATTGTC AACCACCCCA AGGTTGGCAG AGTCAGTGTA
    TATGATTCCA AAAGGCAATC TGGGAAGACT AAGGAGACAA GCGTCAACTG GTGTCTGGCT
    GATGGCTATG ACCTGGAGAT CCTGGATGGT ACCAGAGGCA CCGTGGATGG GCCACGGAAT
    GAATTGTCCC GGGTCTCCAA AAAGAACATT TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC
    CGTTACCGCA GGGATCTACT GAGACTCTCC TATGGTGAGG CCAAGAAAGC TGCCCGTGAC
    TACGAGACGG CCAAGAACTA CTTCAAAAAA AGCTTGAAGG ATATGGGCTA TGGGAACTGG
    ATTAGCAAAC CCCAGGAGGA AAAGAACTTT TATCTCTGCC CAGTATAG

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

    RefSeq XP_014966287.1
    CDS26..3733
    Translation

    Target ORF information:

    RefSeq Version XM_015110801.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015110801.1

    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
    ATGATGTCAC CAATCTGCGA CCACACCATT GATTCCCGAC TGAAGGGGTA TTCCCTCAAC 
    GGATACTACC CCCATCCATT TCAAGGCTAT GAGCACAGAA AGCTCAGATA CCAGCAGCCT
    GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG
    ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG ACACCATCAC TGCCACCTTC CCTCCCAGGA
    CTCCAGCCAA GGTTTCCAGT ACTACCTGCC TCTAGTACCA GAGGCAGGCA AGTGGATATC
    AGGGGTGTCC CCAGGTGCGT GCATCTCGGA AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT
    CCTTCACCAC GTGGCAGGAT TCCGCCACGG AGAGGTGTTG ATTGCCTTTC CTCACAATTC
    CAGGAACTGA GTATCAACCA AGATCAGGAA CAAAGGATCT TAAAGTTCTT GGAAGAGCTT
    GGGGAAGGGA AGGCCACTAC AGCACATGAT CTGTCTTGGA AACTGGGGGC TCCAAAGAAA
    GAAATCAATC GAGTTTTATA CTCCCTGGCA AAGAAGGGCA AGCTACAGAA AGAGGCAGGA
    ACACCCCCTT TGTGGAAAAT CGCGGTCTCC ACTCAGGCTT GGAACCAGCA CAGCAGAGTG
    GTAAGACCAG ACGGTCATAG CCAAGGAGCC CCAAACTCAG ACCCAAATTT GGAACCTGAA
    GACAGAAACT CCACATCTGT CTCAGAAGAT CTTGAGCCTT TTATCTCAGT CTCAGCTCAG
    GCTTGGAACC AGCACAGCGG AGTGGTAAGA CCAGACGGTC ATAGCCAAGG AGCCCCAAAC
    TCAGAGTCGA GTTTGGAACC TGAAGACAGA AACTCCACAT CTGCCTTGGA AGATCCTCTT
    GAGTTTTTTG ACATGGCTGA GATCAAGGAG AAAATCTGCG ACTATCTCTT CAATGTGTCT
    GACTCCTCTG CCCTGAATTT GGCTAAAAAT ATTGGCCTCA CCAAGGCCCG AGATATAAAT
    GCCGTGCTAA TTGACATGGA AAGGCAGGGG GATGTCTATA GACAAGGGAC AACCCCTCCC
    ATATGGCATT TGACAGACAA GAAGCGAGAG AGGATGCAAA TCAAGAGAAA TACGAACAGT
    GTTCCTGAAA CCGCTCCAGC TGCAATCCCT GAGACCAAAA GAAACACAGA GTTCCTCACC
    TGTAATATAC CCACATCAAA TGCCTCAAAT AACATAGTAA CCACCGAAAA AGTGGAGAAT
    GGGCAGGAAC CTGTCATAAA GTTAGAAAAC AGTCAGGAGG CAAGACCAGA ACCAGTAAGA
    CTGAAACCAC CTGTTCATAA CAATGGCCCC TCAAAAGCAG GGTATGTTGA CTTTGAAAAT
    GGCCAGTGGG CCACAGATGA CATCCCAGAT GACTTGAATA GTATCCGCGC AGCACCAGGT
    GAGTTTCGAG CCATCATGGA GATGCCCTCC TTCTACAGTC ATGGCTTGCC ACGGTGTTCA
    CCCTACAAGA AACTGACAGA GTGCCAGCTG AAGAACCCCA TCAGCGGGCT GTTAGAATAT
    GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC AACATGATAG AGCAGAGTGG ACCACCCCAT
    GAACCTCGAT TTAAATTCCA GGTTGTCATC AATGGCCGAG AGTTTCCCCC AGCTGAAGCT
    GGAAGCAAGA AAGTGGCCAA GCAGGATGCA GCTATGAAAG CCATGACAAT TCTGCTAGAG
    GAAGCCAAAG CCAAGGACAG TGGAAAATCA GAAGAATCAT CCCACTATTC CACAGAAAAA
    GAATCAGAGA AGACCACAGA GTCCCAGACC CCCACCCCTT CAGCTACATC CTTCTTTTCT
    GGGAAGAGCC CCGTCACCAC ACTGCTCGAG TGTATGCACA AATTGGGGAA CTCCTGCGAA
    TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC CATGAGCCCA AGTTCCAGTA CTGTGTTGCA
    GTGGGAGCCC AAACTTTCCC CAGTGTGAGT GCCCCCAGCA AGAAAGTGGC AAAGCAGATG
    GCCGCAGAGG AAGCCATGAA GGCCCTGCAT GGGGAGGCAA CGAACTCCAT GACTTCTGAT
    GACCAGCCCG AAGGTATGAT CTCAGAGTCA CTTGATAACT TGGAATCCGT GATGCCCAAC
    AAGGTCAGGA AGATTGGCGA GCTCGTGAGA TACTTGAACA CCAATCCTGT GGGTGGCCTT
    TTGGAGTACG CCCGCTCCCA TGGCTTTGCT GCTGAATTCA AGTTGGTCGA CCAGTCTGGA
    CCTCCTCACG AGCCCAAGTT CGTTTACCAA GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC
    GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG CAGGAAGCAG CAGATGCGGC TCTCCGTGTC
    TTGATTGGGG AGAACGAGAA GGCAGAACGC ATGGGTTTCA CAGAGGTAAC CCCAGTGACA
    GGGGCCAGTC TCAGAAGAAC TATGCTCCTC CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG
    ACACTCCCTC TCACTGGCAG CACCTTCCAT GACCAGATAG CCATGCTGAG CCACCGGTGC
    TTCAACACTC TGACTAACAG CTTCCAGCCT TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC
    ATCGTTATGA AAAAAGACTC TGAGGACATG GGTGTCGTCG TCAGCTTGGG AACAGGGAAT
    CGCTGTGTGA AAGGAGATTC TCTCAGCCTG AAGGGAGAAA CTGTCAATGA CTGCCATGCA
    GAAATCATCT CCCGGAGAGG CTTCATCAGG TTTCTCTACA GTGAGTTAAT GAAATACAAC
    CCCCAGACTG CGAAGGATAG TATATTTGAA CCTGCTAAGG GAGGAGAAAA GCTCCAAATA
    AAAAAGACTG TGTCATTCCA TCTCTATATC AGCACCGCTC CATGTGGAGA TGGTGCCCTC
    TTTGACAAGT CCTGCAGCGA CCGTGCTATG GAAAGCACAG ACTCCCGCCA CTACCCTGTC
    TTTGAGAATC CCAAACAAGG CAAGCTCCGC ACCAAGGTGG AAAACGGAGA AGGCACAATC
    CCTGTGGAAT CCAGTGACAT TGTACCTACG TGGGATGGCA TTCGGCTCGG GGAGAGACTC
    CGTACCATGT CCTGTAGTGA CAAAATCCTA CGCTGGAATG TGCTGGGCCT GCAAGGGGCA
    CTGTTGACCC ACTTCCTGCA GCCCATTTAT CTCAAATCTG TTACATTGGG TTACCTTTTC
    AGCCAAGGGC ATCTGACCCG GGCTATTTGC TGTCGTGTGA CAAGAGATGG GAGTGCATTT
    GAGGATGGAC TACGACATCC CTTTATTGTC AACCACCCCA AGGTTGGCAG AGTCAGTGTA
    TATGATTCCA AAAGGCAATC TGGGAAGACT AAGGAGACAA GCGTCAACTG GTGTCTGGCT
    GATGGCTATG ACCTGGAGAT CCTGGATGGT ACCAGAGGCA CCGTGGATGG GCCACGGAAT
    GAATTGTCCC GGGTCTCCAA AAAGAACATT TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC
    CGTTACCGCA GGGATCTACT GAGACTCTCC TATGGTGAGG CCAAGAAAGC TGCCCGTGAC
    TACGAGACGG CCAAGAACTA CTTCAAAAAA AGCTTGAAGG ATATGGGCTA TGGGAACTGG
    ATTAGCAAAC CCCAGGAGGA AAAGAACTTT TATCTCTGCC CAGTATAG

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

    CloneID OMb26335
    Clone ID Related Accession (Same CDS sequence) XM_002801797.2
    Accession Version XM_002801797.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804570.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_002801797.1. ##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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CGAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGGTAAC CCCAGTGACA GGGGCCAGTC TCAGAAGAAC TATGCTCCTC
    CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG ACACTCCCTC TCACTGGCAG CACCTTCCAT
    GACCAGATAG CCATGCTGAG CCACCGGTGC TTCAACACTC TGACTAACAG CTTCCAGCCT
    TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC ATCGTTATGA AAAAAGACTC TGAGGACATG
    GGTGTCGTCG TCAGCTTGGG AACAGGGAAT CGCTGTGTGA AAGGAGATTC TCTCAGCCTG
    AAGGGAGAAA CTGTCAATGA CTGCCATGCA GAAATCATCT CCCGGAGAGG CTTCATCAGG
    TTTCTCTACA GTGAGTTAAT GAAATACAAC CCCCAGACTG CGAAGGATAG TATATTTGAA
    CCTGCTAAGG GAGGAGAAAA GCTCCAAATA AAAAAGACTG TGTCATTCCA TCTCTATATC
    AGCACCGCTC CATGTGGAGA TGGTGCCCTC TTTGACAAGT CCTGCAGCGA CCGTGCTATG
    GAAAGCACAG ACTCCCGCCA CTACCCTGTC TTTGAGAATC CCAAACAAGG CAAGCTCCGC
    ACCAAGGTGG AAAACGGAGA AGGCACAATC CCTGTGGAAT CCAGTGACAT TGTACCTACG
    TGGGATGGCA TTCGGCTCGG GGAGAGACTC CGTACCATGT CCTGTAGTGA CAAAATCCTA
    CGCTGGAATG TGCTGGGCCT GCAAGGGGCA CTGTTGACCC ACTTCCTGCA GCCCATTTAT
    CTCAAATCTG TTACATTGGG TTACCTTTTC AGCCAAGGGC ATCTGACCCG GGCTATTTGC
    TGTCGTGTGA CAAGAGATGG GAGTGCATTT GAGGATGGAC TACGACATCC CTTTATTGTC
    AACCACCCCA AGGTTGGCAG AGTCAGTGTA TATGATTCCA AAAGGCAATC TGGGAAGACT
    AAGGAGACAA GCGTCAACTG GTGTCTGGCT GATGGCTATG ACCTGGAGAT CCTGGATGGT
    ACCAGAGGCA CCGTGGATGG GCCACGGAAT GAATTGTCCC GGGTCTCCAA AAAGAACATT
    TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC CGTTACCGCA GGGATCTACT GAGACTCTCC
    TATGGTGAGG CCAAGAAAGC TGCCCGTGAC TACGAGACGG CCAAGAACTA CTTCAAAAAA
    AGCTTGAAGG ATATGGGCTA TGGGAACTGG ATTAGCAAAC CCCAGGAGGA AAAGAACTTT
    TATCTCTGCC CAGTATAG

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

    RefSeq XP_002801843.1
    CDS429..4106
    Translation

    Target ORF information:

    RefSeq Version XM_002801797.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002801797.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CGAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGGTAAC CCCAGTGACA GGGGCCAGTC TCAGAAGAAC TATGCTCCTC
    CTCTCAAGGT CCCCAGAAGC ACAGCCAAAG ACACTCCCTC TCACTGGCAG CACCTTCCAT
    GACCAGATAG CCATGCTGAG CCACCGGTGC TTCAACACTC TGACTAACAG CTTCCAGCCT
    TCCTTGCTCG GCCGCAAGAT TCTGGCCGCC ATCGTTATGA AAAAAGACTC TGAGGACATG
    GGTGTCGTCG TCAGCTTGGG AACAGGGAAT CGCTGTGTGA AAGGAGATTC TCTCAGCCTG
    AAGGGAGAAA CTGTCAATGA CTGCCATGCA GAAATCATCT CCCGGAGAGG CTTCATCAGG
    TTTCTCTACA GTGAGTTAAT GAAATACAAC CCCCAGACTG CGAAGGATAG TATATTTGAA
    CCTGCTAAGG GAGGAGAAAA GCTCCAAATA AAAAAGACTG TGTCATTCCA TCTCTATATC
    AGCACCGCTC CATGTGGAGA TGGTGCCCTC TTTGACAAGT CCTGCAGCGA CCGTGCTATG
    GAAAGCACAG ACTCCCGCCA CTACCCTGTC TTTGAGAATC CCAAACAAGG CAAGCTCCGC
    ACCAAGGTGG AAAACGGAGA AGGCACAATC CCTGTGGAAT CCAGTGACAT TGTACCTACG
    TGGGATGGCA TTCGGCTCGG GGAGAGACTC CGTACCATGT CCTGTAGTGA CAAAATCCTA
    CGCTGGAATG TGCTGGGCCT GCAAGGGGCA CTGTTGACCC ACTTCCTGCA GCCCATTTAT
    CTCAAATCTG TTACATTGGG TTACCTTTTC AGCCAAGGGC ATCTGACCCG GGCTATTTGC
    TGTCGTGTGA CAAGAGATGG GAGTGCATTT GAGGATGGAC TACGACATCC CTTTATTGTC
    AACCACCCCA AGGTTGGCAG AGTCAGTGTA TATGATTCCA AAAGGCAATC TGGGAAGACT
    AAGGAGACAA GCGTCAACTG GTGTCTGGCT GATGGCTATG ACCTGGAGAT CCTGGATGGT
    ACCAGAGGCA CCGTGGATGG GCCACGGAAT GAATTGTCCC GGGTCTCCAA AAAGAACATT
    TTTCTTCTAT TTAAGAAGCT CTGCTCCTTC CGTTACCGCA GGGATCTACT GAGACTCTCC
    TATGGTGAGG CCAAGAAAGC TGCCCGTGAC TACGAGACGG CCAAGAACTA CTTCAAAAAA
    AGCTTGAAGG ATATGGGCTA TGGGAACTGG ATTAGCAAAC CCCAGGAGGA AAAGAACTTT
    TATCTCTGCC CAGTATAG

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

    CloneID OMb26336
    Clone ID Related Accession (Same CDS sequence) XM_001111902.3
    Accession Version XM_001111902.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    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 double-stranded RNA-specific adenosine deaminase isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804570.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_001111902.2. ##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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CGAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGCTCCC TCTCACTGGC AGCACCTTCC ATGACCAGAT AGCCATGCTG
    AGCCACCGGT GCTTCAACAC TCTGACTAAC AGCTTCCAGC CTTCCTTGCT CGGCCGCAAG
    ATTCTGGCCG CCATCGTTAT GAAAAAAGAC TCTGAGGACA TGGGTGTCGT CGTCAGCTTG
    GGAACAGGGA ATCGCTGTGT GAAAGGAGAT TCTCTCAGCC TGAAGGGAGA AACTGTCAAT
    GACTGCCATG CAGAAATCAT CTCCCGGAGA GGCTTCATCA GGTTTCTCTA CAGTGAGTTA
    ATGAAATACA ACCCCCAGAC TGCGAAGGAT AGTATATTTG AACCTGCTAA GGGAGGAGAA
    AAGCTCCAAA TAAAAAAGAC TGTGTCATTC CATCTCTATA TCAGCACCGC TCCATGTGGA
    GATGGTGCCC TCTTTGACAA GTCCTGCAGC GACCGTGCTA TGGAAAGCAC AGACTCCCGC
    CACTACCCTG TCTTTGAGAA TCCCAAACAA GGCAAGCTCC GCACCAAGGT GGAAAACGGA
    GAAGGCACAA TCCCTGTGGA ATCCAGTGAC ATTGTACCTA CGTGGGATGG CATTCGGCTC
    GGGGAGAGAC TCCGTACCAT GTCCTGTAGT GACAAAATCC TACGCTGGAA TGTGCTGGGC
    CTGCAAGGGG CACTGTTGAC CCACTTCCTG CAGCCCATTT ATCTCAAATC TGTTACATTG
    GGTTACCTTT TCAGCCAAGG GCATCTGACC CGGGCTATTT GCTGTCGTGT GACAAGAGAT
    GGGAGTGCAT TTGAGGATGG ACTACGACAT CCCTTTATTG TCAACCACCC CAAGGTTGGC
    AGAGTCAGTG TATATGATTC CAAAAGGCAA TCTGGGAAGA CTAAGGAGAC AAGCGTCAAC
    TGGTGTCTGG CTGATGGCTA TGACCTGGAG ATCCTGGATG GTACCAGAGG CACCGTGGAT
    GGGCCACGGA ATGAATTGTC CCGGGTCTCC AAAAAGAACA TTTTTCTTCT ATTTAAGAAG
    CTCTGCTCCT TCCGTTACCG CAGGGATCTA CTGAGACTCT CCTATGGTGA GGCCAAGAAA
    GCTGCCCGTG ACTACGAGAC GGCCAAGAAC TACTTCAAAA AAAGCTTGAA GGATATGGGC
    TATGGGAACT GGATTAGCAA ACCCCAGGAG GAAAAGAACT TTTATCTCTG CCCAGTATAG

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

    RefSeq XP_001111902.2
    CDS241..3840
    Translation

    Target ORF information:

    RefSeq Version XM_001111902.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta adenosine deaminase, RNA-specific (ADAR), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001111902.3

    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
    ATGAACCCGC GGCAGGGGTA TTCCCTCAAC GGATACTACC CCCATCCATT TCAAGGCTAT 
    GAGCACAGAA AGCTCAGATA CCAGCAGCCT GGGCCAGGAT CTTCCCCCAA TAGTTTCCTG
    CTTAAGCAAA TAGAGTTTCT CAAGGGGCAG ATCCCAGAAG CGCCGGTGAT TGGAAAGCAG
    ACACCATCAC TGCCACCTTC CCTCCCAGGA CTCCAGCCAA GGTTTCCAGT ACTACCTGCC
    TCTAGTACCA GAGGCAGGCA AGTGGATATC AGGGGTGTCC CCAGGTGCGT GCATCTCGGA
    AGTCAGGGGC TCCAGAGAGG GTTCCAGCAT CCTTCACCAC GTGGCAGGAT TCCGCCACGG
    AGAGGTGTTG ATTGCCTTTC CTCACAATTC CAGGAACTGA GTATCAACCA AGATCAGGAA
    CAAAGGATCT TAAAGTTCTT GGAAGAGCTT GGGGAAGGGA AGGCCACTAC AGCACATGAT
    CTGTCTTGGA AACTGGGGGC TCCAAAGAAA GAAATCAATC GAGTTTTATA CTCCCTGGCA
    AAGAAGGGCA AGCTACAGAA AGAGGCAGGA ACACCCCCTT TGTGGAAAAT CGCGGTCTCC
    ACTCAGGCTT GGAACCAGCA CAGCAGAGTG GTAAGACCAG ACGGTCATAG CCAAGGAGCC
    CCAAACTCAG ACCCAAATTT GGAACCTGAA GACAGAAACT CCACATCTGT CTCAGAAGAT
    CTTGAGCCTT TTATCTCAGT CTCAGCTCAG GCTTGGAACC AGCACAGCGG AGTGGTAAGA
    CCAGACGGTC ATAGCCAAGG AGCCCCAAAC TCAGAGTCGA GTTTGGAACC TGAAGACAGA
    AACTCCACAT CTGCCTTGGA AGATCCTCTT GAGTTTTTTG ACATGGCTGA GATCAAGGAG
    AAAATCTGCG ACTATCTCTT CAATGTGTCT GACTCCTCTG CCCTGAATTT GGCTAAAAAT
    ATTGGCCTCA CCAAGGCCCG AGATATAAAT GCCGTGCTAA TTGACATGGA AAGGCAGGGG
    GATGTCTATA GACAAGGGAC AACCCCTCCC ATATGGCATT TGACAGACAA GAAGCGAGAG
    AGGATGCAAA TCAAGAGAAA TACGAACAGT GTTCCTGAAA CCGCTCCAGC TGCAATCCCT
    GAGACCAAAA GAAACACAGA GTTCCTCACC TGTAATATAC CCACATCAAA TGCCTCAAAT
    AACATAGTAA CCACCGAAAA AGTGGAGAAT GGGCAGGAAC CTGTCATAAA GTTAGAAAAC
    AGTCAGGAGG CAAGACCAGA ACCAGTAAGA CTGAAACCAC CTGTTCATAA CAATGGCCCC
    TCAAAAGCAG GGTATGTTGA CTTTGAAAAT GGCCAGTGGG CCACAGATGA CATCCCAGAT
    GACTTGAATA GTATCCGCGC AGCACCAGGT GAGTTTCGAG CCATCATGGA GATGCCCTCC
    TTCTACAGTC ATGGCTTGCC ACGGTGTTCA CCCTACAAGA AACTGACAGA GTGCCAGCTG
    AAGAACCCCA TCAGCGGGCT GTTAGAATAT GCCCAGTTCG CTAGTCAAAC CTGTGAGTTC
    AACATGATAG AGCAGAGTGG ACCACCCCAT GAACCTCGAT TTAAATTCCA GGTTGTCATC
    AATGGCCGAG AGTTTCCCCC AGCTGAAGCT GGAAGCAAGA AAGTGGCCAA GCAGGATGCA
    GCTATGAAAG CCATGACAAT TCTGCTAGAG GAAGCCAAAG CCAAGGACAG TGGAAAATCA
    GAAGAATCAT CCCACTATTC CACAGAAAAA GAATCAGAGA AGACCACAGA GTCCCAGACC
    CCCACCCCTT CAGCTACATC CTTCTTTTCT GGGAAGAGCC CCGTCACCAC ACTGCTCGAG
    TGTATGCACA AATTGGGGAA CTCCTGCGAA TTCCGTCTCC TGTCCAAAGA AGGCCCTGCC
    CATGAGCCCA AGTTCCAGTA CTGTGTTGCA GTGGGAGCCC AAACTTTCCC CAGTGTGAGT
    GCCCCCAGCA AGAAAGTGGC AAAGCAGATG GCCGCAGAGG AAGCCATGAA GGCCCTGCAT
    GGGGAGGCAA CGAACTCCAT GACTTCTGAT GACCAGCCCG AAGGTATGAT CTCAGAGTCA
    CTTGATAACT TGGAATCCGT GATGCCCAAC AAGGTCAGGA AGATTGGCGA GCTCGTGAGA
    TACTTGAACA CCAATCCTGT GGGTGGCCTT TTGGAGTACG CCCGCTCCCA TGGCTTTGCT
    GCTGAATTCA AGTTGGTCGA CCAGTCTGGA CCTCCTCACG AGCCCAAGTT CGTTTACCAA
    GCAAAAGTTG GGGGTCGCTG GTTCCCAGCC GTCTGCGCAC ACAGCAAGAA GCAAGGCAAG
    CAGGAAGCAG CAGATGCGGC TCTCCGTGTC TTGATTGGGG AGAACGAGAA GGCAGAACGC
    ATGGGTTTCA CAGAGCTCCC TCTCACTGGC AGCACCTTCC ATGACCAGAT AGCCATGCTG
    AGCCACCGGT GCTTCAACAC TCTGACTAAC AGCTTCCAGC CTTCCTTGCT CGGCCGCAAG
    ATTCTGGCCG CCATCGTTAT GAAAAAAGAC TCTGAGGACA TGGGTGTCGT CGTCAGCTTG
    GGAACAGGGA ATCGCTGTGT GAAAGGAGAT TCTCTCAGCC TGAAGGGAGA AACTGTCAAT
    GACTGCCATG CAGAAATCAT CTCCCGGAGA GGCTTCATCA GGTTTCTCTA CAGTGAGTTA
    ATGAAATACA ACCCCCAGAC TGCGAAGGAT AGTATATTTG AACCTGCTAA GGGAGGAGAA
    AAGCTCCAAA TAAAAAAGAC TGTGTCATTC CATCTCTATA TCAGCACCGC TCCATGTGGA
    GATGGTGCCC TCTTTGACAA GTCCTGCAGC GACCGTGCTA TGGAAAGCAC AGACTCCCGC
    CACTACCCTG TCTTTGAGAA TCCCAAACAA GGCAAGCTCC GCACCAAGGT GGAAAACGGA
    GAAGGCACAA TCCCTGTGGA ATCCAGTGAC ATTGTACCTA CGTGGGATGG CATTCGGCTC
    GGGGAGAGAC TCCGTACCAT GTCCTGTAGT GACAAAATCC TACGCTGGAA TGTGCTGGGC
    CTGCAAGGGG CACTGTTGAC CCACTTCCTG CAGCCCATTT ATCTCAAATC TGTTACATTG
    GGTTACCTTT TCAGCCAAGG GCATCTGACC CGGGCTATTT GCTGTCGTGT GACAAGAGAT
    GGGAGTGCAT TTGAGGATGG ACTACGACAT CCCTTTATTG TCAACCACCC CAAGGTTGGC
    AGAGTCAGTG TATATGATTC CAAAAGGCAA TCTGGGAAGA CTAAGGAGAC AAGCGTCAAC
    TGGTGTCTGG CTGATGGCTA TGACCTGGAG ATCCTGGATG GTACCAGAGG CACCGTGGAT
    GGGCCACGGA ATGAATTGTC CCGGGTCTCC AAAAAGAACA TTTTTCTTCT ATTTAAGAAG
    CTCTGCTCCT TCCGTTACCG CAGGGATCTA CTGAGACTCT CCTATGGTGA GGCCAAGAAA
    GCTGCCCGTG ACTACGAGAC GGCCAAGAAC TACTTCAAAA AAAGCTTGAA GGATATGGGC
    TATGGGAACT GGATTAGCAA ACCCCAGGAG GAAAAGAACT TTTATCTCTG CCCAGTATAG

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

feedback

Do you like the current new website?

Hate

Dislike

Neutral

Like

Love

*