INF2 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following INF2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the INF2 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
OMb90338 XM_028851934.1
Latest version!
Macaca mulatta inverted formin, FH2 and WH2 domain containing (INF2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb90339 XM_015144594.2
Latest version!
Macaca mulatta inverted formin, FH2 and WH2 domain containing (INF2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb37743 XM_015144594.1
Latest version!
Macaca mulatta inverted formin, FH2 and WH2 domain containing (INF2), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OMb90338
    Clone ID Related Accession (Same CDS sequence) XM_028851934.1
    Accession Version XM_028851934.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3759bp)
    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 inverted formin-2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041760.1) 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 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
    ATGAGAAGCC AGGGGAGCGT GAGGAGCAGC CCAGGGCAGG GCCCAGAGTG GGTGGGCAGA 
    GGCGGCCGGA AGGTCCTGCG CATCTGGCTC GGCAAGATGT CGGTGAAGGA GGGCGCACAG
    CGCAAGTGGG CAGCGCTGAA GGAGAAGCTG GGGCCACAGG ACTCGGACCC CACAGAGGCC
    AACCTGGAGA GCGCGGACCC TGAGCTGTGC ATCCGGCTGC TCCAGATGCC CTCTGTGGTC
    AACTACTCCG GCCTGCGCAA GCGCCTGGAG GGCAGCGACG GCAGCTGGAT GGTGCAATTC
    CTGGAGCAGA GCGGCCTGGA CCTGCTGCTC GAGGCGCTGG CGCGGCTGTC GGGCCGCGGC
    GTGGCACGCA TCTCGGATGC CCTGCTGCAG CTCACCTGCG TGAGCTGCGT GCGCGCTGTC
    ATGAACTCGC GGCAGGGCAT CGAGTACATC CTCAGCAACC AGGGCTACGT GCGCCAGCTC
    TCCCAGGCCC TGGACACATC CAACGTGATG GTGAAGAAGC AGGTGTTTGA GCTGCTGGCC
    GCCCTGTGCA TCTACTCTCC CGAGGGCCAC GCACTGACCC TGGACGCCCT GGACCACTAC
    AAGACGGTGT GCAGCCAGCA GTACCGCTTC AGCATTGTCA TGAACGAGCT CTCCGGCAGC
    GACAACGTGC CTTATGTAGT CACCCTGCTC AGCGTGATCA ACGCCGTCAT CCTGGGCCCC
    GAGGACCTGC GCACGCGCAC CCAGCTGCGG AATGAGTTTA TCGGGCTGCA GCTGCTGGAT
    GTCCTAGCTC GCCTGCGAGA CCTGGAGGAT GCCGACCTGC TAATCCAGCT GGAGGCCTTC
    GAGGAGGCTA AGGCTGAGGA CGAGGAGGAG CTGCTGCGAG TCTCTGGTGG GGTCGACATG
    AGCAGCCACC AGGAGGTCTT TGCCTCCCTG TTCCACAAGG TGAGCTGCTC CCCGGTGTCC
    GCCCAGCTCC TGTCAGTGCT GCAGGGCCTC CTGCACCTGG AGCCCAGCCT CCGCTCCAGC
    CAGCTGCTCT GGGAGGCCCT GGAGAGCCTG GTGAACCGGG CCGTGCTCCT GGCCAGCGAT
    GCCCAGGAAT GCACCCTGGA GGAAGTGGTT GAGCGGCTTC TGTCTGTCAA GGGGCGACCC
    AGACCGAGCC CCCTGGTCAA GGCCCATAAA AGCGTCCAGG CCAACCTAGG CCAGAACCAG
    AGGGGCAGCT CCCCGCAAAA CACTACAACC CCCAAGCCCA GCGTGGAGGG CCAGCAGCCA
    GCAGCAGCTG CTGCCTGTGA GCCCGTAGAC CACACCCAGA GTGACAGCGT CCTGAAAGTT
    TCGAAGCCGA GAACCCTGGA GCAGCAGGCG TCCCCTCTTC CCCCATCCAC CCCCCTGCTC
    CCTGGTTCCA GTGCTGAGCC CCCTCCCCCT CCTCCCCCAC CCCCACCTCC CCCCCTGCCA
    CACCTGGGGG CCACACCTCC TCTATCACCA CCCCTGACAA GCTCCTGTGA GTTCCCGCCC
    CCACCACCTC CACCACTCCC GGGCATGGGA TGCCCACCCC CACCCCCACC CCTGCTGCCT
    GGTATGGGCT GGGGCCCTCC TCCACCCCCA CCTCCACTGC TGCCCTGCAC CTGCCGCCCC
    CCTGTGGCGG GAGGCGTGGA GGAGGTCATC GTGTCCCAGG TGGACCACAG CTTGGGCTCC
    GCCTGGGTCC CCAGACATCG GCGGGTGAAC CCACCCACAC TGCGCATGAA GAAACTGAAC
    TGGCAGAAGC TGCCATCCAA CGTGGCACGT GAGCACAACT CTATGTGGGC GTCCCTGAGC
    AGCCCCGATG CCGAGACTGT GGAGCCTGAC TTCTCCAGCA TCGAGCAGCT CTTCTCCTTC
    CCTGCGGCCA AGCCCAAGGA GCCCACCACA GCAGCCGCCC CGGCCAGGAA GGAGCCCAAG
    GAGATCACTT TCCTTGATGC CAAGAAGAGC CTGAACCTCA ACATCTTCCT GAAGCAATTT
    AAGTGCTCCA ACGAGGAGGT CGCTGCTATG ATCCGGGCCG GCGATACCAC CAAGTTCGAT
    GTGGAGGTTC TCAAACAGCT CCTTAAGCTC CTTCCGGAGA AGCACGAGAT TGAAAACCTG
    CGGGCATTCA CAGAGGAGCG AGCCAAGCTG GCCAACGCCG ACCACTTCTA CCTCCTCCTG
    CTGGCCATTC CCTGCTACCA GCTGCGAATC GAGTGCATGC TGCTGTGTGA GGGCGCGGCC
    GCCGTGCTGG ACATGGTGCG GCCCAAGGCC CAGCTGGTGC TGGCCGCCTG CGAAAGCCTG
    CTCACCAGCC GCCAGCTGCC CATCTTCTGC CAGCTGATCC TGAGAATTGG GAACTTCCTC
    AACTACGGCA GCCACACCGG CGATGCTGAC GGCTTCAAGA TCAGCACGTT GCTGAAGCTC
    ACGGAGACCA AGTCCCAGCA GAACCGTGTG ACGCTGCTGC ACCACGTGCT GGAGGAAGCG
    GAAAAGAGCC ATCCGGACCT CCTGCAGCTG CCCCAGGACC TGGAGCAGCC CTCACAAGCG
    GCAGGGATCA ACCTGGAGAT CATCCGCTCA GAGGCCAGCT CCAACCTGAA GAAGCTTCTG
    GAGACTGAGC GGAAAGTGTC TGCCTCGGTG GCCGAGGTCC AGGAGCAGTA CACTGAGCGC
    CTCCAGGCCA GCATCTCGGC CTTCCGGGCA CTAGATGAGC TGTTTGAGGC CATTGAGCAG
    AAGCAGCGGG AGCTGGCCGA CTACCTGTGT GAGGACGCCC GGCAGCTGTC CCTGGAGGAC
    ACGTTCGGCA CCATGAAGGC CTTCCGGGAC CTCTTCCTCC GCGCCCTGAA GGAGAACAAG
    GACCGGAAGG AGCAGGCAGC GAAGGCAGAG AGGAGGAAGC AGCAGCTGGC GGAGGAGGAG
    GCGCGGCGGC CTCGGGGAGA GGACGGGAAG CCTGTCAGGA AGGGGCCCGG GAAGCAGGAG
    GAGGTGTGTG TCATCGACGC CCTCCTGGCC GACATCAGGA AGGGCTTCCA GCTGCGGAAG
    ACGGCCCGGG GCCGCGGGGA CACCGACGGG GGCGGCAAGG TGGCCTCCAT GGACCCCCCA
    AGAGCCACAG AGCCCGTGAC CACCAGTAAC TCTGCAGGAG ACCCCGTGGG CGGCACACAC
    TGTCCCGCCT CCAAGCCCAA CCTTGATGCT ACAATGGCCA GCGAGTCCCG GGGCTGGGAC
    CTTGTAGACG CCGTGACCCC CTGCCCTCAG CCCACGCTGG AGCAGTCGGA GGAGGGTGGT
    CCCCCGCCCC TGGAGAGGCG TTCTTCCTGG TATGAGGATG CCAGCGACGT CCTAACCACC
    GAGGATGCCC AGTGCCCCCA ACCCTTGGAG GGGGCCTGGC CAGTGACTCT GGGAGATGCT
    CAGGCCCTGA AGCCCCTCAA GTTTTCCAGC AACAAGCCCC CTGCAGCTGG AAGTTCAAGC
    CAAGATGCCA AGGATCCCAC GTCCTTGCTG GGCGTCCTGC AGGCCGAGGC CGACAGCACA
    AGCGAGGGGC TGGAGGACGC AGTCCACAGC CGTGGTGCCA GACCCCCTGC GGCAGGCCCG
    GGTGAGGATG GGGACGAGGA CGAGGAGGAT ACAGCCCCAG AGTCCACGCT GGACACATCC
    CTGGACAAGT CCTTCTCCGA GGATGCAGTG ACCGACTCCT CGGGGTCGGG CACACTCCCC
    AGGGCCCGGG GCCGGGCCTC AAAGGGGACT GGCAAGCGAC GGAAGAAGCG TCCCTCCAGG
    AGCCAGGAAG GCCTCAGGCC CAGGCCCAAG GCCAAGTGA

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

    RefSeq XP_028707767.1
    CDS109..3867
    Translation

    Target ORF information:

    RefSeq Version XM_028851934.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta inverted formin, FH2 and WH2 domain containing (INF2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028851934.1

    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
    ATGAGAAGCC AGGGGAGCGT GAGGAGCAGC CCAGGGCAGG GCCCAGAGTG GGTGGGCAGA 
    GGCGGCCGGA AGGTCCTGCG CATCTGGCTC GGCAAGATGT CGGTGAAGGA GGGCGCACAG
    CGCAAGTGGG CAGCGCTGAA GGAGAAGCTG GGGCCACAGG ACTCGGACCC CACAGAGGCC
    AACCTGGAGA GCGCGGACCC TGAGCTGTGC ATCCGGCTGC TCCAGATGCC CTCTGTGGTC
    AACTACTCCG GCCTGCGCAA GCGCCTGGAG GGCAGCGACG GCAGCTGGAT GGTGCAATTC
    CTGGAGCAGA GCGGCCTGGA CCTGCTGCTC GAGGCGCTGG CGCGGCTGTC GGGCCGCGGC
    GTGGCACGCA TCTCGGATGC CCTGCTGCAG CTCACCTGCG TGAGCTGCGT GCGCGCTGTC
    ATGAACTCGC GGCAGGGCAT CGAGTACATC CTCAGCAACC AGGGCTACGT GCGCCAGCTC
    TCCCAGGCCC TGGACACATC CAACGTGATG GTGAAGAAGC AGGTGTTTGA GCTGCTGGCC
    GCCCTGTGCA TCTACTCTCC CGAGGGCCAC GCACTGACCC TGGACGCCCT GGACCACTAC
    AAGACGGTGT GCAGCCAGCA GTACCGCTTC AGCATTGTCA TGAACGAGCT CTCCGGCAGC
    GACAACGTGC CTTATGTAGT CACCCTGCTC AGCGTGATCA ACGCCGTCAT CCTGGGCCCC
    GAGGACCTGC GCACGCGCAC CCAGCTGCGG AATGAGTTTA TCGGGCTGCA GCTGCTGGAT
    GTCCTAGCTC GCCTGCGAGA CCTGGAGGAT GCCGACCTGC TAATCCAGCT GGAGGCCTTC
    GAGGAGGCTA AGGCTGAGGA CGAGGAGGAG CTGCTGCGAG TCTCTGGTGG GGTCGACATG
    AGCAGCCACC AGGAGGTCTT TGCCTCCCTG TTCCACAAGG TGAGCTGCTC CCCGGTGTCC
    GCCCAGCTCC TGTCAGTGCT GCAGGGCCTC CTGCACCTGG AGCCCAGCCT CCGCTCCAGC
    CAGCTGCTCT GGGAGGCCCT GGAGAGCCTG GTGAACCGGG CCGTGCTCCT GGCCAGCGAT
    GCCCAGGAAT GCACCCTGGA GGAAGTGGTT GAGCGGCTTC TGTCTGTCAA GGGGCGACCC
    AGACCGAGCC CCCTGGTCAA GGCCCATAAA AGCGTCCAGG CCAACCTAGG CCAGAACCAG
    AGGGGCAGCT CCCCGCAAAA CACTACAACC CCCAAGCCCA GCGTGGAGGG CCAGCAGCCA
    GCAGCAGCTG CTGCCTGTGA GCCCGTAGAC CACACCCAGA GTGACAGCGT CCTGAAAGTT
    TCGAAGCCGA GAACCCTGGA GCAGCAGGCG TCCCCTCTTC CCCCATCCAC CCCCCTGCTC
    CCTGGTTCCA GTGCTGAGCC CCCTCCCCCT CCTCCCCCAC CCCCACCTCC CCCCCTGCCA
    CACCTGGGGG CCACACCTCC TCTATCACCA CCCCTGACAA GCTCCTGTGA GTTCCCGCCC
    CCACCACCTC CACCACTCCC GGGCATGGGA TGCCCACCCC CACCCCCACC CCTGCTGCCT
    GGTATGGGCT GGGGCCCTCC TCCACCCCCA CCTCCACTGC TGCCCTGCAC CTGCCGCCCC
    CCTGTGGCGG GAGGCGTGGA GGAGGTCATC GTGTCCCAGG TGGACCACAG CTTGGGCTCC
    GCCTGGGTCC CCAGACATCG GCGGGTGAAC CCACCCACAC TGCGCATGAA GAAACTGAAC
    TGGCAGAAGC TGCCATCCAA CGTGGCACGT GAGCACAACT CTATGTGGGC GTCCCTGAGC
    AGCCCCGATG CCGAGACTGT GGAGCCTGAC TTCTCCAGCA TCGAGCAGCT CTTCTCCTTC
    CCTGCGGCCA AGCCCAAGGA GCCCACCACA GCAGCCGCCC CGGCCAGGAA GGAGCCCAAG
    GAGATCACTT TCCTTGATGC CAAGAAGAGC CTGAACCTCA ACATCTTCCT GAAGCAATTT
    AAGTGCTCCA ACGAGGAGGT CGCTGCTATG ATCCGGGCCG GCGATACCAC CAAGTTCGAT
    GTGGAGGTTC TCAAACAGCT CCTTAAGCTC CTTCCGGAGA AGCACGAGAT TGAAAACCTG
    CGGGCATTCA CAGAGGAGCG AGCCAAGCTG GCCAACGCCG ACCACTTCTA CCTCCTCCTG
    CTGGCCATTC CCTGCTACCA GCTGCGAATC GAGTGCATGC TGCTGTGTGA GGGCGCGGCC
    GCCGTGCTGG ACATGGTGCG GCCCAAGGCC CAGCTGGTGC TGGCCGCCTG CGAAAGCCTG
    CTCACCAGCC GCCAGCTGCC CATCTTCTGC CAGCTGATCC TGAGAATTGG GAACTTCCTC
    AACTACGGCA GCCACACCGG CGATGCTGAC GGCTTCAAGA TCAGCACGTT GCTGAAGCTC
    ACGGAGACCA AGTCCCAGCA GAACCGTGTG ACGCTGCTGC ACCACGTGCT GGAGGAAGCG
    GAAAAGAGCC ATCCGGACCT CCTGCAGCTG CCCCAGGACC TGGAGCAGCC CTCACAAGCG
    GCAGGGATCA ACCTGGAGAT CATCCGCTCA GAGGCCAGCT CCAACCTGAA GAAGCTTCTG
    GAGACTGAGC GGAAAGTGTC TGCCTCGGTG GCCGAGGTCC AGGAGCAGTA CACTGAGCGC
    CTCCAGGCCA GCATCTCGGC CTTCCGGGCA CTAGATGAGC TGTTTGAGGC CATTGAGCAG
    AAGCAGCGGG AGCTGGCCGA CTACCTGTGT GAGGACGCCC GGCAGCTGTC CCTGGAGGAC
    ACGTTCGGCA CCATGAAGGC CTTCCGGGAC CTCTTCCTCC GCGCCCTGAA GGAGAACAAG
    GACCGGAAGG AGCAGGCAGC GAAGGCAGAG AGGAGGAAGC AGCAGCTGGC GGAGGAGGAG
    GCGCGGCGGC CTCGGGGAGA GGACGGGAAG CCTGTCAGGA AGGGGCCCGG GAAGCAGGAG
    GAGGTGTGTG TCATCGACGC CCTCCTGGCC GACATCAGGA AGGGCTTCCA GCTGCGGAAG
    ACGGCCCGGG GCCGCGGGGA CACCGACGGG GGCGGCAAGG TGGCCTCCAT GGACCCCCCA
    AGAGCCACAG AGCCCGTGAC CACCAGTAAC TCTGCAGGAG ACCCCGTGGG CGGCACACAC
    TGTCCCGCCT CCAAGCCCAA CCTTGATGCT ACAATGGCCA GCGAGTCCCG GGGCTGGGAC
    CTTGTAGACG CCGTGACCCC CTGCCCTCAG CCCACGCTGG AGCAGTCGGA GGAGGGTGGT
    CCCCCGCCCC TGGAGAGGCG TTCTTCCTGG TATGAGGATG CCAGCGACGT CCTAACCACC
    GAGGATGCCC AGTGCCCCCA ACCCTTGGAG GGGGCCTGGC CAGTGACTCT GGGAGATGCT
    CAGGCCCTGA AGCCCCTCAA GTTTTCCAGC AACAAGCCCC CTGCAGCTGG AAGTTCAAGC
    CAAGATGCCA AGGATCCCAC GTCCTTGCTG GGCGTCCTGC AGGCCGAGGC CGACAGCACA
    AGCGAGGGGC TGGAGGACGC AGTCCACAGC CGTGGTGCCA GACCCCCTGC GGCAGGCCCG
    GGTGAGGATG GGGACGAGGA CGAGGAGGAT ACAGCCCCAG AGTCCACGCT GGACACATCC
    CTGGACAAGT CCTTCTCCGA GGATGCAGTG ACCGACTCCT CGGGGTCGGG CACACTCCCC
    AGGGCCCGGG GCCGGGCCTC AAAGGGGACT GGCAAGCGAC GGAAGAAGCG TCCCTCCAGG
    AGCCAGGAAG GCCTCAGGCC CAGGCCCAAG GCCAAGTGA

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

    CloneID OMb90339
    Clone ID Related Accession (Same CDS sequence) XM_015144594.2
    Accession Version XM_015144594.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3663bp)
    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 inverted formin-2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041760.1) 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_015144594.1. ##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
    ATGTCGGTGA AGGAGGGCGC ACAGCGCAAG TGGGCAGCGC TGAAGGAGAA GCTGGGGCCA 
    CAGGACTCGG ACCCCACAGA GGCCAACCTG GAGAGCGCGG ACCCTGAGCT GTGCATCCGG
    CTGCTCCAGA TGCCCTCTGT GGTCAACTAC TCCGGCCTGC GCAAGCGCCT GGAGGGCAGC
    GACGGCAGCT GGATGGTGCA ATTCCTGGAG CAGAGCGGCC TGGACCTGCT GCTCGAGGCG
    CTGGCGCGGC TGTCGGGCCG CGGCGTGGCA CGCATCTCGG ATGCCCTGCT GCAGCTCACC
    TGCGTGAGCT GCGTGCGCGC TGTCATGAAC TCGCGGCAGG GCATCGAGTA CATCCTCAGC
    AACCAGGGCT ACGTGCGCCA GCTCTCCCAG GCCCTGGACA CATCCAACGT GATGGTGAAG
    AAGCAGGTGT TTGAGCTGCT GGCCGCCCTG TGCATCTACT CTCCCGAGGG CCACGCACTG
    ACCCTGGACG CCCTGGACCA CTACAAGACG GTGTGCAGCC AGCAGTACCG CTTCAGCATT
    GTCATGAACG AGCTCTCCGG CAGCGACAAC GTGCCTTATG TAGTCACCCT GCTCAGCGTG
    ATCAACGCCG TCATCCTGGG CCCCGAGGAC CTGCGCACGC GCACCCAGCT GCGGAATGAG
    TTTATCGGGC TGCAGCTGCT GGATGTCCTA GCTCGCCTGC GAGACCTGGA GGATGCCGAC
    CTGCTAATCC AGCTGGAGGC CTTCGAGGAG GCTAAGGCTG AGGACGAGGA GGAGCTGCTG
    CGAGTCTCTG GTGGGGTCGA CATGAGCAGC CACCAGGAGG TCTTTGCCTC CCTGTTCCAC
    AAGGTGAGCT GCTCCCCGGT GTCCGCCCAG CTCCTGTCAG TGCTGCAGGG CCTCCTGCAC
    CTGGAGCCCA GCCTCCGCTC CAGCCAGCTG CTCTGGGAGG CCCTGGAGAG CCTGGTGAAC
    CGGGCCGTGC TCCTGGCCAG CGATGCCCAG GAATGCACCC TGGAGGAAGT GGTTGAGCGG
    CTTCTGTCTG TCAAGGGGCG ACCCAGACCG AGCCCCCTGG TCAAGGCCCA TAAAAGCGTC
    CAGGCCAACC TAGGCCAGAA CCAGAGGGGC AGCTCCCCGC AAAACACTAC AACCCCCAAG
    CCCAGCGTGG AGGGCCAGCA GCCAGCAGCA GCTGCTGCCT GTGAGCCCGT AGACCACACC
    CAGAGTGACA GCGTCCTGAA AGTTTCGAAG CCGAGAACCC TGGAGCAGCA GGCGTCCCCT
    CTTCCCCCAT CCACCCCCCT GCTCCCTGGT TCCAGTGCTG AGCCCCCTCC CCCTCCTCCC
    CCACCCCCAC CTCCCCCCCT GCCACACCTG GGGGCCACAC CTCCTCTATC ACCACCCCTG
    ACAAGCTCCT GTGAGTTCCC GCCCCCACCA CCTCCACCAC TCCCGGGCAT GGGATGCCCA
    CCCCCACCCC CACCCCTGCT GCCTGGTATG GGCTGGGGCC CTCCTCCACC CCCACCTCCA
    CTGCTGCCCT GCACCTGCCG CCCCCCTGTG GCGGGAGGCG TGGAGGAGGT CATCGTGTCC
    CAGGTGGACC ACAGCTTGGG CTCCGCCTGG GTCCCCAGAC ATCGGCGGGT GAACCCACCC
    ACACTGCGCA TGAAGAAACT GAACTGGCAG AAGCTGCCAT CCAACGTGGC ACGTGAGCAC
    AACTCTATGT GGGCGTCCCT GAGCAGCCCC GATGCCGAGA CTGTGGAGCC TGACTTCTCC
    AGCATCGAGC AGCTCTTCTC CTTCCCTGCG GCCAAGCCCA AGGAGCCCAC CACAGCAGCC
    GCCCCGGCCA GGAAGGAGCC CAAGGAGATC ACTTTCCTTG ATGCCAAGAA GAGCCTGAAC
    CTCAACATCT TCCTGAAGCA ATTTAAGTGC TCCAACGAGG AGGTCGCTGC TATGATCCGG
    GCCGGCGATA CCACCAAGTT CGATGTGGAG GTTCTCAAAC AGCTCCTTAA GCTCCTTCCG
    GAGAAGCACG AGATTGAAAA CCTGCGGGCA TTCACAGAGG AGCGAGCCAA GCTGGCCAAC
    GCCGACCACT TCTACCTCCT CCTGCTGGCC ATTCCCTGCT ACCAGCTGCG AATCGAGTGC
    ATGCTGCTGT GTGAGGGCGC GGCCGCCGTG CTGGACATGG TGCGGCCCAA GGCCCAGCTG
    GTGCTGGCCG CCTGCGAAAG CCTGCTCACC AGCCGCCAGC TGCCCATCTT CTGCCAGCTG
    ATCCTGAGAA TTGGGAACTT CCTCAACTAC GGCAGCCACA CCGGCGATGC TGACGGCTTC
    AAGATCAGCA CGTTGCTGAA GCTCACGGAG ACCAAGTCCC AGCAGAACCG TGTGACGCTG
    CTGCACCACG TGCTGGAGGA AGCGGAAAAG AGCCATCCGG ACCTCCTGCA GCTGCCCCAG
    GACCTGGAGC AGCCCTCACA AGCGGCAGGG ATCAACCTGG AGATCATCCG CTCAGAGGCC
    AGCTCCAACC TGAAGAAGCT TCTGGAGACT GAGCGGAAAG TGTCTGCCTC GGTGGCCGAG
    GTCCAGGAGC AGTACACTGA GCGCCTCCAG GCCAGCATCT CGGCCTTCCG GGCACTAGAT
    GAGCTGTTTG AGGCCATTGA GCAGAAGCAG CGGGAGCTGG CCGACTACCT GTGTGAGGAC
    GCCCGGCAGC TGTCCCTGGA GGACACGTTC GGCACCATGA AGGCCTTCCG GGACCTCTTC
    CTCCGCGCCC TGAAGGAGAA CAAGGACCGG AAGGAGCAGG CAGCGAAGGC AGAGAGGAGG
    AAGCAGCAGC TGGCGGAGGA GGAGGCGCGG CGGCCTCGGG GAGAGGACGG GAAGCCTGTC
    AGGAAGGGGC CCGGGAAGCA GGAGGAGGTG TGTGTCATCG ACGCCCTCCT GGCCGACATC
    AGGAAGGGCT TCCAGCTGCG GAAGACGGCC CGGGGCCGCG GGGACACCGA CGGGGGCGGC
    AAGGTGGCCT CCATGGACCC CCCAAGAGCC ACAGAGCCCG TGACCACCAG TAACTCTGCA
    GGAGACCCCG TGGGCGGCAC ACACTGTCCC GCCTCCAAGC CCAACCTTGA TGCTACAATG
    GCCAGCGAGT CCCGGGGCTG GGACCTTGTA GACGCCGTGA CCCCCTGCCC TCAGCCCACG
    CTGGAGCAGT CGGAGGAGGG TGGTCCCCCG CCCCTGGAGA GGCGTTCTTC CTGGTATGAG
    GATGCCAGCG ACGTCCTAAC CACCGAGGAT GCCCAGTGCC CCCAACCCTT GGAGGGGGCC
    TGGCCAGTGA CTCTGGGAGA TGCTCAGGCC CTGAAGCCCC TCAAGTTTTC CAGCAACAAG
    CCCCCTGCAG CTGGAAGTTC AAGCCAAGAT GCCAAGGATC CCACGTCCTT GCTGGGCGTC
    CTGCAGGCCG AGGCCGACAG CACAAGCGAG GGGCTGGAGG ACGCAGTCCA CAGCCGTGGT
    GCCAGACCCC CTGCGGCAGG CCCGGGTGAG GATGGGGACG AGGACGAGGA GGATACAGCC
    CCAGAGTCCA CGCTGGACAC ATCCCTGGAC AAGTCCTTCT CCGAGGATGC AGTGACCGAC
    TCCTCGGGGT CGGGCACACT CCCCAGGGCC CGGGGCCGGG CCTCAAAGGG GACTGGCAAG
    CGACGGAAGA AGCGTCCCTC CAGGAGCCAG GAAGGCCTCA GGCCCAGGCC CAAGGCCAAG
    TGA

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

    RefSeq XP_015000080.2
    CDS147..3809
    Translation

    Target ORF information:

    RefSeq Version XM_015144594.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta inverted formin, FH2 and WH2 domain containing (INF2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015144594.2

    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
    ATGTCGGTGA AGGAGGGCGC ACAGCGCAAG TGGGCAGCGC TGAAGGAGAA GCTGGGGCCA 
    CAGGACTCGG ACCCCACAGA GGCCAACCTG GAGAGCGCGG ACCCTGAGCT GTGCATCCGG
    CTGCTCCAGA TGCCCTCTGT GGTCAACTAC TCCGGCCTGC GCAAGCGCCT GGAGGGCAGC
    GACGGCAGCT GGATGGTGCA ATTCCTGGAG CAGAGCGGCC TGGACCTGCT GCTCGAGGCG
    CTGGCGCGGC TGTCGGGCCG CGGCGTGGCA CGCATCTCGG ATGCCCTGCT GCAGCTCACC
    TGCGTGAGCT GCGTGCGCGC TGTCATGAAC TCGCGGCAGG GCATCGAGTA CATCCTCAGC
    AACCAGGGCT ACGTGCGCCA GCTCTCCCAG GCCCTGGACA CATCCAACGT GATGGTGAAG
    AAGCAGGTGT TTGAGCTGCT GGCCGCCCTG TGCATCTACT CTCCCGAGGG CCACGCACTG
    ACCCTGGACG CCCTGGACCA CTACAAGACG GTGTGCAGCC AGCAGTACCG CTTCAGCATT
    GTCATGAACG AGCTCTCCGG CAGCGACAAC GTGCCTTATG TAGTCACCCT GCTCAGCGTG
    ATCAACGCCG TCATCCTGGG CCCCGAGGAC CTGCGCACGC GCACCCAGCT GCGGAATGAG
    TTTATCGGGC TGCAGCTGCT GGATGTCCTA GCTCGCCTGC GAGACCTGGA GGATGCCGAC
    CTGCTAATCC AGCTGGAGGC CTTCGAGGAG GCTAAGGCTG AGGACGAGGA GGAGCTGCTG
    CGAGTCTCTG GTGGGGTCGA CATGAGCAGC CACCAGGAGG TCTTTGCCTC CCTGTTCCAC
    AAGGTGAGCT GCTCCCCGGT GTCCGCCCAG CTCCTGTCAG TGCTGCAGGG CCTCCTGCAC
    CTGGAGCCCA GCCTCCGCTC CAGCCAGCTG CTCTGGGAGG CCCTGGAGAG CCTGGTGAAC
    CGGGCCGTGC TCCTGGCCAG CGATGCCCAG GAATGCACCC TGGAGGAAGT GGTTGAGCGG
    CTTCTGTCTG TCAAGGGGCG ACCCAGACCG AGCCCCCTGG TCAAGGCCCA TAAAAGCGTC
    CAGGCCAACC TAGGCCAGAA CCAGAGGGGC AGCTCCCCGC AAAACACTAC AACCCCCAAG
    CCCAGCGTGG AGGGCCAGCA GCCAGCAGCA GCTGCTGCCT GTGAGCCCGT AGACCACACC
    CAGAGTGACA GCGTCCTGAA AGTTTCGAAG CCGAGAACCC TGGAGCAGCA GGCGTCCCCT
    CTTCCCCCAT CCACCCCCCT GCTCCCTGGT TCCAGTGCTG AGCCCCCTCC CCCTCCTCCC
    CCACCCCCAC CTCCCCCCCT GCCACACCTG GGGGCCACAC CTCCTCTATC ACCACCCCTG
    ACAAGCTCCT GTGAGTTCCC GCCCCCACCA CCTCCACCAC TCCCGGGCAT GGGATGCCCA
    CCCCCACCCC CACCCCTGCT GCCTGGTATG GGCTGGGGCC CTCCTCCACC CCCACCTCCA
    CTGCTGCCCT GCACCTGCCG CCCCCCTGTG GCGGGAGGCG TGGAGGAGGT CATCGTGTCC
    CAGGTGGACC ACAGCTTGGG CTCCGCCTGG GTCCCCAGAC ATCGGCGGGT GAACCCACCC
    ACACTGCGCA TGAAGAAACT GAACTGGCAG AAGCTGCCAT CCAACGTGGC ACGTGAGCAC
    AACTCTATGT GGGCGTCCCT GAGCAGCCCC GATGCCGAGA CTGTGGAGCC TGACTTCTCC
    AGCATCGAGC AGCTCTTCTC CTTCCCTGCG GCCAAGCCCA AGGAGCCCAC CACAGCAGCC
    GCCCCGGCCA GGAAGGAGCC CAAGGAGATC ACTTTCCTTG ATGCCAAGAA GAGCCTGAAC
    CTCAACATCT TCCTGAAGCA ATTTAAGTGC TCCAACGAGG AGGTCGCTGC TATGATCCGG
    GCCGGCGATA CCACCAAGTT CGATGTGGAG GTTCTCAAAC AGCTCCTTAA GCTCCTTCCG
    GAGAAGCACG AGATTGAAAA CCTGCGGGCA TTCACAGAGG AGCGAGCCAA GCTGGCCAAC
    GCCGACCACT TCTACCTCCT CCTGCTGGCC ATTCCCTGCT ACCAGCTGCG AATCGAGTGC
    ATGCTGCTGT GTGAGGGCGC GGCCGCCGTG CTGGACATGG TGCGGCCCAA GGCCCAGCTG
    GTGCTGGCCG CCTGCGAAAG CCTGCTCACC AGCCGCCAGC TGCCCATCTT CTGCCAGCTG
    ATCCTGAGAA TTGGGAACTT CCTCAACTAC GGCAGCCACA CCGGCGATGC TGACGGCTTC
    AAGATCAGCA CGTTGCTGAA GCTCACGGAG ACCAAGTCCC AGCAGAACCG TGTGACGCTG
    CTGCACCACG TGCTGGAGGA AGCGGAAAAG AGCCATCCGG ACCTCCTGCA GCTGCCCCAG
    GACCTGGAGC AGCCCTCACA AGCGGCAGGG ATCAACCTGG AGATCATCCG CTCAGAGGCC
    AGCTCCAACC TGAAGAAGCT TCTGGAGACT GAGCGGAAAG TGTCTGCCTC GGTGGCCGAG
    GTCCAGGAGC AGTACACTGA GCGCCTCCAG GCCAGCATCT CGGCCTTCCG GGCACTAGAT
    GAGCTGTTTG AGGCCATTGA GCAGAAGCAG CGGGAGCTGG CCGACTACCT GTGTGAGGAC
    GCCCGGCAGC TGTCCCTGGA GGACACGTTC GGCACCATGA AGGCCTTCCG GGACCTCTTC
    CTCCGCGCCC TGAAGGAGAA CAAGGACCGG AAGGAGCAGG CAGCGAAGGC AGAGAGGAGG
    AAGCAGCAGC TGGCGGAGGA GGAGGCGCGG CGGCCTCGGG GAGAGGACGG GAAGCCTGTC
    AGGAAGGGGC CCGGGAAGCA GGAGGAGGTG TGTGTCATCG ACGCCCTCCT GGCCGACATC
    AGGAAGGGCT TCCAGCTGCG GAAGACGGCC CGGGGCCGCG GGGACACCGA CGGGGGCGGC
    AAGGTGGCCT CCATGGACCC CCCAAGAGCC ACAGAGCCCG TGACCACCAG TAACTCTGCA
    GGAGACCCCG TGGGCGGCAC ACACTGTCCC GCCTCCAAGC CCAACCTTGA TGCTACAATG
    GCCAGCGAGT CCCGGGGCTG GGACCTTGTA GACGCCGTGA CCCCCTGCCC TCAGCCCACG
    CTGGAGCAGT CGGAGGAGGG TGGTCCCCCG CCCCTGGAGA GGCGTTCTTC CTGGTATGAG
    GATGCCAGCG ACGTCCTAAC CACCGAGGAT GCCCAGTGCC CCCAACCCTT GGAGGGGGCC
    TGGCCAGTGA CTCTGGGAGA TGCTCAGGCC CTGAAGCCCC TCAAGTTTTC CAGCAACAAG
    CCCCCTGCAG CTGGAAGTTC AAGCCAAGAT GCCAAGGATC CCACGTCCTT GCTGGGCGTC
    CTGCAGGCCG AGGCCGACAG CACAAGCGAG GGGCTGGAGG ACGCAGTCCA CAGCCGTGGT
    GCCAGACCCC CTGCGGCAGG CCCGGGTGAG GATGGGGACG AGGACGAGGA GGATACAGCC
    CCAGAGTCCA CGCTGGACAC ATCCCTGGAC AAGTCCTTCT CCGAGGATGC AGTGACCGAC
    TCCTCGGGGT CGGGCACACT CCCCAGGGCC CGGGGCCGGG CCTCAAAGGG GACTGGCAAG
    CGACGGAAGA AGCGTCCCTC CAGGAGCCAG GAAGGCCTCA GGCCCAGGCC CAAGGCCAAG
    TGA

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

    CloneID OMb37743
    Clone ID Related Accession (Same CDS sequence) XM_015144594.1
    Accession Version XM_015144594.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3672bp)
    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 LOW QUALITY PROTEIN: inverted formin-2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805068.1) 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## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGTCGGTGA AGGAGGGCGC ACAGCGCAAG TGGGCAGCGC TGAAGGAGAA GCTGGGGCCA 
    CAGGACTCGG ACCCCACAGA GGCCAACCTG GAGAGCGCGG ACCCTGAGCT GTGCATCCGG
    CTGCTCCAGA TGCCCTCTGT GGTCAACTAC TCCGGCCTGC GCAAGCGCCT GGAGGGCAGC
    GACGGCAGCT GGATGGTGCA ATTCCTGGAG CAGAGCGGCC TGGACCTGCT GCTCGAGGCG
    CTGGCGCGGC TGTCGGGCCG CGGCGTGGCA CGCATCTCGG ATGCCCTGCT GCAGCTCACC
    TGCGTGAGCT GCGTGCGCGC TGTCATGAAC TCGCGGCAGG GCATCGAGTA CATCCTCAGC
    AACCAGGGCT ACGTGCGCCA GCTCTCCCAG GCCCTGGACA CATCCAACGT GATGGTGAAG
    AAGCAGGTGT TTGAGCTGCT GGCCGCCCTG TGCATCTACT CTCCCGAGGG CCACGCACTG
    ACCCTGGACG CCCTGGACCA CTACAAGACG GTGTGCAGCC AGCAGTACCG CTTCAGCATT
    GTCATGAACG AGCTCTCCGG CAGCGACAAC GTGCCTTATG TAGTCACCCT GCTCAGCGTG
    ATCAACGCCG TCATCCTGGG CCCCGAGGAC CTGCGCACGC GCACCCAGCT GCGGAATGAG
    TTTATCGGGC TGCAGCTGCT GGATGTCCTA GCTCGCCTGC GAGACCTGGA GGATGCCGAC
    CTGCTGATCC AGCTGGAGGC CTTCGAGGAG GCTAAGGCTG AGGACGAGGA GGAGCTGCTG
    CGAGTCTCTG GTGGGGTCGA CATGAGCAGC CACCAGGAGG TCTTTGCCTC CCTGTTCCAC
    AAGGTGAGCT GCTCCCCGGT GTCCGCCCAG CTCCTGTCAG TGCTGCAGGG CCTCCTGCAC
    CTGGAGCCCA GCCTCCGCTC CAGCCAGCTG CTCTGGGAGG CCCTGGAGAG CCTGGTGAAC
    CGGGCCGTGC TCCTGGCCAG CGATGCCCAG GAATGCACCC TGGAGGAAGT GGTTGAGCGG
    CTTCTGTCTG TCAAGGGGCG ACCCAGACCG AGCCCCCTGG TCAAGGCCCA TAAAAGCGTC
    CAGGCCAACC TAGGCCAGAA CCAGAGGGGC AGCTCCCCGC AAAACACTAC AACCCCCAAG
    CCCAGCGTGG AGGGCCAGCA GCCAGCAGCA GCTGCTGCCT GTGAGCCCGT AGACCACACC
    CAGAGTGACA GCGTCCTGAA AGTTTCGAAG CCGAGAACCC TGGAGCAGCA GGCGTCCCCT
    CTTCCCCCAT CCACTCCCCT GCTCCCTGGT TCCAGTGCTT GAGCCCCTCC CCCTCTCCCC
    CCACCCCCAC CTTCCCCCCC TGTCACCCAC CATGGTGCCA CCNACACTCC TCGTTCATCA
    CAACCCCTGA CAAGCTCCTG TGAGTTCCCG CCCCCACCAC CTCCACCACT CCCGGGCATG
    GGATGCCCAC CCCCACCCCC ACCCCTGCTG CCTGGTATGG GCTGGGGCCC TCCTCCACCC
    CCACCTCCAC TGCTGCCCTG CACCTGCCGC CCCCCTGTGG CGGGAGGCGT GGAGGAGGTC
    ATCGTGTCCC AGGTGGACCA CAGCTTGGGC TCCGCCTGGG TCCCCAGACA TCGGCGGGTG
    AACCCACCCA CACTGCGCAT GAAGAAACTG AACTGGCAGA AGCTGCCATC CAACGTGGCA
    CGTGAGCACA ACTCTATGTG GGCGTCCCTG AGCAGCCCCG ATGCCGAGAC TGTGGAGCCT
    GACTTCTCCA GCATCGAGCA GCTCTTCTCC TTCCCTGCGG CCAAGCCCAA GGAGCCCACC
    ACAGCAGCCG CCCCGGCCAG GAAGGAGCCC AAGGAGATCA CTTTCCTTGA TGCCAAGAAG
    AGCCTGAACC TCAACATCTT CCTGAAGCAA TTTAAGTGCT CCAACGAGGA GGTCGCTGCT
    ATGATCCGGG CCGGCGATAC CACCAAGTTC GATGTGGAGG TTCTCAAACA GCTCCTTAAG
    CTCCTTCCGG AGAAGCACGA GATTGAAAAC CTGCGGGCAT TCACAGAGGA GCGAGCCAAG
    CTGGCCAACG CCGACCACTT CTACCTCCTC CTGCTGGCCA TTCCCTGCTA CCAGCTGCGA
    ATCGAGTGCA TGCTGCTGTG TGAGGGCGCG GCCGCCGTGC TGGACATGGT GCGGCCCAAG
    GCCCAGCTGG TGCTGGCCGC CTGCGAAAGC CTGCTCACCA GCCGCCAGCT GCCCATCTTC
    TGCCAGCTGA TCCTGAGAAT TGGGAACTTC CTCAACTACG GCAGCCACAC CGGCGATGCT
    GACGGCTTCA AGATCAGCAC GTTGCTGAAG CTCACGGAGA CCAAGTCCCA GCAGAACCGT
    GTGACGCTGC TGCACCACGT GCTGGAGGAA GCGGAAAAGA GCCATCCGGA CCTCCTGCAG
    CTGCCCCAGG ACCTGGAGCA GCCCTCACAA GCGGCAGGGA TCAACCTGGA GATCATCCGC
    TCAGAGGCCA GCTCCAACCT GAAGAAGCTT CTGGAGACTG AGCGGAAAGT GTCTGCCTCG
    GTGGCCGAGG TCCAGGAGCA GTACACTGAG CGCCTCCAGG CCAGCATCTC GGCCTTCCGG
    GCACTAGATG AGCTGTTTGA GGCCATTGAG CAGAAGCAGC GGGAGCTGGC CGACTACCTG
    TGTGAGGACG CCCGGCAGCT GTCCCTGGAG GACACGTTCG GCACCATGAA GGCCTTCCGG
    GACCTCTTCC TCCGCGCCCT GAAGGAGAAC AAGGACCGGA AGGAGCAGGC AGCGAAGGCA
    GAGAGGAGGA AGCAGCAGCT GGCGGAGGAG GAGGCGCGGC GGCCTCGGGG AGAGGACGGG
    AAGCCTGTCA GGAAGGGGCC CGGGAAGCAG GAGGAGGTGT GTGTCATCGA CGCCCTCCTG
    GCCGACATCA GGAAGGGCTT CCAGCTGCGG AAGACGGCCC GGGGCCGCGG GGACACCGAC
    GGGGGTGGCA AGGTGGCCTC CATGGACCCC CCAAGAGCCA CAGAGCCCGT GGCCACCAGT
    AACTCTGCAG GAGACCCCGT GGGCGGCACA CACTGTCCCG GCTCCAAGCC CAACCTTGAT
    GCTACAATGG CCAGCGAGTC CCGGGGCTGG GACCTTGTAG ACGCCGTGAC CCCCTGCCCT
    CAGCCCACGC TGGAGCAGTC GGAGGAGGGT GGTCCCCCGC CCCTGGAGAG GCGTTCTTCC
    TGGTATGAGG ATGCCAGCGA CGTCCTAACC ACCGAGGATG CCCAGTGCCC CCAACCCTTG
    GAGGGGGCCT GGCCAGTGAC TCTGGGAGAT GCTCAGGCCC TGAAGCCCCT CAAGTTTTCC
    AGCAACAAGC CCCCTGCAGC TGGAAGTTCA AGCCAAGATG CCAAGGATCC CACGTCCTTG
    CTGGGCGTCC TGCAGGCCGA GGCCGACAGC ACAAGCGAGG GGCTGGAGGA CGCAGTCCAC
    AGCCGTGGTG CCAGACCCCC TGCGGCAGGC CCGGGTGAGG ATGGGGACGA GGACGAGGAG
    GATACAGCCC CAGAGTCCGC GCTGGACACA TCCCTGGACA AGTCCTTCTC CGAGGATGCA
    GTGACCGACT CCTCGGGGTC GGGCACACTC CCCAGGGCCC GGGGCCGGGC CTCAAAGGGG
    ACTGGCAAGC GACGGAAGAA GCGTCCCTCC AGGAGCCAGG AAGGCCTCAG GCCCAGGCCC
    AAGGCCAAGT GA

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

    RefSeq XP_015000080.1
    CDS149..3820
    Translation

    Target ORF information:

    RefSeq Version XM_015144594.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta inverted formin, FH2 and WH2 domain containing (INF2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015144594.1

    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
    ATGTCGGTGA AGGAGGGCGC ACAGCGCAAG TGGGCAGCGC TGAAGGAGAA GCTGGGGCCA 
    CAGGACTCGG ACCCCACAGA GGCCAACCTG GAGAGCGCGG ACCCTGAGCT GTGCATCCGG
    CTGCTCCAGA TGCCCTCTGT GGTCAACTAC TCCGGCCTGC GCAAGCGCCT GGAGGGCAGC
    GACGGCAGCT GGATGGTGCA ATTCCTGGAG CAGAGCGGCC TGGACCTGCT GCTCGAGGCG
    CTGGCGCGGC TGTCGGGCCG CGGCGTGGCA CGCATCTCGG ATGCCCTGCT GCAGCTCACC
    TGCGTGAGCT GCGTGCGCGC TGTCATGAAC TCGCGGCAGG GCATCGAGTA CATCCTCAGC
    AACCAGGGCT ACGTGCGCCA GCTCTCCCAG GCCCTGGACA CATCCAACGT GATGGTGAAG
    AAGCAGGTGT TTGAGCTGCT GGCCGCCCTG TGCATCTACT CTCCCGAGGG CCACGCACTG
    ACCCTGGACG CCCTGGACCA CTACAAGACG GTGTGCAGCC AGCAGTACCG CTTCAGCATT
    GTCATGAACG AGCTCTCCGG CAGCGACAAC GTGCCTTATG TAGTCACCCT GCTCAGCGTG
    ATCAACGCCG TCATCCTGGG CCCCGAGGAC CTGCGCACGC GCACCCAGCT GCGGAATGAG
    TTTATCGGGC TGCAGCTGCT GGATGTCCTA GCTCGCCTGC GAGACCTGGA GGATGCCGAC
    CTGCTGATCC AGCTGGAGGC CTTCGAGGAG GCTAAGGCTG AGGACGAGGA GGAGCTGCTG
    CGAGTCTCTG GTGGGGTCGA CATGAGCAGC CACCAGGAGG TCTTTGCCTC CCTGTTCCAC
    AAGGTGAGCT GCTCCCCGGT GTCCGCCCAG CTCCTGTCAG TGCTGCAGGG CCTCCTGCAC
    CTGGAGCCCA GCCTCCGCTC CAGCCAGCTG CTCTGGGAGG CCCTGGAGAG CCTGGTGAAC
    CGGGCCGTGC TCCTGGCCAG CGATGCCCAG GAATGCACCC TGGAGGAAGT GGTTGAGCGG
    CTTCTGTCTG TCAAGGGGCG ACCCAGACCG AGCCCCCTGG TCAAGGCCCA TAAAAGCGTC
    CAGGCCAACC TAGGCCAGAA CCAGAGGGGC AGCTCCCCGC AAAACACTAC AACCCCCAAG
    CCCAGCGTGG AGGGCCAGCA GCCAGCAGCA GCTGCTGCCT GTGAGCCCGT AGACCACACC
    CAGAGTGACA GCGTCCTGAA AGTTTCGAAG CCGAGAACCC TGGAGCAGCA GGCGTCCCCT
    CTTCCCCCAT CCACTCCCCT GCTCCCTGGT TCCAGTGCTT GAGCCCCTCC CCCTCTCCCC
    CCACCCCCAC CTTCCCCCCC TGTCACCCAC CATGGTGCCA CCNACACTCC TCGTTCATCA
    CAACCCCTGA CAAGCTCCTG TGAGTTCCCG CCCCCACCAC CTCCACCACT CCCGGGCATG
    GGATGCCCAC CCCCACCCCC ACCCCTGCTG CCTGGTATGG GCTGGGGCCC TCCTCCACCC
    CCACCTCCAC TGCTGCCCTG CACCTGCCGC CCCCCTGTGG CGGGAGGCGT GGAGGAGGTC
    ATCGTGTCCC AGGTGGACCA CAGCTTGGGC TCCGCCTGGG TCCCCAGACA TCGGCGGGTG
    AACCCACCCA CACTGCGCAT GAAGAAACTG AACTGGCAGA AGCTGCCATC CAACGTGGCA
    CGTGAGCACA ACTCTATGTG GGCGTCCCTG AGCAGCCCCG ATGCCGAGAC TGTGGAGCCT
    GACTTCTCCA GCATCGAGCA GCTCTTCTCC TTCCCTGCGG CCAAGCCCAA GGAGCCCACC
    ACAGCAGCCG CCCCGGCCAG GAAGGAGCCC AAGGAGATCA CTTTCCTTGA TGCCAAGAAG
    AGCCTGAACC TCAACATCTT CCTGAAGCAA TTTAAGTGCT CCAACGAGGA GGTCGCTGCT
    ATGATCCGGG CCGGCGATAC CACCAAGTTC GATGTGGAGG TTCTCAAACA GCTCCTTAAG
    CTCCTTCCGG AGAAGCACGA GATTGAAAAC CTGCGGGCAT TCACAGAGGA GCGAGCCAAG
    CTGGCCAACG CCGACCACTT CTACCTCCTC CTGCTGGCCA TTCCCTGCTA CCAGCTGCGA
    ATCGAGTGCA TGCTGCTGTG TGAGGGCGCG GCCGCCGTGC TGGACATGGT GCGGCCCAAG
    GCCCAGCTGG TGCTGGCCGC CTGCGAAAGC CTGCTCACCA GCCGCCAGCT GCCCATCTTC
    TGCCAGCTGA TCCTGAGAAT TGGGAACTTC CTCAACTACG GCAGCCACAC CGGCGATGCT
    GACGGCTTCA AGATCAGCAC GTTGCTGAAG CTCACGGAGA CCAAGTCCCA GCAGAACCGT
    GTGACGCTGC TGCACCACGT GCTGGAGGAA GCGGAAAAGA GCCATCCGGA CCTCCTGCAG
    CTGCCCCAGG ACCTGGAGCA GCCCTCACAA GCGGCAGGGA TCAACCTGGA GATCATCCGC
    TCAGAGGCCA GCTCCAACCT GAAGAAGCTT CTGGAGACTG AGCGGAAAGT GTCTGCCTCG
    GTGGCCGAGG TCCAGGAGCA GTACACTGAG CGCCTCCAGG CCAGCATCTC GGCCTTCCGG
    GCACTAGATG AGCTGTTTGA GGCCATTGAG CAGAAGCAGC GGGAGCTGGC CGACTACCTG
    TGTGAGGACG CCCGGCAGCT GTCCCTGGAG GACACGTTCG GCACCATGAA GGCCTTCCGG
    GACCTCTTCC TCCGCGCCCT GAAGGAGAAC AAGGACCGGA AGGAGCAGGC AGCGAAGGCA
    GAGAGGAGGA AGCAGCAGCT GGCGGAGGAG GAGGCGCGGC GGCCTCGGGG AGAGGACGGG
    AAGCCTGTCA GGAAGGGGCC CGGGAAGCAG GAGGAGGTGT GTGTCATCGA CGCCCTCCTG
    GCCGACATCA GGAAGGGCTT CCAGCTGCGG AAGACGGCCC GGGGCCGCGG GGACACCGAC
    GGGGGTGGCA AGGTGGCCTC CATGGACCCC CCAAGAGCCA CAGAGCCCGT GGCCACCAGT
    AACTCTGCAG GAGACCCCGT GGGCGGCACA CACTGTCCCG GCTCCAAGCC CAACCTTGAT
    GCTACAATGG CCAGCGAGTC CCGGGGCTGG GACCTTGTAG ACGCCGTGAC CCCCTGCCCT
    CAGCCCACGC TGGAGCAGTC GGAGGAGGGT GGTCCCCCGC CCCTGGAGAG GCGTTCTTCC
    TGGTATGAGG ATGCCAGCGA CGTCCTAACC ACCGAGGATG CCCAGTGCCC CCAACCCTTG
    GAGGGGGCCT GGCCAGTGAC TCTGGGAGAT GCTCAGGCCC TGAAGCCCCT CAAGTTTTCC
    AGCAACAAGC CCCCTGCAGC TGGAAGTTCA AGCCAAGATG CCAAGGATCC CACGTCCTTG
    CTGGGCGTCC TGCAGGCCGA GGCCGACAGC ACAAGCGAGG GGCTGGAGGA CGCAGTCCAC
    AGCCGTGGTG CCAGACCCCC TGCGGCAGGC CCGGGTGAGG ATGGGGACGA GGACGAGGAG
    GATACAGCCC CAGAGTCCGC GCTGGACACA TCCCTGGACA AGTCCTTCTC CGAGGATGCA
    GTGACCGACT CCTCGGGGTC GGGCACACTC CCCAGGGCCC GGGGCCGGGC CTCAAAGGGG
    ACTGGCAAGC GACGGAAGAA GCGTCCCTCC AGGAGCCAGG AAGGCCTCAG GCCCAGGCCC
    AAGGCCAAGT GA

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