ORF » Species Summary » Rattus norvegicus » Flg2 cDNA ORF clone

Flg2 cDNA ORF clone, Rattus norvegicus(Norway rat)

  • Gene

  • Clones

  • gRNAs

The following Flg2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Flg2 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
ORa60013 XM_008761273.2
Latest version!		 Rattus norvegicus filaggrin family member 2 (Flg2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $223.30
$319.00
ORa54934 XM_017596329.1
Latest version!		 Rattus norvegicus filaggrin family member 2 (Flg2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1091.30
$1559.00

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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)
    Flg2 ( XM_008761273.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008759495.2 Rattus norvegicus filaggrin family member 2 (Flg2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa60013
    Clone ID Related Accession (Same CDS sequence) XM_008761273.2
    Accession Version XM_008761273.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1104bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product filaggrin-2-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005101.4) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008761273.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 6% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    ATGCAAGGGG TGGGACTAAG TTTGATTAGA AATGAATCAG CCCATCCCAC AGAAGACAGC 
    AACCAAGCTA GAAGCTATAT AAGGGTCACT ATCCCAATTC ATCAACACCC TGCAAGCTGC 
    ATCAGGCCTT ATCCTACTTG TTCCTTTGGT GAACCAGGTT CATTGACAAA AACAAAGATG 
    ACATATCTCC TAAGAAGTGT TGTCACCATC ATTGATATAT TCTACAAATA CACCAAGCAA 
    GATGAAGAAT GTGGCACACT GAGCAAGAAT GAGCTAAAGG AACTGCTGGA GAAGGAGTTC 
    CGGCCAATTC TGAAGAATCC AGATGATCCA GACACAGTAG ATGTCATCAT GCATATGCTG 
    GATCGAGATC ATGACCGAAG GCTAGACTTT ACTGAGTTTA TTCTGATGGT ATTCAAACTG 
    GCTCTAGCCT GCAACAAGGT TCTTGGAAAA GAATACTGTA AAGCTTCAGG GTCAAAGAAG 
    CATAGGCGTG GCCATCAACA GCAAGAGGAA GAAAGTGAAA CAGGCGAAGA AGAGGAGACA 
    CCAAGACAGA AATCAGGTTT CAAATATTCA AGATGGAATG AGGGAGAAGA GCATGGACAT 
    AGTTCTGGGG GCTCATGGGG ACGTGCAAAG TATAGACGTG GGTCCAACTC TAGGAAGGTG 
    GAAAGGCAAG ATGAATTATC CAGCTTAGAG CAGTCAAGGA ATCATGGGTT TATCTCTGGT 
    CACTCTTGGA GTAGTAACAA AGAGAACCAT GGTTCAAAAT CTGAAGAGCG AGGAGAAAAA 
    AGAGACAAGT CACATGGTAG CCCCTCTAGA GAATCTGGGG AAGACTATGA GTCTGGATCC 
    AGGTTAAACC ATCAGGGAAG GAAAGACCAT AGTGAACTGT TACATGGATT GGAGAAAAAC 
    AAACATGAAT CAAATTATAC TCAGTCAAGA GAGGGTGTAG AACAAAAGCT TGGGTATAAT 
    TCTGCAAGTT CAGGAAACAG TAAGATACAA AGTCATATAT GTGGTTTCAG CAGTTCTAGT 
    GGATGTTGCA GACTCTCTCT GACTAGAAGA CTGGCTACAG GATCTAGGTT TAGGTTGACA 
    ACATCTAGAG GACTGACCTT CTGA

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

    RefSeq XP_008759495.2
    CDS290..1393
    Translation

    Target ORF information:

    RefSeq Version XM_008761273.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus filaggrin family member 2 (Flg2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008761273.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    ATGCAAGGGG TGGGACTAAG TTTGATTAGA AATGAATCAG CCCATCCCAC AGAAGACAGC 
    AACCAAGCTA GAAGCTATAT AAGGGTCACT ATCCCAATTC ATCAACACCC TGCAAGCTGC 
    ATCAGGCCTT ATCCTACTTG TTCCTTTGGT GAACCAGGTT CATTGACAAA AACAAAGATG 
    ACATATCTCC TAAGAAGTGT TGTCACCATC ATTGATATAT TCTACAAATA CACCAAGCAA 
    GATGAAGAAT GTGGCACACT GAGCAAGAAT GAGCTAAAGG AACTGCTGGA GAAGGAGTTC 
    CGGCCAATTC TGAAGAATCC AGATGATCCA GACACAGTAG ATGTCATCAT GCATATGCTG 
    GATCGAGATC ATGACCGAAG GCTAGACTTT ACTGAGTTTA TTCTGATGGT ATTCAAACTG 
    GCTCTAGCCT GCAACAAGGT TCTTGGAAAA GAATACTGTA AAGCTTCAGG GTCAAAGAAG 
    CATAGGCGTG GCCATCAACA GCAAGAGGAA GAAAGTGAAA CAGGCGAAGA AGAGGAGACA 
    CCAAGACAGA AATCAGGTTT CAAATATTCA AGATGGAATG AGGGAGAAGA GCATGGACAT 
    AGTTCTGGGG GCTCATGGGG ACGTGCAAAG TATAGACGTG GGTCCAACTC TAGGAAGGTG 
    GAAAGGCAAG ATGAATTATC CAGCTTAGAG CAGTCAAGGA ATCATGGGTT TATCTCTGGT 
    CACTCTTGGA GTAGTAACAA AGAGAACCAT GGTTCAAAAT CTGAAGAGCG AGGAGAAAAA 
    AGAGACAAGT CACATGGTAG CCCCTCTAGA GAATCTGGGG AAGACTATGA GTCTGGATCC 
    AGGTTAAACC ATCAGGGAAG GAAAGACCAT AGTGAACTGT TACATGGATT GGAGAAAAAC 
    AAACATGAAT CAAATTATAC TCAGTCAAGA GAGGGTGTAG AACAAAAGCT TGGGTATAAT 
    TCTGCAAGTT CAGGAAACAG TAAGATACAA AGTCATATAT GTGGTTTCAG CAGTTCTAGT 
    GGATGTTGCA GACTCTCTCT GACTAGAAGA CTGGCTACAG GATCTAGGTT TAGGTTGACA 
    ACATCTAGAG GACTGACCTT CTGA

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

    Flg2 ( XM_017596329.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017451818.1 Rattus norvegicus filaggrin family member 2 (Flg2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa54934
    Clone ID Related Accession (Same CDS sequence) XM_017596329.1
    Accession Version XM_017596329.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6966bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product filaggrin-2-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000070.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    ATGCAAGGGG TGGGACTAAG TTTGATTAGA AATGAATCAG CCCATCCCAC AGAAGACAGC 
    AACCAAGCTA GAAGCTATAT AAGGGTCACT ATCCCAATTC ATCAACACCC TGCAAGCTGC 
    ATCAGGCCTT ATCCTACTTG TTCCTTTGGT GAACCAGGTT CATTGACAAA AACAAAGATG 
    ACATATCTCC TAAGAAGTGT TGTCACCATC ATTGATATAT TCTACAAATA CACCAAGCAA 
    GATGAAGAAT GTGGCACACT GAGCAAGAAT GAGCTAAAGG AACTGCTGGA GAAGGAGTTC 
    CGGCCAATTC TGAAGAATCC AGATGATCCA GACACAGTAG ATGTCATCAT GCATATGCTG 
    GATCGAGATC ATGACCGAAG GCTAGACTTT ACTGAGTTTA TTCTGATGGT ATTCAAACTG 
    GCTCTAGCCT GCAACAAGGT TCTTGGAAAA GAATACTGTA AAGCTTCAGG GTCAAAGAAG 
    CATAGGCGTG GCCATCAACA GCAAGAGGAA GAAAGTGAAA CAGGCGAAGA AGAGGAGACA 
    CCAAGACAGA AATCAGGTTT CAAATATTCA AGATGGAATG AGGGAGAAGA GCATGGACAT 
    AGTTCTGGGG GCTCATGGGG ACGTGCAAAG TATAGACGTG GGTCCAACTC TAGGAAGGTG 
    GAAAGGCAAG ATGAATTATC CAGCTTAGAG CAGTCAAGGA ATCATGGGTT TATCTCTGGT 
    CACTCTTGGA GTAGTAACAA AGAGAACCAT GGTTCAAAAT CTGAAGAGCG AGGAGAAAAA 
    AGAGACAAGT CACATGGTAG CCCCTCTAGA GAATCTGGGG AAGACTATGA GTCTGGATCC 
    AGGTTAAACC ATCAGGGAAG GAAAGACCAT AGTGAACTGT TACATGGATT GGAGAAAAAC 
    AAACATGAAT CAAATTATAC TCAGTCAAGA GAGGGTGTAG AACAAAAGCT TGGGTATAAT 
    TCTGCAAGTT CAGGAAACAG TAAGATACAA AGTCATATAT GTGGTTTCAG CAGTTCTAGT 
    GGATGTTGCA GACCACAAAA TGCTTCAAGT TCTTGTCAGA CAAGTAGATC AGGGTGGCAA 
    GGCTATCAGT CTTGCTGTAC CCAGTCAAAT TGTCAATCAG GAACTAGTGG AGGACAAGGA 
    TATGGATGTG TCTCAGAAGG TCAGTCCTCT AGATGTTGTC AACCTAAACC TAGATCCTGT 
    AGCCAGTCTT CTAGTCAGAG AGGTTATGGA TCTAAACAAT GTGGTCAACC ACAGAACTGT 
    GGAAGACAAC AGAGAACGGG TTCAAGTCAC TCTTCTTGCT GTGGACGATA TGGGTCTGGA 
    ACAACTCAAT CTTCTGGTTA TGGTCAACAG GGAACGAGGT CCTGTGGACA ATCTTCAAGC 
    TCTCATCAAA AGGGATGTAG ATCAAATGAA TTTTCCAAAG GCGGTCAGCA TGGGTCTGGT 
    TCAGGGCACT CACCCTGCTG TGAACAACAT GGAACAAACT CAAGTCAGTC CTCTGGCTTT 
    AAACAACATG GACACGAATC AGGTCAGTCA TGCTGTGGCC AACATAGTAC TGCATCAGGT 
    CATTCCTCGG GTTATGGTCA ACATGGTGTT GGCTCAGGTC AGTCATGTCA CTTTGGGCAG 
    CATGGGTCCA GTTCTGGTCA GTCCTCTATT TCTGGGCACC ATGGATCTGG TTCTCATCAG 
    TCGTCTAGTT CTGGGCATCA TGGATCTGGC TCAGGTCAGC CATCTGGCTT TGGGGAGCAT 
    GGGTCTGGTT CTCATCAGTC ATCTAGTTCT GGGCATTATG GATCTGGCTC AAGTCAGTCA 
    TCTGGCTTTG GGAAGCATGG GTCTGGTTCT CATCAGCCGT CTAGTTCTGG GCATCATGGA 
    TCTAGCTCAA GTCAGTCATC TGGCTTTGGG AAGCATGGGT CTGGTTCCCA TCAGTCGTCT 
    AGTTCTGAGC ATCATGGATC TGGCTCAAGT CAGCCATCTG GATTTGGGGA GCATGGGTCT 
    GGTTCCCATC AGTCGTCTAG TTCTGAGCAT CATGGATCTG GCTCAAGTCA GCCATCTGGA 
    TTTGGGGAGC ATGGGTCTGG TTCCCATCAG TCGTCTAGTT CTGAGCATCA TGGATCTGGC 
    TCAGGTCAGC CATCTGGCTT TGGGAAGCAT GGGTCTGGTT CTCATCAGCC GTCTAGTTCT 
    GGGCATCATG GATCTAGCTC AAGTCAGTCA TCCGGCTTTG GGAAGCATGG GTCTGGTTCC 
    CATCAGTCGT CTAGTTCTGA GCATCATGGA TCTGGCTCAA GTCAGCCATC TGGATTTGGG 
    GAGCATGGGT CTGGTTCCCA TCAGTCGTCT AGTTCTGAGC ATCATGGATC TGGCTCAAGT 
    CAGCCATCTG GATTTGGGGA GCATGGGTCT GGTTCTCATC AGTCATCTAG TTCTGAGCAT 
    CATGGATCTG GCTCAGGTCA GCCATCTGGC TTTGGGAAGC ATGGGTCTGG TTCTCATCAG 
    CCGTCTAGTT CTGGGCATCA TGGATCTAGC TCAAGTCAGT CATCCGGCTT TGGGAAGCAT 
    GGGTCTGGTT CTCATCAGTC GTCTAGTTCT GAGCATCATG GATCTGGCTC AGGTCAGCCA 
    TCTGGGTCTG AGCAGCGTGG TGCTGGCTCA AGTCACTCAT CTGGCTTTGG GGAGCATGGA 
    TCTGGTTCTC ATCAGTCATC TAGTTCTGAG CATCATGGAT CTGGCTCAGG TCAGCCATCT 
    GGCTTTGGGG AGCATGGGTC TGGTTCTCAT CATTGGTCTA GTTCTGGGCA TTATGGATCT 
    GGCTCAGGTC AGCCATCTGG CTTTGGGAAG CATGGGTCTG GTTCTCATCA GTCATCTAGT 
    TCTGAGCATC ATGGATCTGG CTCAAGTCAG CCATCTGGCT TTGGGGAGCA TGGGTCTGGT 
    TCTCATCATT GGTCTAGTTC TGGGCATTAT GGATCTGGCT CAGGTCAGCC ATCTGGCTTT 
    GGGAAACATG AGTACAGTAC TCATCAGCCA ACTAGTTCTG GGTATCATGA ATCTGGCTCA 
    GGTCCATCAT CAAGATCTTG GCAGCATAGG ACTGGCTCAG GCCAGTCATT TGGCTTTGGG 
    GAACATGAAT CTGGACCAGA TCAGTCTTCT AGCTCTTGGC GACATTGGAC TAGCTCAGGC 
    CAGTCTCAAT ATGATAATCC AAGACACACA TACACTAGGA GAACTAAAAG AAGGGAACAA 
    GCACAGCCTG AGTCCAATAA CAGTGAAGAC CACTCAGTAG TGGCACAGAG ACAATCAGGG 
    TACACTTATG GTCATAAAGA ATTTCAACAT GGAGAATCTC TTCAGAGAGA AGATGAAACA 
    TCTCAAAGGC AATCTCAGGA GAGCAGTAGA AAGCCTCAAT CAGGAAAAAA AGAGCCATTA 
    CATTCAGACA CAAGCAAGGA AGCAAAAAGG CCACAATTCA ACACCGAGAC AAGTGAAGGT 
    GAAGAATACA CAATAGTCCC ACAGAGAGAT TCAGGATACA CTCAGAGTCA TGCTAGACAT 
    CAGCATAGAG AGTCAGTTCA AGGGCAACAG GGGAGTCCTC AAAGCCAGTT TCAGGACAGC 
    AGTAGACATC CTCAGCACAG GCCTCAACAG CCCTCACCTT CTCATTCTGA CAGAACACCA 
    GGGAGGTCAC CAGTCCACCC TGAGTCCAGT GAAGGTGAGG AACACACCGA AGCCTCACAG 
    AGGCACTCTC GATCCACACA GCGACAATCT AGACTTCAAC ATGGAGAGTC AATTCATGGA 
    CAACATGGGA GTCCTCAAAG GCAGGGTCAG GACAGTAGTA GACAGCCTCA GTACGGTCAT 
    GAAGGACCCT CACATTCAGG CTCTAGTAGA AGCCCCAGAA GGTCACCAGT CCACCCAGAG 
    TCCAGTGAAG GTGAGGAACA CTCAGAAGCC TCACAGAGAC ATAGTGGATC CACTCACAGC 
    CATGTTGCAC ATCAACATAG AGAGTCAGCT TGTGGACAAC ATGGGAGTCC TCAAAGTCAG 
    TTTCAGGACA GCACTGGACA TCCTCAATCA AGGCATGAAC AACCCTCACA TGCTGGTGGT 
    GGTAGAACTC CCAAGAGGTC ACCTGTCCAC CCTGAGTCAA GTGAAGGTGA GGAACACTTA 
    GAAATCTCAC AGAGACACAC TGGATCCACA CAGGGACATT CTAGACCTCA CCATGGAGAA 
    ACAGTTCATG GACAAAGGCA GTTTCCAGAT AGTAGTAGAC AGCCTCAATC CAGGCATGAT 
    GAGCCCTCAC ATTCAGGTAC TGGTAGAACT CCCAGAAGAT CACCAGTCCA CCCTGAGTCC 
    AGTGAGGGTG AGGAACACTC AGGATTCTCA CAGAGACATT CTGAGTCCAC TCACAGGCAA 
    GCGGGACATC AACATAGAGA GTCAGGTCAT GGGCAACATG GGAGTCCTCA AAGCCAGTGC 
    CAGGACGCCA CTGGACATCC TCAGCAAAGG CATGAACAGC CCTCACCTTC TAATGCTGGA 
    GGAACACCAG GGAGATCACC AGTTCACCCT GAGTCCAGTG AAGGTGAGGA ACACTCAGGA 
    TTCTCACAGA GACATTCTGA ATCTGCTCAC AGCCATGCTG GACATGAGCA TAGAGAGTCA 
    GTTCAAGGGC AACATGGGAG TCCTCAAAGC CAGTGCCAGG ACGCCACTGG ACATCCTCAG 
    CAAAGGCATG AACAGCCCTC ACCTTCTAAT GCTGGAGGGA CACCAGGGAG ATCACCAGTT 
    CACCCTGAGT CCAGTGAAGG TGAGGAACAC TCAGGATTCT CACAGAGACA TTCTGAATCT 
    GCTCACAGCC ATGCTGGTCA TCAGCATAGA GAGTCAGTTC AAGGGCAACA TGGGAGTCCT 
    CAAAGCCAGT TTCAGGACAG CAGTAGACAT CCTCAGCACA GGCCTCAACA GCCCTCACCT 
    TCTCATTCTC ATAGGACACC AGGGAGGTCA TCAGTCCACC CTGAGTCCCG TGAAGGTGAG 
    GAACACCCCG AAGCCTCACA GAGGCACTCT CGATCCACAC AGCGACAATC TAGACTTCAA 
    CATGGAGAGT CAGTTCATGG ACAACATGGG AGTCCTCAAA GGCAGGGTCA GGACAGTAGT 
    AGACAGCCTC AGTACGGTCA TGAAGGACCC TCACATTCAG GCTCTAGTAG AAGCCCCAGA 
    AGGTCACCAG TCCACCCAGA GTCCAGTGAG GGTGAGGAAC ACTCAGAAGC CTCACAGAGA 
    CACAGTGGAT CCACTCACAG CCATGCTGCA CATCAACATA GAGAGTCAGT TTGTGGACAA 
    CATGGGAGTC CTCAAAGTCA GTTTCAGGAC AGCACTGGAC ATCCTCAATC AAGGCATGAA 
    CAACCCTCAC ATGCTGGTGG TGGTAGAACT CCCAAGAGGT CACCGGTCCA CCCTGAGTCA 
    AGTGAAGGTG AGGAACACTT AGAAATCTCA CAGAAACACA CTGGATCCAC ACAGGGACAT 
    TCTAGACCTC ACCATGGAGA AACAGTTCAT GGACAAAGGC AGTTTCCAGA TAGTACTAGA 
    CAGCCTCAAT CCAGGCATGA TGAGCCCTCA CATTCAGGTA CTGGTAGAAC TCCCAGAAGA 
    TCACCAGTCC ATCCTGAGTC CAGTGAGGGT GAGGAGCACT CAGGATTCTC ACAGAGACAT 
    TCTGAGTCCA CTCACAGGCA AGCGGGACAT CAACATAGAG AGTCAGGTCA TGGGCAACAT 
    GGGAGTCCTC GAAGCCAGTT TCAGGACAGC AGTAGACATC CTCAGCACAG GCCTCAACAG 
    CCCTCACCTT CTCATTCTGA TAGAACACCA GGGAGGTCAC CAGTCCACCC TGAGTCCAGT 
    GAAGGTGAGG AACACACCGA AGCCTCACAG AGGCACTCTC GATCCACACA GCGACAATCT 
    AGACTTCAAC ATGGAGAGTC AATTCATGGA CAACATGGGA GTCCTCAAAG GCAGGGTCAG 
    GACAGTAGTA GACAGCCTCG GTATGGTCAT GAAGGACCCT CACATTCAGG CTCTAGTAGA 
    AGCCCCAGAA GGTCACCAGT CCACCCAGAG TCCAGTGAGG GTGAGGAACA CTCAGGACTC 
    TCACAGAGAC ATTCTGAATC TACTCACAGC CATGCTGCAC ATCAACATAG AGAGTCAGTT 
    CATGGGCAAC ATGGGAGTCC TCAAAGCCAG TTTCAGGACA GTAGTAGACA CCCTGACTCT 
    AGGCATGAAC GTTCCTCACA TTATGATGCC GCTATAACTC CCAGGAGTTC ACCTGTCCAC 
    CCTGATTCTA GTGATATTGA GTCCAGTGAG GAACAGGATG CCACCTCTCA AGGGCCTTCT 
    CAGGACAGAA GCCAACATCC TTTTTCCAGC TATGAAAAGC CCTCAAGTTC AGGTAGTGGT 
    CGAACACCTA GGAGATTTCC CATTCAGTCT GAGTCTAGTG AGAATGAGAG AAACTCAGTA 
    GTCCCCCAGA GACTCTCAGG ACCTACAAAA GAACAGACTC CATCTTTTCA ACAACATTCT 
    GATTCCAGTG ATCAAGAAAG AGGAGATTCT CCTCATGGGC ACTTAGGAGA TACTACAAAA 
    CAAGAACAAG TTCCTCATGA ACATTCCTCA CCATCTGTGT CCAGATCAAC TCCTAGGAAT 
    GCTATTCATC AGGAAGAGAG TTCCCATGCA GATCATTCCA ACATCTCTCA TAGGTTCTCG 
    GGATCCAAAC ATGGAACATC AGGGTACAGT CATACACTAT CACATAGTAC CCACTGGCAG 
    TCAAGGAACA GCATAAGCAA ACCATCAGGT ATAATATCTC GCCAATCTGG AACAAAGCAT 
    TTCCAGTCAC CGATTAGTGG AAACCAGTAT GATTCCAGTC AACACTGGAG ACATGGCAGC 
    TATGGCCGTG AAGACTATGA CTATGGGCAG ACAGGGTACG GACCATCTGG AGGTAGTGGA 
    ACTAGCAACC ACAATTCTAG TCCTATGAGG TCAACACATA GTGCCACAAA TATGCAAGCG 
    TCACAAAGGG GACAGTCTTT CTATTTTTCT GATCATGTAA GATCCAGAGC AAATGAAGGA 
    ATTTGA

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

    RefSeq XP_017451818.1
    CDS16..6981
    Translation

    Target ORF information:

    RefSeq Version XM_017596329.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus filaggrin family member 2 (Flg2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017596329.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    ATGCAAGGGG TGGGACTAAG TTTGATTAGA AATGAATCAG CCCATCCCAC AGAAGACAGC 
    AACCAAGCTA GAAGCTATAT AAGGGTCACT ATCCCAATTC ATCAACACCC TGCAAGCTGC 
    ATCAGGCCTT ATCCTACTTG TTCCTTTGGT GAACCAGGTT CATTGACAAA AACAAAGATG 
    ACATATCTCC TAAGAAGTGT TGTCACCATC ATTGATATAT TCTACAAATA CACCAAGCAA 
    GATGAAGAAT GTGGCACACT GAGCAAGAAT GAGCTAAAGG AACTGCTGGA GAAGGAGTTC 
    CGGCCAATTC TGAAGAATCC AGATGATCCA GACACAGTAG ATGTCATCAT GCATATGCTG 
    GATCGAGATC ATGACCGAAG GCTAGACTTT ACTGAGTTTA TTCTGATGGT ATTCAAACTG 
    GCTCTAGCCT GCAACAAGGT TCTTGGAAAA GAATACTGTA AAGCTTCAGG GTCAAAGAAG 
    CATAGGCGTG GCCATCAACA GCAAGAGGAA GAAAGTGAAA CAGGCGAAGA AGAGGAGACA 
    CCAAGACAGA AATCAGGTTT CAAATATTCA AGATGGAATG AGGGAGAAGA GCATGGACAT 
    AGTTCTGGGG GCTCATGGGG ACGTGCAAAG TATAGACGTG GGTCCAACTC TAGGAAGGTG 
    GAAAGGCAAG ATGAATTATC CAGCTTAGAG CAGTCAAGGA ATCATGGGTT TATCTCTGGT 
    CACTCTTGGA GTAGTAACAA AGAGAACCAT GGTTCAAAAT CTGAAGAGCG AGGAGAAAAA 
    AGAGACAAGT CACATGGTAG CCCCTCTAGA GAATCTGGGG AAGACTATGA GTCTGGATCC 
    AGGTTAAACC ATCAGGGAAG GAAAGACCAT AGTGAACTGT TACATGGATT GGAGAAAAAC 
    AAACATGAAT CAAATTATAC TCAGTCAAGA GAGGGTGTAG AACAAAAGCT TGGGTATAAT 
    TCTGCAAGTT CAGGAAACAG TAAGATACAA AGTCATATAT GTGGTTTCAG CAGTTCTAGT 
    GGATGTTGCA GACCACAAAA TGCTTCAAGT TCTTGTCAGA CAAGTAGATC AGGGTGGCAA 
    GGCTATCAGT CTTGCTGTAC CCAGTCAAAT TGTCAATCAG GAACTAGTGG AGGACAAGGA 
    TATGGATGTG TCTCAGAAGG TCAGTCCTCT AGATGTTGTC AACCTAAACC TAGATCCTGT 
    AGCCAGTCTT CTAGTCAGAG AGGTTATGGA TCTAAACAAT GTGGTCAACC ACAGAACTGT 
    GGAAGACAAC AGAGAACGGG TTCAAGTCAC TCTTCTTGCT GTGGACGATA TGGGTCTGGA 
    ACAACTCAAT CTTCTGGTTA TGGTCAACAG GGAACGAGGT CCTGTGGACA ATCTTCAAGC 
    TCTCATCAAA AGGGATGTAG ATCAAATGAA TTTTCCAAAG GCGGTCAGCA TGGGTCTGGT 
    TCAGGGCACT CACCCTGCTG TGAACAACAT GGAACAAACT CAAGTCAGTC CTCTGGCTTT 
    AAACAACATG GACACGAATC AGGTCAGTCA TGCTGTGGCC AACATAGTAC TGCATCAGGT 
    CATTCCTCGG GTTATGGTCA ACATGGTGTT GGCTCAGGTC AGTCATGTCA CTTTGGGCAG 
    CATGGGTCCA GTTCTGGTCA GTCCTCTATT TCTGGGCACC ATGGATCTGG TTCTCATCAG 
    TCGTCTAGTT CTGGGCATCA TGGATCTGGC TCAGGTCAGC CATCTGGCTT TGGGGAGCAT 
    GGGTCTGGTT CTCATCAGTC ATCTAGTTCT GGGCATTATG GATCTGGCTC AAGTCAGTCA 
    TCTGGCTTTG GGAAGCATGG GTCTGGTTCT CATCAGCCGT CTAGTTCTGG GCATCATGGA 
    TCTAGCTCAA GTCAGTCATC TGGCTTTGGG AAGCATGGGT CTGGTTCCCA TCAGTCGTCT 
    AGTTCTGAGC ATCATGGATC TGGCTCAAGT CAGCCATCTG GATTTGGGGA GCATGGGTCT 
    GGTTCCCATC AGTCGTCTAG TTCTGAGCAT CATGGATCTG GCTCAAGTCA GCCATCTGGA 
    TTTGGGGAGC ATGGGTCTGG TTCCCATCAG TCGTCTAGTT CTGAGCATCA TGGATCTGGC 
    TCAGGTCAGC CATCTGGCTT TGGGAAGCAT GGGTCTGGTT CTCATCAGCC GTCTAGTTCT 
    GGGCATCATG GATCTAGCTC AAGTCAGTCA TCCGGCTTTG GGAAGCATGG GTCTGGTTCC 
    CATCAGTCGT CTAGTTCTGA GCATCATGGA TCTGGCTCAA GTCAGCCATC TGGATTTGGG 
    GAGCATGGGT CTGGTTCCCA TCAGTCGTCT AGTTCTGAGC ATCATGGATC TGGCTCAAGT 
    CAGCCATCTG GATTTGGGGA GCATGGGTCT GGTTCTCATC AGTCATCTAG TTCTGAGCAT 
    CATGGATCTG GCTCAGGTCA GCCATCTGGC TTTGGGAAGC ATGGGTCTGG TTCTCATCAG 
    CCGTCTAGTT CTGGGCATCA TGGATCTAGC TCAAGTCAGT CATCCGGCTT TGGGAAGCAT 
    GGGTCTGGTT CTCATCAGTC GTCTAGTTCT GAGCATCATG GATCTGGCTC AGGTCAGCCA 
    TCTGGGTCTG AGCAGCGTGG TGCTGGCTCA AGTCACTCAT CTGGCTTTGG GGAGCATGGA 
    TCTGGTTCTC ATCAGTCATC TAGTTCTGAG CATCATGGAT CTGGCTCAGG TCAGCCATCT 
    GGCTTTGGGG AGCATGGGTC TGGTTCTCAT CATTGGTCTA GTTCTGGGCA TTATGGATCT 
    GGCTCAGGTC AGCCATCTGG CTTTGGGAAG CATGGGTCTG GTTCTCATCA GTCATCTAGT 
    TCTGAGCATC ATGGATCTGG CTCAAGTCAG CCATCTGGCT TTGGGGAGCA TGGGTCTGGT 
    TCTCATCATT GGTCTAGTTC TGGGCATTAT GGATCTGGCT CAGGTCAGCC ATCTGGCTTT 
    GGGAAACATG AGTACAGTAC TCATCAGCCA ACTAGTTCTG GGTATCATGA ATCTGGCTCA 
    GGTCCATCAT CAAGATCTTG GCAGCATAGG ACTGGCTCAG GCCAGTCATT TGGCTTTGGG 
    GAACATGAAT CTGGACCAGA TCAGTCTTCT AGCTCTTGGC GACATTGGAC TAGCTCAGGC 
    CAGTCTCAAT ATGATAATCC AAGACACACA TACACTAGGA GAACTAAAAG AAGGGAACAA 
    GCACAGCCTG AGTCCAATAA CAGTGAAGAC CACTCAGTAG TGGCACAGAG ACAATCAGGG 
    TACACTTATG GTCATAAAGA ATTTCAACAT GGAGAATCTC TTCAGAGAGA AGATGAAACA 
    TCTCAAAGGC AATCTCAGGA GAGCAGTAGA AAGCCTCAAT CAGGAAAAAA AGAGCCATTA 
    CATTCAGACA CAAGCAAGGA AGCAAAAAGG CCACAATTCA ACACCGAGAC AAGTGAAGGT 
    GAAGAATACA CAATAGTCCC ACAGAGAGAT TCAGGATACA CTCAGAGTCA TGCTAGACAT 
    CAGCATAGAG AGTCAGTTCA AGGGCAACAG GGGAGTCCTC AAAGCCAGTT TCAGGACAGC 
    AGTAGACATC CTCAGCACAG GCCTCAACAG CCCTCACCTT CTCATTCTGA CAGAACACCA 
    GGGAGGTCAC CAGTCCACCC TGAGTCCAGT GAAGGTGAGG AACACACCGA AGCCTCACAG 
    AGGCACTCTC GATCCACACA GCGACAATCT AGACTTCAAC ATGGAGAGTC AATTCATGGA 
    CAACATGGGA GTCCTCAAAG GCAGGGTCAG GACAGTAGTA GACAGCCTCA GTACGGTCAT 
    GAAGGACCCT CACATTCAGG CTCTAGTAGA AGCCCCAGAA GGTCACCAGT CCACCCAGAG 
    TCCAGTGAAG GTGAGGAACA CTCAGAAGCC TCACAGAGAC ATAGTGGATC CACTCACAGC 
    CATGTTGCAC ATCAACATAG AGAGTCAGCT TGTGGACAAC ATGGGAGTCC TCAAAGTCAG 
    TTTCAGGACA GCACTGGACA TCCTCAATCA AGGCATGAAC AACCCTCACA TGCTGGTGGT 
    GGTAGAACTC CCAAGAGGTC ACCTGTCCAC CCTGAGTCAA GTGAAGGTGA GGAACACTTA 
    GAAATCTCAC AGAGACACAC TGGATCCACA CAGGGACATT CTAGACCTCA CCATGGAGAA 
    ACAGTTCATG GACAAAGGCA GTTTCCAGAT AGTAGTAGAC AGCCTCAATC CAGGCATGAT 
    GAGCCCTCAC ATTCAGGTAC TGGTAGAACT CCCAGAAGAT CACCAGTCCA CCCTGAGTCC 
    AGTGAGGGTG AGGAACACTC AGGATTCTCA CAGAGACATT CTGAGTCCAC TCACAGGCAA 
    GCGGGACATC AACATAGAGA GTCAGGTCAT GGGCAACATG GGAGTCCTCA AAGCCAGTGC 
    CAGGACGCCA CTGGACATCC TCAGCAAAGG CATGAACAGC CCTCACCTTC TAATGCTGGA 
    GGAACACCAG GGAGATCACC AGTTCACCCT GAGTCCAGTG AAGGTGAGGA ACACTCAGGA 
    TTCTCACAGA GACATTCTGA ATCTGCTCAC AGCCATGCTG GACATGAGCA TAGAGAGTCA 
    GTTCAAGGGC AACATGGGAG TCCTCAAAGC CAGTGCCAGG ACGCCACTGG ACATCCTCAG 
    CAAAGGCATG AACAGCCCTC ACCTTCTAAT GCTGGAGGGA CACCAGGGAG ATCACCAGTT 
    CACCCTGAGT CCAGTGAAGG TGAGGAACAC TCAGGATTCT CACAGAGACA TTCTGAATCT 
    GCTCACAGCC ATGCTGGTCA TCAGCATAGA GAGTCAGTTC AAGGGCAACA TGGGAGTCCT 
    CAAAGCCAGT TTCAGGACAG CAGTAGACAT CCTCAGCACA GGCCTCAACA GCCCTCACCT 
    TCTCATTCTC ATAGGACACC AGGGAGGTCA TCAGTCCACC CTGAGTCCCG TGAAGGTGAG 
    GAACACCCCG AAGCCTCACA GAGGCACTCT CGATCCACAC AGCGACAATC TAGACTTCAA 
    CATGGAGAGT CAGTTCATGG ACAACATGGG AGTCCTCAAA GGCAGGGTCA GGACAGTAGT 
    AGACAGCCTC AGTACGGTCA TGAAGGACCC TCACATTCAG GCTCTAGTAG AAGCCCCAGA 
    AGGTCACCAG TCCACCCAGA GTCCAGTGAG GGTGAGGAAC ACTCAGAAGC CTCACAGAGA 
    CACAGTGGAT CCACTCACAG CCATGCTGCA CATCAACATA GAGAGTCAGT TTGTGGACAA 
    CATGGGAGTC CTCAAAGTCA GTTTCAGGAC AGCACTGGAC ATCCTCAATC AAGGCATGAA 
    CAACCCTCAC ATGCTGGTGG TGGTAGAACT CCCAAGAGGT CACCGGTCCA CCCTGAGTCA 
    AGTGAAGGTG AGGAACACTT AGAAATCTCA CAGAAACACA CTGGATCCAC ACAGGGACAT 
    TCTAGACCTC ACCATGGAGA AACAGTTCAT GGACAAAGGC AGTTTCCAGA TAGTACTAGA 
    CAGCCTCAAT CCAGGCATGA TGAGCCCTCA CATTCAGGTA CTGGTAGAAC TCCCAGAAGA 
    TCACCAGTCC ATCCTGAGTC CAGTGAGGGT GAGGAGCACT CAGGATTCTC ACAGAGACAT 
    TCTGAGTCCA CTCACAGGCA AGCGGGACAT CAACATAGAG AGTCAGGTCA TGGGCAACAT 
    GGGAGTCCTC GAAGCCAGTT TCAGGACAGC AGTAGACATC CTCAGCACAG GCCTCAACAG 
    CCCTCACCTT CTCATTCTGA TAGAACACCA GGGAGGTCAC CAGTCCACCC TGAGTCCAGT 
    GAAGGTGAGG AACACACCGA AGCCTCACAG AGGCACTCTC GATCCACACA GCGACAATCT 
    AGACTTCAAC ATGGAGAGTC AATTCATGGA CAACATGGGA GTCCTCAAAG GCAGGGTCAG 
    GACAGTAGTA GACAGCCTCG GTATGGTCAT GAAGGACCCT CACATTCAGG CTCTAGTAGA 
    AGCCCCAGAA GGTCACCAGT CCACCCAGAG TCCAGTGAGG GTGAGGAACA CTCAGGACTC 
    TCACAGAGAC ATTCTGAATC TACTCACAGC CATGCTGCAC ATCAACATAG AGAGTCAGTT 
    CATGGGCAAC ATGGGAGTCC TCAAAGCCAG TTTCAGGACA GTAGTAGACA CCCTGACTCT 
    AGGCATGAAC GTTCCTCACA TTATGATGCC GCTATAACTC CCAGGAGTTC ACCTGTCCAC 
    CCTGATTCTA GTGATATTGA GTCCAGTGAG GAACAGGATG CCACCTCTCA AGGGCCTTCT 
    CAGGACAGAA GCCAACATCC TTTTTCCAGC TATGAAAAGC CCTCAAGTTC AGGTAGTGGT 
    CGAACACCTA GGAGATTTCC CATTCAGTCT GAGTCTAGTG AGAATGAGAG AAACTCAGTA 
    GTCCCCCAGA GACTCTCAGG ACCTACAAAA GAACAGACTC CATCTTTTCA ACAACATTCT 
    GATTCCAGTG ATCAAGAAAG AGGAGATTCT CCTCATGGGC ACTTAGGAGA TACTACAAAA 
    CAAGAACAAG TTCCTCATGA ACATTCCTCA CCATCTGTGT CCAGATCAAC TCCTAGGAAT 
    GCTATTCATC AGGAAGAGAG TTCCCATGCA GATCATTCCA ACATCTCTCA TAGGTTCTCG 
    GGATCCAAAC ATGGAACATC AGGGTACAGT CATACACTAT CACATAGTAC CCACTGGCAG 
    TCAAGGAACA GCATAAGCAA ACCATCAGGT ATAATATCTC GCCAATCTGG AACAAAGCAT 
    TTCCAGTCAC CGATTAGTGG AAACCAGTAT GATTCCAGTC AACACTGGAG ACATGGCAGC 
    TATGGCCGTG AAGACTATGA CTATGGGCAG ACAGGGTACG GACCATCTGG AGGTAGTGGA 
    ACTAGCAACC ACAATTCTAG TCCTATGAGG TCAACACATA GTGCCACAAA TATGCAAGCG 
    TCACAAAGGG GACAGTCTTT CTATTTTTCT GATCATGTAA GATCCAGAGC AAATGAAGGA 
    ATTTGA

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

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