Nfrkb cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Nfrkb gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Nfrkb 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
OMv08552 XM_021172117.2
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv08553 XM_021172118.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv08554 XM_021172119.2
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMv75780 XM_029481197.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75780 XM_029481196.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75780 XM_029481194.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75781 XM_029481198.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75782 XM_029481199.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75783 XM_029481200.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75784 XM_029481201.1
Latest version!
Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
View Old Accession Versions >>
OMv08554 XM_021172119.1 Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMv08552 XM_021172117.1 Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

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 OMv08552
    Clone ID Related Accession (Same CDS sequence) XM_021172117.2 , XM_021172117.1
    Accession Version XM_021172117.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021172117.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    GAAAATGAAG ACAGCTCAGA TGCCATGACA CCTGTCCCTC GAGTAAGAAC TGACTATGTG
    GTTCGGCCTA GCACAGGAGA GGAGAAACGG GTTTTTCAAG AACAGGAGCG TTACAGGTAT
    AGCCAACCCC ATAAGGCATT CACCTTTCGC ATGCATGGCT TTGAGTCTGT GGTGGGGCCA
    GTGAAGGGCG TGTTTGACAA GGAGACCTCC CTCAACAAGG CTCGTGAGCA TTCACTGCTG
    CGCTCTGACC GGCCTGCCTA TGTCACCATT CTGTCTCTTG TTCGGGATGC TGCAGCTCGG
    CTGCCTAATG GAGAAGGCAC TCGGGCAGAG ATCTGTGAAC TGCTCAAGGA CTCTCAGTTT
    CTGGCTCCAG ATGTCACCAG CACTCAGGTG AACACAGTGG TGAGTGGTGC ACTGGATCGA
    TTGCATTATG AGAAAGACCC TTGTGTGAAA TATGACATTG GTCGGAAGCT GTGGATCTAC
    CTGCATCGTG ACCGGAGTGA GGAAGAGTTT GAACGGATTC ATCAAGCTCA AGCAGCGGCA
    GCTAAAGCCA GAAAAGCTCT TCAACAAAAA CCCAAGCCGC CATCCAAGGT GAAGTCCAGT
    AATAAGGAGG GCTCCACGAA GGGCCTTAGC GGTCCTTCCG AGCAGAGCCA GATGAGCCTC
    AGTGACTCTA GCATGCCACC AACCCCAGTT ACGCCTGTAA CACCCACCAC GCCAGCATTG
    CCCACCCCCA TCTCTCCTCC ACCTGTGTCA GCGGTGAACA GAAGTGGCTC TACCACTGTC
    TCTGAGCCAG CCAAGTCTAG TTCAGGTGTT CTTCTGGTGT CCTCACCAAC AATGCCACAG
    CTAGGGACGA TGCTTTCCCC AGCTTCCATC CAGACTCCAC CCAGTTCTCA GGCCACTGCT
    CGGGTCGTCA GCCATTCCAG CTCAGCAGGA CTACCCCAGG TTCGGGTGGT AGCCCAGCCC
    AGCCTTCCTG CTGTTTCCCA GCAGTCGGTA GGGCCAGCAC AGCCACTACC CCAGATGCCA
    GCAGGGCCAC AGATTCGTGT GCCAGTCACT GCTACCCAAA CCAAAGTAGT ACCCCAGGCA
    GTTATGGCAA CAGTTCCAGT CAAGGGGCAA ACTGCAGCAG CCTCTGTGCA ACGGCCTGGA
    CCTGGGCAGA CAGGGCTCAC AGTGACGAAT CTTCCGGCTG CAGTCAGCCC CGTGAGCAAG
    ACAGCCATGA GTTCTCCTGG GAACTCTGCT CCAAGTGCCT CCACCACAGC CGTTATTCAG
    AATGTCACAG GACAGAACAT CATCAAGCAG GTGTCGATCA CTGGACAGCT TGGTGTGAAG
    CCCCAGACAG GCAGCAGCAT TCCACTCACA GCCACAAACT TCCGTATCCA GGGTAAGGAT
    GTACTGCGCC TGCCGCCTTC TTCCATCACC ACAGATGCCA AGGGCCAGAC GGTTTTGAGA
    ATCACTCCAG ACATGATGGC CACATTGGCC AAGTCTCAGG TTACCACAGT CAAACTGACT
    CAGGACCTCT TTGGGGCAGG AAGTGGCACT TCAGGCAAAG GCATCTCTGC TACTTTGCAT
    GTTACTTCCA ACCCTGTCCA CGCAGCTGAC AGCCCTGCCA AGGCCCCTTC AGCCAGTGTT
    CCTTCATCAG CTCCAGCAGG TACTACTGTG GTCAAAGTAA CTCCTGAGCT CAAGCCAACA
    GAAACTTCAA ATTCAGCTTT TCGCTTGATG CCAGCTCTTG GTGTAAGTGT GGCAGATCAG
    AAGGGAAAGA ACACAGTGGC CTCTTCAGAA GCAAAACCCG CCGCCACAAT CCGCATTGTG
    CAGGGGCTGG GAGTGATGCC TCCTAAAGCA GGCCAGACCA TTACTGTTGC AGCACATGCA
    AAGCAAGGAG CCTCTGTTGC TGGAGGGTCT GGAACTGTGC ATTCCTCAAC GGTGTCCTTA
    CCCAGTATAA ATGCCGCTGT GTCAAAGACT GTGGCTGTGG CTTCTGGGGC AACAAGCACC
    CCCATCAGCA TCGGGACTGG AGCCCCCACT GTGCGACAGG TTCCTGTTAA CACTACAGTT
    GTGTCCACAT CCCAGTCTGG GAAACTGCCT ACCAGAATCA CAGTTCCTCT CTCTGTGATT
    AGCCAGCCAA TGAAGGGCAA GAGCGTGGTC ACAGCCCCCA TCATCAAAGG CAACCTTGGA
    GCCAATCTCA GTGGGCTGGG TCGAAACATC ATCCTCACGA CCATGCCAGC AGGTACTAAG
    CTCATTGCTG GCAATAAGCC AGTGAGTTTC CTCACTGCTC AGCAGTTGCA GCAGCTTCAG
    CAACAAGGTC AGGCTACGCA GGTGCGCATC CAGACCGTCC CAGCATCCCA TCTGCAACAG
    GGCACGGCTT CTGGCTCCTC CAAAGCAGTG TCCACTGTTG TTGTGACCAC AGCTCCATCT
    CCTAAACAAG CACCTGAGCA GCAGTGA

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

    RefSeq XP_021027776.1
    CDS114..4040
    Translation

    Target ORF information:

    RefSeq Version XM_021172117.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021172117.2

    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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    GAAAATGAAG ACAGCTCAGA TGCCATGACA CCTGTCCCTC GAGTAAGAAC TGACTATGTG
    GTTCGGCCTA GCACAGGAGA GGAGAAACGG GTTTTTCAAG AACAGGAGCG TTACAGGTAT
    AGCCAACCCC ATAAGGCATT CACCTTTCGC ATGCATGGCT TTGAGTCTGT GGTGGGGCCA
    GTGAAGGGCG TGTTTGACAA GGAGACCTCC CTCAACAAGG CTCGTGAGCA TTCACTGCTG
    CGCTCTGACC GGCCTGCCTA TGTCACCATT CTGTCTCTTG TTCGGGATGC TGCAGCTCGG
    CTGCCTAATG GAGAAGGCAC TCGGGCAGAG ATCTGTGAAC TGCTCAAGGA CTCTCAGTTT
    CTGGCTCCAG ATGTCACCAG CACTCAGGTG AACACAGTGG TGAGTGGTGC ACTGGATCGA
    TTGCATTATG AGAAAGACCC TTGTGTGAAA TATGACATTG GTCGGAAGCT GTGGATCTAC
    CTGCATCGTG ACCGGAGTGA GGAAGAGTTT GAACGGATTC ATCAAGCTCA AGCAGCGGCA
    GCTAAAGCCA GAAAAGCTCT TCAACAAAAA CCCAAGCCGC CATCCAAGGT GAAGTCCAGT
    AATAAGGAGG GCTCCACGAA GGGCCTTAGC GGTCCTTCCG AGCAGAGCCA GATGAGCCTC
    AGTGACTCTA GCATGCCACC AACCCCAGTT ACGCCTGTAA CACCCACCAC GCCAGCATTG
    CCCACCCCCA TCTCTCCTCC ACCTGTGTCA GCGGTGAACA GAAGTGGCTC TACCACTGTC
    TCTGAGCCAG CCAAGTCTAG TTCAGGTGTT CTTCTGGTGT CCTCACCAAC AATGCCACAG
    CTAGGGACGA TGCTTTCCCC AGCTTCCATC CAGACTCCAC CCAGTTCTCA GGCCACTGCT
    CGGGTCGTCA GCCATTCCAG CTCAGCAGGA CTACCCCAGG TTCGGGTGGT AGCCCAGCCC
    AGCCTTCCTG CTGTTTCCCA GCAGTCGGTA GGGCCAGCAC AGCCACTACC CCAGATGCCA
    GCAGGGCCAC AGATTCGTGT GCCAGTCACT GCTACCCAAA CCAAAGTAGT ACCCCAGGCA
    GTTATGGCAA CAGTTCCAGT CAAGGGGCAA ACTGCAGCAG CCTCTGTGCA ACGGCCTGGA
    CCTGGGCAGA CAGGGCTCAC AGTGACGAAT CTTCCGGCTG CAGTCAGCCC CGTGAGCAAG
    ACAGCCATGA GTTCTCCTGG GAACTCTGCT CCAAGTGCCT CCACCACAGC CGTTATTCAG
    AATGTCACAG GACAGAACAT CATCAAGCAG GTGTCGATCA CTGGACAGCT TGGTGTGAAG
    CCCCAGACAG GCAGCAGCAT TCCACTCACA GCCACAAACT TCCGTATCCA GGGTAAGGAT
    GTACTGCGCC TGCCGCCTTC TTCCATCACC ACAGATGCCA AGGGCCAGAC GGTTTTGAGA
    ATCACTCCAG ACATGATGGC CACATTGGCC AAGTCTCAGG TTACCACAGT CAAACTGACT
    CAGGACCTCT TTGGGGCAGG AAGTGGCACT TCAGGCAAAG GCATCTCTGC TACTTTGCAT
    GTTACTTCCA ACCCTGTCCA CGCAGCTGAC AGCCCTGCCA AGGCCCCTTC AGCCAGTGTT
    CCTTCATCAG CTCCAGCAGG TACTACTGTG GTCAAAGTAA CTCCTGAGCT CAAGCCAACA
    GAAACTTCAA ATTCAGCTTT TCGCTTGATG CCAGCTCTTG GTGTAAGTGT GGCAGATCAG
    AAGGGAAAGA ACACAGTGGC CTCTTCAGAA GCAAAACCCG CCGCCACAAT CCGCATTGTG
    CAGGGGCTGG GAGTGATGCC TCCTAAAGCA GGCCAGACCA TTACTGTTGC AGCACATGCA
    AAGCAAGGAG CCTCTGTTGC TGGAGGGTCT GGAACTGTGC ATTCCTCAAC GGTGTCCTTA
    CCCAGTATAA ATGCCGCTGT GTCAAAGACT GTGGCTGTGG CTTCTGGGGC AACAAGCACC
    CCCATCAGCA TCGGGACTGG AGCCCCCACT GTGCGACAGG TTCCTGTTAA CACTACAGTT
    GTGTCCACAT CCCAGTCTGG GAAACTGCCT ACCAGAATCA CAGTTCCTCT CTCTGTGATT
    AGCCAGCCAA TGAAGGGCAA GAGCGTGGTC ACAGCCCCCA TCATCAAAGG CAACCTTGGA
    GCCAATCTCA GTGGGCTGGG TCGAAACATC ATCCTCACGA CCATGCCAGC AGGTACTAAG
    CTCATTGCTG GCAATAAGCC AGTGAGTTTC CTCACTGCTC AGCAGTTGCA GCAGCTTCAG
    CAACAAGGTC AGGCTACGCA GGTGCGCATC CAGACCGTCC CAGCATCCCA TCTGCAACAG
    GGCACGGCTT CTGGCTCCTC CAAAGCAGTG TCCACTGTTG TTGTGACCAC AGCTCCATCT
    CCTAAACAAG CACCTGAGCA GCAGTGA

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

    CloneID OMv08552
    Clone ID Related Accession (Same CDS sequence) XM_021172117.2 , XM_021172117.1
    Accession Version XM_021172117.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    GAAAATGAAG ACAGCTCAGA TGCCATGACA CCTGTCCCTC GAGTAAGAAC TGACTATGTG
    GTTCGGCCTA GCACAGGAGA GGAGAAACGG GTTTTTCAAG AACAGGAGCG TTACAGGTAT
    AGCCAACCCC ATAAGGCATT CACCTTTCGC ATGCATGGCT TTGAGTCTGT GGTGGGGCCA
    GTGAAGGGCG TGTTTGACAA GGAGACCTCC CTCAACAAGG CTCGTGAGCA TTCACTGCTG
    CGCTCTGACC GGCCTGCCTA TGTCACCATT CTGTCTCTTG TTCGGGATGC TGCAGCTCGG
    CTGCCTAATG GAGAAGGCAC TCGGGCAGAG ATCTGTGAAC TGCTCAAGGA CTCTCAGTTT
    CTGGCTCCAG ATGTCACCAG CACTCAGGTG AACACAGTGG TGAGTGGTGC ACTGGATCGA
    TTGCATTATG AGAAAGACCC TTGTGTGAAA TATGACATTG GTCGGAAGCT GTGGATCTAC
    CTGCATCGTG ACCGGAGTGA GGAAGAGTTT GAACGGATTC ATCAAGCTCA AGCAGCGGCA
    GCTAAAGCCA GAAAAGCTCT TCAACAAAAA CCCAAGCCGC CATCCAAGGT GAAGTCCAGT
    AATAAGGAGG GCTCCACGAA GGGCCTTAGC GGTCCTTCCG AGCAGAGCCA GATGAGCCTC
    AGTGACTCTA GCATGCCACC AACCCCAGTT ACGCCTGTAA CACCCACCAC GCCAGCATTG
    CCCACCCCCA TCTCTCCTCC ACCTGTGTCA GCGGTGAACA GAAGTGGCTC TACCACTGTC
    TCTGAGCCAG CCAAGTCTAG TTCAGGTGTT CTTCTGGTGT CCTCACCAAC AATGCCACAG
    CTAGGGACGA TGCTTTCCCC AGCTTCCATC CAGACTCCAC CCAGTTCTCA GGCCACTGCT
    CGGGTCGTCA GCCATTCCAG CTCAGCAGGA CTACCCCAGG TTCGGGTGGT AGCCCAGCCC
    AGCCTTCCTG CTGTTTCCCA GCAGTCGGTA GGGCCAGCAC AGCCACTACC CCAGATGCCA
    GCAGGGCCAC AGATTCGTGT GCCAGTCACT GCTACCCAAA CCAAAGTAGT ACCCCAGGCA
    GTTATGGCAA CAGTTCCAGT CAAGGGGCAA ACTGCAGCAG CCTCTGTGCA ACGGCCTGGA
    CCTGGGCAGA CAGGGCTCAC AGTGACGAAT CTTCCGGCTG CAGTCAGCCC CGTGAGCAAG
    ACAGCCATGA GTTCTCCTGG GAACTCTGCT CCAAGTGCCT CCACCACAGC CGTTATTCAG
    AATGTCACAG GACAGAACAT CATCAAGCAG GTGTCGATCA CTGGACAGCT TGGTGTGAAG
    CCCCAGACAG GCAGCAGCAT TCCACTCACA GCCACAAACT TCCGTATCCA GGGTAAGGAT
    GTACTGCGCC TGCCGCCTTC TTCCATCACC ACAGATGCCA AGGGCCAGAC GGTTTTGAGA
    ATCACTCCAG ACATGATGGC CACATTGGCC AAGTCTCAGG TTACCACAGT CAAACTGACT
    CAGGACCTCT TTGGGGCAGG AAGTGGCACT TCAGGCAAAG GCATCTCTGC TACTTTGCAT
    GTTACTTCCA ACCCTGTCCA CGCAGCTGAC AGCCCTGCCA AGGCCCCTTC AGCCAGTGTT
    CCTTCATCAG CTCCAGCAGG TACTACTGTG GTCAAAGTAA CTCCTGAGCT CAAGCCAACA
    GAAACTTCAA ATTCAGCTTT TCGCTTGATG CCAGCTCTTG GTGTAAGTGT GGCAGATCAG
    AAGGGAAAGA ACACAGTGGC CTCTTCAGAA GCAAAACCCG CCGCCACAAT CCGCATTGTG
    CAGGGGCTGG GAGTGATGCC TCCTAAAGCA GGCCAGACCA TTACTGTTGC AGCACATGCA
    AAGCAAGGAG CCTCTGTTGC TGGAGGGTCT GGAACTGTGC ATTCCTCAAC GGTGTCCTTA
    CCCAGTATAA ATGCCGCTGT GTCAAAGACT GTGGCTGTGG CTTCTGGGGC AACAAGCACC
    CCCATCAGCA TCGGGACTGG AGCCCCCACT GTGCGACAGG TTCCTGTTAA CACTACAGTT
    GTGTCCACAT CCCAGTCTGG GAAACTGCCT ACCAGAATCA CAGTTCCTCT CTCTGTGATT
    AGCCAGCCAA TGAAGGGCAA GAGCGTGGTC ACAGCCCCCA TCATCAAAGG CAACCTTGGA
    GCCAATCTCA GTGGGCTGGG TCGAAACATC ATCCTCACGA CCATGCCAGC AGGTACTAAG
    CTCATTGCTG GCAATAAGCC AGTGAGTTTC CTCACTGCTC AGCAGTTGCA GCAGCTTCAG
    CAACAAGGTC AGGCTACGCA GGTGCGCATC CAGACCGTCC CAGCATCCCA TCTGCAACAG
    GGCACGGCTT CTGGCTCCTC CAAAGCAGTG TCCACTGTTG TTGTGACCAC AGCTCCATCT
    CCTAAACAAG CACCTGAGCA GCAGTGA

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

    RefSeq XP_021027776.1
    CDS6..3932
    Translation

    Target ORF information:

    RefSeq Version XM_021172117.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021172117.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    GAAAATGAAG ACAGCTCAGA TGCCATGACA CCTGTCCCTC GAGTAAGAAC TGACTATGTG
    GTTCGGCCTA GCACAGGAGA GGAGAAACGG GTTTTTCAAG AACAGGAGCG TTACAGGTAT
    AGCCAACCCC ATAAGGCATT CACCTTTCGC ATGCATGGCT TTGAGTCTGT GGTGGGGCCA
    GTGAAGGGCG TGTTTGACAA GGAGACCTCC CTCAACAAGG CTCGTGAGCA TTCACTGCTG
    CGCTCTGACC GGCCTGCCTA TGTCACCATT CTGTCTCTTG TTCGGGATGC TGCAGCTCGG
    CTGCCTAATG GAGAAGGCAC TCGGGCAGAG ATCTGTGAAC TGCTCAAGGA CTCTCAGTTT
    CTGGCTCCAG ATGTCACCAG CACTCAGGTG AACACAGTGG TGAGTGGTGC ACTGGATCGA
    TTGCATTATG AGAAAGACCC TTGTGTGAAA TATGACATTG GTCGGAAGCT GTGGATCTAC
    CTGCATCGTG ACCGGAGTGA GGAAGAGTTT GAACGGATTC ATCAAGCTCA AGCAGCGGCA
    GCTAAAGCCA GAAAAGCTCT TCAACAAAAA CCCAAGCCGC CATCCAAGGT GAAGTCCAGT
    AATAAGGAGG GCTCCACGAA GGGCCTTAGC GGTCCTTCCG AGCAGAGCCA GATGAGCCTC
    AGTGACTCTA GCATGCCACC AACCCCAGTT ACGCCTGTAA CACCCACCAC GCCAGCATTG
    CCCACCCCCA TCTCTCCTCC ACCTGTGTCA GCGGTGAACA GAAGTGGCTC TACCACTGTC
    TCTGAGCCAG CCAAGTCTAG TTCAGGTGTT CTTCTGGTGT CCTCACCAAC AATGCCACAG
    CTAGGGACGA TGCTTTCCCC AGCTTCCATC CAGACTCCAC CCAGTTCTCA GGCCACTGCT
    CGGGTCGTCA GCCATTCCAG CTCAGCAGGA CTACCCCAGG TTCGGGTGGT AGCCCAGCCC
    AGCCTTCCTG CTGTTTCCCA GCAGTCGGTA GGGCCAGCAC AGCCACTACC CCAGATGCCA
    GCAGGGCCAC AGATTCGTGT GCCAGTCACT GCTACCCAAA CCAAAGTAGT ACCCCAGGCA
    GTTATGGCAA CAGTTCCAGT CAAGGGGCAA ACTGCAGCAG CCTCTGTGCA ACGGCCTGGA
    CCTGGGCAGA CAGGGCTCAC AGTGACGAAT CTTCCGGCTG CAGTCAGCCC CGTGAGCAAG
    ACAGCCATGA GTTCTCCTGG GAACTCTGCT CCAAGTGCCT CCACCACAGC CGTTATTCAG
    AATGTCACAG GACAGAACAT CATCAAGCAG GTGTCGATCA CTGGACAGCT TGGTGTGAAG
    CCCCAGACAG GCAGCAGCAT TCCACTCACA GCCACAAACT TCCGTATCCA GGGTAAGGAT
    GTACTGCGCC TGCCGCCTTC TTCCATCACC ACAGATGCCA AGGGCCAGAC GGTTTTGAGA
    ATCACTCCAG ACATGATGGC CACATTGGCC AAGTCTCAGG TTACCACAGT CAAACTGACT
    CAGGACCTCT TTGGGGCAGG AAGTGGCACT TCAGGCAAAG GCATCTCTGC TACTTTGCAT
    GTTACTTCCA ACCCTGTCCA CGCAGCTGAC AGCCCTGCCA AGGCCCCTTC AGCCAGTGTT
    CCTTCATCAG CTCCAGCAGG TACTACTGTG GTCAAAGTAA CTCCTGAGCT CAAGCCAACA
    GAAACTTCAA ATTCAGCTTT TCGCTTGATG CCAGCTCTTG GTGTAAGTGT GGCAGATCAG
    AAGGGAAAGA ACACAGTGGC CTCTTCAGAA GCAAAACCCG CCGCCACAAT CCGCATTGTG
    CAGGGGCTGG GAGTGATGCC TCCTAAAGCA GGCCAGACCA TTACTGTTGC AGCACATGCA
    AAGCAAGGAG CCTCTGTTGC TGGAGGGTCT GGAACTGTGC ATTCCTCAAC GGTGTCCTTA
    CCCAGTATAA ATGCCGCTGT GTCAAAGACT GTGGCTGTGG CTTCTGGGGC AACAAGCACC
    CCCATCAGCA TCGGGACTGG AGCCCCCACT GTGCGACAGG TTCCTGTTAA CACTACAGTT
    GTGTCCACAT CCCAGTCTGG GAAACTGCCT ACCAGAATCA CAGTTCCTCT CTCTGTGATT
    AGCCAGCCAA TGAAGGGCAA GAGCGTGGTC ACAGCCCCCA TCATCAAAGG CAACCTTGGA
    GCCAATCTCA GTGGGCTGGG TCGAAACATC ATCCTCACGA CCATGCCAGC AGGTACTAAG
    CTCATTGCTG GCAATAAGCC AGTGAGTTTC CTCACTGCTC AGCAGTTGCA GCAGCTTCAG
    CAACAAGGTC AGGCTACGCA GGTGCGCATC CAGACCGTCC CAGCATCCCA TCTGCAACAG
    GGCACGGCTT CTGGCTCCTC CAAAGCAGTG TCCACTGTTG TTGTGACCAC AGCTCCATCT
    CCTAAACAAG CACCTGAGCA GCAGTGA

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

    CloneID OMv08553
    Clone ID Related Accession (Same CDS sequence) XM_021172118.1
    Accession Version XM_021172118.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3891bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG ATCTCAGCTC ATGGCTTCCA
    AGCTCTCCAG CACGTTCTCC TAGTCCTGCG GTGCCCCTGA GGGTGGTGCC CACGCTTTCC
    ACCACGGATA TGAAAACTGC AGATAAAATA GAACTGGGGG ACAGTGACCT GAAGTTAATG
    TTAAAGAAGC ACCATGAGAA GCGGAAACAT CAACCAGATC ACCCAGACCT TTTGACAGGG
    GACCTGACCC TCAGTGACAT CATGACTCGA GTAAATGCCG GCAGGAAGGG CTCCCTAGCA
    GCCTTGTATG ATTTGGCTGT TCTTAAAAAA AAGGTGAAGG AAAAGGAGGA GAAGAAAAAG
    AAGAAAATAA AGTTGATTAA GTCAGAAGCA GAGGATCTGG CTGAGCCCCT AAGCAATACT
    GAAGGGGTCC CAACTCTCTC ACAGGCCCCC TCTCCCCTGG CAATATCGTC TATCAAGGAA
    GAACCCCTGG AAGACATCAA GCCTTGCCTT GGAATCAATG AAATATCTTC CAGTTTTTTC
    TCTCTTCTGT TAGAGATCTT GCTGCTGGAA AGTCAGGCTA GCCTTCCTAT GCTGGAGGAT
    CGAGTTTTGG ACTGGCAGTC TTCTCCAGCC AGCTCCCTCA ACAGCTGGTT CTCTGCTGCC
    CCCAACTGGG CTGAGTTGGT GTTGCCTGCT CTGCAGTATC TTGCTGGAGA AAGCCGAGCG
    GTTCCTTCTA GTTTCTCTCC ATTTGTTGAA TTCAAAGAGA AAACCCAGCA GTGGAAATTG
    CTTGGTCAAT CTCAAGATAA CGAAAAGGAA TTAGCTGCTC TCTTCCACCT GTGGCTGGAA
    ACCAAAGACC AGGCCTTCTG TAAGGAAAAT GAAGACAGCT CAGATGCCAT GACACCTGTC
    CCTCGAGTAA GAACTGACTA TGTGGTTCGG CCTAGCACAG GAGAGGAGAA ACGGGTTTTT
    CAAGAACAGG AGCGTTACAG GTATAGCCAA CCCCATAAGG CATTCACCTT TCGCATGCAT
    GGCTTTGAGT CTGTGGTGGG GCCAGTGAAG GGCGTGTTTG ACAAGGAGAC CTCCCTCAAC
    AAGGCTCGTG AGCATTCACT GCTGCGCTCT GACCGGCCTG CCTATGTCAC CATTCTGTCT
    CTTGTTCGGG ATGCTGCAGC TCGGCTGCCT AATGGAGAAG GCACTCGGGC AGAGATCTGT
    GAACTGCTCA AGGACTCTCA GTTTCTGGCT CCAGATGTCA CCAGCACTCA GGTGAACACA
    GTGGTGAGTG GTGCACTGGA TCGATTGCAT TATGAGAAAG ACCCTTGTGT GAAATATGAC
    ATTGGTCGGA AGCTGTGGAT CTACCTGCAT CGTGACCGGA GTGAGGAAGA GTTTGAACGG
    ATTCATCAAG CTCAAGCAGC GGCAGCTAAA GCCAGAAAAG CTCTTCAACA AAAACCCAAG
    CCGCCATCCA AGGTGAAGTC CAGTAATAAG GAGGGCTCCA CGAAGGGCCT TAGCGGTCCT
    TCCGAGCAGA GCCAGATGAG CCTCAGTGAC TCTAGCATGC CACCAACCCC AGTTACGCCT
    GTAACACCCA CCACGCCAGC ATTGCCCACC CCCATCTCTC CTCCACCTGT GTCAGCGGTG
    AACAGAAGTG GCTCTACCAC TGTCTCTGAG CCAGCCAAGT CTAGTTCAGG TGTTCTTCTG
    GTGTCCTCAC CAACAATGCC ACAGCTAGGG ACGATGCTTT CCCCAGCTTC CATCCAGACT
    CCACCCAGTT CTCAGGCCAC TGCTCGGGTC GTCAGCCATT CCAGCTCAGC AGGACTACCC
    CAGGTTCGGG TGGTAGCCCA GCCCAGCCTT CCTGCTGTTT CCCAGCAGTC GGTAGGGCCA
    GCACAGCCAC TACCCCAGAT GCCAGCAGGG CCACAGATTC GTGTGCCAGT CACTGCTACC
    CAAACCAAAG TAGTACCCCA GGCAGTTATG GCAACAGTTC CAGTCAAGGG GCAAACTGCA
    GCAGCCTCTG TGCAACGGCC TGGACCTGGG CAGACAGGGC TCACAGTGAC GAATCTTCCG
    GCTGCAGTCA GCCCCGTGAG CAAGACAGCC ATGAGTTCTC CTGGGAACTC TGCTCCAAGT
    GCCTCCACCA CAGCCGTTAT TCAGAATGTC ACAGGACAGA ACATCATCAA GCAGGTGTCG
    ATCACTGGAC AGCTTGGTGT GAAGCCCCAG ACAGGCAGCA GCATTCCACT CACAGCCACA
    AACTTCCGTA TCCAGGGTAA GGATGTACTG CGCCTGCCGC CTTCTTCCAT CACCACAGAT
    GCCAAGGGCC AGACGGTTTT GAGAATCACT CCAGACATGA TGGCCACATT GGCCAAGTCT
    CAGGTTACCA CAGTCAAACT GACTCAGGAC CTCTTTGGGG CAGGAAGTGG CACTTCAGGC
    AAAGGCATCT CTGCTACTTT GCATGTTACT TCCAACCCTG TCCACGCAGC TGACAGCCCT
    GCCAAGGCCC CTTCAGCCAG TGTTCCTTCA TCAGCTCCAG CAGGTACTAC TGTGGTCAAA
    GTAACTCCTG AGCTCAAGCC AACAGAAACT TCAAATTCAG CTTTTCGCTT GATGCCAGCT
    CTTGGTGTAA GTGTGGCAGA TCAGAAGGGA AAGAACACAG TGGCCTCTTC AGAAGCAAAA
    CCCGCCGCCA CAATCCGCAT TGTGCAGGGG CTGGGAGTGA TGCCTCCTAA AGCAGGCCAG
    ACCATTACTG TTGCAGCACA TGCAAAGCAA GGAGCCTCTG TTGCTGGAGG GTCTGGAACT
    GTGCATTCCT CAACGGTGTC CTTACCCAGT ATAAATGCCG CTGTGTCAAA GACTGTGGCT
    GTGGCTTCTG GGGCAACAAG CACCCCCATC AGCATCGGGA CTGGAGCCCC CACTGTGCGA
    CAGGTTCCTG TTAACACTAC AGTTGTGTCC ACATCCCAGT CTGGGAAACT GCCTACCAGA
    ATCACAGTTC CTCTCTCTGT GATTAGCCAG CCAATGAAGG GCAAGAGCGT GGTCACAGCC
    CCCATCATCA AAGGCAACCT TGGAGCCAAT CTCAGTGGGC TGGGTCGAAA CATCATCCTC
    ACGACCATGC CAGCAGGTAC TAAGCTCATT GCTGGCAATA AGCCAGTGAG TTTCCTCACT
    GCTCAGCAGT TGCAGCAGCT TCAGCAACAA GGTCAGGCTA CGCAGGTGCG CATCCAGACC
    GTCCCAGCAT CCCATCTGCA ACAGGGCACG GCTTCTGGCT CCTCCAAAGC AGTGTCCACT
    GTTGTTGTGA CCACAGCTCC ATCTCCTAAA CAAGCACCTG AGCAGCAGTG A

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

    RefSeq XP_021027777.1
    CDS118..4008
    Translation

    Target ORF information:

    RefSeq Version XM_021172118.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021172118.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG ATCTCAGCTC ATGGCTTCCA
    AGCTCTCCAG CACGTTCTCC TAGTCCTGCG GTGCCCCTGA GGGTGGTGCC CACGCTTTCC
    ACCACGGATA TGAAAACTGC AGATAAAATA GAACTGGGGG ACAGTGACCT GAAGTTAATG
    TTAAAGAAGC ACCATGAGAA GCGGAAACAT CAACCAGATC ACCCAGACCT TTTGACAGGG
    GACCTGACCC TCAGTGACAT CATGACTCGA GTAAATGCCG GCAGGAAGGG CTCCCTAGCA
    GCCTTGTATG ATTTGGCTGT TCTTAAAAAA AAGGTGAAGG AAAAGGAGGA GAAGAAAAAG
    AAGAAAATAA AGTTGATTAA GTCAGAAGCA GAGGATCTGG CTGAGCCCCT AAGCAATACT
    GAAGGGGTCC CAACTCTCTC ACAGGCCCCC TCTCCCCTGG CAATATCGTC TATCAAGGAA
    GAACCCCTGG AAGACATCAA GCCTTGCCTT GGAATCAATG AAATATCTTC CAGTTTTTTC
    TCTCTTCTGT TAGAGATCTT GCTGCTGGAA AGTCAGGCTA GCCTTCCTAT GCTGGAGGAT
    CGAGTTTTGG ACTGGCAGTC TTCTCCAGCC AGCTCCCTCA ACAGCTGGTT CTCTGCTGCC
    CCCAACTGGG CTGAGTTGGT GTTGCCTGCT CTGCAGTATC TTGCTGGAGA AAGCCGAGCG
    GTTCCTTCTA GTTTCTCTCC ATTTGTTGAA TTCAAAGAGA AAACCCAGCA GTGGAAATTG
    CTTGGTCAAT CTCAAGATAA CGAAAAGGAA TTAGCTGCTC TCTTCCACCT GTGGCTGGAA
    ACCAAAGACC AGGCCTTCTG TAAGGAAAAT GAAGACAGCT CAGATGCCAT GACACCTGTC
    CCTCGAGTAA GAACTGACTA TGTGGTTCGG CCTAGCACAG GAGAGGAGAA ACGGGTTTTT
    CAAGAACAGG AGCGTTACAG GTATAGCCAA CCCCATAAGG CATTCACCTT TCGCATGCAT
    GGCTTTGAGT CTGTGGTGGG GCCAGTGAAG GGCGTGTTTG ACAAGGAGAC CTCCCTCAAC
    AAGGCTCGTG AGCATTCACT GCTGCGCTCT GACCGGCCTG CCTATGTCAC CATTCTGTCT
    CTTGTTCGGG ATGCTGCAGC TCGGCTGCCT AATGGAGAAG GCACTCGGGC AGAGATCTGT
    GAACTGCTCA AGGACTCTCA GTTTCTGGCT CCAGATGTCA CCAGCACTCA GGTGAACACA
    GTGGTGAGTG GTGCACTGGA TCGATTGCAT TATGAGAAAG ACCCTTGTGT GAAATATGAC
    ATTGGTCGGA AGCTGTGGAT CTACCTGCAT CGTGACCGGA GTGAGGAAGA GTTTGAACGG
    ATTCATCAAG CTCAAGCAGC GGCAGCTAAA GCCAGAAAAG CTCTTCAACA AAAACCCAAG
    CCGCCATCCA AGGTGAAGTC CAGTAATAAG GAGGGCTCCA CGAAGGGCCT TAGCGGTCCT
    TCCGAGCAGA GCCAGATGAG CCTCAGTGAC TCTAGCATGC CACCAACCCC AGTTACGCCT
    GTAACACCCA CCACGCCAGC ATTGCCCACC CCCATCTCTC CTCCACCTGT GTCAGCGGTG
    AACAGAAGTG GCTCTACCAC TGTCTCTGAG CCAGCCAAGT CTAGTTCAGG TGTTCTTCTG
    GTGTCCTCAC CAACAATGCC ACAGCTAGGG ACGATGCTTT CCCCAGCTTC CATCCAGACT
    CCACCCAGTT CTCAGGCCAC TGCTCGGGTC GTCAGCCATT CCAGCTCAGC AGGACTACCC
    CAGGTTCGGG TGGTAGCCCA GCCCAGCCTT CCTGCTGTTT CCCAGCAGTC GGTAGGGCCA
    GCACAGCCAC TACCCCAGAT GCCAGCAGGG CCACAGATTC GTGTGCCAGT CACTGCTACC
    CAAACCAAAG TAGTACCCCA GGCAGTTATG GCAACAGTTC CAGTCAAGGG GCAAACTGCA
    GCAGCCTCTG TGCAACGGCC TGGACCTGGG CAGACAGGGC TCACAGTGAC GAATCTTCCG
    GCTGCAGTCA GCCCCGTGAG CAAGACAGCC ATGAGTTCTC CTGGGAACTC TGCTCCAAGT
    GCCTCCACCA CAGCCGTTAT TCAGAATGTC ACAGGACAGA ACATCATCAA GCAGGTGTCG
    ATCACTGGAC AGCTTGGTGT GAAGCCCCAG ACAGGCAGCA GCATTCCACT CACAGCCACA
    AACTTCCGTA TCCAGGGTAA GGATGTACTG CGCCTGCCGC CTTCTTCCAT CACCACAGAT
    GCCAAGGGCC AGACGGTTTT GAGAATCACT CCAGACATGA TGGCCACATT GGCCAAGTCT
    CAGGTTACCA CAGTCAAACT GACTCAGGAC CTCTTTGGGG CAGGAAGTGG CACTTCAGGC
    AAAGGCATCT CTGCTACTTT GCATGTTACT TCCAACCCTG TCCACGCAGC TGACAGCCCT
    GCCAAGGCCC CTTCAGCCAG TGTTCCTTCA TCAGCTCCAG CAGGTACTAC TGTGGTCAAA
    GTAACTCCTG AGCTCAAGCC AACAGAAACT TCAAATTCAG CTTTTCGCTT GATGCCAGCT
    CTTGGTGTAA GTGTGGCAGA TCAGAAGGGA AAGAACACAG TGGCCTCTTC AGAAGCAAAA
    CCCGCCGCCA CAATCCGCAT TGTGCAGGGG CTGGGAGTGA TGCCTCCTAA AGCAGGCCAG
    ACCATTACTG TTGCAGCACA TGCAAAGCAA GGAGCCTCTG TTGCTGGAGG GTCTGGAACT
    GTGCATTCCT CAACGGTGTC CTTACCCAGT ATAAATGCCG CTGTGTCAAA GACTGTGGCT
    GTGGCTTCTG GGGCAACAAG CACCCCCATC AGCATCGGGA CTGGAGCCCC CACTGTGCGA
    CAGGTTCCTG TTAACACTAC AGTTGTGTCC ACATCCCAGT CTGGGAAACT GCCTACCAGA
    ATCACAGTTC CTCTCTCTGT GATTAGCCAG CCAATGAAGG GCAAGAGCGT GGTCACAGCC
    CCCATCATCA AAGGCAACCT TGGAGCCAAT CTCAGTGGGC TGGGTCGAAA CATCATCCTC
    ACGACCATGC CAGCAGGTAC TAAGCTCATT GCTGGCAATA AGCCAGTGAG TTTCCTCACT
    GCTCAGCAGT TGCAGCAGCT TCAGCAACAA GGTCAGGCTA CGCAGGTGCG CATCCAGACC
    GTCCCAGCAT CCCATCTGCA ACAGGGCACG GCTTCTGGCT CCTCCAAAGC AGTGTCCACT
    GTTGTTGTGA CCACAGCTCC ATCTCCTAAA CAAGCACCTG AGCAGCAGTG A

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

    CloneID OMv08554
    Clone ID Related Accession (Same CDS sequence) XM_021172119.1 , XM_021172119.2
    Accession Version XM_021172119.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3162bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAAAACTG CAGATAAAAT AGAACTGGGG GACAGTGACC TGAAGTTAAT GTTAAAGAAG 
    CACCATGAGA AGCGGAAACA TCAACCAGAT CACCCAGACC TTTTGACAGG GGACCTGACC
    CTCAGTGACA TCATGACTCG AGTAAATGCC GGCAGGAAGG GCTCCCTAGC AGCCTTGTAT
    GATTTGGCTG TTCTTAAAAA AAAGGTGAAG GAAAAGGAGG AGAAGAAAAA GAAGAAAATA
    AAGTTGATTA AGTCAGAAGC AGAGGATCTG GCTGAGCCCC TAAGCAATAC TGAAGGGGTC
    CCAACTCTCT CACAGGCCCC CTCTCCCCTG GCAATATCGT CTATCAAGGA AGAACCCCTG
    GAAGACATCA AGCCTTGCCT TGGAATCAAT GAAATATCTT CCAGTTTTTT CTCTCTTCTG
    TTAGAGATCT TGCTGCTGGA AAGTCAGGCT AGCCTTCCTA TGCTGGAGGA TCGAGTTTTG
    GACTGGCAGT CTTCTCCAGC CAGCTCCCTC AACAGCTGGT TCTCTGCTGC CCCCAACTGG
    GCTGAGTTGG TGTTGCCTGC TCTGCAGTAT CTTGCTGGAG AAAGCCGAGC GGTTCCTTCT
    AGTTTCTCTC CATTTGTTGA ATTCAAAGAG AAAACCCAGC AGTGGAAATT GCTTGGTCAA
    TCTCAAGATA ACGAAAAGGA ATTAGCTGCT CTCTTCCACC TGTGGCTGGA AACCAAAGAC
    CAGGCCTTCT GTAAGGAAAA TGAAGACAGC TCAGATGCCA TGACACCTGT CCCTCGAGTA
    AGAACTGACT ATGTGGTTCG GCCTAGCACA GGAGAGGAGA AACGGGTTTT TCAAGAACAG
    GAGCGTTACA GGTATAGCCA ACCCCATAAG GCATTCACCT TTCGCATGCA TGGCTTTGAG
    TCTGTGGTGG GGCCAGTGAA GGGCGTGTTT GACAAGGAGA CCTCCCTCAA CAAGGCTCGT
    GAGCATTCAC TGCTGCGCTC TGACCGGCCT GCCTATGTCA CCATTCTGTC TCTTGTTCGG
    GATGCTGCAG CTCGGCTGCC TAATGGAGAA GGCACTCGGG CAGAGATCTG TGAACTGCTC
    AAGGACTCTC AGTTTCTGGC TCCAGATGTC ACCAGCACTC AGGTGAACAC AGTGGTGAGT
    GGTGCACTGG ATCGATTGCA TTATGAGAAA GACCCTTGTG TGAAATATGA CATTGGTCGG
    AAGCTGTGGA TCTACCTGCA TCGTGACCGG AGTGAGGAAG AGTTTGAACG GATTCATCAA
    GCTCAAGCAG CGGCAGCTAA AGCCAGAAAA GCTCTTCAAC AAAAACCCAA GCCGCCATCC
    AAGGTGAAGT CCAGTAATAA GGAGGGCTCC ACGAAGGGCC TTAGCGGTCC TTCCGAGCAG
    AGCCAGATGA GCCTCAGTGA CTCTAGCATG CCACCAACCC CAGTTACGCC TGTAACACCC
    ACCACGCCAG CATTGCCCAC CCCCATCTCT CCTCCACCTG TGTCAGCGGT GAACAGAAGT
    GGCTCTACCA CTGTCTCTGA GCCAGCCAAG TCTAGTTCAG GTGTTCTTCT GGTGTCCTCA
    CCAACAATGC CACAGCTAGG GACGATGCTT TCCCCAGCTT CCATCCAGAC TCCACCCAGT
    TCTCAGGCCA CTGCTCGGGT CGTCAGCCAT TCCAGCTCAG CAGGACTACC CCAGGTTCGG
    GTGGTAGCCC AGCCCAGCCT TCCTGCTGTT TCCCAGCAGT CGGTAGGGCC AGCACAGCCA
    CTACCCCAGA TGCCAGCAGG GCCACAGATT CGTGTGCCAG TCACTGCTAC CCAAACCAAA
    GTAGTACCCC AGGCAGTTAT GGCAACAGTT CCAGTCAAGG GGCAAACTGC AGCAGCCTCT
    GTGCAACGGC CTGGACCTGG GCAGACAGGG CTCACAGTGA CGAATCTTCC GGCTGCAGTC
    AGCCCCGTGA GCAAGACAGC CATGAGTTCT CCTGGGAACT CTGCTCCAAG TGCCTCCACC
    ACAGCCGTTA TTCAGAATGT CACAGGACAG AACATCATCA AGCAGGTGTC GATCACTGGA
    CAGCTTGGTG TGAAGCCCCA GACAGGCAGC AGCATTCCAC TCACAGCCAC AAACTTCCGT
    ATCCAGGGTA AGGATGTACT GCGCCTGCCG CCTTCTTCCA TCACCACAGA TGCCAAGGGC
    CAGACGGTTT TGAGAATCAC TCCAGACATG ATGGCCACAT TGGCCAAGTC TCAGGTTACC
    ACAGTCAAAC TGACTCAGGA CCTCTTTGGG GCAGGAAGTG GCACTTCAGG CAAAGGCATC
    TCTGCTACTT TGCATGTTAC TTCCAACCCT GTCCACGCAG CTGACAGCCC TGCCAAGGCC
    CCTTCAGCCA GTGTTCCTTC ATCAGCTCCA GCAGGTACTA CTGTGGTCAA AGTAACTCCT
    GAGCTCAAGC CAACAGAAAC TTCAAATTCA GCTTTTCGCT TGATGCCAGC TCTTGGTGTA
    AGTGTGGCAG ATCAGAAGGG AAAGAACACA GTGGCCTCTT CAGAAGCAAA ACCCGCCGCC
    ACAATCCGCA TTGTGCAGGG GCTGGGAGTG ATGCCTCCTA AAGCAGGCCA GACCATTACT
    GTTGCAGCAC ATGCAAAGCA AGGAGCCTCT GTTGCTGGAG GGTCTGGAAC TGTGCATTCC
    TCAACGGTGT CCTTACCCAG TATAAATGCC GCTGTGTCAA AGACTGTGGC TGTGGCTTCT
    GGGGCAACAA GCACCCCCAT CAGCATCGGG ACTGGAGCCC CCACTGTGCG ACAGGTTCCT
    GTTAACACTA CAGTTGTGTC CACATCCCAG TCTGGGAAAC TGCCTACCAG AATCACAGTT
    CCTCTCTCTG TGATTAGCCA GCCAATGAAG GGCAAGAGCG TGGTCACAGC CCCCATCATC
    AAAGGCAACC TTGGAGCCAA TCTCAGTGGG CTGGGTCGAA ACATCATCCT CACGACCATG
    CCAGCAGGTA CTAAGCTCAT TGCTGGCAAT AAGCCAGTGA GTTTCCTCAC TGCTCAGCAG
    TTGCAGCAGC TTCAGCAACA AGGTCAGGCT ACGCAGGTGC GCATCCAGAC CGTCCCAGCA
    TCCCATCTGC AACAGGGCAC GGCTTCTGGC TCCTCCAAAG CAGTGTCCAC TGTTGTTGTG
    ACCACAGCTC CATCTCCTAA ACAAGCACCT GAGCAGCAGT GA

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

    RefSeq XP_021027778.1
    CDS1084..4245
    Translation

    Target ORF information:

    RefSeq Version XM_021172119.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021172119.1

    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
    ATGAAAACTG CAGATAAAAT AGAACTGGGG GACAGTGACC TGAAGTTAAT GTTAAAGAAG 
    CACCATGAGA AGCGGAAACA TCAACCAGAT CACCCAGACC TTTTGACAGG GGACCTGACC
    CTCAGTGACA TCATGACTCG AGTAAATGCC GGCAGGAAGG GCTCCCTAGC AGCCTTGTAT
    GATTTGGCTG TTCTTAAAAA AAAGGTGAAG GAAAAGGAGG AGAAGAAAAA GAAGAAAATA
    AAGTTGATTA AGTCAGAAGC AGAGGATCTG GCTGAGCCCC TAAGCAATAC TGAAGGGGTC
    CCAACTCTCT CACAGGCCCC CTCTCCCCTG GCAATATCGT CTATCAAGGA AGAACCCCTG
    GAAGACATCA AGCCTTGCCT TGGAATCAAT GAAATATCTT CCAGTTTTTT CTCTCTTCTG
    TTAGAGATCT TGCTGCTGGA AAGTCAGGCT AGCCTTCCTA TGCTGGAGGA TCGAGTTTTG
    GACTGGCAGT CTTCTCCAGC CAGCTCCCTC AACAGCTGGT TCTCTGCTGC CCCCAACTGG
    GCTGAGTTGG TGTTGCCTGC TCTGCAGTAT CTTGCTGGAG AAAGCCGAGC GGTTCCTTCT
    AGTTTCTCTC CATTTGTTGA ATTCAAAGAG AAAACCCAGC AGTGGAAATT GCTTGGTCAA
    TCTCAAGATA ACGAAAAGGA ATTAGCTGCT CTCTTCCACC TGTGGCTGGA AACCAAAGAC
    CAGGCCTTCT GTAAGGAAAA TGAAGACAGC TCAGATGCCA TGACACCTGT CCCTCGAGTA
    AGAACTGACT ATGTGGTTCG GCCTAGCACA GGAGAGGAGA AACGGGTTTT TCAAGAACAG
    GAGCGTTACA GGTATAGCCA ACCCCATAAG GCATTCACCT TTCGCATGCA TGGCTTTGAG
    TCTGTGGTGG GGCCAGTGAA GGGCGTGTTT GACAAGGAGA CCTCCCTCAA CAAGGCTCGT
    GAGCATTCAC TGCTGCGCTC TGACCGGCCT GCCTATGTCA CCATTCTGTC TCTTGTTCGG
    GATGCTGCAG CTCGGCTGCC TAATGGAGAA GGCACTCGGG CAGAGATCTG TGAACTGCTC
    AAGGACTCTC AGTTTCTGGC TCCAGATGTC ACCAGCACTC AGGTGAACAC AGTGGTGAGT
    GGTGCACTGG ATCGATTGCA TTATGAGAAA GACCCTTGTG TGAAATATGA CATTGGTCGG
    AAGCTGTGGA TCTACCTGCA TCGTGACCGG AGTGAGGAAG AGTTTGAACG GATTCATCAA
    GCTCAAGCAG CGGCAGCTAA AGCCAGAAAA GCTCTTCAAC AAAAACCCAA GCCGCCATCC
    AAGGTGAAGT CCAGTAATAA GGAGGGCTCC ACGAAGGGCC TTAGCGGTCC TTCCGAGCAG
    AGCCAGATGA GCCTCAGTGA CTCTAGCATG CCACCAACCC CAGTTACGCC TGTAACACCC
    ACCACGCCAG CATTGCCCAC CCCCATCTCT CCTCCACCTG TGTCAGCGGT GAACAGAAGT
    GGCTCTACCA CTGTCTCTGA GCCAGCCAAG TCTAGTTCAG GTGTTCTTCT GGTGTCCTCA
    CCAACAATGC CACAGCTAGG GACGATGCTT TCCCCAGCTT CCATCCAGAC TCCACCCAGT
    TCTCAGGCCA CTGCTCGGGT CGTCAGCCAT TCCAGCTCAG CAGGACTACC CCAGGTTCGG
    GTGGTAGCCC AGCCCAGCCT TCCTGCTGTT TCCCAGCAGT CGGTAGGGCC AGCACAGCCA
    CTACCCCAGA TGCCAGCAGG GCCACAGATT CGTGTGCCAG TCACTGCTAC CCAAACCAAA
    GTAGTACCCC AGGCAGTTAT GGCAACAGTT CCAGTCAAGG GGCAAACTGC AGCAGCCTCT
    GTGCAACGGC CTGGACCTGG GCAGACAGGG CTCACAGTGA CGAATCTTCC GGCTGCAGTC
    AGCCCCGTGA GCAAGACAGC CATGAGTTCT CCTGGGAACT CTGCTCCAAG TGCCTCCACC
    ACAGCCGTTA TTCAGAATGT CACAGGACAG AACATCATCA AGCAGGTGTC GATCACTGGA
    CAGCTTGGTG TGAAGCCCCA GACAGGCAGC AGCATTCCAC TCACAGCCAC AAACTTCCGT
    ATCCAGGGTA AGGATGTACT GCGCCTGCCG CCTTCTTCCA TCACCACAGA TGCCAAGGGC
    CAGACGGTTT TGAGAATCAC TCCAGACATG ATGGCCACAT TGGCCAAGTC TCAGGTTACC
    ACAGTCAAAC TGACTCAGGA CCTCTTTGGG GCAGGAAGTG GCACTTCAGG CAAAGGCATC
    TCTGCTACTT TGCATGTTAC TTCCAACCCT GTCCACGCAG CTGACAGCCC TGCCAAGGCC
    CCTTCAGCCA GTGTTCCTTC ATCAGCTCCA GCAGGTACTA CTGTGGTCAA AGTAACTCCT
    GAGCTCAAGC CAACAGAAAC TTCAAATTCA GCTTTTCGCT TGATGCCAGC TCTTGGTGTA
    AGTGTGGCAG ATCAGAAGGG AAAGAACACA GTGGCCTCTT CAGAAGCAAA ACCCGCCGCC
    ACAATCCGCA TTGTGCAGGG GCTGGGAGTG ATGCCTCCTA AAGCAGGCCA GACCATTACT
    GTTGCAGCAC ATGCAAAGCA AGGAGCCTCT GTTGCTGGAG GGTCTGGAAC TGTGCATTCC
    TCAACGGTGT CCTTACCCAG TATAAATGCC GCTGTGTCAA AGACTGTGGC TGTGGCTTCT
    GGGGCAACAA GCACCCCCAT CAGCATCGGG ACTGGAGCCC CCACTGTGCG ACAGGTTCCT
    GTTAACACTA CAGTTGTGTC CACATCCCAG TCTGGGAAAC TGCCTACCAG AATCACAGTT
    CCTCTCTCTG TGATTAGCCA GCCAATGAAG GGCAAGAGCG TGGTCACAGC CCCCATCATC
    AAAGGCAACC TTGGAGCCAA TCTCAGTGGG CTGGGTCGAA ACATCATCCT CACGACCATG
    CCAGCAGGTA CTAAGCTCAT TGCTGGCAAT AAGCCAGTGA GTTTCCTCAC TGCTCAGCAG
    TTGCAGCAGC TTCAGCAACA AGGTCAGGCT ACGCAGGTGC GCATCCAGAC CGTCCCAGCA
    TCCCATCTGC AACAGGGCAC GGCTTCTGGC TCCTCCAAAG CAGTGTCCAC TGTTGTTGTG
    ACCACAGCTC CATCTCCTAA ACAAGCACCT GAGCAGCAGT GA

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

    CloneID OMv08554
    Clone ID Related Accession (Same CDS sequence) XM_021172119.1 , XM_021172119.2
    Accession Version XM_021172119.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3162bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021172119.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    ATGAAAACTG CAGATAAAAT AGAACTGGGG GACAGTGACC TGAAGTTAAT GTTAAAGAAG 
    CACCATGAGA AGCGGAAACA TCAACCAGAT CACCCAGACC TTTTGACAGG GGACCTGACC
    CTCAGTGACA TCATGACTCG AGTAAATGCC GGCAGGAAGG GCTCCCTAGC AGCCTTGTAT
    GATTTGGCTG TTCTTAAAAA AAAGGTGAAG GAAAAGGAGG AGAAGAAAAA GAAGAAAATA
    AAGTTGATTA AGTCAGAAGC AGAGGATCTG GCTGAGCCCC TAAGCAATAC TGAAGGGGTC
    CCAACTCTCT CACAGGCCCC CTCTCCCCTG GCAATATCGT CTATCAAGGA AGAACCCCTG
    GAAGACATCA AGCCTTGCCT TGGAATCAAT GAAATATCTT CCAGTTTTTT CTCTCTTCTG
    TTAGAGATCT TGCTGCTGGA AAGTCAGGCT AGCCTTCCTA TGCTGGAGGA TCGAGTTTTG
    GACTGGCAGT CTTCTCCAGC CAGCTCCCTC AACAGCTGGT TCTCTGCTGC CCCCAACTGG
    GCTGAGTTGG TGTTGCCTGC TCTGCAGTAT CTTGCTGGAG AAAGCCGAGC GGTTCCTTCT
    AGTTTCTCTC CATTTGTTGA ATTCAAAGAG AAAACCCAGC AGTGGAAATT GCTTGGTCAA
    TCTCAAGATA ACGAAAAGGA ATTAGCTGCT CTCTTCCACC TGTGGCTGGA AACCAAAGAC
    CAGGCCTTCT GTAAGGAAAA TGAAGACAGC TCAGATGCCA TGACACCTGT CCCTCGAGTA
    AGAACTGACT ATGTGGTTCG GCCTAGCACA GGAGAGGAGA AACGGGTTTT TCAAGAACAG
    GAGCGTTACA GGTATAGCCA ACCCCATAAG GCATTCACCT TTCGCATGCA TGGCTTTGAG
    TCTGTGGTGG GGCCAGTGAA GGGCGTGTTT GACAAGGAGA CCTCCCTCAA CAAGGCTCGT
    GAGCATTCAC TGCTGCGCTC TGACCGGCCT GCCTATGTCA CCATTCTGTC TCTTGTTCGG
    GATGCTGCAG CTCGGCTGCC TAATGGAGAA GGCACTCGGG CAGAGATCTG TGAACTGCTC
    AAGGACTCTC AGTTTCTGGC TCCAGATGTC ACCAGCACTC AGGTGAACAC AGTGGTGAGT
    GGTGCACTGG ATCGATTGCA TTATGAGAAA GACCCTTGTG TGAAATATGA CATTGGTCGG
    AAGCTGTGGA TCTACCTGCA TCGTGACCGG AGTGAGGAAG AGTTTGAACG GATTCATCAA
    GCTCAAGCAG CGGCAGCTAA AGCCAGAAAA GCTCTTCAAC AAAAACCCAA GCCGCCATCC
    AAGGTGAAGT CCAGTAATAA GGAGGGCTCC ACGAAGGGCC TTAGCGGTCC TTCCGAGCAG
    AGCCAGATGA GCCTCAGTGA CTCTAGCATG CCACCAACCC CAGTTACGCC TGTAACACCC
    ACCACGCCAG CATTGCCCAC CCCCATCTCT CCTCCACCTG TGTCAGCGGT GAACAGAAGT
    GGCTCTACCA CTGTCTCTGA GCCAGCCAAG TCTAGTTCAG GTGTTCTTCT GGTGTCCTCA
    CCAACAATGC CACAGCTAGG GACGATGCTT TCCCCAGCTT CCATCCAGAC TCCACCCAGT
    TCTCAGGCCA CTGCTCGGGT CGTCAGCCAT TCCAGCTCAG CAGGACTACC CCAGGTTCGG
    GTGGTAGCCC AGCCCAGCCT TCCTGCTGTT TCCCAGCAGT CGGTAGGGCC AGCACAGCCA
    CTACCCCAGA TGCCAGCAGG GCCACAGATT CGTGTGCCAG TCACTGCTAC CCAAACCAAA
    GTAGTACCCC AGGCAGTTAT GGCAACAGTT CCAGTCAAGG GGCAAACTGC AGCAGCCTCT
    GTGCAACGGC CTGGACCTGG GCAGACAGGG CTCACAGTGA CGAATCTTCC GGCTGCAGTC
    AGCCCCGTGA GCAAGACAGC CATGAGTTCT CCTGGGAACT CTGCTCCAAG TGCCTCCACC
    ACAGCCGTTA TTCAGAATGT CACAGGACAG AACATCATCA AGCAGGTGTC GATCACTGGA
    CAGCTTGGTG TGAAGCCCCA GACAGGCAGC AGCATTCCAC TCACAGCCAC AAACTTCCGT
    ATCCAGGGTA AGGATGTACT GCGCCTGCCG CCTTCTTCCA TCACCACAGA TGCCAAGGGC
    CAGACGGTTT TGAGAATCAC TCCAGACATG ATGGCCACAT TGGCCAAGTC TCAGGTTACC
    ACAGTCAAAC TGACTCAGGA CCTCTTTGGG GCAGGAAGTG GCACTTCAGG CAAAGGCATC
    TCTGCTACTT TGCATGTTAC TTCCAACCCT GTCCACGCAG CTGACAGCCC TGCCAAGGCC
    CCTTCAGCCA GTGTTCCTTC ATCAGCTCCA GCAGGTACTA CTGTGGTCAA AGTAACTCCT
    GAGCTCAAGC CAACAGAAAC TTCAAATTCA GCTTTTCGCT TGATGCCAGC TCTTGGTGTA
    AGTGTGGCAG ATCAGAAGGG AAAGAACACA GTGGCCTCTT CAGAAGCAAA ACCCGCCGCC
    ACAATCCGCA TTGTGCAGGG GCTGGGAGTG ATGCCTCCTA AAGCAGGCCA GACCATTACT
    GTTGCAGCAC ATGCAAAGCA AGGAGCCTCT GTTGCTGGAG GGTCTGGAAC TGTGCATTCC
    TCAACGGTGT CCTTACCCAG TATAAATGCC GCTGTGTCAA AGACTGTGGC TGTGGCTTCT
    GGGGCAACAA GCACCCCCAT CAGCATCGGG ACTGGAGCCC CCACTGTGCG ACAGGTTCCT
    GTTAACACTA CAGTTGTGTC CACATCCCAG TCTGGGAAAC TGCCTACCAG AATCACAGTT
    CCTCTCTCTG TGATTAGCCA GCCAATGAAG GGCAAGAGCG TGGTCACAGC CCCCATCATC
    AAAGGCAACC TTGGAGCCAA TCTCAGTGGG CTGGGTCGAA ACATCATCCT CACGACCATG
    CCAGCAGGTA CTAAGCTCAT TGCTGGCAAT AAGCCAGTGA GTTTCCTCAC TGCTCAGCAG
    TTGCAGCAGC TTCAGCAACA AGGTCAGGCT ACGCAGGTGC GCATCCAGAC CGTCCCAGCA
    TCCCATCTGC AACAGGGCAC GGCTTCTGGC TCCTCCAAAG CAGTGTCCAC TGTTGTTGTG
    ACCACAGCTC CATCTCCTAA ACAAGCACCT GAGCAGCAGT GA

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

    RefSeq XP_021027778.1
    CDS1089..4250
    Translation

    Target ORF information:

    RefSeq Version XM_021172119.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021172119.2

    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
    ATGAAAACTG CAGATAAAAT AGAACTGGGG GACAGTGACC TGAAGTTAAT GTTAAAGAAG 
    CACCATGAGA AGCGGAAACA TCAACCAGAT CACCCAGACC TTTTGACAGG GGACCTGACC
    CTCAGTGACA TCATGACTCG AGTAAATGCC GGCAGGAAGG GCTCCCTAGC AGCCTTGTAT
    GATTTGGCTG TTCTTAAAAA AAAGGTGAAG GAAAAGGAGG AGAAGAAAAA GAAGAAAATA
    AAGTTGATTA AGTCAGAAGC AGAGGATCTG GCTGAGCCCC TAAGCAATAC TGAAGGGGTC
    CCAACTCTCT CACAGGCCCC CTCTCCCCTG GCAATATCGT CTATCAAGGA AGAACCCCTG
    GAAGACATCA AGCCTTGCCT TGGAATCAAT GAAATATCTT CCAGTTTTTT CTCTCTTCTG
    TTAGAGATCT TGCTGCTGGA AAGTCAGGCT AGCCTTCCTA TGCTGGAGGA TCGAGTTTTG
    GACTGGCAGT CTTCTCCAGC CAGCTCCCTC AACAGCTGGT TCTCTGCTGC CCCCAACTGG
    GCTGAGTTGG TGTTGCCTGC TCTGCAGTAT CTTGCTGGAG AAAGCCGAGC GGTTCCTTCT
    AGTTTCTCTC CATTTGTTGA ATTCAAAGAG AAAACCCAGC AGTGGAAATT GCTTGGTCAA
    TCTCAAGATA ACGAAAAGGA ATTAGCTGCT CTCTTCCACC TGTGGCTGGA AACCAAAGAC
    CAGGCCTTCT GTAAGGAAAA TGAAGACAGC TCAGATGCCA TGACACCTGT CCCTCGAGTA
    AGAACTGACT ATGTGGTTCG GCCTAGCACA GGAGAGGAGA AACGGGTTTT TCAAGAACAG
    GAGCGTTACA GGTATAGCCA ACCCCATAAG GCATTCACCT TTCGCATGCA TGGCTTTGAG
    TCTGTGGTGG GGCCAGTGAA GGGCGTGTTT GACAAGGAGA CCTCCCTCAA CAAGGCTCGT
    GAGCATTCAC TGCTGCGCTC TGACCGGCCT GCCTATGTCA CCATTCTGTC TCTTGTTCGG
    GATGCTGCAG CTCGGCTGCC TAATGGAGAA GGCACTCGGG CAGAGATCTG TGAACTGCTC
    AAGGACTCTC AGTTTCTGGC TCCAGATGTC ACCAGCACTC AGGTGAACAC AGTGGTGAGT
    GGTGCACTGG ATCGATTGCA TTATGAGAAA GACCCTTGTG TGAAATATGA CATTGGTCGG
    AAGCTGTGGA TCTACCTGCA TCGTGACCGG AGTGAGGAAG AGTTTGAACG GATTCATCAA
    GCTCAAGCAG CGGCAGCTAA AGCCAGAAAA GCTCTTCAAC AAAAACCCAA GCCGCCATCC
    AAGGTGAAGT CCAGTAATAA GGAGGGCTCC ACGAAGGGCC TTAGCGGTCC TTCCGAGCAG
    AGCCAGATGA GCCTCAGTGA CTCTAGCATG CCACCAACCC CAGTTACGCC TGTAACACCC
    ACCACGCCAG CATTGCCCAC CCCCATCTCT CCTCCACCTG TGTCAGCGGT GAACAGAAGT
    GGCTCTACCA CTGTCTCTGA GCCAGCCAAG TCTAGTTCAG GTGTTCTTCT GGTGTCCTCA
    CCAACAATGC CACAGCTAGG GACGATGCTT TCCCCAGCTT CCATCCAGAC TCCACCCAGT
    TCTCAGGCCA CTGCTCGGGT CGTCAGCCAT TCCAGCTCAG CAGGACTACC CCAGGTTCGG
    GTGGTAGCCC AGCCCAGCCT TCCTGCTGTT TCCCAGCAGT CGGTAGGGCC AGCACAGCCA
    CTACCCCAGA TGCCAGCAGG GCCACAGATT CGTGTGCCAG TCACTGCTAC CCAAACCAAA
    GTAGTACCCC AGGCAGTTAT GGCAACAGTT CCAGTCAAGG GGCAAACTGC AGCAGCCTCT
    GTGCAACGGC CTGGACCTGG GCAGACAGGG CTCACAGTGA CGAATCTTCC GGCTGCAGTC
    AGCCCCGTGA GCAAGACAGC CATGAGTTCT CCTGGGAACT CTGCTCCAAG TGCCTCCACC
    ACAGCCGTTA TTCAGAATGT CACAGGACAG AACATCATCA AGCAGGTGTC GATCACTGGA
    CAGCTTGGTG TGAAGCCCCA GACAGGCAGC AGCATTCCAC TCACAGCCAC AAACTTCCGT
    ATCCAGGGTA AGGATGTACT GCGCCTGCCG CCTTCTTCCA TCACCACAGA TGCCAAGGGC
    CAGACGGTTT TGAGAATCAC TCCAGACATG ATGGCCACAT TGGCCAAGTC TCAGGTTACC
    ACAGTCAAAC TGACTCAGGA CCTCTTTGGG GCAGGAAGTG GCACTTCAGG CAAAGGCATC
    TCTGCTACTT TGCATGTTAC TTCCAACCCT GTCCACGCAG CTGACAGCCC TGCCAAGGCC
    CCTTCAGCCA GTGTTCCTTC ATCAGCTCCA GCAGGTACTA CTGTGGTCAA AGTAACTCCT
    GAGCTCAAGC CAACAGAAAC TTCAAATTCA GCTTTTCGCT TGATGCCAGC TCTTGGTGTA
    AGTGTGGCAG ATCAGAAGGG AAAGAACACA GTGGCCTCTT CAGAAGCAAA ACCCGCCGCC
    ACAATCCGCA TTGTGCAGGG GCTGGGAGTG ATGCCTCCTA AAGCAGGCCA GACCATTACT
    GTTGCAGCAC ATGCAAAGCA AGGAGCCTCT GTTGCTGGAG GGTCTGGAAC TGTGCATTCC
    TCAACGGTGT CCTTACCCAG TATAAATGCC GCTGTGTCAA AGACTGTGGC TGTGGCTTCT
    GGGGCAACAA GCACCCCCAT CAGCATCGGG ACTGGAGCCC CCACTGTGCG ACAGGTTCCT
    GTTAACACTA CAGTTGTGTC CACATCCCAG TCTGGGAAAC TGCCTACCAG AATCACAGTT
    CCTCTCTCTG TGATTAGCCA GCCAATGAAG GGCAAGAGCG TGGTCACAGC CCCCATCATC
    AAAGGCAACC TTGGAGCCAA TCTCAGTGGG CTGGGTCGAA ACATCATCCT CACGACCATG
    CCAGCAGGTA CTAAGCTCAT TGCTGGCAAT AAGCCAGTGA GTTTCCTCAC TGCTCAGCAG
    TTGCAGCAGC TTCAGCAACA AGGTCAGGCT ACGCAGGTGC GCATCCAGAC CGTCCCAGCA
    TCCCATCTGC AACAGGGCAC GGCTTCTGGC TCCTCCAAAG CAGTGTCCAC TGTTGTTGTG
    ACCACAGCTC CATCTCCTAA ACAAGCACCT GAGCAGCAGT GA

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

    CloneID OMv75780
    Clone ID Related Accession (Same CDS sequence) XM_029481196.1 , XM_029481197.1 , XM_029481194.1
    Accession Version XM_029481196.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAG AACTGACTAT
    GTGGTTCGGC CTAGCACAGG AGAGGAGAAA CGGGTTTTTC AAGAACAGGA GCGTTACAGG
    TATAGCCAAC CCCATAAGGC ATTCACCTTT CGCATGCATG GCTTTGAGTC TGTGGTGGGG
    CCAGTGAAGG GCGTGTTTGA CAAGGAGACC TCCCTCAACA AGGCTCGTGA GCATTCACTG
    CTGCGCTCTG ACCGGCCTGC CTATGTCACC ATTCTGTCTC TTGTTCGGGA TGCTGCAGCT
    CGGCTGCCTA ATGGAGAAGG CACTCGGGCA GAGATCTGTG AACTGCTCAA GGACTCTCAG
    TTTCTGGCTC CAGATGTCAC CAGCACTCAG GTGAACACAG TGGTGAGTGG TGCACTGGAT
    CGATTGCATT ATGAGAAAGA CCCTTGTGTG AAATATGACA TTGGTCGGAA GCTGTGGATC
    TACCTGCATC GTGACCGGAG TGAGGAAGAG TTTGAACGGA TTCATCAAGC TCAAGCAGCG
    GCAGCTAAAG CCAGAAAAGC TCTTCAACAA AAACCCAAGC CGCCATCCAA GGTGAAGTCC
    AGTAATAAGG AGGGCTCCAC GAAGGGCCTT AGCGGTCCTT CCGAGCAGAG CCAGATGAGC
    CTCAGTGACT CTAGCATGCC ACCAACCCCA GTTACGCCTG TAACACCCAC CACGCCAGCA
    TTGCCCACCC CCATCTCTCC TCCACCTGTG TCAGCGGTGA ACAGAAGTGG CTCTACCACT
    GTCTCTGAGC CAGCCAAGTC TAGTTCAGGT GTTCTTCTGG TGTCCTCACC AACAATGCCA
    CAGCTAGGGA CGATGCTTTC CCCAGCTTCC ATCCAGACTC CACCCAGTTC TCAGGCCACT
    GCTCGGGTCG TCAGCCATTC CAGCTCAGCA GGACTACCCC AGGTTCGGGT GGTAGCCCAG
    CCCAGCCTTC CTGCTGTTTC CCAGCAGTCG GTAGGGCCAG CACAGCCACT ACCCCAGATG
    CCAGCAGGGC CACAGATTCG TGTGCCAGTC ACTGCTACCC AAACCAAAGT AGTACCCCAG
    GCAGTTATGG CAACAGTTCC AGTCAAGGGG CAAACTGCAG CAGCCTCTGT GCAACGGCCT
    GGACCTGGGC AGACAGGGCT CACAGTGACG AATCTTCCGG CTGCAGTCAG CCCCGTGAGC
    AAGACAGCCA TGAGTTCTCC TGGGAACTCT GCTCCAAGTG CCTCCACCAC AGCCGTTATT
    CAGAATGTCA CAGGACAGAA CATCATCAAG CAGGTGTCGA TCACTGGACA GCTTGGTGTG
    AAGCCCCAGA CAGGCAGCAG CATTCCACTC ACAGCCACAA ACTTCCGTAT CCAGGGTAAG
    GATGTACTGC GCCTGCCGCC TTCTTCCATC ACCACAGATG CCAAGGGCCA GACGGTTTTG
    AGAATCACTC CAGACATGAT GGCCACATTG GCCAAGTCTC AGGTTACCAC AGTCAAACTG
    ACTCAGGACC TCTTTGGGGC AGGAAGTGGC ACTTCAGGCA AAGGCATCTC TGCTACTTTG
    CATGTTACTT CCAACCCTGT CCACGCAGCT GACAGCCCTG CCAAGGCCCC TTCAGCCAGT
    GTTCCTTCAT CAGCTCCAGC AGGTACTACT GTGGTCAAAG TAACTCCTGA GCTCAAGCCA
    ACAGAAACTT CAAATTCAGC TTTTCGCTTG ATGCCAGCTC TTGGTGTAAG TGTGGCAGAT
    CAGAAGGGAA AGAACACAGT GGCCTCTTCA GAAGCAAAAC CCGCCGCCAC AATCCGCATT
    GTGCAGGGGC TGGGAGTGAT GCCTCCTAAA GCAGGCCAGA CCATTACTGT TGCAGCACAT
    GCAAAGCAAG GAGCCTCTGT TGCTGGAGGG TCTGGAACTG TGCATTCCTC AACGGTGTCC
    TTACCCAGTA TAAATGCCGC TGTGTCAAAG ACTGTGGCTG TGGCTTCTGG GGCAACAAGC
    ACCCCCATCA GCATCGGGAC TGGAGCCCCC ACTGTGCGAC AGGTTCCTGT TAACACTACA
    GTTGTGTCCA CATCCCAGTC TGGGAAACTG CCTACCAGAA TCACAGTTCC TCTCTCTGTG
    ATTAGCCAGC CAATGAAGGG CAAGAGCGTG GTCACAGCCC CCATCATCAA AGGCAACCTT
    GGAGCCAATC TCAGTGGGCT GGGTCGAAAC ATCATCCTCA CGACCATGCC AGCAGGTACT
    AAGCTCATTG CTGGCAATAA GCCAGTGAGT TTCCTCACTG CTCAGCAGTT GCAGCAGCTT
    CAGCAACAAG GTCAGGCTAC GCAGGTGCGC ATCCAGACCG TCCCAGCATC CCATCTGCAA
    CAGGGCACGG CTTCTGGCTC CTCCAAAGCA GTGTCCACTG TTGTTGTGAC CACAGCTCCA
    TCTCCTAAAC AAGCACCTGA GCAGCAGTGA

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

    RefSeq XP_029337056.1
    CDS122..4051
    Translation

    Target ORF information:

    RefSeq Version XM_029481196.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481196.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAG AACTGACTAT
    GTGGTTCGGC CTAGCACAGG AGAGGAGAAA CGGGTTTTTC AAGAACAGGA GCGTTACAGG
    TATAGCCAAC CCCATAAGGC ATTCACCTTT CGCATGCATG GCTTTGAGTC TGTGGTGGGG
    CCAGTGAAGG GCGTGTTTGA CAAGGAGACC TCCCTCAACA AGGCTCGTGA GCATTCACTG
    CTGCGCTCTG ACCGGCCTGC CTATGTCACC ATTCTGTCTC TTGTTCGGGA TGCTGCAGCT
    CGGCTGCCTA ATGGAGAAGG CACTCGGGCA GAGATCTGTG AACTGCTCAA GGACTCTCAG
    TTTCTGGCTC CAGATGTCAC CAGCACTCAG GTGAACACAG TGGTGAGTGG TGCACTGGAT
    CGATTGCATT ATGAGAAAGA CCCTTGTGTG AAATATGACA TTGGTCGGAA GCTGTGGATC
    TACCTGCATC GTGACCGGAG TGAGGAAGAG TTTGAACGGA TTCATCAAGC TCAAGCAGCG
    GCAGCTAAAG CCAGAAAAGC TCTTCAACAA AAACCCAAGC CGCCATCCAA GGTGAAGTCC
    AGTAATAAGG AGGGCTCCAC GAAGGGCCTT AGCGGTCCTT CCGAGCAGAG CCAGATGAGC
    CTCAGTGACT CTAGCATGCC ACCAACCCCA GTTACGCCTG TAACACCCAC CACGCCAGCA
    TTGCCCACCC CCATCTCTCC TCCACCTGTG TCAGCGGTGA ACAGAAGTGG CTCTACCACT
    GTCTCTGAGC CAGCCAAGTC TAGTTCAGGT GTTCTTCTGG TGTCCTCACC AACAATGCCA
    CAGCTAGGGA CGATGCTTTC CCCAGCTTCC ATCCAGACTC CACCCAGTTC TCAGGCCACT
    GCTCGGGTCG TCAGCCATTC CAGCTCAGCA GGACTACCCC AGGTTCGGGT GGTAGCCCAG
    CCCAGCCTTC CTGCTGTTTC CCAGCAGTCG GTAGGGCCAG CACAGCCACT ACCCCAGATG
    CCAGCAGGGC CACAGATTCG TGTGCCAGTC ACTGCTACCC AAACCAAAGT AGTACCCCAG
    GCAGTTATGG CAACAGTTCC AGTCAAGGGG CAAACTGCAG CAGCCTCTGT GCAACGGCCT
    GGACCTGGGC AGACAGGGCT CACAGTGACG AATCTTCCGG CTGCAGTCAG CCCCGTGAGC
    AAGACAGCCA TGAGTTCTCC TGGGAACTCT GCTCCAAGTG CCTCCACCAC AGCCGTTATT
    CAGAATGTCA CAGGACAGAA CATCATCAAG CAGGTGTCGA TCACTGGACA GCTTGGTGTG
    AAGCCCCAGA CAGGCAGCAG CATTCCACTC ACAGCCACAA ACTTCCGTAT CCAGGGTAAG
    GATGTACTGC GCCTGCCGCC TTCTTCCATC ACCACAGATG CCAAGGGCCA GACGGTTTTG
    AGAATCACTC CAGACATGAT GGCCACATTG GCCAAGTCTC AGGTTACCAC AGTCAAACTG
    ACTCAGGACC TCTTTGGGGC AGGAAGTGGC ACTTCAGGCA AAGGCATCTC TGCTACTTTG
    CATGTTACTT CCAACCCTGT CCACGCAGCT GACAGCCCTG CCAAGGCCCC TTCAGCCAGT
    GTTCCTTCAT CAGCTCCAGC AGGTACTACT GTGGTCAAAG TAACTCCTGA GCTCAAGCCA
    ACAGAAACTT CAAATTCAGC TTTTCGCTTG ATGCCAGCTC TTGGTGTAAG TGTGGCAGAT
    CAGAAGGGAA AGAACACAGT GGCCTCTTCA GAAGCAAAAC CCGCCGCCAC AATCCGCATT
    GTGCAGGGGC TGGGAGTGAT GCCTCCTAAA GCAGGCCAGA CCATTACTGT TGCAGCACAT
    GCAAAGCAAG GAGCCTCTGT TGCTGGAGGG TCTGGAACTG TGCATTCCTC AACGGTGTCC
    TTACCCAGTA TAAATGCCGC TGTGTCAAAG ACTGTGGCTG TGGCTTCTGG GGCAACAAGC
    ACCCCCATCA GCATCGGGAC TGGAGCCCCC ACTGTGCGAC AGGTTCCTGT TAACACTACA
    GTTGTGTCCA CATCCCAGTC TGGGAAACTG CCTACCAGAA TCACAGTTCC TCTCTCTGTG
    ATTAGCCAGC CAATGAAGGG CAAGAGCGTG GTCACAGCCC CCATCATCAA AGGCAACCTT
    GGAGCCAATC TCAGTGGGCT GGGTCGAAAC ATCATCCTCA CGACCATGCC AGCAGGTACT
    AAGCTCATTG CTGGCAATAA GCCAGTGAGT TTCCTCACTG CTCAGCAGTT GCAGCAGCTT
    CAGCAACAAG GTCAGGCTAC GCAGGTGCGC ATCCAGACCG TCCCAGCATC CCATCTGCAA
    CAGGGCACGG CTTCTGGCTC CTCCAAAGCA GTGTCCACTG TTGTTGTGAC CACAGCTCCA
    TCTCCTAAAC AAGCACCTGA GCAGCAGTGA

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

    CloneID OMv75780
    Clone ID Related Accession (Same CDS sequence) XM_029481196.1 , XM_029481197.1 , XM_029481194.1
    Accession Version XM_029481197.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAG AACTGACTAT
    GTGGTTCGGC CTAGCACAGG AGAGGAGAAA CGGGTTTTTC AAGAACAGGA GCGTTACAGG
    TATAGCCAAC CCCATAAGGC ATTCACCTTT CGCATGCATG GCTTTGAGTC TGTGGTGGGG
    CCAGTGAAGG GCGTGTTTGA CAAGGAGACC TCCCTCAACA AGGCTCGTGA GCATTCACTG
    CTGCGCTCTG ACCGGCCTGC CTATGTCACC ATTCTGTCTC TTGTTCGGGA TGCTGCAGCT
    CGGCTGCCTA ATGGAGAAGG CACTCGGGCA GAGATCTGTG AACTGCTCAA GGACTCTCAG
    TTTCTGGCTC CAGATGTCAC CAGCACTCAG GTGAACACAG TGGTGAGTGG TGCACTGGAT
    CGATTGCATT ATGAGAAAGA CCCTTGTGTG AAATATGACA TTGGTCGGAA GCTGTGGATC
    TACCTGCATC GTGACCGGAG TGAGGAAGAG TTTGAACGGA TTCATCAAGC TCAAGCAGCG
    GCAGCTAAAG CCAGAAAAGC TCTTCAACAA AAACCCAAGC CGCCATCCAA GGTGAAGTCC
    AGTAATAAGG AGGGCTCCAC GAAGGGCCTT AGCGGTCCTT CCGAGCAGAG CCAGATGAGC
    CTCAGTGACT CTAGCATGCC ACCAACCCCA GTTACGCCTG TAACACCCAC CACGCCAGCA
    TTGCCCACCC CCATCTCTCC TCCACCTGTG TCAGCGGTGA ACAGAAGTGG CTCTACCACT
    GTCTCTGAGC CAGCCAAGTC TAGTTCAGGT GTTCTTCTGG TGTCCTCACC AACAATGCCA
    CAGCTAGGGA CGATGCTTTC CCCAGCTTCC ATCCAGACTC CACCCAGTTC TCAGGCCACT
    GCTCGGGTCG TCAGCCATTC CAGCTCAGCA GGACTACCCC AGGTTCGGGT GGTAGCCCAG
    CCCAGCCTTC CTGCTGTTTC CCAGCAGTCG GTAGGGCCAG CACAGCCACT ACCCCAGATG
    CCAGCAGGGC CACAGATTCG TGTGCCAGTC ACTGCTACCC AAACCAAAGT AGTACCCCAG
    GCAGTTATGG CAACAGTTCC AGTCAAGGGG CAAACTGCAG CAGCCTCTGT GCAACGGCCT
    GGACCTGGGC AGACAGGGCT CACAGTGACG AATCTTCCGG CTGCAGTCAG CCCCGTGAGC
    AAGACAGCCA TGAGTTCTCC TGGGAACTCT GCTCCAAGTG CCTCCACCAC AGCCGTTATT
    CAGAATGTCA CAGGACAGAA CATCATCAAG CAGGTGTCGA TCACTGGACA GCTTGGTGTG
    AAGCCCCAGA CAGGCAGCAG CATTCCACTC ACAGCCACAA ACTTCCGTAT CCAGGGTAAG
    GATGTACTGC GCCTGCCGCC TTCTTCCATC ACCACAGATG CCAAGGGCCA GACGGTTTTG
    AGAATCACTC CAGACATGAT GGCCACATTG GCCAAGTCTC AGGTTACCAC AGTCAAACTG
    ACTCAGGACC TCTTTGGGGC AGGAAGTGGC ACTTCAGGCA AAGGCATCTC TGCTACTTTG
    CATGTTACTT CCAACCCTGT CCACGCAGCT GACAGCCCTG CCAAGGCCCC TTCAGCCAGT
    GTTCCTTCAT CAGCTCCAGC AGGTACTACT GTGGTCAAAG TAACTCCTGA GCTCAAGCCA
    ACAGAAACTT CAAATTCAGC TTTTCGCTTG ATGCCAGCTC TTGGTGTAAG TGTGGCAGAT
    CAGAAGGGAA AGAACACAGT GGCCTCTTCA GAAGCAAAAC CCGCCGCCAC AATCCGCATT
    GTGCAGGGGC TGGGAGTGAT GCCTCCTAAA GCAGGCCAGA CCATTACTGT TGCAGCACAT
    GCAAAGCAAG GAGCCTCTGT TGCTGGAGGG TCTGGAACTG TGCATTCCTC AACGGTGTCC
    TTACCCAGTA TAAATGCCGC TGTGTCAAAG ACTGTGGCTG TGGCTTCTGG GGCAACAAGC
    ACCCCCATCA GCATCGGGAC TGGAGCCCCC ACTGTGCGAC AGGTTCCTGT TAACACTACA
    GTTGTGTCCA CATCCCAGTC TGGGAAACTG CCTACCAGAA TCACAGTTCC TCTCTCTGTG
    ATTAGCCAGC CAATGAAGGG CAAGAGCGTG GTCACAGCCC CCATCATCAA AGGCAACCTT
    GGAGCCAATC TCAGTGGGCT GGGTCGAAAC ATCATCCTCA CGACCATGCC AGCAGGTACT
    AAGCTCATTG CTGGCAATAA GCCAGTGAGT TTCCTCACTG CTCAGCAGTT GCAGCAGCTT
    CAGCAACAAG GTCAGGCTAC GCAGGTGCGC ATCCAGACCG TCCCAGCATC CCATCTGCAA
    CAGGGCACGG CTTCTGGCTC CTCCAAAGCA GTGTCCACTG TTGTTGTGAC CACAGCTCCA
    TCTCCTAAAC AAGCACCTGA GCAGCAGTGA

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

    RefSeq XP_029337057.1
    CDS61..3990
    Translation

    Target ORF information:

    RefSeq Version XM_029481197.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481197.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAG AACTGACTAT
    GTGGTTCGGC CTAGCACAGG AGAGGAGAAA CGGGTTTTTC AAGAACAGGA GCGTTACAGG
    TATAGCCAAC CCCATAAGGC ATTCACCTTT CGCATGCATG GCTTTGAGTC TGTGGTGGGG
    CCAGTGAAGG GCGTGTTTGA CAAGGAGACC TCCCTCAACA AGGCTCGTGA GCATTCACTG
    CTGCGCTCTG ACCGGCCTGC CTATGTCACC ATTCTGTCTC TTGTTCGGGA TGCTGCAGCT
    CGGCTGCCTA ATGGAGAAGG CACTCGGGCA GAGATCTGTG AACTGCTCAA GGACTCTCAG
    TTTCTGGCTC CAGATGTCAC CAGCACTCAG GTGAACACAG TGGTGAGTGG TGCACTGGAT
    CGATTGCATT ATGAGAAAGA CCCTTGTGTG AAATATGACA TTGGTCGGAA GCTGTGGATC
    TACCTGCATC GTGACCGGAG TGAGGAAGAG TTTGAACGGA TTCATCAAGC TCAAGCAGCG
    GCAGCTAAAG CCAGAAAAGC TCTTCAACAA AAACCCAAGC CGCCATCCAA GGTGAAGTCC
    AGTAATAAGG AGGGCTCCAC GAAGGGCCTT AGCGGTCCTT CCGAGCAGAG CCAGATGAGC
    CTCAGTGACT CTAGCATGCC ACCAACCCCA GTTACGCCTG TAACACCCAC CACGCCAGCA
    TTGCCCACCC CCATCTCTCC TCCACCTGTG TCAGCGGTGA ACAGAAGTGG CTCTACCACT
    GTCTCTGAGC CAGCCAAGTC TAGTTCAGGT GTTCTTCTGG TGTCCTCACC AACAATGCCA
    CAGCTAGGGA CGATGCTTTC CCCAGCTTCC ATCCAGACTC CACCCAGTTC TCAGGCCACT
    GCTCGGGTCG TCAGCCATTC CAGCTCAGCA GGACTACCCC AGGTTCGGGT GGTAGCCCAG
    CCCAGCCTTC CTGCTGTTTC CCAGCAGTCG GTAGGGCCAG CACAGCCACT ACCCCAGATG
    CCAGCAGGGC CACAGATTCG TGTGCCAGTC ACTGCTACCC AAACCAAAGT AGTACCCCAG
    GCAGTTATGG CAACAGTTCC AGTCAAGGGG CAAACTGCAG CAGCCTCTGT GCAACGGCCT
    GGACCTGGGC AGACAGGGCT CACAGTGACG AATCTTCCGG CTGCAGTCAG CCCCGTGAGC
    AAGACAGCCA TGAGTTCTCC TGGGAACTCT GCTCCAAGTG CCTCCACCAC AGCCGTTATT
    CAGAATGTCA CAGGACAGAA CATCATCAAG CAGGTGTCGA TCACTGGACA GCTTGGTGTG
    AAGCCCCAGA CAGGCAGCAG CATTCCACTC ACAGCCACAA ACTTCCGTAT CCAGGGTAAG
    GATGTACTGC GCCTGCCGCC TTCTTCCATC ACCACAGATG CCAAGGGCCA GACGGTTTTG
    AGAATCACTC CAGACATGAT GGCCACATTG GCCAAGTCTC AGGTTACCAC AGTCAAACTG
    ACTCAGGACC TCTTTGGGGC AGGAAGTGGC ACTTCAGGCA AAGGCATCTC TGCTACTTTG
    CATGTTACTT CCAACCCTGT CCACGCAGCT GACAGCCCTG CCAAGGCCCC TTCAGCCAGT
    GTTCCTTCAT CAGCTCCAGC AGGTACTACT GTGGTCAAAG TAACTCCTGA GCTCAAGCCA
    ACAGAAACTT CAAATTCAGC TTTTCGCTTG ATGCCAGCTC TTGGTGTAAG TGTGGCAGAT
    CAGAAGGGAA AGAACACAGT GGCCTCTTCA GAAGCAAAAC CCGCCGCCAC AATCCGCATT
    GTGCAGGGGC TGGGAGTGAT GCCTCCTAAA GCAGGCCAGA CCATTACTGT TGCAGCACAT
    GCAAAGCAAG GAGCCTCTGT TGCTGGAGGG TCTGGAACTG TGCATTCCTC AACGGTGTCC
    TTACCCAGTA TAAATGCCGC TGTGTCAAAG ACTGTGGCTG TGGCTTCTGG GGCAACAAGC
    ACCCCCATCA GCATCGGGAC TGGAGCCCCC ACTGTGCGAC AGGTTCCTGT TAACACTACA
    GTTGTGTCCA CATCCCAGTC TGGGAAACTG CCTACCAGAA TCACAGTTCC TCTCTCTGTG
    ATTAGCCAGC CAATGAAGGG CAAGAGCGTG GTCACAGCCC CCATCATCAA AGGCAACCTT
    GGAGCCAATC TCAGTGGGCT GGGTCGAAAC ATCATCCTCA CGACCATGCC AGCAGGTACT
    AAGCTCATTG CTGGCAATAA GCCAGTGAGT TTCCTCACTG CTCAGCAGTT GCAGCAGCTT
    CAGCAACAAG GTCAGGCTAC GCAGGTGCGC ATCCAGACCG TCCCAGCATC CCATCTGCAA
    CAGGGCACGG CTTCTGGCTC CTCCAAAGCA GTGTCCACTG TTGTTGTGAC CACAGCTCCA
    TCTCCTAAAC AAGCACCTGA GCAGCAGTGA

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

    CloneID OMv75780
    Clone ID Related Accession (Same CDS sequence) XM_029481196.1 , XM_029481197.1 , XM_029481194.1
    Accession Version XM_029481194.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAG AACTGACTAT
    GTGGTTCGGC CTAGCACAGG AGAGGAGAAA CGGGTTTTTC AAGAACAGGA GCGTTACAGG
    TATAGCCAAC CCCATAAGGC ATTCACCTTT CGCATGCATG GCTTTGAGTC TGTGGTGGGG
    CCAGTGAAGG GCGTGTTTGA CAAGGAGACC TCCCTCAACA AGGCTCGTGA GCATTCACTG
    CTGCGCTCTG ACCGGCCTGC CTATGTCACC ATTCTGTCTC TTGTTCGGGA TGCTGCAGCT
    CGGCTGCCTA ATGGAGAAGG CACTCGGGCA GAGATCTGTG AACTGCTCAA GGACTCTCAG
    TTTCTGGCTC CAGATGTCAC CAGCACTCAG GTGAACACAG TGGTGAGTGG TGCACTGGAT
    CGATTGCATT ATGAGAAAGA CCCTTGTGTG AAATATGACA TTGGTCGGAA GCTGTGGATC
    TACCTGCATC GTGACCGGAG TGAGGAAGAG TTTGAACGGA TTCATCAAGC TCAAGCAGCG
    GCAGCTAAAG CCAGAAAAGC TCTTCAACAA AAACCCAAGC CGCCATCCAA GGTGAAGTCC
    AGTAATAAGG AGGGCTCCAC GAAGGGCCTT AGCGGTCCTT CCGAGCAGAG CCAGATGAGC
    CTCAGTGACT CTAGCATGCC ACCAACCCCA GTTACGCCTG TAACACCCAC CACGCCAGCA
    TTGCCCACCC CCATCTCTCC TCCACCTGTG TCAGCGGTGA ACAGAAGTGG CTCTACCACT
    GTCTCTGAGC CAGCCAAGTC TAGTTCAGGT GTTCTTCTGG TGTCCTCACC AACAATGCCA
    CAGCTAGGGA CGATGCTTTC CCCAGCTTCC ATCCAGACTC CACCCAGTTC TCAGGCCACT
    GCTCGGGTCG TCAGCCATTC CAGCTCAGCA GGACTACCCC AGGTTCGGGT GGTAGCCCAG
    CCCAGCCTTC CTGCTGTTTC CCAGCAGTCG GTAGGGCCAG CACAGCCACT ACCCCAGATG
    CCAGCAGGGC CACAGATTCG TGTGCCAGTC ACTGCTACCC AAACCAAAGT AGTACCCCAG
    GCAGTTATGG CAACAGTTCC AGTCAAGGGG CAAACTGCAG CAGCCTCTGT GCAACGGCCT
    GGACCTGGGC AGACAGGGCT CACAGTGACG AATCTTCCGG CTGCAGTCAG CCCCGTGAGC
    AAGACAGCCA TGAGTTCTCC TGGGAACTCT GCTCCAAGTG CCTCCACCAC AGCCGTTATT
    CAGAATGTCA CAGGACAGAA CATCATCAAG CAGGTGTCGA TCACTGGACA GCTTGGTGTG
    AAGCCCCAGA CAGGCAGCAG CATTCCACTC ACAGCCACAA ACTTCCGTAT CCAGGGTAAG
    GATGTACTGC GCCTGCCGCC TTCTTCCATC ACCACAGATG CCAAGGGCCA GACGGTTTTG
    AGAATCACTC CAGACATGAT GGCCACATTG GCCAAGTCTC AGGTTACCAC AGTCAAACTG
    ACTCAGGACC TCTTTGGGGC AGGAAGTGGC ACTTCAGGCA AAGGCATCTC TGCTACTTTG
    CATGTTACTT CCAACCCTGT CCACGCAGCT GACAGCCCTG CCAAGGCCCC TTCAGCCAGT
    GTTCCTTCAT CAGCTCCAGC AGGTACTACT GTGGTCAAAG TAACTCCTGA GCTCAAGCCA
    ACAGAAACTT CAAATTCAGC TTTTCGCTTG ATGCCAGCTC TTGGTGTAAG TGTGGCAGAT
    CAGAAGGGAA AGAACACAGT GGCCTCTTCA GAAGCAAAAC CCGCCGCCAC AATCCGCATT
    GTGCAGGGGC TGGGAGTGAT GCCTCCTAAA GCAGGCCAGA CCATTACTGT TGCAGCACAT
    GCAAAGCAAG GAGCCTCTGT TGCTGGAGGG TCTGGAACTG TGCATTCCTC AACGGTGTCC
    TTACCCAGTA TAAATGCCGC TGTGTCAAAG ACTGTGGCTG TGGCTTCTGG GGCAACAAGC
    ACCCCCATCA GCATCGGGAC TGGAGCCCCC ACTGTGCGAC AGGTTCCTGT TAACACTACA
    GTTGTGTCCA CATCCCAGTC TGGGAAACTG CCTACCAGAA TCACAGTTCC TCTCTCTGTG
    ATTAGCCAGC CAATGAAGGG CAAGAGCGTG GTCACAGCCC CCATCATCAA AGGCAACCTT
    GGAGCCAATC TCAGTGGGCT GGGTCGAAAC ATCATCCTCA CGACCATGCC AGCAGGTACT
    AAGCTCATTG CTGGCAATAA GCCAGTGAGT TTCCTCACTG CTCAGCAGTT GCAGCAGCTT
    CAGCAACAAG GTCAGGCTAC GCAGGTGCGC ATCCAGACCG TCCCAGCATC CCATCTGCAA
    CAGGGCACGG CTTCTGGCTC CTCCAAAGCA GTGTCCACTG TTGTTGTGAC CACAGCTCCA
    TCTCCTAAAC AAGCACCTGA GCAGCAGTGA

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

    RefSeq XP_029337054.1
    CDS114..4043
    Translation

    Target ORF information:

    RefSeq Version XM_029481194.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481194.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAG AACTGACTAT
    GTGGTTCGGC CTAGCACAGG AGAGGAGAAA CGGGTTTTTC AAGAACAGGA GCGTTACAGG
    TATAGCCAAC CCCATAAGGC ATTCACCTTT CGCATGCATG GCTTTGAGTC TGTGGTGGGG
    CCAGTGAAGG GCGTGTTTGA CAAGGAGACC TCCCTCAACA AGGCTCGTGA GCATTCACTG
    CTGCGCTCTG ACCGGCCTGC CTATGTCACC ATTCTGTCTC TTGTTCGGGA TGCTGCAGCT
    CGGCTGCCTA ATGGAGAAGG CACTCGGGCA GAGATCTGTG AACTGCTCAA GGACTCTCAG
    TTTCTGGCTC CAGATGTCAC CAGCACTCAG GTGAACACAG TGGTGAGTGG TGCACTGGAT
    CGATTGCATT ATGAGAAAGA CCCTTGTGTG AAATATGACA TTGGTCGGAA GCTGTGGATC
    TACCTGCATC GTGACCGGAG TGAGGAAGAG TTTGAACGGA TTCATCAAGC TCAAGCAGCG
    GCAGCTAAAG CCAGAAAAGC TCTTCAACAA AAACCCAAGC CGCCATCCAA GGTGAAGTCC
    AGTAATAAGG AGGGCTCCAC GAAGGGCCTT AGCGGTCCTT CCGAGCAGAG CCAGATGAGC
    CTCAGTGACT CTAGCATGCC ACCAACCCCA GTTACGCCTG TAACACCCAC CACGCCAGCA
    TTGCCCACCC CCATCTCTCC TCCACCTGTG TCAGCGGTGA ACAGAAGTGG CTCTACCACT
    GTCTCTGAGC CAGCCAAGTC TAGTTCAGGT GTTCTTCTGG TGTCCTCACC AACAATGCCA
    CAGCTAGGGA CGATGCTTTC CCCAGCTTCC ATCCAGACTC CACCCAGTTC TCAGGCCACT
    GCTCGGGTCG TCAGCCATTC CAGCTCAGCA GGACTACCCC AGGTTCGGGT GGTAGCCCAG
    CCCAGCCTTC CTGCTGTTTC CCAGCAGTCG GTAGGGCCAG CACAGCCACT ACCCCAGATG
    CCAGCAGGGC CACAGATTCG TGTGCCAGTC ACTGCTACCC AAACCAAAGT AGTACCCCAG
    GCAGTTATGG CAACAGTTCC AGTCAAGGGG CAAACTGCAG CAGCCTCTGT GCAACGGCCT
    GGACCTGGGC AGACAGGGCT CACAGTGACG AATCTTCCGG CTGCAGTCAG CCCCGTGAGC
    AAGACAGCCA TGAGTTCTCC TGGGAACTCT GCTCCAAGTG CCTCCACCAC AGCCGTTATT
    CAGAATGTCA CAGGACAGAA CATCATCAAG CAGGTGTCGA TCACTGGACA GCTTGGTGTG
    AAGCCCCAGA CAGGCAGCAG CATTCCACTC ACAGCCACAA ACTTCCGTAT CCAGGGTAAG
    GATGTACTGC GCCTGCCGCC TTCTTCCATC ACCACAGATG CCAAGGGCCA GACGGTTTTG
    AGAATCACTC CAGACATGAT GGCCACATTG GCCAAGTCTC AGGTTACCAC AGTCAAACTG
    ACTCAGGACC TCTTTGGGGC AGGAAGTGGC ACTTCAGGCA AAGGCATCTC TGCTACTTTG
    CATGTTACTT CCAACCCTGT CCACGCAGCT GACAGCCCTG CCAAGGCCCC TTCAGCCAGT
    GTTCCTTCAT CAGCTCCAGC AGGTACTACT GTGGTCAAAG TAACTCCTGA GCTCAAGCCA
    ACAGAAACTT CAAATTCAGC TTTTCGCTTG ATGCCAGCTC TTGGTGTAAG TGTGGCAGAT
    CAGAAGGGAA AGAACACAGT GGCCTCTTCA GAAGCAAAAC CCGCCGCCAC AATCCGCATT
    GTGCAGGGGC TGGGAGTGAT GCCTCCTAAA GCAGGCCAGA CCATTACTGT TGCAGCACAT
    GCAAAGCAAG GAGCCTCTGT TGCTGGAGGG TCTGGAACTG TGCATTCCTC AACGGTGTCC
    TTACCCAGTA TAAATGCCGC TGTGTCAAAG ACTGTGGCTG TGGCTTCTGG GGCAACAAGC
    ACCCCCATCA GCATCGGGAC TGGAGCCCCC ACTGTGCGAC AGGTTCCTGT TAACACTACA
    GTTGTGTCCA CATCCCAGTC TGGGAAACTG CCTACCAGAA TCACAGTTCC TCTCTCTGTG
    ATTAGCCAGC CAATGAAGGG CAAGAGCGTG GTCACAGCCC CCATCATCAA AGGCAACCTT
    GGAGCCAATC TCAGTGGGCT GGGTCGAAAC ATCATCCTCA CGACCATGCC AGCAGGTACT
    AAGCTCATTG CTGGCAATAA GCCAGTGAGT TTCCTCACTG CTCAGCAGTT GCAGCAGCTT
    CAGCAACAAG GTCAGGCTAC GCAGGTGCGC ATCCAGACCG TCCCAGCATC CCATCTGCAA
    CAGGGCACGG CTTCTGGCTC CTCCAAAGCA GTGTCCACTG TTGTTGTGAC CACAGCTCCA
    TCTCCTAAAC AAGCACCTGA GCAGCAGTGA

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

    CloneID OMv75781
    Clone ID Related Accession (Same CDS sequence) XM_029481198.1
    Accession Version XM_029481198.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAC TGACTATGTG
    GTTCGGCCTA GCACAGGAGA GGAGAAACGG GTTTTTCAAG AACAGGAGCG TTACAGGTAT
    AGCCAACCCC ATAAGGCATT CACCTTTCGC ATGCATGGCT TTGAGTCTGT GGTGGGGCCA
    GTGAAGGGCG TGTTTGACAA GGAGACCTCC CTCAACAAGG CTCGTGAGCA TTCACTGCTG
    CGCTCTGACC GGCCTGCCTA TGTCACCATT CTGTCTCTTG TTCGGGATGC TGCAGCTCGG
    CTGCCTAATG GAGAAGGCAC TCGGGCAGAG ATCTGTGAAC TGCTCAAGGA CTCTCAGTTT
    CTGGCTCCAG ATGTCACCAG CACTCAGGTG AACACAGTGG TGAGTGGTGC ACTGGATCGA
    TTGCATTATG AGAAAGACCC TTGTGTGAAA TATGACATTG GTCGGAAGCT GTGGATCTAC
    CTGCATCGTG ACCGGAGTGA GGAAGAGTTT GAACGGATTC ATCAAGCTCA AGCAGCGGCA
    GCTAAAGCCA GAAAAGCTCT TCAACAAAAA CCCAAGCCGC CATCCAAGGT GAAGTCCAGT
    AATAAGGAGG GCTCCACGAA GGGCCTTAGC GGTCCTTCCG AGCAGAGCCA GATGAGCCTC
    AGTGACTCTA GCATGCCACC AACCCCAGTT ACGCCTGTAA CACCCACCAC GCCAGCATTG
    CCCACCCCCA TCTCTCCTCC ACCTGTGTCA GCGGTGAACA GAAGTGGCTC TACCACTGTC
    TCTGAGCCAG CCAAGTCTAG TTCAGGTGTT CTTCTGGTGT CCTCACCAAC AATGCCACAG
    CTAGGGACGA TGCTTTCCCC AGCTTCCATC CAGACTCCAC CCAGTTCTCA GGCCACTGCT
    CGGGTCGTCA GCCATTCCAG CTCAGCAGGA CTACCCCAGG TTCGGGTGGT AGCCCAGCCC
    AGCCTTCCTG CTGTTTCCCA GCAGTCGGTA GGGCCAGCAC AGCCACTACC CCAGATGCCA
    GCAGGGCCAC AGATTCGTGT GCCAGTCACT GCTACCCAAA CCAAAGTAGT ACCCCAGGCA
    GTTATGGCAA CAGTTCCAGT CAAGGGGCAA ACTGCAGCAG CCTCTGTGCA ACGGCCTGGA
    CCTGGGCAGA CAGGGCTCAC AGTGACGAAT CTTCCGGCTG CAGTCAGCCC CGTGAGCAAG
    ACAGCCATGA GTTCTCCTGG GAACTCTGCT CCAAGTGCCT CCACCACAGC CGTTATTCAG
    AATGTCACAG GACAGAACAT CATCAAGCAG GTGTCGATCA CTGGACAGCT TGGTGTGAAG
    CCCCAGACAG GCAGCAGCAT TCCACTCACA GCCACAAACT TCCGTATCCA GGGTAAGGAT
    GTACTGCGCC TGCCGCCTTC TTCCATCACC ACAGATGCCA AGGGCCAGAC GGTTTTGAGA
    ATCACTCCAG ACATGATGGC CACATTGGCC AAGTCTCAGG TTACCACAGT CAAACTGACT
    CAGGACCTCT TTGGGGCAGG AAGTGGCACT TCAGGCAAAG GCATCTCTGC TACTTTGCAT
    GTTACTTCCA ACCCTGTCCA CGCAGCTGAC AGCCCTGCCA AGGCCCCTTC AGCCAGTGTT
    CCTTCATCAG CTCCAGCAGG TACTACTGTG GTCAAAGTAA CTCCTGAGCT CAAGCCAACA
    GAAACTTCAA ATTCAGCTTT TCGCTTGATG CCAGCTCTTG GTGTAAGTGT GGCAGATCAG
    AAGGGAAAGA ACACAGTGGC CTCTTCAGAA GCAAAACCCG CCGCCACAAT CCGCATTGTG
    CAGGGGCTGG GAGTGATGCC TCCTAAAGCA GGCCAGACCA TTACTGTTGC AGCACATGCA
    AAGCAAGGAG CCTCTGTTGC TGGAGGGTCT GGAACTGTGC ATTCCTCAAC GGTGTCCTTA
    CCCAGTATAA ATGCCGCTGT GTCAAAGACT GTGGCTGTGG CTTCTGGGGC AACAAGCACC
    CCCATCAGCA TCGGGACTGG AGCCCCCACT GTGCGACAGG TTCCTGTTAA CACTACAGTT
    GTGTCCACAT CCCAGTCTGG GAAACTGCCT ACCAGAATCA CAGTTCCTCT CTCTGTGATT
    AGCCAGCCAA TGAAGGGCAA GAGCGTGGTC ACAGCCCCCA TCATCAAAGG CAACCTTGGA
    GCCAATCTCA GTGGGCTGGG TCGAAACATC ATCCTCACGA CCATGCCAGC AGGTACTAAG
    CTCATTGCTG GCAATAAGCC AGTGAGTTTC CTCACTGCTC AGCAGTTGCA GCAGCTTCAG
    CAACAAGGTC AGGCTACGCA GGTGCGCATC CAGACCGTCC CAGCATCCCA TCTGCAACAG
    GGCACGGCTT CTGGCTCCTC CAAAGCAGTG TCCACTGTTG TTGTGACCAC AGCTCCATCT
    CCTAAACAAG CACCTGAGCA GCAGTGA

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

    RefSeq XP_029337058.1
    CDS114..4040
    Translation

    Target ORF information:

    RefSeq Version XM_029481198.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481198.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    CAGGAAAATG AAGACAGCTC AGATGCCATG ACACCTGTCC CTCGAGTAAC TGACTATGTG
    GTTCGGCCTA GCACAGGAGA GGAGAAACGG GTTTTTCAAG AACAGGAGCG TTACAGGTAT
    AGCCAACCCC ATAAGGCATT CACCTTTCGC ATGCATGGCT TTGAGTCTGT GGTGGGGCCA
    GTGAAGGGCG TGTTTGACAA GGAGACCTCC CTCAACAAGG CTCGTGAGCA TTCACTGCTG
    CGCTCTGACC GGCCTGCCTA TGTCACCATT CTGTCTCTTG TTCGGGATGC TGCAGCTCGG
    CTGCCTAATG GAGAAGGCAC TCGGGCAGAG ATCTGTGAAC TGCTCAAGGA CTCTCAGTTT
    CTGGCTCCAG ATGTCACCAG CACTCAGGTG AACACAGTGG TGAGTGGTGC ACTGGATCGA
    TTGCATTATG AGAAAGACCC TTGTGTGAAA TATGACATTG GTCGGAAGCT GTGGATCTAC
    CTGCATCGTG ACCGGAGTGA GGAAGAGTTT GAACGGATTC ATCAAGCTCA AGCAGCGGCA
    GCTAAAGCCA GAAAAGCTCT TCAACAAAAA CCCAAGCCGC CATCCAAGGT GAAGTCCAGT
    AATAAGGAGG GCTCCACGAA GGGCCTTAGC GGTCCTTCCG AGCAGAGCCA GATGAGCCTC
    AGTGACTCTA GCATGCCACC AACCCCAGTT ACGCCTGTAA CACCCACCAC GCCAGCATTG
    CCCACCCCCA TCTCTCCTCC ACCTGTGTCA GCGGTGAACA GAAGTGGCTC TACCACTGTC
    TCTGAGCCAG CCAAGTCTAG TTCAGGTGTT CTTCTGGTGT CCTCACCAAC AATGCCACAG
    CTAGGGACGA TGCTTTCCCC AGCTTCCATC CAGACTCCAC CCAGTTCTCA GGCCACTGCT
    CGGGTCGTCA GCCATTCCAG CTCAGCAGGA CTACCCCAGG TTCGGGTGGT AGCCCAGCCC
    AGCCTTCCTG CTGTTTCCCA GCAGTCGGTA GGGCCAGCAC AGCCACTACC CCAGATGCCA
    GCAGGGCCAC AGATTCGTGT GCCAGTCACT GCTACCCAAA CCAAAGTAGT ACCCCAGGCA
    GTTATGGCAA CAGTTCCAGT CAAGGGGCAA ACTGCAGCAG CCTCTGTGCA ACGGCCTGGA
    CCTGGGCAGA CAGGGCTCAC AGTGACGAAT CTTCCGGCTG CAGTCAGCCC CGTGAGCAAG
    ACAGCCATGA GTTCTCCTGG GAACTCTGCT CCAAGTGCCT CCACCACAGC CGTTATTCAG
    AATGTCACAG GACAGAACAT CATCAAGCAG GTGTCGATCA CTGGACAGCT TGGTGTGAAG
    CCCCAGACAG GCAGCAGCAT TCCACTCACA GCCACAAACT TCCGTATCCA GGGTAAGGAT
    GTACTGCGCC TGCCGCCTTC TTCCATCACC ACAGATGCCA AGGGCCAGAC GGTTTTGAGA
    ATCACTCCAG ACATGATGGC CACATTGGCC AAGTCTCAGG TTACCACAGT CAAACTGACT
    CAGGACCTCT TTGGGGCAGG AAGTGGCACT TCAGGCAAAG GCATCTCTGC TACTTTGCAT
    GTTACTTCCA ACCCTGTCCA CGCAGCTGAC AGCCCTGCCA AGGCCCCTTC AGCCAGTGTT
    CCTTCATCAG CTCCAGCAGG TACTACTGTG GTCAAAGTAA CTCCTGAGCT CAAGCCAACA
    GAAACTTCAA ATTCAGCTTT TCGCTTGATG CCAGCTCTTG GTGTAAGTGT GGCAGATCAG
    AAGGGAAAGA ACACAGTGGC CTCTTCAGAA GCAAAACCCG CCGCCACAAT CCGCATTGTG
    CAGGGGCTGG GAGTGATGCC TCCTAAAGCA GGCCAGACCA TTACTGTTGC AGCACATGCA
    AAGCAAGGAG CCTCTGTTGC TGGAGGGTCT GGAACTGTGC ATTCCTCAAC GGTGTCCTTA
    CCCAGTATAA ATGCCGCTGT GTCAAAGACT GTGGCTGTGG CTTCTGGGGC AACAAGCACC
    CCCATCAGCA TCGGGACTGG AGCCCCCACT GTGCGACAGG TTCCTGTTAA CACTACAGTT
    GTGTCCACAT CCCAGTCTGG GAAACTGCCT ACCAGAATCA CAGTTCCTCT CTCTGTGATT
    AGCCAGCCAA TGAAGGGCAA GAGCGTGGTC ACAGCCCCCA TCATCAAAGG CAACCTTGGA
    GCCAATCTCA GTGGGCTGGG TCGAAACATC ATCCTCACGA CCATGCCAGC AGGTACTAAG
    CTCATTGCTG GCAATAAGCC AGTGAGTTTC CTCACTGCTC AGCAGTTGCA GCAGCTTCAG
    CAACAAGGTC AGGCTACGCA GGTGCGCATC CAGACCGTCC CAGCATCCCA TCTGCAACAG
    GGCACGGCTT CTGGCTCCTC CAAAGCAGTG TCCACTGTTG TTGTGACCAC AGCTCCATCT
    CCTAAACAAG CACCTGAGCA GCAGTGA

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

    CloneID OMv75782
    Clone ID Related Accession (Same CDS sequence) XM_029481199.1
    Accession Version XM_029481199.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    3901
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    GAAAATGAAG ACAGCTCAGA TGCCATGACA CCTGTCCCTC GAGTAACTGA CTATGTGGTT
    CGGCCTAGCA CAGGAGAGGA GAAACGGGTT TTTCAAGAAC AGGAGCGTTA CAGGTATAGC
    CAACCCCATA AGGCATTCAC CTTTCGCATG CATGGCTTTG AGTCTGTGGT GGGGCCAGTG
    AAGGGCGTGT TTGACAAGGA GACCTCCCTC AACAAGGCTC GTGAGCATTC ACTGCTGCGC
    TCTGACCGGC CTGCCTATGT CACCATTCTG TCTCTTGTTC GGGATGCTGC AGCTCGGCTG
    CCTAATGGAG AAGGCACTCG GGCAGAGATC TGTGAACTGC TCAAGGACTC TCAGTTTCTG
    GCTCCAGATG TCACCAGCAC TCAGGTGAAC ACAGTGGTGA GTGGTGCACT GGATCGATTG
    CATTATGAGA AAGACCCTTG TGTGAAATAT GACATTGGTC GGAAGCTGTG GATCTACCTG
    CATCGTGACC GGAGTGAGGA AGAGTTTGAA CGGATTCATC AAGCTCAAGC AGCGGCAGCT
    AAAGCCAGAA AAGCTCTTCA ACAAAAACCC AAGCCGCCAT CCAAGGTGAA GTCCAGTAAT
    AAGGAGGGCT CCACGAAGGG CCTTAGCGGT CCTTCCGAGC AGAGCCAGAT GAGCCTCAGT
    GACTCTAGCA TGCCACCAAC CCCAGTTACG CCTGTAACAC CCACCACGCC AGCATTGCCC
    ACCCCCATCT CTCCTCCACC TGTGTCAGCG GTGAACAGAA GTGGCTCTAC CACTGTCTCT
    GAGCCAGCCA AGTCTAGTTC AGGTGTTCTT CTGGTGTCCT CACCAACAAT GCCACAGCTA
    GGGACGATGC TTTCCCCAGC TTCCATCCAG ACTCCACCCA GTTCTCAGGC CACTGCTCGG
    GTCGTCAGCC ATTCCAGCTC AGCAGGACTA CCCCAGGTTC GGGTGGTAGC CCAGCCCAGC
    CTTCCTGCTG TTTCCCAGCA GTCGGTAGGG CCAGCACAGC CACTACCCCA GATGCCAGCA
    GGGCCACAGA TTCGTGTGCC AGTCACTGCT ACCCAAACCA AAGTAGTACC CCAGGCAGTT
    ATGGCAACAG TTCCAGTCAA GGGGCAAACT GCAGCAGCCT CTGTGCAACG GCCTGGACCT
    GGGCAGACAG GGCTCACAGT GACGAATCTT CCGGCTGCAG TCAGCCCCGT GAGCAAGACA
    GCCATGAGTT CTCCTGGGAA CTCTGCTCCA AGTGCCTCCA CCACAGCCGT TATTCAGAAT
    GTCACAGGAC AGAACATCAT CAAGCAGGTG TCGATCACTG GACAGCTTGG TGTGAAGCCC
    CAGACAGGCA GCAGCATTCC ACTCACAGCC ACAAACTTCC GTATCCAGGG TAAGGATGTA
    CTGCGCCTGC CGCCTTCTTC CATCACCACA GATGCCAAGG GCCAGACGGT TTTGAGAATC
    ACTCCAGACA TGATGGCCAC ATTGGCCAAG TCTCAGGTTA CCACAGTCAA ACTGACTCAG
    GACCTCTTTG GGGCAGGAAG TGGCACTTCA GGCAAAGGCA TCTCTGCTAC TTTGCATGTT
    ACTTCCAACC CTGTCCACGC AGCTGACAGC CCTGCCAAGG CCCCTTCAGC CAGTGTTCCT
    TCATCAGCTC CAGCAGGTAC TACTGTGGTC AAAGTAACTC CTGAGCTCAA GCCAACAGAA
    ACTTCAAATT CAGCTTTTCG CTTGATGCCA GCTCTTGGTG TAAGTGTGGC AGATCAGAAG
    GGAAAGAACA CAGTGGCCTC TTCAGAAGCA AAACCCGCCG CCACAATCCG CATTGTGCAG
    GGGCTGGGAG TGATGCCTCC TAAAGCAGGC CAGACCATTA CTGTTGCAGC ACATGCAAAG
    CAAGGAGCCT CTGTTGCTGG AGGGTCTGGA ACTGTGCATT CCTCAACGGT GTCCTTACCC
    AGTATAAATG CCGCTGTGTC AAAGACTGTG GCTGTGGCTT CTGGGGCAAC AAGCACCCCC
    ATCAGCATCG GGACTGGAGC CCCCACTGTG CGACAGGTTC CTGTTAACAC TACAGTTGTG
    TCCACATCCC AGTCTGGGAA ACTGCCTACC AGAATCACAG TTCCTCTCTC TGTGATTAGC
    CAGCCAATGA AGGGCAAGAG CGTGGTCACA GCCCCCATCA TCAAAGGCAA CCTTGGAGCC
    AATCTCAGTG GGCTGGGTCG AAACATCATC CTCACGACCA TGCCAGCAGG TACTAAGCTC
    ATTGCTGGCA ATAAGCCAGT GAGTTTCCTC ACTGCTCAGC AGTTGCAGCA GCTTCAGCAA
    CAAGGTCAGG CTACGCAGGT GCGCATCCAG ACCGTCCCAG CATCCCATCT GCAACAGGGC
    ACGGCTTCTG GCTCCTCCAA AGCAGTGTCC ACTGTTGTTG TGACCACAGC TCCATCTCCT
    AAACAAGCAC CTGAGCAGCA GTGA

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

    RefSeq XP_029337059.1
    CDS114..4037
    Translation

    Target ORF information:

    RefSeq Version XM_029481199.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481199.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG CCACGTTGGA TTTACAAGAA
    AAATTTTCTT TTGAAGATCT CAGCTCATGG CTTCCAAGCT CTCCAGCACG TTCTCCTAGT
    CCTGCGGTGC CCCTGAGGGT GGTGCCCACG CTTTCCACCA CGGATATGAA AACTGCAGAT
    AAAATAGAAC TGGGGGACAG TGACCTGAAG TTAATGTTAA AGAAGCACCA TGAGAAGCGG
    AAACATCAAC CAGATCACCC AGACCTTTTG ACAGGGGACC TGACCCTCAG TGACATCATG
    ACTCGAGTAA ATGCCGGCAG GAAGGGCTCC CTAGCAGCCT TGTATGATTT GGCTGTTCTT
    AAAAAAAAGG TGAAGGAAAA GGAGGAGAAG AAAAAGAAGA AAATAAAGTT GATTAAGTCA
    GAAGCAGAGG ATCTGGCTGA GCCCCTAAGC AATACTGAAG GGGTCCCAAC TCTCTCACAG
    GCCCCCTCTC CCCTGGCAAT ATCGTCTATC AAGGAAGAAC CCCTGGAAGA CATCAAGCCT
    TGCCTTGGAA TCAATGAAAT ATCTTCCAGT TTTTTCTCTC TTCTGTTAGA GATCTTGCTG
    CTGGAAAGTC AGGCTAGCCT TCCTATGCTG GAGGATCGAG TTTTGGACTG GCAGTCTTCT
    CCAGCCAGCT CCCTCAACAG CTGGTTCTCT GCTGCCCCCA ACTGGGCTGA GTTGGTGTTG
    CCTGCTCTGC AGTATCTTGC TGGAGAAAGC CGAGCGGTTC CTTCTAGTTT CTCTCCATTT
    GTTGAATTCA AAGAGAAAAC CCAGCAGTGG AAATTGCTTG GTCAATCTCA AGATAACGAA
    AAGGAATTAG CTGCTCTCTT CCACCTGTGG CTGGAAACCA AAGACCAGGC CTTCTGTAAG
    GAAAATGAAG ACAGCTCAGA TGCCATGACA CCTGTCCCTC GAGTAACTGA CTATGTGGTT
    CGGCCTAGCA CAGGAGAGGA GAAACGGGTT TTTCAAGAAC AGGAGCGTTA CAGGTATAGC
    CAACCCCATA AGGCATTCAC CTTTCGCATG CATGGCTTTG AGTCTGTGGT GGGGCCAGTG
    AAGGGCGTGT TTGACAAGGA GACCTCCCTC AACAAGGCTC GTGAGCATTC ACTGCTGCGC
    TCTGACCGGC CTGCCTATGT CACCATTCTG TCTCTTGTTC GGGATGCTGC AGCTCGGCTG
    CCTAATGGAG AAGGCACTCG GGCAGAGATC TGTGAACTGC TCAAGGACTC TCAGTTTCTG
    GCTCCAGATG TCACCAGCAC TCAGGTGAAC ACAGTGGTGA GTGGTGCACT GGATCGATTG
    CATTATGAGA AAGACCCTTG TGTGAAATAT GACATTGGTC GGAAGCTGTG GATCTACCTG
    CATCGTGACC GGAGTGAGGA AGAGTTTGAA CGGATTCATC AAGCTCAAGC AGCGGCAGCT
    AAAGCCAGAA AAGCTCTTCA ACAAAAACCC AAGCCGCCAT CCAAGGTGAA GTCCAGTAAT
    AAGGAGGGCT CCACGAAGGG CCTTAGCGGT CCTTCCGAGC AGAGCCAGAT GAGCCTCAGT
    GACTCTAGCA TGCCACCAAC CCCAGTTACG CCTGTAACAC CCACCACGCC AGCATTGCCC
    ACCCCCATCT CTCCTCCACC TGTGTCAGCG GTGAACAGAA GTGGCTCTAC CACTGTCTCT
    GAGCCAGCCA AGTCTAGTTC AGGTGTTCTT CTGGTGTCCT CACCAACAAT GCCACAGCTA
    GGGACGATGC TTTCCCCAGC TTCCATCCAG ACTCCACCCA GTTCTCAGGC CACTGCTCGG
    GTCGTCAGCC ATTCCAGCTC AGCAGGACTA CCCCAGGTTC GGGTGGTAGC CCAGCCCAGC
    CTTCCTGCTG TTTCCCAGCA GTCGGTAGGG CCAGCACAGC CACTACCCCA GATGCCAGCA
    GGGCCACAGA TTCGTGTGCC AGTCACTGCT ACCCAAACCA AAGTAGTACC CCAGGCAGTT
    ATGGCAACAG TTCCAGTCAA GGGGCAAACT GCAGCAGCCT CTGTGCAACG GCCTGGACCT
    GGGCAGACAG GGCTCACAGT GACGAATCTT CCGGCTGCAG TCAGCCCCGT GAGCAAGACA
    GCCATGAGTT CTCCTGGGAA CTCTGCTCCA AGTGCCTCCA CCACAGCCGT TATTCAGAAT
    GTCACAGGAC AGAACATCAT CAAGCAGGTG TCGATCACTG GACAGCTTGG TGTGAAGCCC
    CAGACAGGCA GCAGCATTCC ACTCACAGCC ACAAACTTCC GTATCCAGGG TAAGGATGTA
    CTGCGCCTGC CGCCTTCTTC CATCACCACA GATGCCAAGG GCCAGACGGT TTTGAGAATC
    ACTCCAGACA TGATGGCCAC ATTGGCCAAG TCTCAGGTTA CCACAGTCAA ACTGACTCAG
    GACCTCTTTG GGGCAGGAAG TGGCACTTCA GGCAAAGGCA TCTCTGCTAC TTTGCATGTT
    ACTTCCAACC CTGTCCACGC AGCTGACAGC CCTGCCAAGG CCCCTTCAGC CAGTGTTCCT
    TCATCAGCTC CAGCAGGTAC TACTGTGGTC AAAGTAACTC CTGAGCTCAA GCCAACAGAA
    ACTTCAAATT CAGCTTTTCG CTTGATGCCA GCTCTTGGTG TAAGTGTGGC AGATCAGAAG
    GGAAAGAACA CAGTGGCCTC TTCAGAAGCA AAACCCGCCG CCACAATCCG CATTGTGCAG
    GGGCTGGGAG TGATGCCTCC TAAAGCAGGC CAGACCATTA CTGTTGCAGC ACATGCAAAG
    CAAGGAGCCT CTGTTGCTGG AGGGTCTGGA ACTGTGCATT CCTCAACGGT GTCCTTACCC
    AGTATAAATG CCGCTGTGTC AAAGACTGTG GCTGTGGCTT CTGGGGCAAC AAGCACCCCC
    ATCAGCATCG GGACTGGAGC CCCCACTGTG CGACAGGTTC CTGTTAACAC TACAGTTGTG
    TCCACATCCC AGTCTGGGAA ACTGCCTACC AGAATCACAG TTCCTCTCTC TGTGATTAGC
    CAGCCAATGA AGGGCAAGAG CGTGGTCACA GCCCCCATCA TCAAAGGCAA CCTTGGAGCC
    AATCTCAGTG GGCTGGGTCG AAACATCATC CTCACGACCA TGCCAGCAGG TACTAAGCTC
    ATTGCTGGCA ATAAGCCAGT GAGTTTCCTC ACTGCTCAGC AGTTGCAGCA GCTTCAGCAA
    CAAGGTCAGG CTACGCAGGT GCGCATCCAG ACCGTCCCAG CATCCCATCT GCAACAGGGC
    ACGGCTTCTG GCTCCTCCAA AGCAGTGTCC ACTGTTGTTG TGACCACAGC TCCATCTCCT
    AAACAAGCAC CTGAGCAGCA GTGA

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

    CloneID OMv75783
    Clone ID Related Accession (Same CDS sequence) XM_029481200.1
    Accession Version XM_029481200.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3894bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    3841
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG ATCTCAGCTC ATGGCTTCCA
    AGCTCTCCAG CACGTTCTCC TAGTCCTGCG GTGCCCCTGA GGGTGGTGCC CACGCTTTCC
    ACCACGGATA TGAAAACTGC AGATAAAATA GAACTGGGGG ACAGTGACCT GAAGTTAATG
    TTAAAGAAGC ACCATGAGAA GCGGAAACAT CAACCAGATC ACCCAGACCT TTTGACAGGG
    GACCTGACCC TCAGTGACAT CATGACTCGA GTAAATGCCG GCAGGAAGGG CTCCCTAGCA
    GCCTTGTATG ATTTGGCTGT TCTTAAAAAA AAGGTGAAGG AAAAGGAGGA GAAGAAAAAG
    AAGAAAATAA AGTTGATTAA GTCAGAAGCA GAGGATCTGG CTGAGCCCCT AAGCAATACT
    GAAGGGGTCC CAACTCTCTC ACAGGCCCCC TCTCCCCTGG CAATATCGTC TATCAAGGAA
    GAACCCCTGG AAGACATCAA GCCTTGCCTT GGAATCAATG AAATATCTTC CAGTTTTTTC
    TCTCTTCTGT TAGAGATCTT GCTGCTGGAA AGTCAGGCTA GCCTTCCTAT GCTGGAGGAT
    CGAGTTTTGG ACTGGCAGTC TTCTCCAGCC AGCTCCCTCA ACAGCTGGTT CTCTGCTGCC
    CCCAACTGGG CTGAGTTGGT GTTGCCTGCT CTGCAGTATC TTGCTGGAGA AAGCCGAGCG
    GTTCCTTCTA GTTTCTCTCC ATTTGTTGAA TTCAAAGAGA AAACCCAGCA GTGGAAATTG
    CTTGGTCAAT CTCAAGATAA CGAAAAGGAA TTAGCTGCTC TCTTCCACCT GTGGCTGGAA
    ACCAAAGACC AGGCCTTCTG TAAGCAGGAA AATGAAGACA GCTCAGATGC CATGACACCT
    GTCCCTCGAG TAAGAACTGA CTATGTGGTT CGGCCTAGCA CAGGAGAGGA GAAACGGGTT
    TTTCAAGAAC AGGAGCGTTA CAGGTATAGC CAACCCCATA AGGCATTCAC CTTTCGCATG
    CATGGCTTTG AGTCTGTGGT GGGGCCAGTG AAGGGCGTGT TTGACAAGGA GACCTCCCTC
    AACAAGGCTC GTGAGCATTC ACTGCTGCGC TCTGACCGGC CTGCCTATGT CACCATTCTG
    TCTCTTGTTC GGGATGCTGC AGCTCGGCTG CCTAATGGAG AAGGCACTCG GGCAGAGATC
    TGTGAACTGC TCAAGGACTC TCAGTTTCTG GCTCCAGATG TCACCAGCAC TCAGGTGAAC
    ACAGTGGTGA GTGGTGCACT GGATCGATTG CATTATGAGA AAGACCCTTG TGTGAAATAT
    GACATTGGTC GGAAGCTGTG GATCTACCTG CATCGTGACC GGAGTGAGGA AGAGTTTGAA
    CGGATTCATC AAGCTCAAGC AGCGGCAGCT AAAGCCAGAA AAGCTCTTCA ACAAAAACCC
    AAGCCGCCAT CCAAGGTGAA GTCCAGTAAT AAGGAGGGCT CCACGAAGGG CCTTAGCGGT
    CCTTCCGAGC AGAGCCAGAT GAGCCTCAGT GACTCTAGCA TGCCACCAAC CCCAGTTACG
    CCTGTAACAC CCACCACGCC AGCATTGCCC ACCCCCATCT CTCCTCCACC TGTGTCAGCG
    GTGAACAGAA GTGGCTCTAC CACTGTCTCT GAGCCAGCCA AGTCTAGTTC AGGTGTTCTT
    CTGGTGTCCT CACCAACAAT GCCACAGCTA GGGACGATGC TTTCCCCAGC TTCCATCCAG
    ACTCCACCCA GTTCTCAGGC CACTGCTCGG GTCGTCAGCC ATTCCAGCTC AGCAGGACTA
    CCCCAGGTTC GGGTGGTAGC CCAGCCCAGC CTTCCTGCTG TTTCCCAGCA GTCGGTAGGG
    CCAGCACAGC CACTACCCCA GATGCCAGCA GGGCCACAGA TTCGTGTGCC AGTCACTGCT
    ACCCAAACCA AAGTAGTACC CCAGGCAGTT ATGGCAACAG TTCCAGTCAA GGGGCAAACT
    GCAGCAGCCT CTGTGCAACG GCCTGGACCT GGGCAGACAG GGCTCACAGT GACGAATCTT
    CCGGCTGCAG TCAGCCCCGT GAGCAAGACA GCCATGAGTT CTCCTGGGAA CTCTGCTCCA
    AGTGCCTCCA CCACAGCCGT TATTCAGAAT GTCACAGGAC AGAACATCAT CAAGCAGGTG
    TCGATCACTG GACAGCTTGG TGTGAAGCCC CAGACAGGCA GCAGCATTCC ACTCACAGCC
    ACAAACTTCC GTATCCAGGG TAAGGATGTA CTGCGCCTGC CGCCTTCTTC CATCACCACA
    GATGCCAAGG GCCAGACGGT TTTGAGAATC ACTCCAGACA TGATGGCCAC ATTGGCCAAG
    TCTCAGGTTA CCACAGTCAA ACTGACTCAG GACCTCTTTG GGGCAGGAAG TGGCACTTCA
    GGCAAAGGCA TCTCTGCTAC TTTGCATGTT ACTTCCAACC CTGTCCACGC AGCTGACAGC
    CCTGCCAAGG CCCCTTCAGC CAGTGTTCCT TCATCAGCTC CAGCAGGTAC TACTGTGGTC
    AAAGTAACTC CTGAGCTCAA GCCAACAGAA ACTTCAAATT CAGCTTTTCG CTTGATGCCA
    GCTCTTGGTG TAAGTGTGGC AGATCAGAAG GGAAAGAACA CAGTGGCCTC TTCAGAAGCA
    AAACCCGCCG CCACAATCCG CATTGTGCAG GGGCTGGGAG TGATGCCTCC TAAAGCAGGC
    CAGACCATTA CTGTTGCAGC ACATGCAAAG CAAGGAGCCT CTGTTGCTGG AGGGTCTGGA
    ACTGTGCATT CCTCAACGGT GTCCTTACCC AGTATAAATG CCGCTGTGTC AAAGACTGTG
    GCTGTGGCTT CTGGGGCAAC AAGCACCCCC ATCAGCATCG GGACTGGAGC CCCCACTGTG
    CGACAGGTTC CTGTTAACAC TACAGTTGTG TCCACATCCC AGTCTGGGAA ACTGCCTACC
    AGAATCACAG TTCCTCTCTC TGTGATTAGC CAGCCAATGA AGGGCAAGAG CGTGGTCACA
    GCCCCCATCA TCAAAGGCAA CCTTGGAGCC AATCTCAGTG GGCTGGGTCG AAACATCATC
    CTCACGACCA TGCCAGCAGG TACTAAGCTC ATTGCTGGCA ATAAGCCAGT GAGTTTCCTC
    ACTGCTCAGC AGTTGCAGCA GCTTCAGCAA CAAGGTCAGG CTACGCAGGT GCGCATCCAG
    ACCGTCCCAG CATCCCATCT GCAACAGGGC ACGGCTTCTG GCTCCTCCAA AGCAGTGTCC
    ACTGTTGTTG TGACCACAGC TCCATCTCCT AAACAAGCAC CTGAGCAGCA GTGA

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

    RefSeq XP_029337060.1
    CDS114..4007
    Translation

    Target ORF information:

    RefSeq Version XM_029481200.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481200.1

    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
    ATGGATTCCT TGGACCACAT GCTGACAGAT CCCCTTGAAC TTGGTCCTTG TGGAGATGGT 
    CACAGTCCGG GAATCATGGA GGACTGCCTT CTGGGTGGTA CCAGGGTTAG TCTGCCTGAA
    GACCTTCTGG AGGATCCCGA GATATTCTTT GATGTCGTCA GCCTGTCCAC GTGGCAGGAA
    GTATTAAGTG ACTCTCAGCG TGAGCACCTC CAGCAGTTCC TGCCTCGGTT TCCTGCGGAC
    AGTGTGGAGC AGCAGAGTGA GCTCATCCTT GCCCTATTCA GTGGGGAGAA CTTCCGCTTC
    GGAAACCCGC TGCACATCGC CCAGAAGCTC TTCCGAGATG GACACTTTAA CCCTGAGGTG
    GTCAAGTATC GTCAGCTCTG CTTCAAGTCA CAGTACAAGC GGTATCTCAA CTCCCAACAA
    CAGTATTTCC ACCGGCTGCT GAAACAGATT CTTGCTTCCA GGAGTGATCT CTTGGAGATG
    GCTCGTAGGA GTGGCCCTGC TCTTCCCTTT CCACACAAGC ACCATTCACC GTCCCGAAGC
    CCCGAGGAGC GGGAGTGGCG GACCCAGCAG CGTTACTTGA AAGTCTTAAG GGAAGTGAAG
    GAGGAATGTG GCGACACTGC TCTGTCCTCT GATGAGGAGG ATCTCAGCTC ATGGCTTCCA
    AGCTCTCCAG CACGTTCTCC TAGTCCTGCG GTGCCCCTGA GGGTGGTGCC CACGCTTTCC
    ACCACGGATA TGAAAACTGC AGATAAAATA GAACTGGGGG ACAGTGACCT GAAGTTAATG
    TTAAAGAAGC ACCATGAGAA GCGGAAACAT CAACCAGATC ACCCAGACCT TTTGACAGGG
    GACCTGACCC TCAGTGACAT CATGACTCGA GTAAATGCCG GCAGGAAGGG CTCCCTAGCA
    GCCTTGTATG ATTTGGCTGT TCTTAAAAAA AAGGTGAAGG AAAAGGAGGA GAAGAAAAAG
    AAGAAAATAA AGTTGATTAA GTCAGAAGCA GAGGATCTGG CTGAGCCCCT AAGCAATACT
    GAAGGGGTCC CAACTCTCTC ACAGGCCCCC TCTCCCCTGG CAATATCGTC TATCAAGGAA
    GAACCCCTGG AAGACATCAA GCCTTGCCTT GGAATCAATG AAATATCTTC CAGTTTTTTC
    TCTCTTCTGT TAGAGATCTT GCTGCTGGAA AGTCAGGCTA GCCTTCCTAT GCTGGAGGAT
    CGAGTTTTGG ACTGGCAGTC TTCTCCAGCC AGCTCCCTCA ACAGCTGGTT CTCTGCTGCC
    CCCAACTGGG CTGAGTTGGT GTTGCCTGCT CTGCAGTATC TTGCTGGAGA AAGCCGAGCG
    GTTCCTTCTA GTTTCTCTCC ATTTGTTGAA TTCAAAGAGA AAACCCAGCA GTGGAAATTG
    CTTGGTCAAT CTCAAGATAA CGAAAAGGAA TTAGCTGCTC TCTTCCACCT GTGGCTGGAA
    ACCAAAGACC AGGCCTTCTG TAAGCAGGAA AATGAAGACA GCTCAGATGC CATGACACCT
    GTCCCTCGAG TAAGAACTGA CTATGTGGTT CGGCCTAGCA CAGGAGAGGA GAAACGGGTT
    TTTCAAGAAC AGGAGCGTTA CAGGTATAGC CAACCCCATA AGGCATTCAC CTTTCGCATG
    CATGGCTTTG AGTCTGTGGT GGGGCCAGTG AAGGGCGTGT TTGACAAGGA GACCTCCCTC
    AACAAGGCTC GTGAGCATTC ACTGCTGCGC TCTGACCGGC CTGCCTATGT CACCATTCTG
    TCTCTTGTTC GGGATGCTGC AGCTCGGCTG CCTAATGGAG AAGGCACTCG GGCAGAGATC
    TGTGAACTGC TCAAGGACTC TCAGTTTCTG GCTCCAGATG TCACCAGCAC TCAGGTGAAC
    ACAGTGGTGA GTGGTGCACT GGATCGATTG CATTATGAGA AAGACCCTTG TGTGAAATAT
    GACATTGGTC GGAAGCTGTG GATCTACCTG CATCGTGACC GGAGTGAGGA AGAGTTTGAA
    CGGATTCATC AAGCTCAAGC AGCGGCAGCT AAAGCCAGAA AAGCTCTTCA ACAAAAACCC
    AAGCCGCCAT CCAAGGTGAA GTCCAGTAAT AAGGAGGGCT CCACGAAGGG CCTTAGCGGT
    CCTTCCGAGC AGAGCCAGAT GAGCCTCAGT GACTCTAGCA TGCCACCAAC CCCAGTTACG
    CCTGTAACAC CCACCACGCC AGCATTGCCC ACCCCCATCT CTCCTCCACC TGTGTCAGCG
    GTGAACAGAA GTGGCTCTAC CACTGTCTCT GAGCCAGCCA AGTCTAGTTC AGGTGTTCTT
    CTGGTGTCCT CACCAACAAT GCCACAGCTA GGGACGATGC TTTCCCCAGC TTCCATCCAG
    ACTCCACCCA GTTCTCAGGC CACTGCTCGG GTCGTCAGCC ATTCCAGCTC AGCAGGACTA
    CCCCAGGTTC GGGTGGTAGC CCAGCCCAGC CTTCCTGCTG TTTCCCAGCA GTCGGTAGGG
    CCAGCACAGC CACTACCCCA GATGCCAGCA GGGCCACAGA TTCGTGTGCC AGTCACTGCT
    ACCCAAACCA AAGTAGTACC CCAGGCAGTT ATGGCAACAG TTCCAGTCAA GGGGCAAACT
    GCAGCAGCCT CTGTGCAACG GCCTGGACCT GGGCAGACAG GGCTCACAGT GACGAATCTT
    CCGGCTGCAG TCAGCCCCGT GAGCAAGACA GCCATGAGTT CTCCTGGGAA CTCTGCTCCA
    AGTGCCTCCA CCACAGCCGT TATTCAGAAT GTCACAGGAC AGAACATCAT CAAGCAGGTG
    TCGATCACTG GACAGCTTGG TGTGAAGCCC CAGACAGGCA GCAGCATTCC ACTCACAGCC
    ACAAACTTCC GTATCCAGGG TAAGGATGTA CTGCGCCTGC CGCCTTCTTC CATCACCACA
    GATGCCAAGG GCCAGACGGT TTTGAGAATC ACTCCAGACA TGATGGCCAC ATTGGCCAAG
    TCTCAGGTTA CCACAGTCAA ACTGACTCAG GACCTCTTTG GGGCAGGAAG TGGCACTTCA
    GGCAAAGGCA TCTCTGCTAC TTTGCATGTT ACTTCCAACC CTGTCCACGC AGCTGACAGC
    CCTGCCAAGG CCCCTTCAGC CAGTGTTCCT TCATCAGCTC CAGCAGGTAC TACTGTGGTC
    AAAGTAACTC CTGAGCTCAA GCCAACAGAA ACTTCAAATT CAGCTTTTCG CTTGATGCCA
    GCTCTTGGTG TAAGTGTGGC AGATCAGAAG GGAAAGAACA CAGTGGCCTC TTCAGAAGCA
    AAACCCGCCG CCACAATCCG CATTGTGCAG GGGCTGGGAG TGATGCCTCC TAAAGCAGGC
    CAGACCATTA CTGTTGCAGC ACATGCAAAG CAAGGAGCCT CTGTTGCTGG AGGGTCTGGA
    ACTGTGCATT CCTCAACGGT GTCCTTACCC AGTATAAATG CCGCTGTGTC AAAGACTGTG
    GCTGTGGCTT CTGGGGCAAC AAGCACCCCC ATCAGCATCG GGACTGGAGC CCCCACTGTG
    CGACAGGTTC CTGTTAACAC TACAGTTGTG TCCACATCCC AGTCTGGGAA ACTGCCTACC
    AGAATCACAG TTCCTCTCTC TGTGATTAGC CAGCCAATGA AGGGCAAGAG CGTGGTCACA
    GCCCCCATCA TCAAAGGCAA CCTTGGAGCC AATCTCAGTG GGCTGGGTCG AAACATCATC
    CTCACGACCA TGCCAGCAGG TACTAAGCTC ATTGCTGGCA ATAAGCCAGT GAGTTTCCTC
    ACTGCTCAGC AGTTGCAGCA GCTTCAGCAA CAAGGTCAGG CTACGCAGGT GCGCATCCAG
    ACCGTCCCAG CATCCCATCT GCAACAGGGC ACGGCTTCTG GCTCCTCCAA AGCAGTGTCC
    ACTGTTGTTG TGACCACAGC TCCATCTCCT AAACAAGCAC CTGAGCAGCA GTGA

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

    CloneID OMv75784
    Clone ID Related Accession (Same CDS sequence) XM_029481201.1
    Accession Version XM_029481201.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3165bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear factor related to kappa-B-binding protein isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    ATGAAAACTG CAGATAAAAT AGAACTGGGG GACAGTGACC TGAAGTTAAT GTTAAAGAAG 
    CACCATGAGA AGCGGAAACA TCAACCAGAT CACCCAGACC TTTTGACAGG GGACCTGACC
    CTCAGTGACA TCATGACTCG AGTAAATGCC GGCAGGAAGG GCTCCCTAGC AGCCTTGTAT
    GATTTGGCTG TTCTTAAAAA AAAGGTGAAG GAAAAGGAGG AGAAGAAAAA GAAGAAAATA
    AAGTTGATTA AGTCAGAAGC AGAGGATCTG GCTGAGCCCC TAAGCAATAC TGAAGGGGTC
    CCAACTCTCT CACAGGCCCC CTCTCCCCTG GCAATATCGT CTATCAAGGA AGAACCCCTG
    GAAGACATCA AGCCTTGCCT TGGAATCAAT GAAATATCTT CCAGTTTTTT CTCTCTTCTG
    TTAGAGATCT TGCTGCTGGA AAGTCAGGCT AGCCTTCCTA TGCTGGAGGA TCGAGTTTTG
    GACTGGCAGT CTTCTCCAGC CAGCTCCCTC AACAGCTGGT TCTCTGCTGC CCCCAACTGG
    GCTGAGTTGG TGTTGCCTGC TCTGCAGTAT CTTGCTGGAG AAAGCCGAGC GGTTCCTTCT
    AGTTTCTCTC CATTTGTTGA ATTCAAAGAG AAAACCCAGC AGTGGAAATT GCTTGGTCAA
    TCTCAAGATA ACGAAAAGGA ATTAGCTGCT CTCTTCCACC TGTGGCTGGA AACCAAAGAC
    CAGGCCTTCT GTAAGCAGGA AAATGAAGAC AGCTCAGATG CCATGACACC TGTCCCTCGA
    GTAAGAACTG ACTATGTGGT TCGGCCTAGC ACAGGAGAGG AGAAACGGGT TTTTCAAGAA
    CAGGAGCGTT ACAGGTATAG CCAACCCCAT AAGGCATTCA CCTTTCGCAT GCATGGCTTT
    GAGTCTGTGG TGGGGCCAGT GAAGGGCGTG TTTGACAAGG AGACCTCCCT CAACAAGGCT
    CGTGAGCATT CACTGCTGCG CTCTGACCGG CCTGCCTATG TCACCATTCT GTCTCTTGTT
    CGGGATGCTG CAGCTCGGCT GCCTAATGGA GAAGGCACTC GGGCAGAGAT CTGTGAACTG
    CTCAAGGACT CTCAGTTTCT GGCTCCAGAT GTCACCAGCA CTCAGGTGAA CACAGTGGTG
    AGTGGTGCAC TGGATCGATT GCATTATGAG AAAGACCCTT GTGTGAAATA TGACATTGGT
    CGGAAGCTGT GGATCTACCT GCATCGTGAC CGGAGTGAGG AAGAGTTTGA ACGGATTCAT
    CAAGCTCAAG CAGCGGCAGC TAAAGCCAGA AAAGCTCTTC AACAAAAACC CAAGCCGCCA
    TCCAAGGTGA AGTCCAGTAA TAAGGAGGGC TCCACGAAGG GCCTTAGCGG TCCTTCCGAG
    CAGAGCCAGA TGAGCCTCAG TGACTCTAGC ATGCCACCAA CCCCAGTTAC GCCTGTAACA
    CCCACCACGC CAGCATTGCC CACCCCCATC TCTCCTCCAC CTGTGTCAGC GGTGAACAGA
    AGTGGCTCTA CCACTGTCTC TGAGCCAGCC AAGTCTAGTT CAGGTGTTCT TCTGGTGTCC
    TCACCAACAA TGCCACAGCT AGGGACGATG CTTTCCCCAG CTTCCATCCA GACTCCACCC
    AGTTCTCAGG CCACTGCTCG GGTCGTCAGC CATTCCAGCT CAGCAGGACT ACCCCAGGTT
    CGGGTGGTAG CCCAGCCCAG CCTTCCTGCT GTTTCCCAGC AGTCGGTAGG GCCAGCACAG
    CCACTACCCC AGATGCCAGC AGGGCCACAG ATTCGTGTGC CAGTCACTGC TACCCAAACC
    AAAGTAGTAC CCCAGGCAGT TATGGCAACA GTTCCAGTCA AGGGGCAAAC TGCAGCAGCC
    TCTGTGCAAC GGCCTGGACC TGGGCAGACA GGGCTCACAG TGACGAATCT TCCGGCTGCA
    GTCAGCCCCG TGAGCAAGAC AGCCATGAGT TCTCCTGGGA ACTCTGCTCC AAGTGCCTCC
    ACCACAGCCG TTATTCAGAA TGTCACAGGA CAGAACATCA TCAAGCAGGT GTCGATCACT
    GGACAGCTTG GTGTGAAGCC CCAGACAGGC AGCAGCATTC CACTCACAGC CACAAACTTC
    CGTATCCAGG GTAAGGATGT ACTGCGCCTG CCGCCTTCTT CCATCACCAC AGATGCCAAG
    GGCCAGACGG TTTTGAGAAT CACTCCAGAC ATGATGGCCA CATTGGCCAA GTCTCAGGTT
    ACCACAGTCA AACTGACTCA GGACCTCTTT GGGGCAGGAA GTGGCACTTC AGGCAAAGGC
    ATCTCTGCTA CTTTGCATGT TACTTCCAAC CCTGTCCACG CAGCTGACAG CCCTGCCAAG
    GCCCCTTCAG CCAGTGTTCC TTCATCAGCT CCAGCAGGTA CTACTGTGGT CAAAGTAACT
    CCTGAGCTCA AGCCAACAGA AACTTCAAAT TCAGCTTTTC GCTTGATGCC AGCTCTTGGT
    GTAAGTGTGG CAGATCAGAA GGGAAAGAAC ACAGTGGCCT CTTCAGAAGC AAAACCCGCC
    GCCACAATCC GCATTGTGCA GGGGCTGGGA GTGATGCCTC CTAAAGCAGG CCAGACCATT
    ACTGTTGCAG CACATGCAAA GCAAGGAGCC TCTGTTGCTG GAGGGTCTGG AACTGTGCAT
    TCCTCAACGG TGTCCTTACC CAGTATAAAT GCCGCTGTGT CAAAGACTGT GGCTGTGGCT
    TCTGGGGCAA CAAGCACCCC CATCAGCATC GGGACTGGAG CCCCCACTGT GCGACAGGTT
    CCTGTTAACA CTACAGTTGT GTCCACATCC CAGTCTGGGA AACTGCCTAC CAGAATCACA
    GTTCCTCTCT CTGTGATTAG CCAGCCAATG AAGGGCAAGA GCGTGGTCAC AGCCCCCATC
    ATCAAAGGCA ACCTTGGAGC CAATCTCAGT GGGCTGGGTC GAAACATCAT CCTCACGACC
    ATGCCAGCAG GTACTAAGCT CATTGCTGGC AATAAGCCAG TGAGTTTCCT CACTGCTCAG
    CAGTTGCAGC AGCTTCAGCA ACAAGGTCAG GCTACGCAGG TGCGCATCCA GACCGTCCCA
    GCATCCCATC TGCAACAGGG CACGGCTTCT GGCTCCTCCA AAGCAGTGTC CACTGTTGTT
    GTGACCACAG CTCCATCTCC TAAACAAGCA CCTGAGCAGC AGTGA

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

    RefSeq XP_029337061.1
    CDS640..3804
    Translation

    Target ORF information:

    RefSeq Version XM_029481201.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nuclear factor related to kappaB binding protein (Nfrkb), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481201.1

    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
    ATGAAAACTG CAGATAAAAT AGAACTGGGG GACAGTGACC TGAAGTTAAT GTTAAAGAAG 
    CACCATGAGA AGCGGAAACA TCAACCAGAT CACCCAGACC TTTTGACAGG GGACCTGACC
    CTCAGTGACA TCATGACTCG AGTAAATGCC GGCAGGAAGG GCTCCCTAGC AGCCTTGTAT
    GATTTGGCTG TTCTTAAAAA AAAGGTGAAG GAAAAGGAGG AGAAGAAAAA GAAGAAAATA
    AAGTTGATTA AGTCAGAAGC AGAGGATCTG GCTGAGCCCC TAAGCAATAC TGAAGGGGTC
    CCAACTCTCT CACAGGCCCC CTCTCCCCTG GCAATATCGT CTATCAAGGA AGAACCCCTG
    GAAGACATCA AGCCTTGCCT TGGAATCAAT GAAATATCTT CCAGTTTTTT CTCTCTTCTG
    TTAGAGATCT TGCTGCTGGA AAGTCAGGCT AGCCTTCCTA TGCTGGAGGA TCGAGTTTTG
    GACTGGCAGT CTTCTCCAGC CAGCTCCCTC AACAGCTGGT TCTCTGCTGC CCCCAACTGG
    GCTGAGTTGG TGTTGCCTGC TCTGCAGTAT CTTGCTGGAG AAAGCCGAGC GGTTCCTTCT
    AGTTTCTCTC CATTTGTTGA ATTCAAAGAG AAAACCCAGC AGTGGAAATT GCTTGGTCAA
    TCTCAAGATA ACGAAAAGGA ATTAGCTGCT CTCTTCCACC TGTGGCTGGA AACCAAAGAC
    CAGGCCTTCT GTAAGCAGGA AAATGAAGAC AGCTCAGATG CCATGACACC TGTCCCTCGA
    GTAAGAACTG ACTATGTGGT TCGGCCTAGC ACAGGAGAGG AGAAACGGGT TTTTCAAGAA
    CAGGAGCGTT ACAGGTATAG CCAACCCCAT AAGGCATTCA CCTTTCGCAT GCATGGCTTT
    GAGTCTGTGG TGGGGCCAGT GAAGGGCGTG TTTGACAAGG AGACCTCCCT CAACAAGGCT
    CGTGAGCATT CACTGCTGCG CTCTGACCGG CCTGCCTATG TCACCATTCT GTCTCTTGTT
    CGGGATGCTG CAGCTCGGCT GCCTAATGGA GAAGGCACTC GGGCAGAGAT CTGTGAACTG
    CTCAAGGACT CTCAGTTTCT GGCTCCAGAT GTCACCAGCA CTCAGGTGAA CACAGTGGTG
    AGTGGTGCAC TGGATCGATT GCATTATGAG AAAGACCCTT GTGTGAAATA TGACATTGGT
    CGGAAGCTGT GGATCTACCT GCATCGTGAC CGGAGTGAGG AAGAGTTTGA ACGGATTCAT
    CAAGCTCAAG CAGCGGCAGC TAAAGCCAGA AAAGCTCTTC AACAAAAACC CAAGCCGCCA
    TCCAAGGTGA AGTCCAGTAA TAAGGAGGGC TCCACGAAGG GCCTTAGCGG TCCTTCCGAG
    CAGAGCCAGA TGAGCCTCAG TGACTCTAGC ATGCCACCAA CCCCAGTTAC GCCTGTAACA
    CCCACCACGC CAGCATTGCC CACCCCCATC TCTCCTCCAC CTGTGTCAGC GGTGAACAGA
    AGTGGCTCTA CCACTGTCTC TGAGCCAGCC AAGTCTAGTT CAGGTGTTCT TCTGGTGTCC
    TCACCAACAA TGCCACAGCT AGGGACGATG CTTTCCCCAG CTTCCATCCA GACTCCACCC
    AGTTCTCAGG CCACTGCTCG GGTCGTCAGC CATTCCAGCT CAGCAGGACT ACCCCAGGTT
    CGGGTGGTAG CCCAGCCCAG CCTTCCTGCT GTTTCCCAGC AGTCGGTAGG GCCAGCACAG
    CCACTACCCC AGATGCCAGC AGGGCCACAG ATTCGTGTGC CAGTCACTGC TACCCAAACC
    AAAGTAGTAC CCCAGGCAGT TATGGCAACA GTTCCAGTCA AGGGGCAAAC TGCAGCAGCC
    TCTGTGCAAC GGCCTGGACC TGGGCAGACA GGGCTCACAG TGACGAATCT TCCGGCTGCA
    GTCAGCCCCG TGAGCAAGAC AGCCATGAGT TCTCCTGGGA ACTCTGCTCC AAGTGCCTCC
    ACCACAGCCG TTATTCAGAA TGTCACAGGA CAGAACATCA TCAAGCAGGT GTCGATCACT
    GGACAGCTTG GTGTGAAGCC CCAGACAGGC AGCAGCATTC CACTCACAGC CACAAACTTC
    CGTATCCAGG GTAAGGATGT ACTGCGCCTG CCGCCTTCTT CCATCACCAC AGATGCCAAG
    GGCCAGACGG TTTTGAGAAT CACTCCAGAC ATGATGGCCA CATTGGCCAA GTCTCAGGTT
    ACCACAGTCA AACTGACTCA GGACCTCTTT GGGGCAGGAA GTGGCACTTC AGGCAAAGGC
    ATCTCTGCTA CTTTGCATGT TACTTCCAAC CCTGTCCACG CAGCTGACAG CCCTGCCAAG
    GCCCCTTCAG CCAGTGTTCC TTCATCAGCT CCAGCAGGTA CTACTGTGGT CAAAGTAACT
    CCTGAGCTCA AGCCAACAGA AACTTCAAAT TCAGCTTTTC GCTTGATGCC AGCTCTTGGT
    GTAAGTGTGG CAGATCAGAA GGGAAAGAAC ACAGTGGCCT CTTCAGAAGC AAAACCCGCC
    GCCACAATCC GCATTGTGCA GGGGCTGGGA GTGATGCCTC CTAAAGCAGG CCAGACCATT
    ACTGTTGCAG CACATGCAAA GCAAGGAGCC TCTGTTGCTG GAGGGTCTGG AACTGTGCAT
    TCCTCAACGG TGTCCTTACC CAGTATAAAT GCCGCTGTGT CAAAGACTGT GGCTGTGGCT
    TCTGGGGCAA CAAGCACCCC CATCAGCATC GGGACTGGAG CCCCCACTGT GCGACAGGTT
    CCTGTTAACA CTACAGTTGT GTCCACATCC CAGTCTGGGA AACTGCCTAC CAGAATCACA
    GTTCCTCTCT CTGTGATTAG CCAGCCAATG AAGGGCAAGA GCGTGGTCAC AGCCCCCATC
    ATCAAAGGCA ACCTTGGAGC CAATCTCAGT GGGCTGGGTC GAAACATCAT CCTCACGACC
    ATGCCAGCAG GTACTAAGCT CATTGCTGGC AATAAGCCAG TGAGTTTCCT CACTGCTCAG
    CAGTTGCAGC AGCTTCAGCA ACAAGGTCAG GCTACGCAGG TGCGCATCCA GACCGTCCCA
    GCATCCCATC TGCAACAGGG CACGGCTTCT GGCTCCTCCA AAGCAGTGTC CACTGTTGTT
    GTGACCACAG CTCCATCTCC TAAACAAGCA CCTGAGCAGC AGTGA

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