ORF » Species Summary » Homo sapiens » UHRF1BP1 cDNA ORF clone

UHRF1BP1 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following UHRF1BP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UHRF1BP1 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
OHu13340 NM_017754.4
Latest version!		 Homo sapiens UHRF1 binding protein 1 (UHRF1BP1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu13340 NM_017754.3 Homo sapiens UHRF1 binding protein 1 (UHRF1BP1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    UHRF1BP1 ( NM_017754.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_060224.3 Homo sapiens UHRF1 binding protein 1 (UHRF1BP1), mRNA.
    Price & Availability↑
    CloneID OHu13340
    Clone ID Related Accession (Same CDS sequence) NM_017754.4 , NM_017754.3
    Accession Version NM_017754.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4323bp)
    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 2019-10-23
    Organism Homo sapiens(human)
    Product UHRF1-binding protein 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB636320.1, AB126777.1, AL033520.16 and AA287944.1. On Nov 22, 2018 this sequence version replaced NM_017754.3. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.71702.1, AB126777.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000192788.6/ ENSP00000192788.5 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCCGGGA TCATTAAGAA GCAGATCCTG AAACACCTGT CCCGGTTCAC TAAGAATCTT 
    TCCCCAGACA AAATCAACCT GAGCACCCTG AAAGGGGAGG GTCAGCTGAC CAACCTGGAG 
    CTGGATGAAG AGGTTCTACA GAATGTACTG GAGCTGCCCA CCTGGTTAGC CATCACTCGG 
    GTCTACTGCA ACAGGGCCTC CATCCGGATC CAGTGGACAA AGTTGAAGAC ACACCCTATT 
    TGCTTGTGTC TGGATAAGGT AGAGGTGGAG ATGAAGACAT GTGAGGATCC TCGGCCCCCC 
    AATGGACAGT CTCCCATTGC CCTTGCTTCA GGACAGAGTG AATATGGCTT TGCCGAAAAG 
    GTGGTGGAAG GGATGTTCAT CATTGTCAAT TCTATCACCA TCAAGATTCA CTCCAAGGCC 
    TTCCACGCTT CTTTTGAATT GTGGCAGCTC CAGGGCTATA GTGTCAACCC CAACTGGCAG 
    CAGAGTGACC TTCGCCTTAC CCGCATCACT GACCCCTGCC GAGGAGAGGT TTTAACATTT 
    AAGGAAATAA CTTGGCAAAC ACTCCGAATT GAGGCAGATG CTACAGACAA TGGTGATCAG 
    GACCCAGTCA CCACTCCATT GAGGCTTATT ACGAACCAAG GCAGGATCCA AATAGCCCTC 
    AAAAGAAGAA CCAAAGATTG CAATGTGATA TCCTCCAAGC TGATGTTCCT GTTGGATGAC 
    CTGCTCTGGG TGCTGACTGA CTCACAGCTC AAGGCTATGA TGAAGTATGC AGAGTCACTG 
    AGTGAAGCCA TGGAGAAGTC AGCCCATCAA AGAAAGAGCC TGGCCCCTGA ACCTGTGCAG 
    ATCACTCCAC CAGCCCCCAG TGCCCAGCAG TCCTGGGCCC AGGCATTTGG TGGCAGCCAG 
    GGCAACAGCA ACAGCAGCAG CAGCCGCCTC AGCCAGTACT TTGAGAAATT TGATGTGAAA 
    GAGTCCTCCT ACCATCTGCT CATCTCCCGC CTGGACCTGC ACATTTGTGA TGATAGCCAG 
    TCCCGAGAGC CAGGTGTCTC TGCCAACAGA CTCATGGGTG GTGCCATGCA GCTTACCTTC 
    CGCAAGATGG CGTTTGACTA TTACCCTTTC CATTGGGCAG GTGATAGCTG CAAACATTGG 
    GTACGCCACT GTGAGGCCAT GGAGACCCGA GGCCAGTGGG CCCAGAAGCT GGTGATGGAA 
    TTTCAGAGCA AAATGGAGAA GTGGCATGAA GAGACGGGTC TGAAACCACC CTGGCACCTT 
    GGAGTAGACT CTCTCTTTCG GAGAAAAGCA GATTCTCTTT CCAGTCCTCG AAAGAACCCT 
    CTTGAGAGAA GCCCCTCTCA GGGCAGACAG CCTGCCTTTC AGCCTCCAGC ATGGAACCGC 
    TTACGCTCTA GCTGCATGGT GGTACGGGTG GATGACCTGG ACATCCACCA GGTTTCCACC 
    GCTGGACAGC CAAGTAAAAA GCCATCTACA CTCCTTTCCT GCAGTCGGAA ACTTCACAAC 
    CTCCCTACCC AGGTCTCTGC CATTCATATT GAGTTCACAG AGTATTACTT CCCAGATAAT 
    CAGGAGCTTC CAGTTCCTTG TCCTAATCTC TACATTCAGT TAAATGGTCT GACATTTACT 
    ATGGATCCTG TCAGTTTGCT CTGGGGAAAC CTCTTTTGCC TGGATTTATA CCGCAGCTTG 
    GAGCAGTTCA AAGCTATCTA CAAGCTGGAA GATTCAAGTC AGAAAGATGA ACACTTGGAC 
    ATCCGACTAG ATGCATTCTG GTTGAAGGTG AGCTTTCCAC TGGAAAAGAG AGAGCGGGCA 
    GAGTTGCATC GTCCCCAGGC CCTTGTCTTC TCTGCGTCAG GCATGATTGC CACCAATACA 
    CGTCATGCTC CACATTGTAG TTGTTCAGAC CTCCAGAGTC TCTTCCGGGG TTTTGCTGCT 
    GCTGAGTTCT TTCATTCCAA TTATGATCAC TTTCCTAAGG TTCCAGGTGG CTTTAGCCTT 
    CTGCACATGC TTTTTTTGCA TCATGCCTTT CAGATGGATT CCTGCCTGCC TCAGCCTAAT 
    ACCCTCCCTC CCCAGAGACC TAAGGCTTCC TGGGATCTCT GGTCTGTCCA CTTTACCCAG 
    ATCTCCTTGG ACTTTGAGGG AACAGAAAAC TTCAAAGGCC ATACCTTGAA TTTTGTAGCC 
    CCCTTCCCCC TGTCCATTTG GGCCTGCCTA CCCCTCCGCT GGCAGCAAGC CCAGGCACGG 
    AAGCTTCTTT TGGCCTCAGA GGGGAGGCTG AAACCATCAG CCAGTTTTGG AAGTCCTGTC 
    CAGTCTGAGG CTCTTGCCCC TGACTCTATG TCCCATCCGC GGTCAAAGAC TGAACATGAC 
    TTGAAAAGCT TATCAGGACT TACAGAAGTC ATGGAAATTC TGAAAGAAGG CAGTAGTGGT 
    ATGGACAACA AAGGGCCTCT GACAGAGCTG GAGGATGTAG CAGATGTTCA TATGCTTGTA 
    CATTCCCCGG CCCATGTCCG CGTGAGGCTT GACCACTACC AGTACTTGGC TCTGCTTCGC 
    CTGAAGGAGG TGCTGCAGAG GCTTCAGGAG CAGCTGACTA AGGATACAGA GTCAATGACT 
    GGGTCTCCCC TGCAGAATCA GACAGCTTGC ATTGGAGTTC TCTTTCCCAG TGCTGAAGTG 
    GCTCTGCTTA TGCATCCTGC ACCCGGTGCT GTCGATGCTG ACTCTGCAGG CTCAGATAGC 
    ACTAGCCTCG TAGATTCAGA GCTATCTCCT TCAGAGGATC GGGAACTGAA GTCTGATGCC 
    TCATCAGACC AGGGCCCAGC AAGCCCTGAG AAGGTCTTGG AGGAAAGTAG CATTGAAAAT 
    CAGGATGTAT CCCAGGAGAG GCCACATAGC AATGGAGAAC TGCAGGACTC AGGTCCACTT 
    GCCCAGCAGC TGGCAGGGAA GGGCCATGAG GCAGTAGAGT CCCTACAGGC CAAGAAACTG 
    AGCAGAACCC AAGCCTCCAG CTCACCAGCT GCATTGAAGC CCCCAGCTGG CAGGGAGACT 
    GCTGTGAATG GACAGGGTGA GCTCATCCCC TTGAAGAACA TTGAGGGAGA ATTGTCAAGT 
    GCTATTCACA TGACCAAGGA TGCCACCAAG GAGGCTCTAC ATGCCACCAT GGACCTCACC 
    AAGGAAGCTG TGTCCCTGAC TAAGGATGCC TTCAGTTTGG GCAGAGATCG AATGACCTCC 
    ACCATGCACA AGATGTTGTC CCTGCCCCCA GCCAAGGAGC CCATGGCCAA GACAGATGAG 
    GGGGTGGCAG CCCCAGTGAG TGGAGGTGCT GCACGACTCC GATTTTTCTC CATGAAGAGG 
    ACGGTATCTC AACAGTCATT TGATGGTGTC TCATTGGATA GCAGTGGCCC TGAAGACCGG 
    ATTTCAGTGG ACAGTGATGG CAGTGATAGC TTTGTGATGC TCTTGGAGTC TGAGTCTGGT 
    CCAGAATCTG TTCCACCAGG ATCTCTTTCA AATGTCTCAG ATAATGCTGG TGTTCAAGGG 
    AGCCCTCTTG TGAATAATTA TGGCCAGGGG TCACCAGCAG CCAACAGTTC AGTTTCACCC 
    AGTGGAGAAG ACCTCATCTT TCACCCGGTC TCAGTTCTGG TCCTGAAGGT GAATGAGGTG 
    TCTTTTGGGA TTGAGGTACG TGGTGAGGAC CTGACTGTGG CCCTGCAAGC AGAGGAACTG 
    ACCCTCCAGC AGCTGGGCAC CGTGGGACTC TGGCAGTTCC TGCATGGACA GTGCCCAGGT 
    ACATGCTTTC AGGAATCCTC AACTTTGAAG ACTGGCCACA TCAGGCCAGC TGTGGGCCTT 
    CGCTTTGAGG TGGGGCCTGG AGCAGCTGTT CATTCCCCCC TGGCCTCACA AAATGGCTTC 
    CTACATTTAT TGCTTCATGG CTGTGACCTC GAGCTGCTCA CTTCAGTGCT CAGTGGCCTG 
    GGGCCCTTCT TGGAGGATGA GGAGATCCCG GTGGTAGTCC CCATGCAGAT TGAGCTTCTG 
    AACTCCAGCA TCACCCTAAA GGATGATATC CCCCCCATCT ATCCAACATC TCCAGGCCCC 
    ATCCCCATCA CTCTGGCCAT GGAACATGTT GTGCTGAAGA GGAGTGATGA TGGTGTGTTC 
    CACATAGGCG CTGCTGCTCA GGACAAACCA TCAGCTGAAG TACTTAAAAG TGAGAAGAGA 
    CAGCCCCCAA AAGAACAGGT GTTTTTGGTG CCCACAGGAG AGGTTTTTGA ACAGCAGGTG 
    AAAGAACTGC CTATCCTACA AAAAGAACTT ATAGAAACTA AACAAGCCTT GGCCAATGCC 
    AACCAGGATA AAGAAAAACT TCTTCAGGAG ATTAGGAAAT ATAACCCCTT CTTTGAGCTC 
    TGA

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

    RefSeq NP_060224.3
    CDS169..4491
    Translation

    Target ORF information:

    RefSeq Version NM_017754.4
    Organism Homo sapiens(human)
    Definition Homo sapiens UHRF1 binding protein 1 (UHRF1BP1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017754.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCCGGGA TCATTAAGAA GCAGATCCTG AAACACCTGT CCCGGTTCAC TAAGAATCTT 
    TCCCCAGACA AAATCAACCT GAGCACCCTG AAAGGGGAGG GTCAGCTGAC CAACCTGGAG 
    CTGGATGAAG AGGTTCTACA GAATGTACTG GAGCTGCCCA CCTGGTTAGC CATCACTCGG 
    GTCTACTGCA ACAGGGCCTC CATCCGGATC CAGTGGACAA AGTTGAAGAC ACACCCTATT 
    TGCTTGTGTC TGGATAAGGT AGAGGTGGAG ATGAAGACAT GTGAGGATCC TCGGCCCCCC 
    AATGGACAGT CTCCCATTGC CCTTGCTTCA GGACAGAGTG AATATGGCTT TGCCGAAAAG 
    GTGGTGGAAG GGATGTTCAT CATTGTCAAT TCTATCACCA TCAAGATTCA CTCCAAGGCC 
    TTCCACGCTT CTTTTGAATT GTGGCAGCTC CAGGGCTATA GTGTCAACCC CAACTGGCAG 
    CAGAGTGACC TTCGCCTTAC CCGCATCACT GACCCCTGCC GAGGAGAGGT TTTAACATTT 
    AAGGAAATAA CTTGGCAAAC ACTCCGAATT GAGGCAGATG CTACAGACAA TGGTGATCAG 
    GACCCAGTCA CCACTCCATT GAGGCTTATT ACGAACCAAG GCAGGATCCA AATAGCCCTC 
    AAAAGAAGAA CCAAAGATTG CAATGTGATA TCCTCCAAGC TGATGTTCCT GTTGGATGAC 
    CTGCTCTGGG TGCTGACTGA CTCACAGCTC AAGGCTATGA TGAAGTATGC AGAGTCACTG 
    AGTGAAGCCA TGGAGAAGTC AGCCCATCAA AGAAAGAGCC TGGCCCCTGA ACCTGTGCAG 
    ATCACTCCAC CAGCCCCCAG TGCCCAGCAG TCCTGGGCCC AGGCATTTGG TGGCAGCCAG 
    GGCAACAGCA ACAGCAGCAG CAGCCGCCTC AGCCAGTACT TTGAGAAATT TGATGTGAAA 
    GAGTCCTCCT ACCATCTGCT CATCTCCCGC CTGGACCTGC ACATTTGTGA TGATAGCCAG 
    TCCCGAGAGC CAGGTGTCTC TGCCAACAGA CTCATGGGTG GTGCCATGCA GCTTACCTTC 
    CGCAAGATGG CGTTTGACTA TTACCCTTTC CATTGGGCAG GTGATAGCTG CAAACATTGG 
    GTACGCCACT GTGAGGCCAT GGAGACCCGA GGCCAGTGGG CCCAGAAGCT GGTGATGGAA 
    TTTCAGAGCA AAATGGAGAA GTGGCATGAA GAGACGGGTC TGAAACCACC CTGGCACCTT 
    GGAGTAGACT CTCTCTTTCG GAGAAAAGCA GATTCTCTTT CCAGTCCTCG AAAGAACCCT 
    CTTGAGAGAA GCCCCTCTCA GGGCAGACAG CCTGCCTTTC AGCCTCCAGC ATGGAACCGC 
    TTACGCTCTA GCTGCATGGT GGTACGGGTG GATGACCTGG ACATCCACCA GGTTTCCACC 
    GCTGGACAGC CAAGTAAAAA GCCATCTACA CTCCTTTCCT GCAGTCGGAA ACTTCACAAC 
    CTCCCTACCC AGGTCTCTGC CATTCATATT GAGTTCACAG AGTATTACTT CCCAGATAAT 
    CAGGAGCTTC CAGTTCCTTG TCCTAATCTC TACATTCAGT TAAATGGTCT GACATTTACT 
    ATGGATCCTG TCAGTTTGCT CTGGGGAAAC CTCTTTTGCC TGGATTTATA CCGCAGCTTG 
    GAGCAGTTCA AAGCTATCTA CAAGCTGGAA GATTCAAGTC AGAAAGATGA ACACTTGGAC 
    ATCCGACTAG ATGCATTCTG GTTGAAGGTG AGCTTTCCAC TGGAAAAGAG AGAGCGGGCA 
    GAGTTGCATC GTCCCCAGGC CCTTGTCTTC TCTGCGTCAG GCATGATTGC CACCAATACA 
    CGTCATGCTC CACATTGTAG TTGTTCAGAC CTCCAGAGTC TCTTCCGGGG TTTTGCTGCT 
    GCTGAGTTCT TTCATTCCAA TTATGATCAC TTTCCTAAGG TTCCAGGTGG CTTTAGCCTT 
    CTGCACATGC TTTTTTTGCA TCATGCCTTT CAGATGGATT CCTGCCTGCC TCAGCCTAAT 
    ACCCTCCCTC CCCAGAGACC TAAGGCTTCC TGGGATCTCT GGTCTGTCCA CTTTACCCAG 
    ATCTCCTTGG ACTTTGAGGG AACAGAAAAC TTCAAAGGCC ATACCTTGAA TTTTGTAGCC 
    CCCTTCCCCC TGTCCATTTG GGCCTGCCTA CCCCTCCGCT GGCAGCAAGC CCAGGCACGG 
    AAGCTTCTTT TGGCCTCAGA GGGGAGGCTG AAACCATCAG CCAGTTTTGG AAGTCCTGTC 
    CAGTCTGAGG CTCTTGCCCC TGACTCTATG TCCCATCCGC GGTCAAAGAC TGAACATGAC 
    TTGAAAAGCT TATCAGGACT TACAGAAGTC ATGGAAATTC TGAAAGAAGG CAGTAGTGGT 
    ATGGACAACA AAGGGCCTCT GACAGAGCTG GAGGATGTAG CAGATGTTCA TATGCTTGTA 
    CATTCCCCGG CCCATGTCCG CGTGAGGCTT GACCACTACC AGTACTTGGC TCTGCTTCGC 
    CTGAAGGAGG TGCTGCAGAG GCTTCAGGAG CAGCTGACTA AGGATACAGA GTCAATGACT 
    GGGTCTCCCC TGCAGAATCA GACAGCTTGC ATTGGAGTTC TCTTTCCCAG TGCTGAAGTG 
    GCTCTGCTTA TGCATCCTGC ACCCGGTGCT GTCGATGCTG ACTCTGCAGG CTCAGATAGC 
    ACTAGCCTCG TAGATTCAGA GCTATCTCCT TCAGAGGATC GGGAACTGAA GTCTGATGCC 
    TCATCAGACC AGGGCCCAGC AAGCCCTGAG AAGGTCTTGG AGGAAAGTAG CATTGAAAAT 
    CAGGATGTAT CCCAGGAGAG GCCACATAGC AATGGAGAAC TGCAGGACTC AGGTCCACTT 
    GCCCAGCAGC TGGCAGGGAA GGGCCATGAG GCAGTAGAGT CCCTACAGGC CAAGAAACTG 
    AGCAGAACCC AAGCCTCCAG CTCACCAGCT GCATTGAAGC CCCCAGCTGG CAGGGAGACT 
    GCTGTGAATG GACAGGGTGA GCTCATCCCC TTGAAGAACA TTGAGGGAGA ATTGTCAAGT 
    GCTATTCACA TGACCAAGGA TGCCACCAAG GAGGCTCTAC ATGCCACCAT GGACCTCACC 
    AAGGAAGCTG TGTCCCTGAC TAAGGATGCC TTCAGTTTGG GCAGAGATCG AATGACCTCC 
    ACCATGCACA AGATGTTGTC CCTGCCCCCA GCCAAGGAGC CCATGGCCAA GACAGATGAG 
    GGGGTGGCAG CCCCAGTGAG TGGAGGTGCT GCACGACTCC GATTTTTCTC CATGAAGAGG 
    ACGGTATCTC AACAGTCATT TGATGGTGTC TCATTGGATA GCAGTGGCCC TGAAGACCGG 
    ATTTCAGTGG ACAGTGATGG CAGTGATAGC TTTGTGATGC TCTTGGAGTC TGAGTCTGGT 
    CCAGAATCTG TTCCACCAGG ATCTCTTTCA AATGTCTCAG ATAATGCTGG TGTTCAAGGG 
    AGCCCTCTTG TGAATAATTA TGGCCAGGGG TCACCAGCAG CCAACAGTTC AGTTTCACCC 
    AGTGGAGAAG ACCTCATCTT TCACCCGGTC TCAGTTCTGG TCCTGAAGGT GAATGAGGTG 
    TCTTTTGGGA TTGAGGTACG TGGTGAGGAC CTGACTGTGG CCCTGCAAGC AGAGGAACTG 
    ACCCTCCAGC AGCTGGGCAC CGTGGGACTC TGGCAGTTCC TGCATGGACA GTGCCCAGGT 
    ACATGCTTTC AGGAATCCTC AACTTTGAAG ACTGGCCACA TCAGGCCAGC TGTGGGCCTT 
    CGCTTTGAGG TGGGGCCTGG AGCAGCTGTT CATTCCCCCC TGGCCTCACA AAATGGCTTC 
    CTACATTTAT TGCTTCATGG CTGTGACCTC GAGCTGCTCA CTTCAGTGCT CAGTGGCCTG 
    GGGCCCTTCT TGGAGGATGA GGAGATCCCG GTGGTAGTCC CCATGCAGAT TGAGCTTCTG 
    AACTCCAGCA TCACCCTAAA GGATGATATC CCCCCCATCT ATCCAACATC TCCAGGCCCC 
    ATCCCCATCA CTCTGGCCAT GGAACATGTT GTGCTGAAGA GGAGTGATGA TGGTGTGTTC 
    CACATAGGCG CTGCTGCTCA GGACAAACCA TCAGCTGAAG TACTTAAAAG TGAGAAGAGA 
    CAGCCCCCAA AAGAACAGGT GTTTTTGGTG CCCACAGGAG AGGTTTTTGA ACAGCAGGTG 
    AAAGAACTGC CTATCCTACA AAAAGAACTT ATAGAAACTA AACAAGCCTT GGCCAATGCC 
    AACCAGGATA AAGAAAAACT TCTTCAGGAG ATTAGGAAAT ATAACCCCTT CTTTGAGCTC 
    TGA

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

    UHRF1BP1 ( NM_017754.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_060224.3 Homo sapiens UHRF1 binding protein 1 (UHRF1BP1), mRNA.
    Price & Availability↑
    CloneID OHu13340
    Clone ID Related Accession (Same CDS sequence) NM_017754.4 , NM_017754.3
    Accession Version NM_017754.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4323bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product UHRF1-binding protein 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB636320.1, AB126777.1, AL033520.16 and AA287944.1. On Mar 28, 2007 this sequence version replaced NM_017754.2. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.71702.1, AB126777.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCCGGGA TCATTAAGAA GCAGATCCTG AAACACCTGT CCCGGTTCAC TAAGAATCTT 
    TCCCCAGACA AAATCAACCT GAGCACCCTG AAAGGGGAGG GTCAGCTGAC CAACCTGGAG 
    CTGGATGAAG AGGTTCTACA GAATGTACTG GAGCTGCCCA CCTGGTTAGC CATCACTCGG 
    GTCTACTGCA ACAGGGCCTC CATCCGGATC CAGTGGACAA AGTTGAAGAC ACACCCTATT 
    TGCTTGTGTC TGGATAAGGT AGAGGTGGAG ATGAAGACAT GTGAGGATCC TCGGCCCCCC 
    AATGGACAGT CTCCCATTGC CCTTGCTTCA GGACAGAGTG AATATGGCTT TGCCGAAAAG 
    GTGGTGGAAG GGATGTTCAT CATTGTCAAT TCTATCACCA TCAAGATTCA CTCCAAGGCC 
    TTCCACGCTT CTTTTGAATT GTGGCAGCTC CAGGGCTATA GTGTCAACCC CAACTGGCAG 
    CAGAGTGACC TTCGCCTTAC CCGCATCACT GACCCCTGCC GAGGAGAGGT TTTAACATTT 
    AAGGAAATAA CTTGGCAAAC ACTCCGAATT GAGGCAGATG CTACAGACAA TGGTGATCAG 
    GACCCAGTCA CCACTCCATT GAGGCTTATT ACGAACCAAG GCAGGATCCA AATAGCCCTC 
    AAAAGAAGAA CCAAAGATTG CAATGTGATA TCCTCCAAGC TGATGTTCCT GTTGGATGAC 
    CTGCTCTGGG TGCTGACTGA CTCACAGCTC AAGGCTATGA TGAAGTATGC AGAGTCACTG 
    AGTGAAGCCA TGGAGAAGTC AGCCCATCAA AGAAAGAGCC TGGCCCCTGA ACCTGTGCAG 
    ATCACTCCAC CAGCCCCCAG TGCCCAGCAG TCCTGGGCCC AGGCATTTGG TGGCAGCCAG 
    GGCAACAGCA ACAGCAGCAG CAGCCGCCTC AGCCAGTACT TTGAGAAATT TGATGTGAAA 
    GAGTCCTCCT ACCATCTGCT CATCTCCCGC CTGGACCTGC ACATTTGTGA TGATAGCCAG 
    TCCCGAGAGC CAGGTGTCTC TGCCAACAGA CTCATGGGTG GTGCCATGCA GCTTACCTTC 
    CGCAAGATGG CGTTTGACTA TTACCCTTTC CATTGGGCAG GTGATAGCTG CAAACATTGG 
    GTACGCCACT GTGAGGCCAT GGAGACCCGA GGCCAGTGGG CCCAGAAGCT GGTGATGGAA 
    TTTCAGAGCA AAATGGAGAA GTGGCATGAA GAGACGGGTC TGAAACCACC CTGGCACCTT 
    GGAGTAGACT CTCTCTTTCG GAGAAAAGCA GATTCTCTTT CCAGTCCTCG AAAGAACCCT 
    CTTGAGAGAA GCCCCTCTCA GGGCAGACAG CCTGCCTTTC AGCCTCCAGC ATGGAACCGC 
    TTACGCTCTA GCTGCATGGT GGTACGGGTG GATGACCTGG ACATCCACCA GGTTTCCACC 
    GCTGGACAGC CAAGTAAAAA GCCATCTACA CTCCTTTCCT GCAGTCGGAA ACTTCACAAC 
    CTCCCTACCC AGGTCTCTGC CATTCATATT GAGTTCACAG AGTATTACTT CCCAGATAAT 
    CAGGAGCTTC CAGTTCCTTG TCCTAATCTC TACATTCAGT TAAATGGTCT GACATTTACT 
    ATGGATCCTG TCAGTTTGCT CTGGGGAAAC CTCTTTTGCC TGGATTTATA CCGCAGCTTG 
    GAGCAGTTCA AAGCTATCTA CAAGCTGGAA GATTCAAGTC AGAAAGATGA ACACTTGGAC 
    ATCCGACTAG ATGCATTCTG GTTGAAGGTG AGCTTTCCAC TGGAAAAGAG AGAGCGGGCA 
    GAGTTGCATC GTCCCCAGGC CCTTGTCTTC TCTGCGTCAG GCATGATTGC CACCAATACA 
    CGTCATGCTC CACATTGTAG TTGTTCAGAC CTCCAGAGTC TCTTCCGGGG TTTTGCTGCT 
    GCTGAGTTCT TTCATTCCAA TTATGATCAC TTTCCTAAGG TTCCAGGTGG CTTTAGCCTT 
    CTGCACATGC TTTTTTTGCA TCATGCCTTT CAGATGGATT CCTGCCTGCC TCAGCCTAAT 
    ACCCTCCCTC CCCAGAGACC TAAGGCTTCC TGGGATCTCT GGTCTGTCCA CTTTACCCAG 
    ATCTCCTTGG ACTTTGAGGG AACAGAAAAC TTCAAAGGCC ATACCTTGAA TTTTGTAGCC 
    CCCTTCCCCC TGTCCATTTG GGCCTGCCTA CCCCTCCGCT GGCAGCAAGC CCAGGCACGG 
    AAGCTTCTTT TGGCCTCAGA GGGGAGGCTG AAACCATCAG CCAGTTTTGG AAGTCCTGTC 
    CAGTCTGAGG CTCTTGCCCC TGACTCTATG TCCCATCCGC GGTCAAAGAC TGAACATGAC 
    TTGAAAAGCT TATCAGGACT TACAGAAGTC ATGGAAATTC TGAAAGAAGG CAGTAGTGGT 
    ATGGACAACA AAGGGCCTCT GACAGAGCTG GAGGATGTAG CAGATGTTCA TATGCTTGTA 
    CATTCCCCGG CCCATGTCCG CGTGAGGCTT GACCACTACC AGTACTTGGC TCTGCTTCGC 
    CTGAAGGAGG TGCTGCAGAG GCTTCAGGAG CAGCTGACTA AGGATACAGA GTCAATGACT 
    GGGTCTCCCC TGCAGAATCA GACAGCTTGC ATTGGAGTTC TCTTTCCCAG TGCTGAAGTG 
    GCTCTGCTTA TGCATCCTGC ACCCGGTGCT GTCGATGCTG ACTCTGCAGG CTCAGATAGC 
    ACTAGCCTCG TAGATTCAGA GCTATCTCCT TCAGAGGATC GGGAACTGAA GTCTGATGCC 
    TCATCAGACC AGGGCCCAGC AAGCCCTGAG AAGGTCTTGG AGGAAAGTAG CATTGAAAAT 
    CAGGATGTAT CCCAGGAGAG GCCACATAGC AATGGAGAAC TGCAGGACTC AGGTCCACTT 
    GCCCAGCAGC TGGCAGGGAA GGGCCATGAG GCAGTAGAGT CCCTACAGGC CAAGAAACTG 
    AGCAGAACCC AAGCCTCCAG CTCACCAGCT GCATTGAAGC CCCCAGCTGG CAGGGAGACT 
    GCTGTGAATG GACAGGGTGA GCTCATCCCC TTGAAGAACA TTGAGGGAGA ATTGTCAAGT 
    GCTATTCACA TGACCAAGGA TGCCACCAAG GAGGCTCTAC ATGCCACCAT GGACCTCACC 
    AAGGAAGCTG TGTCCCTGAC TAAGGATGCC TTCAGTTTGG GCAGAGATCG AATGACCTCC 
    ACCATGCACA AGATGTTGTC CCTGCCCCCA GCCAAGGAGC CCATGGCCAA GACAGATGAG 
    GGGGTGGCAG CCCCAGTGAG TGGAGGTGCT GCACGACTCC GATTTTTCTC CATGAAGAGG 
    ACGGTATCTC AACAGTCATT TGATGGTGTC TCATTGGATA GCAGTGGCCC TGAAGACCGG 
    ATTTCAGTGG ACAGTGATGG CAGTGATAGC TTTGTGATGC TCTTGGAGTC TGAGTCTGGT 
    CCAGAATCTG TTCCACCAGG ATCTCTTTCA AATGTCTCAG ATAATGCTGG TGTTCAAGGG 
    AGCCCTCTTG TGAATAATTA TGGCCAGGGG TCACCAGCAG CCAACAGTTC AGTTTCACCC 
    AGTGGAGAAG ACCTCATCTT TCACCCGGTC TCAGTTCTGG TCCTGAAGGT GAATGAGGTG 
    TCTTTTGGGA TTGAGGTACG TGGTGAGGAC CTGACTGTGG CCCTGCAAGC AGAGGAACTG 
    ACCCTCCAGC AGCTGGGCAC CGTGGGACTC TGGCAGTTCC TGCATGGACA GTGCCCAGGT 
    ACATGCTTTC AGGAATCCTC AACTTTGAAG ACTGGCCACA TCAGGCCAGC TGTGGGCCTT 
    CGCTTTGAGG TGGGGCCTGG AGCAGCTGTT CATTCCCCCC TGGCCTCACA AAATGGCTTC 
    CTACATTTAT TGCTTCATGG CTGTGACCTC GAGCTGCTCA CTTCAGTGCT CAGTGGCCTG 
    GGGCCCTTCT TGGAGGATGA GGAGATCCCG GTGGTAGTCC CCATGCAGAT TGAGCTTCTG 
    AACTCCAGCA TCACCCTAAA GGATGATATC CCCCCCATCT ATCCAACATC TCCAGGCCCC 
    ATCCCCATCA CTCTGGCCAT GGAACATGTT GTGCTGAAGA GGAGTGATGA TGGTGTGTTC 
    CACATAGGCG CTGCTGCTCA GGACAAACCA TCAGCTGAAG TACTTAAAAG TGAGAAGAGA 
    CAGCCCCCAA AAGAACAGGT GTTTTTGGTG CCCACAGGAG AGGTTTTTGA ACAGCAGGTG 
    AAAGAACTGC CTATCCTACA AAAAGAACTT ATAGAAACTA AACAAGCCTT GGCCAATGCC 
    AACCAGGATA AAGAAAAACT TCTTCAGGAG ATTAGGAAAT ATAACCCCTT CTTTGAGCTC 
    TGA

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

    RefSeq NP_060224.3
    CDS235..4557
    Translation

    Target ORF information:

    RefSeq Version NM_017754.3
    Organism Homo sapiens(human)
    Definition Homo sapiens UHRF1 binding protein 1 (UHRF1BP1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017754.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCCGGGA TCATTAAGAA GCAGATCCTG AAACACCTGT CCCGGTTCAC TAAGAATCTT 
    TCCCCAGACA AAATCAACCT GAGCACCCTG AAAGGGGAGG GTCAGCTGAC CAACCTGGAG 
    CTGGATGAAG AGGTTCTACA GAATGTACTG GAGCTGCCCA CCTGGTTAGC CATCACTCGG 
    GTCTACTGCA ACAGGGCCTC CATCCGGATC CAGTGGACAA AGTTGAAGAC ACACCCTATT 
    TGCTTGTGTC TGGATAAGGT AGAGGTGGAG ATGAAGACAT GTGAGGATCC TCGGCCCCCC 
    AATGGACAGT CTCCCATTGC CCTTGCTTCA GGACAGAGTG AATATGGCTT TGCCGAAAAG 
    GTGGTGGAAG GGATGTTCAT CATTGTCAAT TCTATCACCA TCAAGATTCA CTCCAAGGCC 
    TTCCACGCTT CTTTTGAATT GTGGCAGCTC CAGGGCTATA GTGTCAACCC CAACTGGCAG 
    CAGAGTGACC TTCGCCTTAC CCGCATCACT GACCCCTGCC GAGGAGAGGT TTTAACATTT 
    AAGGAAATAA CTTGGCAAAC ACTCCGAATT GAGGCAGATG CTACAGACAA TGGTGATCAG 
    GACCCAGTCA CCACTCCATT GAGGCTTATT ACGAACCAAG GCAGGATCCA AATAGCCCTC 
    AAAAGAAGAA CCAAAGATTG CAATGTGATA TCCTCCAAGC TGATGTTCCT GTTGGATGAC 
    CTGCTCTGGG TGCTGACTGA CTCACAGCTC AAGGCTATGA TGAAGTATGC AGAGTCACTG 
    AGTGAAGCCA TGGAGAAGTC AGCCCATCAA AGAAAGAGCC TGGCCCCTGA ACCTGTGCAG 
    ATCACTCCAC CAGCCCCCAG TGCCCAGCAG TCCTGGGCCC AGGCATTTGG TGGCAGCCAG 
    GGCAACAGCA ACAGCAGCAG CAGCCGCCTC AGCCAGTACT TTGAGAAATT TGATGTGAAA 
    GAGTCCTCCT ACCATCTGCT CATCTCCCGC CTGGACCTGC ACATTTGTGA TGATAGCCAG 
    TCCCGAGAGC CAGGTGTCTC TGCCAACAGA CTCATGGGTG GTGCCATGCA GCTTACCTTC 
    CGCAAGATGG CGTTTGACTA TTACCCTTTC CATTGGGCAG GTGATAGCTG CAAACATTGG 
    GTACGCCACT GTGAGGCCAT GGAGACCCGA GGCCAGTGGG CCCAGAAGCT GGTGATGGAA 
    TTTCAGAGCA AAATGGAGAA GTGGCATGAA GAGACGGGTC TGAAACCACC CTGGCACCTT 
    GGAGTAGACT CTCTCTTTCG GAGAAAAGCA GATTCTCTTT CCAGTCCTCG AAAGAACCCT 
    CTTGAGAGAA GCCCCTCTCA GGGCAGACAG CCTGCCTTTC AGCCTCCAGC ATGGAACCGC 
    TTACGCTCTA GCTGCATGGT GGTACGGGTG GATGACCTGG ACATCCACCA GGTTTCCACC 
    GCTGGACAGC CAAGTAAAAA GCCATCTACA CTCCTTTCCT GCAGTCGGAA ACTTCACAAC 
    CTCCCTACCC AGGTCTCTGC CATTCATATT GAGTTCACAG AGTATTACTT CCCAGATAAT 
    CAGGAGCTTC CAGTTCCTTG TCCTAATCTC TACATTCAGT TAAATGGTCT GACATTTACT 
    ATGGATCCTG TCAGTTTGCT CTGGGGAAAC CTCTTTTGCC TGGATTTATA CCGCAGCTTG 
    GAGCAGTTCA AAGCTATCTA CAAGCTGGAA GATTCAAGTC AGAAAGATGA ACACTTGGAC 
    ATCCGACTAG ATGCATTCTG GTTGAAGGTG AGCTTTCCAC TGGAAAAGAG AGAGCGGGCA 
    GAGTTGCATC GTCCCCAGGC CCTTGTCTTC TCTGCGTCAG GCATGATTGC CACCAATACA 
    CGTCATGCTC CACATTGTAG TTGTTCAGAC CTCCAGAGTC TCTTCCGGGG TTTTGCTGCT 
    GCTGAGTTCT TTCATTCCAA TTATGATCAC TTTCCTAAGG TTCCAGGTGG CTTTAGCCTT 
    CTGCACATGC TTTTTTTGCA TCATGCCTTT CAGATGGATT CCTGCCTGCC TCAGCCTAAT 
    ACCCTCCCTC CCCAGAGACC TAAGGCTTCC TGGGATCTCT GGTCTGTCCA CTTTACCCAG 
    ATCTCCTTGG ACTTTGAGGG AACAGAAAAC TTCAAAGGCC ATACCTTGAA TTTTGTAGCC 
    CCCTTCCCCC TGTCCATTTG GGCCTGCCTA CCCCTCCGCT GGCAGCAAGC CCAGGCACGG 
    AAGCTTCTTT TGGCCTCAGA GGGGAGGCTG AAACCATCAG CCAGTTTTGG AAGTCCTGTC 
    CAGTCTGAGG CTCTTGCCCC TGACTCTATG TCCCATCCGC GGTCAAAGAC TGAACATGAC 
    TTGAAAAGCT TATCAGGACT TACAGAAGTC ATGGAAATTC TGAAAGAAGG CAGTAGTGGT 
    ATGGACAACA AAGGGCCTCT GACAGAGCTG GAGGATGTAG CAGATGTTCA TATGCTTGTA 
    CATTCCCCGG CCCATGTCCG CGTGAGGCTT GACCACTACC AGTACTTGGC TCTGCTTCGC 
    CTGAAGGAGG TGCTGCAGAG GCTTCAGGAG CAGCTGACTA AGGATACAGA GTCAATGACT 
    GGGTCTCCCC TGCAGAATCA GACAGCTTGC ATTGGAGTTC TCTTTCCCAG TGCTGAAGTG 
    GCTCTGCTTA TGCATCCTGC ACCCGGTGCT GTCGATGCTG ACTCTGCAGG CTCAGATAGC 
    ACTAGCCTCG TAGATTCAGA GCTATCTCCT TCAGAGGATC GGGAACTGAA GTCTGATGCC 
    TCATCAGACC AGGGCCCAGC AAGCCCTGAG AAGGTCTTGG AGGAAAGTAG CATTGAAAAT 
    CAGGATGTAT CCCAGGAGAG GCCACATAGC AATGGAGAAC TGCAGGACTC AGGTCCACTT 
    GCCCAGCAGC TGGCAGGGAA GGGCCATGAG GCAGTAGAGT CCCTACAGGC CAAGAAACTG 
    AGCAGAACCC AAGCCTCCAG CTCACCAGCT GCATTGAAGC CCCCAGCTGG CAGGGAGACT 
    GCTGTGAATG GACAGGGTGA GCTCATCCCC TTGAAGAACA TTGAGGGAGA ATTGTCAAGT 
    GCTATTCACA TGACCAAGGA TGCCACCAAG GAGGCTCTAC ATGCCACCAT GGACCTCACC 
    AAGGAAGCTG TGTCCCTGAC TAAGGATGCC TTCAGTTTGG GCAGAGATCG AATGACCTCC 
    ACCATGCACA AGATGTTGTC CCTGCCCCCA GCCAAGGAGC CCATGGCCAA GACAGATGAG 
    GGGGTGGCAG CCCCAGTGAG TGGAGGTGCT GCACGACTCC GATTTTTCTC CATGAAGAGG 
    ACGGTATCTC AACAGTCATT TGATGGTGTC TCATTGGATA GCAGTGGCCC TGAAGACCGG 
    ATTTCAGTGG ACAGTGATGG CAGTGATAGC TTTGTGATGC TCTTGGAGTC TGAGTCTGGT 
    CCAGAATCTG TTCCACCAGG ATCTCTTTCA AATGTCTCAG ATAATGCTGG TGTTCAAGGG 
    AGCCCTCTTG TGAATAATTA TGGCCAGGGG TCACCAGCAG CCAACAGTTC AGTTTCACCC 
    AGTGGAGAAG ACCTCATCTT TCACCCGGTC TCAGTTCTGG TCCTGAAGGT GAATGAGGTG 
    TCTTTTGGGA TTGAGGTACG TGGTGAGGAC CTGACTGTGG CCCTGCAAGC AGAGGAACTG 
    ACCCTCCAGC AGCTGGGCAC CGTGGGACTC TGGCAGTTCC TGCATGGACA GTGCCCAGGT 
    ACATGCTTTC AGGAATCCTC AACTTTGAAG ACTGGCCACA TCAGGCCAGC TGTGGGCCTT 
    CGCTTTGAGG TGGGGCCTGG AGCAGCTGTT CATTCCCCCC TGGCCTCACA AAATGGCTTC 
    CTACATTTAT TGCTTCATGG CTGTGACCTC GAGCTGCTCA CTTCAGTGCT CAGTGGCCTG 
    GGGCCCTTCT TGGAGGATGA GGAGATCCCG GTGGTAGTCC CCATGCAGAT TGAGCTTCTG 
    AACTCCAGCA TCACCCTAAA GGATGATATC CCCCCCATCT ATCCAACATC TCCAGGCCCC 
    ATCCCCATCA CTCTGGCCAT GGAACATGTT GTGCTGAAGA GGAGTGATGA TGGTGTGTTC 
    CACATAGGCG CTGCTGCTCA GGACAAACCA TCAGCTGAAG TACTTAAAAG TGAGAAGAGA 
    CAGCCCCCAA AAGAACAGGT GTTTTTGGTG CCCACAGGAG AGGTTTTTGA ACAGCAGGTG 
    AAAGAACTGC CTATCCTACA AAAAGAACTT ATAGAAACTA AACAAGCCTT GGCCAATGCC 
    AACCAGGATA AAGAAAAACT TCTTCAGGAG ATTAGGAAAT ATAACCCCTT CTTTGAGCTC 
    TGA

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

  • PubMed

    Expression of SESN1, UHRF1BP1, and miR-377-3p as prognostic markers in mutated TP53 squamous cell carcinoma of the head and neck.
    Cancer biology & therapy18(10)775-782(2017 Oct)
    El Baroudi M,Machiels JP,Schmitz S


    A systemic sclerosis and systemic lupus erythematosus pan-meta-GWAS reveals new shared susceptibility loci.
    Human molecular genetics22(19)4021-9(2013 Oct)
    Martin JE,Assassi S,Diaz-Gallo LM,Broen JC,Simeon CP,Castellvi I,Vicente-Rabaneda E,Fonollosa V,Ortego-Centeno N,Gonz?lez-Gay MA,Espinosa G,Carreira P,,,,,Camps M,Sabio JM,D'alfonso S,Vonk MC,Voskuyl AE,Schuerwegh AJ,Kreuter A,Witte T,Riemekasten G,Hunzelmann N,Airo P,Beretta L,Scorza R,Lunardi C,Van Laar J,Chee MM,Worthington J,Herrick A,Denton C,Fonseca C,Tan FK,Arnett F,Zhou X,Reveille JD,Gorlova O,Koeleman BP,Radstake TR,Vyse T,Mayes MD,Alarc?n-Riquelme ME,Martin J


    Genome-wide association and longitudinal analyses reveal genetic loci linking pubertal height growth, pubertal timing and childhood adiposity.
    Human molecular genetics22(13)2735-47(2013 Jul)
    Cousminer DL,Berry DJ,Timpson NJ,Ang W,Thiering E,Byrne EM,Taal HR,Huikari V,Bradfield JP,Kerkhof M,Groen-Blokhuis MM,Kreiner-M?ller E,Marinelli M,Holst C,Leinonen JT,Perry JR,Surakka I,Pietil?inen O,Kettunen J,Anttila V,Kaakinen M,Sovio U,Pouta A,Das S,Lagou V,Power C,Prokopenko I,Evans DM,Kemp JP,St Pourcain B,Ring S,Palotie A,Kajantie E,Osmond C,Lehtim?ki T,Viikari JS,K?h?nen M,Warrington NM,Lye SJ,Palmer LJ,Tiesler CM,Flexeder C,Montgomery GW,Medland SE,Hofman A,Hakonarson H,Guxens M,Bartels M,Salomaa V,,Murabito JM,Kaprio J,S?rensen TI,Ballester F,Bisgaard H,Boomsma DI,Koppelman GH,Grant SF,Jaddoe VW,Martin NG,Heinrich J,Pennell CE,Raitakari OT,Eriksson JG,Smith GD,Hypp?nen E,J?rvelin MR,McCarthy MI,Ripatti S,Wid?n E,


    Meta-analysis followed by replication identifies loci in or near CDKN1B, TET3, CD80, DRAM1, and ARID5B as associated with systemic lupus erythematosus in Asians.
    American journal of human genetics92(1)41-51(2013 Jan)
    Yang W,Tang H,Zhang Y,Tang X,Zhang J,Sun L,Yang J,Cui Y,Zhang L,Hirankarn N,Cheng H,Pan HF,Gao J,Lee TL,Sheng Y,Lau CS,Li Y,Chan TM,Yin X,Ying D,Lu Q,Leung AM,Zuo X,Chen X,Tong KL,Zhou F,Diao Q,Tse NK,Xie H,Mok CC,Hao F,Wong SN,Shi B,Lee KW,Hui Y,Ho MH,Liang B,Lee PP,Cui H,Guo Q,Chung BH,Pu X,Liu Q,Zhang X,Zhang C,Chong CY,Fang H,Wong RW,Sun Y,Mok MY,Li XP,Avihingsanon Y,Zhai Z,Rianthavorn P,Deekajorndej T,Suphapeetiporn K,Gao F,Shotelersuk V,Kang X,Ying SK,Zhang L,Wong WH,Zhu D,Fung SK,Zeng F,Lai WM,Wong CM,Ng IO,Garcia-Barcel? MM,Cherny SS,Shen N,Tam PK,Sham PC,Ye DQ,Yang S,Zhang X,Lau YL


    A genome-wide approach accounting for body mass index identifies genetic variants influencing fasting glycemic traits and insulin resistance.
    Nature genetics44(6)659-69(2012 May)
    Manning AK,Hivert MF,Scott RA,Grimsby JL,Bouatia-Naji N,Chen H,Rybin D,Liu CT,Bielak LF,Prokopenko I,Amin N,Barnes D,Cadby G,Hottenga JJ,Ingelsson E,Jackson AU,Johnson T,Kanoni S,Ladenvall C,Lagou V,Lahti J,Lecoeur C,Liu Y,Martinez-Larrad MT,Montasser ME,Navarro P,Perry JR,Rasmussen-Torvik LJ,Salo P,Sattar N,Shungin D,Strawbridge RJ,Tanaka T,van Duijn CM,An P,de Andrade M,Andrews JS,Aspelund T,Atalay M,Aulchenko Y,Balkau B,Bandinelli S,Beckmann JS,Beilby JP,Bellis C,Bergman RN,Blangero J,Boban M,Boehnke M,Boerwinkle E,Bonnycastle LL,Boomsma DI,Borecki IB,B?ttcher Y,Bouchard C,Brunner E,Budimir D,Campbell H,Carlson O,Chines PS,Clarke R,Collins FS,Corbat?n-Anchuelo A,Couper D,de Faire U,Dedoussis GV,Deloukas P,Dimitriou M,Egan JM,Eiriksdottir G,Erdos MR,Eriksson JG,Eury E,Ferrucci L,Ford I,Forouhi NG,Fox CS,Franzosi MG,Franks PW,Frayling TM,Froguel P,Galan P,de Geus E,Gigante B,Glazer NL,Goel A,Groop L,Gudnason V,Hallmans G,Hamsten A,Hansson O,Harris TB,Hayward C,Heath S,Hercberg S,Hicks AA,Hingorani A,Hofman A,Hui J,Hung J,Jarvelin MR,Jhun MA,Johnson PC,Jukema JW,Jula A,Kao WH,Kaprio J,Kardia SL,Keinanen-Kiukaanniemi S,Kivimaki M,Kolcic I,Kovacs P,Kumari M,Kuusisto J,Kyvik KO,Laakso M,Lakka T,Lannfelt L,Lathrop GM,Launer LJ,Leander K,Li G,Lind L,Lindstrom J,Lobbens S,Loos RJ,Luan J,Lyssenko V,M?gi R,Magnusson PK,Marmot M,Meneton P,Mohlke KL,Mooser V,Morken MA,Miljkovic I,Narisu N,O'Connell J,Ong KK,Oostra BA,Palmer LJ,Palotie A,Pankow JS,Peden JF,Pedersen NL,Pehlic M,Peltonen L,Penninx B,Pericic M,Perola M,Perusse L,Peyser PA,Polasek O,Pramstaller PP,Province MA,R?ikk?nen K,Rauramaa R,Rehnberg E,Rice K,Rotter JI,Rudan I,Ruokonen A,Saaristo T,Sabater-Lleal M,Salomaa V,Savage DB,Saxena R,Schwarz P,Seedorf U,Sennblad B,Serrano-Rios M,Shuldiner AR,Sijbrands EJ,Siscovick DS,Smit JH,Small KS,Smith NL,Smith AV,Stan??kov? A,Stirrups K,Stumvoll M,Sun YV,Swift AJ,T?njes A,Tuomilehto J,Trompet S,Uitterlinden AG,Uusitupa M,Vikstr?m M,Vitart V,Vohl MC,Voight BF,Vollenweider P,Waeber G,Waterworth DM,Watkins H,Wheeler E,Widen E,Wild SH,Willems SM,Willemsen G,Wilson JF,Witteman JC,Wright AF,Yaghootkar H,Zelenika D,Zemunik T,Zgaga L,,,Wareham NJ,McCarthy MI,Barroso I,Watanabe RM,Florez JC,Dupuis J,Meigs JB,Langenberg C


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