Dhx38 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Dhx38 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dhx38 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
ORa04503 NM_001106185.1
Latest version!
Rattus norvegicus DEAH-box helicase 38 (Dhx38), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
ORa38917 XM_006255577.2
Latest version!
Rattus norvegicus DEAH-box helicase 38 (Dhx38), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
ORa38917 XM_008772489.2
Latest version!
Rattus norvegicus DEAH-box helicase 38 (Dhx38), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID ORa04503
    Clone ID Related Accession (Same CDS sequence) NM_001106185.1
    Accession Version NM_001106185.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
    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 2018-05-27
    Organism Rattus norvegicus(Norway rat)
    Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473972.1. On or before Oct 4, 2007 this sequence version replaced XM_238048.4, XM_001075164.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-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
    ATGGAGGACG CTGGTGAGGA CGCCTCCATC CATCGCTTGG AAGGCACCAA CTTGGACTCT 
    CAGGTTGGTG GCCTTATTTG CAAGACCAAA AGTGCAGCCA GTGAGCAGCA TGTCTTCAAA
    GCCCCTGCTC CTCGCCCTTC ATTGCTGGGA CTGGACTTAC TGGCGTCCCT GAAACGGAGG
    GAGCGAGAGG AGAAGGATGA TGGGGAGGAC AAGAAAAAGT CCAGAATCTC TTCCTACAAA
    GACTGGGAGG AGAGTAAGGA TGACCAGAAG GATGCCGAGG AGGATGGCGA TGAGCAGGCT
    GGCCGAAGTA GCCGGAGAGA CAGTGAAGAG TTTTGGGAAC GCAGTAGGCA GAGAGAGCGG
    GATCGGAGGG AGCATGGAGT CTACGCCTCA TCCAAAGAAG ACAAGGATCG GAAGAAGGAG
    AAATCCCGGG ATCGAGACCA TGACCGCAAG AGAGACAGAG ATGAGCGGGA CAGAAGTAGG
    CACAGCAGCA GATCAGAACG AGACGGAGGC TCAGAGCGCA GCAGCAGAAG AAATGAACCA
    GAGAGTCCTC GACACCGCCC AAAAGATGCA GCCACCCCTT CAAGGTCCAC CTGGGAGGAG
    GAGGACAGTG GCTATGGCTC TTCAAGGCGC TCTCAGTGGG AAACACCCTC CCCAACACCT
    TCCTATCGGG ACTCTGAGCG GAGTCATCGG CCGTCCACAC GAGATCGAGA CAGGTCTGTG
    AGGAGCAAGT CCTCAGATGA CACACCACTG CCGACCCCCT CCTATAAGTA CAACGAGTGG
    GCTGATGATA GAAGACACTT GGGGTCTACC CCACGTCTGT CCAGGGGCCG AGGAAGACGT
    GAGGATGGTG AAGAAGGGAT TGCATTTGAC ACGGAGGAGG AGCGGCAGCA GTGGGAGGAC
    GACCAGAGGC AAGCAGACCG GGATTGGTAC ATGATGGACG AGGGCTATGA TGAGTTCCAC
    AACCCTCTGG CTTATTCCTC TGAGGACTAC GTGAGGCGGC GGGAGCAGCA CCTGCACAAA
    CAGAAGCAGA AGCGCATTTC AGCACAGCGC AGGCAGATCA ATGAGGATAA TGAGCGTTGG
    GAGACTAACC GGATGCTCAC CAGCGGGGTG GTCCATCGGC TGGAGGTGGA TGAGGACTTT
    GAAGAGGACA ACGCGGCCAA GGTGCATCTG ATGGTGCACA ACCTGGTGCC TCCCTTTCTG
    GATGGACGGA TTGTTTTCAC CAAGCAGCCG GAGCCTGTGA TCCCAGTGAA GGATGCCACC
    TCAGACCTGG CCATTATTGC TCGGAAAGGC AGCCAGACGG TCCGCAAGCA CAGGGAACAG
    AAAGAACGGA GAAAGGCTCA GCACAAACAC TGGGAACTGG CAGGGACCAA ACTAGGAGAC
    ATAATGGGTG TCAAAAAAGA AGAGGAGCCA GATAAAGCTA TGACTGAAGA TGGGAAAGTG
    GACTACAGGA CAGAGCAGAA GTTTGCAGAT CACATGAAGG AGAAAAGTGA GGCCAGCAGT
    GAGTTTGCGA AGAAGAAGTC GATCCTGGAG CAGAGGCAAT ACCTGCCCAT CTTTGCTGTA
    CAGCAGGAAC TCCTCACCAT CATCAGAGAC AACAGCATTG TGATCGTGGT CGGGGAGACG
    GGGAGTGGCA AGACCACTCA GCTGACCCAG TACTTGCATC AAGATGGGTA CACGGACTAT
    GGGATGATCG GGTGCACACA GCCCCGGCGT GTGGCTGCCA TGTCAGTGGC CAAGAGAGTC
    AGTGAAGAGA TGGGGGGAAA CCTTGGAGAA GAGGTGGGTT ATGCCATTCG CTTTGAAGAC
    TGCACTTCTG AAAACACCTT GATCAAATAC ATGACCGATG GGATCCTGCT CCGAGAGTCC
    CTGCGGGAGG CTGACCTAGA CCACTACAGC GCCATCATCA TGGATGAGGC CCATGAGCGC
    TCCCTCAACA CCGACGTGCT CTTTGGGCTG CTCCGGGAGG TTGTGGCTCG ACGCTCAGAC
    CTGAAGCTCA TTGTCACCTC AGCTACTATG GATGCAGACA AATTTGCTGC CTTCTTTGGG
    AATGTACCCA TCTTCCACAT CCCTGGGCGA ACTTTTCCTG TTGACATCCT CTTCAGCAAG
    ACCCCACAGG AGGATTATGT GGAGGCCGCA GTGAAGCAGT CCTTGCAGGT GCACCTGTCT
    GGGGCCCCTG GAGACATCCT TATCTTCATG CCTGGCCAAG AGGACATTGA GGTGACGTCT
    GACCAGATCG TAGAGCACCT AGAGGAGCTG GAGAACGCGC CTGCCTTGGC TGTGCTGCCC
    ATCTACTCCC AGCTGCCGTC TGACCTTCAG GCAAAAATCT TCCAGAAGGC TCCCGATGGC
    GTCCGGAAGT GCATCGTTGC TACCAACATT GCTGAGACGT CTCTGACTGT TGACGGCATC
    ATGTTTGTCA TCGACTCTGG CTACTGCAAG TTAAAGGTCT TCAACCCCAG GATCGGCATG
    GATGCTCTGC AGATCTACCC CATTAGCCAG GCCAATGCCA ACCAGAGGTC AGGGAGAGCT
    GGCAGGACGG GCCCAGGTCA GTGTTTCAGG CTCTACACAC AGAGCGCTTA CAAGAATGAG
    CTCCTGACTA CCACTGTGCC TGAGATCCAG AGGACCAACC TTGCCAACGT GGTGCTGCTG
    CTCAAGTCCC TGGGGGTGCA GGACCTGCTG CAGTTCCACT TCATGGATCC ACCCCCAGAG
    GACAACATGC TCAACTCCAT GTACCAGCTG TGGATCCTCG GAGCCCTGGA TAACACAGGT
    GGTCTCACTT CCACGGGGCG GCTGATGGTG GAGTTCCCAC TGGACCCGGC TCTCTCCAAG
    ATGCTCATCG TGTCTTGTGA CATGGGCTGC AGCTCCGAGA TCCTGCTCAT CGTCTCCATG
    CTCTCCGTCC CTGCCATCTT CTACAGGCCC AAGGGCAGAG AGGAGGAGAG CGATCAGATC
    CGGGAGAAGT TTGCTGTCCC TGAGAGTGAT CACCTGACCT ACCTGAACGT CTACCTGCAG
    TGGAAGAACA ACAATTACTC CACCATTTGG TGCAACGACC ACTTCATCCA CGCCAAGGCC
    ATGCGGAAGG TCCGGGAGGT GCGGGCCCAG CTCAAGGATA TCATGGTGCA GCAGCGGATG
    AGCCTGGCCT CATGTGGCAC TGACTGGGAC ATTGTCAGGA AGTGCATCTG TGCTGCCTAT
    TTCCACCAGG CAGCCAAGCT CAAGGGCATT GGGGAGTATG TGAACATCCG TACAGGGATG
    CCCTGCCACT TACACCCCAC CAGCTCCCTC TTCGGAATGG GTTACACCCC TGACTACATT
    GTATATCACG AGCTGGTCAT GACCACCAAG GAGTACATGC AGTGTGTGAC CGCCGTGGAT
    GGAGAGTGGC TGGCGGAGCT GGGCCCCATG TTCTACAGTG TGAAACAGGC AGGCAAGTCT
    CGGCAGGAGA ATCGTCGTCG GGCTAAAGAG GAGGCCTCTG CCATGGAAGA GGAAATGGCC
    CTAGCTGAGG AGCAGCTGCG CGCCCGGCGG CAGGAGCAGG AGAAGCGCAG CCCGCTGGGC
    AGTGTCAGGT CTACAAAGAT CTACACTCCA GGACGGAAAG AACAGGGGGA ACCCATGACA
    CCTCGCCGCA CACCAGCCCG CTTTGGACTG TGA

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

    RefSeq NP_001099655.1
    CDS389..4021
    Translation

    Target ORF information:

    RefSeq Version NM_001106185.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus DEAH-box helicase 38 (Dhx38), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001106185.1

    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
    ATGGAGGACG CTGGTGAGGA CGCCTCCATC CATCGCTTGG AAGGCACCAA CTTGGACTCT 
    CAGGTTGGTG GCCTTATTTG CAAGACCAAA AGTGCAGCCA GTGAGCAGCA TGTCTTCAAA
    GCCCCTGCTC CTCGCCCTTC ATTGCTGGGA CTGGACTTAC TGGCGTCCCT GAAACGGAGG
    GAGCGAGAGG AGAAGGATGA TGGGGAGGAC AAGAAAAAGT CCAGAATCTC TTCCTACAAA
    GACTGGGAGG AGAGTAAGGA TGACCAGAAG GATGCCGAGG AGGATGGCGA TGAGCAGGCT
    GGCCGAAGTA GCCGGAGAGA CAGTGAAGAG TTTTGGGAAC GCAGTAGGCA GAGAGAGCGG
    GATCGGAGGG AGCATGGAGT CTACGCCTCA TCCAAAGAAG ACAAGGATCG GAAGAAGGAG
    AAATCCCGGG ATCGAGACCA TGACCGCAAG AGAGACAGAG ATGAGCGGGA CAGAAGTAGG
    CACAGCAGCA GATCAGAACG AGACGGAGGC TCAGAGCGCA GCAGCAGAAG AAATGAACCA
    GAGAGTCCTC GACACCGCCC AAAAGATGCA GCCACCCCTT CAAGGTCCAC CTGGGAGGAG
    GAGGACAGTG GCTATGGCTC TTCAAGGCGC TCTCAGTGGG AAACACCCTC CCCAACACCT
    TCCTATCGGG ACTCTGAGCG GAGTCATCGG CCGTCCACAC GAGATCGAGA CAGGTCTGTG
    AGGAGCAAGT CCTCAGATGA CACACCACTG CCGACCCCCT CCTATAAGTA CAACGAGTGG
    GCTGATGATA GAAGACACTT GGGGTCTACC CCACGTCTGT CCAGGGGCCG AGGAAGACGT
    GAGGATGGTG AAGAAGGGAT TGCATTTGAC ACGGAGGAGG AGCGGCAGCA GTGGGAGGAC
    GACCAGAGGC AAGCAGACCG GGATTGGTAC ATGATGGACG AGGGCTATGA TGAGTTCCAC
    AACCCTCTGG CTTATTCCTC TGAGGACTAC GTGAGGCGGC GGGAGCAGCA CCTGCACAAA
    CAGAAGCAGA AGCGCATTTC AGCACAGCGC AGGCAGATCA ATGAGGATAA TGAGCGTTGG
    GAGACTAACC GGATGCTCAC CAGCGGGGTG GTCCATCGGC TGGAGGTGGA TGAGGACTTT
    GAAGAGGACA ACGCGGCCAA GGTGCATCTG ATGGTGCACA ACCTGGTGCC TCCCTTTCTG
    GATGGACGGA TTGTTTTCAC CAAGCAGCCG GAGCCTGTGA TCCCAGTGAA GGATGCCACC
    TCAGACCTGG CCATTATTGC TCGGAAAGGC AGCCAGACGG TCCGCAAGCA CAGGGAACAG
    AAAGAACGGA GAAAGGCTCA GCACAAACAC TGGGAACTGG CAGGGACCAA ACTAGGAGAC
    ATAATGGGTG TCAAAAAAGA AGAGGAGCCA GATAAAGCTA TGACTGAAGA TGGGAAAGTG
    GACTACAGGA CAGAGCAGAA GTTTGCAGAT CACATGAAGG AGAAAAGTGA GGCCAGCAGT
    GAGTTTGCGA AGAAGAAGTC GATCCTGGAG CAGAGGCAAT ACCTGCCCAT CTTTGCTGTA
    CAGCAGGAAC TCCTCACCAT CATCAGAGAC AACAGCATTG TGATCGTGGT CGGGGAGACG
    GGGAGTGGCA AGACCACTCA GCTGACCCAG TACTTGCATC AAGATGGGTA CACGGACTAT
    GGGATGATCG GGTGCACACA GCCCCGGCGT GTGGCTGCCA TGTCAGTGGC CAAGAGAGTC
    AGTGAAGAGA TGGGGGGAAA CCTTGGAGAA GAGGTGGGTT ATGCCATTCG CTTTGAAGAC
    TGCACTTCTG AAAACACCTT GATCAAATAC ATGACCGATG GGATCCTGCT CCGAGAGTCC
    CTGCGGGAGG CTGACCTAGA CCACTACAGC GCCATCATCA TGGATGAGGC CCATGAGCGC
    TCCCTCAACA CCGACGTGCT CTTTGGGCTG CTCCGGGAGG TTGTGGCTCG ACGCTCAGAC
    CTGAAGCTCA TTGTCACCTC AGCTACTATG GATGCAGACA AATTTGCTGC CTTCTTTGGG
    AATGTACCCA TCTTCCACAT CCCTGGGCGA ACTTTTCCTG TTGACATCCT CTTCAGCAAG
    ACCCCACAGG AGGATTATGT GGAGGCCGCA GTGAAGCAGT CCTTGCAGGT GCACCTGTCT
    GGGGCCCCTG GAGACATCCT TATCTTCATG CCTGGCCAAG AGGACATTGA GGTGACGTCT
    GACCAGATCG TAGAGCACCT AGAGGAGCTG GAGAACGCGC CTGCCTTGGC TGTGCTGCCC
    ATCTACTCCC AGCTGCCGTC TGACCTTCAG GCAAAAATCT TCCAGAAGGC TCCCGATGGC
    GTCCGGAAGT GCATCGTTGC TACCAACATT GCTGAGACGT CTCTGACTGT TGACGGCATC
    ATGTTTGTCA TCGACTCTGG CTACTGCAAG TTAAAGGTCT TCAACCCCAG GATCGGCATG
    GATGCTCTGC AGATCTACCC CATTAGCCAG GCCAATGCCA ACCAGAGGTC AGGGAGAGCT
    GGCAGGACGG GCCCAGGTCA GTGTTTCAGG CTCTACACAC AGAGCGCTTA CAAGAATGAG
    CTCCTGACTA CCACTGTGCC TGAGATCCAG AGGACCAACC TTGCCAACGT GGTGCTGCTG
    CTCAAGTCCC TGGGGGTGCA GGACCTGCTG CAGTTCCACT TCATGGATCC ACCCCCAGAG
    GACAACATGC TCAACTCCAT GTACCAGCTG TGGATCCTCG GAGCCCTGGA TAACACAGGT
    GGTCTCACTT CCACGGGGCG GCTGATGGTG GAGTTCCCAC TGGACCCGGC TCTCTCCAAG
    ATGCTCATCG TGTCTTGTGA CATGGGCTGC AGCTCCGAGA TCCTGCTCAT CGTCTCCATG
    CTCTCCGTCC CTGCCATCTT CTACAGGCCC AAGGGCAGAG AGGAGGAGAG CGATCAGATC
    CGGGAGAAGT TTGCTGTCCC TGAGAGTGAT CACCTGACCT ACCTGAACGT CTACCTGCAG
    TGGAAGAACA ACAATTACTC CACCATTTGG TGCAACGACC ACTTCATCCA CGCCAAGGCC
    ATGCGGAAGG TCCGGGAGGT GCGGGCCCAG CTCAAGGATA TCATGGTGCA GCAGCGGATG
    AGCCTGGCCT CATGTGGCAC TGACTGGGAC ATTGTCAGGA AGTGCATCTG TGCTGCCTAT
    TTCCACCAGG CAGCCAAGCT CAAGGGCATT GGGGAGTATG TGAACATCCG TACAGGGATG
    CCCTGCCACT TACACCCCAC CAGCTCCCTC TTCGGAATGG GTTACACCCC TGACTACATT
    GTATATCACG AGCTGGTCAT GACCACCAAG GAGTACATGC AGTGTGTGAC CGCCGTGGAT
    GGAGAGTGGC TGGCGGAGCT GGGCCCCATG TTCTACAGTG TGAAACAGGC AGGCAAGTCT
    CGGCAGGAGA ATCGTCGTCG GGCTAAAGAG GAGGCCTCTG CCATGGAAGA GGAAATGGCC
    CTAGCTGAGG AGCAGCTGCG CGCCCGGCGG CAGGAGCAGG AGAAGCGCAG CCCGCTGGGC
    AGTGTCAGGT CTACAAAGAT CTACACTCCA GGACGGAAAG AACAGGGGGA ACCCATGACA
    CCTCGCCGCA CACCAGCCCG CTTTGGACTG TGA

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

    CloneID ORa38917
    Clone ID Related Accession (Same CDS sequence) XM_006255577.2 , XM_008772489.2
    Accession Version XM_006255577.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005118.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 7, 2014 this sequence version replaced XM_006255577.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGGAGGACG CTGGTGAGGA CGCCTCCATC CATCGCTTGG AAGGCACCAA CTTGGACTCT 
    CAGGTTGGTG GCCTTATTTG CAAGACCAAA AGTGCAGCCA GTGAGCAGCA TGTCTTCAAA
    GCCCCTGCTC CTCGCCCTTC ATTGCTGGGA CTGGACTTAC TGGCGTCCCT GAAACGGAGG
    GAGCGAGAGG AGAAGGATGA TGGGGAGGAC AAGAAAAAGT CCAGAATCTC TTCCTACAAA
    GACTGGGAGG AGAGTAAGGA TGACCAGAAG GATGCCGAGG AGGATGGCGA TGAGCAGGCT
    GGCCGAAGTA GCCGGAGAGA CAGGCACTAC CGATCTGCTC GGGTAGAGAC TCCATCCCAC
    CCCGGGGGTG TGAGTGAAGA GTTTTGGGAA CGCAGTAGGC AGAGAGAGCG GGATCGGAGG
    GAGCATGGAG TCTACGCCTC ATCCAAAGAA GACAAGGATC GGAAGAAGGA GAAATCCCGG
    GATCGAGACC ATGACCGCAA GAGAGACAGA GATGAGCGGG ACAGAAGTAG GCACAGCAGC
    AGATCAGAAC GAGACGGAGG CTCAGAGCGC AGCAGCAGAA GAAATGAACC AGAGAGTCCT
    CGACACCGCC CAAAAGATGC AGCCACCCCT TCAAGGTCCA CCTGGGAGGA GGAGGACAGT
    GGCTATGGCT CTTCAAGGCG CTCTCAGTGG GAAACACCCT CCCCAACACC TTCCTATCGG
    GACTCTGAGC GGAGTCATCG GCCGTCCACA CGAGATCGAG ACAGGTCTGT GAGGAGCAAG
    TCCTCAGATG ACACACCACT GCCGACCCCC TCCTATAAGT ACAACGAGTG GGCTGATGAT
    AGAAGACACT TGGGGTCTAC CCCACGTCTG TCCAGGGGCC GAGGAAGACG TGAGGATGGT
    GAAGAAGGGA TTGCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAGGA CGACCAGAGG
    CAAGCAGACC GGGATTGGTA CATGATGGAC GAGGGCTATG ATGAGTTCCA CAACCCTCTG
    GCTTATTCCT CTGAGGACTA CGTGAGGCGG CGGGAGCAGC ACCTGCACAA ACAGAAGCAG
    AAGCGCATTT CAGCACAGCG CAGGCAGATC AATGAGGATA ATGAGCGTTG GGAGACTAAC
    CGGATGCTCA CCAGCGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC
    AACGCGGCCA AGGTGCATCT GATGGTGCAC AACCTGGTGC CTCCCTTTCT GGATGGACGG
    ATTGTTTTCA CCAAGCAGCC GGAGCCTGTG ATCCCAGTGA AGGATGCCAC CTCAGACCTG
    GCCATTATTG CTCGGAAAGG CAGCCAGACG GTCCGCAAGC ACAGGGAACA GAAAGAACGG
    AGAAAGGCTC AGCACAAACA CTGGGAACTG GCAGGGACCA AACTAGGAGA CATAATGGGT
    GTCAAAAAAG AAGAGGAGCC AGATAAAGCT ATGACTGAAG ATGGGAAAGT GGACTACAGG
    ACAGAGCAGA AGTTTGCAGA TCACATGAAG GAGAAAAGTG AGGCCAGCAG TGAGTTTGCG
    AAGAAGAAGT CGATCCTGGA GCAGAGGCAA TACCTGCCCA TCTTTGCTGT ACAGCAGGAA
    CTCCTCACCA TCATCAGAGA CAACAGCATT GTGATCGTGG TCGGGGAGAC GGGGAGTGGC
    AAGACCACTC AGCTGACCCA GTACTTGCAT CAAGATGGGT ACACGGACTA TGGGATGATC
    GGGTGCACAC AGCCCCGGCG TGTGGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG
    ATGGGGGGAA ACCTTGGAGA AGAGGTGGGT TATGCCATTC GCTTTGAAGA CTGCACTTCT
    GAAAACACCT TGATCAAATA CATGACCGAT GGGATCCTGC TCCGAGAGTC CCTGCGGGAG
    GCTGACCTAG ACCACTACAG CGCCATCATC ATGGATGAGG CCCATGAGCG CTCCCTCAAC
    ACCGACGTGC TCTTTGGGCT GCTCCGGGAG GTTGTGGCTC GACGCTCAGA CCTGAAGCTC
    ATTGTCACCT CAGCTACTAT GGATGCAGAC AAATTTGCTG CCTTCTTTGG GAATGTACCC
    ATCTTCCACA TCCCTGGGCG AACTTTTCCT GTTGACATCC TCTTCAGCAA GACCCCACAG
    GAGGATTATG TGGAGGCCGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC TGGGGCCCCT
    GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACGTC TGACCAGATC
    GTAGAGCACC TAGAGGAGCT GGAGAACGCG CCTGCCTTGG CTGTGCTGCC CATCTACTCC
    CAGCTGCCGT CTGACCTTCA GGCAAAAATC TTCCAGAAGG CTCCCGATGG CGTCCGGAAG
    TGCATCGTTG CTACCAACAT TGCTGAGACG TCTCTGACTG TTGACGGCAT CATGTTTGTC
    ATCGACTCTG GCTACTGCAA GTTAAAGGTC TTCAACCCCA GGATCGGCAT GGATGCTCTG
    CAGATCTACC CCATTAGCCA GGCCAATGCC AACCAGAGGT CAGGGAGAGC TGGCAGGACG
    GGCCCAGGTC AGTGTTTCAG GCTCTACACA CAGAGCGCTT ACAAGAATGA GCTCCTGACT
    ACCACTGTGC CTGAGATCCA GAGGACCAAC CTTGCCAACG TGGTGCTGCT GCTCAAGTCC
    CTGGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGATC CACCCCCAGA GGACAACATG
    CTCAACTCCA TGTACCAGCT GTGGATCCTC GGAGCCCTGG ATAACACAGG TGGTCTCACT
    TCCACGGGGC GGCTGATGGT GGAGTTCCCA CTGGACCCGG CTCTCTCCAA GATGCTCATC
    GTGTCTTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTCTCCAT GCTCTCCGTC
    CCTGCCATCT TCTACAGGCC CAAGGGCAGA GAGGAGGAGA GCGATCAGAT CCGGGAGAAG
    TTTGCTGTCC CTGAGAGTGA TCACCTGACC TACCTGAACG TCTACCTGCA GTGGAAGAAC
    AACAATTACT CCACCATTTG GTGCAACGAC CACTTCATCC ACGCCAAGGC CATGCGGAAG
    GTCCGGGAGG TGCGGGCCCA GCTCAAGGAT ATCATGGTGC AGCAGCGGAT GAGCCTGGCC
    TCATGTGGCA CTGACTGGGA CATTGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAG
    GCAGCCAAGC TCAAGGGCAT TGGGGAGTAT GTGAACATCC GTACAGGGAT GCCCTGCCAC
    TTACACCCCA CCAGCTCCCT CTTCGGAATG GGTTACACCC CTGACTACAT TGTATATCAC
    GAGCTGGTCA TGACCACCAA GGAGTACATG CAGTGTGTGA CCGCCGTGGA TGGAGAGTGG
    CTGGCGGAGC TGGGCCCCAT GTTCTACAGT GTGAAACAGG CAGGCAAGTC TCGGCAGGAG
    AATCGTCGTC GGGCTAAAGA GGAGGCCTCT GCCATGGAAG AGGAAATGGC CCTAGCTGAG
    GAGCAGCTGC GCGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCGCTGGG CAGTGTCAGG
    TCTACAAAGA TCTACACTCC AGGACGGAAA GAACAGGGGG AACCCATGAC ACCTCGCCGC
    ACACCAGCCC GCTTTGGACT GTGA

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

    RefSeq XP_006255639.1
    CDS384..4067
    Translation

    Target ORF information:

    RefSeq Version XM_006255577.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus DEAH-box helicase 38 (Dhx38), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006255577.2

    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
    ATGGAGGACG CTGGTGAGGA CGCCTCCATC CATCGCTTGG AAGGCACCAA CTTGGACTCT 
    CAGGTTGGTG GCCTTATTTG CAAGACCAAA AGTGCAGCCA GTGAGCAGCA TGTCTTCAAA
    GCCCCTGCTC CTCGCCCTTC ATTGCTGGGA CTGGACTTAC TGGCGTCCCT GAAACGGAGG
    GAGCGAGAGG AGAAGGATGA TGGGGAGGAC AAGAAAAAGT CCAGAATCTC TTCCTACAAA
    GACTGGGAGG AGAGTAAGGA TGACCAGAAG GATGCCGAGG AGGATGGCGA TGAGCAGGCT
    GGCCGAAGTA GCCGGAGAGA CAGGCACTAC CGATCTGCTC GGGTAGAGAC TCCATCCCAC
    CCCGGGGGTG TGAGTGAAGA GTTTTGGGAA CGCAGTAGGC AGAGAGAGCG GGATCGGAGG
    GAGCATGGAG TCTACGCCTC ATCCAAAGAA GACAAGGATC GGAAGAAGGA GAAATCCCGG
    GATCGAGACC ATGACCGCAA GAGAGACAGA GATGAGCGGG ACAGAAGTAG GCACAGCAGC
    AGATCAGAAC GAGACGGAGG CTCAGAGCGC AGCAGCAGAA GAAATGAACC AGAGAGTCCT
    CGACACCGCC CAAAAGATGC AGCCACCCCT TCAAGGTCCA CCTGGGAGGA GGAGGACAGT
    GGCTATGGCT CTTCAAGGCG CTCTCAGTGG GAAACACCCT CCCCAACACC TTCCTATCGG
    GACTCTGAGC GGAGTCATCG GCCGTCCACA CGAGATCGAG ACAGGTCTGT GAGGAGCAAG
    TCCTCAGATG ACACACCACT GCCGACCCCC TCCTATAAGT ACAACGAGTG GGCTGATGAT
    AGAAGACACT TGGGGTCTAC CCCACGTCTG TCCAGGGGCC GAGGAAGACG TGAGGATGGT
    GAAGAAGGGA TTGCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAGGA CGACCAGAGG
    CAAGCAGACC GGGATTGGTA CATGATGGAC GAGGGCTATG ATGAGTTCCA CAACCCTCTG
    GCTTATTCCT CTGAGGACTA CGTGAGGCGG CGGGAGCAGC ACCTGCACAA ACAGAAGCAG
    AAGCGCATTT CAGCACAGCG CAGGCAGATC AATGAGGATA ATGAGCGTTG GGAGACTAAC
    CGGATGCTCA CCAGCGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC
    AACGCGGCCA AGGTGCATCT GATGGTGCAC AACCTGGTGC CTCCCTTTCT GGATGGACGG
    ATTGTTTTCA CCAAGCAGCC GGAGCCTGTG ATCCCAGTGA AGGATGCCAC CTCAGACCTG
    GCCATTATTG CTCGGAAAGG CAGCCAGACG GTCCGCAAGC ACAGGGAACA GAAAGAACGG
    AGAAAGGCTC AGCACAAACA CTGGGAACTG GCAGGGACCA AACTAGGAGA CATAATGGGT
    GTCAAAAAAG AAGAGGAGCC AGATAAAGCT ATGACTGAAG ATGGGAAAGT GGACTACAGG
    ACAGAGCAGA AGTTTGCAGA TCACATGAAG GAGAAAAGTG AGGCCAGCAG TGAGTTTGCG
    AAGAAGAAGT CGATCCTGGA GCAGAGGCAA TACCTGCCCA TCTTTGCTGT ACAGCAGGAA
    CTCCTCACCA TCATCAGAGA CAACAGCATT GTGATCGTGG TCGGGGAGAC GGGGAGTGGC
    AAGACCACTC AGCTGACCCA GTACTTGCAT CAAGATGGGT ACACGGACTA TGGGATGATC
    GGGTGCACAC AGCCCCGGCG TGTGGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG
    ATGGGGGGAA ACCTTGGAGA AGAGGTGGGT TATGCCATTC GCTTTGAAGA CTGCACTTCT
    GAAAACACCT TGATCAAATA CATGACCGAT GGGATCCTGC TCCGAGAGTC CCTGCGGGAG
    GCTGACCTAG ACCACTACAG CGCCATCATC ATGGATGAGG CCCATGAGCG CTCCCTCAAC
    ACCGACGTGC TCTTTGGGCT GCTCCGGGAG GTTGTGGCTC GACGCTCAGA CCTGAAGCTC
    ATTGTCACCT CAGCTACTAT GGATGCAGAC AAATTTGCTG CCTTCTTTGG GAATGTACCC
    ATCTTCCACA TCCCTGGGCG AACTTTTCCT GTTGACATCC TCTTCAGCAA GACCCCACAG
    GAGGATTATG TGGAGGCCGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC TGGGGCCCCT
    GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACGTC TGACCAGATC
    GTAGAGCACC TAGAGGAGCT GGAGAACGCG CCTGCCTTGG CTGTGCTGCC CATCTACTCC
    CAGCTGCCGT CTGACCTTCA GGCAAAAATC TTCCAGAAGG CTCCCGATGG CGTCCGGAAG
    TGCATCGTTG CTACCAACAT TGCTGAGACG TCTCTGACTG TTGACGGCAT CATGTTTGTC
    ATCGACTCTG GCTACTGCAA GTTAAAGGTC TTCAACCCCA GGATCGGCAT GGATGCTCTG
    CAGATCTACC CCATTAGCCA GGCCAATGCC AACCAGAGGT CAGGGAGAGC TGGCAGGACG
    GGCCCAGGTC AGTGTTTCAG GCTCTACACA CAGAGCGCTT ACAAGAATGA GCTCCTGACT
    ACCACTGTGC CTGAGATCCA GAGGACCAAC CTTGCCAACG TGGTGCTGCT GCTCAAGTCC
    CTGGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGATC CACCCCCAGA GGACAACATG
    CTCAACTCCA TGTACCAGCT GTGGATCCTC GGAGCCCTGG ATAACACAGG TGGTCTCACT
    TCCACGGGGC GGCTGATGGT GGAGTTCCCA CTGGACCCGG CTCTCTCCAA GATGCTCATC
    GTGTCTTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTCTCCAT GCTCTCCGTC
    CCTGCCATCT TCTACAGGCC CAAGGGCAGA GAGGAGGAGA GCGATCAGAT CCGGGAGAAG
    TTTGCTGTCC CTGAGAGTGA TCACCTGACC TACCTGAACG TCTACCTGCA GTGGAAGAAC
    AACAATTACT CCACCATTTG GTGCAACGAC CACTTCATCC ACGCCAAGGC CATGCGGAAG
    GTCCGGGAGG TGCGGGCCCA GCTCAAGGAT ATCATGGTGC AGCAGCGGAT GAGCCTGGCC
    TCATGTGGCA CTGACTGGGA CATTGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAG
    GCAGCCAAGC TCAAGGGCAT TGGGGAGTAT GTGAACATCC GTACAGGGAT GCCCTGCCAC
    TTACACCCCA CCAGCTCCCT CTTCGGAATG GGTTACACCC CTGACTACAT TGTATATCAC
    GAGCTGGTCA TGACCACCAA GGAGTACATG CAGTGTGTGA CCGCCGTGGA TGGAGAGTGG
    CTGGCGGAGC TGGGCCCCAT GTTCTACAGT GTGAAACAGG CAGGCAAGTC TCGGCAGGAG
    AATCGTCGTC GGGCTAAAGA GGAGGCCTCT GCCATGGAAG AGGAAATGGC CCTAGCTGAG
    GAGCAGCTGC GCGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCGCTGGG CAGTGTCAGG
    TCTACAAAGA TCTACACTCC AGGACGGAAA GAACAGGGGG AACCCATGAC ACCTCGCCGC
    ACACCAGCCC GCTTTGGACT GTGA

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

    CloneID ORa38917
    Clone ID Related Accession (Same CDS sequence) XM_006255577.2 , XM_008772489.2
    Accession Version XM_008772489.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005118.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008772489.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGGAGGACG CTGGTGAGGA CGCCTCCATC CATCGCTTGG AAGGCACCAA CTTGGACTCT 
    CAGGTTGGTG GCCTTATTTG CAAGACCAAA AGTGCAGCCA GTGAGCAGCA TGTCTTCAAA
    GCCCCTGCTC CTCGCCCTTC ATTGCTGGGA CTGGACTTAC TGGCGTCCCT GAAACGGAGG
    GAGCGAGAGG AGAAGGATGA TGGGGAGGAC AAGAAAAAGT CCAGAATCTC TTCCTACAAA
    GACTGGGAGG AGAGTAAGGA TGACCAGAAG GATGCCGAGG AGGATGGCGA TGAGCAGGCT
    GGCCGAAGTA GCCGGAGAGA CAGGCACTAC CGATCTGCTC GGGTAGAGAC TCCATCCCAC
    CCCGGGGGTG TGAGTGAAGA GTTTTGGGAA CGCAGTAGGC AGAGAGAGCG GGATCGGAGG
    GAGCATGGAG TCTACGCCTC ATCCAAAGAA GACAAGGATC GGAAGAAGGA GAAATCCCGG
    GATCGAGACC ATGACCGCAA GAGAGACAGA GATGAGCGGG ACAGAAGTAG GCACAGCAGC
    AGATCAGAAC GAGACGGAGG CTCAGAGCGC AGCAGCAGAA GAAATGAACC AGAGAGTCCT
    CGACACCGCC CAAAAGATGC AGCCACCCCT TCAAGGTCCA CCTGGGAGGA GGAGGACAGT
    GGCTATGGCT CTTCAAGGCG CTCTCAGTGG GAAACACCCT CCCCAACACC TTCCTATCGG
    GACTCTGAGC GGAGTCATCG GCCGTCCACA CGAGATCGAG ACAGGTCTGT GAGGAGCAAG
    TCCTCAGATG ACACACCACT GCCGACCCCC TCCTATAAGT ACAACGAGTG GGCTGATGAT
    AGAAGACACT TGGGGTCTAC CCCACGTCTG TCCAGGGGCC GAGGAAGACG TGAGGATGGT
    GAAGAAGGGA TTGCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAGGA CGACCAGAGG
    CAAGCAGACC GGGATTGGTA CATGATGGAC GAGGGCTATG ATGAGTTCCA CAACCCTCTG
    GCTTATTCCT CTGAGGACTA CGTGAGGCGG CGGGAGCAGC ACCTGCACAA ACAGAAGCAG
    AAGCGCATTT CAGCACAGCG CAGGCAGATC AATGAGGATA ATGAGCGTTG GGAGACTAAC
    CGGATGCTCA CCAGCGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC
    AACGCGGCCA AGGTGCATCT GATGGTGCAC AACCTGGTGC CTCCCTTTCT GGATGGACGG
    ATTGTTTTCA CCAAGCAGCC GGAGCCTGTG ATCCCAGTGA AGGATGCCAC CTCAGACCTG
    GCCATTATTG CTCGGAAAGG CAGCCAGACG GTCCGCAAGC ACAGGGAACA GAAAGAACGG
    AGAAAGGCTC AGCACAAACA CTGGGAACTG GCAGGGACCA AACTAGGAGA CATAATGGGT
    GTCAAAAAAG AAGAGGAGCC AGATAAAGCT ATGACTGAAG ATGGGAAAGT GGACTACAGG
    ACAGAGCAGA AGTTTGCAGA TCACATGAAG GAGAAAAGTG AGGCCAGCAG TGAGTTTGCG
    AAGAAGAAGT CGATCCTGGA GCAGAGGCAA TACCTGCCCA TCTTTGCTGT ACAGCAGGAA
    CTCCTCACCA TCATCAGAGA CAACAGCATT GTGATCGTGG TCGGGGAGAC GGGGAGTGGC
    AAGACCACTC AGCTGACCCA GTACTTGCAT CAAGATGGGT ACACGGACTA TGGGATGATC
    GGGTGCACAC AGCCCCGGCG TGTGGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG
    ATGGGGGGAA ACCTTGGAGA AGAGGTGGGT TATGCCATTC GCTTTGAAGA CTGCACTTCT
    GAAAACACCT TGATCAAATA CATGACCGAT GGGATCCTGC TCCGAGAGTC CCTGCGGGAG
    GCTGACCTAG ACCACTACAG CGCCATCATC ATGGATGAGG CCCATGAGCG CTCCCTCAAC
    ACCGACGTGC TCTTTGGGCT GCTCCGGGAG GTTGTGGCTC GACGCTCAGA CCTGAAGCTC
    ATTGTCACCT CAGCTACTAT GGATGCAGAC AAATTTGCTG CCTTCTTTGG GAATGTACCC
    ATCTTCCACA TCCCTGGGCG AACTTTTCCT GTTGACATCC TCTTCAGCAA GACCCCACAG
    GAGGATTATG TGGAGGCCGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC TGGGGCCCCT
    GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACGTC TGACCAGATC
    GTAGAGCACC TAGAGGAGCT GGAGAACGCG CCTGCCTTGG CTGTGCTGCC CATCTACTCC
    CAGCTGCCGT CTGACCTTCA GGCAAAAATC TTCCAGAAGG CTCCCGATGG CGTCCGGAAG
    TGCATCGTTG CTACCAACAT TGCTGAGACG TCTCTGACTG TTGACGGCAT CATGTTTGTC
    ATCGACTCTG GCTACTGCAA GTTAAAGGTC TTCAACCCCA GGATCGGCAT GGATGCTCTG
    CAGATCTACC CCATTAGCCA GGCCAATGCC AACCAGAGGT CAGGGAGAGC TGGCAGGACG
    GGCCCAGGTC AGTGTTTCAG GCTCTACACA CAGAGCGCTT ACAAGAATGA GCTCCTGACT
    ACCACTGTGC CTGAGATCCA GAGGACCAAC CTTGCCAACG TGGTGCTGCT GCTCAAGTCC
    CTGGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGATC CACCCCCAGA GGACAACATG
    CTCAACTCCA TGTACCAGCT GTGGATCCTC GGAGCCCTGG ATAACACAGG TGGTCTCACT
    TCCACGGGGC GGCTGATGGT GGAGTTCCCA CTGGACCCGG CTCTCTCCAA GATGCTCATC
    GTGTCTTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTCTCCAT GCTCTCCGTC
    CCTGCCATCT TCTACAGGCC CAAGGGCAGA GAGGAGGAGA GCGATCAGAT CCGGGAGAAG
    TTTGCTGTCC CTGAGAGTGA TCACCTGACC TACCTGAACG TCTACCTGCA GTGGAAGAAC
    AACAATTACT CCACCATTTG GTGCAACGAC CACTTCATCC ACGCCAAGGC CATGCGGAAG
    GTCCGGGAGG TGCGGGCCCA GCTCAAGGAT ATCATGGTGC AGCAGCGGAT GAGCCTGGCC
    TCATGTGGCA CTGACTGGGA CATTGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAG
    GCAGCCAAGC TCAAGGGCAT TGGGGAGTAT GTGAACATCC GTACAGGGAT GCCCTGCCAC
    TTACACCCCA CCAGCTCCCT CTTCGGAATG GGTTACACCC CTGACTACAT TGTATATCAC
    GAGCTGGTCA TGACCACCAA GGAGTACATG CAGTGTGTGA CCGCCGTGGA TGGAGAGTGG
    CTGGCGGAGC TGGGCCCCAT GTTCTACAGT GTGAAACAGG CAGGCAAGTC TCGGCAGGAG
    AATCGTCGTC GGGCTAAAGA GGAGGCCTCT GCCATGGAAG AGGAAATGGC CCTAGCTGAG
    GAGCAGCTGC GCGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCGCTGGG CAGTGTCAGG
    TCTACAAAGA TCTACACTCC AGGACGGAAA GAACAGGGGG AACCCATGAC ACCTCGCCGC
    ACACCAGCCC GCTTTGGACT GTGA

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

    RefSeq XP_008770711.1
    CDS924..4607
    Translation

    Target ORF information:

    RefSeq Version XM_008772489.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus DEAH-box helicase 38 (Dhx38), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008772489.2

    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
    ATGGAGGACG CTGGTGAGGA CGCCTCCATC CATCGCTTGG AAGGCACCAA CTTGGACTCT 
    CAGGTTGGTG GCCTTATTTG CAAGACCAAA AGTGCAGCCA GTGAGCAGCA TGTCTTCAAA
    GCCCCTGCTC CTCGCCCTTC ATTGCTGGGA CTGGACTTAC TGGCGTCCCT GAAACGGAGG
    GAGCGAGAGG AGAAGGATGA TGGGGAGGAC AAGAAAAAGT CCAGAATCTC TTCCTACAAA
    GACTGGGAGG AGAGTAAGGA TGACCAGAAG GATGCCGAGG AGGATGGCGA TGAGCAGGCT
    GGCCGAAGTA GCCGGAGAGA CAGGCACTAC CGATCTGCTC GGGTAGAGAC TCCATCCCAC
    CCCGGGGGTG TGAGTGAAGA GTTTTGGGAA CGCAGTAGGC AGAGAGAGCG GGATCGGAGG
    GAGCATGGAG TCTACGCCTC ATCCAAAGAA GACAAGGATC GGAAGAAGGA GAAATCCCGG
    GATCGAGACC ATGACCGCAA GAGAGACAGA GATGAGCGGG ACAGAAGTAG GCACAGCAGC
    AGATCAGAAC GAGACGGAGG CTCAGAGCGC AGCAGCAGAA GAAATGAACC AGAGAGTCCT
    CGACACCGCC CAAAAGATGC AGCCACCCCT TCAAGGTCCA CCTGGGAGGA GGAGGACAGT
    GGCTATGGCT CTTCAAGGCG CTCTCAGTGG GAAACACCCT CCCCAACACC TTCCTATCGG
    GACTCTGAGC GGAGTCATCG GCCGTCCACA CGAGATCGAG ACAGGTCTGT GAGGAGCAAG
    TCCTCAGATG ACACACCACT GCCGACCCCC TCCTATAAGT ACAACGAGTG GGCTGATGAT
    AGAAGACACT TGGGGTCTAC CCCACGTCTG TCCAGGGGCC GAGGAAGACG TGAGGATGGT
    GAAGAAGGGA TTGCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAGGA CGACCAGAGG
    CAAGCAGACC GGGATTGGTA CATGATGGAC GAGGGCTATG ATGAGTTCCA CAACCCTCTG
    GCTTATTCCT CTGAGGACTA CGTGAGGCGG CGGGAGCAGC ACCTGCACAA ACAGAAGCAG
    AAGCGCATTT CAGCACAGCG CAGGCAGATC AATGAGGATA ATGAGCGTTG GGAGACTAAC
    CGGATGCTCA CCAGCGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC
    AACGCGGCCA AGGTGCATCT GATGGTGCAC AACCTGGTGC CTCCCTTTCT GGATGGACGG
    ATTGTTTTCA CCAAGCAGCC GGAGCCTGTG ATCCCAGTGA AGGATGCCAC CTCAGACCTG
    GCCATTATTG CTCGGAAAGG CAGCCAGACG GTCCGCAAGC ACAGGGAACA GAAAGAACGG
    AGAAAGGCTC AGCACAAACA CTGGGAACTG GCAGGGACCA AACTAGGAGA CATAATGGGT
    GTCAAAAAAG AAGAGGAGCC AGATAAAGCT ATGACTGAAG ATGGGAAAGT GGACTACAGG
    ACAGAGCAGA AGTTTGCAGA TCACATGAAG GAGAAAAGTG AGGCCAGCAG TGAGTTTGCG
    AAGAAGAAGT CGATCCTGGA GCAGAGGCAA TACCTGCCCA TCTTTGCTGT ACAGCAGGAA
    CTCCTCACCA TCATCAGAGA CAACAGCATT GTGATCGTGG TCGGGGAGAC GGGGAGTGGC
    AAGACCACTC AGCTGACCCA GTACTTGCAT CAAGATGGGT ACACGGACTA TGGGATGATC
    GGGTGCACAC AGCCCCGGCG TGTGGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG
    ATGGGGGGAA ACCTTGGAGA AGAGGTGGGT TATGCCATTC GCTTTGAAGA CTGCACTTCT
    GAAAACACCT TGATCAAATA CATGACCGAT GGGATCCTGC TCCGAGAGTC CCTGCGGGAG
    GCTGACCTAG ACCACTACAG CGCCATCATC ATGGATGAGG CCCATGAGCG CTCCCTCAAC
    ACCGACGTGC TCTTTGGGCT GCTCCGGGAG GTTGTGGCTC GACGCTCAGA CCTGAAGCTC
    ATTGTCACCT CAGCTACTAT GGATGCAGAC AAATTTGCTG CCTTCTTTGG GAATGTACCC
    ATCTTCCACA TCCCTGGGCG AACTTTTCCT GTTGACATCC TCTTCAGCAA GACCCCACAG
    GAGGATTATG TGGAGGCCGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC TGGGGCCCCT
    GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACGTC TGACCAGATC
    GTAGAGCACC TAGAGGAGCT GGAGAACGCG CCTGCCTTGG CTGTGCTGCC CATCTACTCC
    CAGCTGCCGT CTGACCTTCA GGCAAAAATC TTCCAGAAGG CTCCCGATGG CGTCCGGAAG
    TGCATCGTTG CTACCAACAT TGCTGAGACG TCTCTGACTG TTGACGGCAT CATGTTTGTC
    ATCGACTCTG GCTACTGCAA GTTAAAGGTC TTCAACCCCA GGATCGGCAT GGATGCTCTG
    CAGATCTACC CCATTAGCCA GGCCAATGCC AACCAGAGGT CAGGGAGAGC TGGCAGGACG
    GGCCCAGGTC AGTGTTTCAG GCTCTACACA CAGAGCGCTT ACAAGAATGA GCTCCTGACT
    ACCACTGTGC CTGAGATCCA GAGGACCAAC CTTGCCAACG TGGTGCTGCT GCTCAAGTCC
    CTGGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGATC CACCCCCAGA GGACAACATG
    CTCAACTCCA TGTACCAGCT GTGGATCCTC GGAGCCCTGG ATAACACAGG TGGTCTCACT
    TCCACGGGGC GGCTGATGGT GGAGTTCCCA CTGGACCCGG CTCTCTCCAA GATGCTCATC
    GTGTCTTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTCTCCAT GCTCTCCGTC
    CCTGCCATCT TCTACAGGCC CAAGGGCAGA GAGGAGGAGA GCGATCAGAT CCGGGAGAAG
    TTTGCTGTCC CTGAGAGTGA TCACCTGACC TACCTGAACG TCTACCTGCA GTGGAAGAAC
    AACAATTACT CCACCATTTG GTGCAACGAC CACTTCATCC ACGCCAAGGC CATGCGGAAG
    GTCCGGGAGG TGCGGGCCCA GCTCAAGGAT ATCATGGTGC AGCAGCGGAT GAGCCTGGCC
    TCATGTGGCA CTGACTGGGA CATTGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAG
    GCAGCCAAGC TCAAGGGCAT TGGGGAGTAT GTGAACATCC GTACAGGGAT GCCCTGCCAC
    TTACACCCCA CCAGCTCCCT CTTCGGAATG GGTTACACCC CTGACTACAT TGTATATCAC
    GAGCTGGTCA TGACCACCAA GGAGTACATG CAGTGTGTGA CCGCCGTGGA TGGAGAGTGG
    CTGGCGGAGC TGGGCCCCAT GTTCTACAGT GTGAAACAGG CAGGCAAGTC TCGGCAGGAG
    AATCGTCGTC GGGCTAAAGA GGAGGCCTCT GCCATGGAAG AGGAAATGGC CCTAGCTGAG
    GAGCAGCTGC GCGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCGCTGGG CAGTGTCAGG
    TCTACAAAGA TCTACACTCC AGGACGGAAA GAACAGGGGG AACCCATGAC ACCTCGCCGC
    ACACCAGCCC GCTTTGGACT GTGA

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