• English
  • Sign In
    Please Sign In
    Sign In
    New to GenScript?
    Register
  • Contact Us
×
Contact us now: +1-877-436-7274

DHX38 cDNA ORF clone, Homo sapiens(human)

Summary

Gene Symbol DHX38
Entrez Gene ID 9785
Full Name DEAH-box helicase 38
Synonyms DDX38,PRP16,PRPF16
General protein information
Preferred Names

DEAH-box helicase 38

Names

pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16
ATP-dependent RNA helicase DHX38
DEAD/H (Asp-Glu-Ala-Asp/His) box polypeptide 38
DEAH (Asp-Glu-Ala-His) box polypeptide 38
DEAH box protein 38
PRP16 homolog of S.cerevisiae
Gene Type protein-coding
Organism Homo sapiens(human)
Genome

16

16q22.2
Summary DEAD box proteins, characterized by the conserved motif Asp-Glu-Ala-Asp (DEAD), are putative RNA helicases. They are implicated in a number of cellular processes involving alteration of RNA secondary structure such as translation initiation, nuclear and mitochondrial splicing, and ribosome and spliceosome assembly. Based on their distribution patterns, some members of this family are believed to be involved in embryogenesis, spermatogenesis, and cellular growth and division. The protein encoded by this gene is a member of the DEAD/H box family of splicing factors. This protein resembles yeast Prp16 more closely than other DEAD/H family members. It is an ATPase and essential for the catalytic step II in pre-mRNA splicing process. [provided by RefSeq, Jul 2008].
Disorder MIM:

605584


Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_005256269.1 XP_005256326.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
XM_017023913.1 XP_016879402.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
XM_011523484.1 XP_011521786.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X1
NM_014003.4 NP_054722.2 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16
XM_011523485.1 XP_011521787.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X1
XM_011523484.2 XP_011521786.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X1
XM_005256269.2 XP_005256326.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
NM_014003.3 NP_054722.2 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16
XM_017023913.2 XP_016879402.1 pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2

Pathways from BioSystems


Homologies


Pan troglodytes (chimpanzee) DHX38 XP_511101.3
Bos taurus (cattle) DHX38 NP_001069266.1
Mus musculus (house mouse) Dhx38 NP_848467.1
Danio rerio (zebrafish) dhx38 NP_957170.1
Saccharomyces cerevisiae (baker's yeast) PRP16 NP_013012.3
Kluyveromyces lactis KLLA0A07733g XP_451344.1
Eremothecium gossypii AGOS_ADR224W NP_984320.1
Oryza sativa (rice) Os07g0508000 NP_001059742.1
Xenopus tropicalis (tropical clawed frog) dhx38 XP_002937626.2
DHX38 XP_001097681.2
Canis lupus familiaris (dog) DHX38 XP_005620809.1
Gallus gallus (chicken) DHX38 NP_001025753.1
Caenorhabditis elegans (roundworm) mog-1 NP_499212.1
Schizosaccharomyces pombe (fission yeast) prp16 NP_595890.2
Rattus norvegicus (Norway rat) Dhx38 NP_001099655.1
Anopheles gambiae (African malaria mosquito) AgaP_AGAP008528 XP_316912.4
Homo sapiens (human) DHX38 NP_054722.2
Drosophila melanogaster (fruit fly) l(1)G0007 NP_572947.1
Magnaporthe oryzae (rice blast fungus) MGG_11351 XP_003713740.1
Neurospora crassa NCU02728 XP_965113.1
Arabidopsis thaliana (thale cress) EMB3011 NP_196805.2

Gene Ontology


Bibliography

Related articles in PubMed

A missense mutation in the splicing factor gene DHX38 is associated with early-onset retinitis pigmentosa with macular coloboma.
Ajmal M, Khan MI, Neveling K, Khan YM, Azam M, Waheed NK, Hamel CP, Ben-Yosef T, De Baere E, Koenekoop RK, Collin RW, Qamar R, Cremers FP
Journal of medical genetics51(7)444-8(2014 Jul)

A quantitative chaperone interaction network reveals the architecture of cellular protein homeostasis pathways.
Taipale M, Tucker G, Peng J, Krykbaeva I, Lin ZY, Larsen B, Choi H, Berger B, Gingras AC, Lindquist S
Cell158(2)434-448(2014 Jul)

The mRNA-bound proteome and its global occupancy profile on protein-coding transcripts.
Baltz AG, Munschauer M, Schwanh?usser B, Vasile A, Murakawa Y, Schueler M, Youngs N, Penfold-Brown D, Drew K, Milek M, Wyler E, Bonneau R, Selbach M, Dieterich C, Landthaler M
Molecular cell46(5)674-90(2012 Jun)

Novel Loci for metabolic networks and multi-tissue expression studies reveal genes for atherosclerosis.
Inouye M, Ripatti S, Kettunen J, Lyytik?inen LP, Oksala N, Laurila PP, Kangas AJ, Soininen P, Savolainen MJ, Viikari J, K?h?nen M, Perola M, Salomaa V, Raitakari O, Lehtim?ki T, Taskinen MR, J?rvelin MR, Ala-Korpela M, Palotie A, de Bakker PI
PLoS genetics8(8)e1002907(2012)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

DHX38 is the first pre-mRNA splicing gene that is putatively associated with autosomal-recessive inherited retinitis pigmentosa.
Title: A missense mutation in the splicing factor gene DHX38 is associated with early-onset retinitis pigmentosa with macular coloboma.

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
OHu06652 NM_014003.4
Latest version!		 Homo sapiens DEAH-box helicase 38 (DHX38), mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $49.50-$69.30
$99.00
OHu06652 XM_011523485.1
Latest version!		 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $49.50-$69.30
$99.00
OHu06652 XM_011523484.2
Latest version!		 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $49.50-$69.30
$99.00
OHu49598 XM_005256269.2
Latest version!		 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu49598 XM_017023913.2
Latest version!		 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
View Old Accession Versions >>
OHu06652 XM_011523484.1 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $49.50-$69.30
$99.00
OHu49598 XM_005256269.1 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu06652 NM_014003.3 Homo sapiens DEAH-box helicase 38 (DHX38), mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $49.50-$69.30
$99.00
OHu49598 XM_017023913.1 Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
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 OHu06652
Clone ID Related Accession (Same CDS sequence) XM_011523484.1 , NM_014003.4 , XM_011523485.1 , XM_011523484.2 , NM_014003.3
Accession Version NM_014003.4 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 2019-08-21
Organism Homo sapiens(human)
Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BG719187.1, BM473438.1, BC008340.1 and AA126451.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_014003.3. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.261139.1, SRR1660809.36002.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000268482.8/ ENSP00000268482.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

RefSeq NP_054722.2
CDS225..3908
Translation

Target ORF information:

RefSeq Version NM_014003.4
Organism Homo sapiens(human)
Definition Homo sapiens DEAH-box helicase 38 (DHX38), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_014003.4

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

CloneID OHu06652
Clone ID Related Accession (Same CDS sequence) XM_011523484.1 , NM_014003.4 , XM_011523485.1 , XM_011523484.2 , NM_014003.3
Accession Version NM_014003.3 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 2017-09-30
Organism Homo sapiens(human)
Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BG719187.1, BM473438.1, BC008340.1, AA126451.1 and BU733805.1. This sequence is a reference standard in the RefSeqGene project. On Jan 30, 2004 this sequence version replaced NM_014003.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.156298.1, SRR1803617.261139.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

RefSeq NP_054722.2
CDS356..4039
Translation

Target ORF information:

RefSeq Version NM_014003.3
Organism Homo sapiens(human)
Definition Homo sapiens DEAH-box helicase 38 (DHX38), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_014003.3

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

CloneID OHu06652
Clone ID Related Accession (Same CDS sequence) XM_011523484.1 , NM_014003.4 , XM_011523485.1 , XM_011523484.2 , NM_014003.3
Accession Version XM_011523484.1 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 2016-06-05
Organism Homo sapiens(human)
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_000016.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

RefSeq XP_011521786.1
CDS283..3966
Translation

Target ORF information:

RefSeq Version XM_011523484.1
Organism Homo sapiens(human)
Definition Homo sapiens 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_011523484.1

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

CloneID OHu06652
Clone ID Related Accession (Same CDS sequence) XM_011523484.1 , NM_014003.4 , XM_011523485.1 , XM_011523484.2 , NM_014003.3
Accession Version XM_011523485.1 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 2019-12-05
Organism Homo sapiens(human)
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_000016.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

RefSeq XP_011521787.1
CDS245..3928
Translation

Target ORF information:

RefSeq Version XM_011523485.1
Organism Homo sapiens(human)
Definition Homo sapiens 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_011523485.1

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

CloneID OHu06652
Clone ID Related Accession (Same CDS sequence) XM_011523484.1 , NM_014003.4 , XM_011523485.1 , XM_011523484.2 , NM_014003.3
Accession Version XM_011523484.2 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 2019-12-05
Organism Homo sapiens(human)
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_000016.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011523484.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

RefSeq XP_011521786.1
CDS177..3860
Translation

Target ORF information:

RefSeq Version XM_011523484.2
Organism Homo sapiens(human)
Definition Homo sapiens 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_011523484.2

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGAGCGGG ATAGAAGTAG GCACAGCAGC 
AGATCAGAGC GAGATGGAGG GTCAGAGCGT AGCAGCAGAA GAAATGAACC CGAGAGCCCA 
CGACATCGAC CTAAAGATGC AGCCACCCCT TCAAGGTCTA CCTGGGAGGA AGAGGACAGT 
GGCTATGGCT CCTCAAGGCG CTCACAGTGG GAATCGCCCT CCCCGACGCC TTCCTATCGG 
GATTCTGAGC GGAGCCATCG GCTGTCCACT CGAGATCGAG ACAGGTCTGT GAGGGGCAAG 
TACTCGGATG ACACGCCTCT GCCAACTCCC TCCTACAAAT ATAACGAGTG GGCCGATGAC 
AGAAGACACT TGGGGTCCAC CCCGCGTCTG TCCAGGGGCC GAGGAAGACG TGAGGAGGGC 
GAAGAAGGAA TTTCATTTGA CACGGAGGAG GAGCGGCAGC AGTGGGAAGA TGACCAGAGG 
CAAGCCGATC GGGATTGGTA CATGATGGAC GAGGGCTATG ACGAGTTCCA CAACCCGCTG 
GCCTACTCCT CCGAGGACTA CGTGAGGAGG CGGGAGCAGC ACCTGCATAA ACAGAAGCAG 
AAGCGCATTT CAGCTCAGCG GAGACAGATC AATGAGGATA ACGAGCGCTG GGAGACAAAC 
CGCATGCTCA CCAGTGGGGT GGTCCATCGG CTGGAGGTGG ATGAGGACTT TGAAGAGGAC 
AACGCGGCCA AGGTGCATCT GATGGTGCAC AATCTGGTGC CTCCCTTTCT GGATGGGCGC 
ATTGTCTTCA CCAAGCAGCC GGAGCCGGTG ATTCCAGTGA AGGATGCTAC TTCTGACCTG 
GCCATCATTG CTCGGAAAGG CAGCCAGACA GTGCGGAAGC ACAGGGAGCA GAAGGAGCGC 
AAGAAGGCTC AGCACAAACA CTGGGAACTG GCGGGGACCA AACTGGGAGA TATAATGGGC 
GTCAAGAAGG AGGAAGAGCC AGATAAAGCT GTGACGGAGG ATGGGAAGGT GGACTACAGG 
ACAGAGCAGA AGTTTGCAGA TCACATGAAG AGAAAGAGCG AAGCCAGCAG TGAATTTGCA 
AAGAAGAAGT CCATCCTGGA GCAGAGGCAG TACCTGCCCA TCTTTGCAGT GCAGCAGGAG 
CTGCTCACTA TTATCAGAGA CAACAGCATC GTGATCGTGG TTGGGGAGAC GGGGAGTGGT 
AAGACCACTC AGCTGACGCA GTACCTGCAT GAAGATGGTT ACACGGACTA TGGGATGATT 
GGGTGTACCC AGCCCCGGCG TGTAGCTGCC ATGTCAGTGG CCAAGAGAGT CAGTGAAGAG 
ATGGGGGGAA ACCTTGGCGA GGAGGTGGGC TATGCCATCC GCTTTGAAGA CTGCACTTCA 
GAGAACACCT TGATCAAATA CATGACTGAC GGGATCCTGC TCCGAGAGTC CCTCCGGGAA 
GCCGACCTGG ATCACTACAG TGCCATCATC ATGGACGAGG CCCACGAGCG CTCCCTCAAC 
ACTGACGTGC TCTTTGGGCT GCTCCGGGAG GTAGTGGCTC GGCGCTCAGA CCTGAAGCTC 
ATCGTCACAT CAGCCACGAT GGATGCGGAG AAGTTTGCTG CCTTTTTTGG GAATGTCCCC 
ATCTTCCACA TCCCTGGCCG TACCTTCCCT GTTGACATCC TCTTCAGCAA GACCCCACAG 
GAGGATTACG TGGAGGCTGC AGTGAAGCAG TCCTTGCAGG TGCACCTGTC GGGGGCCCCT 
GGAGACATCC TTATCTTCAT GCCTGGCCAA GAGGACATTG AGGTGACCTC AGACCAGATT 
GTGGAGCATC TGGAGGAACT GGAGAACGCG CCTGCCCTGG CTGTGCTGCC CATCTACTCT 
CAGCTGCCTT CTGACCTCCA GGCCAAAATC TTCCAGAAGG CTCCAGATGG CGTTCGGAAG 
TGCATCGTTG CCACCAATAT TGCCGAGACG TCTCTCACTG TTGACGGCAT CATGTTTGTT 
ATCGATTCTG GTTATTGCAA ATTAAAGGTC TTCAACCCCA GGATTGGCAT GGATGCTCTG 
CAGATCTATC CCATTAGCCA GGCCAATGCC AACCAGCGGT CAGGGCGAGC CGGCAGGACG 
GGCCCAGGTC AGTGTTTCAG GCTCTACACC CAGAGCGCCT ACAAGAATGA GCTCCTGACC 
ACCACAGTGC CCGAGATCCA GAGGACTAAC CTGGCCAACG TGGTGCTGCT GCTCAAGTCC 
CTCGGGGTGC AGGACCTGCT GCAGTTCCAC TTCATGGACC CGCCCCCGGA GGACAACATG 
CTCAACTCTA TGTATCAGCT CTGGATCCTC GGGGCCCTGG ACAACACAGG TGGTCTGACC 
TCTACCGGGC GGCTGATGGT GGAGTTCCCG CTGGACCCTG CCCTGTCCAA GATGCTCATC 
GTGTCCTGTG ACATGGGCTG CAGCTCCGAG ATCCTGCTCA TCGTTTCCAT GCTCTCGGTC 
CCAGCCATCT TCTACAGGCC CAAGGGTCGA GAGGAGGAGA GTGATCAAAT CCGGGAGAAG 
TTCGCTGTTC CTGAGAGCGA TCATTTGACC TACCTGAATG TTTACCTGCA GTGGAAGAAC 
AATAATTACT CCACCATCTG GTGTAACGAT CATTTCATCC ATGCTAAGGC CATGCGGAAG 
GTCCGGGAGG TGCGAGCTCA ACTCAAGGAC ATCATGGTGC AGCAGCGGAT GAGCCTGGCC 
TCGTGTGGCA CTGACTGGGA CATCGTCAGG AAGTGCATCT GTGCTGCCTA TTTCCACCAA 
GCAGCCAAGC TCAAGGGAAT CGGGGAGTAC GTGAACATCC GCACAGGGAT GCCCTGCCAC 
TTGCACCCCA CCAGCTCCCT TTTTGGAATG GGCTACACCC CAGATTACAT AGTGTATCAC 
GAGTTGGTCA TGACCACCAA GGAGTATATG CAGTGTGTGA CCGCTGTGGA CGGGGAGTGG 
CTGGCGGAGC TGGGCCCCAT GTTCTATAGC GTGAAACAGG CGGGCAAGTC ACGGCAGGAG 
AACCGTCGTC GGGCCAAAGA GGAAGCCTCT GCCATGGAGG AGGAGATGGC GCTGGCCGAG 
GAGCAGCTGC GAGCCCGGCG GCAGGAGCAG GAGAAGCGCA GCCCCCTGGG CAGTGTCAGG 
TCTACGAAGA TCTACACTCC AGGCCGGAAA GAGCAAGGGG AGCCCATGAC CCCTCGCCGC 
ACGCCAGCCC GCTTTGGTCT GTGA

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

CloneID OHu49598
Clone ID Related Accession (Same CDS sequence) XM_005256269.1 , XM_017023913.1 , XM_005256269.2 , XM_017023913.2
Accession Version XM_005256269.1 Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
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 2016-06-05
Organism Homo sapiens(human)
Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

RefSeq XP_005256326.1
CDS283..3861
Translation

Target ORF information:

RefSeq Version XM_005256269.1
Organism Homo sapiens(human)
Definition Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_005256269.1

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

CloneID OHu49598
Clone ID Related Accession (Same CDS sequence) XM_005256269.1 , XM_017023913.1 , XM_005256269.2 , XM_017023913.2
Accession Version XM_017023913.1 Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
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 2016-06-05
Organism Homo sapiens(human)
Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

RefSeq XP_016879402.1
CDS283..3861
Translation

Target ORF information:

RefSeq Version XM_017023913.1
Organism Homo sapiens(human)
Definition Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_017023913.1

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

CloneID OHu49598
Clone ID Related Accession (Same CDS sequence) XM_005256269.1 , XM_017023913.1 , XM_005256269.2 , XM_017023913.2
Accession Version XM_005256269.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
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 2019-12-05
Organism Homo sapiens(human)
Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005256269.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

RefSeq XP_005256326.1
CDS177..3755
Translation

Target ORF information:

RefSeq Version XM_005256269.2
Organism Homo sapiens(human)
Definition Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_005256269.2

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

CloneID OHu49598
Clone ID Related Accession (Same CDS sequence) XM_005256269.1 , XM_017023913.1 , XM_005256269.2 , XM_017023913.2
Accession Version XM_017023913.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
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 2019-12-05
Organism Homo sapiens(human)
Product pre-mRNA-splicing factor ATP-dependent RNA helicase PRP16 isoform X2
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017023913.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

RefSeq XP_016879402.1
CDS177..3755
Translation

Target ORF information:

RefSeq Version XM_017023913.2
Organism Homo sapiens(human)
Definition Homo sapiens DEAH-box helicase 38 (DHX38), transcript variant X4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_017023913.2

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
ATGGGGGACA CCAGTGAGGA TGCCTCGATC CATCGATTGG AAGGCACTGA TCTGGACTGT 
CAGGTTGGTG GTCTTATTTG CAAGTCCAAA AGTGCGGCCA GCGAGCAGCA TGTCTTCAAG 
GCTCCTGCTC CCCGCCCTTC ATTACTCGGA CTGGACTTGC TGGCTTCCCT GAAACGGAGA 
GAGCGAGAGG AGAAGGACGA TGGGGAGGAC AAGAAGAAGT CCAAAGTCTC CTCCTACAAG 
GACTGGGAAG AGAGCAAGGA TGACCAGAAG GATGCTGAGG AAGAGGGCGG TGACCAGGCT 
GGCCAAAATA TCCGGAAAGA CAGACATTAT CGGTCTGCTC GGGTAGAGAC TCCATCCCAT 
CCGGGTGGTG TGAGCGAAGA GTTTTGGGAA CGCAGTCGGC AGAGAGAGCG GGAGCGGCGG 
GAACATGGTG TCTATGCCTC GTCCAAAGAA GAAAAGGATT GGAAGAAGGA GAAATCGCGG 
GATCGAGACT ATGACCGCAA GAGGGACAGA GATGCAGCCA CCCCTTCAAG GTCTACCTGG 
GAGGAAGAGG ACAGTGGCTA TGGCTCCTCA AGGCGCTCAC AGTGGGAATC GCCCTCCCCG 
ACGCCTTCCT ATCGGGATTC TGAGCGGAGC CATCGGCTGT CCACTCGAGA TCGAGACAGG 
TCTGTGAGGG GCAAGTACTC GGATGACACG CCTCTGCCAA CTCCCTCCTA CAAATATAAC 
GAGTGGGCCG ATGACAGAAG ACACTTGGGG TCCACCCCGC GTCTGTCCAG GGGCCGAGGA 
AGACGTGAGG AGGGCGAAGA AGGAATTTCA TTTGACACGG AGGAGGAGCG GCAGCAGTGG 
GAAGATGACC AGAGGCAAGC CGATCGGGAT TGGTACATGA TGGACGAGGG CTATGACGAG 
TTCCACAACC CGCTGGCCTA CTCCTCCGAG GACTACGTGA GGAGGCGGGA GCAGCACCTG 
CATAAACAGA AGCAGAAGCG CATTTCAGCT CAGCGGAGAC AGATCAATGA GGATAACGAG 
CGCTGGGAGA CAAACCGCAT GCTCACCAGT GGGGTGGTCC ATCGGCTGGA GGTGGATGAG 
GACTTTGAAG AGGACAACGC GGCCAAGGTG CATCTGATGG TGCACAATCT GGTGCCTCCC 
TTTCTGGATG GGCGCATTGT CTTCACCAAG CAGCCGGAGC CGGTGATTCC AGTGAAGGAT 
GCTACTTCTG ACCTGGCCAT CATTGCTCGG AAAGGCAGCC AGACAGTGCG GAAGCACAGG 
GAGCAGAAGG AGCGCAAGAA GGCTCAGCAC AAACACTGGG AACTGGCGGG GACCAAACTG 
GGAGATATAA TGGGCGTCAA GAAGGAGGAA GAGCCAGATA AAGCTGTGAC GGAGGATGGG 
AAGGTGGACT ACAGGACAGA GCAGAAGTTT GCAGATCACA TGAAGAGAAA GAGCGAAGCC 
AGCAGTGAAT TTGCAAAGAA GAAGTCCATC CTGGAGCAGA GGCAGTACCT GCCCATCTTT 
GCAGTGCAGC AGGAGCTGCT CACTATTATC AGAGACAACA GCATCGTGAT CGTGGTTGGG 
GAGACGGGGA GTGGTAAGAC CACTCAGCTG ACGCAGTACC TGCATGAAGA TGGTTACACG 
GACTATGGGA TGATTGGGTG TACCCAGCCC CGGCGTGTAG CTGCCATGTC AGTGGCCAAG 
AGAGTCAGTG AAGAGATGGG GGGAAACCTT GGCGAGGAGG TGGGCTATGC CATCCGCTTT 
GAAGACTGCA CTTCAGAGAA CACCTTGATC AAATACATGA CTGACGGGAT CCTGCTCCGA 
GAGTCCCTCC GGGAAGCCGA CCTGGATCAC TACAGTGCCA TCATCATGGA CGAGGCCCAC 
GAGCGCTCCC TCAACACTGA CGTGCTCTTT GGGCTGCTCC GGGAGGTAGT GGCTCGGCGC 
TCAGACCTGA AGCTCATCGT CACATCAGCC ACGATGGATG CGGAGAAGTT TGCTGCCTTT 
TTTGGGAATG TCCCCATCTT CCACATCCCT GGCCGTACCT TCCCTGTTGA CATCCTCTTC 
AGCAAGACCC CACAGGAGGA TTACGTGGAG GCTGCAGTGA AGCAGTCCTT GCAGGTGCAC 
CTGTCGGGGG CCCCTGGAGA CATCCTTATC TTCATGCCTG GCCAAGAGGA CATTGAGGTG 
ACCTCAGACC AGATTGTGGA GCATCTGGAG GAACTGGAGA ACGCGCCTGC CCTGGCTGTG 
CTGCCCATCT ACTCTCAGCT GCCTTCTGAC CTCCAGGCCA AAATCTTCCA GAAGGCTCCA 
GATGGCGTTC GGAAGTGCAT CGTTGCCACC AATATTGCCG AGACGTCTCT CACTGTTGAC 
GGCATCATGT TTGTTATCGA TTCTGGTTAT TGCAAATTAA AGGTCTTCAA CCCCAGGATT 
GGCATGGATG CTCTGCAGAT CTATCCCATT AGCCAGGCCA ATGCCAACCA GCGGTCAGGG 
CGAGCCGGCA GGACGGGCCC AGGTCAGTGT TTCAGGCTCT ACACCCAGAG CGCCTACAAG 
AATGAGCTCC TGACCACCAC AGTGCCCGAG ATCCAGAGGA CTAACCTGGC CAACGTGGTG 
CTGCTGCTCA AGTCCCTCGG GGTGCAGGAC CTGCTGCAGT TCCACTTCAT GGACCCGCCC 
CCGGAGGACA ACATGCTCAA CTCTATGTAT CAGCTCTGGA TCCTCGGGGC CCTGGACAAC 
ACAGGTGGTC TGACCTCTAC CGGGCGGCTG ATGGTGGAGT TCCCGCTGGA CCCTGCCCTG 
TCCAAGATGC TCATCGTGTC CTGTGACATG GGCTGCAGCT CCGAGATCCT GCTCATCGTT 
TCCATGCTCT CGGTCCCAGC CATCTTCTAC AGGCCCAAGG GTCGAGAGGA GGAGAGTGAT 
CAAATCCGGG AGAAGTTCGC TGTTCCTGAG AGCGATCATT TGACCTACCT GAATGTTTAC 
CTGCAGTGGA AGAACAATAA TTACTCCACC ATCTGGTGTA ACGATCATTT CATCCATGCT 
AAGGCCATGC GGAAGGTCCG GGAGGTGCGA GCTCAACTCA AGGACATCAT GGTGCAGCAG 
CGGATGAGCC TGGCCTCGTG TGGCACTGAC TGGGACATCG TCAGGAAGTG CATCTGTGCT 
GCCTATTTCC ACCAAGCAGC CAAGCTCAAG GGAATCGGGG AGTACGTGAA CATCCGCACA 
GGGATGCCCT GCCACTTGCA CCCCACCAGC TCCCTTTTTG GAATGGGCTA CACCCCAGAT 
TACATAGTGT ATCACGAGTT GGTCATGACC ACCAAGGAGT ATATGCAGTG TGTGACCGCT 
GTGGACGGGG AGTGGCTGGC GGAGCTGGGC CCCATGTTCT ATAGCGTGAA ACAGGCGGGC 
AAGTCACGGC AGGAGAACCG TCGTCGGGCC AAAGAGGAAG CCTCTGCCAT GGAGGAGGAG 
ATGGCGCTGG CCGAGGAGCA GCTGCGAGCC CGGCGGCAGG AGCAGGAGAA GCGCAGCCCC 
CTGGGCAGTG TCAGGTCTAC GAAGATCTAC ACTCCAGGCC GGAAAGAGCA AGGGGAGCCC 
ATGACCCCTC GCCGCACGCC AGCCCGCTTT GGTCTGTGA

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

PubMed

book

A missense mutation in the splicing factor gene DHX38 is associated with early-onset retinitis pigmentosa with macular coloboma.
Journal of medical genetics51(7)444-8(2014 Jul)
Ajmal M,Khan MI,Neveling K,Khan YM,Azam M,Waheed NK,Hamel CP,Ben-Yosef T,De Baere E,Koenekoop RK,Collin RW,Qamar R,Cremers FP


book

A quantitative chaperone interaction network reveals the architecture of cellular protein homeostasis pathways.
Cell158(2)434-448(2014 Jul)
Taipale M,Tucker G,Peng J,Krykbaeva I,Lin ZY,Larsen B,Choi H,Berger B,Gingras AC,Lindquist S


book

The mRNA-bound proteome and its global occupancy profile on protein-coding transcripts.
Molecular cell46(5)674-90(2012 Jun)
Baltz AG,Munschauer M,Schwanh?usser B,Vasile A,Murakawa Y,Schueler M,Youngs N,Penfold-Brown D,Drew K,Milek M,Wyler E,Bonneau R,Selbach M,Dieterich C,Landthaler M


book

Novel Loci for metabolic networks and multi-tissue expression studies reveal genes for atherosclerosis.
PLoS genetics8(8)e1002907(2012)
Inouye M,Ripatti S,Kettunen J,Lyytik?inen LP,Oksala N,Laurila PP,Kangas AJ,Soininen P,Savolainen MJ,Viikari J,K?h?nen M,Perola M,Salomaa V,Raitakari O,Lehtim?ki T,Taskinen MR,J?rvelin MR,Ala-Korpela M,Palotie A,de Bakker PI