DHX30 cDNA ORF clone, Nestor notabilis(Kea)

Gene
Clones
gRNAs

Summary

Gene Symbol	DHX30
Entrez Gene ID	104406388
Full Name	DExH-box helicase 30
Gene Type	protein-coding
Organism	Nestor notabilis(Kea)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010015353.1	XP_010013655.1	putative ATP-dependent RNA helicase DHX30

Pathways from BioSystems
Gene Ontology

The following DHX30 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DHX30 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
ONe110560	XM_010015353.1 Latest version!	Nestor notabilis DEAH (Asp-Glu-Ala-His) box helicase 30 (DHX30), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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

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

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

Reference Sequences (Refseq)

DHX30 ( XM_010015353.1 ) cDNA ORF clone, Nestor notabilis(Kea) -> XP_010013655.1 Nestor notabilis DEAH (Asp-Glu-Ala-His) box helicase 30 (DHX30), mRNA.

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CloneID	ONe110560
Clone ID Related Accession (Same CDS sequence)	XM_010015353.1
Accession Version	XM_010015353.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3087bp) 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	2014-10-30
Organism	Nestor notabilis(Kea)
Product	putative ATP-dependent RNA helicase DHX30
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009911551.1) 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 :: Nestor notabilis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAACCAG ATGATTCCAT CCAGCCCATG GAACAGGGCA GGATGCCTAA AGCAATGAGA 
AGAGAAGAGC TGGAGGAAGG GGAGCTAGAG GAAGGGGAAC TGGAGGAAGG AGAGCTGGAA 
GAAGAAGCAA TCGATGTTTC TGATTATCTA CCTATGGCAC ATCCAGATGC TCGAACCCCG 
GGCAGAGATG CAAGCCGAGG AGGGAGTTCC ATTGAAATGA CAGATGACAA CACTGCCATC 
CGTGCCCTGA CGCAGTTCCC ACTTCCCAAA AATCTCCTTG CCCAAGTGAT TCAGATTGCA 
ACCTCTTCCT CCACAGTCAA GGAATACATG CAGTTCCGTA CAGTAGGCAC CAAGACCAAG 
ATCTGCAAGC TCACGCTCCG CTGGCCCTGT CCCATGACTT TTGCTGCCAA GGGCCGTCGC 
AAGGTGGAGG CAGAAAACAA AGCAGCAGCA CTGGCCTGTC AGAAGCTGAA GAGCCTTGGC 
TTGGTGGACA AGAACAACAA CCCTCTCAGC CATGCTATGT ACAACATGAC TTCACTGCGG 
GAGCTTGGTG AGAACCAGCG GAAACCCTGC CACATCAAAG TCCCTGAGGC AACCCTGCGC 
AAGATTGAGA ACTATCTGAA TCACTATCCA GTGGACATCA GGGAATCCAG GCCCCGGATT 
GCAGATGACA TGATGAATCT GAGCAAGGAA TCTGGTGCCA TAAGTGACGC AATCACAGGG 
AAGACATACA TACCCATGTT GGAAGCAGAA GAAGTACGCC TTAGCCAGAA TCTCCTGGCC 
CTCTGGAAAA GGAGAGGATC CTCGTGGCAG GAGAGCCACC CGCTGCCAGT AGATCCTCAC 
AAGGACACCA TCCTGTCGGC TATTGAGCAG AACCCTGTTG TGGTAATAGC AGGAGATACA 
GGCTGTGGGA AAACCACCAG GATCCCTCAG CTTCTGCTGG AACACTACAT CCTGGAGGGA 
CGTGGTGCCC GCTGCAACGT AGTGATCACT CAGCCAAGGA GGATCAGTGC CATCTCAGTT 
GCCCAGCGTG TGGCACAAGA GTTGGGTCCC AATATGAGGA AGAATGTGGG CTATCAGGTG 
CGACTGGAGA GCAAGCCACC TGCCAGGGGA GGAGCTCTTC TTTTCTGCAC CGTGGGCATC 
CTGCTGCGGA AGCTGCAGGG GAACCCCAGC CTGGAGGGTG TCAGCCATGT TGTAGTCGAT 
GAGGTCCACG AGCGAGATGT CAACACCGAT TTCCTGCTCA TCCTGCTAAA GGGCATCCAG 
AAGCTCAACC CTGACCTGCG CCTGGTCTTA ATGAGTGCCA CAGGAGACAA TCAACGTTTC 
TCACATTATT TTGGGGATTG CCCTGTGGTC AAGGTGCCGG GTTTCATGTA CCCAGTGAAG 
GAATACTATT TGGAGGAGAT CTTGGCCAAG CTGGGCCGGC ACCGACACCG GCACTATGAG 
ATCAAGCAAT CTGATGATGA ATGTGTCCTT GATCTTGATC TCATCACTGA CCTAGTACTC 
CAGATTGATG CCCATGGAGA ACCAGGTGGG ATCCTCTGCT TCCTCCCTGG CTGGCAGGAA 
ATCAAAGGAG TGCAGCAGCG CCTGCTCGAG ATGCTCGGGT CTCAGAACAG CCGGTACCTT 
GTCTTACCAG TGCACTCCAA CATCCCCATG ATGGACCAGC AAAACATCTT CCAGAGGCCT 
CCACCTGGCG TCAGGAAGAT TGTCCTGGCT ACCAACATCG CTGAGACCTC CATCACCATC 
AATGACATTG TCCATGTGGT GGACAGTGGC ACGCACAAGG AGGAACGCTA TGATCTAAAG 
ACCAAGGTGT CCTGCCTGGA AACGGTGTGG GTGTCCAAGT CAAATGTGGT GCAGAGGCGA 
GGGCGTGCTG GTCGCTGTCA GTCAGGATTT GCCTATCACC TCTTCCCACG CAGCCGCCTG 
GACAAGATGC CAACTTACCA GGTTCCAGAG ATCCTACGCA CCCCACTGGA GAACCTGGTG 
GTGCAGGCCA AGATCCACAT GCCAGAGAAA ACGGCAGTTG AATTTCTCTC AAAGGCTCTG 
GACAGCCCTG ACATCAAAGC TGTGGATGAA GCAGTGATCT TGCTGCAGGA GATCGGAGTC 
CTGGACCAGC GAGAAGCCCT CACCACCCTG GGTAAGCGCC TTGCCCAGAT CTCCACAGAT 
CCTCGGCTAG CAAAGGCCAT TGTCTTGGCA TCCATCTACC GTTGCCTCCA CCCGCTGCTC 
GTCATCGTTT CCTGCCTCAC CCGAGACCCC TTCAGCAGCA GCCTGCAAAA CCGTGCAGAG 
GTGGACAAGG CCAAGGCTGT TCTGAGCCGG GAGAGTGGGA GTGATCACCT CGCATTTGTC 
AGGGCCGTGG CAGGCTGGGA GGAGGTGCTG AGGCGTAGAG ACAGTCGTGC CAGGGATAAC 
TACCTGCAGG ACTACTACCT GTATGGCCCC AGCCTTCGCT TCATCAATGG CCTTGTCAAG 
CAGTTCTCTG AGAACCTCTA TGAAGCCTTC TTGGTGTCGT CCCCATCTGA CTGTACCATG 
CCATCCTCTG TATGTAACCA GTACAGTGAA GAGGAAGAAC TTGTCAAGGG AGTCCTTATG 
GCTGGGCTCT ACCCTAACCT CATCCAGGTG AGACAAGGCA AAGTGACCCG ACAGGGGAAG 
TTCAAACCCA ACAGCTACGC ATATAGGACA AAGGCTGGCA CTGTTCTGCT CCACAAGTCA 
ACAATCAACA GGGAGGCGTC CAAGCTGTAC AGCCGCTGGC TAACATACTT CATGGCGGTG 
AAGTCCAACG GTGGGGTGTT TGTGCGGGAC TCCTCCCAGG TCCACCCGCT GGCCGTGCTG 
CTCATGACCG ACACAGATAT CCACGTCCGA GATGATGGCT GGCGAGCAAC AGTCTCCCTG 
ACAGACAGTG ATCTCCTGGT GCTGGAGGGA GACTCCTACA CCATACGCCT CCTGCGTGAT 
TTCCGTGTGT CGCTCTCCAA GATGGTGGAG ACGTGTCTGT GCTATGAGAT GGCAGCCATC 
CCTGGGGACC TGCACCACCA GCACAGCCAG CTGCTCGACA TCCTGGTGGA TCTGCTCAAA 
GGCCCTCCTG GCAGCTTTGG TGCTTAG

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

RefSeq	XP_010013655.1
CDS	427..3513
Translation	MEPDDSIQPMEQGRMPKAMRREELEEGELEEGELEEGELEEEAIDVSDYLPMAHPDARTPGRDASRGGSSIEMTDDNTAIRALTQFPLPKNLLAQVIQIATSSSTVKEYMQFRTVGTKTKICKLTLRWPCPMTFAAKGRRKVEAENKAAALACQKLKSLGLVDKNNNPLSHAMYNMTSLRELGENQRKPCHIKVPEATLRKIENYLNHYPVDIRESRPRIADDMMNLSKESGAISDAITGKTYIPMLEAEEVRLSQNLLALWKRRGSSWQESHPLPVDPHKDTILSAIEQNPVVVIAGDTGCGKTTRIPQLLLEHYILEGRGARCNVVITQPRRISAISVAQRVAQELGPNMRKNVGYQVRLESKPPARGGALLFCTVGILLRKLQGNPSLEGVSHVVVDEVHERDVNTDFLLILLKGIQKLNPDLRLVLMSATGDNQRFSHYFGDCPVVKVPGFMYPVKEYYLEEILAKLGRHRHRHYEIKQSDDECVLDLDLITDLVLQIDAHGEPGGILCFLPGWQEIKGVQQRLLEMLGSQNSRYLVLPVHSNIPMMDQQNIFQRPPPGVRKIVLATNIAETSITINDIVHVVDSGTHKEERYDLKTKVSCLETVWVSKSNVVQRRGRAGRCQSGFAYHLFPRSRLDKMPTYQVPEILRTPLENLVVQAKIHMPEKTAVEFLSKALDSPDIKAVDEAVILLQEIGVLDQREALTTLGKRLAQISTDPRLAKAIVLASIYRCLHPLLVIVSCLTRDPFSSSLQNRAEVDKAKAVLSRESGSDHLAFVRAVAGWEEVLRRRDSRARDNYLQDYYLYGPSLRFINGLVKQFSENLYEAFLVSSPSDCTMPSSVCNQYSEEEELVKGVLMAGLYPNLIQVRQGKVTRQGKFKPNSYAYRTKAGTVLLHKSTINREASKLYSRWLTYFMAVKSNGGVFVRDSSQVHPLAVLLMTDTDIHVRDDGWRATVSLTDSDLLVLEGDSYTIRLLRDFRVSLSKMVETCLCYEMAAIPGDLHHQHSQLLDILVDLLKGPPGSFGA

Target ORF information:

RefSeq Version	XM_010015353.1
Organism	Nestor notabilis(Kea)
Definition	Nestor notabilis DEAH (Asp-Glu-Ala-His) box helicase 30 (DHX30), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_010015353.1

ORF Insert Sequence:

ATGGAACCAG ATGATTCCAT CCAGCCCATG GAACAGGGCA GGATGCCTAA AGCAATGAGA 
AGAGAAGAGC TGGAGGAAGG GGAGCTAGAG GAAGGGGAAC TGGAGGAAGG AGAGCTGGAA 
GAAGAAGCAA TCGATGTTTC TGATTATCTA CCTATGGCAC ATCCAGATGC TCGAACCCCG 
GGCAGAGATG CAAGCCGAGG AGGGAGTTCC ATTGAAATGA CAGATGACAA CACTGCCATC 
CGTGCCCTGA CGCAGTTCCC ACTTCCCAAA AATCTCCTTG CCCAAGTGAT TCAGATTGCA 
ACCTCTTCCT CCACAGTCAA GGAATACATG CAGTTCCGTA CAGTAGGCAC CAAGACCAAG 
ATCTGCAAGC TCACGCTCCG CTGGCCCTGT CCCATGACTT TTGCTGCCAA GGGCCGTCGC 
AAGGTGGAGG CAGAAAACAA AGCAGCAGCA CTGGCCTGTC AGAAGCTGAA GAGCCTTGGC 
TTGGTGGACA AGAACAACAA CCCTCTCAGC CATGCTATGT ACAACATGAC TTCACTGCGG 
GAGCTTGGTG AGAACCAGCG GAAACCCTGC CACATCAAAG TCCCTGAGGC AACCCTGCGC 
AAGATTGAGA ACTATCTGAA TCACTATCCA GTGGACATCA GGGAATCCAG GCCCCGGATT 
GCAGATGACA TGATGAATCT GAGCAAGGAA TCTGGTGCCA TAAGTGACGC AATCACAGGG 
AAGACATACA TACCCATGTT GGAAGCAGAA GAAGTACGCC TTAGCCAGAA TCTCCTGGCC 
CTCTGGAAAA GGAGAGGATC CTCGTGGCAG GAGAGCCACC CGCTGCCAGT AGATCCTCAC 
AAGGACACCA TCCTGTCGGC TATTGAGCAG AACCCTGTTG TGGTAATAGC AGGAGATACA 
GGCTGTGGGA AAACCACCAG GATCCCTCAG CTTCTGCTGG AACACTACAT CCTGGAGGGA 
CGTGGTGCCC GCTGCAACGT AGTGATCACT CAGCCAAGGA GGATCAGTGC CATCTCAGTT 
GCCCAGCGTG TGGCACAAGA GTTGGGTCCC AATATGAGGA AGAATGTGGG CTATCAGGTG 
CGACTGGAGA GCAAGCCACC TGCCAGGGGA GGAGCTCTTC TTTTCTGCAC CGTGGGCATC 
CTGCTGCGGA AGCTGCAGGG GAACCCCAGC CTGGAGGGTG TCAGCCATGT TGTAGTCGAT 
GAGGTCCACG AGCGAGATGT CAACACCGAT TTCCTGCTCA TCCTGCTAAA GGGCATCCAG 
AAGCTCAACC CTGACCTGCG CCTGGTCTTA ATGAGTGCCA CAGGAGACAA TCAACGTTTC 
TCACATTATT TTGGGGATTG CCCTGTGGTC AAGGTGCCGG GTTTCATGTA CCCAGTGAAG 
GAATACTATT TGGAGGAGAT CTTGGCCAAG CTGGGCCGGC ACCGACACCG GCACTATGAG 
ATCAAGCAAT CTGATGATGA ATGTGTCCTT GATCTTGATC TCATCACTGA CCTAGTACTC 
CAGATTGATG CCCATGGAGA ACCAGGTGGG ATCCTCTGCT TCCTCCCTGG CTGGCAGGAA 
ATCAAAGGAG TGCAGCAGCG CCTGCTCGAG ATGCTCGGGT CTCAGAACAG CCGGTACCTT 
GTCTTACCAG TGCACTCCAA CATCCCCATG ATGGACCAGC AAAACATCTT CCAGAGGCCT 
CCACCTGGCG TCAGGAAGAT TGTCCTGGCT ACCAACATCG CTGAGACCTC CATCACCATC 
AATGACATTG TCCATGTGGT GGACAGTGGC ACGCACAAGG AGGAACGCTA TGATCTAAAG 
ACCAAGGTGT CCTGCCTGGA AACGGTGTGG GTGTCCAAGT CAAATGTGGT GCAGAGGCGA 
GGGCGTGCTG GTCGCTGTCA GTCAGGATTT GCCTATCACC TCTTCCCACG CAGCCGCCTG 
GACAAGATGC CAACTTACCA GGTTCCAGAG ATCCTACGCA CCCCACTGGA GAACCTGGTG 
GTGCAGGCCA AGATCCACAT GCCAGAGAAA ACGGCAGTTG AATTTCTCTC AAAGGCTCTG 
GACAGCCCTG ACATCAAAGC TGTGGATGAA GCAGTGATCT TGCTGCAGGA GATCGGAGTC 
CTGGACCAGC GAGAAGCCCT CACCACCCTG GGTAAGCGCC TTGCCCAGAT CTCCACAGAT 
CCTCGGCTAG CAAAGGCCAT TGTCTTGGCA TCCATCTACC GTTGCCTCCA CCCGCTGCTC 
GTCATCGTTT CCTGCCTCAC CCGAGACCCC TTCAGCAGCA GCCTGCAAAA CCGTGCAGAG 
GTGGACAAGG CCAAGGCTGT TCTGAGCCGG GAGAGTGGGA GTGATCACCT CGCATTTGTC 
AGGGCCGTGG CAGGCTGGGA GGAGGTGCTG AGGCGTAGAG ACAGTCGTGC CAGGGATAAC 
TACCTGCAGG ACTACTACCT GTATGGCCCC AGCCTTCGCT TCATCAATGG CCTTGTCAAG 
CAGTTCTCTG AGAACCTCTA TGAAGCCTTC TTGGTGTCGT CCCCATCTGA CTGTACCATG 
CCATCCTCTG TATGTAACCA GTACAGTGAA GAGGAAGAAC TTGTCAAGGG AGTCCTTATG 
GCTGGGCTCT ACCCTAACCT CATCCAGGTG AGACAAGGCA AAGTGACCCG ACAGGGGAAG 
TTCAAACCCA ACAGCTACGC ATATAGGACA AAGGCTGGCA CTGTTCTGCT CCACAAGTCA 
ACAATCAACA GGGAGGCGTC CAAGCTGTAC AGCCGCTGGC TAACATACTT CATGGCGGTG 
AAGTCCAACG GTGGGGTGTT TGTGCGGGAC TCCTCCCAGG TCCACCCGCT GGCCGTGCTG 
CTCATGACCG ACACAGATAT CCACGTCCGA GATGATGGCT GGCGAGCAAC AGTCTCCCTG 
ACAGACAGTG ATCTCCTGGT GCTGGAGGGA GACTCCTACA CCATACGCCT CCTGCGTGAT 
TTCCGTGTGT CGCTCTCCAA GATGGTGGAG ACGTGTCTGT GCTATGAGAT GGCAGCCATC 
CCTGGGGACC TGCACCACCA GCACAGCCAG CTGCTCGACA TCCTGGTGGA TCTGCTCAAA 
GGCCCTCCTG GCAGCTTTGG TGCTTAG