Dhx30 cDNA ORF clone, Castor canadensis(American beaver)

Gene
Clones
gRNAs

Summary

Gene Symbol	Dhx30
Entrez Gene ID	109699219
Full Name	DExH-box helicase 30
Gene Type	protein-coding
Organism	Castor canadensis(American beaver)

mRNA and Protein(s)

mRNA	Protein	Name
XM_020183832.1	XP_020039421.1	putative ATP-dependent RNA helicase DHX30 isoform X1
XM_020183840.1	XP_020039429.1	putative ATP-dependent RNA helicase DHX30 isoform X2
XM_020183849.1	XP_020039438.1	putative ATP-dependent RNA helicase DHX30 isoform X3

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)
OCa273620	XM_020183832.1 Latest version!	Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OCa273621	XM_020183840.1 Latest version!	Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OCa273622	XM_020183849.1 Latest version!	Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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_020183832.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020039421.1 Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OCa273620
Clone ID Related Accession (Same CDS sequence)	XM_020183832.1
Accession Version	XM_020183832.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2017-02-14
Organism	Castor canadensis(American beaver)
Product	putative ATP-dependent RNA helicase DHX30 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017869713.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGCTG CCAGGAGGCT CATGGCGATG GCGGTAGGCG TCTCTCTGCG CCTGCGGCCG 
CCGGATCCCC GCGCTGCCGG GCGACAGAGA CGGTCGCGCG GCCTCTCATC AAGCTTCGTC 
CGCCCCGACG GCACCAAAGA GGCCGCTGAG GCCGAGTCAG AGGTGGCTCC TGGTGAGCCC 
AGGGAAGGCG ACGGAAGCAT GGTGAACGCT TCTAGGGACC TATTAAAAGA ATTCCCACAG 
CCTAAAAACC TTCTCAACAG TGTGATTGGA AGAGCCCTTG GCATCTCACA TGCAAAAGAC 
AAACTAGTTT ACGTGCACAC AAATGGACCG AAGAAAAAGA AAGTCACCCT GCACATAAAG 
TGGCCCAAGA GTGTGGAGGT AGAAGGCTAT GGCAGCAAGA AGATTGACGC TGAGCGTCAG 
GCTGCAGCTG CAGCCTGCCA GCTGTTCAAG GGCTGGGGTC TACTGGGTCC CCGGAATGAG 
CTGTTTGACG CAGCCAAATA CCGAGTGCTA GCTGATCGCT TTGGCTCTCC AGCTGACAGC 
TGGTGGCGCC CAGAACCAAC CATGCCCCCC AATTCCTGGC GGCAGCTGAA TCCTGAGAGC 
ATTCGGTCAG GAGGACCTGG CCTTCCCCGC TCCTTGGGCC GAGAGGAAGA AGAGGATGAG 
GAGGAAGAGC TAGAAGAGGG GACCATTGAT GTTACTGAGT TCCTGTCCAT GACCCAGCAG 
GACTCTCATA CCCCACTCAG GGACTCAAGG GGAGGTTCCT TTGAAATGAC AGATGATGAC 
AGTGCTGTTA GGGCTCTGAC CCAGTTCCCA CTTCCCAAGA ACCTTTTGGC CAAGGTGATT 
CAGATTGCAA CGTCCTCCTC CACGGCTAAG AACCTCATGC AGTTCCATAC TGTAGGCACC 
AAGACCAAGT TGTCTACACT TACTCTGCTC TGGCCCTGTC CCATGACCTT TGTTGCAAAA 
GGGCGCCGCA AAGCAGAGGC TGAGAATAAG GCGGCAGCCT TGGCCTGCAA GAAACTGAAG 
AGCCTGGGCC TGGTGGACAG AAACAACGAG CCACTTACCC ATGCCATGTA TAACCTGGCT 
TCTTTGCGTG AGTTGGGTGA GACCCAGCGG CGGCCGTGTA CCATCCAGGT GCCTGAGCCC 
ATCCTCCGCA AGATAGAGAC CTTCCTGAAC CATTACCCCG TGGACAGTTC ATGGATCTCT 
CCAGAACTCC GGTTGCAGAG TGATGACATC TTGCCCTTGG GCAAAGACTC AGGGCCCCTG 
AGTGACCCTA TCACAGGCAA GCCCTATATG CCCCTGTGTG AAACAGAGGA GGTGCGCCTA 
AGCCAGAACC TGCTAGAGCT GTGGCGGCGG CGAGGGCCAA TCTGGCAGGA GGCCCCGCAG 
CTACCTGTGG ACCCACATCG GGACACTATC CTCAATGCTA TTGAGCAGCA TCCAGTGGTG 
GTCATCTCTG GGGACACAGG TTGTGGGAAG ACCACGCGTA TCCCCCAGCT GCTGCTGGAG 
CGCTATGTGA CTGAGGGCCG GGGTGCCCGC TGCAATGTGA TTATCACCCA ACCTCGCCGC 
ATCTCAGCTG TGTCTGTGGC ACAGCGGGTC AGCCATGAAC TGGGACCTTC CTTGCGCCGG 
AACGTGGGCT TCCAGGTGCG CTTGGAAAGC AAGCCCCCAG CCCGAGGTGG AGCGTTGCTC 
TTCTGCACTG TGGGCATCCT GCTGCGGAAG CTGCAGAGCA ACCCCAGCCT GGAGGGTGTC 
AGCCATGTCA TTGTGGACGA GGTCCATGAG CGGGATGTGA ACACAGACTT CCTGCTGATT 
CTGCTCAAGG GCCTGCAGCG ACTCAACCCA TCCCTGCGTC TGGTGCTCAT GAGTGCTACA 
GGTGATAATG AGCGCTTCTC CCGCTACTTT GGTGGCTGCC CTGTCATCAA GGTGCCTGGT 
TTCATGTATC CTGTCAAAGA GCACTACCTG GAGGACATCC TGGCCAAACT GGGCAAACAC 
CAGTACCCAC ACCGGCACCG GCACCATGAG TCTGAGGATG AATGCGCACT TGATTTGGAC 
CTCGTGACTG ATCTGGTTCT GCACATTGAT GCCCGTGGGG AACCAGGTGG GATCCTGTGC 
TTCCTGCCTG GTTGGCAGGA GATCAAAGGA GTGCAGCAAC GCCTCCAGGA GGCTCTGGGC 
ATGCATGAGA GCAAGTACCT CATCCTACCA GTGCACTCCA ACATCCCCAT GATGGACCAG 
AAGGCCATAT TCCAGCAGCC CCCGGCTGGA GTGCGCAAGA TTGTCTTGGC CACCAATATC 
GCTGAGACCT CCATCACAGT CAATGACATT GTGCATGTTG TGGATAGTGG GCTACACAAG 
GAGGAACGCT ACGACCTGAA GACCAAGGTG TCCTGCCTGG AGACGGTGTG GGTATCAAGA 
GCAAATGTGA TCCAGCGCCG GGGCCGGGCA GGCCGCTGCC AGTCAGGTTT TGCCTACCAC 
TTGTTCCCAC GGAGCCGGCT GGAGAAAATG GTTCCTTTCC AAGTGCCAGA GATCCTGCGC 
ACGCCTCTTG AGAACCTGGT GCTGCAAGCC AAAATCCACA TGCCTGAAAA GACGGCAGTG 
GAGTTCCTCT CCAAGGCCGT GGACAGTCCA AACATCAAGG CAGTAGATGA GGCCGTGATC 
TTGCTCCAAG AGATTGGTGT GCTGGACCAG CGGGAGTACC TGACTACCCT AGGGCAGCGC 
CTGGCCCACA TCTCCACTGA TCCCCGGCTA GCCAAGGCCA TAGTGCTGGC TGCCATCTTC 
CGTTGCCTAC ACCCGCTGCT GGTGGTTGTT TCCTGTCTCA CCCGGGACCC CTTCAGCAGT 
AGCCTGCAGA ACAGGGCAGA GGTGGACAAG GTGAAGGCAC TGTTGAGCCA TGACAGTGGC 
AGTGACCACC TGGCCTTTGT GCGGGCTGTG GCCGGCTGGG AGGAGGTGCT GCGTTGGCAG 
GACAGAACCT CCCGGGAGAA CTACCTGGAG GAAAACCTGC TCTATGCACC CAGCCTGCGC 
TTCATCCATG GGCTCATCAA ACAGTTCTCA GAGAACATTT ATGAGGCTTT CCTGGTGGGG 
AAGCCCTCGG ACTGCACACT ACCCTCTGCT CAGTGCAACG AGTACAGCGA GGAAGAGGAG 
CTGGTGAAGG GTGTGCTAAT GGCTGGCCTC TACCCCAACC TCATCCAGGT GAGGCAGGGC 
AAGGTGACCC GGCAAGGGAA GTTCAAACCC AACAGTGTCA CATATAGGAC CAAATCTGGC 
AACATCCTAC TGCACAAGTC AACTATTAAC AGGGAGGCCA CACGGTTACG GAGCCGATGG 
CTAACGTATT TTATGGCTGT CAAGTCCAAT GGTAGCGTCT TCGTACGGGA CTCCTCCCAG 
GTGCACCCAC TAGCTGTGCT GCTCCTGACT GATGGGGACG TCCACATCCG TGACGATGGG 
CGTCGTGCCA CCATTTCACT GAGTGATAGT GACCTGCTGC GGCTGGAGGG TGACTCACGA 
ACTGTACGGC TGCTGAGGGA GCTGCGGCGG GCCCTGGGCC GCATGGTGGA GCGGAGCCTC 
CGCAGTGAGC TGGCTGCACT CCCCCTCAGT GTGCAGCAGG AGCACGGGCA GCTGCTTGCG 
CTGCTGGCGG AGCTGCTGCG AGGACCCTGT GGCAGCTTTG ATGTGCGCAA GACAGCTGAT 
GACTGA

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

RefSeq	XP_020039421.1
CDS	585..4250
Translation	MAAARRLMAMAVGVSLRLRPPDPRAAGRQRRSRGLSSSFVRPDGTKEAAEAESEVAPGEPREGDGSMVNASRDLLKEFPQPKNLLNSVIGRALGISHAKDKLVYVHTNGPKKKKVTLHIKWPKSVEVEGYGSKKIDAERQAAAAACQLFKGWGLLGPRNELFDAAKYRVLADRFGSPADSWWRPEPTMPPNSWRQLNPESIRSGGPGLPRSLGREEEEDEEEELEEGTIDVTEFLSMTQQDSHTPLRDSRGGSFEMTDDDSAVRALTQFPLPKNLLAKVIQIATSSSTAKNLMQFHTVGTKTKLSTLTLLWPCPMTFVAKGRRKAEAENKAAALACKKLKSLGLVDRNNEPLTHAMYNLASLRELGETQRRPCTIQVPEPILRKIETFLNHYPVDSSWISPELRLQSDDILPLGKDSGPLSDPITGKPYMPLCETEEVRLSQNLLELWRRRGPIWQEAPQLPVDPHRDTILNAIEQHPVVVISGDTGCGKTTRIPQLLLERYVTEGRGARCNVIITQPRRISAVSVAQRVSHELGPSLRRNVGFQVRLESKPPARGGALLFCTVGILLRKLQSNPSLEGVSHVIVDEVHERDVNTDFLLILLKGLQRLNPSLRLVLMSATGDNERFSRYFGGCPVIKVPGFMYPVKEHYLEDILAKLGKHQYPHRHRHHESEDECALDLDLVTDLVLHIDARGEPGGILCFLPGWQEIKGVQQRLQEALGMHESKYLILPVHSNIPMMDQKAIFQQPPAGVRKIVLATNIAETSITVNDIVHVVDSGLHKEERYDLKTKVSCLETVWVSRANVIQRRGRAGRCQSGFAYHLFPRSRLEKMVPFQVPEILRTPLENLVLQAKIHMPEKTAVEFLSKAVDSPNIKAVDEAVILLQEIGVLDQREYLTTLGQRLAHISTDPRLAKAIVLAAIFRCLHPLLVVVSCLTRDPFSSSLQNRAEVDKVKALLSHDSGSDHLAFVRAVAGWEEVLRWQDRTSRENYLEENLLYAPSLRFIHGLIKQFSENIYEAFLVGKPSDCTLPSAQCNEYSEEEELVKGVLMAGLYPNLIQVRQGKVTRQGKFKPNSVTYRTKSGNILLHKSTINREATRLRSRWLTYFMAVKSNGSVFVRDSSQVHPLAVLLLTDGDVHIRDDGRRATISLSDSDLLRLEGDSRTVRLLRELRRALGRMVERSLRSELAALPLSVQQEHGQLLALLAELLRGPCGSFDVRKTADD

Target ORF information:

RefSeq Version	XM_020183832.1
Organism	Castor canadensis(American beaver)
Definition	Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X1, mRNA.

Target ORF information:

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

XM_020183832.1

ORF Insert Sequence:

ATGGCGGCTG CCAGGAGGCT CATGGCGATG GCGGTAGGCG TCTCTCTGCG CCTGCGGCCG 
CCGGATCCCC GCGCTGCCGG GCGACAGAGA CGGTCGCGCG GCCTCTCATC AAGCTTCGTC 
CGCCCCGACG GCACCAAAGA GGCCGCTGAG GCCGAGTCAG AGGTGGCTCC TGGTGAGCCC 
AGGGAAGGCG ACGGAAGCAT GGTGAACGCT TCTAGGGACC TATTAAAAGA ATTCCCACAG 
CCTAAAAACC TTCTCAACAG TGTGATTGGA AGAGCCCTTG GCATCTCACA TGCAAAAGAC 
AAACTAGTTT ACGTGCACAC AAATGGACCG AAGAAAAAGA AAGTCACCCT GCACATAAAG 
TGGCCCAAGA GTGTGGAGGT AGAAGGCTAT GGCAGCAAGA AGATTGACGC TGAGCGTCAG 
GCTGCAGCTG CAGCCTGCCA GCTGTTCAAG GGCTGGGGTC TACTGGGTCC CCGGAATGAG 
CTGTTTGACG CAGCCAAATA CCGAGTGCTA GCTGATCGCT TTGGCTCTCC AGCTGACAGC 
TGGTGGCGCC CAGAACCAAC CATGCCCCCC AATTCCTGGC GGCAGCTGAA TCCTGAGAGC 
ATTCGGTCAG GAGGACCTGG CCTTCCCCGC TCCTTGGGCC GAGAGGAAGA AGAGGATGAG 
GAGGAAGAGC TAGAAGAGGG GACCATTGAT GTTACTGAGT TCCTGTCCAT GACCCAGCAG 
GACTCTCATA CCCCACTCAG GGACTCAAGG GGAGGTTCCT TTGAAATGAC AGATGATGAC 
AGTGCTGTTA GGGCTCTGAC CCAGTTCCCA CTTCCCAAGA ACCTTTTGGC CAAGGTGATT 
CAGATTGCAA CGTCCTCCTC CACGGCTAAG AACCTCATGC AGTTCCATAC TGTAGGCACC 
AAGACCAAGT TGTCTACACT TACTCTGCTC TGGCCCTGTC CCATGACCTT TGTTGCAAAA 
GGGCGCCGCA AAGCAGAGGC TGAGAATAAG GCGGCAGCCT TGGCCTGCAA GAAACTGAAG 
AGCCTGGGCC TGGTGGACAG AAACAACGAG CCACTTACCC ATGCCATGTA TAACCTGGCT 
TCTTTGCGTG AGTTGGGTGA GACCCAGCGG CGGCCGTGTA CCATCCAGGT GCCTGAGCCC 
ATCCTCCGCA AGATAGAGAC CTTCCTGAAC CATTACCCCG TGGACAGTTC ATGGATCTCT 
CCAGAACTCC GGTTGCAGAG TGATGACATC TTGCCCTTGG GCAAAGACTC AGGGCCCCTG 
AGTGACCCTA TCACAGGCAA GCCCTATATG CCCCTGTGTG AAACAGAGGA GGTGCGCCTA 
AGCCAGAACC TGCTAGAGCT GTGGCGGCGG CGAGGGCCAA TCTGGCAGGA GGCCCCGCAG 
CTACCTGTGG ACCCACATCG GGACACTATC CTCAATGCTA TTGAGCAGCA TCCAGTGGTG 
GTCATCTCTG GGGACACAGG TTGTGGGAAG ACCACGCGTA TCCCCCAGCT GCTGCTGGAG 
CGCTATGTGA CTGAGGGCCG GGGTGCCCGC TGCAATGTGA TTATCACCCA ACCTCGCCGC 
ATCTCAGCTG TGTCTGTGGC ACAGCGGGTC AGCCATGAAC TGGGACCTTC CTTGCGCCGG 
AACGTGGGCT TCCAGGTGCG CTTGGAAAGC AAGCCCCCAG CCCGAGGTGG AGCGTTGCTC 
TTCTGCACTG TGGGCATCCT GCTGCGGAAG CTGCAGAGCA ACCCCAGCCT GGAGGGTGTC 
AGCCATGTCA TTGTGGACGA GGTCCATGAG CGGGATGTGA ACACAGACTT CCTGCTGATT 
CTGCTCAAGG GCCTGCAGCG ACTCAACCCA TCCCTGCGTC TGGTGCTCAT GAGTGCTACA 
GGTGATAATG AGCGCTTCTC CCGCTACTTT GGTGGCTGCC CTGTCATCAA GGTGCCTGGT 
TTCATGTATC CTGTCAAAGA GCACTACCTG GAGGACATCC TGGCCAAACT GGGCAAACAC 
CAGTACCCAC ACCGGCACCG GCACCATGAG TCTGAGGATG AATGCGCACT TGATTTGGAC 
CTCGTGACTG ATCTGGTTCT GCACATTGAT GCCCGTGGGG AACCAGGTGG GATCCTGTGC 
TTCCTGCCTG GTTGGCAGGA GATCAAAGGA GTGCAGCAAC GCCTCCAGGA GGCTCTGGGC 
ATGCATGAGA GCAAGTACCT CATCCTACCA GTGCACTCCA ACATCCCCAT GATGGACCAG 
AAGGCCATAT TCCAGCAGCC CCCGGCTGGA GTGCGCAAGA TTGTCTTGGC CACCAATATC 
GCTGAGACCT CCATCACAGT CAATGACATT GTGCATGTTG TGGATAGTGG GCTACACAAG 
GAGGAACGCT ACGACCTGAA GACCAAGGTG TCCTGCCTGG AGACGGTGTG GGTATCAAGA 
GCAAATGTGA TCCAGCGCCG GGGCCGGGCA GGCCGCTGCC AGTCAGGTTT TGCCTACCAC 
TTGTTCCCAC GGAGCCGGCT GGAGAAAATG GTTCCTTTCC AAGTGCCAGA GATCCTGCGC 
ACGCCTCTTG AGAACCTGGT GCTGCAAGCC AAAATCCACA TGCCTGAAAA GACGGCAGTG 
GAGTTCCTCT CCAAGGCCGT GGACAGTCCA AACATCAAGG CAGTAGATGA GGCCGTGATC 
TTGCTCCAAG AGATTGGTGT GCTGGACCAG CGGGAGTACC TGACTACCCT AGGGCAGCGC 
CTGGCCCACA TCTCCACTGA TCCCCGGCTA GCCAAGGCCA TAGTGCTGGC TGCCATCTTC 
CGTTGCCTAC ACCCGCTGCT GGTGGTTGTT TCCTGTCTCA CCCGGGACCC CTTCAGCAGT 
AGCCTGCAGA ACAGGGCAGA GGTGGACAAG GTGAAGGCAC TGTTGAGCCA TGACAGTGGC 
AGTGACCACC TGGCCTTTGT GCGGGCTGTG GCCGGCTGGG AGGAGGTGCT GCGTTGGCAG 
GACAGAACCT CCCGGGAGAA CTACCTGGAG GAAAACCTGC TCTATGCACC CAGCCTGCGC 
TTCATCCATG GGCTCATCAA ACAGTTCTCA GAGAACATTT ATGAGGCTTT CCTGGTGGGG 
AAGCCCTCGG ACTGCACACT ACCCTCTGCT CAGTGCAACG AGTACAGCGA GGAAGAGGAG 
CTGGTGAAGG GTGTGCTAAT GGCTGGCCTC TACCCCAACC TCATCCAGGT GAGGCAGGGC 
AAGGTGACCC GGCAAGGGAA GTTCAAACCC AACAGTGTCA CATATAGGAC CAAATCTGGC 
AACATCCTAC TGCACAAGTC AACTATTAAC AGGGAGGCCA CACGGTTACG GAGCCGATGG 
CTAACGTATT TTATGGCTGT CAAGTCCAAT GGTAGCGTCT TCGTACGGGA CTCCTCCCAG 
GTGCACCCAC TAGCTGTGCT GCTCCTGACT GATGGGGACG TCCACATCCG TGACGATGGG 
CGTCGTGCCA CCATTTCACT GAGTGATAGT GACCTGCTGC GGCTGGAGGG TGACTCACGA 
ACTGTACGGC TGCTGAGGGA GCTGCGGCGG GCCCTGGGCC GCATGGTGGA GCGGAGCCTC 
CGCAGTGAGC TGGCTGCACT CCCCCTCAGT GTGCAGCAGG AGCACGGGCA GCTGCTTGCG 
CTGCTGGCGG AGCTGCTGCG AGGACCCTGT GGCAGCTTTG ATGTGCGCAA GACAGCTGAT 
GACTGA

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

Dhx30 ( XM_020183840.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020039429.1 Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OCa273621
Clone ID Related Accession (Same CDS sequence)	XM_020183840.1
Accession Version	XM_020183840.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3630bp) 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	2017-02-14
Organism	Castor canadensis(American beaver)
Product	putative ATP-dependent RNA helicase DHX30 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017869713.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGCTG CCAGGAGGCT CATGGCGATG GCGGTAGGCG TCTCTCTGCG CCTGCGGCCG 
CCGGATCCCC GCGCTGCCGG GCGACAGAGA CGGTCGCGCG GCCTCTCATC AAGCTTCGTC 
CGCCCCGACG GCACCAAAGA GGCCGCTGAG GCCGAGTCAG AGGTGGCTCC TGCTTCTAGG 
GACCTATTAA AAGAATTCCC ACAGCCTAAA AACCTTCTCA ACAGTGTGAT TGGAAGAGCC 
CTTGGCATCT CACATGCAAA AGACAAACTA GTTTACGTGC ACACAAATGG ACCGAAGAAA 
AAGAAAGTCA CCCTGCACAT AAAGTGGCCC AAGAGTGTGG AGGTAGAAGG CTATGGCAGC 
AAGAAGATTG ACGCTGAGCG TCAGGCTGCA GCTGCAGCCT GCCAGCTGTT CAAGGGCTGG 
GGTCTACTGG GTCCCCGGAA TGAGCTGTTT GACGCAGCCA AATACCGAGT GCTAGCTGAT 
CGCTTTGGCT CTCCAGCTGA CAGCTGGTGG CGCCCAGAAC CAACCATGCC CCCCAATTCC 
TGGCGGCAGC TGAATCCTGA GAGCATTCGG TCAGGAGGAC CTGGCCTTCC CCGCTCCTTG 
GGCCGAGAGG AAGAAGAGGA TGAGGAGGAA GAGCTAGAAG AGGGGACCAT TGATGTTACT 
GAGTTCCTGT CCATGACCCA GCAGGACTCT CATACCCCAC TCAGGGACTC AAGGGGAGGT 
TCCTTTGAAA TGACAGATGA TGACAGTGCT GTTAGGGCTC TGACCCAGTT CCCACTTCCC 
AAGAACCTTT TGGCCAAGGT GATTCAGATT GCAACGTCCT CCTCCACGGC TAAGAACCTC 
ATGCAGTTCC ATACTGTAGG CACCAAGACC AAGTTGTCTA CACTTACTCT GCTCTGGCCC 
TGTCCCATGA CCTTTGTTGC AAAAGGGCGC CGCAAAGCAG AGGCTGAGAA TAAGGCGGCA 
GCCTTGGCCT GCAAGAAACT GAAGAGCCTG GGCCTGGTGG ACAGAAACAA CGAGCCACTT 
ACCCATGCCA TGTATAACCT GGCTTCTTTG CGTGAGTTGG GTGAGACCCA GCGGCGGCCG 
TGTACCATCC AGGTGCCTGA GCCCATCCTC CGCAAGATAG AGACCTTCCT GAACCATTAC 
CCCGTGGACA GTTCATGGAT CTCTCCAGAA CTCCGGTTGC AGAGTGATGA CATCTTGCCC 
TTGGGCAAAG ACTCAGGGCC CCTGAGTGAC CCTATCACAG GCAAGCCCTA TATGCCCCTG 
TGTGAAACAG AGGAGGTGCG CCTAAGCCAG AACCTGCTAG AGCTGTGGCG GCGGCGAGGG 
CCAATCTGGC AGGAGGCCCC GCAGCTACCT GTGGACCCAC ATCGGGACAC TATCCTCAAT 
GCTATTGAGC AGCATCCAGT GGTGGTCATC TCTGGGGACA CAGGTTGTGG GAAGACCACG 
CGTATCCCCC AGCTGCTGCT GGAGCGCTAT GTGACTGAGG GCCGGGGTGC CCGCTGCAAT 
GTGATTATCA CCCAACCTCG CCGCATCTCA GCTGTGTCTG TGGCACAGCG GGTCAGCCAT 
GAACTGGGAC CTTCCTTGCG CCGGAACGTG GGCTTCCAGG TGCGCTTGGA AAGCAAGCCC 
CCAGCCCGAG GTGGAGCGTT GCTCTTCTGC ACTGTGGGCA TCCTGCTGCG GAAGCTGCAG 
AGCAACCCCA GCCTGGAGGG TGTCAGCCAT GTCATTGTGG ACGAGGTCCA TGAGCGGGAT 
GTGAACACAG ACTTCCTGCT GATTCTGCTC AAGGGCCTGC AGCGACTCAA CCCATCCCTG 
CGTCTGGTGC TCATGAGTGC TACAGGTGAT AATGAGCGCT TCTCCCGCTA CTTTGGTGGC 
TGCCCTGTCA TCAAGGTGCC TGGTTTCATG TATCCTGTCA AAGAGCACTA CCTGGAGGAC 
ATCCTGGCCA AACTGGGCAA ACACCAGTAC CCACACCGGC ACCGGCACCA TGAGTCTGAG 
GATGAATGCG CACTTGATTT GGACCTCGTG ACTGATCTGG TTCTGCACAT TGATGCCCGT 
GGGGAACCAG GTGGGATCCT GTGCTTCCTG CCTGGTTGGC AGGAGATCAA AGGAGTGCAG 
CAACGCCTCC AGGAGGCTCT GGGCATGCAT GAGAGCAAGT ACCTCATCCT ACCAGTGCAC 
TCCAACATCC CCATGATGGA CCAGAAGGCC ATATTCCAGC AGCCCCCGGC TGGAGTGCGC 
AAGATTGTCT TGGCCACCAA TATCGCTGAG ACCTCCATCA CAGTCAATGA CATTGTGCAT 
GTTGTGGATA GTGGGCTACA CAAGGAGGAA CGCTACGACC TGAAGACCAA GGTGTCCTGC 
CTGGAGACGG TGTGGGTATC AAGAGCAAAT GTGATCCAGC GCCGGGGCCG GGCAGGCCGC 
TGCCAGTCAG GTTTTGCCTA CCACTTGTTC CCACGGAGCC GGCTGGAGAA AATGGTTCCT 
TTCCAAGTGC CAGAGATCCT GCGCACGCCT CTTGAGAACC TGGTGCTGCA AGCCAAAATC 
CACATGCCTG AAAAGACGGC AGTGGAGTTC CTCTCCAAGG CCGTGGACAG TCCAAACATC 
AAGGCAGTAG ATGAGGCCGT GATCTTGCTC CAAGAGATTG GTGTGCTGGA CCAGCGGGAG 
TACCTGACTA CCCTAGGGCA GCGCCTGGCC CACATCTCCA CTGATCCCCG GCTAGCCAAG 
GCCATAGTGC TGGCTGCCAT CTTCCGTTGC CTACACCCGC TGCTGGTGGT TGTTTCCTGT 
CTCACCCGGG ACCCCTTCAG CAGTAGCCTG CAGAACAGGG CAGAGGTGGA CAAGGTGAAG 
GCACTGTTGA GCCATGACAG TGGCAGTGAC CACCTGGCCT TTGTGCGGGC TGTGGCCGGC 
TGGGAGGAGG TGCTGCGTTG GCAGGACAGA ACCTCCCGGG AGAACTACCT GGAGGAAAAC 
CTGCTCTATG CACCCAGCCT GCGCTTCATC CATGGGCTCA TCAAACAGTT CTCAGAGAAC 
ATTTATGAGG CTTTCCTGGT GGGGAAGCCC TCGGACTGCA CACTACCCTC TGCTCAGTGC 
AACGAGTACA GCGAGGAAGA GGAGCTGGTG AAGGGTGTGC TAATGGCTGG CCTCTACCCC 
AACCTCATCC AGGTGAGGCA GGGCAAGGTG ACCCGGCAAG GGAAGTTCAA ACCCAACAGT 
GTCACATATA GGACCAAATC TGGCAACATC CTACTGCACA AGTCAACTAT TAACAGGGAG 
GCCACACGGT TACGGAGCCG ATGGCTAACG TATTTTATGG CTGTCAAGTC CAATGGTAGC 
GTCTTCGTAC GGGACTCCTC CCAGGTGCAC CCACTAGCTG TGCTGCTCCT GACTGATGGG 
GACGTCCACA TCCGTGACGA TGGGCGTCGT GCCACCATTT CACTGAGTGA TAGTGACCTG 
CTGCGGCTGG AGGGTGACTC ACGAACTGTA CGGCTGCTGA GGGAGCTGCG GCGGGCCCTG 
GGCCGCATGG TGGAGCGGAG CCTCCGCAGT GAGCTGGCTG CACTCCCCCT CAGTGTGCAG 
CAGGAGCACG GGCAGCTGCT TGCGCTGCTG GCGGAGCTGC TGCGAGGACC CTGTGGCAGC 
TTTGATGTGC GCAAGACAGC TGATGACTGA

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

RefSeq	XP_020039429.1
CDS	585..4214
Translation	MAAARRLMAMAVGVSLRLRPPDPRAAGRQRRSRGLSSSFVRPDGTKEAAEAESEVAPASRDLLKEFPQPKNLLNSVIGRALGISHAKDKLVYVHTNGPKKKKVTLHIKWPKSVEVEGYGSKKIDAERQAAAAACQLFKGWGLLGPRNELFDAAKYRVLADRFGSPADSWWRPEPTMPPNSWRQLNPESIRSGGPGLPRSLGREEEEDEEEELEEGTIDVTEFLSMTQQDSHTPLRDSRGGSFEMTDDDSAVRALTQFPLPKNLLAKVIQIATSSSTAKNLMQFHTVGTKTKLSTLTLLWPCPMTFVAKGRRKAEAENKAAALACKKLKSLGLVDRNNEPLTHAMYNLASLRELGETQRRPCTIQVPEPILRKIETFLNHYPVDSSWISPELRLQSDDILPLGKDSGPLSDPITGKPYMPLCETEEVRLSQNLLELWRRRGPIWQEAPQLPVDPHRDTILNAIEQHPVVVISGDTGCGKTTRIPQLLLERYVTEGRGARCNVIITQPRRISAVSVAQRVSHELGPSLRRNVGFQVRLESKPPARGGALLFCTVGILLRKLQSNPSLEGVSHVIVDEVHERDVNTDFLLILLKGLQRLNPSLRLVLMSATGDNERFSRYFGGCPVIKVPGFMYPVKEHYLEDILAKLGKHQYPHRHRHHESEDECALDLDLVTDLVLHIDARGEPGGILCFLPGWQEIKGVQQRLQEALGMHESKYLILPVHSNIPMMDQKAIFQQPPAGVRKIVLATNIAETSITVNDIVHVVDSGLHKEERYDLKTKVSCLETVWVSRANVIQRRGRAGRCQSGFAYHLFPRSRLEKMVPFQVPEILRTPLENLVLQAKIHMPEKTAVEFLSKAVDSPNIKAVDEAVILLQEIGVLDQREYLTTLGQRLAHISTDPRLAKAIVLAAIFRCLHPLLVVVSCLTRDPFSSSLQNRAEVDKVKALLSHDSGSDHLAFVRAVAGWEEVLRWQDRTSRENYLEENLLYAPSLRFIHGLIKQFSENIYEAFLVGKPSDCTLPSAQCNEYSEEEELVKGVLMAGLYPNLIQVRQGKVTRQGKFKPNSVTYRTKSGNILLHKSTINREATRLRSRWLTYFMAVKSNGSVFVRDSSQVHPLAVLLLTDGDVHIRDDGRRATISLSDSDLLRLEGDSRTVRLLRELRRALGRMVERSLRSELAALPLSVQQEHGQLLALLAELLRGPCGSFDVRKTADD

Target ORF information:

RefSeq Version	XM_020183840.1
Organism	Castor canadensis(American beaver)
Definition	Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X2, mRNA.

Target ORF information:

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

XM_020183840.1

ORF Insert Sequence:

ATGGCGGCTG CCAGGAGGCT CATGGCGATG GCGGTAGGCG TCTCTCTGCG CCTGCGGCCG 
CCGGATCCCC GCGCTGCCGG GCGACAGAGA CGGTCGCGCG GCCTCTCATC AAGCTTCGTC 
CGCCCCGACG GCACCAAAGA GGCCGCTGAG GCCGAGTCAG AGGTGGCTCC TGCTTCTAGG 
GACCTATTAA AAGAATTCCC ACAGCCTAAA AACCTTCTCA ACAGTGTGAT TGGAAGAGCC 
CTTGGCATCT CACATGCAAA AGACAAACTA GTTTACGTGC ACACAAATGG ACCGAAGAAA 
AAGAAAGTCA CCCTGCACAT AAAGTGGCCC AAGAGTGTGG AGGTAGAAGG CTATGGCAGC 
AAGAAGATTG ACGCTGAGCG TCAGGCTGCA GCTGCAGCCT GCCAGCTGTT CAAGGGCTGG 
GGTCTACTGG GTCCCCGGAA TGAGCTGTTT GACGCAGCCA AATACCGAGT GCTAGCTGAT 
CGCTTTGGCT CTCCAGCTGA CAGCTGGTGG CGCCCAGAAC CAACCATGCC CCCCAATTCC 
TGGCGGCAGC TGAATCCTGA GAGCATTCGG TCAGGAGGAC CTGGCCTTCC CCGCTCCTTG 
GGCCGAGAGG AAGAAGAGGA TGAGGAGGAA GAGCTAGAAG AGGGGACCAT TGATGTTACT 
GAGTTCCTGT CCATGACCCA GCAGGACTCT CATACCCCAC TCAGGGACTC AAGGGGAGGT 
TCCTTTGAAA TGACAGATGA TGACAGTGCT GTTAGGGCTC TGACCCAGTT CCCACTTCCC 
AAGAACCTTT TGGCCAAGGT GATTCAGATT GCAACGTCCT CCTCCACGGC TAAGAACCTC 
ATGCAGTTCC ATACTGTAGG CACCAAGACC AAGTTGTCTA CACTTACTCT GCTCTGGCCC 
TGTCCCATGA CCTTTGTTGC AAAAGGGCGC CGCAAAGCAG AGGCTGAGAA TAAGGCGGCA 
GCCTTGGCCT GCAAGAAACT GAAGAGCCTG GGCCTGGTGG ACAGAAACAA CGAGCCACTT 
ACCCATGCCA TGTATAACCT GGCTTCTTTG CGTGAGTTGG GTGAGACCCA GCGGCGGCCG 
TGTACCATCC AGGTGCCTGA GCCCATCCTC CGCAAGATAG AGACCTTCCT GAACCATTAC 
CCCGTGGACA GTTCATGGAT CTCTCCAGAA CTCCGGTTGC AGAGTGATGA CATCTTGCCC 
TTGGGCAAAG ACTCAGGGCC CCTGAGTGAC CCTATCACAG GCAAGCCCTA TATGCCCCTG 
TGTGAAACAG AGGAGGTGCG CCTAAGCCAG AACCTGCTAG AGCTGTGGCG GCGGCGAGGG 
CCAATCTGGC AGGAGGCCCC GCAGCTACCT GTGGACCCAC ATCGGGACAC TATCCTCAAT 
GCTATTGAGC AGCATCCAGT GGTGGTCATC TCTGGGGACA CAGGTTGTGG GAAGACCACG 
CGTATCCCCC AGCTGCTGCT GGAGCGCTAT GTGACTGAGG GCCGGGGTGC CCGCTGCAAT 
GTGATTATCA CCCAACCTCG CCGCATCTCA GCTGTGTCTG TGGCACAGCG GGTCAGCCAT 
GAACTGGGAC CTTCCTTGCG CCGGAACGTG GGCTTCCAGG TGCGCTTGGA AAGCAAGCCC 
CCAGCCCGAG GTGGAGCGTT GCTCTTCTGC ACTGTGGGCA TCCTGCTGCG GAAGCTGCAG 
AGCAACCCCA GCCTGGAGGG TGTCAGCCAT GTCATTGTGG ACGAGGTCCA TGAGCGGGAT 
GTGAACACAG ACTTCCTGCT GATTCTGCTC AAGGGCCTGC AGCGACTCAA CCCATCCCTG 
CGTCTGGTGC TCATGAGTGC TACAGGTGAT AATGAGCGCT TCTCCCGCTA CTTTGGTGGC 
TGCCCTGTCA TCAAGGTGCC TGGTTTCATG TATCCTGTCA AAGAGCACTA CCTGGAGGAC 
ATCCTGGCCA AACTGGGCAA ACACCAGTAC CCACACCGGC ACCGGCACCA TGAGTCTGAG 
GATGAATGCG CACTTGATTT GGACCTCGTG ACTGATCTGG TTCTGCACAT TGATGCCCGT 
GGGGAACCAG GTGGGATCCT GTGCTTCCTG CCTGGTTGGC AGGAGATCAA AGGAGTGCAG 
CAACGCCTCC AGGAGGCTCT GGGCATGCAT GAGAGCAAGT ACCTCATCCT ACCAGTGCAC 
TCCAACATCC CCATGATGGA CCAGAAGGCC ATATTCCAGC AGCCCCCGGC TGGAGTGCGC 
AAGATTGTCT TGGCCACCAA TATCGCTGAG ACCTCCATCA CAGTCAATGA CATTGTGCAT 
GTTGTGGATA GTGGGCTACA CAAGGAGGAA CGCTACGACC TGAAGACCAA GGTGTCCTGC 
CTGGAGACGG TGTGGGTATC AAGAGCAAAT GTGATCCAGC GCCGGGGCCG GGCAGGCCGC 
TGCCAGTCAG GTTTTGCCTA CCACTTGTTC CCACGGAGCC GGCTGGAGAA AATGGTTCCT 
TTCCAAGTGC CAGAGATCCT GCGCACGCCT CTTGAGAACC TGGTGCTGCA AGCCAAAATC 
CACATGCCTG AAAAGACGGC AGTGGAGTTC CTCTCCAAGG CCGTGGACAG TCCAAACATC 
AAGGCAGTAG ATGAGGCCGT GATCTTGCTC CAAGAGATTG GTGTGCTGGA CCAGCGGGAG 
TACCTGACTA CCCTAGGGCA GCGCCTGGCC CACATCTCCA CTGATCCCCG GCTAGCCAAG 
GCCATAGTGC TGGCTGCCAT CTTCCGTTGC CTACACCCGC TGCTGGTGGT TGTTTCCTGT 
CTCACCCGGG ACCCCTTCAG CAGTAGCCTG CAGAACAGGG CAGAGGTGGA CAAGGTGAAG 
GCACTGTTGA GCCATGACAG TGGCAGTGAC CACCTGGCCT TTGTGCGGGC TGTGGCCGGC 
TGGGAGGAGG TGCTGCGTTG GCAGGACAGA ACCTCCCGGG AGAACTACCT GGAGGAAAAC 
CTGCTCTATG CACCCAGCCT GCGCTTCATC CATGGGCTCA TCAAACAGTT CTCAGAGAAC 
ATTTATGAGG CTTTCCTGGT GGGGAAGCCC TCGGACTGCA CACTACCCTC TGCTCAGTGC 
AACGAGTACA GCGAGGAAGA GGAGCTGGTG AAGGGTGTGC TAATGGCTGG CCTCTACCCC 
AACCTCATCC AGGTGAGGCA GGGCAAGGTG ACCCGGCAAG GGAAGTTCAA ACCCAACAGT 
GTCACATATA GGACCAAATC TGGCAACATC CTACTGCACA AGTCAACTAT TAACAGGGAG 
GCCACACGGT TACGGAGCCG ATGGCTAACG TATTTTATGG CTGTCAAGTC CAATGGTAGC 
GTCTTCGTAC GGGACTCCTC CCAGGTGCAC CCACTAGCTG TGCTGCTCCT GACTGATGGG 
GACGTCCACA TCCGTGACGA TGGGCGTCGT GCCACCATTT CACTGAGTGA TAGTGACCTG 
CTGCGGCTGG AGGGTGACTC ACGAACTGTA CGGCTGCTGA GGGAGCTGCG GCGGGCCCTG 
GGCCGCATGG TGGAGCGGAG CCTCCGCAGT GAGCTGGCTG CACTCCCCCT CAGTGTGCAG 
CAGGAGCACG GGCAGCTGCT TGCGCTGCTG GCGGAGCTGC TGCGAGGACC CTGTGGCAGC 
TTTGATGTGC GCAAGACAGC TGATGACTGA

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

Dhx30 ( XM_020183849.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020039438.1 Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X3, mRNA.

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CloneID	OCa273622
Clone ID Related Accession (Same CDS sequence)	XM_020183849.1
Accession Version	XM_020183849.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3465bp) 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	2017-02-14
Organism	Castor canadensis(American beaver)
Product	putative ATP-dependent RNA helicase DHX30 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017869713.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAGCTT CTAGGGACCT ATTAAAAGAA TTCCCACAGC CTAAAAACCT TCTCAACAGT 
GTGATTGGAA GAGCCCTTGG CATCTCACAT GCAAAAGACA AACTAGTTTA CGTGCACACA 
AATGGACCGA AGAAAAAGAA AGTCACCCTG CACATAAAGT GGCCCAAGAG TGTGGAGGTA 
GAAGGCTATG GCAGCAAGAA GATTGACGCT GAGCGTCAGG CTGCAGCTGC AGCCTGCCAG 
CTGTTCAAGG GCTGGGGTCT ACTGGGTCCC CGGAATGAGC TGTTTGACGC AGCCAAATAC 
CGAGTGCTAG CTGATCGCTT TGGCTCTCCA GCTGACAGCT GGTGGCGCCC AGAACCAACC 
ATGCCCCCCA ATTCCTGGCG GCAGCTGAAT CCTGAGAGCA TTCGGTCAGG AGGACCTGGC 
CTTCCCCGCT CCTTGGGCCG AGAGGAAGAA GAGGATGAGG AGGAAGAGCT AGAAGAGGGG 
ACCATTGATG TTACTGAGTT CCTGTCCATG ACCCAGCAGG ACTCTCATAC CCCACTCAGG 
GACTCAAGGG GAGGTTCCTT TGAAATGACA GATGATGACA GTGCTGTTAG GGCTCTGACC 
CAGTTCCCAC TTCCCAAGAA CCTTTTGGCC AAGGTGATTC AGATTGCAAC GTCCTCCTCC 
ACGGCTAAGA ACCTCATGCA GTTCCATACT GTAGGCACCA AGACCAAGTT GTCTACACTT 
ACTCTGCTCT GGCCCTGTCC CATGACCTTT GTTGCAAAAG GGCGCCGCAA AGCAGAGGCT 
GAGAATAAGG CGGCAGCCTT GGCCTGCAAG AAACTGAAGA GCCTGGGCCT GGTGGACAGA 
AACAACGAGC CACTTACCCA TGCCATGTAT AACCTGGCTT CTTTGCGTGA GTTGGGTGAG 
ACCCAGCGGC GGCCGTGTAC CATCCAGGTG CCTGAGCCCA TCCTCCGCAA GATAGAGACC 
TTCCTGAACC ATTACCCCGT GGACAGTTCA TGGATCTCTC CAGAACTCCG GTTGCAGAGT 
GATGACATCT TGCCCTTGGG CAAAGACTCA GGGCCCCTGA GTGACCCTAT CACAGGCAAG 
CCCTATATGC CCCTGTGTGA AACAGAGGAG GTGCGCCTAA GCCAGAACCT GCTAGAGCTG 
TGGCGGCGGC GAGGGCCAAT CTGGCAGGAG GCCCCGCAGC TACCTGTGGA CCCACATCGG 
GACACTATCC TCAATGCTAT TGAGCAGCAT CCAGTGGTGG TCATCTCTGG GGACACAGGT 
TGTGGGAAGA CCACGCGTAT CCCCCAGCTG CTGCTGGAGC GCTATGTGAC TGAGGGCCGG 
GGTGCCCGCT GCAATGTGAT TATCACCCAA CCTCGCCGCA TCTCAGCTGT GTCTGTGGCA 
CAGCGGGTCA GCCATGAACT GGGACCTTCC TTGCGCCGGA ACGTGGGCTT CCAGGTGCGC 
TTGGAAAGCA AGCCCCCAGC CCGAGGTGGA GCGTTGCTCT TCTGCACTGT GGGCATCCTG 
CTGCGGAAGC TGCAGAGCAA CCCCAGCCTG GAGGGTGTCA GCCATGTCAT TGTGGACGAG 
GTCCATGAGC GGGATGTGAA CACAGACTTC CTGCTGATTC TGCTCAAGGG CCTGCAGCGA 
CTCAACCCAT CCCTGCGTCT GGTGCTCATG AGTGCTACAG GTGATAATGA GCGCTTCTCC 
CGCTACTTTG GTGGCTGCCC TGTCATCAAG GTGCCTGGTT TCATGTATCC TGTCAAAGAG 
CACTACCTGG AGGACATCCT GGCCAAACTG GGCAAACACC AGTACCCACA CCGGCACCGG 
CACCATGAGT CTGAGGATGA ATGCGCACTT GATTTGGACC TCGTGACTGA TCTGGTTCTG 
CACATTGATG CCCGTGGGGA ACCAGGTGGG ATCCTGTGCT TCCTGCCTGG TTGGCAGGAG 
ATCAAAGGAG TGCAGCAACG CCTCCAGGAG GCTCTGGGCA TGCATGAGAG CAAGTACCTC 
ATCCTACCAG TGCACTCCAA CATCCCCATG ATGGACCAGA AGGCCATATT CCAGCAGCCC 
CCGGCTGGAG TGCGCAAGAT TGTCTTGGCC ACCAATATCG CTGAGACCTC CATCACAGTC 
AATGACATTG TGCATGTTGT GGATAGTGGG CTACACAAGG AGGAACGCTA CGACCTGAAG 
ACCAAGGTGT CCTGCCTGGA GACGGTGTGG GTATCAAGAG CAAATGTGAT CCAGCGCCGG 
GGCCGGGCAG GCCGCTGCCA GTCAGGTTTT GCCTACCACT TGTTCCCACG GAGCCGGCTG 
GAGAAAATGG TTCCTTTCCA AGTGCCAGAG ATCCTGCGCA CGCCTCTTGA GAACCTGGTG 
CTGCAAGCCA AAATCCACAT GCCTGAAAAG ACGGCAGTGG AGTTCCTCTC CAAGGCCGTG 
GACAGTCCAA ACATCAAGGC AGTAGATGAG GCCGTGATCT TGCTCCAAGA GATTGGTGTG 
CTGGACCAGC GGGAGTACCT GACTACCCTA GGGCAGCGCC TGGCCCACAT CTCCACTGAT 
CCCCGGCTAG CCAAGGCCAT AGTGCTGGCT GCCATCTTCC GTTGCCTACA CCCGCTGCTG 
GTGGTTGTTT CCTGTCTCAC CCGGGACCCC TTCAGCAGTA GCCTGCAGAA CAGGGCAGAG 
GTGGACAAGG TGAAGGCACT GTTGAGCCAT GACAGTGGCA GTGACCACCT GGCCTTTGTG 
CGGGCTGTGG CCGGCTGGGA GGAGGTGCTG CGTTGGCAGG ACAGAACCTC CCGGGAGAAC 
TACCTGGAGG AAAACCTGCT CTATGCACCC AGCCTGCGCT TCATCCATGG GCTCATCAAA 
CAGTTCTCAG AGAACATTTA TGAGGCTTTC CTGGTGGGGA AGCCCTCGGA CTGCACACTA 
CCCTCTGCTC AGTGCAACGA GTACAGCGAG GAAGAGGAGC TGGTGAAGGG TGTGCTAATG 
GCTGGCCTCT ACCCCAACCT CATCCAGGTG AGGCAGGGCA AGGTGACCCG GCAAGGGAAG 
TTCAAACCCA ACAGTGTCAC ATATAGGACC AAATCTGGCA ACATCCTACT GCACAAGTCA 
ACTATTAACA GGGAGGCCAC ACGGTTACGG AGCCGATGGC TAACGTATTT TATGGCTGTC 
AAGTCCAATG GTAGCGTCTT CGTACGGGAC TCCTCCCAGG TGCACCCACT AGCTGTGCTG 
CTCCTGACTG ATGGGGACGT CCACATCCGT GACGATGGGC GTCGTGCCAC CATTTCACTG 
AGTGATAGTG ACCTGCTGCG GCTGGAGGGT GACTCACGAA CTGTACGGCT GCTGAGGGAG 
CTGCGGCGGG CCCTGGGCCG CATGGTGGAG CGGAGCCTCC GCAGTGAGCT GGCTGCACTC 
CCCCTCAGTG TGCAGCAGGA GCACGGGCAG CTGCTTGCGC TGCTGGCGGA GCTGCTGCGA 
GGACCCTGTG GCAGCTTTGA TGTGCGCAAG ACAGCTGATG ACTGA

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

RefSeq	XP_020039438.1
CDS	114..3578
Translation	MAASRDLLKEFPQPKNLLNSVIGRALGISHAKDKLVYVHTNGPKKKKVTLHIKWPKSVEVEGYGSKKIDAERQAAAAACQLFKGWGLLGPRNELFDAAKYRVLADRFGSPADSWWRPEPTMPPNSWRQLNPESIRSGGPGLPRSLGREEEEDEEEELEEGTIDVTEFLSMTQQDSHTPLRDSRGGSFEMTDDDSAVRALTQFPLPKNLLAKVIQIATSSSTAKNLMQFHTVGTKTKLSTLTLLWPCPMTFVAKGRRKAEAENKAAALACKKLKSLGLVDRNNEPLTHAMYNLASLRELGETQRRPCTIQVPEPILRKIETFLNHYPVDSSWISPELRLQSDDILPLGKDSGPLSDPITGKPYMPLCETEEVRLSQNLLELWRRRGPIWQEAPQLPVDPHRDTILNAIEQHPVVVISGDTGCGKTTRIPQLLLERYVTEGRGARCNVIITQPRRISAVSVAQRVSHELGPSLRRNVGFQVRLESKPPARGGALLFCTVGILLRKLQSNPSLEGVSHVIVDEVHERDVNTDFLLILLKGLQRLNPSLRLVLMSATGDNERFSRYFGGCPVIKVPGFMYPVKEHYLEDILAKLGKHQYPHRHRHHESEDECALDLDLVTDLVLHIDARGEPGGILCFLPGWQEIKGVQQRLQEALGMHESKYLILPVHSNIPMMDQKAIFQQPPAGVRKIVLATNIAETSITVNDIVHVVDSGLHKEERYDLKTKVSCLETVWVSRANVIQRRGRAGRCQSGFAYHLFPRSRLEKMVPFQVPEILRTPLENLVLQAKIHMPEKTAVEFLSKAVDSPNIKAVDEAVILLQEIGVLDQREYLTTLGQRLAHISTDPRLAKAIVLAAIFRCLHPLLVVVSCLTRDPFSSSLQNRAEVDKVKALLSHDSGSDHLAFVRAVAGWEEVLRWQDRTSRENYLEENLLYAPSLRFIHGLIKQFSENIYEAFLVGKPSDCTLPSAQCNEYSEEEELVKGVLMAGLYPNLIQVRQGKVTRQGKFKPNSVTYRTKSGNILLHKSTINREATRLRSRWLTYFMAVKSNGSVFVRDSSQVHPLAVLLLTDGDVHIRDDGRRATISLSDSDLLRLEGDSRTVRLLRELRRALGRMVERSLRSELAALPLSVQQEHGQLLALLAELLRGPCGSFDVRKTADD

Target ORF information:

RefSeq Version	XM_020183849.1
Organism	Castor canadensis(American beaver)
Definition	Castor canadensis DExH-box helicase 30 (Dhx30), transcript variant X3, mRNA.

Target ORF information:

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

XM_020183849.1

ORF Insert Sequence:

ATGGCAGCTT CTAGGGACCT ATTAAAAGAA TTCCCACAGC CTAAAAACCT TCTCAACAGT 
GTGATTGGAA GAGCCCTTGG CATCTCACAT GCAAAAGACA AACTAGTTTA CGTGCACACA 
AATGGACCGA AGAAAAAGAA AGTCACCCTG CACATAAAGT GGCCCAAGAG TGTGGAGGTA 
GAAGGCTATG GCAGCAAGAA GATTGACGCT GAGCGTCAGG CTGCAGCTGC AGCCTGCCAG 
CTGTTCAAGG GCTGGGGTCT ACTGGGTCCC CGGAATGAGC TGTTTGACGC AGCCAAATAC 
CGAGTGCTAG CTGATCGCTT TGGCTCTCCA GCTGACAGCT GGTGGCGCCC AGAACCAACC 
ATGCCCCCCA ATTCCTGGCG GCAGCTGAAT CCTGAGAGCA TTCGGTCAGG AGGACCTGGC 
CTTCCCCGCT CCTTGGGCCG AGAGGAAGAA GAGGATGAGG AGGAAGAGCT AGAAGAGGGG 
ACCATTGATG TTACTGAGTT CCTGTCCATG ACCCAGCAGG ACTCTCATAC CCCACTCAGG 
GACTCAAGGG GAGGTTCCTT TGAAATGACA GATGATGACA GTGCTGTTAG GGCTCTGACC 
CAGTTCCCAC TTCCCAAGAA CCTTTTGGCC AAGGTGATTC AGATTGCAAC GTCCTCCTCC 
ACGGCTAAGA ACCTCATGCA GTTCCATACT GTAGGCACCA AGACCAAGTT GTCTACACTT 
ACTCTGCTCT GGCCCTGTCC CATGACCTTT GTTGCAAAAG GGCGCCGCAA AGCAGAGGCT 
GAGAATAAGG CGGCAGCCTT GGCCTGCAAG AAACTGAAGA GCCTGGGCCT GGTGGACAGA 
AACAACGAGC CACTTACCCA TGCCATGTAT AACCTGGCTT CTTTGCGTGA GTTGGGTGAG 
ACCCAGCGGC GGCCGTGTAC CATCCAGGTG CCTGAGCCCA TCCTCCGCAA GATAGAGACC 
TTCCTGAACC ATTACCCCGT GGACAGTTCA TGGATCTCTC CAGAACTCCG GTTGCAGAGT 
GATGACATCT TGCCCTTGGG CAAAGACTCA GGGCCCCTGA GTGACCCTAT CACAGGCAAG 
CCCTATATGC CCCTGTGTGA AACAGAGGAG GTGCGCCTAA GCCAGAACCT GCTAGAGCTG 
TGGCGGCGGC GAGGGCCAAT CTGGCAGGAG GCCCCGCAGC TACCTGTGGA CCCACATCGG 
GACACTATCC TCAATGCTAT TGAGCAGCAT CCAGTGGTGG TCATCTCTGG GGACACAGGT 
TGTGGGAAGA CCACGCGTAT CCCCCAGCTG CTGCTGGAGC GCTATGTGAC TGAGGGCCGG 
GGTGCCCGCT GCAATGTGAT TATCACCCAA CCTCGCCGCA TCTCAGCTGT GTCTGTGGCA 
CAGCGGGTCA GCCATGAACT GGGACCTTCC TTGCGCCGGA ACGTGGGCTT CCAGGTGCGC 
TTGGAAAGCA AGCCCCCAGC CCGAGGTGGA GCGTTGCTCT TCTGCACTGT GGGCATCCTG 
CTGCGGAAGC TGCAGAGCAA CCCCAGCCTG GAGGGTGTCA GCCATGTCAT TGTGGACGAG 
GTCCATGAGC GGGATGTGAA CACAGACTTC CTGCTGATTC TGCTCAAGGG CCTGCAGCGA 
CTCAACCCAT CCCTGCGTCT GGTGCTCATG AGTGCTACAG GTGATAATGA GCGCTTCTCC 
CGCTACTTTG GTGGCTGCCC TGTCATCAAG GTGCCTGGTT TCATGTATCC TGTCAAAGAG 
CACTACCTGG AGGACATCCT GGCCAAACTG GGCAAACACC AGTACCCACA CCGGCACCGG 
CACCATGAGT CTGAGGATGA ATGCGCACTT GATTTGGACC TCGTGACTGA TCTGGTTCTG 
CACATTGATG CCCGTGGGGA ACCAGGTGGG ATCCTGTGCT TCCTGCCTGG TTGGCAGGAG 
ATCAAAGGAG TGCAGCAACG CCTCCAGGAG GCTCTGGGCA TGCATGAGAG CAAGTACCTC 
ATCCTACCAG TGCACTCCAA CATCCCCATG ATGGACCAGA AGGCCATATT CCAGCAGCCC 
CCGGCTGGAG TGCGCAAGAT TGTCTTGGCC ACCAATATCG CTGAGACCTC CATCACAGTC 
AATGACATTG TGCATGTTGT GGATAGTGGG CTACACAAGG AGGAACGCTA CGACCTGAAG 
ACCAAGGTGT CCTGCCTGGA GACGGTGTGG GTATCAAGAG CAAATGTGAT CCAGCGCCGG 
GGCCGGGCAG GCCGCTGCCA GTCAGGTTTT GCCTACCACT TGTTCCCACG GAGCCGGCTG 
GAGAAAATGG TTCCTTTCCA AGTGCCAGAG ATCCTGCGCA CGCCTCTTGA GAACCTGGTG 
CTGCAAGCCA AAATCCACAT GCCTGAAAAG ACGGCAGTGG AGTTCCTCTC CAAGGCCGTG 
GACAGTCCAA ACATCAAGGC AGTAGATGAG GCCGTGATCT TGCTCCAAGA GATTGGTGTG 
CTGGACCAGC GGGAGTACCT GACTACCCTA GGGCAGCGCC TGGCCCACAT CTCCACTGAT 
CCCCGGCTAG CCAAGGCCAT AGTGCTGGCT GCCATCTTCC GTTGCCTACA CCCGCTGCTG 
GTGGTTGTTT CCTGTCTCAC CCGGGACCCC TTCAGCAGTA GCCTGCAGAA CAGGGCAGAG 
GTGGACAAGG TGAAGGCACT GTTGAGCCAT GACAGTGGCA GTGACCACCT GGCCTTTGTG 
CGGGCTGTGG CCGGCTGGGA GGAGGTGCTG CGTTGGCAGG ACAGAACCTC CCGGGAGAAC 
TACCTGGAGG AAAACCTGCT CTATGCACCC AGCCTGCGCT TCATCCATGG GCTCATCAAA 
CAGTTCTCAG AGAACATTTA TGAGGCTTTC CTGGTGGGGA AGCCCTCGGA CTGCACACTA 
CCCTCTGCTC AGTGCAACGA GTACAGCGAG GAAGAGGAGC TGGTGAAGGG TGTGCTAATG 
GCTGGCCTCT ACCCCAACCT CATCCAGGTG AGGCAGGGCA AGGTGACCCG GCAAGGGAAG 
TTCAAACCCA ACAGTGTCAC ATATAGGACC AAATCTGGCA ACATCCTACT GCACAAGTCA 
ACTATTAACA GGGAGGCCAC ACGGTTACGG AGCCGATGGC TAACGTATTT TATGGCTGTC 
AAGTCCAATG GTAGCGTCTT CGTACGGGAC TCCTCCCAGG TGCACCCACT AGCTGTGCTG 
CTCCTGACTG ATGGGGACGT CCACATCCGT GACGATGGGC GTCGTGCCAC CATTTCACTG 
AGTGATAGTG ACCTGCTGCG GCTGGAGGGT GACTCACGAA CTGTACGGCT GCTGAGGGAG 
CTGCGGCGGG CCCTGGGCCG CATGGTGGAG CGGAGCCTCC GCAGTGAGCT GGCTGCACTC 
CCCCTCAGTG TGCAGCAGGA GCACGGGCAG CTGCTTGCGC TGCTGGCGGA GCTGCTGCGA 
GGACCCTGTG GCAGCTTTGA TGTGCGCAAG ACAGCTGATG ACTGA

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

PubMed

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Dhx30 cDNA ORF clone, Castor canadensis(American beaver)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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見積依頼

Eメール

電話

FAX

オンラインフォーム