LOC105698220 cDNA ORF clone, Orussus abietinus

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC105698220
Entrez Gene ID	105698220
Full Name	probable ATP-dependent RNA helicase DDX46
Gene Type	protein-coding
Organism	Orussus abietinus

mRNA and Protein(s)

mRNA	Protein	Name
XM_012422274.1	XP_012277697.1	probable ATP-dependent RNA helicase DDX46

Pathways from BioSystems
Gene Ontology

The following LOC105698220 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105698220 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
OOr126957	XM_012422274.1 Latest version!	Orussus abietinus probable ATP-dependent RNA helicase DDX46 (LOC105698220), 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)

LOC105698220 ( XM_012422274.1 ) cDNA ORF clone, Orussus abietinus -> XP_012277697.1 Orussus abietinus probable ATP-dependent RNA helicase DDX46 (LOC105698220), mRNA.

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CloneID	OOr126957
Clone ID Related Accession (Same CDS sequence)	XM_012422274.1
Accession Version	XM_012422274.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3096bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-01-01
Organism	Orussus abietinus
Product	probable ATP-dependent RNA helicase DDX46
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019394846.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Orussus abietinus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTTCGGA ACAGTGAGAA AGAGAGGCAT TACAGGAGAC GGTCTAGATC AAGATCAAGA 
TCACGTTCTG GTTCAACAGA AAAGAAACGC CGGCGGTCGA GAAGCAGAGA GAGGGAGCGT 
GATAGAGAAA AGCCCCGTCA TCGAGAAAGA CGGAGTCGGT CCAGAGAAAG AGAAAGAGAG 
AGGAGCGATA GGAGGGAGAG ATCCGAGAGA GACAGGGATC GTGACAGAAA AAGCGATGGC 
AAAGAAAAGC GTATTAGCGG ATCTAAATCC TCTCGTTCTG GCAAAGAGCG CTCTAATCGA 
TCGCGCTCAC GAGATCGTAA GGACAAGGAG AAGGGAGAAA CAGAAGATTT ACCATTTGAC 
CATACAAAAT TAGACAAGGA AGAAGAGCAG AAGAGACTCG AGCTTGAAAT GCAGAAGAGG 
AGAGAACGGA TTGAAAGATG GCGGGCGGAG AGAAAAAAGA AGGAGATGGA AGCAACTAAA 
AAGGATGGCA AAACTTCAAT CTTAGCAAAT CTTCAACTGC CTATGAAAAA ATGGTCTCTG 
GAAGACGACA GTGATGAAGA GACTCCAGTT GTACAGAATA GTAATAAGGA GGAGAAGGAA 
GAAGACGTAG TAAAAGAAGA AATCAAGGAA ATTAAGGAGG ATATTAAGGA AGAGGAAGAA 
GTAGATCCTC TCGATGCTTT TATGGCTGAA GTTCAAGAGG AAGTTCGTAA GGTGAATAAG 
CTGGATAACA AATGTCCAAA AACCACTAAT AATGGAACAA CCGCTACAGG TCCTCAAAGC 
GGAGGAGTAG TCATAGTCAC GGGAGTGGCC AAAAAGAAGG ACCAGAAACA AAAGGGAGAA 
CTCATTGAAC AGAATCAAGA TGGGTTGGAA TATTCAAGCG AGGAAGAAGG AGAAAATTTG 
CACGAGACTG CAGCTGGTAT TGCCAACAAG CAAAAGAGAG AACTAGCTAA AGTGGATCAT 
GCCTCAACGG AGTACCAACC TTTTAGGAAG TCTTTCTACG TCGAGGTTCC AGAAATAGCA 
AGGATGACGC AAGAAGAGGT AGACGCTTAC AAAGAAGAAT TAGAAGGTAT TCGAGTTAAA 
GGGAAGGGCT GCCCGAAGCC CATCAAATCG TGGGCTCAGT GTGGGGTCAC CAAGAAAGAA 
TTGGAAGTCT TGAAGAAACT TGGTTACGAG AAACCAACAC CTATTCAATG TCAAGCAATC 
CCTGCAATCA TGTCAGGCCG TGATCTTATA GGAATTGCTA AAACGGGAAG TGGAAAAACT 
CTTGCTTTCC TGCTTCCAAT GTTCCGGCAC ATCTTAGATC AACCTCCACT GGCTGATGGA 
GATGGGCCGA TAGCTTTAAT CATGACTCCG ACAAGAGAGC TCTGCATGCA GATCGGAAGA 
GACTCGAAGA AATTCACGAA ATCTTTGGGT CTGTCCCATG TATGTGTGTA CGGTGGTACT 
GGGATATCGG AGCAAATAGC AGAATTAAAA AGAGGTGCGG AGATCATAGT CTGCACTCCG 
GGTAGAATGA TCGACATGTT GGCAGCCAAC AGTGGAAGAG TGACTAATCT CCGGAGAGTG 
ACCTACGTCG TCTTGGATGA AGCCGACAGG ATGTTCGACA TGGGCTTCGA ACCCCAAGTT 
ATGAGAATTA TGGAGAATGT TAGGCCCGAT AGGCAGACCG TGCTGTTCAG TGCTACGTTC 
CCTCGACAGA TGGAAGCTTT GGCCCGTAGG ATTTTAACCA GACCCGTGGA AGTACAAGTT 
GGTGGGCGCT CCGTAGTCTG CAAAGATGTC GAGCAACATG TTGTGGTTCT CGAAGAGGAC 
CAAAAGTTTT ATAAGCTTCT CGAGATCCTT GGTCACTACC AAGATAAAGG GTCTGCTATC 
ATTTTTGTGG ATAAGCAGGA AAATGCTGAT ACTCTTTTGA AGGACTTGAT GAAGGCCTCG 
TACTCTTGTA TGTCACTTCA TGGTGGCATC GACCAGTGCG ACAGGGATTC TACCATGTTG 
GACTTCAAGG CTGGGAGGAC AAAACTTCTT GTGGCTACTT CAGTGGCTGC GAGAGGTCTT 
GACGTGAAAC AGTTAGTGTT AGTCGTTAAT TATGACTGTC CGAACCACTA CGAGGACTAT 
GTGCACAGAT GTGGTAGGAC TGGTCGAGCT GGAAACAAAG GGTACGCATA CACCTTTATT 
ACATCGGAAC AGGAACGTTA TGCCGGAGAT ATATTACGAG CCCATGAATT AGCTCAGGTT 
CCAGTTCCAG AGCCTTTAAG ACAACTTTGG GAGACCTACA AGGCTCGGCA GGCTGAGCAG 
GGAAAGAAAG TGCATACAGG TGGAGGCTTC AGTGGTAAAG GTTTCAAGTT TGACGAGTCA 
GAGGCAGCTC TGGCAAACGA GAAGAAGAAA TTCCAGAAGG CAGCTCTCGG ACTACAGGAC 
TCCGATGACG AAGACATTGA AAATGACATC GATCAACAGA TCGAAAGCAT GCTTGCACCA 
AAGAGGACCG TTCGAGAGAT TTCCAGACCT ACAGCAGCCA GTGTCAGTGT TCCTGGCCAG 
CCTGTACCAA GTGCCACGGA TAAGTTAGAA CTTGCCAGAA GACTTGCTTC GAAGATTAAC 
ATTGCCAAAA ACTTGGGAGC CGAAGCGAAG GGTGCCACCC AACAAGCTGC GGAGGCCATT 
CTTAAGGGCG CTGGTCCAAC AAATCTTATT ACGGCCAAGA CCGTAGCTGA GCAACTTGCT 
GCGAAGCTAA ACACTAAGCT TAATTATCAA CCGAGAGAGG AAGACCTCGT TGAAGGAGAC 
GTCGAAGCAG GGGAGCAGAC TTTCCGGAAG TACGAAGAGG AGCTTGAGAT CAATGATTTC 
CCTCAACAAG CCAGGTGGCG AGTCACCAGC AAGGAGGCTT TAGCACAGAT ATCTGAGTAC 
TCCGAAGCTG GCCTAACTGT TCGAGGGACA TACATCGCTC CTGGGAAAGC TCCTCCGGAG 
GGCGAGAGGA AGCTTTACTT GGCCATAGAG TCTACAAGCG AGCTGGCAGT AAGCAAAGCG 
AAGGCTGAAG TGTCTCGACT CATCAAGGAG GAGCTGATCA AACTCCAATC CTCCGGTGCA 
CATACAGGCT CTCGAGGCAG ATACAAAGTT CTGTAA

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

RefSeq	XP_012277697.1
CDS	141..3236
Translation	MVRNSEKERHYRRRSRSRSRSRSGSTEKKRRRSRSRERERDREKPRHRERRSRSRERERERSDRRERSERDRDRDRKSDGKEKRISGSKSSRSGKERSNRSRSRDRKDKEKGETEDLPFDHTKLDKEEEQKRLELEMQKRRERIERWRAERKKKEMEATKKDGKTSILANLQLPMKKWSLEDDSDEETPVVQNSNKEEKEEDVVKEEIKEIKEDIKEEEEVDPLDAFMAEVQEEVRKVNKLDNKCPKTTNNGTTATGPQSGGVVIVTGVAKKKDQKQKGELIEQNQDGLEYSSEEEGENLHETAAGIANKQKRELAKVDHASTEYQPFRKSFYVEVPEIARMTQEEVDAYKEELEGIRVKGKGCPKPIKSWAQCGVTKKELEVLKKLGYEKPTPIQCQAIPAIMSGRDLIGIAKTGSGKTLAFLLPMFRHILDQPPLADGDGPIALIMTPTRELCMQIGRDSKKFTKSLGLSHVCVYGGTGISEQIAELKRGAEIIVCTPGRMIDMLAANSGRVTNLRRVTYVVLDEADRMFDMGFEPQVMRIMENVRPDRQTVLFSATFPRQMEALARRILTRPVEVQVGGRSVVCKDVEQHVVVLEEDQKFYKLLEILGHYQDKGSAIIFVDKQENADTLLKDLMKASYSCMSLHGGIDQCDRDSTMLDFKAGRTKLLVATSVAARGLDVKQLVLVVNYDCPNHYEDYVHRCGRTGRAGNKGYAYTFITSEQERYAGDILRAHELAQVPVPEPLRQLWETYKARQAEQGKKVHTGGGFSGKGFKFDESEAALANEKKKFQKAALGLQDSDDEDIENDIDQQIESMLAPKRTVREISRPTAASVSVPGQPVPSATDKLELARRLASKINIAKNLGAEAKGATQQAAEAILKGAGPTNLITAKTVAEQLAAKLNTKLNYQPREEDLVEGDVEAGEQTFRKYEEELEINDFPQQARWRVTSKEALAQISEYSEAGLTVRGTYIAPGKAPPEGERKLYLAIESTSELAVSKAKAEVSRLIKEELIKLQSSGAHTGSRGRYKVL

Target ORF information:

RefSeq Version	XM_012422274.1
Organism	Orussus abietinus
Definition	Orussus abietinus probable ATP-dependent RNA helicase DDX46 (LOC105698220), mRNA.

Target ORF information:

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

XM_012422274.1

ORF Insert Sequence:

ATGGTTCGGA ACAGTGAGAA AGAGAGGCAT TACAGGAGAC GGTCTAGATC AAGATCAAGA 
TCACGTTCTG GTTCAACAGA AAAGAAACGC CGGCGGTCGA GAAGCAGAGA GAGGGAGCGT 
GATAGAGAAA AGCCCCGTCA TCGAGAAAGA CGGAGTCGGT CCAGAGAAAG AGAAAGAGAG 
AGGAGCGATA GGAGGGAGAG ATCCGAGAGA GACAGGGATC GTGACAGAAA AAGCGATGGC 
AAAGAAAAGC GTATTAGCGG ATCTAAATCC TCTCGTTCTG GCAAAGAGCG CTCTAATCGA 
TCGCGCTCAC GAGATCGTAA GGACAAGGAG AAGGGAGAAA CAGAAGATTT ACCATTTGAC 
CATACAAAAT TAGACAAGGA AGAAGAGCAG AAGAGACTCG AGCTTGAAAT GCAGAAGAGG 
AGAGAACGGA TTGAAAGATG GCGGGCGGAG AGAAAAAAGA AGGAGATGGA AGCAACTAAA 
AAGGATGGCA AAACTTCAAT CTTAGCAAAT CTTCAACTGC CTATGAAAAA ATGGTCTCTG 
GAAGACGACA GTGATGAAGA GACTCCAGTT GTACAGAATA GTAATAAGGA GGAGAAGGAA 
GAAGACGTAG TAAAAGAAGA AATCAAGGAA ATTAAGGAGG ATATTAAGGA AGAGGAAGAA 
GTAGATCCTC TCGATGCTTT TATGGCTGAA GTTCAAGAGG AAGTTCGTAA GGTGAATAAG 
CTGGATAACA AATGTCCAAA AACCACTAAT AATGGAACAA CCGCTACAGG TCCTCAAAGC 
GGAGGAGTAG TCATAGTCAC GGGAGTGGCC AAAAAGAAGG ACCAGAAACA AAAGGGAGAA 
CTCATTGAAC AGAATCAAGA TGGGTTGGAA TATTCAAGCG AGGAAGAAGG AGAAAATTTG 
CACGAGACTG CAGCTGGTAT TGCCAACAAG CAAAAGAGAG AACTAGCTAA AGTGGATCAT 
GCCTCAACGG AGTACCAACC TTTTAGGAAG TCTTTCTACG TCGAGGTTCC AGAAATAGCA 
AGGATGACGC AAGAAGAGGT AGACGCTTAC AAAGAAGAAT TAGAAGGTAT TCGAGTTAAA 
GGGAAGGGCT GCCCGAAGCC CATCAAATCG TGGGCTCAGT GTGGGGTCAC CAAGAAAGAA 
TTGGAAGTCT TGAAGAAACT TGGTTACGAG AAACCAACAC CTATTCAATG TCAAGCAATC 
CCTGCAATCA TGTCAGGCCG TGATCTTATA GGAATTGCTA AAACGGGAAG TGGAAAAACT 
CTTGCTTTCC TGCTTCCAAT GTTCCGGCAC ATCTTAGATC AACCTCCACT GGCTGATGGA 
GATGGGCCGA TAGCTTTAAT CATGACTCCG ACAAGAGAGC TCTGCATGCA GATCGGAAGA 
GACTCGAAGA AATTCACGAA ATCTTTGGGT CTGTCCCATG TATGTGTGTA CGGTGGTACT 
GGGATATCGG AGCAAATAGC AGAATTAAAA AGAGGTGCGG AGATCATAGT CTGCACTCCG 
GGTAGAATGA TCGACATGTT GGCAGCCAAC AGTGGAAGAG TGACTAATCT CCGGAGAGTG 
ACCTACGTCG TCTTGGATGA AGCCGACAGG ATGTTCGACA TGGGCTTCGA ACCCCAAGTT 
ATGAGAATTA TGGAGAATGT TAGGCCCGAT AGGCAGACCG TGCTGTTCAG TGCTACGTTC 
CCTCGACAGA TGGAAGCTTT GGCCCGTAGG ATTTTAACCA GACCCGTGGA AGTACAAGTT 
GGTGGGCGCT CCGTAGTCTG CAAAGATGTC GAGCAACATG TTGTGGTTCT CGAAGAGGAC 
CAAAAGTTTT ATAAGCTTCT CGAGATCCTT GGTCACTACC AAGATAAAGG GTCTGCTATC 
ATTTTTGTGG ATAAGCAGGA AAATGCTGAT ACTCTTTTGA AGGACTTGAT GAAGGCCTCG 
TACTCTTGTA TGTCACTTCA TGGTGGCATC GACCAGTGCG ACAGGGATTC TACCATGTTG 
GACTTCAAGG CTGGGAGGAC AAAACTTCTT GTGGCTACTT CAGTGGCTGC GAGAGGTCTT 
GACGTGAAAC AGTTAGTGTT AGTCGTTAAT TATGACTGTC CGAACCACTA CGAGGACTAT 
GTGCACAGAT GTGGTAGGAC TGGTCGAGCT GGAAACAAAG GGTACGCATA CACCTTTATT 
ACATCGGAAC AGGAACGTTA TGCCGGAGAT ATATTACGAG CCCATGAATT AGCTCAGGTT 
CCAGTTCCAG AGCCTTTAAG ACAACTTTGG GAGACCTACA AGGCTCGGCA GGCTGAGCAG 
GGAAAGAAAG TGCATACAGG TGGAGGCTTC AGTGGTAAAG GTTTCAAGTT TGACGAGTCA 
GAGGCAGCTC TGGCAAACGA GAAGAAGAAA TTCCAGAAGG CAGCTCTCGG ACTACAGGAC 
TCCGATGACG AAGACATTGA AAATGACATC GATCAACAGA TCGAAAGCAT GCTTGCACCA 
AAGAGGACCG TTCGAGAGAT TTCCAGACCT ACAGCAGCCA GTGTCAGTGT TCCTGGCCAG 
CCTGTACCAA GTGCCACGGA TAAGTTAGAA CTTGCCAGAA GACTTGCTTC GAAGATTAAC 
ATTGCCAAAA ACTTGGGAGC CGAAGCGAAG GGTGCCACCC AACAAGCTGC GGAGGCCATT 
CTTAAGGGCG CTGGTCCAAC AAATCTTATT ACGGCCAAGA CCGTAGCTGA GCAACTTGCT 
GCGAAGCTAA ACACTAAGCT TAATTATCAA CCGAGAGAGG AAGACCTCGT TGAAGGAGAC 
GTCGAAGCAG GGGAGCAGAC TTTCCGGAAG TACGAAGAGG AGCTTGAGAT CAATGATTTC 
CCTCAACAAG CCAGGTGGCG AGTCACCAGC AAGGAGGCTT TAGCACAGAT ATCTGAGTAC 
TCCGAAGCTG GCCTAACTGT TCGAGGGACA TACATCGCTC CTGGGAAAGC TCCTCCGGAG 
GGCGAGAGGA AGCTTTACTT GGCCATAGAG TCTACAAGCG AGCTGGCAGT AAGCAAAGCG 
AAGGCTGAAG TGTCTCGACT CATCAAGGAG GAGCTGATCA AACTCCAATC CTCCGGTGCA 
CATACAGGCT CTCGAGGCAG ATACAAAGTT CTGTAA