SKIV2L cDNA ORF clone, Panthera pardus(leopard)

Gene
Clones
gRNAs

Summary

Gene Symbol	SKIV2L
Entrez Gene ID	109260504
Full Name	Ski2 like RNA helicase
Gene Type	protein-coding
Organism	Panthera pardus(leopard)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019438762.1	XP_019294307.1	helicase SKI2W isoform X2
XM_019438761.1	XP_019294306.1	helicase SKI2W isoform X1

Pathways from BioSystems
Gene Ontology

The following SKIV2L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SKIV2L 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
OPa229232	XM_019438761.1 Latest version!	Panthera pardus Ski2 like RNA helicase (SKIV2L), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPa229233	XM_019438762.1 Latest version!	Panthera pardus Ski2 like RNA helicase (SKIV2L), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*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)

SKIV2L ( XM_019438761.1 ) cDNA ORF clone, Panthera pardus(leopard) -> XP_019294306.1 Panthera pardus Ski2 like RNA helicase (SKIV2L), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPa229232
Clone ID Related Accession (Same CDS sequence)	XM_019438761.1
Accession Version	XM_019438761.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3759bp) 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	2016-12-04
Organism	Panthera pardus(leopard)
Product	helicase SKI2W isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017620088.1) 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 Version :: Panthera pardus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGAGA CGGAGCGACT TGTGCTGCCT CCTCCAGATC CCTTGGATCT GCCCCTTCGG 
CCTGTGGAGC TGGGATGCAC AGGGCACTGG GAGCTGCTGA ATGTGCCTGG GGCTCCAGAG 
AGCACACTTC CCCACGGCCT CCCTCCCTGT GCCCCCGATC TGCAGCAGGA AACAGAGCAG 
TTGTTTTTAT CATCTCCAGC CTGGTTGCCT CTGCATGGTG TGGAGCACTC GGCCCGTGTT 
TTTATTTTCT GCAGAAAATG GCAGAGGAAG ATGGATCCCT GGTCCCTCCT GGCCACACTG 
GGGGCCCCAG TCCCCTCAGA CCTTCAGGCC CAAAGACACC CGACCACAGG CCAGATCCTG 
GGCTACAAAG AGGTCCTGCT GGAGAATACA AACCTATCGG CCACCACCTC CTTGTCTCTT 
CGCCGGCCCC CAGGGCCCGT CTCCCAGTCC CTGTGGGGGA ATCCAACACA ATACCCTTTC 
TGGCCAGGTG GAATGGATGA GCCTACCATA ACAGATATGA GCACTCGGGA GGAGGCTGAG 
GAAGAGATAG ACTTTGAGAA AGATCTTCTT ACTGTCCCAC CTGGCTTCAA GAAAGGTGTG 
GACTTTGCAC CGAAGGATCA CCCGGCTCCA GCTCCTGGCT TGCTCAGCCT CAGCCGTTTG 
CTGGAACCTC TGGATTTGGG GGGGGGTGAT GAGGATGAGA GTGAGGCAGT GGGCCAGCCA 
GGAATTCCCA GAGGAGACAC TGTTTCAGCA CCCCCCTGCA GTGCTTCCCT GGCCCGAGCA 
AGCAGCTTGG AGGACCTAGT GTTGAAGGAA GCATCCACAG CTGAATCCCC CCCAGAGCCC 
CCCAAACCCC TGCCTCAGGA GCAGTGGGCT ATTCCCGTGG ATGTCACTTC CCCTGTTGGT 
GATTTCTACC GCCTCATTCC CCAGCCCGCT TTCCAGTGGG CATTTGAGCC GGATGTGTTT 
CAGAAACAGG CCATCTTGCA CTTGGAGCGG CATGACTCTG TCTTTGTAGC AGCTCACACA 
TCTGCGGGGA AGACGGTTGT GGCTGAATAT GCCATTGCCC TTGCCCAGAA ACACATGACA 
CGCACCATAT ACACTTCGCC CATCAAGGCC CTGAGTAACC AGAAGTTCCG AGACTTTCGA 
AACACTTTTG GAGATGTGGG GCTGCTCACT GGGGACGTAC AGCTGCACCC GGAGGCCTCC 
TGCCTCATTA TGACAACAGA GATCCTTCGC TCCATGCTGT ACAGCGGTTC AGATGTCATC 
CGGGACCTAG AGTGGGTCAT CTTTGATGAG GTTCACTACA TCAACGATGC TGAGCGTGGG 
GTTGTGTGGG AGGAAGTGCT TATCATGCTC CCTGACCATG TCTCCATCAT CCTTCTGAGT 
GCTACCGTCC CCAATGCCCT TGAGTTCGCT GACTGGATCG GGCGACTGAA ACGGCGCCAG 
ATCTATGTGA TCAGCACTGT TGCCCGTCCC GTACCCCTGG AGCATTATCT CTTCACGGGG 
AACAGCCCCA AGACCCAGGG GGAGCTCTTT CTGTTGCTGG ACTCCCGAGG TGCCTTCCAC 
ACAAAGGGGT ACTATGCAGC TGTGGAGGCC AAGAAGGAGC GGATGAGCAA ACATGCCCAG 
ACCTTTGGGG CCAAACAGCC CACGCATCAG GGGGGGCCTG CACAGGACCG CGGTGTGTAC 
CTATCCCTCC TGGCCTCCCT CCGCACCCGT GCGCAGCTGC CTGTGGTCGT GTTCACCTTC 
TCGCGGGGTC GCTGTGATGA GCAAGCCTCG AGCCTCACCT CCCTGGACCT CACCACAAGT 
TCAGAGAAGA GTGAAATTCA CCTCTTCCTG CAGCGCTGCC TTGCTCGCCT CCGTGGCTCT 
GACCGCCAGC TGCCCCAGGT CCTGCACATG TCTGAGCTCC TGCACCGTGG CCTGGGTGTG 
CACCACAGTG GCATCCTGCC CATTCTTAAG GAGATCGTGG AGATGCTTTT CAGTCGAGGC 
CTGGTCAAGG TCTTGTTTGC CACAGAGACC TTTGCCATGG GTGTTAATAT GCCTGCTCGA 
ACAGTGGTGT TTGACTCTAT GCGGAAACAC GATGGCTCCA CCTTCCGGGA TCTGCTACCT 
GGAGAGTATG TGCAGATGGC AGGTCGGGCA GGCCGGAGGG GCCTGGACCC CACCGGCACT 
GTCATCCTGC TCTGCAAGGG CCGTGTGCCT GAGATGGCAG ACCTGCACCG TATGATGATG 
GGAAAGCCAT CGCAGCTGCA ATCTCAGTTC CGCCTCACAT ACACCATGAT CCTGAACCTG 
CTGCGGGTGG ACGCCCTCAG GGTGGAAGAC ATGATGAAGA GGAGCTTCTC CGAGTTTCCA 
TCCCGCAAGG ACAGCAAGGC CCATGAACAG GCTCTAGCTG AACTGACCAA GAGACTAGGG 
ACCTTAGAGG AACCTGATAC GACTGGCCAA CTGGTTGACC TGCCTGAGTA TTACAGCTGG 
GGGGAGGAAC TGACAGAGAC CCGGAGCCTG ATCCAGCGAC GCATCATGGA GTCTGTGAAT 
GGGCTGAAAT CTCTCTCAGC AGGAAGGGTG GTGGTTGTGA AGAATCAGGA GTATCATAAC 
ACATTGGGTG TTATCCTGCA GGTCTCCTCA AATTCCACCA GCAGGGTGTT TACAACCCTG 
ATCTTGTGTG ATAAGCCTGT GTCTGAGGAC CCACAGGAGA GGGCACCAGC CACCCCAGAT 
GTGCCCTACC CAGATGACCT TGTGGGATTC AAGCTGTTCC TGCCTGAAGG GCCCTGTGAC 
CACACAGTGG CCAAGCTCCA GCCAGGAGAC ATTGCTGCCA TCACCACCAA GGTGCTCCGG 
GTGAATGGGG AGAAGATCTT GGAGGACTTC AGCAAGAGGC AGCAACCAAA ATTCAAGAAG 
GATCCTCCCA TTGCGGCTGT GACCACTGCT GTCCAGGAAC TGCTGCGTTT GGCTCAGGCC 
TACCCAGCGG GACCCCCTAC CCTTGACCCT GTCAATGACC TGCAGCTCAA GGATGTGTCA 
GTGGTTGAGG GAGGGCTCCG GGCCCGGAAG CTGGAGGAGC TGATCTGGGG GGCTCAGTGT 
GTGCACAGTC CCCGTTTCTC TGCCCAGTAC CTGAAGCTGC AGGAGCGAAT GCAGATACAG 
AAGGAGATGG AGCGACTACG TTTCCTGCTG TCAGATCAGT CACTGTTGCT GCTCCCAGAG 
TATCACCAGC GAGTAGAGGT GCTCCGAACC CTGGGTTATG TAGACGAGGC GGGCACCGTG 
AAGCTGGCAG GGCGGGTGGC TTGTGCCATG AGCAGTCACG AGCTGCTTCT CACTGAGCTC 
ATGTTTGACA ACGCTCTGAG TGCCCTGCGG CCAGAAGAGA TTGCAGCCCT GCTCTCTGGC 
CTGGTCTGCC AGAGCCCTGG GGACCCTGGG GAGCAGCTCC CAAGCACCCT CAAACAGGGA 
GTAGAACGTG TCCGGGCTGT GGCCAAGCGG ATTGGTGAGG TCCAGGTGGC CTGTGGCCTG 
AACCAGACTG TGGAGGAATT TGTCGGGGAG CTGAATTTTG GGCTGGTGGA GGTGGTGTAC 
GAGTGGGCCC GGGGCATGCC CTTCTCTGAG TTGGCAGGGC TGTCGGGGAC TCCCGAGGGC 
CTGGTGGTCC GTTGCATCCA GCGCTTGGCC GAGATGTGTC GCTCGCTGAG GGGGGCGGCC 
CGCCTGGTAG GAGAACCTGT GCTAGGTGCC AAGATGGAGA CGGCAGCTAC TTTGCTGCGG 
AGGGACATCG TCTTTGCGGC CAGCCTATAC ACTCAGTGA

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

RefSeq	XP_019294306.1
CDS	90..3848
Translation	MMETERLVLPPPDPLDLPLRPVELGCTGHWELLNVPGAPESTLPHGLPPCAPDLQQETEQLFLSSPAWLPLHGVEHSARVFIFCRKWQRKMDPWSLLATLGAPVPSDLQAQRHPTTGQILGYKEVLLENTNLSATTSLSLRRPPGPVSQSLWGNPTQYPFWPGGMDEPTITDMSTREEAEEEIDFEKDLLTVPPGFKKGVDFAPKDHPAPAPGLLSLSRLLEPLDLGGGDEDESEAVGQPGIPRGDTVSAPPCSASLARASSLEDLVLKEASTAESPPEPPKPLPQEQWAIPVDVTSPVGDFYRLIPQPAFQWAFEPDVFQKQAILHLERHDSVFVAAHTSAGKTVVAEYAIALAQKHMTRTIYTSPIKALSNQKFRDFRNTFGDVGLLTGDVQLHPEASCLIMTTEILRSMLYSGSDVIRDLEWVIFDEVHYINDAERGVVWEEVLIMLPDHVSIILLSATVPNALEFADWIGRLKRRQIYVISTVARPVPLEHYLFTGNSPKTQGELFLLLDSRGAFHTKGYYAAVEAKKERMSKHAQTFGAKQPTHQGGPAQDRGVYLSLLASLRTRAQLPVVVFTFSRGRCDEQASSLTSLDLTTSSEKSEIHLFLQRCLARLRGSDRQLPQVLHMSELLHRGLGVHHSGILPILKEIVEMLFSRGLVKVLFATETFAMGVNMPARTVVFDSMRKHDGSTFRDLLPGEYVQMAGRAGRRGLDPTGTVILLCKGRVPEMADLHRMMMGKPSQLQSQFRLTYTMILNLLRVDALRVEDMMKRSFSEFPSRKDSKAHEQALAELTKRLGTLEEPDTTGQLVDLPEYYSWGEELTETRSLIQRRIMESVNGLKSLSAGRVVVVKNQEYHNTLGVILQVSSNSTSRVFTTLILCDKPVSEDPQERAPATPDVPYPDDLVGFKLFLPEGPCDHTVAKLQPGDIAAITTKVLRVNGEKILEDFSKRQQPKFKKDPPIAAVTTAVQELLRLAQAYPAGPPTLDPVNDLQLKDVSVVEGGLRARKLEELIWGAQCVHSPRFSAQYLKLQERMQIQKEMERLRFLLSDQSLLLLPEYHQRVEVLRTLGYVDEAGTVKLAGRVACAMSSHELLLTELMFDNALSALRPEEIAALLSGLVCQSPGDPGEQLPSTLKQGVERVRAVAKRIGEVQVACGLNQTVEEFVGELNFGLVEVVYEWARGMPFSELAGLSGTPEGLVVRCIQRLAEMCRSLRGAARLVGEPVLGAKMETAATLLRRDIVFAASLYTQ

Target ORF information:

RefSeq Version	XM_019438761.1
Organism	Panthera pardus(leopard)
Definition	Panthera pardus Ski2 like RNA helicase (SKIV2L), transcript variant X1, mRNA.

Target ORF information:

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

XM_019438761.1

ORF Insert Sequence:

ATGATGGAGA CGGAGCGACT TGTGCTGCCT CCTCCAGATC CCTTGGATCT GCCCCTTCGG 
CCTGTGGAGC TGGGATGCAC AGGGCACTGG GAGCTGCTGA ATGTGCCTGG GGCTCCAGAG 
AGCACACTTC CCCACGGCCT CCCTCCCTGT GCCCCCGATC TGCAGCAGGA AACAGAGCAG 
TTGTTTTTAT CATCTCCAGC CTGGTTGCCT CTGCATGGTG TGGAGCACTC GGCCCGTGTT 
TTTATTTTCT GCAGAAAATG GCAGAGGAAG ATGGATCCCT GGTCCCTCCT GGCCACACTG 
GGGGCCCCAG TCCCCTCAGA CCTTCAGGCC CAAAGACACC CGACCACAGG CCAGATCCTG 
GGCTACAAAG AGGTCCTGCT GGAGAATACA AACCTATCGG CCACCACCTC CTTGTCTCTT 
CGCCGGCCCC CAGGGCCCGT CTCCCAGTCC CTGTGGGGGA ATCCAACACA ATACCCTTTC 
TGGCCAGGTG GAATGGATGA GCCTACCATA ACAGATATGA GCACTCGGGA GGAGGCTGAG 
GAAGAGATAG ACTTTGAGAA AGATCTTCTT ACTGTCCCAC CTGGCTTCAA GAAAGGTGTG 
GACTTTGCAC CGAAGGATCA CCCGGCTCCA GCTCCTGGCT TGCTCAGCCT CAGCCGTTTG 
CTGGAACCTC TGGATTTGGG GGGGGGTGAT GAGGATGAGA GTGAGGCAGT GGGCCAGCCA 
GGAATTCCCA GAGGAGACAC TGTTTCAGCA CCCCCCTGCA GTGCTTCCCT GGCCCGAGCA 
AGCAGCTTGG AGGACCTAGT GTTGAAGGAA GCATCCACAG CTGAATCCCC CCCAGAGCCC 
CCCAAACCCC TGCCTCAGGA GCAGTGGGCT ATTCCCGTGG ATGTCACTTC CCCTGTTGGT 
GATTTCTACC GCCTCATTCC CCAGCCCGCT TTCCAGTGGG CATTTGAGCC GGATGTGTTT 
CAGAAACAGG CCATCTTGCA CTTGGAGCGG CATGACTCTG TCTTTGTAGC AGCTCACACA 
TCTGCGGGGA AGACGGTTGT GGCTGAATAT GCCATTGCCC TTGCCCAGAA ACACATGACA 
CGCACCATAT ACACTTCGCC CATCAAGGCC CTGAGTAACC AGAAGTTCCG AGACTTTCGA 
AACACTTTTG GAGATGTGGG GCTGCTCACT GGGGACGTAC AGCTGCACCC GGAGGCCTCC 
TGCCTCATTA TGACAACAGA GATCCTTCGC TCCATGCTGT ACAGCGGTTC AGATGTCATC 
CGGGACCTAG AGTGGGTCAT CTTTGATGAG GTTCACTACA TCAACGATGC TGAGCGTGGG 
GTTGTGTGGG AGGAAGTGCT TATCATGCTC CCTGACCATG TCTCCATCAT CCTTCTGAGT 
GCTACCGTCC CCAATGCCCT TGAGTTCGCT GACTGGATCG GGCGACTGAA ACGGCGCCAG 
ATCTATGTGA TCAGCACTGT TGCCCGTCCC GTACCCCTGG AGCATTATCT CTTCACGGGG 
AACAGCCCCA AGACCCAGGG GGAGCTCTTT CTGTTGCTGG ACTCCCGAGG TGCCTTCCAC 
ACAAAGGGGT ACTATGCAGC TGTGGAGGCC AAGAAGGAGC GGATGAGCAA ACATGCCCAG 
ACCTTTGGGG CCAAACAGCC CACGCATCAG GGGGGGCCTG CACAGGACCG CGGTGTGTAC 
CTATCCCTCC TGGCCTCCCT CCGCACCCGT GCGCAGCTGC CTGTGGTCGT GTTCACCTTC 
TCGCGGGGTC GCTGTGATGA GCAAGCCTCG AGCCTCACCT CCCTGGACCT CACCACAAGT 
TCAGAGAAGA GTGAAATTCA CCTCTTCCTG CAGCGCTGCC TTGCTCGCCT CCGTGGCTCT 
GACCGCCAGC TGCCCCAGGT CCTGCACATG TCTGAGCTCC TGCACCGTGG CCTGGGTGTG 
CACCACAGTG GCATCCTGCC CATTCTTAAG GAGATCGTGG AGATGCTTTT CAGTCGAGGC 
CTGGTCAAGG TCTTGTTTGC CACAGAGACC TTTGCCATGG GTGTTAATAT GCCTGCTCGA 
ACAGTGGTGT TTGACTCTAT GCGGAAACAC GATGGCTCCA CCTTCCGGGA TCTGCTACCT 
GGAGAGTATG TGCAGATGGC AGGTCGGGCA GGCCGGAGGG GCCTGGACCC CACCGGCACT 
GTCATCCTGC TCTGCAAGGG CCGTGTGCCT GAGATGGCAG ACCTGCACCG TATGATGATG 
GGAAAGCCAT CGCAGCTGCA ATCTCAGTTC CGCCTCACAT ACACCATGAT CCTGAACCTG 
CTGCGGGTGG ACGCCCTCAG GGTGGAAGAC ATGATGAAGA GGAGCTTCTC CGAGTTTCCA 
TCCCGCAAGG ACAGCAAGGC CCATGAACAG GCTCTAGCTG AACTGACCAA GAGACTAGGG 
ACCTTAGAGG AACCTGATAC GACTGGCCAA CTGGTTGACC TGCCTGAGTA TTACAGCTGG 
GGGGAGGAAC TGACAGAGAC CCGGAGCCTG ATCCAGCGAC GCATCATGGA GTCTGTGAAT 
GGGCTGAAAT CTCTCTCAGC AGGAAGGGTG GTGGTTGTGA AGAATCAGGA GTATCATAAC 
ACATTGGGTG TTATCCTGCA GGTCTCCTCA AATTCCACCA GCAGGGTGTT TACAACCCTG 
ATCTTGTGTG ATAAGCCTGT GTCTGAGGAC CCACAGGAGA GGGCACCAGC CACCCCAGAT 
GTGCCCTACC CAGATGACCT TGTGGGATTC AAGCTGTTCC TGCCTGAAGG GCCCTGTGAC 
CACACAGTGG CCAAGCTCCA GCCAGGAGAC ATTGCTGCCA TCACCACCAA GGTGCTCCGG 
GTGAATGGGG AGAAGATCTT GGAGGACTTC AGCAAGAGGC AGCAACCAAA ATTCAAGAAG 
GATCCTCCCA TTGCGGCTGT GACCACTGCT GTCCAGGAAC TGCTGCGTTT GGCTCAGGCC 
TACCCAGCGG GACCCCCTAC CCTTGACCCT GTCAATGACC TGCAGCTCAA GGATGTGTCA 
GTGGTTGAGG GAGGGCTCCG GGCCCGGAAG CTGGAGGAGC TGATCTGGGG GGCTCAGTGT 
GTGCACAGTC CCCGTTTCTC TGCCCAGTAC CTGAAGCTGC AGGAGCGAAT GCAGATACAG 
AAGGAGATGG AGCGACTACG TTTCCTGCTG TCAGATCAGT CACTGTTGCT GCTCCCAGAG 
TATCACCAGC GAGTAGAGGT GCTCCGAACC CTGGGTTATG TAGACGAGGC GGGCACCGTG 
AAGCTGGCAG GGCGGGTGGC TTGTGCCATG AGCAGTCACG AGCTGCTTCT CACTGAGCTC 
ATGTTTGACA ACGCTCTGAG TGCCCTGCGG CCAGAAGAGA TTGCAGCCCT GCTCTCTGGC 
CTGGTCTGCC AGAGCCCTGG GGACCCTGGG GAGCAGCTCC CAAGCACCCT CAAACAGGGA 
GTAGAACGTG TCCGGGCTGT GGCCAAGCGG ATTGGTGAGG TCCAGGTGGC CTGTGGCCTG 
AACCAGACTG TGGAGGAATT TGTCGGGGAG CTGAATTTTG GGCTGGTGGA GGTGGTGTAC 
GAGTGGGCCC GGGGCATGCC CTTCTCTGAG TTGGCAGGGC TGTCGGGGAC TCCCGAGGGC 
CTGGTGGTCC GTTGCATCCA GCGCTTGGCC GAGATGTGTC GCTCGCTGAG GGGGGCGGCC 
CGCCTGGTAG GAGAACCTGT GCTAGGTGCC AAGATGGAGA CGGCAGCTAC TTTGCTGCGG 
AGGGACATCG TCTTTGCGGC CAGCCTATAC ACTCAGTGA

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

SKIV2L ( XM_019438762.1 ) cDNA ORF clone, Panthera pardus(leopard) -> XP_019294307.1 Panthera pardus Ski2 like RNA helicase (SKIV2L), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPa229233
Clone ID Related Accession (Same CDS sequence)	XM_019438762.1
Accession Version	XM_019438762.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3741bp) 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	2016-12-04
Organism	Panthera pardus(leopard)
Product	helicase SKI2W isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017620088.1) 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 Version :: Panthera pardus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGAGA CGGAGCGACT TGTGCTGCCT CCTCCAGATC CCTTGGATCT GCCCCTTCGG 
CCTGTGGAGC TGGGATGCAC AGGGCACTGG GAGCTGCTGA ATGTGCCTGG GGCTCCAGAG 
AGCACACTTC CCCACGGCCT CCCTCCCTGT GCCCCCGATC TGCAGCAGGA AACAGAGCAG 
TTGTTTTTAT CATCTCCAGC CTGGTTGCCT CTGCATGGTG TGGAGCACTC GGCCCGAAAA 
TGGCAGAGGA AGATGGATCC CTGGTCCCTC CTGGCCACAC TGGGGGCCCC AGTCCCCTCA 
GACCTTCAGG CCCAAAGACA CCCGACCACA GGCCAGATCC TGGGCTACAA AGAGGTCCTG 
CTGGAGAATA CAAACCTATC GGCCACCACC TCCTTGTCTC TTCGCCGGCC CCCAGGGCCC 
GTCTCCCAGT CCCTGTGGGG GAATCCAACA CAATACCCTT TCTGGCCAGG TGGAATGGAT 
GAGCCTACCA TAACAGATAT GAGCACTCGG GAGGAGGCTG AGGAAGAGAT AGACTTTGAG 
AAAGATCTTC TTACTGTCCC ACCTGGCTTC AAGAAAGGTG TGGACTTTGC ACCGAAGGAT 
CACCCGGCTC CAGCTCCTGG CTTGCTCAGC CTCAGCCGTT TGCTGGAACC TCTGGATTTG 
GGGGGGGGTG ATGAGGATGA GAGTGAGGCA GTGGGCCAGC CAGGAATTCC CAGAGGAGAC 
ACTGTTTCAG CACCCCCCTG CAGTGCTTCC CTGGCCCGAG CAAGCAGCTT GGAGGACCTA 
GTGTTGAAGG AAGCATCCAC AGCTGAATCC CCCCCAGAGC CCCCCAAACC CCTGCCTCAG 
GAGCAGTGGG CTATTCCCGT GGATGTCACT TCCCCTGTTG GTGATTTCTA CCGCCTCATT 
CCCCAGCCCG CTTTCCAGTG GGCATTTGAG CCGGATGTGT TTCAGAAACA GGCCATCTTG 
CACTTGGAGC GGCATGACTC TGTCTTTGTA GCAGCTCACA CATCTGCGGG GAAGACGGTT 
GTGGCTGAAT ATGCCATTGC CCTTGCCCAG AAACACATGA CACGCACCAT ATACACTTCG 
CCCATCAAGG CCCTGAGTAA CCAGAAGTTC CGAGACTTTC GAAACACTTT TGGAGATGTG 
GGGCTGCTCA CTGGGGACGT ACAGCTGCAC CCGGAGGCCT CCTGCCTCAT TATGACAACA 
GAGATCCTTC GCTCCATGCT GTACAGCGGT TCAGATGTCA TCCGGGACCT AGAGTGGGTC 
ATCTTTGATG AGGTTCACTA CATCAACGAT GCTGAGCGTG GGGTTGTGTG GGAGGAAGTG 
CTTATCATGC TCCCTGACCA TGTCTCCATC ATCCTTCTGA GTGCTACCGT CCCCAATGCC 
CTTGAGTTCG CTGACTGGAT CGGGCGACTG AAACGGCGCC AGATCTATGT GATCAGCACT 
GTTGCCCGTC CCGTACCCCT GGAGCATTAT CTCTTCACGG GGAACAGCCC CAAGACCCAG 
GGGGAGCTCT TTCTGTTGCT GGACTCCCGA GGTGCCTTCC ACACAAAGGG GTACTATGCA 
GCTGTGGAGG CCAAGAAGGA GCGGATGAGC AAACATGCCC AGACCTTTGG GGCCAAACAG 
CCCACGCATC AGGGGGGGCC TGCACAGGAC CGCGGTGTGT ACCTATCCCT CCTGGCCTCC 
CTCCGCACCC GTGCGCAGCT GCCTGTGGTC GTGTTCACCT TCTCGCGGGG TCGCTGTGAT 
GAGCAAGCCT CGAGCCTCAC CTCCCTGGAC CTCACCACAA GTTCAGAGAA GAGTGAAATT 
CACCTCTTCC TGCAGCGCTG CCTTGCTCGC CTCCGTGGCT CTGACCGCCA GCTGCCCCAG 
GTCCTGCACA TGTCTGAGCT CCTGCACCGT GGCCTGGGTG TGCACCACAG TGGCATCCTG 
CCCATTCTTA AGGAGATCGT GGAGATGCTT TTCAGTCGAG GCCTGGTCAA GGTCTTGTTT 
GCCACAGAGA CCTTTGCCAT GGGTGTTAAT ATGCCTGCTC GAACAGTGGT GTTTGACTCT 
ATGCGGAAAC ACGATGGCTC CACCTTCCGG GATCTGCTAC CTGGAGAGTA TGTGCAGATG 
GCAGGTCGGG CAGGCCGGAG GGGCCTGGAC CCCACCGGCA CTGTCATCCT GCTCTGCAAG 
GGCCGTGTGC CTGAGATGGC AGACCTGCAC CGTATGATGA TGGGAAAGCC ATCGCAGCTG 
CAATCTCAGT TCCGCCTCAC ATACACCATG ATCCTGAACC TGCTGCGGGT GGACGCCCTC 
AGGGTGGAAG ACATGATGAA GAGGAGCTTC TCCGAGTTTC CATCCCGCAA GGACAGCAAG 
GCCCATGAAC AGGCTCTAGC TGAACTGACC AAGAGACTAG GGACCTTAGA GGAACCTGAT 
ACGACTGGCC AACTGGTTGA CCTGCCTGAG TATTACAGCT GGGGGGAGGA ACTGACAGAG 
ACCCGGAGCC TGATCCAGCG ACGCATCATG GAGTCTGTGA ATGGGCTGAA ATCTCTCTCA 
GCAGGAAGGG TGGTGGTTGT GAAGAATCAG GAGTATCATA ACACATTGGG TGTTATCCTG 
CAGGTCTCCT CAAATTCCAC CAGCAGGGTG TTTACAACCC TGATCTTGTG TGATAAGCCT 
GTGTCTGAGG ACCCACAGGA GAGGGCACCA GCCACCCCAG ATGTGCCCTA CCCAGATGAC 
CTTGTGGGAT TCAAGCTGTT CCTGCCTGAA GGGCCCTGTG ACCACACAGT GGCCAAGCTC 
CAGCCAGGAG ACATTGCTGC CATCACCACC AAGGTGCTCC GGGTGAATGG GGAGAAGATC 
TTGGAGGACT TCAGCAAGAG GCAGCAACCA AAATTCAAGA AGGATCCTCC CATTGCGGCT 
GTGACCACTG CTGTCCAGGA ACTGCTGCGT TTGGCTCAGG CCTACCCAGC GGGACCCCCT 
ACCCTTGACC CTGTCAATGA CCTGCAGCTC AAGGATGTGT CAGTGGTTGA GGGAGGGCTC 
CGGGCCCGGA AGCTGGAGGA GCTGATCTGG GGGGCTCAGT GTGTGCACAG TCCCCGTTTC 
TCTGCCCAGT ACCTGAAGCT GCAGGAGCGA ATGCAGATAC AGAAGGAGAT GGAGCGACTA 
CGTTTCCTGC TGTCAGATCA GTCACTGTTG CTGCTCCCAG AGTATCACCA GCGAGTAGAG 
GTGCTCCGAA CCCTGGGTTA TGTAGACGAG GCGGGCACCG TGAAGCTGGC AGGGCGGGTG 
GCTTGTGCCA TGAGCAGTCA CGAGCTGCTT CTCACTGAGC TCATGTTTGA CAACGCTCTG 
AGTGCCCTGC GGCCAGAAGA GATTGCAGCC CTGCTCTCTG GCCTGGTCTG CCAGAGCCCT 
GGGGACCCTG GGGAGCAGCT CCCAAGCACC CTCAAACAGG GAGTAGAACG TGTCCGGGCT 
GTGGCCAAGC GGATTGGTGA GGTCCAGGTG GCCTGTGGCC TGAACCAGAC TGTGGAGGAA 
TTTGTCGGGG AGCTGAATTT TGGGCTGGTG GAGGTGGTGT ACGAGTGGGC CCGGGGCATG 
CCCTTCTCTG AGTTGGCAGG GCTGTCGGGG ACTCCCGAGG GCCTGGTGGT CCGTTGCATC 
CAGCGCTTGG CCGAGATGTG TCGCTCGCTG AGGGGGGCGG CCCGCCTGGT AGGAGAACCT 
GTGCTAGGTG CCAAGATGGA GACGGCAGCT ACTTTGCTGC GGAGGGACAT CGTCTTTGCG 
GCCAGCCTAT ACACTCAGTG A

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

RefSeq	XP_019294307.1
CDS	90..3830
Translation	MMETERLVLPPPDPLDLPLRPVELGCTGHWELLNVPGAPESTLPHGLPPCAPDLQQETEQLFLSSPAWLPLHGVEHSARKWQRKMDPWSLLATLGAPVPSDLQAQRHPTTGQILGYKEVLLENTNLSATTSLSLRRPPGPVSQSLWGNPTQYPFWPGGMDEPTITDMSTREEAEEEIDFEKDLLTVPPGFKKGVDFAPKDHPAPAPGLLSLSRLLEPLDLGGGDEDESEAVGQPGIPRGDTVSAPPCSASLARASSLEDLVLKEASTAESPPEPPKPLPQEQWAIPVDVTSPVGDFYRLIPQPAFQWAFEPDVFQKQAILHLERHDSVFVAAHTSAGKTVVAEYAIALAQKHMTRTIYTSPIKALSNQKFRDFRNTFGDVGLLTGDVQLHPEASCLIMTTEILRSMLYSGSDVIRDLEWVIFDEVHYINDAERGVVWEEVLIMLPDHVSIILLSATVPNALEFADWIGRLKRRQIYVISTVARPVPLEHYLFTGNSPKTQGELFLLLDSRGAFHTKGYYAAVEAKKERMSKHAQTFGAKQPTHQGGPAQDRGVYLSLLASLRTRAQLPVVVFTFSRGRCDEQASSLTSLDLTTSSEKSEIHLFLQRCLARLRGSDRQLPQVLHMSELLHRGLGVHHSGILPILKEIVEMLFSRGLVKVLFATETFAMGVNMPARTVVFDSMRKHDGSTFRDLLPGEYVQMAGRAGRRGLDPTGTVILLCKGRVPEMADLHRMMMGKPSQLQSQFRLTYTMILNLLRVDALRVEDMMKRSFSEFPSRKDSKAHEQALAELTKRLGTLEEPDTTGQLVDLPEYYSWGEELTETRSLIQRRIMESVNGLKSLSAGRVVVVKNQEYHNTLGVILQVSSNSTSRVFTTLILCDKPVSEDPQERAPATPDVPYPDDLVGFKLFLPEGPCDHTVAKLQPGDIAAITTKVLRVNGEKILEDFSKRQQPKFKKDPPIAAVTTAVQELLRLAQAYPAGPPTLDPVNDLQLKDVSVVEGGLRARKLEELIWGAQCVHSPRFSAQYLKLQERMQIQKEMERLRFLLSDQSLLLLPEYHQRVEVLRTLGYVDEAGTVKLAGRVACAMSSHELLLTELMFDNALSALRPEEIAALLSGLVCQSPGDPGEQLPSTLKQGVERVRAVAKRIGEVQVACGLNQTVEEFVGELNFGLVEVVYEWARGMPFSELAGLSGTPEGLVVRCIQRLAEMCRSLRGAARLVGEPVLGAKMETAATLLRRDIVFAASLYTQ

Target ORF information:

RefSeq Version	XM_019438762.1
Organism	Panthera pardus(leopard)
Definition	Panthera pardus Ski2 like RNA helicase (SKIV2L), transcript variant X2, mRNA.

Target ORF information:

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

XM_019438762.1

ORF Insert Sequence:

ATGATGGAGA CGGAGCGACT TGTGCTGCCT CCTCCAGATC CCTTGGATCT GCCCCTTCGG 
CCTGTGGAGC TGGGATGCAC AGGGCACTGG GAGCTGCTGA ATGTGCCTGG GGCTCCAGAG 
AGCACACTTC CCCACGGCCT CCCTCCCTGT GCCCCCGATC TGCAGCAGGA AACAGAGCAG 
TTGTTTTTAT CATCTCCAGC CTGGTTGCCT CTGCATGGTG TGGAGCACTC GGCCCGAAAA 
TGGCAGAGGA AGATGGATCC CTGGTCCCTC CTGGCCACAC TGGGGGCCCC AGTCCCCTCA 
GACCTTCAGG CCCAAAGACA CCCGACCACA GGCCAGATCC TGGGCTACAA AGAGGTCCTG 
CTGGAGAATA CAAACCTATC GGCCACCACC TCCTTGTCTC TTCGCCGGCC CCCAGGGCCC 
GTCTCCCAGT CCCTGTGGGG GAATCCAACA CAATACCCTT TCTGGCCAGG TGGAATGGAT 
GAGCCTACCA TAACAGATAT GAGCACTCGG GAGGAGGCTG AGGAAGAGAT AGACTTTGAG 
AAAGATCTTC TTACTGTCCC ACCTGGCTTC AAGAAAGGTG TGGACTTTGC ACCGAAGGAT 
CACCCGGCTC CAGCTCCTGG CTTGCTCAGC CTCAGCCGTT TGCTGGAACC TCTGGATTTG 
GGGGGGGGTG ATGAGGATGA GAGTGAGGCA GTGGGCCAGC CAGGAATTCC CAGAGGAGAC 
ACTGTTTCAG CACCCCCCTG CAGTGCTTCC CTGGCCCGAG CAAGCAGCTT GGAGGACCTA 
GTGTTGAAGG AAGCATCCAC AGCTGAATCC CCCCCAGAGC CCCCCAAACC CCTGCCTCAG 
GAGCAGTGGG CTATTCCCGT GGATGTCACT TCCCCTGTTG GTGATTTCTA CCGCCTCATT 
CCCCAGCCCG CTTTCCAGTG GGCATTTGAG CCGGATGTGT TTCAGAAACA GGCCATCTTG 
CACTTGGAGC GGCATGACTC TGTCTTTGTA GCAGCTCACA CATCTGCGGG GAAGACGGTT 
GTGGCTGAAT ATGCCATTGC CCTTGCCCAG AAACACATGA CACGCACCAT ATACACTTCG 
CCCATCAAGG CCCTGAGTAA CCAGAAGTTC CGAGACTTTC GAAACACTTT TGGAGATGTG 
GGGCTGCTCA CTGGGGACGT ACAGCTGCAC CCGGAGGCCT CCTGCCTCAT TATGACAACA 
GAGATCCTTC GCTCCATGCT GTACAGCGGT TCAGATGTCA TCCGGGACCT AGAGTGGGTC 
ATCTTTGATG AGGTTCACTA CATCAACGAT GCTGAGCGTG GGGTTGTGTG GGAGGAAGTG 
CTTATCATGC TCCCTGACCA TGTCTCCATC ATCCTTCTGA GTGCTACCGT CCCCAATGCC 
CTTGAGTTCG CTGACTGGAT CGGGCGACTG AAACGGCGCC AGATCTATGT GATCAGCACT 
GTTGCCCGTC CCGTACCCCT GGAGCATTAT CTCTTCACGG GGAACAGCCC CAAGACCCAG 
GGGGAGCTCT TTCTGTTGCT GGACTCCCGA GGTGCCTTCC ACACAAAGGG GTACTATGCA 
GCTGTGGAGG CCAAGAAGGA GCGGATGAGC AAACATGCCC AGACCTTTGG GGCCAAACAG 
CCCACGCATC AGGGGGGGCC TGCACAGGAC CGCGGTGTGT ACCTATCCCT CCTGGCCTCC 
CTCCGCACCC GTGCGCAGCT GCCTGTGGTC GTGTTCACCT TCTCGCGGGG TCGCTGTGAT 
GAGCAAGCCT CGAGCCTCAC CTCCCTGGAC CTCACCACAA GTTCAGAGAA GAGTGAAATT 
CACCTCTTCC TGCAGCGCTG CCTTGCTCGC CTCCGTGGCT CTGACCGCCA GCTGCCCCAG 
GTCCTGCACA TGTCTGAGCT CCTGCACCGT GGCCTGGGTG TGCACCACAG TGGCATCCTG 
CCCATTCTTA AGGAGATCGT GGAGATGCTT TTCAGTCGAG GCCTGGTCAA GGTCTTGTTT 
GCCACAGAGA CCTTTGCCAT GGGTGTTAAT ATGCCTGCTC GAACAGTGGT GTTTGACTCT 
ATGCGGAAAC ACGATGGCTC CACCTTCCGG GATCTGCTAC CTGGAGAGTA TGTGCAGATG 
GCAGGTCGGG CAGGCCGGAG GGGCCTGGAC CCCACCGGCA CTGTCATCCT GCTCTGCAAG 
GGCCGTGTGC CTGAGATGGC AGACCTGCAC CGTATGATGA TGGGAAAGCC ATCGCAGCTG 
CAATCTCAGT TCCGCCTCAC ATACACCATG ATCCTGAACC TGCTGCGGGT GGACGCCCTC 
AGGGTGGAAG ACATGATGAA GAGGAGCTTC TCCGAGTTTC CATCCCGCAA GGACAGCAAG 
GCCCATGAAC AGGCTCTAGC TGAACTGACC AAGAGACTAG GGACCTTAGA GGAACCTGAT 
ACGACTGGCC AACTGGTTGA CCTGCCTGAG TATTACAGCT GGGGGGAGGA ACTGACAGAG 
ACCCGGAGCC TGATCCAGCG ACGCATCATG GAGTCTGTGA ATGGGCTGAA ATCTCTCTCA 
GCAGGAAGGG TGGTGGTTGT GAAGAATCAG GAGTATCATA ACACATTGGG TGTTATCCTG 
CAGGTCTCCT CAAATTCCAC CAGCAGGGTG TTTACAACCC TGATCTTGTG TGATAAGCCT 
GTGTCTGAGG ACCCACAGGA GAGGGCACCA GCCACCCCAG ATGTGCCCTA CCCAGATGAC 
CTTGTGGGAT TCAAGCTGTT CCTGCCTGAA GGGCCCTGTG ACCACACAGT GGCCAAGCTC 
CAGCCAGGAG ACATTGCTGC CATCACCACC AAGGTGCTCC GGGTGAATGG GGAGAAGATC 
TTGGAGGACT TCAGCAAGAG GCAGCAACCA AAATTCAAGA AGGATCCTCC CATTGCGGCT 
GTGACCACTG CTGTCCAGGA ACTGCTGCGT TTGGCTCAGG CCTACCCAGC GGGACCCCCT 
ACCCTTGACC CTGTCAATGA CCTGCAGCTC AAGGATGTGT CAGTGGTTGA GGGAGGGCTC 
CGGGCCCGGA AGCTGGAGGA GCTGATCTGG GGGGCTCAGT GTGTGCACAG TCCCCGTTTC 
TCTGCCCAGT ACCTGAAGCT GCAGGAGCGA ATGCAGATAC AGAAGGAGAT GGAGCGACTA 
CGTTTCCTGC TGTCAGATCA GTCACTGTTG CTGCTCCCAG AGTATCACCA GCGAGTAGAG 
GTGCTCCGAA CCCTGGGTTA TGTAGACGAG GCGGGCACCG TGAAGCTGGC AGGGCGGGTG 
GCTTGTGCCA TGAGCAGTCA CGAGCTGCTT CTCACTGAGC TCATGTTTGA CAACGCTCTG 
AGTGCCCTGC GGCCAGAAGA GATTGCAGCC CTGCTCTCTG GCCTGGTCTG CCAGAGCCCT 
GGGGACCCTG GGGAGCAGCT CCCAAGCACC CTCAAACAGG GAGTAGAACG TGTCCGGGCT 
GTGGCCAAGC GGATTGGTGA GGTCCAGGTG GCCTGTGGCC TGAACCAGAC TGTGGAGGAA 
TTTGTCGGGG AGCTGAATTT TGGGCTGGTG GAGGTGGTGT ACGAGTGGGC CCGGGGCATG 
CCCTTCTCTG AGTTGGCAGG GCTGTCGGGG ACTCCCGAGG GCCTGGTGGT CCGTTGCATC 
CAGCGCTTGG CCGAGATGTG TCGCTCGCTG AGGGGGGCGG CCCGCCTGGT AGGAGAACCT 
GTGCTAGGTG CCAAGATGGA GACGGCAGCT ACTTTGCTGC GGAGGGACAT CGTCTTTGCG 
GCCAGCCTAT ACACTCAGTG A