CHFR cDNA ORF clone, Panthera pardus(leopard)

Gene
Clones
gRNAs

Summary

Gene Symbol	CHFR
Entrez Gene ID	109260673
Full Name	checkpoint with forkhead and ring finger domains
Gene Type	protein-coding
Organism	Panthera pardus(leopard)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019439048.1	XP_019294593.1	E3 ubiquitin-protein ligase CHFR isoform X1
XM_019439049.1	XP_019294594.1	E3 ubiquitin-protein ligase CHFR isoform X2

Pathways from BioSystems
Gene Ontology

The following CHFR gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CHFR 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
OPa229414	XM_019439048.1 Latest version!	Panthera pardus checkpoint with forkhead and ring finger domains (CHFR), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OPa229415	XM_019439049.1 Latest version!	Panthera pardus checkpoint with forkhead and ring finger domains (CHFR), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$342.30 $489.00

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)

CHFR ( XM_019439048.1 ) cDNA ORF clone, Panthera pardus(leopard) -> XP_019294593.1 Panthera pardus checkpoint with forkhead and ring finger domains (CHFR), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPa229414
Clone ID Related Accession (Same CDS sequence)	XM_019439048.1
Accession Version	XM_019439048.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2505bp) 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	E3 ubiquitin-protein ligase CHFR isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017620096.1) 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 :: 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##

ATGCCGCCCG CCGCCACCTC CAGGAAGGTG GCACCGCCCC TCGCACCCCG GCCGCCCAAC 
CACGGAGGCG CTGTCACTCG GCCGCGCTCT CCCGGCGCAC TGCCCAACTT CCCGCTCTTC 
GCTCCCCAAC GGGCGGAAAC CGGCATCCGA AAGTTCCCAT TTATCTCGTC ACTCCTCTCC 
CCTCGGCCAG GCGGAGTGTC GCTGCGAGCA CTTAAACGCC GCCCGCGCGT CCCACGCGGC 
TTCGAGAATT TGCTTCGGAC GCCCAACCCC CAAGTGACGC CGTCCCTTTT GCCCCGACTT 
AACATGGCGC CGACCGCAGT TACTTCCCAG GTCTCCGCAG ACGAAGACGT CCCGGCCATC 
ACCAAACAAG GCGCTCGGGC CCGCAGTCTC CCGTCTGCGC ACGCTCCGCT GGCCCCCGCA 
CTCCCACTCT CGGCGGCCGC TCCCGCTTCC GCTCTAGCCG CCGCGCTCGG TGGGCGCCAC 
CGCCAGCCAA TCGCAGGGCA CGGCCGCCGC TGGCCCCGCC CGGCGGATCA GCTGAGGGAT 
CCGCGATGTC TGTTGACAGC GGCGGCGGCG GCGGCGCGGC CGGTTCCGGG TTCGGCGCGC 
GCTGGGGGAT GTGAATCCGA TGGAGCAGCC CGGGGAAGGC CCGCAGCCGC CGCAGCAGCA 
GCCGTGGGGG AGACTCCTCC GCTTGGGCGC CGGCGAGGGC GAGCCGCACG TGCTCCTGAG 
GAAACCCGAG TGGACCATCG GGCGGAGGAG AGCACCAATG GAACAGTAAT TAACAAGCTG 
AAGGTTGTTA AGAAGCAGAC TTGTCCTTTG CAGACTGGGG ATGTCATCTA CTTGGTGTAT 
AGGAAGAATG AGCCAGAATA CAACGTGGCA TACCTCTACG AGTCTCTGCA TGAAAAGCAA 
GGCATCACAC AAGACCCCTT TGAAGCTAAT AAAGAGAATG TGTTCCACGT GACCAAAGAT 
ACCTCAGGTG CAGGGCAAGG TGACGATCCC CAGGTCCTGC CGTCATCGCC CACCACTCAG 
GCGTGCTTTG AGGAACCACA GCCATCGACG TCGACCTCGG ACCTCTTCCC CACGGCCTCT 
ACCTCTTCCA CGGAGCCCAC CTCTGCGGGG CAAGCACCTC CCTTCAGCCC TGGCTTCAGA 
GATGCAGGCG TCTCCCCAAA AGAATGTGGT CCGTCTGTGG CAAATGATGA AATCCCCACC 
TTCCCTTCGG CTCTCCCAGA CAGAGAAGGA GCACCCTTCT CTCTGCCAGG GTCCCGGGAC 
CAAGAGGATT TGGAGCCTGT CACGAAGAGA ATGAAAGCAG AGGGGGAGGC CGAGCTGAGC 
CTGCAGTTGC TGGTTGCGGA CCAGTGTAGC GACGCCCACA CCGCCCTCGG GGGCGTCACA 
CCTGAGGCCG TGAAGCCGGA CAAGATGGAG GAGACACTCA CGTGCATCAT CTGCCAGGAC 
TTGCTGCACG ACTGCGTGAG CCTGCAGCCC TGCATGCACA CCTTCTGTGC CGCCTGCTAC 
TCGGGCTGGA TGGAGCGCTC CGCCTTCTGC CCCACCTGCC GCTGTCCGGT GGAGAGGATC 
TGTAAAAACC ACATCCTGAA CAACCTGGTG GAGGCGTACC TTCTCCAGCA CCCAGACAAG 
AGTCGCAGCG AGGAAGACGT GCGGAGCATG GCTGCCAGGA ACAAGATCAC TCAAGACATG 
CTGCAGCCCA AAGTCAGAAG GTCTTTCTCT GATGAGGAGG GCAGTTCGGA GGACCTGCTG 
GAGCTGTCAG ACGCGGACAG CGAGTCCTCG GACATCAGCC AGCCGTACAT CGTGTGCAGA 
CAGTGCCCTG AGTACCGGAG GCAGGCGGGC CAGCCCCTCC CCTGCCCAGG GCCTGGCAGT 
GAGCCAGGGG CAGCACAGGC TCCTGGGGAT GCACCGTCCA CGTCCACCAG CGTCACGACA 
GCCCAGGATT ACGTGTGTGC CCTGCAAGGA AGCCATGCCA TCTGCACTTG CTGCTTCCAG 
CCCATGCCCG ACCGGAGGGC AGAACGTGAG CAGGACCCCC GCATCGCCCC CCAGCAGTGT 
GCCGTTTGCC TGCAGCCTTT CTGCCACCTG TACTGGGGCT GCGCCCGGGC CGGCTGTCTC 
GGCTGCCTGG CCCCGTTCTG TGAGCTGGAC CTGGGTGACA GGTGTCTGGA CGGGGTTCTC 
AGCAATAATC ACTATGAGTC AGACATCCTG AAGAATTACC TGGCAACCAG GGGTTTGACG 
TGGAAAAACA TGTTGACTGA AAGTCTCGTG GCTCTGCAGA GGGGAGTGTT CCTGCTGTCT 
GATTACAGAA TCACAGGGAA CACTGTGCTC TGTTACTGCT GTGGCCTGAG AAGCTTCCGA 
GAGCTGACCT ACCAGTATCG GCAGAACATT CCTGCTTCCG AGTTGCCAGT GGCTGTAACA 
TCCCGTCCTG ACTGCTATTG GGGCCGCAAC TGCCGCACGC AGGTGAAGGC CCACCACGCA 
ATGAAATTCA ATCACATCTG TGAACAGACA AGGTTCAAGA ACTGA

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

RefSeq	XP_019294593.1
CDS	60..2564
Translation	MPPAATSRKVAPPLAPRPPNHGGAVTRPRSPGALPNFPLFAPQRAETGIRKFPFISSLLSPRPGGVSLRALKRRPRVPRGFENLLRTPNPQVTPSLLPRLNMAPTAVTSQVSADEDVPAITKQGARARSLPSAHAPLAPALPLSAAAPASALAAALGGRHRQPIAGHGRRWPRPADQLRDPRCLLTAAAAAARPVPGSARAGGCESDGAARGRPAAAAAAAVGETPPLGRRRGRAARAPEETRVDHRAEESTNGTVINKLKVVKKQTCPLQTGDVIYLVYRKNEPEYNVAYLYESLHEKQGITQDPFEANKENVFHVTKDTSGAGQGDDPQVLPSSPTTQACFEEPQPSTSTSDLFPTASTSSTEPTSAGQAPPFSPGFRDAGVSPKECGPSVANDEIPTFPSALPDREGAPFSLPGSRDQEDLEPVTKRMKAEGEAELSLQLLVADQCSDAHTALGGVTPEAVKPDKMEETLTCIICQDLLHDCVSLQPCMHTFCAACYSGWMERSAFCPTCRCPVERICKNHILNNLVEAYLLQHPDKSRSEEDVRSMAARNKITQDMLQPKVRRSFSDEEGSSEDLLELSDADSESSDISQPYIVCRQCPEYRRQAGQPLPCPGPGSEPGAAQAPGDAPSTSTSVTTAQDYVCALQGSHAICTCCFQPMPDRRAEREQDPRIAPQQCAVCLQPFCHLYWGCARAGCLGCLAPFCELDLGDRCLDGVLSNNHYESDILKNYLATRGLTWKNMLTESLVALQRGVFLLSDYRITGNTVLCYCCGLRSFRELTYQYRQNIPASELPVAVTSRPDCYWGRNCRTQVKAHHAMKFNHICEQTRFKN

Target ORF information:

RefSeq Version	XM_019439048.1
Organism	Panthera pardus(leopard)
Definition	Panthera pardus checkpoint with forkhead and ring finger domains (CHFR), transcript variant X1, mRNA.

Target ORF information:

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

XM_019439048.1

ORF Insert Sequence:

ATGCCGCCCG CCGCCACCTC CAGGAAGGTG GCACCGCCCC TCGCACCCCG GCCGCCCAAC 
CACGGAGGCG CTGTCACTCG GCCGCGCTCT CCCGGCGCAC TGCCCAACTT CCCGCTCTTC 
GCTCCCCAAC GGGCGGAAAC CGGCATCCGA AAGTTCCCAT TTATCTCGTC ACTCCTCTCC 
CCTCGGCCAG GCGGAGTGTC GCTGCGAGCA CTTAAACGCC GCCCGCGCGT CCCACGCGGC 
TTCGAGAATT TGCTTCGGAC GCCCAACCCC CAAGTGACGC CGTCCCTTTT GCCCCGACTT 
AACATGGCGC CGACCGCAGT TACTTCCCAG GTCTCCGCAG ACGAAGACGT CCCGGCCATC 
ACCAAACAAG GCGCTCGGGC CCGCAGTCTC CCGTCTGCGC ACGCTCCGCT GGCCCCCGCA 
CTCCCACTCT CGGCGGCCGC TCCCGCTTCC GCTCTAGCCG CCGCGCTCGG TGGGCGCCAC 
CGCCAGCCAA TCGCAGGGCA CGGCCGCCGC TGGCCCCGCC CGGCGGATCA GCTGAGGGAT 
CCGCGATGTC TGTTGACAGC GGCGGCGGCG GCGGCGCGGC CGGTTCCGGG TTCGGCGCGC 
GCTGGGGGAT GTGAATCCGA TGGAGCAGCC CGGGGAAGGC CCGCAGCCGC CGCAGCAGCA 
GCCGTGGGGG AGACTCCTCC GCTTGGGCGC CGGCGAGGGC GAGCCGCACG TGCTCCTGAG 
GAAACCCGAG TGGACCATCG GGCGGAGGAG AGCACCAATG GAACAGTAAT TAACAAGCTG 
AAGGTTGTTA AGAAGCAGAC TTGTCCTTTG CAGACTGGGG ATGTCATCTA CTTGGTGTAT 
AGGAAGAATG AGCCAGAATA CAACGTGGCA TACCTCTACG AGTCTCTGCA TGAAAAGCAA 
GGCATCACAC AAGACCCCTT TGAAGCTAAT AAAGAGAATG TGTTCCACGT GACCAAAGAT 
ACCTCAGGTG CAGGGCAAGG TGACGATCCC CAGGTCCTGC CGTCATCGCC CACCACTCAG 
GCGTGCTTTG AGGAACCACA GCCATCGACG TCGACCTCGG ACCTCTTCCC CACGGCCTCT 
ACCTCTTCCA CGGAGCCCAC CTCTGCGGGG CAAGCACCTC CCTTCAGCCC TGGCTTCAGA 
GATGCAGGCG TCTCCCCAAA AGAATGTGGT CCGTCTGTGG CAAATGATGA AATCCCCACC 
TTCCCTTCGG CTCTCCCAGA CAGAGAAGGA GCACCCTTCT CTCTGCCAGG GTCCCGGGAC 
CAAGAGGATT TGGAGCCTGT CACGAAGAGA ATGAAAGCAG AGGGGGAGGC CGAGCTGAGC 
CTGCAGTTGC TGGTTGCGGA CCAGTGTAGC GACGCCCACA CCGCCCTCGG GGGCGTCACA 
CCTGAGGCCG TGAAGCCGGA CAAGATGGAG GAGACACTCA CGTGCATCAT CTGCCAGGAC 
TTGCTGCACG ACTGCGTGAG CCTGCAGCCC TGCATGCACA CCTTCTGTGC CGCCTGCTAC 
TCGGGCTGGA TGGAGCGCTC CGCCTTCTGC CCCACCTGCC GCTGTCCGGT GGAGAGGATC 
TGTAAAAACC ACATCCTGAA CAACCTGGTG GAGGCGTACC TTCTCCAGCA CCCAGACAAG 
AGTCGCAGCG AGGAAGACGT GCGGAGCATG GCTGCCAGGA ACAAGATCAC TCAAGACATG 
CTGCAGCCCA AAGTCAGAAG GTCTTTCTCT GATGAGGAGG GCAGTTCGGA GGACCTGCTG 
GAGCTGTCAG ACGCGGACAG CGAGTCCTCG GACATCAGCC AGCCGTACAT CGTGTGCAGA 
CAGTGCCCTG AGTACCGGAG GCAGGCGGGC CAGCCCCTCC CCTGCCCAGG GCCTGGCAGT 
GAGCCAGGGG CAGCACAGGC TCCTGGGGAT GCACCGTCCA CGTCCACCAG CGTCACGACA 
GCCCAGGATT ACGTGTGTGC CCTGCAAGGA AGCCATGCCA TCTGCACTTG CTGCTTCCAG 
CCCATGCCCG ACCGGAGGGC AGAACGTGAG CAGGACCCCC GCATCGCCCC CCAGCAGTGT 
GCCGTTTGCC TGCAGCCTTT CTGCCACCTG TACTGGGGCT GCGCCCGGGC CGGCTGTCTC 
GGCTGCCTGG CCCCGTTCTG TGAGCTGGAC CTGGGTGACA GGTGTCTGGA CGGGGTTCTC 
AGCAATAATC ACTATGAGTC AGACATCCTG AAGAATTACC TGGCAACCAG GGGTTTGACG 
TGGAAAAACA TGTTGACTGA AAGTCTCGTG GCTCTGCAGA GGGGAGTGTT CCTGCTGTCT 
GATTACAGAA TCACAGGGAA CACTGTGCTC TGTTACTGCT GTGGCCTGAG AAGCTTCCGA 
GAGCTGACCT ACCAGTATCG GCAGAACATT CCTGCTTCCG AGTTGCCAGT GGCTGTAACA 
TCCCGTCCTG ACTGCTATTG GGGCCGCAAC TGCCGCACGC AGGTGAAGGC CCACCACGCA 
ATGAAATTCA ATCACATCTG TGAACAGACA AGGTTCAAGA ACTGA

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

CHFR ( XM_019439049.1 ) cDNA ORF clone, Panthera pardus(leopard) -> XP_019294594.1 Panthera pardus checkpoint with forkhead and ring finger domains (CHFR), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPa229415
Clone ID Related Accession (Same CDS sequence)	XM_019439049.1
Accession Version	XM_019439049.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1986bp) 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	E3 ubiquitin-protein ligase CHFR isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017620096.1) 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 :: 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##

ATGGAGCAGC CCGGGGAAGG CCCGCAGCCG CCGCAGCAGC AGCCGTGGGG GAGACTCCTC 
CGCTTGGGCG CCGGCGAGGG CGAGCCGCAC GTGCTCCTGA GGAAACCCGA GTGGACCATC 
GGGCGGAGGA GAGGTTGTGA TCTTTCATTC CCTGGCAATA AACTGGTCTC TGGAGATCAC 
TGTAAAATTA TTGTGGATGA AAAATCTGGT CAGGTGTCGC TGGAAGATAC CAGCACCAAT 
GGAACAGTAA TTAACAAGCT GAAGGTTGTT AAGAAGCAGA CTTGTCCTTT GCAGACTGGG 
GATGTCATCT ACTTGGTGTA TAGGAAGAAT GAGCCAGAAT ACAACGTGGC ATACCTCTAC 
GAGTCTCTGC ATGAAAAGCA AGGCATCACA CAAGACCCCT TTGAAGCTAA TAAAGAGAAT 
GTGTTCCACG TGACCAAAGA TACCTCAGGT GCAGGGCAAG GTGACGATCC CCAGGTCCTG 
CCGTCATCGC CCACCACTCA GGCGTGCTTT GAGGAACCAC AGCCATCGAC GTCGACCTCG 
GACCTCTTCC CCACGGCCTC TACCTCTTCC ACGGAGCCCA CCTCTGCGGG GCAAGCACCT 
CCCTTCAGCC CTGGCTTCAG AGATGCAGGC GTCTCCCCAA AAGAATGTGG TCCGTCTGTG 
GCAAATGATG AAATCCCCAC CTTCCCTTCG GCTCTCCCAG ACAGAGAAGG AGCACCCTTC 
TCTCTGCCAG GGTCCCGGGA CCAAGAGGAT TTGGAGCCTG TCACGAAGAG AATGAAAGCA 
GAGGGGGAGG CCGAGCTGAG CCTGCAGTTG CTGGTTGCGG ACCAGTGTAG CGACGCCCAC 
ACCGCCCTCG GGGGCGTCAC ACCTGAGGCC GTGAAGCCGG ACAAGATGGA GGAGACACTC 
ACGTGCATCA TCTGCCAGGA CTTGCTGCAC GACTGCGTGA GCCTGCAGCC CTGCATGCAC 
ACCTTCTGTG CCGCCTGCTA CTCGGGCTGG ATGGAGCGCT CCGCCTTCTG CCCCACCTGC 
CGCTGTCCGG TGGAGAGGAT CTGTAAAAAC CACATCCTGA ACAACCTGGT GGAGGCGTAC 
CTTCTCCAGC ACCCAGACAA GAGTCGCAGC GAGGAAGACG TGCGGAGCAT GGCTGCCAGG 
AACAAGATCA CTCAAGACAT GCTGCAGCCC AAAGTCAGAA GGTCTTTCTC TGATGAGGAG 
GGCAGTTCGG AGGACCTGCT GGAGCTGTCA GACGCGGACA GCGAGTCCTC GGACATCAGC 
CAGCCGTACA TCGTGTGCAG ACAGTGCCCT GAGTACCGGA GGCAGGCGGG CCAGCCCCTC 
CCCTGCCCAG GGCCTGGCAG TGAGCCAGGG GCAGCACAGG CTCCTGGGGA TGCACCGTCC 
ACGTCCACCA GCGTCACGAC AGCCCAGGAT TACGTGTGTG CCCTGCAAGG AAGCCATGCC 
ATCTGCACTT GCTGCTTCCA GCCCATGCCC GACCGGAGGG CAGAACGTGA GCAGGACCCC 
CGCATCGCCC CCCAGCAGTG TGCCGTTTGC CTGCAGCCTT TCTGCCACCT GTACTGGGGC 
TGCGCCCGGG CCGGCTGTCT CGGCTGCCTG GCCCCGTTCT GTGAGCTGGA CCTGGGTGAC 
AGGTGTCTGG ACGGGGTTCT CAGCAATAAT CACTATGAGT CAGACATCCT GAAGAATTAC 
CTGGCAACCA GGGGTTTGAC GTGGAAAAAC ATGTTGACTG AAAGTCTCGT GGCTCTGCAG 
AGGGGAGTGT TCCTGCTGTC TGATTACAGA ATCACAGGGA ACACTGTGCT CTGTTACTGC 
TGTGGCCTGA GAAGCTTCCG AGAGCTGACC TACCAGTATC GGCAGAACAT TCCTGCTTCC 
GAGTTGCCAG TGGCTGTAAC ATCCCGTCCT GACTGCTATT GGGGCCGCAA CTGCCGCACG 
CAGGTGAAGG CCCACCACGC AATGAAATTC AATCACATCT GTGAACAGAC AAGGTTCAAG 
AACTGA

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

RefSeq	XP_019294594.1
CDS	129..2114
Translation	MEQPGEGPQPPQQQPWGRLLRLGAGEGEPHVLLRKPEWTIGRRRGCDLSFPGNKLVSGDHCKIIVDEKSGQVSLEDTSTNGTVINKLKVVKKQTCPLQTGDVIYLVYRKNEPEYNVAYLYESLHEKQGITQDPFEANKENVFHVTKDTSGAGQGDDPQVLPSSPTTQACFEEPQPSTSTSDLFPTASTSSTEPTSAGQAPPFSPGFRDAGVSPKECGPSVANDEIPTFPSALPDREGAPFSLPGSRDQEDLEPVTKRMKAEGEAELSLQLLVADQCSDAHTALGGVTPEAVKPDKMEETLTCIICQDLLHDCVSLQPCMHTFCAACYSGWMERSAFCPTCRCPVERICKNHILNNLVEAYLLQHPDKSRSEEDVRSMAARNKITQDMLQPKVRRSFSDEEGSSEDLLELSDADSESSDISQPYIVCRQCPEYRRQAGQPLPCPGPGSEPGAAQAPGDAPSTSTSVTTAQDYVCALQGSHAICTCCFQPMPDRRAEREQDPRIAPQQCAVCLQPFCHLYWGCARAGCLGCLAPFCELDLGDRCLDGVLSNNHYESDILKNYLATRGLTWKNMLTESLVALQRGVFLLSDYRITGNTVLCYCCGLRSFRELTYQYRQNIPASELPVAVTSRPDCYWGRNCRTQVKAHHAMKFNHICEQTRFKN

Target ORF information:

RefSeq Version	XM_019439049.1
Organism	Panthera pardus(leopard)
Definition	Panthera pardus checkpoint with forkhead and ring finger domains (CHFR), transcript variant X2, mRNA.

Target ORF information:

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

XM_019439049.1

ORF Insert Sequence:

ATGGAGCAGC CCGGGGAAGG CCCGCAGCCG CCGCAGCAGC AGCCGTGGGG GAGACTCCTC 
CGCTTGGGCG CCGGCGAGGG CGAGCCGCAC GTGCTCCTGA GGAAACCCGA GTGGACCATC 
GGGCGGAGGA GAGGTTGTGA TCTTTCATTC CCTGGCAATA AACTGGTCTC TGGAGATCAC 
TGTAAAATTA TTGTGGATGA AAAATCTGGT CAGGTGTCGC TGGAAGATAC CAGCACCAAT 
GGAACAGTAA TTAACAAGCT GAAGGTTGTT AAGAAGCAGA CTTGTCCTTT GCAGACTGGG 
GATGTCATCT ACTTGGTGTA TAGGAAGAAT GAGCCAGAAT ACAACGTGGC ATACCTCTAC 
GAGTCTCTGC ATGAAAAGCA AGGCATCACA CAAGACCCCT TTGAAGCTAA TAAAGAGAAT 
GTGTTCCACG TGACCAAAGA TACCTCAGGT GCAGGGCAAG GTGACGATCC CCAGGTCCTG 
CCGTCATCGC CCACCACTCA GGCGTGCTTT GAGGAACCAC AGCCATCGAC GTCGACCTCG 
GACCTCTTCC CCACGGCCTC TACCTCTTCC ACGGAGCCCA CCTCTGCGGG GCAAGCACCT 
CCCTTCAGCC CTGGCTTCAG AGATGCAGGC GTCTCCCCAA AAGAATGTGG TCCGTCTGTG 
GCAAATGATG AAATCCCCAC CTTCCCTTCG GCTCTCCCAG ACAGAGAAGG AGCACCCTTC 
TCTCTGCCAG GGTCCCGGGA CCAAGAGGAT TTGGAGCCTG TCACGAAGAG AATGAAAGCA 
GAGGGGGAGG CCGAGCTGAG CCTGCAGTTG CTGGTTGCGG ACCAGTGTAG CGACGCCCAC 
ACCGCCCTCG GGGGCGTCAC ACCTGAGGCC GTGAAGCCGG ACAAGATGGA GGAGACACTC 
ACGTGCATCA TCTGCCAGGA CTTGCTGCAC GACTGCGTGA GCCTGCAGCC CTGCATGCAC 
ACCTTCTGTG CCGCCTGCTA CTCGGGCTGG ATGGAGCGCT CCGCCTTCTG CCCCACCTGC 
CGCTGTCCGG TGGAGAGGAT CTGTAAAAAC CACATCCTGA ACAACCTGGT GGAGGCGTAC 
CTTCTCCAGC ACCCAGACAA GAGTCGCAGC GAGGAAGACG TGCGGAGCAT GGCTGCCAGG 
AACAAGATCA CTCAAGACAT GCTGCAGCCC AAAGTCAGAA GGTCTTTCTC TGATGAGGAG 
GGCAGTTCGG AGGACCTGCT GGAGCTGTCA GACGCGGACA GCGAGTCCTC GGACATCAGC 
CAGCCGTACA TCGTGTGCAG ACAGTGCCCT GAGTACCGGA GGCAGGCGGG CCAGCCCCTC 
CCCTGCCCAG GGCCTGGCAG TGAGCCAGGG GCAGCACAGG CTCCTGGGGA TGCACCGTCC 
ACGTCCACCA GCGTCACGAC AGCCCAGGAT TACGTGTGTG CCCTGCAAGG AAGCCATGCC 
ATCTGCACTT GCTGCTTCCA GCCCATGCCC GACCGGAGGG CAGAACGTGA GCAGGACCCC 
CGCATCGCCC CCCAGCAGTG TGCCGTTTGC CTGCAGCCTT TCTGCCACCT GTACTGGGGC 
TGCGCCCGGG CCGGCTGTCT CGGCTGCCTG GCCCCGTTCT GTGAGCTGGA CCTGGGTGAC 
AGGTGTCTGG ACGGGGTTCT CAGCAATAAT CACTATGAGT CAGACATCCT GAAGAATTAC 
CTGGCAACCA GGGGTTTGAC GTGGAAAAAC ATGTTGACTG AAAGTCTCGT GGCTCTGCAG 
AGGGGAGTGT TCCTGCTGTC TGATTACAGA ATCACAGGGA ACACTGTGCT CTGTTACTGC 
TGTGGCCTGA GAAGCTTCCG AGAGCTGACC TACCAGTATC GGCAGAACAT TCCTGCTTCC 
GAGTTGCCAG TGGCTGTAAC ATCCCGTCCT GACTGCTATT GGGGCCGCAA CTGCCGCACG 
CAGGTGAAGG CCCACCACGC AATGAAATTC AATCACATCT GTGAACAGAC AAGGTTCAAG 
AACTGA