CARD11 cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	CARD11
Entrez Gene ID	104664968
Full Name	caspase recruitment domain family member 11
Gene Type	protein-coding
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010366673.1	XP_010364975.1	caspase recruitment domain-containing protein 11
XM_030932012.1	XP_030787872.1	caspase recruitment domain-containing protein 11

Pathways from BioSystems
Gene Ontology

The following CARD11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CARD11 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
ORh262802	XM_030932012.1 Latest version!	Rhinopithecus roxellana caspase recruitment domain family member 11 (CARD11), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
ORh141324	XM_010366673.1 Latest version!	Rhinopithecus roxellana caspase recruitment domain family, member 11 (CARD11), 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)

CARD11 ( XM_030932012.1 ) cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey) -> XP_030787872.1 Rhinopithecus roxellana caspase recruitment domain family member 11 (CARD11), mRNA.

Price & Availability↑

CloneID	ORh262802
Clone ID Related Accession (Same CDS sequence)	XM_030932012.1
Accession Version	XM_030932012.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2937bp) 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	2019-09-24
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Product	caspase recruitment domain-containing protein 11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044554.1) 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 Name :: Rhinopithecus roxellana Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 21% of CDS bases ##RefSeq-Attributes-END##

ATGCCAGGAG GAGGGCCAGA GATGGATGAC TACATGGAGA CGCTGAAGGA TGAAGAGGAC 
GCCTTGTGGG AGAATGTGGA GTGTAACCGG CACATGCTCA GCCGCTACAT CAACCCCGCC 
AAGCTCACAC CCTACCTGCG TCAGTGTAAG GTCATTGATG AGCAGGATGA AGACGAAGTG 
CTTAATGCTC CTATGCTGCC GTCCAAGATC AACCGGGCAG GCCGGCTGTT GGACATTCTA 
CATACCAAGG GGCAAAGGGG CTATGTGGTC TTCTTGGAGA GCCTGGAATT TTATTACCCC 
GAGCTGTACA AACTGGTGAC TGGAAAAGAG CCCACTCGGA GATTCTCCAC TATTGTGGTG 
GAGGAGGGCC ACGAGGGCCT CACGCACTTC CTGATGAACG AGGTCATCAA GCTACAGCAG 
CAGATGAAGG CGAAGGACCT GCAACGCTGC GAGCTGCTGG CCAGGTTGCG GCAGCTGGAG 
GATGAGAAGA AGCAGATGAC GCTGACGCGC GTGGAGCTGC TGACCTTCCA GGAGCGGTAC 
TACAAGATGA AGGAAGAGCG GGACAGCTAC AATGACGAGC TGGTCAAGGT GAAGGACGAC 
AACTACAACT TAGCCATGCG CTACGCACAG CTCAGTGAGG AGAAGAACAT GGCGGTCATG 
AGGAGCCGAG ACCTCCAACT CGAGGTGAGG GGTGCCCAAG GGCTACTCTG CCAGGGTGAC 
CCAGGGCAAA CAAATGTCAC CGGGGCTCAA GTCCCCCATA AAGCAGGTAC AGGCACATGC 
ACATGGTCTG TCAGAGCTTC GTGCCAGCCA GGTGAGAGGG AATGGAGGAC ACAGGGCCTC 
TGGGGGTCCT GGGTCCACCA TGCGCCTGCA CAGGTACCCA TAGTGCTTAG CGCTACGGTT 
CAGCGCCTAC GTCCCCTATG CGCATGGGCA GACATGCGCA CAAGGACGGA CCCAGTGCGG 
CTTTCCACCT CTGGGTCCAG ATTGACCTTG TGCATGCGCA CGCAGACCCG GGAAGTGAGA 
GCTCACAAGC GGCTCCTGCT GCGAGACATG CAGATGAGGA GAGGAGCTGA TGCGCCCTCC 
ATGGCCTGCA GCGGCTGTAG TGGGACTGGC AAGGGCCATG GGAGTGAGGG GGTGAAGGGT 
CTTTATCCCA TCCCCACCCT CAACCCCGGC TTCCCCTTCA CCAGGGTACC TTTCCAGAGA 
GAACTTCCTG AACATGAGGT TGACCTGCTC CAGGTCATAG GCATCCAGGC CCTCGGATTG 
GACCCTCCTG GATCTGAGAG GCACGTACCG TCCAGGTCTA AGGCGTCAAA CCCGCCGCTG 
TCATTGTCTT CTTCGACTGT GCTGCAAGAC ACAAGGGAGG GCAGGGAAAG CATGCGTTGC 
TTCAAGGCGC AGGTGGCTTT GGTGCAGACG CCACATGTGG CTTCTGAAAG CTGCTTTCAA 
CACCTGCCCC CGGCTGGCCA GAGGGAGCCC CCACAACACA GCTGCTGGTG GAGGGGCTGG 
CGTGGTCTTT GTTCGGGGAG AGATGATTTT TTTCCCAATG TACAGAGAGC GGCCTCGCCC 
CTGCGGCTCT GCTGCCTGTG GAGCGGGGAG ACAAACACTG TCTCTGCTCT CCAGCTAGAA 
GGCTGCATCC GAGGCGAGAG GCAGAGTGTC CCCTTGGACA CATGCACCAA AGAGGAAGCC 
CACTGGACCA TCCAGAGGTG CAGCGGCCCC GTCACGCTGC ACTACAAGGT GAACCACGAA 
GGGTACCGGA AGCTGGTGAA GGACATGGAG GATGGCCTGA TCACGTCGGG GGACTCATTC 
TACATCCGGC TGAACCTGAA CATCTCCAGC CAGCTGGACG CCTGCACCAT GTCCCTGAAG 
TGTGACGATG TTGTGCACGT CCGTGACACC ATGTACCAGG ACAGGCACGA GTGGCTGTGT 
GCGCGCGTCG ACCCTTTCAC AGATCACGAC CTGGACATGG GCACCATTCC CAGCTACAGC 
CGAGCCCAGC AGCTCCTCCT AGTCAAACTG CAACGCCTGA TGCACCGGGG CAGCCGGGAG 
GAGGTGGACG GCACCCACCA CACCCTGCGG GCACTCCGGA ACACCCTGCA GCCGGAAGAA 
GCGCTTTCAA CAAGCGACCC CCGGGTCAGT CCCCGTCTCT CCCGAGCAAG CTTCCTTTTT 
GGCCAGCTCC TTCAGTTCGT CAGCAGGTCC GAGAACAAGT ATAAGCGAAT GAACAGCAAC 
GAGAGGGTCC GCATCATCTC GGGAAGCCCG CTAGGGAGCC TGGCCCGGTC CTCGCTGGAC 
GCCACCAAGC TCTTGACTGA GAAGCAGGAA GAGCTGGACC CCGAGAGCGA GCTCGGCAAG 
AACCTCAGCC TCATCCCCTA CAGCCTAGTA CGCGCCTTCT ACTGCGAGCG CCGCCGGCCC 
GTGCTCTTCA CGCCCACCGT GCTGGCCAAA ACGCTGGTTC AGAGGCTGCT CAACTCGGGA 
GGTGCCATGG AGTTCACCAT CTGCAAGTCA GATATCATCA CAAGAGATGA GTTCCTCAGA 
AGGCAGAAGA CAGAGACCAT CATCTACTCC CGAGAGAAGA ACCCCAACAC GTTCGAATGC 
ATCGCCCCTG CCAACATTGA AGCTGTGTCC GCCAAGAACA AGCACTGCCT GCTGGAGGCT 
GGGATCGGCT GCACGAGGGA CTTGATCAAG TCCAACATCT ACCCCATCGT GCTTTTCATC 
CGGGTGTGTG AGAAGAACAT CAAGAGGTTC AGAAAGCTGC TGCCCCGGCC TGAGACCGAG 
GAGGAGTTCC TGCGCGTGTG CCGGCTGAAG GAGAAGGAGC TGGAGGCCCT GCCGTGCCTG 
TATGCCACGG TAGAACCCGA CATGTGGGGC AGCGTAGAGG AGCTGCTCCG CGTTGTCAAG 
GACAAGATTG GCGAGGAGCA GCGCAAGACC ATCTGGGTGG ACGAGGACCA GCTGTGA

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

RefSeq	XP_030787872.1
CDS	401..3337
Translation	MPGGGPEMDDYMETLKDEEDALWENVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNAPMLPSKINRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTGKEPTRRFSTIVVEEGHEGLTHFLMNEVIKLQQQMKAKDLQRCELLARLRQLEDEKKQMTLTRVELLTFQERYYKMKEERDSYNDELVKVKDDNYNLAMRYAQLSEEKNMAVMRSRDLQLEVRGAQGLLCQGDPGQTNVTGAQVPHKAGTGTCTWSVRASCQPGEREWRTQGLWGSWVHHAPAQVPIVLSATVQRLRPLCAWADMRTRTDPVRLSTSGSRLTLCMRTQTREVRAHKRLLLRDMQMRRGADAPSMACSGCSGTGKGHGSEGVKGLYPIPTLNPGFPFTRVPFQRELPEHEVDLLQVIGIQALGLDPPGSERHVPSRSKASNPPLSLSSSTVLQDTREGRESMRCFKAQVALVQTPHVASESCFQHLPPAGQREPPQHSCWWRGWRGLCSGRDDFFPNVQRAASPLRLCCLWSGETNTVSALQLEGCIRGERQSVPLDTCTKEEAHWTIQRCSGPVTLHYKVNHEGYRKLVKDMEDGLITSGDSFYIRLNLNISSQLDACTMSLKCDDVVHVRDTMYQDRHEWLCARVDPFTDHDLDMGTIPSYSRAQQLLLVKLQRLMHRGSREEVDGTHHTLRALRNTLQPEEALSTSDPRVSPRLSRASFLFGQLLQFVSRSENKYKRMNSNERVRIISGSPLGSLARSSLDATKLLTEKQEELDPESELGKNLSLIPYSLVRAFYCERRRPVLFTPTVLAKTLVQRLLNSGGAMEFTICKSDIITRDEFLRRQKTETIIYSREKNPNTFECIAPANIEAVSAKNKHCLLEAGIGCTRDLIKSNIYPIVLFIRVCEKNIKRFRKLLPRPETEEEFLRVCRLKEKELEALPCLYATVEPDMWGSVEELLRVVKDKIGEEQRKTIWVDEDQL

Target ORF information:

RefSeq Version	XM_030932012.1
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Definition	Rhinopithecus roxellana caspase recruitment domain family member 11 (CARD11), mRNA.

Target ORF information:

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

XM_030932012.1

ORF Insert Sequence:

ATGCCAGGAG GAGGGCCAGA GATGGATGAC TACATGGAGA CGCTGAAGGA TGAAGAGGAC 
GCCTTGTGGG AGAATGTGGA GTGTAACCGG CACATGCTCA GCCGCTACAT CAACCCCGCC 
AAGCTCACAC CCTACCTGCG TCAGTGTAAG GTCATTGATG AGCAGGATGA AGACGAAGTG 
CTTAATGCTC CTATGCTGCC GTCCAAGATC AACCGGGCAG GCCGGCTGTT GGACATTCTA 
CATACCAAGG GGCAAAGGGG CTATGTGGTC TTCTTGGAGA GCCTGGAATT TTATTACCCC 
GAGCTGTACA AACTGGTGAC TGGAAAAGAG CCCACTCGGA GATTCTCCAC TATTGTGGTG 
GAGGAGGGCC ACGAGGGCCT CACGCACTTC CTGATGAACG AGGTCATCAA GCTACAGCAG 
CAGATGAAGG CGAAGGACCT GCAACGCTGC GAGCTGCTGG CCAGGTTGCG GCAGCTGGAG 
GATGAGAAGA AGCAGATGAC GCTGACGCGC GTGGAGCTGC TGACCTTCCA GGAGCGGTAC 
TACAAGATGA AGGAAGAGCG GGACAGCTAC AATGACGAGC TGGTCAAGGT GAAGGACGAC 
AACTACAACT TAGCCATGCG CTACGCACAG CTCAGTGAGG AGAAGAACAT GGCGGTCATG 
AGGAGCCGAG ACCTCCAACT CGAGGTGAGG GGTGCCCAAG GGCTACTCTG CCAGGGTGAC 
CCAGGGCAAA CAAATGTCAC CGGGGCTCAA GTCCCCCATA AAGCAGGTAC AGGCACATGC 
ACATGGTCTG TCAGAGCTTC GTGCCAGCCA GGTGAGAGGG AATGGAGGAC ACAGGGCCTC 
TGGGGGTCCT GGGTCCACCA TGCGCCTGCA CAGGTACCCA TAGTGCTTAG CGCTACGGTT 
CAGCGCCTAC GTCCCCTATG CGCATGGGCA GACATGCGCA CAAGGACGGA CCCAGTGCGG 
CTTTCCACCT CTGGGTCCAG ATTGACCTTG TGCATGCGCA CGCAGACCCG GGAAGTGAGA 
GCTCACAAGC GGCTCCTGCT GCGAGACATG CAGATGAGGA GAGGAGCTGA TGCGCCCTCC 
ATGGCCTGCA GCGGCTGTAG TGGGACTGGC AAGGGCCATG GGAGTGAGGG GGTGAAGGGT 
CTTTATCCCA TCCCCACCCT CAACCCCGGC TTCCCCTTCA CCAGGGTACC TTTCCAGAGA 
GAACTTCCTG AACATGAGGT TGACCTGCTC CAGGTCATAG GCATCCAGGC CCTCGGATTG 
GACCCTCCTG GATCTGAGAG GCACGTACCG TCCAGGTCTA AGGCGTCAAA CCCGCCGCTG 
TCATTGTCTT CTTCGACTGT GCTGCAAGAC ACAAGGGAGG GCAGGGAAAG CATGCGTTGC 
TTCAAGGCGC AGGTGGCTTT GGTGCAGACG CCACATGTGG CTTCTGAAAG CTGCTTTCAA 
CACCTGCCCC CGGCTGGCCA GAGGGAGCCC CCACAACACA GCTGCTGGTG GAGGGGCTGG 
CGTGGTCTTT GTTCGGGGAG AGATGATTTT TTTCCCAATG TACAGAGAGC GGCCTCGCCC 
CTGCGGCTCT GCTGCCTGTG GAGCGGGGAG ACAAACACTG TCTCTGCTCT CCAGCTAGAA 
GGCTGCATCC GAGGCGAGAG GCAGAGTGTC CCCTTGGACA CATGCACCAA AGAGGAAGCC 
CACTGGACCA TCCAGAGGTG CAGCGGCCCC GTCACGCTGC ACTACAAGGT GAACCACGAA 
GGGTACCGGA AGCTGGTGAA GGACATGGAG GATGGCCTGA TCACGTCGGG GGACTCATTC 
TACATCCGGC TGAACCTGAA CATCTCCAGC CAGCTGGACG CCTGCACCAT GTCCCTGAAG 
TGTGACGATG TTGTGCACGT CCGTGACACC ATGTACCAGG ACAGGCACGA GTGGCTGTGT 
GCGCGCGTCG ACCCTTTCAC AGATCACGAC CTGGACATGG GCACCATTCC CAGCTACAGC 
CGAGCCCAGC AGCTCCTCCT AGTCAAACTG CAACGCCTGA TGCACCGGGG CAGCCGGGAG 
GAGGTGGACG GCACCCACCA CACCCTGCGG GCACTCCGGA ACACCCTGCA GCCGGAAGAA 
GCGCTTTCAA CAAGCGACCC CCGGGTCAGT CCCCGTCTCT CCCGAGCAAG CTTCCTTTTT 
GGCCAGCTCC TTCAGTTCGT CAGCAGGTCC GAGAACAAGT ATAAGCGAAT GAACAGCAAC 
GAGAGGGTCC GCATCATCTC GGGAAGCCCG CTAGGGAGCC TGGCCCGGTC CTCGCTGGAC 
GCCACCAAGC TCTTGACTGA GAAGCAGGAA GAGCTGGACC CCGAGAGCGA GCTCGGCAAG 
AACCTCAGCC TCATCCCCTA CAGCCTAGTA CGCGCCTTCT ACTGCGAGCG CCGCCGGCCC 
GTGCTCTTCA CGCCCACCGT GCTGGCCAAA ACGCTGGTTC AGAGGCTGCT CAACTCGGGA 
GGTGCCATGG AGTTCACCAT CTGCAAGTCA GATATCATCA CAAGAGATGA GTTCCTCAGA 
AGGCAGAAGA CAGAGACCAT CATCTACTCC CGAGAGAAGA ACCCCAACAC GTTCGAATGC 
ATCGCCCCTG CCAACATTGA AGCTGTGTCC GCCAAGAACA AGCACTGCCT GCTGGAGGCT 
GGGATCGGCT GCACGAGGGA CTTGATCAAG TCCAACATCT ACCCCATCGT GCTTTTCATC 
CGGGTGTGTG AGAAGAACAT CAAGAGGTTC AGAAAGCTGC TGCCCCGGCC TGAGACCGAG 
GAGGAGTTCC TGCGCGTGTG CCGGCTGAAG GAGAAGGAGC TGGAGGCCCT GCCGTGCCTG 
TATGCCACGG TAGAACCCGA CATGTGGGGC AGCGTAGAGG AGCTGCTCCG CGTTGTCAAG 
GACAAGATTG GCGAGGAGCA GCGCAAGACC ATCTGGGTGG ACGAGGACCA GCTGTGA

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

CARD11 ( XM_010366673.1 ) cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey) -> XP_010364975.1 Rhinopithecus roxellana caspase recruitment domain family, member 11 (CARD11), mRNA.

Price & Availability↑

CloneID	ORh141324
Clone ID Related Accession (Same CDS sequence)	XM_010366673.1
Accession Version	XM_010366673.1 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	2014-11-20
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Product	caspase recruitment domain-containing protein 11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010805701.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rhinopithecus roxellana 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##

ATGCCAGGAG GAGGGCCAGA GATGGATGAC TACATGGAGA CGCTGAAGGA TGAAGAGGAT 
GCCTTGTGGG AGAATGTGGA GTGTAACCGG CACATGCTCA GCCGCTACAT CAACCCCGCC 
AAGCTCACAC CCTACCTGCG TCAGTGTAAG GTCATTGATG AGCAGGATGA AGACGAAGTG 
CTTAATGCTC CTATGCTGCC GTCCAAGATC AACCGGGCAG GCCGGCTGTT GGACATTCTA 
CATACCAAGG GGCAAAGGGG CTATGTGGTC TTCTTGGAGA GCCTGGAATT TTATTACCCC 
GAGCTGTACA AACTGGTGAC TGGAAAAGAG CCCACTCGGA GATTCTCCAC TATTGTGGTG 
GAGGAGGGCC ACGAGGGCCT CACGCACTTC CTGATGAACG AGGTCATCAA GCTACAGCAG 
CAGATGAAGG CGAAGGACCT GCAACGCTGC GAGCTGCTGG CCAGGTTGCG GCAGCTGGAG 
GATGAGAAGA AGCAGATGAC GCTGACGCGC GTGGAGCTGC TGACCTTCCA GGAGCGGTAC 
TACAAGATGA AGGAAGAGCG GGACAGCTAC AATGACGAGC TGGTCAAGGT GAAGGACGAC 
AACTACAACT TAGCCATGCG CTACGCACAG CTCAGTGAGG AGAAGAACAT GGCGGTCATG 
AGGAGCCGAG ACCTCCAACT CGAGATCGAT CAGCTAAAGC ACCGGTTGAA TAAGATGGAG 
GAGGAGTGTA AGCTGGAGAG AAATCAGTCT CTGAAACTGA AGAATGACAT TGAAAATCGG 
CCCAAGAAGG AGCAAGTTCT GGAACTGGAG CGGGAGAATG AAATGTTGAA GACCAAAAAC 
CAGGAGCTGC AGTCCATCAT CCAGGCTGGG AAGCGCAGCC TGCCAGACTC GGACAAGGCC 
ATCCTGGACA TCCTGGAACA CGACCGCAAG GAGGCCCTGG AGGACCGGCA GGAGCTGGTC 
AACAGGATCT ACAACCTGCA GGAGGAGGCC CGCCAGGCGG AGGAGCTGCG GGACAAGTAC 
CTGGAGGAGA AGGAGGACCT GGAGCTCAAG TGCTCGACCC TGGGGAAGGA CTGTGAAATG 
TACAAGCACC GGATGAATAC GGTCATGCTG CAGCTGGAGG AGGTGGAGCG GGAACGGGAC 
CAGGCCTTCC ACTCCCGAGA CGAAGCCCAG ACGCAGTACT CGCAGTGCTT AATCGAAAAG 
GACAAATACA GGAAGCAGAT CCGCGAGCTG GAGGAGAAGA ACGACGAGAT GAGGATCGAG 
ATGGTGCGGC GGGAGGCCTG CATCGTCAAC CTGGAGAGCA AGCTCCGGCG CCTCTCCAAG 
GACAGCAACA ACCTGGACCA GAGTCTGCCC AGGAACCTGC CAGTAACCAT CATCTCTCAG 
GACTTTGGGG ACGCCAGCCC CAGGACCAAT GGTCAAGAAG CCGACGATTC CTCCACCTCG 
GAGGAGTCAC CCGAAGACAG CAAGTACTTC CTGCCCTACC ACCCGCCCCA GCGCAGGATG 
AACCTGAAGG GCATCCAGCT GCAGAGAGCC AAATCCCCCA TCAGCCTGAA GCGAACATCA 
GATTTTCAAG CCAAGAGCCA TGAGGAAGAA GGCACGGATG CCAGCCCCAG CTCCTGTGGA 
TCTCTGCCCA TCACCAACTC CTTCACCAAG ATGCAGCCTC CCCGGAGCCG CAGCAGCATC 
ATGTCAATCA CCGCCGAGCC CCCAGGAAAC GACTCCATCG TCAGACGCTA CAAGGAGGAC 
GCGCCCCATC GCAGCACAGT CGAAGAAGAC AATGACAGCG GCGGGTTTGA CGCCTTAGAC 
CTGGACGATG ACAGTCACGA ACGCTACTCC TTCGGACCCT CCTCCGTTCA CTCCTCCTCC 
TCCTCCCACC AATCCGAGGG CCTGGATGCC TATGACCTGG AGCAGGTCAA CCTCATGTTC 
AGGAAGTTCT CTCTGGAAAG ACCCTTCCGG CCTTCGGTCA CCTCCGTGGG GCATGTGCGG 
GGCCCAGGGC CCTCAGTGCA GCACACGACG TTGAACGGCG ACAGCCTCAC CTCCCAGCTC 
ACCCTGCTGG GGGGCAACGC GCGAGGGAGC TTCGTGCACT CAGTCAAGCC TGGCTCCCTG 
GCCGAGAAAG CCGGCCTCCG CGAGGGCCAC CAGCTGCTGC TGCTAGAAGG CTGCATCCGA 
GGCGAGAGGC AGAGTGTCCC CTTGGACACA TGCACCAAAG AGGAAGCCCA CTGGACCATC 
CAGAGGTGCA GCGGCCCCGT CACGCTGCAC TACAAGGTGA ACCACGAAGG GTACCGGAAG 
CTGGTGAAGG ACATGGAGGA TGGCCTGATC ACGTCGGGGG ACTCATTCTA CATCCGGCTG 
AACCTGAACA TCTCCAGCCA GCTGGACGCC TGCACCATGT CCCTGAAGTG TGACGATGTT 
GTGCACGTCC GTGACACCAT GTACCAGGAC AGGCACGAGT GGCTGTGTGC GCGCGTCGAC 
CCTTTCACAG ATCACGACCT GGACATGGGC ACCATTCCCA GCTACAGCCG AGCCCAGCAG 
CTCCTCCTAG TCAAACTGCA ACGCCTGATG CACCGGGGCA GCCGGGAGGA GGTGGACGGC 
ACCCACCACA CCCTGCGGGC ACTCCGGAAC ACCCTGCAGC CGGAAGAAGC GCTTTCAACA 
AGCGACCCCC GGGTCAGTCC CCGTCTCTCC CGAGCAAGCT TCCTTTTTGG CCAGCTCCTT 
CAGTTCGTCA GCAGGTCCGA GAACAAGTAT AAGCGAATGA ACAGCAACGA GAGGGTCCGC 
ATCATCTCGG GAAGCCCGCT AGGGAGCCTG GCCCGGTCCT CGCTGGACGC CACCAAGCTC 
TTGACTGAGA AGCAGGAAGA GCTGGACCCC GAGAGCGAGC TCGGCAAGAA CCTCAGCCTC 
ATCCCCTACA GCCTAGTACG CGCCTTCTAC TGCGAGCGCC GCCGGCCCGT GCTCTTCACG 
CCCACCGTGC TGGCCAAAAC GCTGGTTCAG AGGCTGCTCA ACTCGGGAGG TGCCATGGAG 
TTCACCATCT GCAAGTCAGA TATCATCACA AGAGATGAGT TCCTCAGAAG GCAGAAGACA 
GAGACCATCA TCTACTCCCG AGAGAAGAAC CCCAACACGT TCGAATGCAT CGCCCCTGCC 
AACATTGAAG CTGTGTCCGC CAAGAACAAG CACTGCCTGC TGGAGGCTGG GATCGGCTGC 
ACGAGGGACT TGATCAAGTC CAACATCTAC CCCATCGTGC TTTTCATCCG GGTGTGTGAG 
AAGAACATCA AGAGGTTCAG AAAGCTGCTG CCCCGGCCTG AGACCGAGGA GGAGTTCCTG 
CGCGTGTGCC GGCTGAAGGA GAAGGAGCTG GAGGCCCTGC CGTGCCTGTA TGCCACGGTA 
GAACCCGACA TGTGGGGCAG CGTAGAGGAG CTGCTCCGCG TTGTCAAGGA CAAGATTGGC 
GAGGAGCAGC GCAAGACCAT CTGGGTGGAC GAGGACCAGC TGTGA

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

RefSeq	XP_010364975.1
CDS	401..3865
Translation	MPGGGPEMDDYMETLKDEEDALWENVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNAPMLPSKINRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTGKEPTRRFSTIVVEEGHEGLTHFLMNEVIKLQQQMKAKDLQRCELLARLRQLEDEKKQMTLTRVELLTFQERYYKMKEERDSYNDELVKVKDDNYNLAMRYAQLSEEKNMAVMRSRDLQLEIDQLKHRLNKMEEECKLERNQSLKLKNDIENRPKKEQVLELERENEMLKTKNQELQSIIQAGKRSLPDSDKAILDILEHDRKEALEDRQELVNRIYNLQEEARQAEELRDKYLEEKEDLELKCSTLGKDCEMYKHRMNTVMLQLEEVERERDQAFHSRDEAQTQYSQCLIEKDKYRKQIRELEEKNDEMRIEMVRREACIVNLESKLRRLSKDSNNLDQSLPRNLPVTIISQDFGDASPRTNGQEADDSSTSEESPEDSKYFLPYHPPQRRMNLKGIQLQRAKSPISLKRTSDFQAKSHEEEGTDASPSSCGSLPITNSFTKMQPPRSRSSIMSITAEPPGNDSIVRRYKEDAPHRSTVEEDNDSGGFDALDLDDDSHERYSFGPSSVHSSSSSHQSEGLDAYDLEQVNLMFRKFSLERPFRPSVTSVGHVRGPGPSVQHTTLNGDSLTSQLTLLGGNARGSFVHSVKPGSLAEKAGLREGHQLLLLEGCIRGERQSVPLDTCTKEEAHWTIQRCSGPVTLHYKVNHEGYRKLVKDMEDGLITSGDSFYIRLNLNISSQLDACTMSLKCDDVVHVRDTMYQDRHEWLCARVDPFTDHDLDMGTIPSYSRAQQLLLVKLQRLMHRGSREEVDGTHHTLRALRNTLQPEEALSTSDPRVSPRLSRASFLFGQLLQFVSRSENKYKRMNSNERVRIISGSPLGSLARSSLDATKLLTEKQEELDPESELGKNLSLIPYSLVRAFYCERRRPVLFTPTVLAKTLVQRLLNSGGAMEFTICKSDIITRDEFLRRQKTETIIYSREKNPNTFECIAPANIEAVSAKNKHCLLEAGIGCTRDLIKSNIYPIVLFIRVCEKNIKRFRKLLPRPETEEEFLRVCRLKEKELEALPCLYATVEPDMWGSVEELLRVVKDKIGEEQRKTIWVDEDQL

Target ORF information:

RefSeq Version	XM_010366673.1
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Definition	Rhinopithecus roxellana caspase recruitment domain family, member 11 (CARD11), mRNA.

Target ORF information:

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

XM_010366673.1

ORF Insert Sequence:

ATGCCAGGAG GAGGGCCAGA GATGGATGAC TACATGGAGA CGCTGAAGGA TGAAGAGGAT 
GCCTTGTGGG AGAATGTGGA GTGTAACCGG CACATGCTCA GCCGCTACAT CAACCCCGCC 
AAGCTCACAC CCTACCTGCG TCAGTGTAAG GTCATTGATG AGCAGGATGA AGACGAAGTG 
CTTAATGCTC CTATGCTGCC GTCCAAGATC AACCGGGCAG GCCGGCTGTT GGACATTCTA 
CATACCAAGG GGCAAAGGGG CTATGTGGTC TTCTTGGAGA GCCTGGAATT TTATTACCCC 
GAGCTGTACA AACTGGTGAC TGGAAAAGAG CCCACTCGGA GATTCTCCAC TATTGTGGTG 
GAGGAGGGCC ACGAGGGCCT CACGCACTTC CTGATGAACG AGGTCATCAA GCTACAGCAG 
CAGATGAAGG CGAAGGACCT GCAACGCTGC GAGCTGCTGG CCAGGTTGCG GCAGCTGGAG 
GATGAGAAGA AGCAGATGAC GCTGACGCGC GTGGAGCTGC TGACCTTCCA GGAGCGGTAC 
TACAAGATGA AGGAAGAGCG GGACAGCTAC AATGACGAGC TGGTCAAGGT GAAGGACGAC 
AACTACAACT TAGCCATGCG CTACGCACAG CTCAGTGAGG AGAAGAACAT GGCGGTCATG 
AGGAGCCGAG ACCTCCAACT CGAGATCGAT CAGCTAAAGC ACCGGTTGAA TAAGATGGAG 
GAGGAGTGTA AGCTGGAGAG AAATCAGTCT CTGAAACTGA AGAATGACAT TGAAAATCGG 
CCCAAGAAGG AGCAAGTTCT GGAACTGGAG CGGGAGAATG AAATGTTGAA GACCAAAAAC 
CAGGAGCTGC AGTCCATCAT CCAGGCTGGG AAGCGCAGCC TGCCAGACTC GGACAAGGCC 
ATCCTGGACA TCCTGGAACA CGACCGCAAG GAGGCCCTGG AGGACCGGCA GGAGCTGGTC 
AACAGGATCT ACAACCTGCA GGAGGAGGCC CGCCAGGCGG AGGAGCTGCG GGACAAGTAC 
CTGGAGGAGA AGGAGGACCT GGAGCTCAAG TGCTCGACCC TGGGGAAGGA CTGTGAAATG 
TACAAGCACC GGATGAATAC GGTCATGCTG CAGCTGGAGG AGGTGGAGCG GGAACGGGAC 
CAGGCCTTCC ACTCCCGAGA CGAAGCCCAG ACGCAGTACT CGCAGTGCTT AATCGAAAAG 
GACAAATACA GGAAGCAGAT CCGCGAGCTG GAGGAGAAGA ACGACGAGAT GAGGATCGAG 
ATGGTGCGGC GGGAGGCCTG CATCGTCAAC CTGGAGAGCA AGCTCCGGCG CCTCTCCAAG 
GACAGCAACA ACCTGGACCA GAGTCTGCCC AGGAACCTGC CAGTAACCAT CATCTCTCAG 
GACTTTGGGG ACGCCAGCCC CAGGACCAAT GGTCAAGAAG CCGACGATTC CTCCACCTCG 
GAGGAGTCAC CCGAAGACAG CAAGTACTTC CTGCCCTACC ACCCGCCCCA GCGCAGGATG 
AACCTGAAGG GCATCCAGCT GCAGAGAGCC AAATCCCCCA TCAGCCTGAA GCGAACATCA 
GATTTTCAAG CCAAGAGCCA TGAGGAAGAA GGCACGGATG CCAGCCCCAG CTCCTGTGGA 
TCTCTGCCCA TCACCAACTC CTTCACCAAG ATGCAGCCTC CCCGGAGCCG CAGCAGCATC 
ATGTCAATCA CCGCCGAGCC CCCAGGAAAC GACTCCATCG TCAGACGCTA CAAGGAGGAC 
GCGCCCCATC GCAGCACAGT CGAAGAAGAC AATGACAGCG GCGGGTTTGA CGCCTTAGAC 
CTGGACGATG ACAGTCACGA ACGCTACTCC TTCGGACCCT CCTCCGTTCA CTCCTCCTCC 
TCCTCCCACC AATCCGAGGG CCTGGATGCC TATGACCTGG AGCAGGTCAA CCTCATGTTC 
AGGAAGTTCT CTCTGGAAAG ACCCTTCCGG CCTTCGGTCA CCTCCGTGGG GCATGTGCGG 
GGCCCAGGGC CCTCAGTGCA GCACACGACG TTGAACGGCG ACAGCCTCAC CTCCCAGCTC 
ACCCTGCTGG GGGGCAACGC GCGAGGGAGC TTCGTGCACT CAGTCAAGCC TGGCTCCCTG 
GCCGAGAAAG CCGGCCTCCG CGAGGGCCAC CAGCTGCTGC TGCTAGAAGG CTGCATCCGA 
GGCGAGAGGC AGAGTGTCCC CTTGGACACA TGCACCAAAG AGGAAGCCCA CTGGACCATC 
CAGAGGTGCA GCGGCCCCGT CACGCTGCAC TACAAGGTGA ACCACGAAGG GTACCGGAAG 
CTGGTGAAGG ACATGGAGGA TGGCCTGATC ACGTCGGGGG ACTCATTCTA CATCCGGCTG 
AACCTGAACA TCTCCAGCCA GCTGGACGCC TGCACCATGT CCCTGAAGTG TGACGATGTT 
GTGCACGTCC GTGACACCAT GTACCAGGAC AGGCACGAGT GGCTGTGTGC GCGCGTCGAC 
CCTTTCACAG ATCACGACCT GGACATGGGC ACCATTCCCA GCTACAGCCG AGCCCAGCAG 
CTCCTCCTAG TCAAACTGCA ACGCCTGATG CACCGGGGCA GCCGGGAGGA GGTGGACGGC 
ACCCACCACA CCCTGCGGGC ACTCCGGAAC ACCCTGCAGC CGGAAGAAGC GCTTTCAACA 
AGCGACCCCC GGGTCAGTCC CCGTCTCTCC CGAGCAAGCT TCCTTTTTGG CCAGCTCCTT 
CAGTTCGTCA GCAGGTCCGA GAACAAGTAT AAGCGAATGA ACAGCAACGA GAGGGTCCGC 
ATCATCTCGG GAAGCCCGCT AGGGAGCCTG GCCCGGTCCT CGCTGGACGC CACCAAGCTC 
TTGACTGAGA AGCAGGAAGA GCTGGACCCC GAGAGCGAGC TCGGCAAGAA CCTCAGCCTC 
ATCCCCTACA GCCTAGTACG CGCCTTCTAC TGCGAGCGCC GCCGGCCCGT GCTCTTCACG 
CCCACCGTGC TGGCCAAAAC GCTGGTTCAG AGGCTGCTCA ACTCGGGAGG TGCCATGGAG 
TTCACCATCT GCAAGTCAGA TATCATCACA AGAGATGAGT TCCTCAGAAG GCAGAAGACA 
GAGACCATCA TCTACTCCCG AGAGAAGAAC CCCAACACGT TCGAATGCAT CGCCCCTGCC 
AACATTGAAG CTGTGTCCGC CAAGAACAAG CACTGCCTGC TGGAGGCTGG GATCGGCTGC 
ACGAGGGACT TGATCAAGTC CAACATCTAC CCCATCGTGC TTTTCATCCG GGTGTGTGAG 
AAGAACATCA AGAGGTTCAG AAAGCTGCTG CCCCGGCCTG AGACCGAGGA GGAGTTCCTG 
CGCGTGTGCC GGCTGAAGGA GAAGGAGCTG GAGGCCCTGC CGTGCCTGTA TGCCACGGTA 
GAACCCGACA TGTGGGGCAG CGTAGAGGAG CTGCTCCGCG TTGTCAAGGA CAAGATTGGC 
GAGGAGCAGC GCAAGACCAT CTGGGTGGAC GAGGACCAGC TGTGA