LOC104664769 cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC104664769
Entrez Gene ID	104664769
Full Name	alpha-actinin-3
Gene Type	protein-coding
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010366410.2	XP_010364712.2	alpha-actinin-3
XM_010366410.1	XP_010364712.1	alpha-actinin-3

Pathways from BioSystems
Gene Ontology

The following LOC104664769 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC104664769 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
ORh250891	XM_010366410.2 Latest version!	Rhinopithecus roxellana actinin alpha 3 (ACTN3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
ORh141150	XM_010366410.1 Latest version!	Rhinopithecus roxellana alpha-actinin-3 (LOC104664769), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$510.30 $729.00

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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** 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)

LOC104664769 ( XM_010366410.2 ) cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey) -> XP_010364712.2 Rhinopithecus roxellana actinin alpha 3 (ACTN3), mRNA.

Price & Availability↑

CloneID	ORh250891
Clone ID Related Accession (Same CDS sequence)	XM_010366410.2
Accession Version	XM_010366410.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2706bp) 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	alpha-actinin-3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044563.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 25, 2019 this sequence version replaced XM_010366410.1. ##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##

ATGATGATGG TTATGCAGCC CGAGGGTCTG GGGGCCCGGG AGGGGCCCTT CGCGGGCGGC 
GGCGGGGGCG GCGAGTACAT GGAACAGGAG GAGGATTGGG ACCGCGACCT GCTGCTGGAC 
CCGGCCTGGG AGAAGCAGCA GCGGAAAACC TTCACTGCCT GGTGCAACTC ACACCTGCGC 
AAAGCGGGCA CCCAGATTGA GAACATCGAG GACGATTTCC GCAATGGCCT CAAACTCATG 
CTGCTCCTGG AGGTCATTTC AGGAGAGAGG CTGCCCAGGC CAGATAAAGG CAAGATGCGC 
TTCCACAAAA TCGCCAACGT TAACAAGGCC CTGGACTTCA TTGCCAGCAA GGGGGTTAAG 
CTGGTATCTA TTGGTGCTGA AGAGATCGTC GATGGGAACC TGAAGATGAC CCTGGGCATG 
ATCTGGACCA TCATCCTTCG CTTCGCCATC CAGGACATCT CTGTGGAAGA AACTTCGGCC 
AAGGAAGGCT TGCTTCTGTG GTGCCAGAGG AAGACAGCAC CGTACCGCAA CGTCAACGTG 
CAGAATTTCC ACACCAGCTG GAAGGATGGC CTGGCCCTCT GTGCCCTCAT CCACCGACAC 
CGCCCCGACC TCATCGACTA CGCCAAACTG CGAAAGGATG ACCCCATCGG CAACCTGAAC 
ACTGCCTTCG AGGTGGCAGA GAAGTACCTG GACATCCCCA AGATGTTGGA TGCAGAAGAC 
ATTGTGAACA CCCCAAAGCC GGATGAGAAG GCCATCATGA CCTATGTGTC CTGCTTCTAC 
CATGCCTTTG CCGGGGCTGA GCAGGCAGAG ACAGCTGCCA ACAGGATCTG CAAGGTGCTG 
GCGGTGAACC AGGAAAACGA GAAGCTGATG GAGGAGTATG AGAAGCTTGC CAGTGAGCTG 
CTGGAGTGGA TCCGCCGCAC CGTCCCATGG CTGGAGAACC GTGTGGGTGA GCCCAGCATG 
AGTGCCATGC AGCGCAAGCT AGAGGACTTT CGGGACTACC GGCGTCTGCA CAAGCCGCCC 
CGTGTTCAAG AAAAGTGCCA GCTGGAGATC AACTTCAATA CACTGCAGAC CAAGTTGCGG 
CTCAGCCACC GGCCTGCCTT CATGCCCTCC GAGGGCAAGC TGGTCTCGGA CATCGCCAAC 
GCCTGGCGGG GGCTGGAGCA GGTGGAAAAG GGCTATGAGG ACTGGCTGCT CTCAGAGATC 
CGACGCCTGC AGCGACTCCA GCACCTGGCC GAGAAGTTCC GGCAGAAGGC CTCCCTGCAC 
GAAGCCTGGA CCCGGGGGAA GGAGGAGATG CTGAGCCAGC GCGACTACGA TTCGGCTTCG 
CTACAGGAGG TGCGGGCGAT GCTGCGGCGC CACGAGGCCT TTGAGAGCGA CCTGGCAGCG 
CACCAGGACC GCGTGGAGCA CATTGCTGCA CTGGCCCAGG AGCTCAATGA GCTGGACTAC 
CATGAGGCGG CCTCAGTGAA CAGCCGCTGC CAGGCCATCT GCGATCAGTG GGACAACCTG 
GGCACCCTGA CCCAGAAGAG GCGGGATGCG CTAGAGCGGA TGGAGAAGCT CCTGGAGACC 
ATCGACCAGC TGCAACTGGA GTTTGCCCGG CGGGCCGCAC CCTTCAACAA CTGGCTGGAC 
AGTGCCGTGG AGGACCTGCA GGACGTGTGG CTGGTACACT CTGTGGAGGA GACCCAGAGC 
TTGCTGACAG CACATGATCA GTTCAAGGCA ACATTGCCTG AGGCTGACCG AGAGCGAGGC 
GCCATCATGG GCATCCAGGG TGAGATCCAG AAGATCTGCC AGACGTACGG GCTGCGGCCC 
TGCTCCACCA ATCCCTACAT CACCCTGAGC CCGCAGGACA TCAACACCAA CTGGGATATG 
GTCCGAAAGC TGGTGCCTAG CCGTGATCAG ACACTGCAGG AGGAGCTGGG ACGGCAGCAG 
GTAAACGAGA GGCTCCGGCG ACAGTTTGCG GCCCAGGCCA ATGCCGTTGG ACCCTGGATC 
CAGGCGAAGG TGGAGGAAGT CGGGCGGCTG GCAGCGGGGC TAGCTGGCTC TCTGGAGGAG 
CAGATGGCTG GGCTACGGCA GCAGGAGCAG AACATTATCA ACTACAAGAC TAACATTGAC 
CGGCTAGAGG GTGACCACCA GCTGCTGCAA GAGAACCTGG TGTTCGACAA TAAGCACACT 
GTCTACAGCA TGGAGCACAT CCGCGTGGGC TGGGAGCAGC TGCTCACCTC TATCGCCCGC 
ACCATCAATG AAGTGGAGAA CCAGGTACTG ACCCGAGATG CCAAGGGGCT GAGCCAGGAG 
CAGCTCAACG AGTTCCGAGC ATCCTTCAAC CACTTTGACC GGAAGAGGAA CGGGATGATG 
GAGCCCGATG ACTTCCGAGC TTGCCTCATT TCCATGGGCT ATGACTTGGG GGAAGTGGAG 
TTTGCTCGCA TCATGACCAT GGTGGACCCC AACGCAGCTG GGGTGGTGAC CTTCCAGGCC 
TTCATAGACT TCATGACCCG AGAGACAGCT GAGACTGACA CGGCTGAGCA AGTTGTGGCC 
TCCTTCAAGA TCCTGGCAGG AGACAAGAAC TACATCACCC CCGAGGAGCT GCGACGCGAG 
CTCCCCGCCG AGCAGGCCGA GTACTGCATC CGCCGTATGG TGCCCTACAA GGGATCCGGG 
GCCCCACCTG GAGCCCTGGA CTACGTGGCC TTCTCCAGTG CCCTCTATGG GGAGAGCGAC 
CTCTGA

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

RefSeq	XP_010364712.2
CDS	98..2803
Translation	MMMVMQPEGLGAREGPFAGGGGGGEYMEQEEDWDRDLLLDPAWEKQQRKTFTAWCNSHLRKAGTQIENIEDDFRNGLKLMLLLEVISGERLPRPDKGKMRFHKIANVNKALDFIASKGVKLVSIGAEEIVDGNLKMTLGMIWTIILRFAIQDISVEETSAKEGLLLWCQRKTAPYRNVNVQNFHTSWKDGLALCALIHRHRPDLIDYAKLRKDDPIGNLNTAFEVAEKYLDIPKMLDAEDIVNTPKPDEKAIMTYVSCFYHAFAGAEQAETAANRICKVLAVNQENEKLMEEYEKLASELLEWIRRTVPWLENRVGEPSMSAMQRKLEDFRDYRRLHKPPRVQEKCQLEINFNTLQTKLRLSHRPAFMPSEGKLVSDIANAWRGLEQVEKGYEDWLLSEIRRLQRLQHLAEKFRQKASLHEAWTRGKEEMLSQRDYDSASLQEVRAMLRRHEAFESDLAAHQDRVEHIAALAQELNELDYHEAASVNSRCQAICDQWDNLGTLTQKRRDALERMEKLLETIDQLQLEFARRAAPFNNWLDSAVEDLQDVWLVHSVEETQSLLTAHDQFKATLPEADRERGAIMGIQGEIQKICQTYGLRPCSTNPYITLSPQDINTNWDMVRKLVPSRDQTLQEELGRQQVNERLRRQFAAQANAVGPWIQAKVEEVGRLAAGLAGSLEEQMAGLRQQEQNIINYKTNIDRLEGDHQLLQENLVFDNKHTVYSMEHIRVGWEQLLTSIARTINEVENQVLTRDAKGLSQEQLNEFRASFNHFDRKRNGMMEPDDFRACLISMGYDLGEVEFARIMTMVDPNAAGVVTFQAFIDFMTRETAETDTAEQVVASFKILAGDKNYITPEELRRELPAEQAEYCIRRMVPYKGSGAPPGALDYVAFSSALYGESDL

Target ORF information:

RefSeq Version	XM_010366410.2
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Definition	Rhinopithecus roxellana actinin alpha 3 (ACTN3), mRNA.

Target ORF information:

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

XM_010366410.2

ORF Insert Sequence:

ATGATGATGG TTATGCAGCC CGAGGGTCTG GGGGCCCGGG AGGGGCCCTT CGCGGGCGGC 
GGCGGGGGCG GCGAGTACAT GGAACAGGAG GAGGATTGGG ACCGCGACCT GCTGCTGGAC 
CCGGCCTGGG AGAAGCAGCA GCGGAAAACC TTCACTGCCT GGTGCAACTC ACACCTGCGC 
AAAGCGGGCA CCCAGATTGA GAACATCGAG GACGATTTCC GCAATGGCCT CAAACTCATG 
CTGCTCCTGG AGGTCATTTC AGGAGAGAGG CTGCCCAGGC CAGATAAAGG CAAGATGCGC 
TTCCACAAAA TCGCCAACGT TAACAAGGCC CTGGACTTCA TTGCCAGCAA GGGGGTTAAG 
CTGGTATCTA TTGGTGCTGA AGAGATCGTC GATGGGAACC TGAAGATGAC CCTGGGCATG 
ATCTGGACCA TCATCCTTCG CTTCGCCATC CAGGACATCT CTGTGGAAGA AACTTCGGCC 
AAGGAAGGCT TGCTTCTGTG GTGCCAGAGG AAGACAGCAC CGTACCGCAA CGTCAACGTG 
CAGAATTTCC ACACCAGCTG GAAGGATGGC CTGGCCCTCT GTGCCCTCAT CCACCGACAC 
CGCCCCGACC TCATCGACTA CGCCAAACTG CGAAAGGATG ACCCCATCGG CAACCTGAAC 
ACTGCCTTCG AGGTGGCAGA GAAGTACCTG GACATCCCCA AGATGTTGGA TGCAGAAGAC 
ATTGTGAACA CCCCAAAGCC GGATGAGAAG GCCATCATGA CCTATGTGTC CTGCTTCTAC 
CATGCCTTTG CCGGGGCTGA GCAGGCAGAG ACAGCTGCCA ACAGGATCTG CAAGGTGCTG 
GCGGTGAACC AGGAAAACGA GAAGCTGATG GAGGAGTATG AGAAGCTTGC CAGTGAGCTG 
CTGGAGTGGA TCCGCCGCAC CGTCCCATGG CTGGAGAACC GTGTGGGTGA GCCCAGCATG 
AGTGCCATGC AGCGCAAGCT AGAGGACTTT CGGGACTACC GGCGTCTGCA CAAGCCGCCC 
CGTGTTCAAG AAAAGTGCCA GCTGGAGATC AACTTCAATA CACTGCAGAC CAAGTTGCGG 
CTCAGCCACC GGCCTGCCTT CATGCCCTCC GAGGGCAAGC TGGTCTCGGA CATCGCCAAC 
GCCTGGCGGG GGCTGGAGCA GGTGGAAAAG GGCTATGAGG ACTGGCTGCT CTCAGAGATC 
CGACGCCTGC AGCGACTCCA GCACCTGGCC GAGAAGTTCC GGCAGAAGGC CTCCCTGCAC 
GAAGCCTGGA CCCGGGGGAA GGAGGAGATG CTGAGCCAGC GCGACTACGA TTCGGCTTCG 
CTACAGGAGG TGCGGGCGAT GCTGCGGCGC CACGAGGCCT TTGAGAGCGA CCTGGCAGCG 
CACCAGGACC GCGTGGAGCA CATTGCTGCA CTGGCCCAGG AGCTCAATGA GCTGGACTAC 
CATGAGGCGG CCTCAGTGAA CAGCCGCTGC CAGGCCATCT GCGATCAGTG GGACAACCTG 
GGCACCCTGA CCCAGAAGAG GCGGGATGCG CTAGAGCGGA TGGAGAAGCT CCTGGAGACC 
ATCGACCAGC TGCAACTGGA GTTTGCCCGG CGGGCCGCAC CCTTCAACAA CTGGCTGGAC 
AGTGCCGTGG AGGACCTGCA GGACGTGTGG CTGGTACACT CTGTGGAGGA GACCCAGAGC 
TTGCTGACAG CACATGATCA GTTCAAGGCA ACATTGCCTG AGGCTGACCG AGAGCGAGGC 
GCCATCATGG GCATCCAGGG TGAGATCCAG AAGATCTGCC AGACGTACGG GCTGCGGCCC 
TGCTCCACCA ATCCCTACAT CACCCTGAGC CCGCAGGACA TCAACACCAA CTGGGATATG 
GTCCGAAAGC TGGTGCCTAG CCGTGATCAG ACACTGCAGG AGGAGCTGGG ACGGCAGCAG 
GTAAACGAGA GGCTCCGGCG ACAGTTTGCG GCCCAGGCCA ATGCCGTTGG ACCCTGGATC 
CAGGCGAAGG TGGAGGAAGT CGGGCGGCTG GCAGCGGGGC TAGCTGGCTC TCTGGAGGAG 
CAGATGGCTG GGCTACGGCA GCAGGAGCAG AACATTATCA ACTACAAGAC TAACATTGAC 
CGGCTAGAGG GTGACCACCA GCTGCTGCAA GAGAACCTGG TGTTCGACAA TAAGCACACT 
GTCTACAGCA TGGAGCACAT CCGCGTGGGC TGGGAGCAGC TGCTCACCTC TATCGCCCGC 
ACCATCAATG AAGTGGAGAA CCAGGTACTG ACCCGAGATG CCAAGGGGCT GAGCCAGGAG 
CAGCTCAACG AGTTCCGAGC ATCCTTCAAC CACTTTGACC GGAAGAGGAA CGGGATGATG 
GAGCCCGATG ACTTCCGAGC TTGCCTCATT TCCATGGGCT ATGACTTGGG GGAAGTGGAG 
TTTGCTCGCA TCATGACCAT GGTGGACCCC AACGCAGCTG GGGTGGTGAC CTTCCAGGCC 
TTCATAGACT TCATGACCCG AGAGACAGCT GAGACTGACA CGGCTGAGCA AGTTGTGGCC 
TCCTTCAAGA TCCTGGCAGG AGACAAGAAC TACATCACCC CCGAGGAGCT GCGACGCGAG 
CTCCCCGCCG AGCAGGCCGA GTACTGCATC CGCCGTATGG TGCCCTACAA GGGATCCGGG 
GCCCCACCTG GAGCCCTGGA CTACGTGGCC TTCTCCAGTG CCCTCTATGG GGAGAGCGAC 
CTCTGA

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

LOC104664769 ( XM_010366410.1 ) cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey) -> XP_010364712.1 Rhinopithecus roxellana alpha-actinin-3 (LOC104664769), mRNA.

Price & Availability↑

CloneID	ORh141150
Clone ID Related Accession (Same CDS sequence)	XM_010366410.1
Accession Version	XM_010366410.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2706bp) 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	alpha-actinin-3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010805298.1) 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##

ATGATGATGG TTATGCAGCC CGAGGGTCTG GGGGCCCGGG AGGGGCCCTT CGCGGGCGGC 
GGCGGGGGCG GCGAGTACAT GGAACAGGAG GAGGATTGGG ACCGCGACCT GCTGCTGGAC 
CCGGCCTGGG AGAAGCAGCA GCGGAAAACC TTCACTGCCT GGTGCAACTC ACACCTGCGC 
AAAGCGGGCA CCCAGATTGA GAACATCGAG GACGATTTCC GCAATGGCCT CAAACTCATG 
CTGCTCCTGG AGGTCATTTC AGGAGAGAGG CTGCCCAGGC CAGATAAAGG CAAGATGCGC 
TTCCACAAAA TCGCCAACGT TAACAAGGCC CTGGACTTCA TTGCCAGCAA GGGGGTTAAG 
CTGGTATCTA TTGGTGCTGA AGAGATCGTC GATGGGAACC TGAAGATGAC CCTGGGCATG 
ATCTGGACCA TCATCCTTCG CTTCGCCATC CAGGACATCT CTGTGGAAGA AACTTCGGCC 
AAGGAAGGCT TGCTTCTGTG GTGCCAGAGG AAGACAGCAC CGTACCGCAA CGTCAACGTG 
CAGAATTTCC ACACCAGCTG GAAGGATGGC CTGGCCCTCT GTGCCCTCAT CCACCGACAC 
CGCCCCGACC TCATCGACTA CGCCAAACTG CGAAAGGATG ACCCCATCGG CAACCTGAAC 
ACTGCCTTCG AGGTGGCAGA GAAGTACCTG GACATCCCCA AGATGTTGGA TGCAGAAGAC 
ATTGTGAACA CCCCAAAGCC GGATGAGAAG GCCATCATGA CCTATGTGTC CTGCTTCTAC 
CATGCCTTTG CCGGGGCTGA GCAGGCAGAG ACAGCTGCCA ACAGGATCTG CAAGGTGCTG 
GCGGTGAACC AGGAAAACGA GAAGCTGATG GAGGAGTATG AGAAGCTTGC CAGTGAGCTG 
CTGGAGTGGA TCCGCCGCAC CGTCCCATGG CTGGAGAACC GTGTGGGTGA GCCCAGCATG 
AGTGCCATGC AGCGCAAGCT AGAGGACTTT CGGGACTACC GGCGTCTGCA CAAGCCGCCC 
CGTGTTCAAG AAAAGTGCCA GCTGGAGATC AACTTCAATA CACTGCAGAC CAAGTTGCGG 
CTCAGCCACC GGCCTGCCTT CATGCCCTCC GAGGGCAAGC TGGTCTCGGA CATCGCCAAC 
GCCTGGCGGG GGCTGGAGCA GGTGGAAAAG GGCTATGAGG ACTGGCTGCT CTCAGAGATC 
CGACGCCTGC AGCGACTCCA GCACCTGGCC GAGAAGTTCC GGCAGAAGGC CTCCCTGCAC 
GAAGCCTGGA CCCGGGGGAA GGAGGAGATG CTGAGCCAGC GCGACTACGA TTCGGCTTCG 
CTACAGGAGG TGCGGGCGAT GCTGCGGCGC CACGAGGCCT TTGAGAGCGA CCTGGCAGCG 
CACCAGGACC GCGTGGAGCA CATTGCTGCA CTGGCCCAGG AGCTCAATGA GCTGGACTAC 
CATGAGGCGG CCTCAGTGAA CAGCCGCTGC CAGGCCATCT GCGATCAGTG GGACAACCTG 
GGCACCCTGA CCCAGAAGAG GCGGGATGCG CTAGAGCGGA TGGAGAAGCT CCTGGAGACC 
ATCGACCAGC TGCAACTGGA GTTTGCCCGG CGGGCCGCAC CCTTCAACAA CTGGCTGGAC 
GGTGCCGTGG AGGACCTGCA GGACGTGTGG CTGGTACACT CTGTGGAGGA GACCCAGAGC 
TTGCTGACAG CACATGATCA GTTCAAGGCA ACATTGCCTG AGGCTGACCG AGAGCGAGGC 
GCCATCATGG GCATCCAGGG TGAGATCCAG AAGATCTGCC AGACGTACGG GCTGCGGCCC 
TGCTCCACCA ATCCCTACAT CACCCTGAGC CCGCAGGACA TCAACACCAA CTGGGATATG 
GTCCGAAAGC TGGTGCCTAG CCGTGATCAG ACACTGCAGG AGGAGCTGGG ACGGCAGCAG 
GTAAACGAGA GGCTCCGGCG ACAGTTTGCG GCCCAGGCCA ATGCCGTTGG ACCCTGGATC 
CAGGCGAAGG TGGAGGAAGT CGGGCGGCTG GCAGCGGGGC TAGCTGGCTC TCTGGAGGAG 
CAGATGGCTG GGCTACGGCA GCAGGAGCAG AACATTATCA ACTACAAGAC TAACATTGAC 
CGGCTAGAGG GTGACCACCA GCTGCTGCAA GAGAACCTGG TGTTCGACAA TAAGCACACT 
GTCTACAGCA TGGAGCACAT CCGCGTGGGC TGGGAGCAGC TGCTCACCTC TATCGCCCGC 
ACCATCAATG AAGTGGAGAA CCAGGTACTG ACCCGAGATG CCAAGGGGCT GAGCCAGGAG 
CAGCTCAACG AGTTCCGAGC ATCCTTCAAC CACTTTGACC GGAAGAGGAA CGGGATGATG 
GAGCCCGATG ACTTCCGAGC TTGCCTCATT TCCATGGGCT ATGACTTGGG GGAAGTGGAG 
TTTGCTCGCA TCATGACCAT GGTGGACCCC AACGCAGCTG GGGTGGTGAC CTTCCAGGCC 
TTCATAGACT TCATGACCCG AGAGACAGCT GAGACTGACA CGGCTGAGCA AGTTGTGGCC 
TCCTTCAAGA TCCTGGCAGG AGACAAGAAC TACATCACCC CCGAGGAGCT GCGACGCGAG 
CTCCCCGCCG AGCAGGCCGA GTACTGCATC CGCCGTATGG TGCCCTACAA GGGATCCGGG 
GCCCCACCTG GAGCCCTGGA CTACGTGGCC TTCTCCAGTG CCCTCTATGG GGAGAGCGAC 
CTCTGA

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

RefSeq	XP_010364712.1
CDS	98..2803
Translation	MMMVMQPEGLGAREGPFAGGGGGGEYMEQEEDWDRDLLLDPAWEKQQRKTFTAWCNSHLRKAGTQIENIEDDFRNGLKLMLLLEVISGERLPRPDKGKMRFHKIANVNKALDFIASKGVKLVSIGAEEIVDGNLKMTLGMIWTIILRFAIQDISVEETSAKEGLLLWCQRKTAPYRNVNVQNFHTSWKDGLALCALIHRHRPDLIDYAKLRKDDPIGNLNTAFEVAEKYLDIPKMLDAEDIVNTPKPDEKAIMTYVSCFYHAFAGAEQAETAANRICKVLAVNQENEKLMEEYEKLASELLEWIRRTVPWLENRVGEPSMSAMQRKLEDFRDYRRLHKPPRVQEKCQLEINFNTLQTKLRLSHRPAFMPSEGKLVSDIANAWRGLEQVEKGYEDWLLSEIRRLQRLQHLAEKFRQKASLHEAWTRGKEEMLSQRDYDSASLQEVRAMLRRHEAFESDLAAHQDRVEHIAALAQELNELDYHEAASVNSRCQAICDQWDNLGTLTQKRRDALERMEKLLETIDQLQLEFARRAAPFNNWLDGAVEDLQDVWLVHSVEETQSLLTAHDQFKATLPEADRERGAIMGIQGEIQKICQTYGLRPCSTNPYITLSPQDINTNWDMVRKLVPSRDQTLQEELGRQQVNERLRRQFAAQANAVGPWIQAKVEEVGRLAAGLAGSLEEQMAGLRQQEQNIINYKTNIDRLEGDHQLLQENLVFDNKHTVYSMEHIRVGWEQLLTSIARTINEVENQVLTRDAKGLSQEQLNEFRASFNHFDRKRNGMMEPDDFRACLISMGYDLGEVEFARIMTMVDPNAAGVVTFQAFIDFMTRETAETDTAEQVVASFKILAGDKNYITPEELRRELPAEQAEYCIRRMVPYKGSGAPPGALDYVAFSSALYGESDL

Target ORF information:

RefSeq Version	XM_010366410.1
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Definition	Rhinopithecus roxellana alpha-actinin-3 (LOC104664769), mRNA.

Target ORF information:

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

XM_010366410.1

ORF Insert Sequence:

ATGATGATGG TTATGCAGCC CGAGGGTCTG GGGGCCCGGG AGGGGCCCTT CGCGGGCGGC 
GGCGGGGGCG GCGAGTACAT GGAACAGGAG GAGGATTGGG ACCGCGACCT GCTGCTGGAC 
CCGGCCTGGG AGAAGCAGCA GCGGAAAACC TTCACTGCCT GGTGCAACTC ACACCTGCGC 
AAAGCGGGCA CCCAGATTGA GAACATCGAG GACGATTTCC GCAATGGCCT CAAACTCATG 
CTGCTCCTGG AGGTCATTTC AGGAGAGAGG CTGCCCAGGC CAGATAAAGG CAAGATGCGC 
TTCCACAAAA TCGCCAACGT TAACAAGGCC CTGGACTTCA TTGCCAGCAA GGGGGTTAAG 
CTGGTATCTA TTGGTGCTGA AGAGATCGTC GATGGGAACC TGAAGATGAC CCTGGGCATG 
ATCTGGACCA TCATCCTTCG CTTCGCCATC CAGGACATCT CTGTGGAAGA AACTTCGGCC 
AAGGAAGGCT TGCTTCTGTG GTGCCAGAGG AAGACAGCAC CGTACCGCAA CGTCAACGTG 
CAGAATTTCC ACACCAGCTG GAAGGATGGC CTGGCCCTCT GTGCCCTCAT CCACCGACAC 
CGCCCCGACC TCATCGACTA CGCCAAACTG CGAAAGGATG ACCCCATCGG CAACCTGAAC 
ACTGCCTTCG AGGTGGCAGA GAAGTACCTG GACATCCCCA AGATGTTGGA TGCAGAAGAC 
ATTGTGAACA CCCCAAAGCC GGATGAGAAG GCCATCATGA CCTATGTGTC CTGCTTCTAC 
CATGCCTTTG CCGGGGCTGA GCAGGCAGAG ACAGCTGCCA ACAGGATCTG CAAGGTGCTG 
GCGGTGAACC AGGAAAACGA GAAGCTGATG GAGGAGTATG AGAAGCTTGC CAGTGAGCTG 
CTGGAGTGGA TCCGCCGCAC CGTCCCATGG CTGGAGAACC GTGTGGGTGA GCCCAGCATG 
AGTGCCATGC AGCGCAAGCT AGAGGACTTT CGGGACTACC GGCGTCTGCA CAAGCCGCCC 
CGTGTTCAAG AAAAGTGCCA GCTGGAGATC AACTTCAATA CACTGCAGAC CAAGTTGCGG 
CTCAGCCACC GGCCTGCCTT CATGCCCTCC GAGGGCAAGC TGGTCTCGGA CATCGCCAAC 
GCCTGGCGGG GGCTGGAGCA GGTGGAAAAG GGCTATGAGG ACTGGCTGCT CTCAGAGATC 
CGACGCCTGC AGCGACTCCA GCACCTGGCC GAGAAGTTCC GGCAGAAGGC CTCCCTGCAC 
GAAGCCTGGA CCCGGGGGAA GGAGGAGATG CTGAGCCAGC GCGACTACGA TTCGGCTTCG 
CTACAGGAGG TGCGGGCGAT GCTGCGGCGC CACGAGGCCT TTGAGAGCGA CCTGGCAGCG 
CACCAGGACC GCGTGGAGCA CATTGCTGCA CTGGCCCAGG AGCTCAATGA GCTGGACTAC 
CATGAGGCGG CCTCAGTGAA CAGCCGCTGC CAGGCCATCT GCGATCAGTG GGACAACCTG 
GGCACCCTGA CCCAGAAGAG GCGGGATGCG CTAGAGCGGA TGGAGAAGCT CCTGGAGACC 
ATCGACCAGC TGCAACTGGA GTTTGCCCGG CGGGCCGCAC CCTTCAACAA CTGGCTGGAC 
GGTGCCGTGG AGGACCTGCA GGACGTGTGG CTGGTACACT CTGTGGAGGA GACCCAGAGC 
TTGCTGACAG CACATGATCA GTTCAAGGCA ACATTGCCTG AGGCTGACCG AGAGCGAGGC 
GCCATCATGG GCATCCAGGG TGAGATCCAG AAGATCTGCC AGACGTACGG GCTGCGGCCC 
TGCTCCACCA ATCCCTACAT CACCCTGAGC CCGCAGGACA TCAACACCAA CTGGGATATG 
GTCCGAAAGC TGGTGCCTAG CCGTGATCAG ACACTGCAGG AGGAGCTGGG ACGGCAGCAG 
GTAAACGAGA GGCTCCGGCG ACAGTTTGCG GCCCAGGCCA ATGCCGTTGG ACCCTGGATC 
CAGGCGAAGG TGGAGGAAGT CGGGCGGCTG GCAGCGGGGC TAGCTGGCTC TCTGGAGGAG 
CAGATGGCTG GGCTACGGCA GCAGGAGCAG AACATTATCA ACTACAAGAC TAACATTGAC 
CGGCTAGAGG GTGACCACCA GCTGCTGCAA GAGAACCTGG TGTTCGACAA TAAGCACACT 
GTCTACAGCA TGGAGCACAT CCGCGTGGGC TGGGAGCAGC TGCTCACCTC TATCGCCCGC 
ACCATCAATG AAGTGGAGAA CCAGGTACTG ACCCGAGATG CCAAGGGGCT GAGCCAGGAG 
CAGCTCAACG AGTTCCGAGC ATCCTTCAAC CACTTTGACC GGAAGAGGAA CGGGATGATG 
GAGCCCGATG ACTTCCGAGC TTGCCTCATT TCCATGGGCT ATGACTTGGG GGAAGTGGAG 
TTTGCTCGCA TCATGACCAT GGTGGACCCC AACGCAGCTG GGGTGGTGAC CTTCCAGGCC 
TTCATAGACT TCATGACCCG AGAGACAGCT GAGACTGACA CGGCTGAGCA AGTTGTGGCC 
TCCTTCAAGA TCCTGGCAGG AGACAAGAAC TACATCACCC CCGAGGAGCT GCGACGCGAG 
CTCCCCGCCG AGCAGGCCGA GTACTGCATC CGCCGTATGG TGCCCTACAA GGGATCCGGG 
GCCCCACCTG GAGCCCTGGA CTACGTGGCC TTCTCCAGTG CCCTCTATGG GGAGAGCGAC 
CTCTGA