UNC45A cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	UNC45A
Entrez Gene ID	102884123
Full Name	unc-45 myosin chaperone A
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025050378.1	XP_024906146.1	protein unc-45 homolog A
XM_015593427.1	XP_015448913.1	protein unc-45 homolog A

Pathways from BioSystems
Gene Ontology

The following UNC45A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UNC45A 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
OPt06678	XM_015593427.1 Latest version!	Pteropus alecto unc-45 myosin chaperone A (UNC45A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OPt80562	XM_025050378.1 Latest version!	Pteropus alecto unc-45 myosin chaperone A (UNC45A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
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)

UNC45A ( XM_015593427.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_015448913.1 Pteropus alecto unc-45 myosin chaperone A (UNC45A), mRNA.

Price & Availability↑

CloneID	OPt06678
Clone ID Related Accession (Same CDS sequence)	XM_015593427.1
Accession Version	XM_015593427.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2826bp) 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	2016-02-09
Organism	Pteropus alecto(black flying fox)
Product	protein unc-45 homolog A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006430726.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus alecto Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGACTGTGA GTGATCCAGG GACCCCCGAA CCCCGGCCCG CCACTCCTGG GGCCAGCTCA 
GTGGAGCAGC TGCGGAAGGA TGGGAACGAG CTATTCAAAT GTGGGGACTA CGAGGGCGCC 
CTGACGGCCT ACACCCAGGC CCTGGATCTG GGAGTGACGC CCCAGGACCA GGCTATTCTG 
CACCGGAACC GGTCCGCCTG CTACCTGAAG CTGGAAGATT ACGACAAAGC AGAGATCGAG 
GCATCCAAAG CCATTGAAAA GGACGGTGGG GATGTCAAAG CACTTTACCG GCGGAGCCAA 
GCCCTGGAGA AGCTGGGCCG CCTCGACCAG GCTGTCCTTG ACCTGCAGAG ATGTGTGAGC 
CTGGAGCCCA AGAACAAAGT TTTCCAGGAG GCCCTGCGTA GCATCGGGGG GCAGATTCAG 
GAGAAGGTGC GATACATGTC CTCCACAGAC GCCAAAGTGG AACAGATGTT TCAGATCCTA 
TTAGACCCAC AAGAGAAAGG CACTGAGAAG AAGCAGAAGG CTTCTCAGAA CCTGGTGGTG 
CTGGCCCGGG AGGATGCTGG AGCTGAGAAG ATCTTTCGGA ACAATGGGGT CCAGCTCTTG 
CAACGCCTGC TTGACACGGG AGAGGCCGAC CTGATGCTGG CTGCTCTGCG CACGCTAGTT 
GGCATTTGCT CTGAGCACCA GTCACGGACA GTGGCGACCC TGAGTGTGCT GGGAACTCGG 
CGGGTCGTCT TCATCCTAGG TGTGGAAAAC CAGGCTGTGT CCCTGGCTGC CTGCCACCTG 
CTGCAGGTGA TGTTTGATGC CCTCAAGGAA GGTGTCAGGA AAGGCTTCCG AGGCAAAGAA 
GGCGCCATCA TCGTGGATCC TGCCCGGGAA CTGAAGGTCC TCATCAGTAA CCTCTTGGAG 
CTACTGACCG AGGTGGGGGT CTCAGGCCAA GGTCGAGACA ACGCCTTGGC CCTTCTGATT 
AAAACAGTGC CCCGGAAGTC TCTTAAGGAC CCCAACAACA GCCTCACCCT CTGGGTCATT 
GACCAAGGTC TGAGAAAGAT TCTGGAGGTG GGGGGCTCTG TACAGGAGCC TCCTGGGGCG 
CTCACGGTGA CAGCGAACAG CCGCATGAGT GCCTCCATCC TCCTCAGCAA GCTCTTCGAT 
GACCTGAAGT GTGATGCCGA GAGGGAGAAT TTCCACCGAC TCTGTGAAAA CTACATCAAG 
AGCTGGTTTG AAGATCAAGG GCTGGCTGGG AAGCTACGGG CCATCCAGAC GGTGTCCTGC 
CTCCTGCAGG GCCCTTGCGA TGCCGGCAAC CGGGCCCTGG AGCTGAGTGG TGTCATGGAG 
ACCGTGATCG CTCTGTGTGC CTCTGAGCGG GAGGAAGAGC AGCTGGTGGC TGTAGAGGCC 
CTGATCCACG CGGCTGGCAA GGCCAAGCGG GCCTCATTCA TCACTGCCAA CGGCGTCTCG 
CTGCTGAAGG ACCTTTACAA ACGTAGTGAG AAGGACAGCA TCCGCATCCG GGCACTGGTG 
GGACTCTGTA AACTTGGCTC GGCTGGAGGG ACTGACTTTA GCATGAAGCA GTTTGCTGAA 
GGCTCCACTC TCAAACTGGC CAAGCAGTGT CGCAAGTGGC TGTGCAATGA CCAGATTGAC 
GCAGGCACTC GGCGCTGGGC AGTGGAGGGT CTAGCCTACC TCACCTTTGA TGCCGACGTG 
AAAGAAGAGT TTGTAGAGGA CGAGGCTGCC CTCAAAGCTC TATTCCAGCT CAGCCGGTCT 
GAGGAAAGGT CGGTGCTCTT CGCGGTGGCC TCAGGGCTGG TGAACTGCAC CAACAGCTAC 
GACTATGAGG AGCCTGACCC CAAGATGGTG GAGCTGGCCA AGTATGCCAA GCAGCATGTG 
CCCGAGCAGC ACCCCAAGGA CAAACTGAGT TTTGTGCGGG CTCGGGTGAA GAAGCTGCTG 
GCACAGTCAA CGTCTGGGCT GTTGGCAAGT CTGGGGAGAG GGGAGGAGAA AGGTGAGGGC 
GGCACAGTCA GGGCGTTGGG GCCTGACAGC TTGGGCCTTA TCTTCCTGGG CACCTGTTGG 
ACACTGAAGG GCTTGTCCCT ACAGGCTCTT CTCCCGCTGG CCCTGGAAGG CACTGATGTG 
GGGCAGACAA AGGCAGCCCA GGCCCTCGCC AAGCTCACCA TCACCTCCAA CCCAGAGATG 
ACCTTTCCTG GAGAGCGGAT CTATGAGGTG GTCCGGCCCC TTGTCTCCCT GTTGCACCTC 
AACTGCTCAG GCCTGCAGAA CTTCGAGGCG CTCATGGCTC TGACGAACCT GGCAGGGATC 
AGCGAGAGGC TCCGGCAGAA GATTGTGAAG GAGAAGGCTG TGCCCATGAT CGAGGGCTAC 
ATGTTTGAGG AGCATGAGAT GATCCGCCGG GCAGCCACGG AGTGCATGTG TAACTTGGCC 
ATGAGCAAGG AGGTACAGGA CCTCTTTGAA GCTGAAGGCA ACGACCGCCT GAAGCTGCTG 
GTGCTGTACA GCGGGGAGGA TGACGACTTG CTGCGACGGG CGGCCGCTGG GGGCCTGGCC 
ATGCTCACCT CCGTGCGGCC CTCACTGTGT GGCCGTATCC CCCAAGTGAC CACACACTGG 
CTGGAGATCC TACAGGCTCT GCTTCTGAGC TCCAACCAGG AGCTACAGCA CCGGGGTGCT 
GTGGTGGTGT TGAACATGGT GGAGGCCTCA CGAGAGATCG CCAGCACGCT GATGGAGAGC 
GAAGTGCTGG AGATCCTGTC TGTGCTGGCG AGGGGCAAGG AAGGCCCTGT CACTAGGGCG 
GCCGTGGCTT GCTTAGGAAA AGCAGTGGAA TATGGGCTCA TCAAACCCAA CCAGGATGGA 
CAGTGA

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

RefSeq	XP_015448913.1
CDS	693..3518
Translation	MTVSDPGTPEPRPATPGASSVEQLRKDGNELFKCGDYEGALTAYTQALDLGVTPQDQAILHRNRSACYLKLEDYDKAEIEASKAIEKDGGDVKALYRRSQALEKLGRLDQAVLDLQRCVSLEPKNKVFQEALRSIGGQIQEKVRYMSSTDAKVEQMFQILLDPQEKGTEKKQKASQNLVVLAREDAGAEKIFRNNGVQLLQRLLDTGEADLMLAALRTLVGICSEHQSRTVATLSVLGTRRVVFILGVENQAVSLAACHLLQVMFDALKEGVRKGFRGKEGAIIVDPARELKVLISNLLELLTEVGVSGQGRDNALALLIKTVPRKSLKDPNNSLTLWVIDQGLRKILEVGGSVQEPPGALTVTANSRMSASILLSKLFDDLKCDAERENFHRLCENYIKSWFEDQGLAGKLRAIQTVSCLLQGPCDAGNRALELSGVMETVIALCASEREEEQLVAVEALIHAAGKAKRASFITANGVSLLKDLYKRSEKDSIRIRALVGLCKLGSAGGTDFSMKQFAEGSTLKLAKQCRKWLCNDQIDAGTRRWAVEGLAYLTFDADVKEEFVEDEAALKALFQLSRSEERSVLFAVASGLVNCTNSYDYEEPDPKMVELAKYAKQHVPEQHPKDKLSFVRARVKKLLAQSTSGLLASLGRGEEKGEGGTVRALGPDSLGLIFLGTCWTLKGLSLQALLPLALEGTDVGQTKAAQALAKLTITSNPEMTFPGERIYEVVRPLVSLLHLNCSGLQNFEALMALTNLAGISERLRQKIVKEKAVPMIEGYMFEEHEMIRRAATECMCNLAMSKEVQDLFEAEGNDRLKLLVLYSGEDDDLLRRAAAGGLAMLTSVRPSLCGRIPQVTTHWLEILQALLLSSNQELQHRGAVVVLNMVEASREIASTLMESEVLEILSVLARGKEGPVTRAAVACLGKAVEYGLIKPNQDGQ

Target ORF information:

RefSeq Version	XM_015593427.1
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto unc-45 myosin chaperone A (UNC45A), mRNA.

Target ORF information:

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

XM_015593427.1

ORF Insert Sequence:

ATGACTGTGA GTGATCCAGG GACCCCCGAA CCCCGGCCCG CCACTCCTGG GGCCAGCTCA 
GTGGAGCAGC TGCGGAAGGA TGGGAACGAG CTATTCAAAT GTGGGGACTA CGAGGGCGCC 
CTGACGGCCT ACACCCAGGC CCTGGATCTG GGAGTGACGC CCCAGGACCA GGCTATTCTG 
CACCGGAACC GGTCCGCCTG CTACCTGAAG CTGGAAGATT ACGACAAAGC AGAGATCGAG 
GCATCCAAAG CCATTGAAAA GGACGGTGGG GATGTCAAAG CACTTTACCG GCGGAGCCAA 
GCCCTGGAGA AGCTGGGCCG CCTCGACCAG GCTGTCCTTG ACCTGCAGAG ATGTGTGAGC 
CTGGAGCCCA AGAACAAAGT TTTCCAGGAG GCCCTGCGTA GCATCGGGGG GCAGATTCAG 
GAGAAGGTGC GATACATGTC CTCCACAGAC GCCAAAGTGG AACAGATGTT TCAGATCCTA 
TTAGACCCAC AAGAGAAAGG CACTGAGAAG AAGCAGAAGG CTTCTCAGAA CCTGGTGGTG 
CTGGCCCGGG AGGATGCTGG AGCTGAGAAG ATCTTTCGGA ACAATGGGGT CCAGCTCTTG 
CAACGCCTGC TTGACACGGG AGAGGCCGAC CTGATGCTGG CTGCTCTGCG CACGCTAGTT 
GGCATTTGCT CTGAGCACCA GTCACGGACA GTGGCGACCC TGAGTGTGCT GGGAACTCGG 
CGGGTCGTCT TCATCCTAGG TGTGGAAAAC CAGGCTGTGT CCCTGGCTGC CTGCCACCTG 
CTGCAGGTGA TGTTTGATGC CCTCAAGGAA GGTGTCAGGA AAGGCTTCCG AGGCAAAGAA 
GGCGCCATCA TCGTGGATCC TGCCCGGGAA CTGAAGGTCC TCATCAGTAA CCTCTTGGAG 
CTACTGACCG AGGTGGGGGT CTCAGGCCAA GGTCGAGACA ACGCCTTGGC CCTTCTGATT 
AAAACAGTGC CCCGGAAGTC TCTTAAGGAC CCCAACAACA GCCTCACCCT CTGGGTCATT 
GACCAAGGTC TGAGAAAGAT TCTGGAGGTG GGGGGCTCTG TACAGGAGCC TCCTGGGGCG 
CTCACGGTGA CAGCGAACAG CCGCATGAGT GCCTCCATCC TCCTCAGCAA GCTCTTCGAT 
GACCTGAAGT GTGATGCCGA GAGGGAGAAT TTCCACCGAC TCTGTGAAAA CTACATCAAG 
AGCTGGTTTG AAGATCAAGG GCTGGCTGGG AAGCTACGGG CCATCCAGAC GGTGTCCTGC 
CTCCTGCAGG GCCCTTGCGA TGCCGGCAAC CGGGCCCTGG AGCTGAGTGG TGTCATGGAG 
ACCGTGATCG CTCTGTGTGC CTCTGAGCGG GAGGAAGAGC AGCTGGTGGC TGTAGAGGCC 
CTGATCCACG CGGCTGGCAA GGCCAAGCGG GCCTCATTCA TCACTGCCAA CGGCGTCTCG 
CTGCTGAAGG ACCTTTACAA ACGTAGTGAG AAGGACAGCA TCCGCATCCG GGCACTGGTG 
GGACTCTGTA AACTTGGCTC GGCTGGAGGG ACTGACTTTA GCATGAAGCA GTTTGCTGAA 
GGCTCCACTC TCAAACTGGC CAAGCAGTGT CGCAAGTGGC TGTGCAATGA CCAGATTGAC 
GCAGGCACTC GGCGCTGGGC AGTGGAGGGT CTAGCCTACC TCACCTTTGA TGCCGACGTG 
AAAGAAGAGT TTGTAGAGGA CGAGGCTGCC CTCAAAGCTC TATTCCAGCT CAGCCGGTCT 
GAGGAAAGGT CGGTGCTCTT CGCGGTGGCC TCAGGGCTGG TGAACTGCAC CAACAGCTAC 
GACTATGAGG AGCCTGACCC CAAGATGGTG GAGCTGGCCA AGTATGCCAA GCAGCATGTG 
CCCGAGCAGC ACCCCAAGGA CAAACTGAGT TTTGTGCGGG CTCGGGTGAA GAAGCTGCTG 
GCACAGTCAA CGTCTGGGCT GTTGGCAAGT CTGGGGAGAG GGGAGGAGAA AGGTGAGGGC 
GGCACAGTCA GGGCGTTGGG GCCTGACAGC TTGGGCCTTA TCTTCCTGGG CACCTGTTGG 
ACACTGAAGG GCTTGTCCCT ACAGGCTCTT CTCCCGCTGG CCCTGGAAGG CACTGATGTG 
GGGCAGACAA AGGCAGCCCA GGCCCTCGCC AAGCTCACCA TCACCTCCAA CCCAGAGATG 
ACCTTTCCTG GAGAGCGGAT CTATGAGGTG GTCCGGCCCC TTGTCTCCCT GTTGCACCTC 
AACTGCTCAG GCCTGCAGAA CTTCGAGGCG CTCATGGCTC TGACGAACCT GGCAGGGATC 
AGCGAGAGGC TCCGGCAGAA GATTGTGAAG GAGAAGGCTG TGCCCATGAT CGAGGGCTAC 
ATGTTTGAGG AGCATGAGAT GATCCGCCGG GCAGCCACGG AGTGCATGTG TAACTTGGCC 
ATGAGCAAGG AGGTACAGGA CCTCTTTGAA GCTGAAGGCA ACGACCGCCT GAAGCTGCTG 
GTGCTGTACA GCGGGGAGGA TGACGACTTG CTGCGACGGG CGGCCGCTGG GGGCCTGGCC 
ATGCTCACCT CCGTGCGGCC CTCACTGTGT GGCCGTATCC CCCAAGTGAC CACACACTGG 
CTGGAGATCC TACAGGCTCT GCTTCTGAGC TCCAACCAGG AGCTACAGCA CCGGGGTGCT 
GTGGTGGTGT TGAACATGGT GGAGGCCTCA CGAGAGATCG CCAGCACGCT GATGGAGAGC 
GAAGTGCTGG AGATCCTGTC TGTGCTGGCG AGGGGCAAGG AAGGCCCTGT CACTAGGGCG 
GCCGTGGCTT GCTTAGGAAA AGCAGTGGAA TATGGGCTCA TCAAACCCAA CCAGGATGGA 
CAGTGA

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

UNC45A ( XM_025050378.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_024906146.1 Pteropus alecto unc-45 myosin chaperone A (UNC45A), mRNA.

Price & Availability↑

CloneID	OPt80562
Clone ID Related Accession (Same CDS sequence)	XM_025050378.1
Accession Version	XM_025050378.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2826bp) 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	2018-05-06
Organism	Pteropus alecto(black flying fox)
Product	protein unc-45 homolog A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006430726.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGACTGTGA GTGATCCAGG GACCCCCGAA CCCCGGCCCG CCACTCCTGG GGCCAGCTCA 
GTGGAGCAGC TGCGGAAGGA TGGGAACGAG CTATTCAAAT GTGGGGACTA CGAGGGCGCC 
CTGACGGCCT ACACCCAGGC CCTGGATCTG GGAGTGACGC CCCAGGACCA GGCTATTCTG 
CACCGGAACC GGTCCGCCTG CTACCTGAAG CTGGAAGATT ACGACAAAGC AGAGATCGAG 
GCATCCAAAG CCATTGAAAA GGACGGTGGG GATGTCAAAG CACTTTACCG GCGGAGCCAA 
GCCCTGGAGA AGCTGGGCCG CCTCGACCAG GCTGTCCTTG ACCTGCAGAG ATGTGTGAGC 
CTGGAGCCCA AGAACAAAGT TTTCCAGGAG GCCCTGCGTA GCATCGGGGG GCAGATTCAG 
GAGAAGGTGC GATACATGTC CTCCACAGAC GCCAAAGTGG AACAGATGTT TCAGATCCTA 
TTAGACCCAC AAGAGAAAGG CACTGAGAAG AAGCAGAAGG CTTCTCAGAA CCTGGTGGTG 
CTGGCCCGGG AGGATGCTGG AGCTGAGAAG ATCTTTCGGA ACAATGGGGT CCAGCTCTTG 
CAACGCCTGC TTGACACGGG AGAGGCCGAC CTGATGCTGG CTGCTCTGCG CACGCTAGTT 
GGCATTTGCT CTGAGCACCA GTCACGGACA GTGGCGACCC TGAGTGTGCT GGGAACTCGG 
CGGGTCGTCT TCATCCTAGG TGTGGAAAAC CAGGCTGTGT CCCTGGCTGC CTGCCACCTG 
CTGCAGGTGA TGTTTGATGC CCTCAAGGAA GGTGTCAGGA AAGGCTTCCG AGGCAAAGAA 
GGCGCCATCA TCGTGGATCC TGCCCGGGAA CTGAAGGTCC TCATCAGTAA CCTCTTGGAG 
CTACTGACCG AGGTGGGGGT CTCAGGCCAA GGTCGAGACA ACGCCTTGGC CCTTCTGATT 
AAAACAGTGC CCCGGAAGTC TCTTAAGGAC CCCAACAACA GCCTCACCCT CTGGGTCATT 
GACCAAGGTC TGAGAAAGAT TCTGGAGGTG GGGGGCTCTG TACAGGAGCC TCCTGGGGCG 
CTCACGGTGA CAGCGAACAG CCGCATGAGT GCCTCCATCC TCCTCAGCAA GCTCTTCGAT 
GACCTGAAGT GTGATGCCGA GAGGGAGAAT TTCCACCGAC TCTGTGAAAA CTACATCAAG 
AGCTGGTTTG AAGATCAAGG GCTGGCTGGG AAGCTACGGG CCATCCAGAC GGTGTCCTGC 
CTCCTGCAGG GCCCTTGCGA TGCCGGCAAC CGGGCCCTGG AGCTGAGTGG TGTCATGGAG 
ACCGTGATCG CTCTGTGTGC CTCTGAGCGG GAGGAAGAGC AGCTGGTGGC TGTAGAGGCC 
CTGATCCACG CGGCTGGCAA GGCCAAGCGG GCCTCATTCA TCACTGCCAA CGGCGTCTCG 
CTGCTGAAGG ACCTTTACAA ACGTAGTGAG AAGGACAGCA TCCGCATCCG GGCACTGGTG 
GGACTCTGTA AACTTGGCTC GGCTGGAGGG ACTGACTTTA GCATGAAGCA GTTTGCTGAA 
GGCTCCACTC TCAAACTGGC CAAGCAGTGT CGCAAGTGGC TGTGCAATGA CCAGATTGAC 
GCAGGCACTC GGCGCTGGGC AGTGGAGGGT CTAGCCTACC TCACCTTTGA TGCCGACGTG 
AAAGAAGAGT TTGTAGAGGA CGAGGCTGCC CTCAAAGCTC TATTCCAGCT CAGCCGGTCT 
GAGGAAAGGT CGGTGCTCTT CGCGGTGGCC TCAGGGCTGG TGAACTGCAC CAACAGCTAC 
GACTATGAGG AGCCTGACCC CAAGATGGTG GAGCTGGCCA AGTATGCCAA GCAGCATGTG 
CCCGAGCAGC ACCCCAAGGA CAAACTGAGT TTTGTGCGGG CTCGGGTGAA GAAGCTGCTG 
GCACAGTCAA CAGCAGGGCT GTTGGCAAGT CTGGGGAGAG GGGAGGAGAA AGGTGAGGGC 
GGCACAGTCA GGGCGTTGGG GCCTGACAGC TTGGGCCTTA TCTTCCTGGG CACCTGTTGG 
ACACTGAAGG GCTTGTCCCT ACAGGCTCTT CTCCCGCTGG CCCTGGAAGG CACTGATGTG 
GGGCAGACAA AGGCAGCCCA GGCCCTCGCC AAGCTCACCA TCACCTCCAA CCCAGAGATG 
ACCTTTCCTG GAGAGCGGAT CTATGAGGTG GTCCGGCCCC TTGTCTCCCT GTTGCACCTC 
AACTGCTCAG GCCTGCAGAA CTTCGAGGCG CTCATGGCTC TGACGAACCT GGCAGGGATC 
AGCGAGAGGC TCCGGCAGAA GATTGTGAAG GAGAAGGCTG TGCCCATGAT CGAGGGCTAC 
ATGTTTGAGG AGCATGAGAT GATCCGCCGG GCAGCCACGG AGTGCATGTG TAACTTGGCC 
ATGAGCAAGG AGGTACAGGA CCTCTTTGAA GCTGAAGGCA ACGACCGCCT GAAGCTGCTG 
GTGCTGTACA GCGGGGAGGA TGACGACTTG CTGCGACGGG CGGCCGCTGG GGGCCTGGCC 
ATGCTCACCT CCGTGCGGCC CTCACTGTGT GGCCGTATCC CCCAAGTGAC CACACACTGG 
CTGGAGATCC TACAGGCTCT GCTTCTGAGC TCCAACCAGG AGCTACAGCA CCGGGGTGCT 
GTGGTGGTGT TGAACATGGT GGAGGCCTCA CGAGAGATCG CCAGCACGCT GATGGAGAGC 
GAAGTGCTGG AGATCCTGTC TGTGCTGGCG AGGGGCAAGG AAGGCCCTGT CACTAGGGCG 
GCCGTGGCTT GCTTAGGAAA AGCAGTGGAA TATGGGCTCA TCAAACCCAA CCAGGATGGA 
CAGTGA

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

RefSeq	XP_024906146.1
CDS	710..3535
Translation	MTVSDPGTPEPRPATPGASSVEQLRKDGNELFKCGDYEGALTAYTQALDLGVTPQDQAILHRNRSACYLKLEDYDKAEIEASKAIEKDGGDVKALYRRSQALEKLGRLDQAVLDLQRCVSLEPKNKVFQEALRSIGGQIQEKVRYMSSTDAKVEQMFQILLDPQEKGTEKKQKASQNLVVLAREDAGAEKIFRNNGVQLLQRLLDTGEADLMLAALRTLVGICSEHQSRTVATLSVLGTRRVVFILGVENQAVSLAACHLLQVMFDALKEGVRKGFRGKEGAIIVDPARELKVLISNLLELLTEVGVSGQGRDNALALLIKTVPRKSLKDPNNSLTLWVIDQGLRKILEVGGSVQEPPGALTVTANSRMSASILLSKLFDDLKCDAERENFHRLCENYIKSWFEDQGLAGKLRAIQTVSCLLQGPCDAGNRALELSGVMETVIALCASEREEEQLVAVEALIHAAGKAKRASFITANGVSLLKDLYKRSEKDSIRIRALVGLCKLGSAGGTDFSMKQFAEGSTLKLAKQCRKWLCNDQIDAGTRRWAVEGLAYLTFDADVKEEFVEDEAALKALFQLSRSEERSVLFAVASGLVNCTNSYDYEEPDPKMVELAKYAKQHVPEQHPKDKLSFVRARVKKLLAQSTAGLLASLGRGEEKGEGGTVRALGPDSLGLIFLGTCWTLKGLSLQALLPLALEGTDVGQTKAAQALAKLTITSNPEMTFPGERIYEVVRPLVSLLHLNCSGLQNFEALMALTNLAGISERLRQKIVKEKAVPMIEGYMFEEHEMIRRAATECMCNLAMSKEVQDLFEAEGNDRLKLLVLYSGEDDDLLRRAAAGGLAMLTSVRPSLCGRIPQVTTHWLEILQALLLSSNQELQHRGAVVVLNMVEASREIASTLMESEVLEILSVLARGKEGPVTRAAVACLGKAVEYGLIKPNQDGQ

Target ORF information:

RefSeq Version	XM_025050378.1
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto unc-45 myosin chaperone A (UNC45A), mRNA.

Target ORF information:

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

XM_025050378.1

ORF Insert Sequence:

ATGACTGTGA GTGATCCAGG GACCCCCGAA CCCCGGCCCG CCACTCCTGG GGCCAGCTCA 
GTGGAGCAGC TGCGGAAGGA TGGGAACGAG CTATTCAAAT GTGGGGACTA CGAGGGCGCC 
CTGACGGCCT ACACCCAGGC CCTGGATCTG GGAGTGACGC CCCAGGACCA GGCTATTCTG 
CACCGGAACC GGTCCGCCTG CTACCTGAAG CTGGAAGATT ACGACAAAGC AGAGATCGAG 
GCATCCAAAG CCATTGAAAA GGACGGTGGG GATGTCAAAG CACTTTACCG GCGGAGCCAA 
GCCCTGGAGA AGCTGGGCCG CCTCGACCAG GCTGTCCTTG ACCTGCAGAG ATGTGTGAGC 
CTGGAGCCCA AGAACAAAGT TTTCCAGGAG GCCCTGCGTA GCATCGGGGG GCAGATTCAG 
GAGAAGGTGC GATACATGTC CTCCACAGAC GCCAAAGTGG AACAGATGTT TCAGATCCTA 
TTAGACCCAC AAGAGAAAGG CACTGAGAAG AAGCAGAAGG CTTCTCAGAA CCTGGTGGTG 
CTGGCCCGGG AGGATGCTGG AGCTGAGAAG ATCTTTCGGA ACAATGGGGT CCAGCTCTTG 
CAACGCCTGC TTGACACGGG AGAGGCCGAC CTGATGCTGG CTGCTCTGCG CACGCTAGTT 
GGCATTTGCT CTGAGCACCA GTCACGGACA GTGGCGACCC TGAGTGTGCT GGGAACTCGG 
CGGGTCGTCT TCATCCTAGG TGTGGAAAAC CAGGCTGTGT CCCTGGCTGC CTGCCACCTG 
CTGCAGGTGA TGTTTGATGC CCTCAAGGAA GGTGTCAGGA AAGGCTTCCG AGGCAAAGAA 
GGCGCCATCA TCGTGGATCC TGCCCGGGAA CTGAAGGTCC TCATCAGTAA CCTCTTGGAG 
CTACTGACCG AGGTGGGGGT CTCAGGCCAA GGTCGAGACA ACGCCTTGGC CCTTCTGATT 
AAAACAGTGC CCCGGAAGTC TCTTAAGGAC CCCAACAACA GCCTCACCCT CTGGGTCATT 
GACCAAGGTC TGAGAAAGAT TCTGGAGGTG GGGGGCTCTG TACAGGAGCC TCCTGGGGCG 
CTCACGGTGA CAGCGAACAG CCGCATGAGT GCCTCCATCC TCCTCAGCAA GCTCTTCGAT 
GACCTGAAGT GTGATGCCGA GAGGGAGAAT TTCCACCGAC TCTGTGAAAA CTACATCAAG 
AGCTGGTTTG AAGATCAAGG GCTGGCTGGG AAGCTACGGG CCATCCAGAC GGTGTCCTGC 
CTCCTGCAGG GCCCTTGCGA TGCCGGCAAC CGGGCCCTGG AGCTGAGTGG TGTCATGGAG 
ACCGTGATCG CTCTGTGTGC CTCTGAGCGG GAGGAAGAGC AGCTGGTGGC TGTAGAGGCC 
CTGATCCACG CGGCTGGCAA GGCCAAGCGG GCCTCATTCA TCACTGCCAA CGGCGTCTCG 
CTGCTGAAGG ACCTTTACAA ACGTAGTGAG AAGGACAGCA TCCGCATCCG GGCACTGGTG 
GGACTCTGTA AACTTGGCTC GGCTGGAGGG ACTGACTTTA GCATGAAGCA GTTTGCTGAA 
GGCTCCACTC TCAAACTGGC CAAGCAGTGT CGCAAGTGGC TGTGCAATGA CCAGATTGAC 
GCAGGCACTC GGCGCTGGGC AGTGGAGGGT CTAGCCTACC TCACCTTTGA TGCCGACGTG 
AAAGAAGAGT TTGTAGAGGA CGAGGCTGCC CTCAAAGCTC TATTCCAGCT CAGCCGGTCT 
GAGGAAAGGT CGGTGCTCTT CGCGGTGGCC TCAGGGCTGG TGAACTGCAC CAACAGCTAC 
GACTATGAGG AGCCTGACCC CAAGATGGTG GAGCTGGCCA AGTATGCCAA GCAGCATGTG 
CCCGAGCAGC ACCCCAAGGA CAAACTGAGT TTTGTGCGGG CTCGGGTGAA GAAGCTGCTG 
GCACAGTCAA CAGCAGGGCT GTTGGCAAGT CTGGGGAGAG GGGAGGAGAA AGGTGAGGGC 
GGCACAGTCA GGGCGTTGGG GCCTGACAGC TTGGGCCTTA TCTTCCTGGG CACCTGTTGG 
ACACTGAAGG GCTTGTCCCT ACAGGCTCTT CTCCCGCTGG CCCTGGAAGG CACTGATGTG 
GGGCAGACAA AGGCAGCCCA GGCCCTCGCC AAGCTCACCA TCACCTCCAA CCCAGAGATG 
ACCTTTCCTG GAGAGCGGAT CTATGAGGTG GTCCGGCCCC TTGTCTCCCT GTTGCACCTC 
AACTGCTCAG GCCTGCAGAA CTTCGAGGCG CTCATGGCTC TGACGAACCT GGCAGGGATC 
AGCGAGAGGC TCCGGCAGAA GATTGTGAAG GAGAAGGCTG TGCCCATGAT CGAGGGCTAC 
ATGTTTGAGG AGCATGAGAT GATCCGCCGG GCAGCCACGG AGTGCATGTG TAACTTGGCC 
ATGAGCAAGG AGGTACAGGA CCTCTTTGAA GCTGAAGGCA ACGACCGCCT GAAGCTGCTG 
GTGCTGTACA GCGGGGAGGA TGACGACTTG CTGCGACGGG CGGCCGCTGG GGGCCTGGCC 
ATGCTCACCT CCGTGCGGCC CTCACTGTGT GGCCGTATCC CCCAAGTGAC CACACACTGG 
CTGGAGATCC TACAGGCTCT GCTTCTGAGC TCCAACCAGG AGCTACAGCA CCGGGGTGCT 
GTGGTGGTGT TGAACATGGT GGAGGCCTCA CGAGAGATCG CCAGCACGCT GATGGAGAGC 
GAAGTGCTGG AGATCCTGTC TGTGCTGGCG AGGGGCAAGG AAGGCCCTGT CACTAGGGCG 
GCCGTGGCTT GCTTAGGAAA AGCAGTGGAA TATGGGCTCA TCAAACCCAA CCAGGATGGA 
CAGTGA