SUPT5H cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	SUPT5H
Entrez Gene ID	105820538
Full Name	SPT5 homolog, DSIF elongation factor subunit
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012657030.1	XP_012512484.1	transcription elongation factor SPT5
XM_012657029.1	XP_012512483.1	transcription elongation factor SPT5

Pathways from BioSystems
Gene Ontology

The following SUPT5H gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SUPT5H 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
OPr113956	XM_012657030.1 Latest version!	Propithecus coquereli suppressor of Ty 5 homolog (S. cerevisiae) (SUPT5H), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
OPr113956	XM_012657029.1 Latest version!	Propithecus coquereli suppressor of Ty 5 homolog (S. cerevisiae) (SUPT5H), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

ORF Online Only Promotion

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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)

SUPT5H ( XM_012657030.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012512484.1 Propithecus coquereli suppressor of Ty 5 homolog (S. cerevisiae) (SUPT5H), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPr113956
Clone ID Related Accession (Same CDS sequence)	XM_012657030.1 , XM_012657029.1
Accession Version	XM_012657030.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3264bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	transcription elongation factor SPT5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012151174.1) 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 :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCGACA GCGAGGATAG CAACTTCTCC GAGGAGGAGG ACAGCGAGCG CAGCAGTGAT 
GGCGAGGAGG CCGAGGTAGA GGAAGAGCAG CGGAGTGCAG CAGGCAGTGA GAAGGAGGAA 
GAGCCCGAGG AAGAAGAAGA GGAGGAAGAG GAGGAAGAAT ATGATGAAGA AGAGGAGGAG 
GAAGATGATG ACCGGCCTCC CAAGAAACCC CGCCATGGTG GCTTCATTCT GGATGAGGCT 
GATGTGGACG ATGAGTATGA GGACGAGGAC CAGTGGGAGG ATGGAGCAGA GGACATCCTA 
GAGAAAGAAG AGATTGAAGC TTCCAATATT GACAATGTCG TCCTGGACGA AGACCGCTCT 
GGGGCTCGCC GCCTACAAAA CCTCTGGAGG GACCAGCGAG AAGAAGAACT GGGCGAGTAT 
TACATGAAGA AATACGCCAA GTCGTCTGTG GGCGAGACGG TATACGGAGG ATCTGATGAG 
CTCTCCGATG ACATCACCCA GCAGCAGCTG CTCCCGGGAG TCAAGGATCC CAACCTGTGG 
ACTGTCAAGT GTAAGATAGG GGAGGAACGG GCCACGGCCA TTTCCCTGAT GCGCAAGTTC 
ATTGCCTACC AGTTCACAGA CACACCCCTG CAGATTAAGT CAGTAGTGGC ACCAGAGCAT 
GTGAAGGGCT ACATCTACGT GGAGGCCTAC AAGCAGACCC ACGTGAAGCA GGCCATTGAG 
GGTGTGGGCA ACCTGCGGCT TGGCTACTGG AACCAGCAGA TGGTGCCCAT CAAGGAGATG 
ACAGACGTGC TCAAGGTGGT GAAGGAGGTG GCCAACCTGA AACCAAAGTC CTGGGTCCGC 
CTCAAGCGGG GCATTTACAA GGATGACATC GCTCAGGTGG ATTACGTGGA GCCCAGCCAG 
AACACCATCT CCTTGAAGAT GATCCCCCGC ATCGACTACG ACCGCATCAA GGCCCGCATG 
AGCTTGAAAG ACTGGTTTGC CAAAAGGAAG AAGTTTAAGC GGCCTCCACA GAGGCTGTTT 
GATGCTGAGA AGATCAGGTC CCTGGGGGGT GATGTTGCCT CTGATGGTGA TTTCCTCATC 
TTCGAGGGGA ACCGTTACAG CCGGAAGGGC TTTCTGTTCA AGAGCTTCGC CATGTCTGCT 
GTGATCACGG AGGGTGTGAA GCCCACGCTC TCGGAGCTGG AGAAGTTTGA GGACCAGCCA 
GAGGGCATCG ACCTGGAGGT GGTGACTGAG AGCACAGGGA AGGAGCGGGA ACACAACTTC 
CAACCTGGGG ACAATGTGGA GGTCTGTGAG GGTGAGCTCA TCAACCTGCA GGGCAAGATC 
CTCAGCGTGG ACGGCAACAA GATCACCATC ATGCCCAAGC ACGAGGACCT CAAGGACATG 
CTGGAGTTCC CGGCCCAGGA ACTTCGGAAA TACTTCAAGA TGGGGGACCA CGTGAAGGTC 
ATTGCCGGCC GATTTGAAGG CGACACGGGC CTCATTGTGC GGGTGGAGGA GAACTTTGTC 
ATCCTCTTCT CCGACCTCAC CATGCATGAG CTGAAGGTGC TGCCCCGGGA CCTGCAGCTC 
TGCTCGGAGA CAGCATCAGG TGTGGATGTT GGGGGCCAGC ATGAATGGGG TGAGCTGGTA 
CAGCTGGACC CCCAGACTGT GGGTGTCATC GTGCGACTGG AACGGGAGAC CTTCCAGGTG 
CTGAACATGC ATGGGAAGGT GGTGACTGTC AGGCATCAGG CTGTGACCCG GAAAAAGGAC 
AACCGCTTTG CCGTGGCCCT GGACTCAGAA CAGAACAACA TTCACGTGAA AGATATCGTC 
AAGGTCATTG ACGGTCCCCA TTCAGGCCGG GAGGGGGAGA TTCGACATCT TTATCGCAGC 
TTCGCCTTCC TGCATTGCAA GAAACTGGTG GAGAACGGGG GCATGTTTGT CTGCAAGACC 
CGCCACCTGG TGCTGGCCGG GGGCTCAAAG CCCCGAGATG TGACCAACTC CACCATGGGT 
GGCTTTTCCC CTATGAGCCC CCGGATCAGC AGCCCCATGC ACCCCAGTGC TGGAGGTCAG 
TGCGGCGGCT TTGGTAGCCC AGGTGGTGGC GGCGGCGGCA TGAGCAGGGG CCGGGGGCGG 
AGAGACAACG AACTCATCGG CCAGACCGTG CGCATCTCCC AGGGGCCCTA CAAAGGTTAC 
ATTGGCGTGG TGAAGGATGC CACAGAGTCC ACGGCCCGTG TGGAGCTGCA CTCCACCTGC 
CAGACCATCT CTGTGGACCG CCAGCGCCTC ACCACAGTGG GCTCTCGGCG CCCAGGTGGC 
ATGACCTCGA CCTATGGGCG GACGCCCATG TATGGCTCCC AGACGCCCAT GTACGGCTCC 
GGCTCCCGTA CGCCCATGTA CGGCTCCCAG ACACCTCTCC AGGATGGCAG CCGCACCCCG 
CATTACGGCT CACAGACGCC CCTGCATGAC GGCAGCCGCA CTCCTGCCCA GAGCGGGGCC 
TGGGACCCTA ACAACCCCAA CACCCCGTCA CGGGCTGAGG AAGAATACGA GTATGCCTTC 
GATGACGAAC CCACCCCGTC CCCACAGGCT TATGGGGGAA CCCCCAATCC CCAGACACCC 
GGCTACCCAG ACCCCTCATC CCCACAGGTC AACCCTCAGT ACAACCCACA GACGCCAGGG 
ACGCCGGCCA TGTACAACAC AGACCAGTTC TCCCCCTATG CCGCCCCCTC CCCGCAAGGC 
TCCTATCAGC CTAGCCCCAG CCCCCAGAGC TACCACCAGG TGGCACCTAG CCCAGCAGGG 
TACCAGAACA CCCACTCTCC AGCCAGCTAC CATCCCACGC CCTCACCCAT GGCCTATCAG 
GCTAGCCCCA GCCCCAGCCC TGTTGGCTAC AGTCCGATGA CACCCGGAGC CCCCTCCCCT 
GGTGGCTACA ACCCCCACAC ACCAGGCTCA GGCATTGAGC AGAACTCTAG CGACTGGGTA 
ACCACTGACA TCCAGGTGAA GGTGCGGGAC ACCTACCTGG ATACACAGGT GGTGGGACAG 
ACAGGTGTCA TCCGCAGCGT CACGGGAGGC ATGTGCTCCG TGTATCTGAA GGATAGTGAG 
AAGGTTGTCA GCATTTCCAG TGAGCACCTG GAGCCCATCA CCCCCACCAA GAATAACAAG 
GTAAAAGTGA TCCTGGGTGA GGATCGGGAA GCCACAGGTG TCCTGTTGAG CATCGATGGT 
GAGGATGGCA TTGTCCGCAT GGACCTCGAC GAGCAGCTCA AGATTCTCAA CCTCCGCTTC 
CTGGGGAAGC TCCTGGAAGC CTAA

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

RefSeq	XP_012512484.1
CDS	74..3337
Translation	MSDSEDSNFSEEEDSERSSDGEEAEVEEEQRSAAGSEKEEEPEEEEEEEEEEEYDEEEEEEDDDRPPKKPRHGGFILDEADVDDEYEDEDQWEDGAEDILEKEEIEASNIDNVVLDEDRSGARRLQNLWRDQREEELGEYYMKKYAKSSVGETVYGGSDELSDDITQQQLLPGVKDPNLWTVKCKIGEERATAISLMRKFIAYQFTDTPLQIKSVVAPEHVKGYIYVEAYKQTHVKQAIEGVGNLRLGYWNQQMVPIKEMTDVLKVVKEVANLKPKSWVRLKRGIYKDDIAQVDYVEPSQNTISLKMIPRIDYDRIKARMSLKDWFAKRKKFKRPPQRLFDAEKIRSLGGDVASDGDFLIFEGNRYSRKGFLFKSFAMSAVITEGVKPTLSELEKFEDQPEGIDLEVVTESTGKEREHNFQPGDNVEVCEGELINLQGKILSVDGNKITIMPKHEDLKDMLEFPAQELRKYFKMGDHVKVIAGRFEGDTGLIVRVEENFVILFSDLTMHELKVLPRDLQLCSETASGVDVGGQHEWGELVQLDPQTVGVIVRLERETFQVLNMHGKVVTVRHQAVTRKKDNRFAVALDSEQNNIHVKDIVKVIDGPHSGREGEIRHLYRSFAFLHCKKLVENGGMFVCKTRHLVLAGGSKPRDVTNSTMGGFSPMSPRISSPMHPSAGGQCGGFGSPGGGGGGMSRGRGRRDNELIGQTVRISQGPYKGYIGVVKDATESTARVELHSTCQTISVDRQRLTTVGSRRPGGMTSTYGRTPMYGSQTPMYGSGSRTPMYGSQTPLQDGSRTPHYGSQTPLHDGSRTPAQSGAWDPNNPNTPSRAEEEYEYAFDDEPTPSPQAYGGTPNPQTPGYPDPSSPQVNPQYNPQTPGTPAMYNTDQFSPYAAPSPQGSYQPSPSPQSYHQVAPSPAGYQNTHSPASYHPTPSPMAYQASPSPSPVGYSPMTPGAPSPGGYNPHTPGSGIEQNSSDWVTTDIQVKVRDTYLDTQVVGQTGVIRSVTGGMCSVYLKDSEKVVSISSEHLEPITPTKNNKVKVILGEDREATGVLLSIDGEDGIVRMDLDEQLKILNLRFLGKLLEA

Target ORF information:

RefSeq Version	XM_012657030.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli suppressor of Ty 5 homolog (S. cerevisiae) (SUPT5H), transcript variant X2, mRNA.

Target ORF information:

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

XM_012657030.1

ORF Insert Sequence:

ATGTCCGACA GCGAGGATAG CAACTTCTCC GAGGAGGAGG ACAGCGAGCG CAGCAGTGAT 
GGCGAGGAGG CCGAGGTAGA GGAAGAGCAG CGGAGTGCAG CAGGCAGTGA GAAGGAGGAA 
GAGCCCGAGG AAGAAGAAGA GGAGGAAGAG GAGGAAGAAT ATGATGAAGA AGAGGAGGAG 
GAAGATGATG ACCGGCCTCC CAAGAAACCC CGCCATGGTG GCTTCATTCT GGATGAGGCT 
GATGTGGACG ATGAGTATGA GGACGAGGAC CAGTGGGAGG ATGGAGCAGA GGACATCCTA 
GAGAAAGAAG AGATTGAAGC TTCCAATATT GACAATGTCG TCCTGGACGA AGACCGCTCT 
GGGGCTCGCC GCCTACAAAA CCTCTGGAGG GACCAGCGAG AAGAAGAACT GGGCGAGTAT 
TACATGAAGA AATACGCCAA GTCGTCTGTG GGCGAGACGG TATACGGAGG ATCTGATGAG 
CTCTCCGATG ACATCACCCA GCAGCAGCTG CTCCCGGGAG TCAAGGATCC CAACCTGTGG 
ACTGTCAAGT GTAAGATAGG GGAGGAACGG GCCACGGCCA TTTCCCTGAT GCGCAAGTTC 
ATTGCCTACC AGTTCACAGA CACACCCCTG CAGATTAAGT CAGTAGTGGC ACCAGAGCAT 
GTGAAGGGCT ACATCTACGT GGAGGCCTAC AAGCAGACCC ACGTGAAGCA GGCCATTGAG 
GGTGTGGGCA ACCTGCGGCT TGGCTACTGG AACCAGCAGA TGGTGCCCAT CAAGGAGATG 
ACAGACGTGC TCAAGGTGGT GAAGGAGGTG GCCAACCTGA AACCAAAGTC CTGGGTCCGC 
CTCAAGCGGG GCATTTACAA GGATGACATC GCTCAGGTGG ATTACGTGGA GCCCAGCCAG 
AACACCATCT CCTTGAAGAT GATCCCCCGC ATCGACTACG ACCGCATCAA GGCCCGCATG 
AGCTTGAAAG ACTGGTTTGC CAAAAGGAAG AAGTTTAAGC GGCCTCCACA GAGGCTGTTT 
GATGCTGAGA AGATCAGGTC CCTGGGGGGT GATGTTGCCT CTGATGGTGA TTTCCTCATC 
TTCGAGGGGA ACCGTTACAG CCGGAAGGGC TTTCTGTTCA AGAGCTTCGC CATGTCTGCT 
GTGATCACGG AGGGTGTGAA GCCCACGCTC TCGGAGCTGG AGAAGTTTGA GGACCAGCCA 
GAGGGCATCG ACCTGGAGGT GGTGACTGAG AGCACAGGGA AGGAGCGGGA ACACAACTTC 
CAACCTGGGG ACAATGTGGA GGTCTGTGAG GGTGAGCTCA TCAACCTGCA GGGCAAGATC 
CTCAGCGTGG ACGGCAACAA GATCACCATC ATGCCCAAGC ACGAGGACCT CAAGGACATG 
CTGGAGTTCC CGGCCCAGGA ACTTCGGAAA TACTTCAAGA TGGGGGACCA CGTGAAGGTC 
ATTGCCGGCC GATTTGAAGG CGACACGGGC CTCATTGTGC GGGTGGAGGA GAACTTTGTC 
ATCCTCTTCT CCGACCTCAC CATGCATGAG CTGAAGGTGC TGCCCCGGGA CCTGCAGCTC 
TGCTCGGAGA CAGCATCAGG TGTGGATGTT GGGGGCCAGC ATGAATGGGG TGAGCTGGTA 
CAGCTGGACC CCCAGACTGT GGGTGTCATC GTGCGACTGG AACGGGAGAC CTTCCAGGTG 
CTGAACATGC ATGGGAAGGT GGTGACTGTC AGGCATCAGG CTGTGACCCG GAAAAAGGAC 
AACCGCTTTG CCGTGGCCCT GGACTCAGAA CAGAACAACA TTCACGTGAA AGATATCGTC 
AAGGTCATTG ACGGTCCCCA TTCAGGCCGG GAGGGGGAGA TTCGACATCT TTATCGCAGC 
TTCGCCTTCC TGCATTGCAA GAAACTGGTG GAGAACGGGG GCATGTTTGT CTGCAAGACC 
CGCCACCTGG TGCTGGCCGG GGGCTCAAAG CCCCGAGATG TGACCAACTC CACCATGGGT 
GGCTTTTCCC CTATGAGCCC CCGGATCAGC AGCCCCATGC ACCCCAGTGC TGGAGGTCAG 
TGCGGCGGCT TTGGTAGCCC AGGTGGTGGC GGCGGCGGCA TGAGCAGGGG CCGGGGGCGG 
AGAGACAACG AACTCATCGG CCAGACCGTG CGCATCTCCC AGGGGCCCTA CAAAGGTTAC 
ATTGGCGTGG TGAAGGATGC CACAGAGTCC ACGGCCCGTG TGGAGCTGCA CTCCACCTGC 
CAGACCATCT CTGTGGACCG CCAGCGCCTC ACCACAGTGG GCTCTCGGCG CCCAGGTGGC 
ATGACCTCGA CCTATGGGCG GACGCCCATG TATGGCTCCC AGACGCCCAT GTACGGCTCC 
GGCTCCCGTA CGCCCATGTA CGGCTCCCAG ACACCTCTCC AGGATGGCAG CCGCACCCCG 
CATTACGGCT CACAGACGCC CCTGCATGAC GGCAGCCGCA CTCCTGCCCA GAGCGGGGCC 
TGGGACCCTA ACAACCCCAA CACCCCGTCA CGGGCTGAGG AAGAATACGA GTATGCCTTC 
GATGACGAAC CCACCCCGTC CCCACAGGCT TATGGGGGAA CCCCCAATCC CCAGACACCC 
GGCTACCCAG ACCCCTCATC CCCACAGGTC AACCCTCAGT ACAACCCACA GACGCCAGGG 
ACGCCGGCCA TGTACAACAC AGACCAGTTC TCCCCCTATG CCGCCCCCTC CCCGCAAGGC 
TCCTATCAGC CTAGCCCCAG CCCCCAGAGC TACCACCAGG TGGCACCTAG CCCAGCAGGG 
TACCAGAACA CCCACTCTCC AGCCAGCTAC CATCCCACGC CCTCACCCAT GGCCTATCAG 
GCTAGCCCCA GCCCCAGCCC TGTTGGCTAC AGTCCGATGA CACCCGGAGC CCCCTCCCCT 
GGTGGCTACA ACCCCCACAC ACCAGGCTCA GGCATTGAGC AGAACTCTAG CGACTGGGTA 
ACCACTGACA TCCAGGTGAA GGTGCGGGAC ACCTACCTGG ATACACAGGT GGTGGGACAG 
ACAGGTGTCA TCCGCAGCGT CACGGGAGGC ATGTGCTCCG TGTATCTGAA GGATAGTGAG 
AAGGTTGTCA GCATTTCCAG TGAGCACCTG GAGCCCATCA CCCCCACCAA GAATAACAAG 
GTAAAAGTGA TCCTGGGTGA GGATCGGGAA GCCACAGGTG TCCTGTTGAG CATCGATGGT 
GAGGATGGCA TTGTCCGCAT GGACCTCGAC GAGCAGCTCA AGATTCTCAA CCTCCGCTTC 
CTGGGGAAGC TCCTGGAAGC CTAA

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

SUPT5H ( XM_012657029.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012512483.1 Propithecus coquereli suppressor of Ty 5 homolog (S. cerevisiae) (SUPT5H), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPr113956
Clone ID Related Accession (Same CDS sequence)	XM_012657030.1 , XM_012657029.1
Accession Version	XM_012657029.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3264bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	transcription elongation factor SPT5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012151174.1) 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 :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCGACA GCGAGGATAG CAACTTCTCC GAGGAGGAGG ACAGCGAGCG CAGCAGTGAT 
GGCGAGGAGG CCGAGGTAGA GGAAGAGCAG CGGAGTGCAG CAGGCAGTGA GAAGGAGGAA 
GAGCCCGAGG AAGAAGAAGA GGAGGAAGAG GAGGAAGAAT ATGATGAAGA AGAGGAGGAG 
GAAGATGATG ACCGGCCTCC CAAGAAACCC CGCCATGGTG GCTTCATTCT GGATGAGGCT 
GATGTGGACG ATGAGTATGA GGACGAGGAC CAGTGGGAGG ATGGAGCAGA GGACATCCTA 
GAGAAAGAAG AGATTGAAGC TTCCAATATT GACAATGTCG TCCTGGACGA AGACCGCTCT 
GGGGCTCGCC GCCTACAAAA CCTCTGGAGG GACCAGCGAG AAGAAGAACT GGGCGAGTAT 
TACATGAAGA AATACGCCAA GTCGTCTGTG GGCGAGACGG TATACGGAGG ATCTGATGAG 
CTCTCCGATG ACATCACCCA GCAGCAGCTG CTCCCGGGAG TCAAGGATCC CAACCTGTGG 
ACTGTCAAGT GTAAGATAGG GGAGGAACGG GCCACGGCCA TTTCCCTGAT GCGCAAGTTC 
ATTGCCTACC AGTTCACAGA CACACCCCTG CAGATTAAGT CAGTAGTGGC ACCAGAGCAT 
GTGAAGGGCT ACATCTACGT GGAGGCCTAC AAGCAGACCC ACGTGAAGCA GGCCATTGAG 
GGTGTGGGCA ACCTGCGGCT TGGCTACTGG AACCAGCAGA TGGTGCCCAT CAAGGAGATG 
ACAGACGTGC TCAAGGTGGT GAAGGAGGTG GCCAACCTGA AACCAAAGTC CTGGGTCCGC 
CTCAAGCGGG GCATTTACAA GGATGACATC GCTCAGGTGG ATTACGTGGA GCCCAGCCAG 
AACACCATCT CCTTGAAGAT GATCCCCCGC ATCGACTACG ACCGCATCAA GGCCCGCATG 
AGCTTGAAAG ACTGGTTTGC CAAAAGGAAG AAGTTTAAGC GGCCTCCACA GAGGCTGTTT 
GATGCTGAGA AGATCAGGTC CCTGGGGGGT GATGTTGCCT CTGATGGTGA TTTCCTCATC 
TTCGAGGGGA ACCGTTACAG CCGGAAGGGC TTTCTGTTCA AGAGCTTCGC CATGTCTGCT 
GTGATCACGG AGGGTGTGAA GCCCACGCTC TCGGAGCTGG AGAAGTTTGA GGACCAGCCA 
GAGGGCATCG ACCTGGAGGT GGTGACTGAG AGCACAGGGA AGGAGCGGGA ACACAACTTC 
CAACCTGGGG ACAATGTGGA GGTCTGTGAG GGTGAGCTCA TCAACCTGCA GGGCAAGATC 
CTCAGCGTGG ACGGCAACAA GATCACCATC ATGCCCAAGC ACGAGGACCT CAAGGACATG 
CTGGAGTTCC CGGCCCAGGA ACTTCGGAAA TACTTCAAGA TGGGGGACCA CGTGAAGGTC 
ATTGCCGGCC GATTTGAAGG CGACACGGGC CTCATTGTGC GGGTGGAGGA GAACTTTGTC 
ATCCTCTTCT CCGACCTCAC CATGCATGAG CTGAAGGTGC TGCCCCGGGA CCTGCAGCTC 
TGCTCGGAGA CAGCATCAGG TGTGGATGTT GGGGGCCAGC ATGAATGGGG TGAGCTGGTA 
CAGCTGGACC CCCAGACTGT GGGTGTCATC GTGCGACTGG AACGGGAGAC CTTCCAGGTG 
CTGAACATGC ATGGGAAGGT GGTGACTGTC AGGCATCAGG CTGTGACCCG GAAAAAGGAC 
AACCGCTTTG CCGTGGCCCT GGACTCAGAA CAGAACAACA TTCACGTGAA AGATATCGTC 
AAGGTCATTG ACGGTCCCCA TTCAGGCCGG GAGGGGGAGA TTCGACATCT TTATCGCAGC 
TTCGCCTTCC TGCATTGCAA GAAACTGGTG GAGAACGGGG GCATGTTTGT CTGCAAGACC 
CGCCACCTGG TGCTGGCCGG GGGCTCAAAG CCCCGAGATG TGACCAACTC CACCATGGGT 
GGCTTTTCCC CTATGAGCCC CCGGATCAGC AGCCCCATGC ACCCCAGTGC TGGAGGTCAG 
TGCGGCGGCT TTGGTAGCCC AGGTGGTGGC GGCGGCGGCA TGAGCAGGGG CCGGGGGCGG 
AGAGACAACG AACTCATCGG CCAGACCGTG CGCATCTCCC AGGGGCCCTA CAAAGGTTAC 
ATTGGCGTGG TGAAGGATGC CACAGAGTCC ACGGCCCGTG TGGAGCTGCA CTCCACCTGC 
CAGACCATCT CTGTGGACCG CCAGCGCCTC ACCACAGTGG GCTCTCGGCG CCCAGGTGGC 
ATGACCTCGA CCTATGGGCG GACGCCCATG TATGGCTCCC AGACGCCCAT GTACGGCTCC 
GGCTCCCGTA CGCCCATGTA CGGCTCCCAG ACACCTCTCC AGGATGGCAG CCGCACCCCG 
CATTACGGCT CACAGACGCC CCTGCATGAC GGCAGCCGCA CTCCTGCCCA GAGCGGGGCC 
TGGGACCCTA ACAACCCCAA CACCCCGTCA CGGGCTGAGG AAGAATACGA GTATGCCTTC 
GATGACGAAC CCACCCCGTC CCCACAGGCT TATGGGGGAA CCCCCAATCC CCAGACACCC 
GGCTACCCAG ACCCCTCATC CCCACAGGTC AACCCTCAGT ACAACCCACA GACGCCAGGG 
ACGCCGGCCA TGTACAACAC AGACCAGTTC TCCCCCTATG CCGCCCCCTC CCCGCAAGGC 
TCCTATCAGC CTAGCCCCAG CCCCCAGAGC TACCACCAGG TGGCACCTAG CCCAGCAGGG 
TACCAGAACA CCCACTCTCC AGCCAGCTAC CATCCCACGC CCTCACCCAT GGCCTATCAG 
GCTAGCCCCA GCCCCAGCCC TGTTGGCTAC AGTCCGATGA CACCCGGAGC CCCCTCCCCT 
GGTGGCTACA ACCCCCACAC ACCAGGCTCA GGCATTGAGC AGAACTCTAG CGACTGGGTA 
ACCACTGACA TCCAGGTGAA GGTGCGGGAC ACCTACCTGG ATACACAGGT GGTGGGACAG 
ACAGGTGTCA TCCGCAGCGT CACGGGAGGC ATGTGCTCCG TGTATCTGAA GGATAGTGAG 
AAGGTTGTCA GCATTTCCAG TGAGCACCTG GAGCCCATCA CCCCCACCAA GAATAACAAG 
GTAAAAGTGA TCCTGGGTGA GGATCGGGAA GCCACAGGTG TCCTGTTGAG CATCGATGGT 
GAGGATGGCA TTGTCCGCAT GGACCTCGAC GAGCAGCTCA AGATTCTCAA CCTCCGCTTC 
CTGGGGAAGC TCCTGGAAGC CTAA

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

RefSeq	XP_012512483.1
CDS	90..3353
Translation	MSDSEDSNFSEEEDSERSSDGEEAEVEEEQRSAAGSEKEEEPEEEEEEEEEEEYDEEEEEEDDDRPPKKPRHGGFILDEADVDDEYEDEDQWEDGAEDILEKEEIEASNIDNVVLDEDRSGARRLQNLWRDQREEELGEYYMKKYAKSSVGETVYGGSDELSDDITQQQLLPGVKDPNLWTVKCKIGEERATAISLMRKFIAYQFTDTPLQIKSVVAPEHVKGYIYVEAYKQTHVKQAIEGVGNLRLGYWNQQMVPIKEMTDVLKVVKEVANLKPKSWVRLKRGIYKDDIAQVDYVEPSQNTISLKMIPRIDYDRIKARMSLKDWFAKRKKFKRPPQRLFDAEKIRSLGGDVASDGDFLIFEGNRYSRKGFLFKSFAMSAVITEGVKPTLSELEKFEDQPEGIDLEVVTESTGKEREHNFQPGDNVEVCEGELINLQGKILSVDGNKITIMPKHEDLKDMLEFPAQELRKYFKMGDHVKVIAGRFEGDTGLIVRVEENFVILFSDLTMHELKVLPRDLQLCSETASGVDVGGQHEWGELVQLDPQTVGVIVRLERETFQVLNMHGKVVTVRHQAVTRKKDNRFAVALDSEQNNIHVKDIVKVIDGPHSGREGEIRHLYRSFAFLHCKKLVENGGMFVCKTRHLVLAGGSKPRDVTNSTMGGFSPMSPRISSPMHPSAGGQCGGFGSPGGGGGGMSRGRGRRDNELIGQTVRISQGPYKGYIGVVKDATESTARVELHSTCQTISVDRQRLTTVGSRRPGGMTSTYGRTPMYGSQTPMYGSGSRTPMYGSQTPLQDGSRTPHYGSQTPLHDGSRTPAQSGAWDPNNPNTPSRAEEEYEYAFDDEPTPSPQAYGGTPNPQTPGYPDPSSPQVNPQYNPQTPGTPAMYNTDQFSPYAAPSPQGSYQPSPSPQSYHQVAPSPAGYQNTHSPASYHPTPSPMAYQASPSPSPVGYSPMTPGAPSPGGYNPHTPGSGIEQNSSDWVTTDIQVKVRDTYLDTQVVGQTGVIRSVTGGMCSVYLKDSEKVVSISSEHLEPITPTKNNKVKVILGEDREATGVLLSIDGEDGIVRMDLDEQLKILNLRFLGKLLEA

Target ORF information:

RefSeq Version	XM_012657029.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli suppressor of Ty 5 homolog (S. cerevisiae) (SUPT5H), transcript variant X1, mRNA.

Target ORF information:

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

XM_012657029.1

ORF Insert Sequence:

ATGTCCGACA GCGAGGATAG CAACTTCTCC GAGGAGGAGG ACAGCGAGCG CAGCAGTGAT 
GGCGAGGAGG CCGAGGTAGA GGAAGAGCAG CGGAGTGCAG CAGGCAGTGA GAAGGAGGAA 
GAGCCCGAGG AAGAAGAAGA GGAGGAAGAG GAGGAAGAAT ATGATGAAGA AGAGGAGGAG 
GAAGATGATG ACCGGCCTCC CAAGAAACCC CGCCATGGTG GCTTCATTCT GGATGAGGCT 
GATGTGGACG ATGAGTATGA GGACGAGGAC CAGTGGGAGG ATGGAGCAGA GGACATCCTA 
GAGAAAGAAG AGATTGAAGC TTCCAATATT GACAATGTCG TCCTGGACGA AGACCGCTCT 
GGGGCTCGCC GCCTACAAAA CCTCTGGAGG GACCAGCGAG AAGAAGAACT GGGCGAGTAT 
TACATGAAGA AATACGCCAA GTCGTCTGTG GGCGAGACGG TATACGGAGG ATCTGATGAG 
CTCTCCGATG ACATCACCCA GCAGCAGCTG CTCCCGGGAG TCAAGGATCC CAACCTGTGG 
ACTGTCAAGT GTAAGATAGG GGAGGAACGG GCCACGGCCA TTTCCCTGAT GCGCAAGTTC 
ATTGCCTACC AGTTCACAGA CACACCCCTG CAGATTAAGT CAGTAGTGGC ACCAGAGCAT 
GTGAAGGGCT ACATCTACGT GGAGGCCTAC AAGCAGACCC ACGTGAAGCA GGCCATTGAG 
GGTGTGGGCA ACCTGCGGCT TGGCTACTGG AACCAGCAGA TGGTGCCCAT CAAGGAGATG 
ACAGACGTGC TCAAGGTGGT GAAGGAGGTG GCCAACCTGA AACCAAAGTC CTGGGTCCGC 
CTCAAGCGGG GCATTTACAA GGATGACATC GCTCAGGTGG ATTACGTGGA GCCCAGCCAG 
AACACCATCT CCTTGAAGAT GATCCCCCGC ATCGACTACG ACCGCATCAA GGCCCGCATG 
AGCTTGAAAG ACTGGTTTGC CAAAAGGAAG AAGTTTAAGC GGCCTCCACA GAGGCTGTTT 
GATGCTGAGA AGATCAGGTC CCTGGGGGGT GATGTTGCCT CTGATGGTGA TTTCCTCATC 
TTCGAGGGGA ACCGTTACAG CCGGAAGGGC TTTCTGTTCA AGAGCTTCGC CATGTCTGCT 
GTGATCACGG AGGGTGTGAA GCCCACGCTC TCGGAGCTGG AGAAGTTTGA GGACCAGCCA 
GAGGGCATCG ACCTGGAGGT GGTGACTGAG AGCACAGGGA AGGAGCGGGA ACACAACTTC 
CAACCTGGGG ACAATGTGGA GGTCTGTGAG GGTGAGCTCA TCAACCTGCA GGGCAAGATC 
CTCAGCGTGG ACGGCAACAA GATCACCATC ATGCCCAAGC ACGAGGACCT CAAGGACATG 
CTGGAGTTCC CGGCCCAGGA ACTTCGGAAA TACTTCAAGA TGGGGGACCA CGTGAAGGTC 
ATTGCCGGCC GATTTGAAGG CGACACGGGC CTCATTGTGC GGGTGGAGGA GAACTTTGTC 
ATCCTCTTCT CCGACCTCAC CATGCATGAG CTGAAGGTGC TGCCCCGGGA CCTGCAGCTC 
TGCTCGGAGA CAGCATCAGG TGTGGATGTT GGGGGCCAGC ATGAATGGGG TGAGCTGGTA 
CAGCTGGACC CCCAGACTGT GGGTGTCATC GTGCGACTGG AACGGGAGAC CTTCCAGGTG 
CTGAACATGC ATGGGAAGGT GGTGACTGTC AGGCATCAGG CTGTGACCCG GAAAAAGGAC 
AACCGCTTTG CCGTGGCCCT GGACTCAGAA CAGAACAACA TTCACGTGAA AGATATCGTC 
AAGGTCATTG ACGGTCCCCA TTCAGGCCGG GAGGGGGAGA TTCGACATCT TTATCGCAGC 
TTCGCCTTCC TGCATTGCAA GAAACTGGTG GAGAACGGGG GCATGTTTGT CTGCAAGACC 
CGCCACCTGG TGCTGGCCGG GGGCTCAAAG CCCCGAGATG TGACCAACTC CACCATGGGT 
GGCTTTTCCC CTATGAGCCC CCGGATCAGC AGCCCCATGC ACCCCAGTGC TGGAGGTCAG 
TGCGGCGGCT TTGGTAGCCC AGGTGGTGGC GGCGGCGGCA TGAGCAGGGG CCGGGGGCGG 
AGAGACAACG AACTCATCGG CCAGACCGTG CGCATCTCCC AGGGGCCCTA CAAAGGTTAC 
ATTGGCGTGG TGAAGGATGC CACAGAGTCC ACGGCCCGTG TGGAGCTGCA CTCCACCTGC 
CAGACCATCT CTGTGGACCG CCAGCGCCTC ACCACAGTGG GCTCTCGGCG CCCAGGTGGC 
ATGACCTCGA CCTATGGGCG GACGCCCATG TATGGCTCCC AGACGCCCAT GTACGGCTCC 
GGCTCCCGTA CGCCCATGTA CGGCTCCCAG ACACCTCTCC AGGATGGCAG CCGCACCCCG 
CATTACGGCT CACAGACGCC CCTGCATGAC GGCAGCCGCA CTCCTGCCCA GAGCGGGGCC 
TGGGACCCTA ACAACCCCAA CACCCCGTCA CGGGCTGAGG AAGAATACGA GTATGCCTTC 
GATGACGAAC CCACCCCGTC CCCACAGGCT TATGGGGGAA CCCCCAATCC CCAGACACCC 
GGCTACCCAG ACCCCTCATC CCCACAGGTC AACCCTCAGT ACAACCCACA GACGCCAGGG 
ACGCCGGCCA TGTACAACAC AGACCAGTTC TCCCCCTATG CCGCCCCCTC CCCGCAAGGC 
TCCTATCAGC CTAGCCCCAG CCCCCAGAGC TACCACCAGG TGGCACCTAG CCCAGCAGGG 
TACCAGAACA CCCACTCTCC AGCCAGCTAC CATCCCACGC CCTCACCCAT GGCCTATCAG 
GCTAGCCCCA GCCCCAGCCC TGTTGGCTAC AGTCCGATGA CACCCGGAGC CCCCTCCCCT 
GGTGGCTACA ACCCCCACAC ACCAGGCTCA GGCATTGAGC AGAACTCTAG CGACTGGGTA 
ACCACTGACA TCCAGGTGAA GGTGCGGGAC ACCTACCTGG ATACACAGGT GGTGGGACAG 
ACAGGTGTCA TCCGCAGCGT CACGGGAGGC ATGTGCTCCG TGTATCTGAA GGATAGTGAG 
AAGGTTGTCA GCATTTCCAG TGAGCACCTG GAGCCCATCA CCCCCACCAA GAATAACAAG 
GTAAAAGTGA TCCTGGGTGA GGATCGGGAA GCCACAGGTG TCCTGTTGAG CATCGATGGT 
GAGGATGGCA TTGTCCGCAT GGACCTCGAC GAGCAGCTCA AGATTCTCAA CCTCCGCTTC 
CTGGGGAAGC TCCTGGAAGC CTAA