CDC27 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	CDC27
Entrez Gene ID	100223686
Full Name	cell division cycle 27
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012571068.2	XP_012426522.1	cell division cycle protein 27 homolog isoform X3
XM_012571067.2	XP_012426521.1	cell division cycle protein 27 homolog isoform X2
XM_012571067.1	XP_012426521.1	cell division cycle protein 27 homolog isoform X2
XM_012571066.1	XP_012426520.1	cell division cycle protein 27 homolog isoform X1
XM_012571066.2	XP_012426520.1	cell division cycle protein 27 homolog isoform X1
XM_002192936.3	XP_002192972.1	cell division cycle protein 27 homolog isoform X4
XM_002192936.4	XP_002192972.1	cell division cycle protein 27 homolog isoform X4
XM_012571068.1	XP_012426522.1	cell division cycle protein 27 homolog isoform X3

Pathways from BioSystems
Gene Ontology

The following CDC27 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CDC27 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)
OTd06364	XM_002192936.3 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd16687	XM_012571066.1 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd16688	XM_012571067.1 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd16689	XM_012571068.1 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd40485	XM_012571066.2 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd40486	XM_012571067.2 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd40487	XM_012571068.2 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd40488	XM_002192936.4 Latest version!	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X4, 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)
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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)

CDC27 ( XM_002192936.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192972.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd06364
Clone ID Related Accession (Same CDS sequence)	XM_002192936.3
Accession Version	XM_002192936.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2502bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198172.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002192936.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGGTTTGA TGAGCCTTCT CCGGGACATG GGGAAAGGTT ATTTAGCCTT GTGCTCATAC 
AACTGCAAAG AAGCCATCAA TATTTTGAGC CATTTGCCAT CCCACCACTA CAACACAGGC 
TGGGTGCTGT GCCAAATTGG GAGAGCTTAC TTTGAGCTGG CAGAATACAT GCAGGCTGAG 
CGAATATTTT CAGAAGTGAG GAGGATTGAA AACTACAGAG TGGAAGGCAT GGAAATCTAT 
TCAACCACAC TCTGGCATCT GCAGAAAGAT GTTGCCCTTT CAGTCCTTTC TAAGGATTTG 
ACAGACATGG ATAAAAACTC ACCAGAGGCC TGGTGTGCTG CAGGGAACTG CTTCAGCTTG 
CAGAGGGAGC ACGACATTGC CATCAAGTTC TTCCAGAGGG CCATCCAGGT GGATCCAAAC 
TACGCCTATG CCTACACCCT GCTGGGCCAC GAGTTTGTGT TGACAGAAGA GCTGGACAAG 
GCGTTGGCCT GTTTCAGGAA TGCCATCAGA GTTAACCCCC GGCACTACAA CGCCTGGTAC 
GGGTTGGGAA TGATTTATTA CAAGCAGGAG AAGTTCAGTC TGGCAGAAAT GCATTTCCAG 
AAAGCACTTG ATATCAACCC TCAGAGCTCA GTCCTGCTGT GTCACATTGG AGTAGTCCAA 
CATGCACTGA AAAAATCTGA GAAGGCTTTG GACACCTTGA ACAAAGCGAT CAACATCGAC 
CCCAAGAACC CACTATGCAA ATTCCACAGA GCCTCGGTGT TATTTGCAAA CGAGAAGTAC 
AAGTCGGCTT TACAAGAACT TGAAGAACTG AAACAGATTG TTCCCAAAGA GTCTCTTGTT 
TACTTTTTAA TAGGAAAGGT TTATAAAAAG CTGGGTCAGA CGCATCTGGC CCTAATGAAT 
TTCTCCTGGG CAATGGACCT GGATCCCAAA GGAGCCAACA ACCAGATCAA GGAGGCCATA 
GACAAGCGCT ACCTGCCCGA TGACGAGGAG CCCATCACCC GCGAGGAGCA GATCAGCGAG 
TGCTACCCCT ACGAGTCAGT GGGCACAGAC GAGTCCCAGG AGAGCAGCAT GACGGATGCG 
GATGACACGC AGCTCCACGC CGTGGAAAGC GATGAATTTT AA

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

RefSeq	XP_002192972.1
CDS	88..2589
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_002192936.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X4, mRNA.

Target ORF information:

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

XM_002192936.3

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGGTTTGA TGAGCCTTCT CCGGGACATG GGGAAAGGTT ATTTAGCCTT GTGCTCATAC 
AACTGCAAAG AAGCCATCAA TATTTTGAGC CATTTGCCAT CCCACCACTA CAACACAGGC 
TGGGTGCTGT GCCAAATTGG GAGAGCTTAC TTTGAGCTGG CAGAATACAT GCAGGCTGAG 
CGAATATTTT CAGAAGTGAG GAGGATTGAA AACTACAGAG TGGAAGGCAT GGAAATCTAT 
TCAACCACAC TCTGGCATCT GCAGAAAGAT GTTGCCCTTT CAGTCCTTTC TAAGGATTTG 
ACAGACATGG ATAAAAACTC ACCAGAGGCC TGGTGTGCTG CAGGGAACTG CTTCAGCTTG 
CAGAGGGAGC ACGACATTGC CATCAAGTTC TTCCAGAGGG CCATCCAGGT GGATCCAAAC 
TACGCCTATG CCTACACCCT GCTGGGCCAC GAGTTTGTGT TGACAGAAGA GCTGGACAAG 
GCGTTGGCCT GTTTCAGGAA TGCCATCAGA GTTAACCCCC GGCACTACAA CGCCTGGTAC 
GGGTTGGGAA TGATTTATTA CAAGCAGGAG AAGTTCAGTC TGGCAGAAAT GCATTTCCAG 
AAAGCACTTG ATATCAACCC TCAGAGCTCA GTCCTGCTGT GTCACATTGG AGTAGTCCAA 
CATGCACTGA AAAAATCTGA GAAGGCTTTG GACACCTTGA ACAAAGCGAT CAACATCGAC 
CCCAAGAACC CACTATGCAA ATTCCACAGA GCCTCGGTGT TATTTGCAAA CGAGAAGTAC 
AAGTCGGCTT TACAAGAACT TGAAGAACTG AAACAGATTG TTCCCAAAGA GTCTCTTGTT 
TACTTTTTAA TAGGAAAGGT TTATAAAAAG CTGGGTCAGA CGCATCTGGC CCTAATGAAT 
TTCTCCTGGG CAATGGACCT GGATCCCAAA GGAGCCAACA ACCAGATCAA GGAGGCCATA 
GACAAGCGCT ACCTGCCCGA TGACGAGGAG CCCATCACCC GCGAGGAGCA GATCAGCGAG 
TGCTACCCCT ACGAGTCAGT GGGCACAGAC GAGTCCCAGG AGAGCAGCAT GACGGATGCG 
GATGACACGC AGCTCCACGC CGTGGAAAGC GATGAATTTT AA

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

CDC27 ( XM_012571066.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426520.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd16687
Clone ID Related Accession (Same CDS sequence)	XM_012571066.1
Accession Version	XM_012571066.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2523bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198172.1) 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 :: Taeniopygia guttata Annotation Release 103 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGAAGGTTTG ATGAGCCTTC TCCGGGACAT GGGGAAAGGT 
TATTTAGCCT TGTGCTCATA CAACTGCAAA GAAGCCATCA ATATTTTGAG CCATTTGCCA 
TCCCACCACT ACAACACAGG CTGGGTGCTG TGCCAAATTG GGAGAGCTTA CTTTGAGCTG 
GCAGAATACA TGCAGGCTGA GCGAATATTT TCAGAAGTGA GGAGGATTGA AAACTACAGA 
GTGGAAGGCA TGGAAATCTA TTCAACCACA CTCTGGCATC TGCAGAAAGA TGTTGCCCTT 
TCAGTCCTTT CTAAGGATTT GACAGACATG GATAAAAACT CACCAGAGGC CTGGTGTGCT 
GCAGGGAACT GCTTCAGCTT GCAGAGGGAG CACGACATTG CCATCAAGTT CTTCCAGAGG 
GCCATCCAGG TGGATCCAAA CTACGCCTAT GCCTACACCC TGCTGGGCCA CGAGTTTGTG 
TTGACAGAAG AGCTGGACAA GGCGTTGGCC TGTTTCAGGA ATGCCATCAG AGTTAACCCC 
CGGCACTACA ACGCCTGGTA CGGGTTGGGA ATGATTTATT ACAAGCAGGA GAAGTTCAGT 
CTGGCAGAAA TGCATTTCCA GAAAGCACTT GATATCAACC CTCAGAGCTC AGTCCTGCTG 
TGTCACATTG GAGTAGTCCA ACATGCACTG AAAAAATCTG AGAAGGCTTT GGACACCTTG 
AACAAAGCGA TCAACATCGA CCCCAAGAAC CCACTATGCA AATTCCACAG AGCCTCGGTG 
TTATTTGCAA ACGAGAAGTA CAAGTCGGCT TTACAAGAAC TTGAAGAACT GAAACAGATT 
GTTCCCAAAG AGTCTCTTGT TTACTTTTTA ATAGGAAAGG TTTATAAAAA GCTGGGTCAG 
ACGCATCTGG CCCTAATGAA TTTCTCCTGG GCAATGGACC TGGATCCCAA AGGAGCCAAC 
AACCAGATCA AGGAGGCCAT AGACAAGCGC TACCTGCCCG ATGACGAGGA GCCCATCACC 
CGCGAGGAGC AGATCAGCGA GTGCTACCCC TACGAGTCAG TGGGCACAGA CGAGTCCCAG 
GAGAGCAGCA TGACGGATGC GGATGACACG CAGCTCCACG CCGTGGAAAG CGATGAATTT 
TAA

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

RefSeq	XP_012426520.1
CDS	88..2610
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKKLCVVQTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAEGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_012571066.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X1, mRNA.

Target ORF information:

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

XM_012571066.1

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGAAGGTTTG ATGAGCCTTC TCCGGGACAT GGGGAAAGGT 
TATTTAGCCT TGTGCTCATA CAACTGCAAA GAAGCCATCA ATATTTTGAG CCATTTGCCA 
TCCCACCACT ACAACACAGG CTGGGTGCTG TGCCAAATTG GGAGAGCTTA CTTTGAGCTG 
GCAGAATACA TGCAGGCTGA GCGAATATTT TCAGAAGTGA GGAGGATTGA AAACTACAGA 
GTGGAAGGCA TGGAAATCTA TTCAACCACA CTCTGGCATC TGCAGAAAGA TGTTGCCCTT 
TCAGTCCTTT CTAAGGATTT GACAGACATG GATAAAAACT CACCAGAGGC CTGGTGTGCT 
GCAGGGAACT GCTTCAGCTT GCAGAGGGAG CACGACATTG CCATCAAGTT CTTCCAGAGG 
GCCATCCAGG TGGATCCAAA CTACGCCTAT GCCTACACCC TGCTGGGCCA CGAGTTTGTG 
TTGACAGAAG AGCTGGACAA GGCGTTGGCC TGTTTCAGGA ATGCCATCAG AGTTAACCCC 
CGGCACTACA ACGCCTGGTA CGGGTTGGGA ATGATTTATT ACAAGCAGGA GAAGTTCAGT 
CTGGCAGAAA TGCATTTCCA GAAAGCACTT GATATCAACC CTCAGAGCTC AGTCCTGCTG 
TGTCACATTG GAGTAGTCCA ACATGCACTG AAAAAATCTG AGAAGGCTTT GGACACCTTG 
AACAAAGCGA TCAACATCGA CCCCAAGAAC CCACTATGCA AATTCCACAG AGCCTCGGTG 
TTATTTGCAA ACGAGAAGTA CAAGTCGGCT TTACAAGAAC TTGAAGAACT GAAACAGATT 
GTTCCCAAAG AGTCTCTTGT TTACTTTTTA ATAGGAAAGG TTTATAAAAA GCTGGGTCAG 
ACGCATCTGG CCCTAATGAA TTTCTCCTGG GCAATGGACC TGGATCCCAA AGGAGCCAAC 
AACCAGATCA AGGAGGCCAT AGACAAGCGC TACCTGCCCG ATGACGAGGA GCCCATCACC 
CGCGAGGAGC AGATCAGCGA GTGCTACCCC TACGAGTCAG TGGGCACAGA CGAGTCCCAG 
GAGAGCAGCA TGACGGATGC GGATGACACG CAGCTCCACG CCGTGGAAAG CGATGAATTT 
TAA

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

CDC27 ( XM_012571067.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426521.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd16688
Clone ID Related Accession (Same CDS sequence)	XM_012571067.1
Accession Version	XM_012571067.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2520bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198172.1) 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 :: Taeniopygia guttata Annotation Release 103 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGGTTTGATG AGCCTTCTCC GGGACATGGG GAAAGGTTAT 
TTAGCCTTGT GCTCATACAA CTGCAAAGAA GCCATCAATA TTTTGAGCCA TTTGCCATCC 
CACCACTACA ACACAGGCTG GGTGCTGTGC CAAATTGGGA GAGCTTACTT TGAGCTGGCA 
GAATACATGC AGGCTGAGCG AATATTTTCA GAAGTGAGGA GGATTGAAAA CTACAGAGTG 
GAAGGCATGG AAATCTATTC AACCACACTC TGGCATCTGC AGAAAGATGT TGCCCTTTCA 
GTCCTTTCTA AGGATTTGAC AGACATGGAT AAAAACTCAC CAGAGGCCTG GTGTGCTGCA 
GGGAACTGCT TCAGCTTGCA GAGGGAGCAC GACATTGCCA TCAAGTTCTT CCAGAGGGCC 
ATCCAGGTGG ATCCAAACTA CGCCTATGCC TACACCCTGC TGGGCCACGA GTTTGTGTTG 
ACAGAAGAGC TGGACAAGGC GTTGGCCTGT TTCAGGAATG CCATCAGAGT TAACCCCCGG 
CACTACAACG CCTGGTACGG GTTGGGAATG ATTTATTACA AGCAGGAGAA GTTCAGTCTG 
GCAGAAATGC ATTTCCAGAA AGCACTTGAT ATCAACCCTC AGAGCTCAGT CCTGCTGTGT 
CACATTGGAG TAGTCCAACA TGCACTGAAA AAATCTGAGA AGGCTTTGGA CACCTTGAAC 
AAAGCGATCA ACATCGACCC CAAGAACCCA CTATGCAAAT TCCACAGAGC CTCGGTGTTA 
TTTGCAAACG AGAAGTACAA GTCGGCTTTA CAAGAACTTG AAGAACTGAA ACAGATTGTT 
CCCAAAGAGT CTCTTGTTTA CTTTTTAATA GGAAAGGTTT ATAAAAAGCT GGGTCAGACG 
CATCTGGCCC TAATGAATTT CTCCTGGGCA ATGGACCTGG ATCCCAAAGG AGCCAACAAC 
CAGATCAAGG AGGCCATAGA CAAGCGCTAC CTGCCCGATG ACGAGGAGCC CATCACCCGC 
GAGGAGCAGA TCAGCGAGTG CTACCCCTAC GAGTCAGTGG GCACAGACGA GTCCCAGGAG 
AGCAGCATGA CGGATGCGGA TGACACGCAG CTCCACGCCG TGGAAAGCGA TGAATTTTAA

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

RefSeq	XP_012426521.1
CDS	88..2607
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKKLCVVQTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_012571067.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X2, mRNA.

Target ORF information:

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

XM_012571067.1

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGGTTTGATG AGCCTTCTCC GGGACATGGG GAAAGGTTAT 
TTAGCCTTGT GCTCATACAA CTGCAAAGAA GCCATCAATA TTTTGAGCCA TTTGCCATCC 
CACCACTACA ACACAGGCTG GGTGCTGTGC CAAATTGGGA GAGCTTACTT TGAGCTGGCA 
GAATACATGC AGGCTGAGCG AATATTTTCA GAAGTGAGGA GGATTGAAAA CTACAGAGTG 
GAAGGCATGG AAATCTATTC AACCACACTC TGGCATCTGC AGAAAGATGT TGCCCTTTCA 
GTCCTTTCTA AGGATTTGAC AGACATGGAT AAAAACTCAC CAGAGGCCTG GTGTGCTGCA 
GGGAACTGCT TCAGCTTGCA GAGGGAGCAC GACATTGCCA TCAAGTTCTT CCAGAGGGCC 
ATCCAGGTGG ATCCAAACTA CGCCTATGCC TACACCCTGC TGGGCCACGA GTTTGTGTTG 
ACAGAAGAGC TGGACAAGGC GTTGGCCTGT TTCAGGAATG CCATCAGAGT TAACCCCCGG 
CACTACAACG CCTGGTACGG GTTGGGAATG ATTTATTACA AGCAGGAGAA GTTCAGTCTG 
GCAGAAATGC ATTTCCAGAA AGCACTTGAT ATCAACCCTC AGAGCTCAGT CCTGCTGTGT 
CACATTGGAG TAGTCCAACA TGCACTGAAA AAATCTGAGA AGGCTTTGGA CACCTTGAAC 
AAAGCGATCA ACATCGACCC CAAGAACCCA CTATGCAAAT TCCACAGAGC CTCGGTGTTA 
TTTGCAAACG AGAAGTACAA GTCGGCTTTA CAAGAACTTG AAGAACTGAA ACAGATTGTT 
CCCAAAGAGT CTCTTGTTTA CTTTTTAATA GGAAAGGTTT ATAAAAAGCT GGGTCAGACG 
CATCTGGCCC TAATGAATTT CTCCTGGGCA ATGGACCTGG ATCCCAAAGG AGCCAACAAC 
CAGATCAAGG AGGCCATAGA CAAGCGCTAC CTGCCCGATG ACGAGGAGCC CATCACCCGC 
GAGGAGCAGA TCAGCGAGTG CTACCCCTAC GAGTCAGTGG GCACAGACGA GTCCCAGGAG 
AGCAGCATGA CGGATGCGGA TGACACGCAG CTCCACGCCG TGGAAAGCGA TGAATTTTAA

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

CDC27 ( XM_012571068.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426522.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd16689
Clone ID Related Accession (Same CDS sequence)	XM_012571068.1
Accession Version	XM_012571068.1 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198172.1) 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 :: Taeniopygia guttata Annotation Release 103 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGAAGGTT TGATGAGCCT TCTCCGGGAC ATGGGGAAAG GTTATTTAGC CTTGTGCTCA 
TACAACTGCA AAGAAGCCAT CAATATTTTG AGCCATTTGC CATCCCACCA CTACAACACA 
GGCTGGGTGC TGTGCCAAAT TGGGAGAGCT TACTTTGAGC TGGCAGAATA CATGCAGGCT 
GAGCGAATAT TTTCAGAAGT GAGGAGGATT GAAAACTACA GAGTGGAAGG CATGGAAATC 
TATTCAACCA CACTCTGGCA TCTGCAGAAA GATGTTGCCC TTTCAGTCCT TTCTAAGGAT 
TTGACAGACA TGGATAAAAA CTCACCAGAG GCCTGGTGTG CTGCAGGGAA CTGCTTCAGC 
TTGCAGAGGG AGCACGACAT TGCCATCAAG TTCTTCCAGA GGGCCATCCA GGTGGATCCA 
AACTACGCCT ATGCCTACAC CCTGCTGGGC CACGAGTTTG TGTTGACAGA AGAGCTGGAC 
AAGGCGTTGG CCTGTTTCAG GAATGCCATC AGAGTTAACC CCCGGCACTA CAACGCCTGG 
TACGGGTTGG GAATGATTTA TTACAAGCAG GAGAAGTTCA GTCTGGCAGA AATGCATTTC 
CAGAAAGCAC TTGATATCAA CCCTCAGAGC TCAGTCCTGC TGTGTCACAT TGGAGTAGTC 
CAACATGCAC TGAAAAAATC TGAGAAGGCT TTGGACACCT TGAACAAAGC GATCAACATC 
GACCCCAAGA ACCCACTATG CAAATTCCAC AGAGCCTCGG TGTTATTTGC AAACGAGAAG 
TACAAGTCGG CTTTACAAGA ACTTGAAGAA CTGAAACAGA TTGTTCCCAA AGAGTCTCTT 
GTTTACTTTT TAATAGGAAA GGTTTATAAA AAGCTGGGTC AGACGCATCT GGCCCTAATG 
AATTTCTCCT GGGCAATGGA CCTGGATCCC AAAGGAGCCA ACAACCAGAT CAAGGAGGCC 
ATAGACAAGC GCTACCTGCC CGATGACGAG GAGCCCATCA CCCGCGAGGA GCAGATCAGC 
GAGTGCTACC CCTACGAGTC AGTGGGCACA GACGAGTCCC AGGAGAGCAG CATGACGGAT 
GCGGATGACA CGCAGCTCCA CGCCGTGGAA AGCGATGAAT TTTAA

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

RefSeq	XP_012426522.1
CDS	170..2674
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAEGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_012571068.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X3, mRNA.

Target ORF information:

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

XM_012571068.1

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGAAGGTT TGATGAGCCT TCTCCGGGAC ATGGGGAAAG GTTATTTAGC CTTGTGCTCA 
TACAACTGCA AAGAAGCCAT CAATATTTTG AGCCATTTGC CATCCCACCA CTACAACACA 
GGCTGGGTGC TGTGCCAAAT TGGGAGAGCT TACTTTGAGC TGGCAGAATA CATGCAGGCT 
GAGCGAATAT TTTCAGAAGT GAGGAGGATT GAAAACTACA GAGTGGAAGG CATGGAAATC 
TATTCAACCA CACTCTGGCA TCTGCAGAAA GATGTTGCCC TTTCAGTCCT TTCTAAGGAT 
TTGACAGACA TGGATAAAAA CTCACCAGAG GCCTGGTGTG CTGCAGGGAA CTGCTTCAGC 
TTGCAGAGGG AGCACGACAT TGCCATCAAG TTCTTCCAGA GGGCCATCCA GGTGGATCCA 
AACTACGCCT ATGCCTACAC CCTGCTGGGC CACGAGTTTG TGTTGACAGA AGAGCTGGAC 
AAGGCGTTGG CCTGTTTCAG GAATGCCATC AGAGTTAACC CCCGGCACTA CAACGCCTGG 
TACGGGTTGG GAATGATTTA TTACAAGCAG GAGAAGTTCA GTCTGGCAGA AATGCATTTC 
CAGAAAGCAC TTGATATCAA CCCTCAGAGC TCAGTCCTGC TGTGTCACAT TGGAGTAGTC 
CAACATGCAC TGAAAAAATC TGAGAAGGCT TTGGACACCT TGAACAAAGC GATCAACATC 
GACCCCAAGA ACCCACTATG CAAATTCCAC AGAGCCTCGG TGTTATTTGC AAACGAGAAG 
TACAAGTCGG CTTTACAAGA ACTTGAAGAA CTGAAACAGA TTGTTCCCAA AGAGTCTCTT 
GTTTACTTTT TAATAGGAAA GGTTTATAAA AAGCTGGGTC AGACGCATCT GGCCCTAATG 
AATTTCTCCT GGGCAATGGA CCTGGATCCC AAAGGAGCCA ACAACCAGAT CAAGGAGGCC 
ATAGACAAGC GCTACCTGCC CGATGACGAG GAGCCCATCA CCCGCGAGGA GCAGATCAGC 
GAGTGCTACC CCTACGAGTC AGTGGGCACA GACGAGTCCC AGGAGAGCAG CATGACGGAT 
GCGGATGACA CGCAGCTCCA CGCCGTGGAA AGCGATGAAT TTTAA

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

CDC27 ( XM_012571066.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426520.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd40485
Clone ID Related Accession (Same CDS sequence)	XM_012571066.2
Accession Version	XM_012571066.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2523bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044239.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012571066.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGAAGGTTTG ATGAGCCTTC TCCGGGACAT GGGGAAAGGT 
TATTTAGCCT TGTGCTCATA CAACTGCAAA GAAGCCATCA ATATTTTGAG CCATTTGCCA 
TCCCACCACT ACAACACAGG CTGGGTGCTG TGCCAAATTG GGAGAGCTTA CTTTGAGCTG 
GCAGAATACA TGCAGGCTGA GCGAATATTT TCAGAAGTGA GGAGGATTGA AAACTACAGA 
GTGGAAGGCA TGGAAATCTA TTCAACCACA CTCTGGCATC TGCAGAAAGA TGTTGCCCTT 
TCAGTCCTTT CTAAGGATTT GACAGACATG GATAAAAACT CACCAGAGGC CTGGTGTGCT 
GCAGGGAACT GCTTCAGCTT GCAGAGGGAG CATGACATTG CCATCAAGTT CTTCCAGAGG 
GCCATCCAGG TGGATCCAAA CTACGCCTAT GCCTACACCC TGCTGGGCCA CGAGTTTGTG 
TTGACAGAAG AGCTGGACAA GGCCTTGGCC TGTTTCAGGA ATGCCATCAG AGTTAACCCC 
CGGCACTACA ACGCCTGGTA CGGGTTGGGA ATGATTTATT ACAAGCAGGA GAAGTTCAGT 
CTGGCAGAAA TGCATTTCCA GAAAGCACTT GATATCAACC CTCAGAGCTC AGTCCTGCTG 
TGTCACATTG GAGTAGTCCA ACATGCACTG AAAAAATCTG AGAAGGCTTT GGACACCTTG 
AACAAAGCGA TCAACATCGA CCCCAAGAAC CCACTATGCA AATTCCACAG AGCCTCGGTG 
TTATTTGCAA ACGAGAAGTA CAAGTCGGCT TTACAAGAAC TTGAAGAACT GAAACAGATT 
GTTCCCAAAG AGTCTCTTGT TTACTTTTTA ATAGGAAAGG TTTATAAAAA GCTGGGTCAG 
ACGCATCTGG CCCTAATGAA TTTCTCCTGG GCAATGGACC TGGATCCCAA AGGAGCCAAC 
AACCAGATCA AGGAGGCCAT AGACAAGCGC TACCTGCCCG ATGACGAGGA GCCCATCACC 
CGCGAGGAGC AGATCAGCGA GTGCTACCCC TACGAGTCAG TGGGCACAGA CGAGTCCCAG 
GAGAGCAGCA TGACGGATGC GGATGACACG CAGCTCCACG CCGTGGAAAG CGATGAATTT 
TAA

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

RefSeq	XP_012426520.1
CDS	57..2579
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKKLCVVQTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAEGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_012571066.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X1, mRNA.

Target ORF information:

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

XM_012571066.2

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGAAGGTTTG ATGAGCCTTC TCCGGGACAT GGGGAAAGGT 
TATTTAGCCT TGTGCTCATA CAACTGCAAA GAAGCCATCA ATATTTTGAG CCATTTGCCA 
TCCCACCACT ACAACACAGG CTGGGTGCTG TGCCAAATTG GGAGAGCTTA CTTTGAGCTG 
GCAGAATACA TGCAGGCTGA GCGAATATTT TCAGAAGTGA GGAGGATTGA AAACTACAGA 
GTGGAAGGCA TGGAAATCTA TTCAACCACA CTCTGGCATC TGCAGAAAGA TGTTGCCCTT 
TCAGTCCTTT CTAAGGATTT GACAGACATG GATAAAAACT CACCAGAGGC CTGGTGTGCT 
GCAGGGAACT GCTTCAGCTT GCAGAGGGAG CATGACATTG CCATCAAGTT CTTCCAGAGG 
GCCATCCAGG TGGATCCAAA CTACGCCTAT GCCTACACCC TGCTGGGCCA CGAGTTTGTG 
TTGACAGAAG AGCTGGACAA GGCCTTGGCC TGTTTCAGGA ATGCCATCAG AGTTAACCCC 
CGGCACTACA ACGCCTGGTA CGGGTTGGGA ATGATTTATT ACAAGCAGGA GAAGTTCAGT 
CTGGCAGAAA TGCATTTCCA GAAAGCACTT GATATCAACC CTCAGAGCTC AGTCCTGCTG 
TGTCACATTG GAGTAGTCCA ACATGCACTG AAAAAATCTG AGAAGGCTTT GGACACCTTG 
AACAAAGCGA TCAACATCGA CCCCAAGAAC CCACTATGCA AATTCCACAG AGCCTCGGTG 
TTATTTGCAA ACGAGAAGTA CAAGTCGGCT TTACAAGAAC TTGAAGAACT GAAACAGATT 
GTTCCCAAAG AGTCTCTTGT TTACTTTTTA ATAGGAAAGG TTTATAAAAA GCTGGGTCAG 
ACGCATCTGG CCCTAATGAA TTTCTCCTGG GCAATGGACC TGGATCCCAA AGGAGCCAAC 
AACCAGATCA AGGAGGCCAT AGACAAGCGC TACCTGCCCG ATGACGAGGA GCCCATCACC 
CGCGAGGAGC AGATCAGCGA GTGCTACCCC TACGAGTCAG TGGGCACAGA CGAGTCCCAG 
GAGAGCAGCA TGACGGATGC GGATGACACG CAGCTCCACG CCGTGGAAAG CGATGAATTT 
TAA

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

CDC27 ( XM_012571067.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426521.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd40486
Clone ID Related Accession (Same CDS sequence)	XM_012571067.2
Accession Version	XM_012571067.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2520bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044239.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012571067.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGGTTTGATG AGCCTTCTCC GGGACATGGG GAAAGGTTAT 
TTAGCCTTGT GCTCATACAA CTGCAAAGAA GCCATCAATA TTTTGAGCCA TTTGCCATCC 
CACCACTACA ACACAGGCTG GGTGCTGTGC CAAATTGGGA GAGCTTACTT TGAGCTGGCA 
GAATACATGC AGGCTGAGCG AATATTTTCA GAAGTGAGGA GGATTGAAAA CTACAGAGTG 
GAAGGCATGG AAATCTATTC AACCACACTC TGGCATCTGC AGAAAGATGT TGCCCTTTCA 
GTCCTTTCTA AGGATTTGAC AGACATGGAT AAAAACTCAC CAGAGGCCTG GTGTGCTGCA 
GGGAACTGCT TCAGCTTGCA GAGGGAGCAT GACATTGCCA TCAAGTTCTT CCAGAGGGCC 
ATCCAGGTGG ATCCAAACTA CGCCTATGCC TACACCCTGC TGGGCCACGA GTTTGTGTTG 
ACAGAAGAGC TGGACAAGGC CTTGGCCTGT TTCAGGAATG CCATCAGAGT TAACCCCCGG 
CACTACAACG CCTGGTACGG GTTGGGAATG ATTTATTACA AGCAGGAGAA GTTCAGTCTG 
GCAGAAATGC ATTTCCAGAA AGCACTTGAT ATCAACCCTC AGAGCTCAGT CCTGCTGTGT 
CACATTGGAG TAGTCCAACA TGCACTGAAA AAATCTGAGA AGGCTTTGGA CACCTTGAAC 
AAAGCGATCA ACATCGACCC CAAGAACCCA CTATGCAAAT TCCACAGAGC CTCGGTGTTA 
TTTGCAAACG AGAAGTACAA GTCGGCTTTA CAAGAACTTG AAGAACTGAA ACAGATTGTT 
CCCAAAGAGT CTCTTGTTTA CTTTTTAATA GGAAAGGTTT ATAAAAAGCT GGGTCAGACG 
CATCTGGCCC TAATGAATTT CTCCTGGGCA ATGGACCTGG ATCCCAAAGG AGCCAACAAC 
CAGATCAAGG AGGCCATAGA CAAGCGCTAC CTGCCCGATG ACGAGGAGCC CATCACCCGC 
GAGGAGCAGA TCAGCGAGTG CTACCCCTAC GAGTCAGTGG GCACAGACGA GTCCCAGGAG 
AGCAGCATGA CGGATGCGGA TGACACGCAG CTCCACGCCG TGGAAAGCGA TGAATTTTAA

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

RefSeq	XP_012426521.1
CDS	57..2576
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKKLCVVQTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_012571067.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X2, mRNA.

Target ORF information:

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

XM_012571067.2

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
AAACTCTGTG TTGTGCAGAC TGTCAGCAGG ATCAGCCAGG CTGGAACAAA ATCCGTCTTC 
TCCCAGAGTG GGAATAGCCG GGAAGTCACT CCAGTTCTTG TTGCACAAAC ACAGAGCTCT 
GGTCCACAGA CAAGTACAAC ACCTCAGGTA TTGAGCCCAA CCATTGCTGC TCCACCCAAC 
GCGCTGCCTC GACGAAGCTC TCGCCTGTTC ACCAGTGATA GTTCCACAAC CAAGGAAAAT 
AGCAAAAAAT TAAAAATGAA GTTTCCACCT AAGATTCCAA ACAGAAAAAC AAAAAGTAAA 
ACAAATAAGG GAGGAATAAC TCAACCAAAC TTAAATGACA GTTTGGAAAT TACCAAACTG 
GACTCTTCCA TCATTTCAGA AGGGAAAATT TCCACTGTTG CACCACAAAT CCAAGCTTTC 
ACGCTACAGA AGGCAGCAGC AGGTTTGATG AGCCTTCTCC GGGACATGGG GAAAGGTTAT 
TTAGCCTTGT GCTCATACAA CTGCAAAGAA GCCATCAATA TTTTGAGCCA TTTGCCATCC 
CACCACTACA ACACAGGCTG GGTGCTGTGC CAAATTGGGA GAGCTTACTT TGAGCTGGCA 
GAATACATGC AGGCTGAGCG AATATTTTCA GAAGTGAGGA GGATTGAAAA CTACAGAGTG 
GAAGGCATGG AAATCTATTC AACCACACTC TGGCATCTGC AGAAAGATGT TGCCCTTTCA 
GTCCTTTCTA AGGATTTGAC AGACATGGAT AAAAACTCAC CAGAGGCCTG GTGTGCTGCA 
GGGAACTGCT TCAGCTTGCA GAGGGAGCAT GACATTGCCA TCAAGTTCTT CCAGAGGGCC 
ATCCAGGTGG ATCCAAACTA CGCCTATGCC TACACCCTGC TGGGCCACGA GTTTGTGTTG 
ACAGAAGAGC TGGACAAGGC CTTGGCCTGT TTCAGGAATG CCATCAGAGT TAACCCCCGG 
CACTACAACG CCTGGTACGG GTTGGGAATG ATTTATTACA AGCAGGAGAA GTTCAGTCTG 
GCAGAAATGC ATTTCCAGAA AGCACTTGAT ATCAACCCTC AGAGCTCAGT CCTGCTGTGT 
CACATTGGAG TAGTCCAACA TGCACTGAAA AAATCTGAGA AGGCTTTGGA CACCTTGAAC 
AAAGCGATCA ACATCGACCC CAAGAACCCA CTATGCAAAT TCCACAGAGC CTCGGTGTTA 
TTTGCAAACG AGAAGTACAA GTCGGCTTTA CAAGAACTTG AAGAACTGAA ACAGATTGTT 
CCCAAAGAGT CTCTTGTTTA CTTTTTAATA GGAAAGGTTT ATAAAAAGCT GGGTCAGACG 
CATCTGGCCC TAATGAATTT CTCCTGGGCA ATGGACCTGG ATCCCAAAGG AGCCAACAAC 
CAGATCAAGG AGGCCATAGA CAAGCGCTAC CTGCCCGATG ACGAGGAGCC CATCACCCGC 
GAGGAGCAGA TCAGCGAGTG CTACCCCTAC GAGTCAGTGG GCACAGACGA GTCCCAGGAG 
AGCAGCATGA CGGATGCGGA TGACACGCAG CTCCACGCCG TGGAAAGCGA TGAATTTTAA

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

CDC27 ( XM_012571068.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012426522.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd40487
Clone ID Related Accession (Same CDS sequence)	XM_012571068.2
Accession Version	XM_012571068.2 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044239.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012571068.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGAAGGTT TGATGAGCCT TCTCCGGGAC ATGGGGAAAG GTTATTTAGC CTTGTGCTCA 
TACAACTGCA AAGAAGCCAT CAATATTTTG AGCCATTTGC CATCCCACCA CTACAACACA 
GGCTGGGTGC TGTGCCAAAT TGGGAGAGCT TACTTTGAGC TGGCAGAATA CATGCAGGCT 
GAGCGAATAT TTTCAGAAGT GAGGAGGATT GAAAACTACA GAGTGGAAGG CATGGAAATC 
TATTCAACCA CACTCTGGCA TCTGCAGAAA GATGTTGCCC TTTCAGTCCT TTCTAAGGAT 
TTGACAGACA TGGATAAAAA CTCACCAGAG GCCTGGTGTG CTGCAGGGAA CTGCTTCAGC 
TTGCAGAGGG AGCATGACAT TGCCATCAAG TTCTTCCAGA GGGCCATCCA GGTGGATCCA 
AACTACGCCT ATGCCTACAC CCTGCTGGGC CACGAGTTTG TGTTGACAGA AGAGCTGGAC 
AAGGCCTTGG CCTGTTTCAG GAATGCCATC AGAGTTAACC CCCGGCACTA CAACGCCTGG 
TACGGGTTGG GAATGATTTA TTACAAGCAG GAGAAGTTCA GTCTGGCAGA AATGCATTTC 
CAGAAAGCAC TTGATATCAA CCCTCAGAGC TCAGTCCTGC TGTGTCACAT TGGAGTAGTC 
CAACATGCAC TGAAAAAATC TGAGAAGGCT TTGGACACCT TGAACAAAGC GATCAACATC 
GACCCCAAGA ACCCACTATG CAAATTCCAC AGAGCCTCGG TGTTATTTGC AAACGAGAAG 
TACAAGTCGG CTTTACAAGA ACTTGAAGAA CTGAAACAGA TTGTTCCCAA AGAGTCTCTT 
GTTTACTTTT TAATAGGAAA GGTTTATAAA AAGCTGGGTC AGACGCATCT GGCCCTAATG 
AATTTCTCCT GGGCAATGGA CCTGGATCCC AAAGGAGCCA ACAACCAGAT CAAGGAGGCC 
ATAGACAAGC GCTACCTGCC CGATGACGAG GAGCCCATCA CCCGCGAGGA GCAGATCAGC 
GAGTGCTACC CCTACGAGTC AGTGGGCACA GACGAGTCCC AGGAGAGCAG CATGACGGAT 
GCGGATGACA CGCAGCTCCA CGCCGTGGAA AGCGATGAAT TTTAA

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

RefSeq	XP_012426522.1
CDS	196..2700
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAEGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_012571068.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X3, mRNA.

Target ORF information:

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

XM_012571068.2

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGAAGGTT TGATGAGCCT TCTCCGGGAC ATGGGGAAAG GTTATTTAGC CTTGTGCTCA 
TACAACTGCA AAGAAGCCAT CAATATTTTG AGCCATTTGC CATCCCACCA CTACAACACA 
GGCTGGGTGC TGTGCCAAAT TGGGAGAGCT TACTTTGAGC TGGCAGAATA CATGCAGGCT 
GAGCGAATAT TTTCAGAAGT GAGGAGGATT GAAAACTACA GAGTGGAAGG CATGGAAATC 
TATTCAACCA CACTCTGGCA TCTGCAGAAA GATGTTGCCC TTTCAGTCCT TTCTAAGGAT 
TTGACAGACA TGGATAAAAA CTCACCAGAG GCCTGGTGTG CTGCAGGGAA CTGCTTCAGC 
TTGCAGAGGG AGCATGACAT TGCCATCAAG TTCTTCCAGA GGGCCATCCA GGTGGATCCA 
AACTACGCCT ATGCCTACAC CCTGCTGGGC CACGAGTTTG TGTTGACAGA AGAGCTGGAC 
AAGGCCTTGG CCTGTTTCAG GAATGCCATC AGAGTTAACC CCCGGCACTA CAACGCCTGG 
TACGGGTTGG GAATGATTTA TTACAAGCAG GAGAAGTTCA GTCTGGCAGA AATGCATTTC 
CAGAAAGCAC TTGATATCAA CCCTCAGAGC TCAGTCCTGC TGTGTCACAT TGGAGTAGTC 
CAACATGCAC TGAAAAAATC TGAGAAGGCT TTGGACACCT TGAACAAAGC GATCAACATC 
GACCCCAAGA ACCCACTATG CAAATTCCAC AGAGCCTCGG TGTTATTTGC AAACGAGAAG 
TACAAGTCGG CTTTACAAGA ACTTGAAGAA CTGAAACAGA TTGTTCCCAA AGAGTCTCTT 
GTTTACTTTT TAATAGGAAA GGTTTATAAA AAGCTGGGTC AGACGCATCT GGCCCTAATG 
AATTTCTCCT GGGCAATGGA CCTGGATCCC AAAGGAGCCA ACAACCAGAT CAAGGAGGCC 
ATAGACAAGC GCTACCTGCC CGATGACGAG GAGCCCATCA CCCGCGAGGA GCAGATCAGC 
GAGTGCTACC CCTACGAGTC AGTGGGCACA GACGAGTCCC AGGAGAGCAG CATGACGGAT 
GCGGATGACA CGCAGCTCCA CGCCGTGGAA AGCGATGAAT TTTAA

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

CDC27 ( XM_002192936.4 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192972.1 Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X4, mRNA.

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CloneID	OTd40488
Clone ID Related Accession (Same CDS sequence)	XM_002192936.4
Accession Version	XM_002192936.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2502bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	cell division cycle protein 27 homolog isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044239.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002192936.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGGTTTGA TGAGCCTTCT CCGGGACATG GGGAAAGGTT ATTTAGCCTT GTGCTCATAC 
AACTGCAAAG AAGCCATCAA TATTTTGAGC CATTTGCCAT CCCACCACTA CAACACAGGC 
TGGGTGCTGT GCCAAATTGG GAGAGCTTAC TTTGAGCTGG CAGAATACAT GCAGGCTGAG 
CGAATATTTT CAGAAGTGAG GAGGATTGAA AACTACAGAG TGGAAGGCAT GGAAATCTAT 
TCAACCACAC TCTGGCATCT GCAGAAAGAT GTTGCCCTTT CAGTCCTTTC TAAGGATTTG 
ACAGACATGG ATAAAAACTC ACCAGAGGCC TGGTGTGCTG CAGGGAACTG CTTCAGCTTG 
CAGAGGGAGC ATGACATTGC CATCAAGTTC TTCCAGAGGG CCATCCAGGT GGATCCAAAC 
TACGCCTATG CCTACACCCT GCTGGGCCAC GAGTTTGTGT TGACAGAAGA GCTGGACAAG 
GCCTTGGCCT GTTTCAGGAA TGCCATCAGA GTTAACCCCC GGCACTACAA CGCCTGGTAC 
GGGTTGGGAA TGATTTATTA CAAGCAGGAG AAGTTCAGTC TGGCAGAAAT GCATTTCCAG 
AAAGCACTTG ATATCAACCC TCAGAGCTCA GTCCTGCTGT GTCACATTGG AGTAGTCCAA 
CATGCACTGA AAAAATCTGA GAAGGCTTTG GACACCTTGA ACAAAGCGAT CAACATCGAC 
CCCAAGAACC CACTATGCAA ATTCCACAGA GCCTCGGTGT TATTTGCAAA CGAGAAGTAC 
AAGTCGGCTT TACAAGAACT TGAAGAACTG AAACAGATTG TTCCCAAAGA GTCTCTTGTT 
TACTTTTTAA TAGGAAAGGT TTATAAAAAG CTGGGTCAGA CGCATCTGGC CCTAATGAAT 
TTCTCCTGGG CAATGGACCT GGATCCCAAA GGAGCCAACA ACCAGATCAA GGAGGCCATA 
GACAAGCGCT ACCTGCCCGA TGACGAGGAG CCCATCACCC GCGAGGAGCA GATCAGCGAG 
TGCTACCCCT ACGAGTCAGT GGGCACAGAC GAGTCCCAGG AGAGCAGCAT GACGGATGCG 
GATGACACGC AGCTCCACGC CGTGGAAAGC GATGAATTTT AA

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

RefSeq	XP_002192972.1
CDS	137..2638
Translation	MTVLQEPVQAAIWQALNHYAYRDAVFLAERLYAEVHSEEALFLLATCYYRSGKAYKAYRLLKGHSCTTPQCKYLLAKCCVDLSKLAEGEQILSGGVLNKQKSHDDIVMEFGDSACFTLSLLGHVYCKTDRLAKGSECYQKSLSLNPFLWSPFESLCEIGEKPDPDQTFKLTSLQNFSSCLPNTCTTVVSNHNISHRQPESVLMETPQDTIELNRINLESSNSKYSSLNSDSSMSYIDSAVISSDSVPLGSGTAILSKQAQNKPKTGRSLLGGPAALSPLTPSFGILPLETPSPGDGSYLQNYTNSSSVIDVPSTGAPSKKTVSRISQAGTKSVFSQSGNSREVTPVLVAQTQSSGPQTSTTPQVLSPTIAAPPNALPRRSSRLFTSDSSTTKENSKKLKMKFPPKIPNRKTKSKTNKGGITQPNLNDSLEITKLDSSIISEGKISTVAPQIQAFTLQKAAAGLMSLLRDMGKGYLALCSYNCKEAINILSHLPSHHYNTGWVLCQIGRAYFELAEYMQAERIFSEVRRIENYRVEGMEIYSTTLWHLQKDVALSVLSKDLTDMDKNSPEAWCAAGNCFSLQREHDIAIKFFQRAIQVDPNYAYAYTLLGHEFVLTEELDKALACFRNAIRVNPRHYNAWYGLGMIYYKQEKFSLAEMHFQKALDINPQSSVLLCHIGVVQHALKKSEKALDTLNKAINIDPKNPLCKFHRASVLFANEKYKSALQELEELKQIVPKESLVYFLIGKVYKKLGQTHLALMNFSWAMDLDPKGANNQIKEAIDKRYLPDDEEPITREEQISECYPYESVGTDESQESSMTDADDTQLHAVESDEF

Target ORF information:

RefSeq Version	XM_002192936.4
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata cell division cycle 27 (CDC27), transcript variant X4, mRNA.

Target ORF information:

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

XM_002192936.4

ORF Insert Sequence:

ATGACGGTGC TGCAGGAACC CGTCCAGGCT GCTATCTGGC AAGCACTGAA CCACTACGCG 
TATCGCGATG CCGTGTTCCT CGCAGAAAGG TTATATGCAG AAGTACACTC AGAAGAAGCA 
CTGTTTTTAC TGGCAACGTG TTACTACCGC TCAGGAAAGG CCTACAAAGC TTACAGGCTC 
CTAAAGGGAC ACAGCTGTAC CACCCCACAG TGTAAATACC TGCTTGCAAA ATGTTGTGTG 
GACCTCAGCA AGCTTGCAGA AGGAGAGCAG ATCTTGTCTG GTGGAGTGTT GAATAAACAG 
AAAAGCCATG ATGACATTGT TATGGAGTTT GGTGACTCTG CATGCTTTAC ACTCTCCTTA 
CTGGGACATG TCTACTGCAA GACGGACCGG CTTGCCAAAG GATCAGAATG TTACCAAAAG 
AGCCTTAGTT TAAATCCTTT CCTCTGGTCC CCTTTTGAAT CACTATGTGA AATAGGTGAA 
AAGCCAGACC CTGACCAAAC ATTTAAATTA ACATCCTTAC AGAACTTCAG CAGCTGTCTG 
CCCAACACTT GCACAACAGT GGTGTCTAAT CACAACATAT CCCACAGACA GCCTGAGAGT 
GTCCTCATGG AGACACCCCA GGACACAATT GAGTTGAACA GAATCAACCT AGAATCCTCC 
AATTCAAAGT ATTCCTCCTT GAATTCGGAT TCTTCTATGT CTTACATTGA CTCTGCTGTG 
ATTTCCTCGG ATTCTGTCCC CCTGGGGTCA GGAACTGCCA TATTGTCCAA ACAGGCTCAA 
AATAAACCAA AAACTGGACG GAGTTTACTG GGGGGACCTG CAGCTTTGAG CCCACTAACT 
CCAAGCTTTG GAATTTTGCC ACTGGAAACC CCGAGCCCTG GAGATGGATC CTATTTACAG 
AACTACACCA ACTCCTCCTC TGTAATTGAT GTGCCATCCA CCGGAGCACC TTCAAAGAAG 
ACTGTCAGCA GGATCAGCCA GGCTGGAACA AAATCCGTCT TCTCCCAGAG TGGGAATAGC 
CGGGAAGTCA CTCCAGTTCT TGTTGCACAA ACACAGAGCT CTGGTCCACA GACAAGTACA 
ACACCTCAGG TATTGAGCCC AACCATTGCT GCTCCACCCA ACGCGCTGCC TCGACGAAGC 
TCTCGCCTGT TCACCAGTGA TAGTTCCACA ACCAAGGAAA ATAGCAAAAA ATTAAAAATG 
AAGTTTCCAC CTAAGATTCC AAACAGAAAA ACAAAAAGTA AAACAAATAA GGGAGGAATA 
ACTCAACCAA ACTTAAATGA CAGTTTGGAA ATTACCAAAC TGGACTCTTC CATCATTTCA 
GAAGGGAAAA TTTCCACTGT TGCACCACAA ATCCAAGCTT TCACGCTACA GAAGGCAGCA 
GCAGGTTTGA TGAGCCTTCT CCGGGACATG GGGAAAGGTT ATTTAGCCTT GTGCTCATAC 
AACTGCAAAG AAGCCATCAA TATTTTGAGC CATTTGCCAT CCCACCACTA CAACACAGGC 
TGGGTGCTGT GCCAAATTGG GAGAGCTTAC TTTGAGCTGG CAGAATACAT GCAGGCTGAG 
CGAATATTTT CAGAAGTGAG GAGGATTGAA AACTACAGAG TGGAAGGCAT GGAAATCTAT 
TCAACCACAC TCTGGCATCT GCAGAAAGAT GTTGCCCTTT CAGTCCTTTC TAAGGATTTG 
ACAGACATGG ATAAAAACTC ACCAGAGGCC TGGTGTGCTG CAGGGAACTG CTTCAGCTTG 
CAGAGGGAGC ATGACATTGC CATCAAGTTC TTCCAGAGGG CCATCCAGGT GGATCCAAAC 
TACGCCTATG CCTACACCCT GCTGGGCCAC GAGTTTGTGT TGACAGAAGA GCTGGACAAG 
GCCTTGGCCT GTTTCAGGAA TGCCATCAGA GTTAACCCCC GGCACTACAA CGCCTGGTAC 
GGGTTGGGAA TGATTTATTA CAAGCAGGAG AAGTTCAGTC TGGCAGAAAT GCATTTCCAG 
AAAGCACTTG ATATCAACCC TCAGAGCTCA GTCCTGCTGT GTCACATTGG AGTAGTCCAA 
CATGCACTGA AAAAATCTGA GAAGGCTTTG GACACCTTGA ACAAAGCGAT CAACATCGAC 
CCCAAGAACC CACTATGCAA ATTCCACAGA GCCTCGGTGT TATTTGCAAA CGAGAAGTAC 
AAGTCGGCTT TACAAGAACT TGAAGAACTG AAACAGATTG TTCCCAAAGA GTCTCTTGTT 
TACTTTTTAA TAGGAAAGGT TTATAAAAAG CTGGGTCAGA CGCATCTGGC CCTAATGAAT 
TTCTCCTGGG CAATGGACCT GGATCCCAAA GGAGCCAACA ACCAGATCAA GGAGGCCATA 
GACAAGCGCT ACCTGCCCGA TGACGAGGAG CCCATCACCC GCGAGGAGCA GATCAGCGAG 
TGCTACCCCT ACGAGTCAGT GGGCACAGAC GAGTCCCAGG AGAGCAGCAT GACGGATGCG 
GATGACACGC AGCTCCACGC CGTGGAAAGC GATGAATTTT AA

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

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CDC27 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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