WDR33 cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	WDR33
Entrez Gene ID	105814839
Full Name	WD repeat domain 33
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012649949.1	XP_012505403.1	pre-mRNA 3' end processing protein WDR33 isoform X1
XM_012649950.1	XP_012505404.1	pre-mRNA 3' end processing protein WDR33 isoform X2

Pathways from BioSystems
Gene Ontology

The following WDR33 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR33 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
OPr108178	XM_012649949.1 Latest version!	Propithecus coquereli WD repeat domain 33 (WDR33), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00
OPr108179	XM_012649950.1 Latest version!	Propithecus coquereli WD repeat domain 33 (WDR33), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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5 or more Clone	50% OFF
All Other ORF Clones
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

WDR33 ( XM_012649949.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012505403.1 Propithecus coquereli WD repeat domain 33 (WDR33), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPr108178
Clone ID Related Accession (Same CDS sequence)	XM_012649949.1
Accession Version	XM_012649949.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3906bp) 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	pre-mRNA 3' end processing protein WDR33 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012148697.1) 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##

ATGGCTACAG AAATTGGTTC TCCTCCTCGT TTTTTCCATA TGCCAAGGTT TCAACACCAG 
GCACCTCGAC AACTGTTTTA TAAGCGACCT GATTTTGCAC AGCAGCAAGC AATGCAACAG 
CTTACCTTTG ATGGAAAACG AATGAGAAAA GCTGTAAACC GAAAAACCAT AGACTACAAT 
CCATCTGTAA TTAAGTATTT GGAGAACAGA ATATGGCAAA GAGATCAGAG AGACATGCGG 
GCAATTCAGC CTGACGCAGG TTATTATAAT GATTGGACTC CAGAAGGAAG ACGGTTGGTA 
ACTGGAGCTT CTAGTGGAGA GTTCACCTTG TGGAATGGAC TCACTTTCAA TTTTGAAACA 
ATATTACAGG CTCACGACAG CCCAGTGAGG GCCATGACTT GGTCACATAA TGACATGTGG 
ATGTTGACAG CAGACCACGG AGGATATGTG AAATATTGGC AGTCGAACAT GAACAACGTC 
AAGATGTTCC AGGCACATAA GGAGGCGATT AGAGAGGCCA GTTTCTCACC CACGGATAAT 
AAATTTGCTA CATGCTCTGA TGACGGCACT GTTAGAATCT GGGACTTTCT TCGTTGCCAT 
GAGGAAAGAA TTCTCCGAGG GCATGGTGCT GATGTGAAAT GTGTAGACTG GCATCCAACC 
AAAGGGTTAG TTGTTTCAGG AAGTAAAGAT AGTCAACAGC CAATCAAGTT CTGGGATCCC 
AAGACTGGGC AGAGTCTTGC AACACTTCAT GCCCATAAAA ACACAGTAAT GGAGGTGAAA 
TTAAATCTCA ATGGCAATTG GCTACTCACA GCATCACGTG ACCACCTCTG TAAACTTTTT 
GACATCCGAA ACCTGAAAGA GGAGCTTCAA GTCTTCCGAG GTCATAAGAA AGAAGCCACA 
GCTGTAGCCT GGCATCCTGT TCATGAAGGG CTTTTTGCCA GTGGAGGGTC TGATGGTTCT 
TTGTTATTCT GGCATGTTGG GGTAGAGAAG GAAGTGGGTG GGATGGAGAT GGCTCATGAA 
GGAATGATCT GGAGTCTGGC TTGGCATCCT CTTGGACATA TTCTCTGCTC AGGCTCAAAT 
GACCACACTA GCAAATTCTG GACTCGAAAC CGACCAGGTG ATAAAATGCG AGATCGATAT 
AATCTAAACC TTTTACCTGG AATGTCTGAA GATGGAGTAG AATATGATGA CCTTGAACCT 
AATAGCCTGG CAGTAATTCC AGGGATGGGA ATACCCGAAC AGCTAAAATT AGCTATGGAA 
CAAGAGCAGA TGGGGAAAGA TGAATCAAAT GAAATTGAAA TGACAATTCC AGGTTTAGAC 
TGGGGAATGG AGGAGGTGAT GCAAAAGGAT CAGAAAAAAG TACCTCAGAA GAAAGTTCCT 
TATGCAAAAC CTATTCCTGC ACAGTTCCAG CAGGCTTGGA TGCAAAATAA AGTTCCAATT 
CCTGCTCCAA ATGAGGTGCT CAATGACAGA AAAGAAGACA TTAAATTGGA AGAGAAGAAA 
AAAACACAAG CAGAAATTGA GCAAGAAATG GCCACGTTAC AGTATACTAA TCCACAACTT 
CTGGAGCAAC TCAAAATTGA AAGACTTGCA CAGAAACAGG CTGAGCAAAT TCAGCCTCCT 
CCCTCATCTG GCACCCCTCT CCTCGGACCC CAGCCCTTTC CAGGACAAGG GCCAATGTCT 
CAGATTCCTC AAGGTTTTCA ACAGCCCCAT CCATCTCAAC AGATGCCCAT GAACATGGCT 
CAAATGGGGC CTCCAGGTCC ACAGGGACAG TTTAGGCCCC CTGGACCCCA GGGACAAATG 
GGACCACAAG GTCCTCCGCT GCATCAGGGA GGTGGGGGGC CACAAGGATT CATGGGACCA 
CAAGGACCCC AAGGCCCACC ACAGGGGTTG CCGCGGCCTC AGGACATGCA TGGGCCCCAA 
GGAATGCAGA GGCATCCTGG ACCTCATGGC CCTTTGGGAC CTCAAGGGCC ACCTGGACCA 
CAGGGTAGTT CTGGTCCTCA AGGTCATATG GGTCCTCAGG GTCCACCTGG TCCACAGGGT 
CACATAGGGC CCCAAGGTCC ACCTGGTCCC CAGGGTCACT TGGGCCCACA GGGGCCTCCT 
GGTACTCAAG GTATGCAGGG ACCACCTGGT CCCAGAGGAA TGCAAGGACC TCCTCATCCT 
CATGGGATAC AAGGTGGGCC AGGGTCTCAA GGGATCCAAG GTCCTGTGTC TCAGGGACCT 
CTGATGGGAT TGAATCCAAG AGGAATGCAG GGGCCTCCAG GCCCCCGAGA GAATCAGGGT 
CCTGCTCCCC AAGGGATGAT GATGGGCCAC CCACCTCAAG AGATGAGAGG ACCTCACCCT 
CCAAGCGGAC TACTGGGACA CGGTCCTCAG GAAATGCGAG GGCCTCAGGA GATGCGGGGC 
ATGCAGGGGC CTCCACCTCA AGGATCAATG CTGGGCCCTC CCCAGGAATT GCGAGGGCCT 
CCAGGTTCGC AAGGTCAGCA GGGGCCGCCC CAGGGCTCTT TAGGACCTCC ACCCCAGGGT 
GGCATGCAAG GGCCCCCTGG ACCTCAGGGA CAGCAGAACC CAGCAAGAGG GCCACATCCA 
TCTCAAGGAC CGATACCATT CCAGCAACAG AAAACACCTC TGCTAGGTGA TGGGCCCCGG 
GCCCCCTTCA ACCAGGAAGG ACAGAGCACA GGCCCCCCAC CTCTGATACC AGGCCTAGGG 
CAACAGGGAG CACAAGGTCG CATCCCCCCT CTGAACCCTG GACAAGGACC TGGCCCTAAC 
AAAGGTGACT CCCGCGGCCC TCCAAACCAT CACATGGGCC CGATGTCAGA GAGGCGGCAT 
GAGCAGAGCG GCGGCCCTGA GCATGGGCCT GAGAGGGGGC CTTTCCGGGG TGGCCAGGAC 
TGCAGGGGTC CCCCTGATAG GCGTGGCCCT CACCCCGACT TCCCTGATGA CTTCAGCAGA 
CCAGACGACT TCCACCCTGA CAAGCGCTTT GGCCACCGGT TACGTGAATT TGAGGGGCGA 
GGAGGACCTT TACCACAAGA GGAGAAGTGG AGGCGAGGGG GCCCCGGGCC TCCGTTTCCT 
CCTGACCACA GGGAGTTCAG CGAGGGGGAT GGCCGGGGTG CAGCCCGAGG CCCTCCAGGG 
GCGTGGGAAG GCCGCAGACC CGGAGACGAA CGGTTCCCCC GGGATCCTGA TGACCCACGT 
TTTCGAGGGC GCAGAGAAGA AAGCTTCAGA AGAGGCGCTC CCCCGAGACA CGAGGGCCGT 
GCTCCCCCCA GGGGAAGGGA TGGTTTTCCT GGTCCCGAAG ACTTTGGTCC AGAGGAGAAT 
TTTGATGCTT CTGATGAAGC CGCCCGAGGA CGAGATCTCA GAGGTCGAGG GCGGGGTACC 
CCACGAGGAG GAAGGAAGGG TTTACTCCCC ACTCCTGACG AGTTCCCTCG CTTTGAAGGA 
GGGCGGAAGC CAGACTCCTG GGATGGCAAC AGAGAGCCAG GGCCAGGTCA TGAACATTTC 
CGTGATGCTC CCCGCCCTGA TCATCCCCCT CACGACGGGC ATTCCCCTGC AAGCAGAGAG 
CGCTCCTCTT CTCTGCAAGG CATGGACATG GCATCCCTAC CGCCTCGAAA GCGCCCTTGG 
CATGACGGGC CAGGTACTTC TGAGCACAGA GAAATGGAGG CCCCGGGGGG CCCTTCTGAG 
GACCGCGGAG GCAAAGGCCG GGGGGGCCCA GGACCTTCCC AGAGAGTGCC AAAATCGGGA 
CGTTCCAGCT CCTTGGATGG AGATCACCAT GATGGATACC ACAGAGATGA ACCTTTTGGG 
GGCCCCCCAG GGAGTGGCAC CCCTTCTCGA GGGGGCCGGA GTGGCAGTAA CTGGGGTAGA 
GGGAGTAACA TGAACTCTGG CCCACCAAGG CGAGGTGCGT CGAGGGTGGG TGGAAGGGGT 
CGGTAG

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

RefSeq	XP_012505403.1
CDS	189..4094
Translation	MATEIGSPPRFFHMPRFQHQAPRQLFYKRPDFAQQQAMQQLTFDGKRMRKAVNRKTIDYNPSVIKYLENRIWQRDQRDMRAIQPDAGYYNDWTPEGRRLVTGASSGEFTLWNGLTFNFETILQAHDSPVRAMTWSHNDMWMLTADHGGYVKYWQSNMNNVKMFQAHKEAIREASFSPTDNKFATCSDDGTVRIWDFLRCHEERILRGHGADVKCVDWHPTKGLVVSGSKDSQQPIKFWDPKTGQSLATLHAHKNTVMEVKLNLNGNWLLTASRDHLCKLFDIRNLKEELQVFRGHKKEATAVAWHPVHEGLFASGGSDGSLLFWHVGVEKEVGGMEMAHEGMIWSLAWHPLGHILCSGSNDHTSKFWTRNRPGDKMRDRYNLNLLPGMSEDGVEYDDLEPNSLAVIPGMGIPEQLKLAMEQEQMGKDESNEIEMTIPGLDWGMEEVMQKDQKKVPQKKVPYAKPIPAQFQQAWMQNKVPIPAPNEVLNDRKEDIKLEEKKKTQAEIEQEMATLQYTNPQLLEQLKIERLAQKQAEQIQPPPSSGTPLLGPQPFPGQGPMSQIPQGFQQPHPSQQMPMNMAQMGPPGPQGQFRPPGPQGQMGPQGPPLHQGGGGPQGFMGPQGPQGPPQGLPRPQDMHGPQGMQRHPGPHGPLGPQGPPGPQGSSGPQGHMGPQGPPGPQGHIGPQGPPGPQGHLGPQGPPGTQGMQGPPGPRGMQGPPHPHGIQGGPGSQGIQGPVSQGPLMGLNPRGMQGPPGPRENQGPAPQGMMMGHPPQEMRGPHPPSGLLGHGPQEMRGPQEMRGMQGPPPQGSMLGPPQELRGPPGSQGQQGPPQGSLGPPPQGGMQGPPGPQGQQNPARGPHPSQGPIPFQQQKTPLLGDGPRAPFNQEGQSTGPPPLIPGLGQQGAQGRIPPLNPGQGPGPNKGDSRGPPNHHMGPMSERRHEQSGGPEHGPERGPFRGGQDCRGPPDRRGPHPDFPDDFSRPDDFHPDKRFGHRLREFEGRGGPLPQEEKWRRGGPGPPFPPDHREFSEGDGRGAARGPPGAWEGRRPGDERFPRDPDDPRFRGRREESFRRGAPPRHEGRAPPRGRDGFPGPEDFGPEENFDASDEAARGRDLRGRGRGTPRGGRKGLLPTPDEFPRFEGGRKPDSWDGNREPGPGHEHFRDAPRPDHPPHDGHSPASRERSSSLQGMDMASLPPRKRPWHDGPGTSEHREMEAPGGPSEDRGGKGRGGPGPSQRVPKSGRSSSLDGDHHDGYHRDEPFGGPPGSGTPSRGGRSGSNWGRGSNMNSGPPRRGASRVGGRGR

Target ORF information:

RefSeq Version	XM_012649949.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli WD repeat domain 33 (WDR33), transcript variant X1, mRNA.

Target ORF information:

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

XM_012649949.1

ORF Insert Sequence:

ATGGCTACAG AAATTGGTTC TCCTCCTCGT TTTTTCCATA TGCCAAGGTT TCAACACCAG 
GCACCTCGAC AACTGTTTTA TAAGCGACCT GATTTTGCAC AGCAGCAAGC AATGCAACAG 
CTTACCTTTG ATGGAAAACG AATGAGAAAA GCTGTAAACC GAAAAACCAT AGACTACAAT 
CCATCTGTAA TTAAGTATTT GGAGAACAGA ATATGGCAAA GAGATCAGAG AGACATGCGG 
GCAATTCAGC CTGACGCAGG TTATTATAAT GATTGGACTC CAGAAGGAAG ACGGTTGGTA 
ACTGGAGCTT CTAGTGGAGA GTTCACCTTG TGGAATGGAC TCACTTTCAA TTTTGAAACA 
ATATTACAGG CTCACGACAG CCCAGTGAGG GCCATGACTT GGTCACATAA TGACATGTGG 
ATGTTGACAG CAGACCACGG AGGATATGTG AAATATTGGC AGTCGAACAT GAACAACGTC 
AAGATGTTCC AGGCACATAA GGAGGCGATT AGAGAGGCCA GTTTCTCACC CACGGATAAT 
AAATTTGCTA CATGCTCTGA TGACGGCACT GTTAGAATCT GGGACTTTCT TCGTTGCCAT 
GAGGAAAGAA TTCTCCGAGG GCATGGTGCT GATGTGAAAT GTGTAGACTG GCATCCAACC 
AAAGGGTTAG TTGTTTCAGG AAGTAAAGAT AGTCAACAGC CAATCAAGTT CTGGGATCCC 
AAGACTGGGC AGAGTCTTGC AACACTTCAT GCCCATAAAA ACACAGTAAT GGAGGTGAAA 
TTAAATCTCA ATGGCAATTG GCTACTCACA GCATCACGTG ACCACCTCTG TAAACTTTTT 
GACATCCGAA ACCTGAAAGA GGAGCTTCAA GTCTTCCGAG GTCATAAGAA AGAAGCCACA 
GCTGTAGCCT GGCATCCTGT TCATGAAGGG CTTTTTGCCA GTGGAGGGTC TGATGGTTCT 
TTGTTATTCT GGCATGTTGG GGTAGAGAAG GAAGTGGGTG GGATGGAGAT GGCTCATGAA 
GGAATGATCT GGAGTCTGGC TTGGCATCCT CTTGGACATA TTCTCTGCTC AGGCTCAAAT 
GACCACACTA GCAAATTCTG GACTCGAAAC CGACCAGGTG ATAAAATGCG AGATCGATAT 
AATCTAAACC TTTTACCTGG AATGTCTGAA GATGGAGTAG AATATGATGA CCTTGAACCT 
AATAGCCTGG CAGTAATTCC AGGGATGGGA ATACCCGAAC AGCTAAAATT AGCTATGGAA 
CAAGAGCAGA TGGGGAAAGA TGAATCAAAT GAAATTGAAA TGACAATTCC AGGTTTAGAC 
TGGGGAATGG AGGAGGTGAT GCAAAAGGAT CAGAAAAAAG TACCTCAGAA GAAAGTTCCT 
TATGCAAAAC CTATTCCTGC ACAGTTCCAG CAGGCTTGGA TGCAAAATAA AGTTCCAATT 
CCTGCTCCAA ATGAGGTGCT CAATGACAGA AAAGAAGACA TTAAATTGGA AGAGAAGAAA 
AAAACACAAG CAGAAATTGA GCAAGAAATG GCCACGTTAC AGTATACTAA TCCACAACTT 
CTGGAGCAAC TCAAAATTGA AAGACTTGCA CAGAAACAGG CTGAGCAAAT TCAGCCTCCT 
CCCTCATCTG GCACCCCTCT CCTCGGACCC CAGCCCTTTC CAGGACAAGG GCCAATGTCT 
CAGATTCCTC AAGGTTTTCA ACAGCCCCAT CCATCTCAAC AGATGCCCAT GAACATGGCT 
CAAATGGGGC CTCCAGGTCC ACAGGGACAG TTTAGGCCCC CTGGACCCCA GGGACAAATG 
GGACCACAAG GTCCTCCGCT GCATCAGGGA GGTGGGGGGC CACAAGGATT CATGGGACCA 
CAAGGACCCC AAGGCCCACC ACAGGGGTTG CCGCGGCCTC AGGACATGCA TGGGCCCCAA 
GGAATGCAGA GGCATCCTGG ACCTCATGGC CCTTTGGGAC CTCAAGGGCC ACCTGGACCA 
CAGGGTAGTT CTGGTCCTCA AGGTCATATG GGTCCTCAGG GTCCACCTGG TCCACAGGGT 
CACATAGGGC CCCAAGGTCC ACCTGGTCCC CAGGGTCACT TGGGCCCACA GGGGCCTCCT 
GGTACTCAAG GTATGCAGGG ACCACCTGGT CCCAGAGGAA TGCAAGGACC TCCTCATCCT 
CATGGGATAC AAGGTGGGCC AGGGTCTCAA GGGATCCAAG GTCCTGTGTC TCAGGGACCT 
CTGATGGGAT TGAATCCAAG AGGAATGCAG GGGCCTCCAG GCCCCCGAGA GAATCAGGGT 
CCTGCTCCCC AAGGGATGAT GATGGGCCAC CCACCTCAAG AGATGAGAGG ACCTCACCCT 
CCAAGCGGAC TACTGGGACA CGGTCCTCAG GAAATGCGAG GGCCTCAGGA GATGCGGGGC 
ATGCAGGGGC CTCCACCTCA AGGATCAATG CTGGGCCCTC CCCAGGAATT GCGAGGGCCT 
CCAGGTTCGC AAGGTCAGCA GGGGCCGCCC CAGGGCTCTT TAGGACCTCC ACCCCAGGGT 
GGCATGCAAG GGCCCCCTGG ACCTCAGGGA CAGCAGAACC CAGCAAGAGG GCCACATCCA 
TCTCAAGGAC CGATACCATT CCAGCAACAG AAAACACCTC TGCTAGGTGA TGGGCCCCGG 
GCCCCCTTCA ACCAGGAAGG ACAGAGCACA GGCCCCCCAC CTCTGATACC AGGCCTAGGG 
CAACAGGGAG CACAAGGTCG CATCCCCCCT CTGAACCCTG GACAAGGACC TGGCCCTAAC 
AAAGGTGACT CCCGCGGCCC TCCAAACCAT CACATGGGCC CGATGTCAGA GAGGCGGCAT 
GAGCAGAGCG GCGGCCCTGA GCATGGGCCT GAGAGGGGGC CTTTCCGGGG TGGCCAGGAC 
TGCAGGGGTC CCCCTGATAG GCGTGGCCCT CACCCCGACT TCCCTGATGA CTTCAGCAGA 
CCAGACGACT TCCACCCTGA CAAGCGCTTT GGCCACCGGT TACGTGAATT TGAGGGGCGA 
GGAGGACCTT TACCACAAGA GGAGAAGTGG AGGCGAGGGG GCCCCGGGCC TCCGTTTCCT 
CCTGACCACA GGGAGTTCAG CGAGGGGGAT GGCCGGGGTG CAGCCCGAGG CCCTCCAGGG 
GCGTGGGAAG GCCGCAGACC CGGAGACGAA CGGTTCCCCC GGGATCCTGA TGACCCACGT 
TTTCGAGGGC GCAGAGAAGA AAGCTTCAGA AGAGGCGCTC CCCCGAGACA CGAGGGCCGT 
GCTCCCCCCA GGGGAAGGGA TGGTTTTCCT GGTCCCGAAG ACTTTGGTCC AGAGGAGAAT 
TTTGATGCTT CTGATGAAGC CGCCCGAGGA CGAGATCTCA GAGGTCGAGG GCGGGGTACC 
CCACGAGGAG GAAGGAAGGG TTTACTCCCC ACTCCTGACG AGTTCCCTCG CTTTGAAGGA 
GGGCGGAAGC CAGACTCCTG GGATGGCAAC AGAGAGCCAG GGCCAGGTCA TGAACATTTC 
CGTGATGCTC CCCGCCCTGA TCATCCCCCT CACGACGGGC ATTCCCCTGC AAGCAGAGAG 
CGCTCCTCTT CTCTGCAAGG CATGGACATG GCATCCCTAC CGCCTCGAAA GCGCCCTTGG 
CATGACGGGC CAGGTACTTC TGAGCACAGA GAAATGGAGG CCCCGGGGGG CCCTTCTGAG 
GACCGCGGAG GCAAAGGCCG GGGGGGCCCA GGACCTTCCC AGAGAGTGCC AAAATCGGGA 
CGTTCCAGCT CCTTGGATGG AGATCACCAT GATGGATACC ACAGAGATGA ACCTTTTGGG 
GGCCCCCCAG GGAGTGGCAC CCCTTCTCGA GGGGGCCGGA GTGGCAGTAA CTGGGGTAGA 
GGGAGTAACA TGAACTCTGG CCCACCAAGG CGAGGTGCGT CGAGGGTGGG TGGAAGGGGT 
CGGTAG

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

WDR33 ( XM_012649950.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012505404.1 Propithecus coquereli WD repeat domain 33 (WDR33), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPr108179
Clone ID Related Accession (Same CDS sequence)	XM_012649950.1
Accession Version	XM_012649950.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3414bp) 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	pre-mRNA 3' end processing protein WDR33 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012148697.1) 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##

ATGGCTACAG AAATTGGTTC TCCTCCTCGT TTTTTCCATA TGCCAAGGTT TCAACACCAG 
GCACCTCGAC AACTGTTTTA TAAGCGACCT GATTTTGCAC AGCAGCAAGC AATGCAACAG 
CTTACCTTTG ATGGAAAACG AATGAGAAAA GCTGTAAACC GAAAAACCAT AGACTACAAT 
CCATCTGTAA TTAAGTATTT GGAGAACAGA ATATGGCAAA GAGATCAGAG AGACATGCGG 
GCAATTCAGC CTGACGCAGG TTATTATAAT GATTGGACTC CAGAAGGAAG ACGGTTGGTA 
ACTGGAGCTT CTAGTGGAGA GTTCACCTTG TGGAATGGAC TCACTTTCAA TTTTGAAACA 
ATATTACAGG CTCACGACAG CCCAGTGAGG GCCATGACTT GGTCACATAA TGACATGTGG 
ATGTTGACAG CAGACCACGG AGGATATGTG AAATATTGGC AGTCGAACAT GAACAACGTC 
AAGATGTTCC AGGCACATAA GGAGGCGATT AGAGAGGCCA GTTTCTCACC CACGGATAAT 
AAATTTGCTA CATGCTCTGA TGACGGCACT GTTAGAATCT GGGACTTTCT TCGTTGCCAT 
GAGGAAAGAA TTCTCCGAGG GCATGGTGCT GATGTGAAAT GTGTAGACTG GCATCCAACC 
AAAGGGTTAG TTGTTTCAGG AAGTAAAGAT AGTCAACAGC CAATCAAGTT CTGGGATCCC 
AAGACTGGGC AGAGTCTTGC AACACTTCAT GCCCATAAAA ACACAGTAAT GGAGGTGAAA 
TTAAATCTCA ATGGCAATTG GCTACTCACA GCATCACGTG ACCACCTCTG TAAACTTTTT 
GACATCCGAA ACCTGAAAGA GGAGCTTCAA GTCTTCCGAG GTCATAAGAA AGAAGCCACA 
GCTGTAGCCT GGCATCCTGT TCATGAAGGG CTTTTTGCCA GTGGAGGGTC TGATGGTTCT 
TTGTTATTCT GGCATGTTGG GGTAGAGAAG GAAGTGGGTG GGATGGAGAT GGCTCATGAA 
GGAATGATCT GGAGTCTGGC TTGGCATCCT CTTGGACATA TTCTCTGCTC AGGCTCAAAT 
GACCACACTA GCAAATTCTG GACTCGAAAC CGACCAGGTG ATAAAATGCG AGATCGATAT 
AATCTAAACC TTTTACCTGG AATGTCTGAA GATGGAGTAG AATATGATGA CCTTGAACCT 
AATAGCCTGG CAGTAATTCC AGGGATGGGA ATACCCGAAC AGCTAAAATT AGCTATGGAA 
CAAGAGCAGA TGGGGAAAGA TGAATCAAAT GAAATTGAAA TGACAATTCC AGGTTTAGAC 
TGGGGAATGG AGGAGGTGAT GCAAAAGGAT CAGAAAAAAG TACCTCAGAA GAAAGTTCCT 
TATGCAAAAC CTATTCCTGC ACAGTTCCAG CAGGCTTGGA TGCAAAATAA AGTTCCAATT 
CCTGCTCCAA ATGAGGTGCT CAATGACAGA AAAGAAGACA TTAAATTGGA AGAGAAGAAA 
AAAACACAAG CAGAAATTGA GCAAGAAATG GCCACGTTAC AGTATACTAA TCCACAACTT 
CTGGAGCAAC TCAAAATTGA AAGACTTGCA CAGAAACAGG CTGAGCAAAT TCAGCCTCCT 
CCCTCATCTG GCACCCCTCT CCTCGGACCC CAGCCCTTTC CAGGACAAGG GCCAATGTCT 
CAGATTCCTC AAGGTTTTCA ACAGCCCCAT CCATCTCAAC AGATGCCCAT GAACATGGCT 
CAAATGGGGC CTCCAGGTCC ACAGGGACAG TTTAGGCCCC CTGGACCCCA GGGACAAATG 
GGACCACAAG GTCCTCCGCT GCATCAGGGA GGTGGGGGGC CACAAGGATT CATGGGACCA 
CAAGGACCCC AAGGCCCACC ACAGGGGTTG CCGCGGCCTC AGGACATGCA TGGGCCCCAA 
GGAATGCAGA GGCATCCTGG ACCTCATGGC CCTTTGGGAC CTCAAGGGCC ACCTGGACCA 
CAGGGTAGTT CTGGTCCTCA AGGTCATATG GGTCCTCAGG GTCCACCTGG TCCACAGGGT 
CACATAGGGC CCCAAGGTCC ACCTGGTCCC CAGGGTCACT TGGGCCCACA GGGGCCTCCT 
GGTACTCAAG GTATGCAGGG ACCACCTGGT CCCAGAGGAA TGCAAGGACC TCCTCATCCT 
CATGGGATAC AAGGTGGGCC AGGGTCTCAA GGGATCCAAG GTCCTGTGTC TCAGGGACCT 
CTGATGGGAT TGAATCCAAG AGGAATGCAG GGGCCTCCAG GCCCCCGAGA GAATCAGGGT 
CCTGCTCCCC AAGGGATGAT GATGGGCCAC CCACCTCAAG AGATGAGAGG ACCTCACCCT 
CCAAGCGGAC TACTGGGACA CGGTCCTCAG GAAATGCGAG GGCCTCAGGA GATGCGGGGC 
ATGCAGGGGC CTCCACCTCA AGGATCAATG CTGGGCCCTC CCCAGGAATT GCGAGGGCCT 
CCAGGTTCGC AAGGTCAGCA GGGGCCGCCC CAGGGCTCTT TAGGACCTCC ACCCCAGGGT 
GGCATGCAAG GGCCCCCTGG ACCTCAGGGA CAGCAGAACC CAGCAAGAGG GCCACATCCA 
TCTCAAGGAC CGATACCATT CCAGCAACAG AAAACACCTC TGCTAGGTGA TGGGCCCCGG 
GCCCCCTTCA ACCAGGAAGG ACAGAGCACA GGCCCCCCAC CTCTGATACC AGGCCTAGGG 
CAACAGGGAG CACAAGGTCG CATCCCCCCT CTGAACCCTG GACAAGGACC TGGCCCTAAC 
AAAGCTTCAG AAGAGGCGCT CCCCCGAGAC ACGAGGGCCG TGCTCCCCCC AGGGGAAGGG 
ATGGTTTTCC TGGTCCCGAA GACTTTGGTC CAGAGGAGAA TTTTGATGCT TCTGATGAAG 
CCGCCCGAGG ACGAGATCTC AGAGGTCGAG GGCGGGGTAC CCCACGAGGA GGAAGGAAGG 
GTTTACTCCC CACTCCTGAC GAGTTCCCTC GCTTTGAAGG AGGGCGGAAG CCAGACTCCT 
GGGATGGCAA CAGAGAGCCA GGGCCAGGTC ATGAACATTT CCGTGATGCT CCCCGCCCTG 
ATCATCCCCC TCACGACGGG CATTCCCCTG CAAGCAGAGA GCGCTCCTCT TCTCTGCAAG 
GCATGGACAT GGCATCCCTA CCGCCTCGAA AGCGCCCTTG GCATGACGGG CCAGGTACTT 
CTGAGCACAG AGAAATGGAG GCCCCGGGGG GCCCTTCTGA GGACCGCGGA GGCAAAGGCC 
GGGGGGGCCC AGGACCTTCC CAGAGAGTGC CAAAATCGGG ACGTTCCAGC TCCTTGGATG 
GAGATCACCA TGATGGATAC CACAGAGATG AACCTTTTGG GGGCCCCCCA GGGAGTGGCA 
CCCCTTCTCG AGGGGGCCGG AGTGGCAGTA ACTGGGGTAG AGGGAGTAAC ATGA

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

RefSeq	XP_012505404.1
CDS	189..3602
Translation	MATEIGSPPRFFHMPRFQHQAPRQLFYKRPDFAQQQAMQQLTFDGKRMRKAVNRKTIDYNPSVIKYLENRIWQRDQRDMRAIQPDAGYYNDWTPEGRRLVTGASSGEFTLWNGLTFNFETILQAHDSPVRAMTWSHNDMWMLTADHGGYVKYWQSNMNNVKMFQAHKEAIREASFSPTDNKFATCSDDGTVRIWDFLRCHEERILRGHGADVKCVDWHPTKGLVVSGSKDSQQPIKFWDPKTGQSLATLHAHKNTVMEVKLNLNGNWLLTASRDHLCKLFDIRNLKEELQVFRGHKKEATAVAWHPVHEGLFASGGSDGSLLFWHVGVEKEVGGMEMAHEGMIWSLAWHPLGHILCSGSNDHTSKFWTRNRPGDKMRDRYNLNLLPGMSEDGVEYDDLEPNSLAVIPGMGIPEQLKLAMEQEQMGKDESNEIEMTIPGLDWGMEEVMQKDQKKVPQKKVPYAKPIPAQFQQAWMQNKVPIPAPNEVLNDRKEDIKLEEKKKTQAEIEQEMATLQYTNPQLLEQLKIERLAQKQAEQIQPPPSSGTPLLGPQPFPGQGPMSQIPQGFQQPHPSQQMPMNMAQMGPPGPQGQFRPPGPQGQMGPQGPPLHQGGGGPQGFMGPQGPQGPPQGLPRPQDMHGPQGMQRHPGPHGPLGPQGPPGPQGSSGPQGHMGPQGPPGPQGHIGPQGPPGPQGHLGPQGPPGTQGMQGPPGPRGMQGPPHPHGIQGGPGSQGIQGPVSQGPLMGLNPRGMQGPPGPRENQGPAPQGMMMGHPPQEMRGPHPPSGLLGHGPQEMRGPQEMRGMQGPPPQGSMLGPPQELRGPPGSQGQQGPPQGSLGPPPQGGMQGPPGPQGQQNPARGPHPSQGPIPFQQQKTPLLGDGPRAPFNQEGQSTGPPPLIPGLGQQGAQGRIPPLNPGQGPGPNKASEEALPRDTRAVLPPGEGMVFLVPKTLVQRRILMLLMKPPEDEISEVEGGVPHEEEGRVYSPLLTSSLALKEGGSQTPGMATESQGQVMNISVMLPALIIPLTTGIPLQAESAPLLCKAWTWHPYRLESALGMTGQVLLSTEKWRPRGALLRTAEAKAGGAQDLPRECQNRDVPAPWMEITMMDTTEMNLLGAPQGVAPLLEGAGVAVTGVEGVT

Target ORF information:

RefSeq Version	XM_012649950.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli WD repeat domain 33 (WDR33), transcript variant X2, mRNA.

Target ORF information:

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

XM_012649950.1

ORF Insert Sequence:

ATGGCTACAG AAATTGGTTC TCCTCCTCGT TTTTTCCATA TGCCAAGGTT TCAACACCAG 
GCACCTCGAC AACTGTTTTA TAAGCGACCT GATTTTGCAC AGCAGCAAGC AATGCAACAG 
CTTACCTTTG ATGGAAAACG AATGAGAAAA GCTGTAAACC GAAAAACCAT AGACTACAAT 
CCATCTGTAA TTAAGTATTT GGAGAACAGA ATATGGCAAA GAGATCAGAG AGACATGCGG 
GCAATTCAGC CTGACGCAGG TTATTATAAT GATTGGACTC CAGAAGGAAG ACGGTTGGTA 
ACTGGAGCTT CTAGTGGAGA GTTCACCTTG TGGAATGGAC TCACTTTCAA TTTTGAAACA 
ATATTACAGG CTCACGACAG CCCAGTGAGG GCCATGACTT GGTCACATAA TGACATGTGG 
ATGTTGACAG CAGACCACGG AGGATATGTG AAATATTGGC AGTCGAACAT GAACAACGTC 
AAGATGTTCC AGGCACATAA GGAGGCGATT AGAGAGGCCA GTTTCTCACC CACGGATAAT 
AAATTTGCTA CATGCTCTGA TGACGGCACT GTTAGAATCT GGGACTTTCT TCGTTGCCAT 
GAGGAAAGAA TTCTCCGAGG GCATGGTGCT GATGTGAAAT GTGTAGACTG GCATCCAACC 
AAAGGGTTAG TTGTTTCAGG AAGTAAAGAT AGTCAACAGC CAATCAAGTT CTGGGATCCC 
AAGACTGGGC AGAGTCTTGC AACACTTCAT GCCCATAAAA ACACAGTAAT GGAGGTGAAA 
TTAAATCTCA ATGGCAATTG GCTACTCACA GCATCACGTG ACCACCTCTG TAAACTTTTT 
GACATCCGAA ACCTGAAAGA GGAGCTTCAA GTCTTCCGAG GTCATAAGAA AGAAGCCACA 
GCTGTAGCCT GGCATCCTGT TCATGAAGGG CTTTTTGCCA GTGGAGGGTC TGATGGTTCT 
TTGTTATTCT GGCATGTTGG GGTAGAGAAG GAAGTGGGTG GGATGGAGAT GGCTCATGAA 
GGAATGATCT GGAGTCTGGC TTGGCATCCT CTTGGACATA TTCTCTGCTC AGGCTCAAAT 
GACCACACTA GCAAATTCTG GACTCGAAAC CGACCAGGTG ATAAAATGCG AGATCGATAT 
AATCTAAACC TTTTACCTGG AATGTCTGAA GATGGAGTAG AATATGATGA CCTTGAACCT 
AATAGCCTGG CAGTAATTCC AGGGATGGGA ATACCCGAAC AGCTAAAATT AGCTATGGAA 
CAAGAGCAGA TGGGGAAAGA TGAATCAAAT GAAATTGAAA TGACAATTCC AGGTTTAGAC 
TGGGGAATGG AGGAGGTGAT GCAAAAGGAT CAGAAAAAAG TACCTCAGAA GAAAGTTCCT 
TATGCAAAAC CTATTCCTGC ACAGTTCCAG CAGGCTTGGA TGCAAAATAA AGTTCCAATT 
CCTGCTCCAA ATGAGGTGCT CAATGACAGA AAAGAAGACA TTAAATTGGA AGAGAAGAAA 
AAAACACAAG CAGAAATTGA GCAAGAAATG GCCACGTTAC AGTATACTAA TCCACAACTT 
CTGGAGCAAC TCAAAATTGA AAGACTTGCA CAGAAACAGG CTGAGCAAAT TCAGCCTCCT 
CCCTCATCTG GCACCCCTCT CCTCGGACCC CAGCCCTTTC CAGGACAAGG GCCAATGTCT 
CAGATTCCTC AAGGTTTTCA ACAGCCCCAT CCATCTCAAC AGATGCCCAT GAACATGGCT 
CAAATGGGGC CTCCAGGTCC ACAGGGACAG TTTAGGCCCC CTGGACCCCA GGGACAAATG 
GGACCACAAG GTCCTCCGCT GCATCAGGGA GGTGGGGGGC CACAAGGATT CATGGGACCA 
CAAGGACCCC AAGGCCCACC ACAGGGGTTG CCGCGGCCTC AGGACATGCA TGGGCCCCAA 
GGAATGCAGA GGCATCCTGG ACCTCATGGC CCTTTGGGAC CTCAAGGGCC ACCTGGACCA 
CAGGGTAGTT CTGGTCCTCA AGGTCATATG GGTCCTCAGG GTCCACCTGG TCCACAGGGT 
CACATAGGGC CCCAAGGTCC ACCTGGTCCC CAGGGTCACT TGGGCCCACA GGGGCCTCCT 
GGTACTCAAG GTATGCAGGG ACCACCTGGT CCCAGAGGAA TGCAAGGACC TCCTCATCCT 
CATGGGATAC AAGGTGGGCC AGGGTCTCAA GGGATCCAAG GTCCTGTGTC TCAGGGACCT 
CTGATGGGAT TGAATCCAAG AGGAATGCAG GGGCCTCCAG GCCCCCGAGA GAATCAGGGT 
CCTGCTCCCC AAGGGATGAT GATGGGCCAC CCACCTCAAG AGATGAGAGG ACCTCACCCT 
CCAAGCGGAC TACTGGGACA CGGTCCTCAG GAAATGCGAG GGCCTCAGGA GATGCGGGGC 
ATGCAGGGGC CTCCACCTCA AGGATCAATG CTGGGCCCTC CCCAGGAATT GCGAGGGCCT 
CCAGGTTCGC AAGGTCAGCA GGGGCCGCCC CAGGGCTCTT TAGGACCTCC ACCCCAGGGT 
GGCATGCAAG GGCCCCCTGG ACCTCAGGGA CAGCAGAACC CAGCAAGAGG GCCACATCCA 
TCTCAAGGAC CGATACCATT CCAGCAACAG AAAACACCTC TGCTAGGTGA TGGGCCCCGG 
GCCCCCTTCA ACCAGGAAGG ACAGAGCACA GGCCCCCCAC CTCTGATACC AGGCCTAGGG 
CAACAGGGAG CACAAGGTCG CATCCCCCCT CTGAACCCTG GACAAGGACC TGGCCCTAAC 
AAAGCTTCAG AAGAGGCGCT CCCCCGAGAC ACGAGGGCCG TGCTCCCCCC AGGGGAAGGG 
ATGGTTTTCC TGGTCCCGAA GACTTTGGTC CAGAGGAGAA TTTTGATGCT TCTGATGAAG 
CCGCCCGAGG ACGAGATCTC AGAGGTCGAG GGCGGGGTAC CCCACGAGGA GGAAGGAAGG 
GTTTACTCCC CACTCCTGAC GAGTTCCCTC GCTTTGAAGG AGGGCGGAAG CCAGACTCCT 
GGGATGGCAA CAGAGAGCCA GGGCCAGGTC ATGAACATTT CCGTGATGCT CCCCGCCCTG 
ATCATCCCCC TCACGACGGG CATTCCCCTG CAAGCAGAGA GCGCTCCTCT TCTCTGCAAG 
GCATGGACAT GGCATCCCTA CCGCCTCGAA AGCGCCCTTG GCATGACGGG CCAGGTACTT 
CTGAGCACAG AGAAATGGAG GCCCCGGGGG GCCCTTCTGA GGACCGCGGA GGCAAAGGCC 
GGGGGGGCCC AGGACCTTCC CAGAGAGTGC CAAAATCGGG ACGTTCCAGC TCCTTGGATG 
GAGATCACCA TGATGGATAC CACAGAGATG AACCTTTTGG GGGCCCCCCA GGGAGTGGCA 
CCCCTTCTCG AGGGGGCCGG AGTGGCAGTA ACTGGGGTAG AGGGAGTAAC ATGA