WDR72 cDNA ORF clone, Struthio camelus australis

Gene
Clones
gRNAs

Summary

Gene Symbol	WDR72
Entrez Gene ID	104148290
Full Name	WD repeat domain 72
Gene Type	protein-coding
Organism	Struthio camelus australis

mRNA and Protein(s)

mRNA	Protein	Name
XM_009681406.1	XP_009679701.1	WD repeat-containing protein 72

Pathways from BioSystems
Gene Ontology

The following WDR72 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR72 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
OSt77962	XM_009681406.1 Latest version!	Struthio camelus australis WD repeat domain 72 (WDR72), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

WDR72 ( XM_009681406.1 ) cDNA ORF clone, Struthio camelus australis -> XP_009679701.1 Struthio camelus australis WD repeat domain 72 (WDR72), mRNA.

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CloneID	OSt77962
Clone ID Related Accession (Same CDS sequence)	XM_009681406.1
Accession Version	XM_009681406.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3207bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-10-14
Organism	Struthio camelus australis
Product	WD repeat-containing protein 72
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009271683.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Struthio camelus australis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGGTAT CAATACAGGC TGTGGCAGTG TGGGGAAAAA GAGCTCCCTC TCATAGCATC 
ACTGCCATTA TGATTACAGA TGACCAGCAG ACAATTGTTA CAGGAAGTCA AGAAGGACAA 
ATATGTCTCT GGGATCTTTC ATCAGAATTA AAGATTTCAT CTAAGGAAAT TCTGTTTGGC 
CATACTGCTT CTGTAACTTG TTTGGCAAAG GCAAGAGACT TTGAGAAACA GCCATATGTA 
GTAAGTGCTG CTGAAAATGG GGAGATGTGC GTTTGGAATG TTGCTAGTGG ACAGTCTATT 
GAGAACGCAA AGCTTCCTTA TAGGCACACA GCAATCTGCT ATTACCATTG CTCATTCCGA 
ATGACAGGTG AAGGCTGGCT TCTTTGCTGT GGAGAATATC AAGATGTTCT TATTATTGAT 
GCTAAGACTT TGGATGTTCT TCACACTTTA ACATCTCAGT CTTCCGATTG GATCAATTGT 
TTGTGTATTG TTCACTCTAC AAGAATTCAA GAAGACTCAT TGGTTGTAGT GTCTGTAGCT 
GGAGAACTTA AAGTATGGGA CCTATCTTCA TCCTTGAATA GCATACAGGA GAGGCAGTGT 
GTGTGTGAGA GGGAATCCAA ATCTCTGGAC TGTATAAACT GCCAAGCAAT ACGGTTTTGC 
ACTTACACAG AAAGACTTCT TCTAGTTGTG TCCTCCACGT GCTGGCAGGT CTATGATTAT 
TGTGACTTTT CTTTGCTATG TACTGAATTC TGCAAAAGCG GTGAGTGCTT TGCTGGTGGA 
GAAGTACTAG CAGCTTACAG ACTTATCATC TGGACAGAAG ATGGTCACAG TTACATTTAC 
CAGCTGCTGA ACAGCGGGCT TTCTAAAAGC ATATATCCTG GTGATGGAAG AGTGCTGAAA 
GAAACTGTTT ATCCTCATTT ACTCTGCTCT ACTGGTGTGA GAGAAAATAA GAGTTTCCCT 
TTTGTTATGG GCTTCATGAA TGAAAGGAAA GAGCCTTTCT ATAAGGTTCT TTTTTCTGGT 
GAAGCTTCAG GAAGAATCAC TTTGTGGCAT GTTCCTGATG TCCTTGTTTC AACGTTTGAT 
GGTTCACCAA AAGAGATCCC CATTACAGCA ACTTGGACTC TTCAGGATAA TTTTGATAAA 
CACCATTCAA TGTCAGAGGG CATTATTGAT CATCTCTGTG CATCTGAAGA TGGGAGTGAA 
AGTGCGCTCA TCAGTTCCTC TGCATACATA CCCAGTCTCG ATAAGCTGGT TTGTGGGTGT 
GAAAATGGGA AAATTTTTGT AACTCTAGCT TTAAAAACTG CAAGAGCAAG ACTTTTAGAA 
AACATATCCT TGCTGAAAGA TAATCTACCT TACAAAGTTC TGAATGGTCA TCGTAGCAGA 
GTCACTTGTT TACTTTATCC GCATGATAAA TCAGCCAGGT TTGATCCAAG CTGGTTGTTA 
TCAGGAGGCC AGGATTCTGT TGTGATCTGC TGGGATATAT TTACTGGGGA AATTTTACAC 
CAGTTTACTC TGCAATCTGG TCCAGTGACA GAGCTGTTGC GACCTCCAGA AAACTGCAGA 
TTAAAAGATC ACAGCATTGT GTGCTGTGTG TGCAGGGATC ATTCAGTAGC AATTCTACAC 
CTTCAGGAGA GAGTGTGTCT CTTCCATGCC AGAAAGCATC TGTTTCCTGT GAAGATGATA 
AAAATCGACC CTGTTGAGAA TCTCCTAATT GTTGGATGTG AAGATGATTC AGTTTATATT 
TGGGAAATTG AAACAGGTAC GCTAGAACGG CATGAAACAG GTGAAACGGC AAAAGCAATT 
CTTTCTTCCA TTGAAGATTC AGAATATTTA GTGGCAGGTG CTCTACTTCC TGGATCTCAG 
GATTCAAAAA AGCATAAAGA TACTGGATAC AAATCCTCTA GCTCTTACAA GCATGACGTG 
ATCTCTTACA ACGTTACTCA CACAGAGAAA TCTTCTGATA AGCTAACTGA TACTGGCCAC 
ATCCAACAGT TCTTTACCAT TTTACCGGTT AAGACAAAAT GGAACAATGC AAATTTTCAT 
ATTCTCTTAT TTGATCCGGG AAGGCTTGCC GAACTTCTGC TGTCATCTCA ACTCAGTGGA 
CTAAAGCCAT CAAATTCATT CCACGACTAT GACACCCTAC AAAGAGCCAA AAGTACTGCT 
GAAAAAAAGG CATTGACATT AAAAAGAAAC AAAACTGCTG GCTCCATATG TCTGGTGGAT 
GGGCAAGTAG ATACTGTTTG TTCAAACCAG GTCCATAGAG ATAACGTAGT TAGGCCTTTG 
GAAGAAAGTG GTGGCATGAA AAGACAGAAA AAAGTGAAGA GTTCGAGAAA AAATAGAGCA 
CATTCACCAG GAAACGTTGA TGTGAACATC ACCACAGATA CAGCTAAACT GCTTTTGTCA 
TGTCTCTTAC CGTGGGGTGT AGATAAGGAA ATAGACAATC TTTGTATTAG CTACTTAGAT 
ATCTTGAAGC TCCAGTGTCC AGTCTCTTTT GGACTTGTGT CAAATGAAAA TCACATATCC 
TTAATGCTGC CAGGATGGAA TTGTACTGGT TGTGGTGTGC TAGAGGAGCA CACAGTAATC 
AACTTGTTTT CAAAAAGAGT GCTTGATTTG TCAAACAAGT ACCTTTCTGC AACTGAAGGA 
CAAACTGGAA AAAAGGATGG ACCAGAGAAT AATATTTATG GAACACAGCG ATCAGAAACT 
GTGTTTTTAT TAAGCAGAAT AGCTTTGATC AACAGGATAA TTAACATGCC TTTGGAAGTA 
ACAAGTGAAA TGGAAAGTCC ACGGAAATCA GAATCTGTAC ACAACAAGTG GCGAAACATG 
GAAGCAGTCA GCTCTTTGTT CCCAGACTTA CCAAGCAGTA AAAGTAGATC TTATTCCCCT 
GATTTTGGGA ATATTTCACT GATGAAACTC ATTTTTTGTT GGAGTGACCA ATCTATAAAG 
ATTATTGAGG CAATACAAGC GATGCTGCTG GCAGAAGTTC AAAGGACTAT GAAAACCTTG 
AGAAAGACGT CAGTCTGCAG AGAGCCACTG CCCATACTAG AGAATGGAAA TGTCAGTGTG 
CTGAAAAATG GCAGGAGCTC AAACTCAGCA GACTTCCAAG ATGTGGAGGA TACACCTGAC 
CGATGTGTCT TGGAAGAGTC TGAGAGTCCA GATGACATGA AGCCACATCC TTGGATATCT 
AAAGTGTGTT CCTGCAAGGT GTGTTAG

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

RefSeq	XP_009679701.1
CDS	1..3207
Translation	MKVSIQAVAVWGKRAPSHSITAIMITDDQQTIVTGSQEGQICLWDLSSELKISSKEILFGHTASVTCLAKARDFEKQPYVVSAAENGEMCVWNVASGQSIENAKLPYRHTAICYYHCSFRMTGEGWLLCCGEYQDVLIIDAKTLDVLHTLTSQSSDWINCLCIVHSTRIQEDSLVVVSVAGELKVWDLSSSLNSIQERQCVCERESKSLDCINCQAIRFCTYTERLLLVVSSTCWQVYDYCDFSLLCTEFCKSGECFAGGEVLAAYRLIIWTEDGHSYIYQLLNSGLSKSIYPGDGRVLKETVYPHLLCSTGVRENKSFPFVMGFMNERKEPFYKVLFSGEASGRITLWHVPDVLVSTFDGSPKEIPITATWTLQDNFDKHHSMSEGIIDHLCASEDGSESALISSSAYIPSLDKLVCGCENGKIFVTLALKTARARLLENISLLKDNLPYKVLNGHRSRVTCLLYPHDKSARFDPSWLLSGGQDSVVICWDIFTGEILHQFTLQSGPVTELLRPPENCRLKDHSIVCCVCRDHSVAILHLQERVCLFHARKHLFPVKMIKIDPVENLLIVGCEDDSVYIWEIETGTLERHETGETAKAILSSIEDSEYLVAGALLPGSQDSKKHKDTGYKSSSSYKHDVISYNVTHTEKSSDKLTDTGHIQQFFTILPVKTKWNNANFHILLFDPGRLAELLLSSQLSGLKPSNSFHDYDTLQRAKSTAEKKALTLKRNKTAGSICLVDGQVDTVCSNQVHRDNVVRPLEESGGMKRQKKVKSSRKNRAHSPGNVDVNITTDTAKLLLSCLLPWGVDKEIDNLCISYLDILKLQCPVSFGLVSNENHISLMLPGWNCTGCGVLEEHTVINLFSKRVLDLSNKYLSATEGQTGKKDGPENNIYGTQRSETVFLLSRIALINRIINMPLEVTSEMESPRKSESVHNKWRNMEAVSSLFPDLPSSKSRSYSPDFGNISLMKLIFCWSDQSIKIIEAIQAMLLAEVQRTMKTLRKTSVCREPLPILENGNVSVLKNGRSSNSADFQDVEDTPDRCVLEESESPDDMKPHPWISKVCSCKVC

Target ORF information:

RefSeq Version	XM_009681406.1
Organism	Struthio camelus australis
Definition	Struthio camelus australis WD repeat domain 72 (WDR72), mRNA.

Target ORF information:

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

XM_009681406.1

ORF Insert Sequence:

ATGAAGGTAT CAATACAGGC TGTGGCAGTG TGGGGAAAAA GAGCTCCCTC TCATAGCATC 
ACTGCCATTA TGATTACAGA TGACCAGCAG ACAATTGTTA CAGGAAGTCA AGAAGGACAA 
ATATGTCTCT GGGATCTTTC ATCAGAATTA AAGATTTCAT CTAAGGAAAT TCTGTTTGGC 
CATACTGCTT CTGTAACTTG TTTGGCAAAG GCAAGAGACT TTGAGAAACA GCCATATGTA 
GTAAGTGCTG CTGAAAATGG GGAGATGTGC GTTTGGAATG TTGCTAGTGG ACAGTCTATT 
GAGAACGCAA AGCTTCCTTA TAGGCACACA GCAATCTGCT ATTACCATTG CTCATTCCGA 
ATGACAGGTG AAGGCTGGCT TCTTTGCTGT GGAGAATATC AAGATGTTCT TATTATTGAT 
GCTAAGACTT TGGATGTTCT TCACACTTTA ACATCTCAGT CTTCCGATTG GATCAATTGT 
TTGTGTATTG TTCACTCTAC AAGAATTCAA GAAGACTCAT TGGTTGTAGT GTCTGTAGCT 
GGAGAACTTA AAGTATGGGA CCTATCTTCA TCCTTGAATA GCATACAGGA GAGGCAGTGT 
GTGTGTGAGA GGGAATCCAA ATCTCTGGAC TGTATAAACT GCCAAGCAAT ACGGTTTTGC 
ACTTACACAG AAAGACTTCT TCTAGTTGTG TCCTCCACGT GCTGGCAGGT CTATGATTAT 
TGTGACTTTT CTTTGCTATG TACTGAATTC TGCAAAAGCG GTGAGTGCTT TGCTGGTGGA 
GAAGTACTAG CAGCTTACAG ACTTATCATC TGGACAGAAG ATGGTCACAG TTACATTTAC 
CAGCTGCTGA ACAGCGGGCT TTCTAAAAGC ATATATCCTG GTGATGGAAG AGTGCTGAAA 
GAAACTGTTT ATCCTCATTT ACTCTGCTCT ACTGGTGTGA GAGAAAATAA GAGTTTCCCT 
TTTGTTATGG GCTTCATGAA TGAAAGGAAA GAGCCTTTCT ATAAGGTTCT TTTTTCTGGT 
GAAGCTTCAG GAAGAATCAC TTTGTGGCAT GTTCCTGATG TCCTTGTTTC AACGTTTGAT 
GGTTCACCAA AAGAGATCCC CATTACAGCA ACTTGGACTC TTCAGGATAA TTTTGATAAA 
CACCATTCAA TGTCAGAGGG CATTATTGAT CATCTCTGTG CATCTGAAGA TGGGAGTGAA 
AGTGCGCTCA TCAGTTCCTC TGCATACATA CCCAGTCTCG ATAAGCTGGT TTGTGGGTGT 
GAAAATGGGA AAATTTTTGT AACTCTAGCT TTAAAAACTG CAAGAGCAAG ACTTTTAGAA 
AACATATCCT TGCTGAAAGA TAATCTACCT TACAAAGTTC TGAATGGTCA TCGTAGCAGA 
GTCACTTGTT TACTTTATCC GCATGATAAA TCAGCCAGGT TTGATCCAAG CTGGTTGTTA 
TCAGGAGGCC AGGATTCTGT TGTGATCTGC TGGGATATAT TTACTGGGGA AATTTTACAC 
CAGTTTACTC TGCAATCTGG TCCAGTGACA GAGCTGTTGC GACCTCCAGA AAACTGCAGA 
TTAAAAGATC ACAGCATTGT GTGCTGTGTG TGCAGGGATC ATTCAGTAGC AATTCTACAC 
CTTCAGGAGA GAGTGTGTCT CTTCCATGCC AGAAAGCATC TGTTTCCTGT GAAGATGATA 
AAAATCGACC CTGTTGAGAA TCTCCTAATT GTTGGATGTG AAGATGATTC AGTTTATATT 
TGGGAAATTG AAACAGGTAC GCTAGAACGG CATGAAACAG GTGAAACGGC AAAAGCAATT 
CTTTCTTCCA TTGAAGATTC AGAATATTTA GTGGCAGGTG CTCTACTTCC TGGATCTCAG 
GATTCAAAAA AGCATAAAGA TACTGGATAC AAATCCTCTA GCTCTTACAA GCATGACGTG 
ATCTCTTACA ACGTTACTCA CACAGAGAAA TCTTCTGATA AGCTAACTGA TACTGGCCAC 
ATCCAACAGT TCTTTACCAT TTTACCGGTT AAGACAAAAT GGAACAATGC AAATTTTCAT 
ATTCTCTTAT TTGATCCGGG AAGGCTTGCC GAACTTCTGC TGTCATCTCA ACTCAGTGGA 
CTAAAGCCAT CAAATTCATT CCACGACTAT GACACCCTAC AAAGAGCCAA AAGTACTGCT 
GAAAAAAAGG CATTGACATT AAAAAGAAAC AAAACTGCTG GCTCCATATG TCTGGTGGAT 
GGGCAAGTAG ATACTGTTTG TTCAAACCAG GTCCATAGAG ATAACGTAGT TAGGCCTTTG 
GAAGAAAGTG GTGGCATGAA AAGACAGAAA AAAGTGAAGA GTTCGAGAAA AAATAGAGCA 
CATTCACCAG GAAACGTTGA TGTGAACATC ACCACAGATA CAGCTAAACT GCTTTTGTCA 
TGTCTCTTAC CGTGGGGTGT AGATAAGGAA ATAGACAATC TTTGTATTAG CTACTTAGAT 
ATCTTGAAGC TCCAGTGTCC AGTCTCTTTT GGACTTGTGT CAAATGAAAA TCACATATCC 
TTAATGCTGC CAGGATGGAA TTGTACTGGT TGTGGTGTGC TAGAGGAGCA CACAGTAATC 
AACTTGTTTT CAAAAAGAGT GCTTGATTTG TCAAACAAGT ACCTTTCTGC AACTGAAGGA 
CAAACTGGAA AAAAGGATGG ACCAGAGAAT AATATTTATG GAACACAGCG ATCAGAAACT 
GTGTTTTTAT TAAGCAGAAT AGCTTTGATC AACAGGATAA TTAACATGCC TTTGGAAGTA 
ACAAGTGAAA TGGAAAGTCC ACGGAAATCA GAATCTGTAC ACAACAAGTG GCGAAACATG 
GAAGCAGTCA GCTCTTTGTT CCCAGACTTA CCAAGCAGTA AAAGTAGATC TTATTCCCCT 
GATTTTGGGA ATATTTCACT GATGAAACTC ATTTTTTGTT GGAGTGACCA ATCTATAAAG 
ATTATTGAGG CAATACAAGC GATGCTGCTG GCAGAAGTTC AAAGGACTAT GAAAACCTTG 
AGAAAGACGT CAGTCTGCAG AGAGCCACTG CCCATACTAG AGAATGGAAA TGTCAGTGTG 
CTGAAAAATG GCAGGAGCTC AAACTCAGCA GACTTCCAAG ATGTGGAGGA TACACCTGAC 
CGATGTGTCT TGGAAGAGTC TGAGAGTCCA GATGACATGA AGCCACATCC TTGGATATCT 
AAAGTGTGTT CCTGCAAGGT GTGTTAG