WDR35 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	WDR35
Entrez Gene ID	100470577
Full Name	WD repeat domain 35
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011219427.2	XP_011217729.1	WD repeat-containing protein 35 isoform X2
XM_019794965.1	XP_019650524.1	WD repeat-containing protein 35 isoform X3
XM_019794966.1	XP_019650525.1	WD repeat-containing protein 35 isoform X4
XM_019794964.1	XP_019650523.1	WD repeat-containing protein 35 isoform X1

Pathways from BioSystems
Gene Ontology

The following WDR35 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR35 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)
OAc23061	XM_011219427.2 Latest version!	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc89754	XM_019794964.1 Latest version!	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc89755	XM_019794965.1 Latest version!	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc89756	XM_019794966.1 Latest version!	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
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)

WDR35 ( XM_011219427.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011217729.1 Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc23061
Clone ID Related Accession (Same CDS sequence)	XM_011219427.2
Accession Version	XM_011219427.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3513bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	WD repeat-containing protein 35 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217360.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011219427.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGGGAA TCGCATTTGG GGAAAAGACT TGAAGGGTAT ACAGTTATGC 
CACGTAGCGT GGTCTGCAGA TAGTAAAGTC CTACTTTTTG GAATGGCAAA TGGAGAAATA 
CACATTTATG ATAATCAGGG GAATTTTATA ATGAAAATGA AACTGAATTG CTTGGTGAAT 
GTCACTGGAG CAATCAGTAT TGCTGGAATT CATTGGTACC ATGGCACGGA AGGCTACGTG 
GAGCCAGACT GCCCCTGCCT TGCCATTTGT TTTGACAATG GGAGGTGCCA AATCATGAGA 
CATGAGAATG ACCAAAATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGTTTGTC 
CTAGTTCTTT GTAATTCTAT TGGCACACCT TTGGATCCCA AGTATATTGA TATTGTACCA 
TTATTTGTTG CAATGACCAA AACTCATGTG ATAGCAGCTT CAAAAGAAGC CTTTTATACC 
TGGCAGTATC GTGTGGCCAA GAAGCTCACA GCGTTGGAAA TAAATCAGAT CACGCGGTCT 
CGAAGAGAAG GGAGAGAAAG GATTTATCAC GTTGATGATA CTCCTTCTGG ATCTGTGGAT 
GGGGTGCTTG ATTATAGTAA AGCCATTCAA GGCACCCGGG ATCCGATTTG TGCCATAACT 
GCATCTGATA AGACACTGAT CGTGGGTCGT GAATCTGGCA CCATTCAGAG ATATAGTCTT 
CCTAATGTTG GTTTAATTCA AAAATATTCC CTTAATTGTC GAGCCTACCA GTTATCCTTG 
AATTGCAACT CTAGTCGTCT GGCTGTCATC GACATCTCAG GAATCCTCAC TTTCTTTGAC 
TTGGATGCTC GGGTAACAGA CAGCACAGGA CAGCAGGTCA TTGGCGAGTT GTTAAAACTG 
GAGCGGAAAG ATGTCTGGGA TATGAAGTGG GCCAAAGATA ACCCAGATCT GTTTGCCATG 
ATGGAGAAGA CAAGAATGTA TGTTTTCAGA AACTTGGATC CTGAGGAGCC CATTCAGACT 
TCTGGATATA TTTGTAACTT TGAGGATTTA GAAATTAAAT CTGTTCTTTT GGATGAGATA 
CTGAAGAATC CCGAACATCC AAACAAGGAT TATATAATTA ACTTTGAGAT TCGGTCCTTG 
CGAGATAGTC GAGCATTGAT TGAGAAGGTT GGAATTGAAG ATGCATCTCA ATTCATAGAG 
GACAATCCAC ACCCCCGACT TTGGCGCCTA CTGGCTGAAG CAGCTCTTCA GAAGCTGGAT 
TTGCACACTG CAGAGCAAGC ATTTGTACGC TGCAAAGATT ACCAAGGCAT TAAGTTTGTG 
AAGCGTCTGG GCAATCTGCA GACTGAGTCC ATGAAGCAGG CCGAGGTTGC TGCCTATTTC 
GGCAGGTTTG AAGAGGCCGA AAGAATGTAT CTTGATATGG ACAGAAGAGA TCTTGCTATT 
GGCCTTCGGC TGAAATTGGG AGATTGGTTT AGAGTACTCC AGCTCCTGAA AACTGGATCT 
GGCGATGCAG ATGACAGTCT CCTAGAGCAA GCCCACAATG CCATCGGAGA CTACTTTGCT 
GATCGACAAA AATGGTTGAA TGCTGTGCAA TATTATGTAC AAGGCCGGAA CCAGGAACGT 
CTAGCTGAAT GTTATTATAT GTTGGAAGAT TATGAGGGAT TGGAGAATCT TGCCAGCTCA 
CTTCCAGAAA ACCATAAGTT GCTTCCAGAA ATAGCCCAGA TGTTTGTGAG GGTTGGAATG 
TGCGAACAAG CAGTGACTGC ATTTTTGAAA TGTAATCAGC CAAAGGATGC AGTGGATGCC 
TGTGTGCATC TCAACCAATG GAACAAAGCT GTTGAATTGG CTAAAAATCA CAGTATGAAA 
GAAATCGGAC CCCTGTTAGC GAGGTACGCA TCCCATTTAT TGGAAAAGAA TAAAACTCTT 
GATGCCATAG AACTCTATCG GAAAGCCAAC TACTTTTATG ATGCTGCTAA ACTGATGTTT 
AAGATTGCAG ATGAAGAGGC AAAGAAAAGA ACCAAACCTT TACGTGTCAA GAAGTTGTAT 
GTCCTATCAG CTTTACTCAT AGAGCAATAC CATGAACAAA TGAAAAATGC CCAAAGAGGA 
AAAGTTAAAG GAAAGAGCTC AGAGGCCACT TCTGCTTTGG CTGGTTTGCT GGAAGAAGAA 
GTTCTGTCTA CAACTAGTCG TTTCACAGAT AATGCTTGGA GAGGGGCTGA GGCTTACCAC 
TTCTTTATAC TGGCACAGAG GCAGCTCTAT GAGGGATATG TTGACACTGC ACTGAAGACA 
GCTCTTCACC TGAGAGACTA TGAAGACATT ATCCCTGCCG TTGAGATCTA CTCTCTGTTA 
GCACTCTGTG CATGTGCCAG TAGAGCTTTT GGTACTTGTT CAAAAGCTTT TATTAAACTT 
GAATCTTTAG AGACCCTCAG TGCAGAGCAA AAACAGCAAT ATGAAGATCT TGCTTTAGAA 
ATCTTCACGA AACATACTCC AAAAGATAAT AGAAAATCTG AATTGGACAG CCTTCTTGAA 
GGAGGGGAAG GGAAGCTGCC AACTTGTGTT GCCACAGGAA GCCCAATCAC CGAGTATCAA 
TTCTGGATGT GCAGTGTATG CAAGCACTGT GTTCTGGCTC AGGAAATAAG TAACTACAAC 
TTCTGTCCCT TATGCCATAG TTCAGTGGGA TAA

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

RefSeq	XP_011217729.1
CDS	119..3631
Translation	MFFYLSKKIAIPNNVKLKCVSWNKDQGFIACGGEDGLLKVLKLETQTDDAKLRGLAAPSNLSMNQTLEGHSGSVQVVTWNEQYQKLTTSDQNGLIIVWMLYKGSWYEEMINNRNKSVVRSMSWNADGQKICIVYEDGAVIVGSVDGNRIWGKDLKGIQLCHVAWSADSKVLLFGMANGEIHIYDNQGNFIMKMKLNCLVNVTGAISIAGIHWYHGTEGYVEPDCPCLAICFDNGRCQIMRHENDQNPVLIDTGMYAVSIQWNHIGSVLAVAGSQKIVTQDKDVNTVQFYTPFGEHLGTLKVPGKQMSALSWEGGGLKIALAVDSFIYFANIRPDYKWGYCSNTVVYAYTRPDRPEYCVIFWDTKNNEKYVKYVKSLISITTCGDFCILATKADENHPQFVLVLCNSIGTPLDPKYIDIVPLFVAMTKTHVIAASKEAFYTWQYRVAKKLTALEINQITRSRREGRERIYHVDDTPSGSVDGVLDYSKAIQGTRDPICAITASDKTLIVGRESGTIQRYSLPNVGLIQKYSLNCRAYQLSLNCNSSRLAVIDISGILTFFDLDARVTDSTGQQVIGELLKLERKDVWDMKWAKDNPDLFAMMEKTRMYVFRNLDPEEPIQTSGYICNFEDLEIKSVLLDEILKNPEHPNKDYIINFEIRSLRDSRALIEKVGIEDASQFIEDNPHPRLWRLLAEAALQKLDLHTAEQAFVRCKDYQGIKFVKRLGNLQTESMKQAEVAAYFGRFEEAERMYLDMDRRDLAIGLRLKLGDWFRVLQLLKTGSGDADDSLLEQAHNAIGDYFADRQKWLNAVQYYVQGRNQERLAECYYMLEDYEGLENLASSLPENHKLLPEIAQMFVRVGMCEQAVTAFLKCNQPKDAVDACVHLNQWNKAVELAKNHSMKEIGPLLARYASHLLEKNKTLDAIELYRKANYFYDAAKLMFKIADEEAKKRTKPLRVKKLYVLSALLIEQYHEQMKNAQRGKVKGKSSEATSALAGLLEEEVLSTTSRFTDNAWRGAEAYHFFILAQRQLYEGYVDTALKTALHLRDYEDIIPAVEIYSLLALCACASRAFGTCSKAFIKLESLETLSAEQKQQYEDLALEIFTKHTPKDNRKSELDSLLEGGEGKLPTCVATGSPITEYQFWMCSVCKHCVLAQEISNYNFCPLCHSSVG

Target ORF information:

RefSeq Version	XM_011219427.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X2, mRNA.

Target ORF information:

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

XM_011219427.2

ORF Insert Sequence:

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGGGAA TCGCATTTGG GGAAAAGACT TGAAGGGTAT ACAGTTATGC 
CACGTAGCGT GGTCTGCAGA TAGTAAAGTC CTACTTTTTG GAATGGCAAA TGGAGAAATA 
CACATTTATG ATAATCAGGG GAATTTTATA ATGAAAATGA AACTGAATTG CTTGGTGAAT 
GTCACTGGAG CAATCAGTAT TGCTGGAATT CATTGGTACC ATGGCACGGA AGGCTACGTG 
GAGCCAGACT GCCCCTGCCT TGCCATTTGT TTTGACAATG GGAGGTGCCA AATCATGAGA 
CATGAGAATG ACCAAAATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGTTTGTC 
CTAGTTCTTT GTAATTCTAT TGGCACACCT TTGGATCCCA AGTATATTGA TATTGTACCA 
TTATTTGTTG CAATGACCAA AACTCATGTG ATAGCAGCTT CAAAAGAAGC CTTTTATACC 
TGGCAGTATC GTGTGGCCAA GAAGCTCACA GCGTTGGAAA TAAATCAGAT CACGCGGTCT 
CGAAGAGAAG GGAGAGAAAG GATTTATCAC GTTGATGATA CTCCTTCTGG ATCTGTGGAT 
GGGGTGCTTG ATTATAGTAA AGCCATTCAA GGCACCCGGG ATCCGATTTG TGCCATAACT 
GCATCTGATA AGACACTGAT CGTGGGTCGT GAATCTGGCA CCATTCAGAG ATATAGTCTT 
CCTAATGTTG GTTTAATTCA AAAATATTCC CTTAATTGTC GAGCCTACCA GTTATCCTTG 
AATTGCAACT CTAGTCGTCT GGCTGTCATC GACATCTCAG GAATCCTCAC TTTCTTTGAC 
TTGGATGCTC GGGTAACAGA CAGCACAGGA CAGCAGGTCA TTGGCGAGTT GTTAAAACTG 
GAGCGGAAAG ATGTCTGGGA TATGAAGTGG GCCAAAGATA ACCCAGATCT GTTTGCCATG 
ATGGAGAAGA CAAGAATGTA TGTTTTCAGA AACTTGGATC CTGAGGAGCC CATTCAGACT 
TCTGGATATA TTTGTAACTT TGAGGATTTA GAAATTAAAT CTGTTCTTTT GGATGAGATA 
CTGAAGAATC CCGAACATCC AAACAAGGAT TATATAATTA ACTTTGAGAT TCGGTCCTTG 
CGAGATAGTC GAGCATTGAT TGAGAAGGTT GGAATTGAAG ATGCATCTCA ATTCATAGAG 
GACAATCCAC ACCCCCGACT TTGGCGCCTA CTGGCTGAAG CAGCTCTTCA GAAGCTGGAT 
TTGCACACTG CAGAGCAAGC ATTTGTACGC TGCAAAGATT ACCAAGGCAT TAAGTTTGTG 
AAGCGTCTGG GCAATCTGCA GACTGAGTCC ATGAAGCAGG CCGAGGTTGC TGCCTATTTC 
GGCAGGTTTG AAGAGGCCGA AAGAATGTAT CTTGATATGG ACAGAAGAGA TCTTGCTATT 
GGCCTTCGGC TGAAATTGGG AGATTGGTTT AGAGTACTCC AGCTCCTGAA AACTGGATCT 
GGCGATGCAG ATGACAGTCT CCTAGAGCAA GCCCACAATG CCATCGGAGA CTACTTTGCT 
GATCGACAAA AATGGTTGAA TGCTGTGCAA TATTATGTAC AAGGCCGGAA CCAGGAACGT 
CTAGCTGAAT GTTATTATAT GTTGGAAGAT TATGAGGGAT TGGAGAATCT TGCCAGCTCA 
CTTCCAGAAA ACCATAAGTT GCTTCCAGAA ATAGCCCAGA TGTTTGTGAG GGTTGGAATG 
TGCGAACAAG CAGTGACTGC ATTTTTGAAA TGTAATCAGC CAAAGGATGC AGTGGATGCC 
TGTGTGCATC TCAACCAATG GAACAAAGCT GTTGAATTGG CTAAAAATCA CAGTATGAAA 
GAAATCGGAC CCCTGTTAGC GAGGTACGCA TCCCATTTAT TGGAAAAGAA TAAAACTCTT 
GATGCCATAG AACTCTATCG GAAAGCCAAC TACTTTTATG ATGCTGCTAA ACTGATGTTT 
AAGATTGCAG ATGAAGAGGC AAAGAAAAGA ACCAAACCTT TACGTGTCAA GAAGTTGTAT 
GTCCTATCAG CTTTACTCAT AGAGCAATAC CATGAACAAA TGAAAAATGC CCAAAGAGGA 
AAAGTTAAAG GAAAGAGCTC AGAGGCCACT TCTGCTTTGG CTGGTTTGCT GGAAGAAGAA 
GTTCTGTCTA CAACTAGTCG TTTCACAGAT AATGCTTGGA GAGGGGCTGA GGCTTACCAC 
TTCTTTATAC TGGCACAGAG GCAGCTCTAT GAGGGATATG TTGACACTGC ACTGAAGACA 
GCTCTTCACC TGAGAGACTA TGAAGACATT ATCCCTGCCG TTGAGATCTA CTCTCTGTTA 
GCACTCTGTG CATGTGCCAG TAGAGCTTTT GGTACTTGTT CAAAAGCTTT TATTAAACTT 
GAATCTTTAG AGACCCTCAG TGCAGAGCAA AAACAGCAAT ATGAAGATCT TGCTTTAGAA 
ATCTTCACGA AACATACTCC AAAAGATAAT AGAAAATCTG AATTGGACAG CCTTCTTGAA 
GGAGGGGAAG GGAAGCTGCC AACTTGTGTT GCCACAGGAA GCCCAATCAC CGAGTATCAA 
TTCTGGATGT GCAGTGTATG CAAGCACTGT GTTCTGGCTC AGGAAATAAG TAACTACAAC 
TTCTGTCCCT TATGCCATAG TTCAGTGGGA TAA

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

WDR35 ( XM_019794964.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019650523.1 Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc89754
Clone ID Related Accession (Same CDS sequence)	XM_019794964.1
Accession Version	XM_019794964.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3546bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	WD repeat-containing protein 35 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217360.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGGGAA TCGCATTTGG GGAAAAGACT TGAAGGGTAT ACAGTTATGC 
CACGTAGCGT GGTCTGCAGA TAGTAAAGTC CTACTTTTTG GAATGGCAAA TGGAGAAATA 
CACATTTATG ATAATCAGGG GAATTTTATA ATGAAAATGA AACTGAATTG CTTGGTGAAT 
GTCACTGGAG CAATCAGTAT TGCTGGAATT CATTGGTACC ATGGCACGGA AGGCTACGTG 
GAGCCAGACT GCCCCTGCCT TGCCATTTGT TTTGACAATG GGAGGTGCCA AATCATGAGA 
CATGAGAATG ACCAAAATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGGAGGAG 
AACGAGATGG GAACATTTGG TGCAACGTTT GTCCTAGTTC TTTGTAATTC TATTGGCACA 
CCTTTGGATC CCAAGTATAT TGATATTGTA CCATTATTTG TTGCAATGAC CAAAACTCAT 
GTGATAGCAG CTTCAAAAGA AGCCTTTTAT ACCTGGCAGT ATCGTGTGGC CAAGAAGCTC 
ACAGCGTTGG AAATAAATCA GATCACGCGG TCTCGAAGAG AAGGGAGAGA AAGGATTTAT 
CACGTTGATG ATACTCCTTC TGGATCTGTG GATGGGGTGC TTGATTATAG TAAAGCCATT 
CAAGGCACCC GGGATCCGAT TTGTGCCATA ACTGCATCTG ATAAGACACT GATCGTGGGT 
CGTGAATCTG GCACCATTCA GAGATATAGT CTTCCTAATG TTGGTTTAAT TCAAAAATAT 
TCCCTTAATT GTCGAGCCTA CCAGTTATCC TTGAATTGCA ACTCTAGTCG TCTGGCTGTC 
ATCGACATCT CAGGAATCCT CACTTTCTTT GACTTGGATG CTCGGGTAAC AGACAGCACA 
GGACAGCAGG TCATTGGCGA GTTGTTAAAA CTGGAGCGGA AAGATGTCTG GGATATGAAG 
TGGGCCAAAG ATAACCCAGA TCTGTTTGCC ATGATGGAGA AGACAAGAAT GTATGTTTTC 
AGAAACTTGG ATCCTGAGGA GCCCATTCAG ACTTCTGGAT ATATTTGTAA CTTTGAGGAT 
TTAGAAATTA AATCTGTTCT TTTGGATGAG ATACTGAAGA ATCCCGAACA TCCAAACAAG 
GATTATATAA TTAACTTTGA GATTCGGTCC TTGCGAGATA GTCGAGCATT GATTGAGAAG 
GTTGGAATTG AAGATGCATC TCAATTCATA GAGGACAATC CACACCCCCG ACTTTGGCGC 
CTACTGGCTG AAGCAGCTCT TCAGAAGCTG GATTTGCACA CTGCAGAGCA AGCATTTGTA 
CGCTGCAAAG ATTACCAAGG CATTAAGTTT GTGAAGCGTC TGGGCAATCT GCAGACTGAG 
TCCATGAAGC AGGCCGAGGT TGCTGCCTAT TTCGGCAGGT TTGAAGAGGC CGAAAGAATG 
TATCTTGATA TGGACAGAAG AGATCTTGCT ATTGGCCTTC GGCTGAAATT GGGAGATTGG 
TTTAGAGTAC TCCAGCTCCT GAAAACTGGA TCTGGCGATG CAGATGACAG TCTCCTAGAG 
CAAGCCCACA ATGCCATCGG AGACTACTTT GCTGATCGAC AAAAATGGTT GAATGCTGTG 
CAATATTATG TACAAGGCCG GAACCAGGAA CGTCTAGCTG AATGTTATTA TATGTTGGAA 
GATTATGAGG GATTGGAGAA TCTTGCCAGC TCACTTCCAG AAAACCATAA GTTGCTTCCA 
GAAATAGCCC AGATGTTTGT GAGGGTTGGA ATGTGCGAAC AAGCAGTGAC TGCATTTTTG 
AAATGTAATC AGCCAAAGGA TGCAGTGGAT GCCTGTGTGC ATCTCAACCA ATGGAACAAA 
GCTGTTGAAT TGGCTAAAAA TCACAGTATG AAAGAAATCG GACCCCTGTT AGCGAGGTAC 
GCATCCCATT TATTGGAAAA GAATAAAACT CTTGATGCCA TAGAACTCTA TCGGAAAGCC 
AACTACTTTT ATGATGCTGC TAAACTGATG TTTAAGATTG CAGATGAAGA GGCAAAGAAA 
AGAACCAAAC CTTTACGTGT CAAGAAGTTG TATGTCCTAT CAGCTTTACT CATAGAGCAA 
TACCATGAAC AAATGAAAAA TGCCCAAAGA GGAAAAGTTA AAGGAAAGAG CTCAGAGGCC 
ACTTCTGCTT TGGCTGGTTT GCTGGAAGAA GAAGTTCTGT CTACAACTAG TCGTTTCACA 
GATAATGCTT GGAGAGGGGC TGAGGCTTAC CACTTCTTTA TACTGGCACA GAGGCAGCTC 
TATGAGGGAT ATGTTGACAC TGCACTGAAG ACAGCTCTTC ACCTGAGAGA CTATGAAGAC 
ATTATCCCTG CCGTTGAGAT CTACTCTCTG TTAGCACTCT GTGCATGTGC CAGTAGAGCT 
TTTGGTACTT GTTCAAAAGC TTTTATTAAA CTTGAATCTT TAGAGACCCT CAGTGCAGAG 
CAAAAACAGC AATATGAAGA TCTTGCTTTA GAAATCTTCA CGAAACATAC TCCAAAAGAT 
AATAGAAAAT CTGAATTGGA CAGCCTTCTT GAAGGAGGGG AAGGGAAGCT GCCAACTTGT 
GTTGCCACAG GAAGCCCAAT CACCGAGTAT CAATTCTGGA TGTGCAGTGT ATGCAAGCAC 
TGTGTTCTGG CTCAGGAAAT AAGTAACTAC AACTTCTGTC CCTTATGCCA TAGTTCAGTG 
GGATAA

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

RefSeq	XP_019650523.1
CDS	119..3664
Translation	MFFYLSKKIAIPNNVKLKCVSWNKDQGFIACGGEDGLLKVLKLETQTDDAKLRGLAAPSNLSMNQTLEGHSGSVQVVTWNEQYQKLTTSDQNGLIIVWMLYKGSWYEEMINNRNKSVVRSMSWNADGQKICIVYEDGAVIVGSVDGNRIWGKDLKGIQLCHVAWSADSKVLLFGMANGEIHIYDNQGNFIMKMKLNCLVNVTGAISIAGIHWYHGTEGYVEPDCPCLAICFDNGRCQIMRHENDQNPVLIDTGMYAVSIQWNHIGSVLAVAGSQKIVTQDKDVNTVQFYTPFGEHLGTLKVPGKQMSALSWEGGGLKIALAVDSFIYFANIRPDYKWGYCSNTVVYAYTRPDRPEYCVIFWDTKNNEKYVKYVKSLISITTCGDFCILATKADENHPQEENEMGTFGATFVLVLCNSIGTPLDPKYIDIVPLFVAMTKTHVIAASKEAFYTWQYRVAKKLTALEINQITRSRREGRERIYHVDDTPSGSVDGVLDYSKAIQGTRDPICAITASDKTLIVGRESGTIQRYSLPNVGLIQKYSLNCRAYQLSLNCNSSRLAVIDISGILTFFDLDARVTDSTGQQVIGELLKLERKDVWDMKWAKDNPDLFAMMEKTRMYVFRNLDPEEPIQTSGYICNFEDLEIKSVLLDEILKNPEHPNKDYIINFEIRSLRDSRALIEKVGIEDASQFIEDNPHPRLWRLLAEAALQKLDLHTAEQAFVRCKDYQGIKFVKRLGNLQTESMKQAEVAAYFGRFEEAERMYLDMDRRDLAIGLRLKLGDWFRVLQLLKTGSGDADDSLLEQAHNAIGDYFADRQKWLNAVQYYVQGRNQERLAECYYMLEDYEGLENLASSLPENHKLLPEIAQMFVRVGMCEQAVTAFLKCNQPKDAVDACVHLNQWNKAVELAKNHSMKEIGPLLARYASHLLEKNKTLDAIELYRKANYFYDAAKLMFKIADEEAKKRTKPLRVKKLYVLSALLIEQYHEQMKNAQRGKVKGKSSEATSALAGLLEEEVLSTTSRFTDNAWRGAEAYHFFILAQRQLYEGYVDTALKTALHLRDYEDIIPAVEIYSLLALCACASRAFGTCSKAFIKLESLETLSAEQKQQYEDLALEIFTKHTPKDNRKSELDSLLEGGEGKLPTCVATGSPITEYQFWMCSVCKHCVLAQEISNYNFCPLCHSSVG

Target ORF information:

RefSeq Version	XM_019794964.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X1, mRNA.

Target ORF information:

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

XM_019794964.1

ORF Insert Sequence:

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGGGAA TCGCATTTGG GGAAAAGACT TGAAGGGTAT ACAGTTATGC 
CACGTAGCGT GGTCTGCAGA TAGTAAAGTC CTACTTTTTG GAATGGCAAA TGGAGAAATA 
CACATTTATG ATAATCAGGG GAATTTTATA ATGAAAATGA AACTGAATTG CTTGGTGAAT 
GTCACTGGAG CAATCAGTAT TGCTGGAATT CATTGGTACC ATGGCACGGA AGGCTACGTG 
GAGCCAGACT GCCCCTGCCT TGCCATTTGT TTTGACAATG GGAGGTGCCA AATCATGAGA 
CATGAGAATG ACCAAAATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGGAGGAG 
AACGAGATGG GAACATTTGG TGCAACGTTT GTCCTAGTTC TTTGTAATTC TATTGGCACA 
CCTTTGGATC CCAAGTATAT TGATATTGTA CCATTATTTG TTGCAATGAC CAAAACTCAT 
GTGATAGCAG CTTCAAAAGA AGCCTTTTAT ACCTGGCAGT ATCGTGTGGC CAAGAAGCTC 
ACAGCGTTGG AAATAAATCA GATCACGCGG TCTCGAAGAG AAGGGAGAGA AAGGATTTAT 
CACGTTGATG ATACTCCTTC TGGATCTGTG GATGGGGTGC TTGATTATAG TAAAGCCATT 
CAAGGCACCC GGGATCCGAT TTGTGCCATA ACTGCATCTG ATAAGACACT GATCGTGGGT 
CGTGAATCTG GCACCATTCA GAGATATAGT CTTCCTAATG TTGGTTTAAT TCAAAAATAT 
TCCCTTAATT GTCGAGCCTA CCAGTTATCC TTGAATTGCA ACTCTAGTCG TCTGGCTGTC 
ATCGACATCT CAGGAATCCT CACTTTCTTT GACTTGGATG CTCGGGTAAC AGACAGCACA 
GGACAGCAGG TCATTGGCGA GTTGTTAAAA CTGGAGCGGA AAGATGTCTG GGATATGAAG 
TGGGCCAAAG ATAACCCAGA TCTGTTTGCC ATGATGGAGA AGACAAGAAT GTATGTTTTC 
AGAAACTTGG ATCCTGAGGA GCCCATTCAG ACTTCTGGAT ATATTTGTAA CTTTGAGGAT 
TTAGAAATTA AATCTGTTCT TTTGGATGAG ATACTGAAGA ATCCCGAACA TCCAAACAAG 
GATTATATAA TTAACTTTGA GATTCGGTCC TTGCGAGATA GTCGAGCATT GATTGAGAAG 
GTTGGAATTG AAGATGCATC TCAATTCATA GAGGACAATC CACACCCCCG ACTTTGGCGC 
CTACTGGCTG AAGCAGCTCT TCAGAAGCTG GATTTGCACA CTGCAGAGCA AGCATTTGTA 
CGCTGCAAAG ATTACCAAGG CATTAAGTTT GTGAAGCGTC TGGGCAATCT GCAGACTGAG 
TCCATGAAGC AGGCCGAGGT TGCTGCCTAT TTCGGCAGGT TTGAAGAGGC CGAAAGAATG 
TATCTTGATA TGGACAGAAG AGATCTTGCT ATTGGCCTTC GGCTGAAATT GGGAGATTGG 
TTTAGAGTAC TCCAGCTCCT GAAAACTGGA TCTGGCGATG CAGATGACAG TCTCCTAGAG 
CAAGCCCACA ATGCCATCGG AGACTACTTT GCTGATCGAC AAAAATGGTT GAATGCTGTG 
CAATATTATG TACAAGGCCG GAACCAGGAA CGTCTAGCTG AATGTTATTA TATGTTGGAA 
GATTATGAGG GATTGGAGAA TCTTGCCAGC TCACTTCCAG AAAACCATAA GTTGCTTCCA 
GAAATAGCCC AGATGTTTGT GAGGGTTGGA ATGTGCGAAC AAGCAGTGAC TGCATTTTTG 
AAATGTAATC AGCCAAAGGA TGCAGTGGAT GCCTGTGTGC ATCTCAACCA ATGGAACAAA 
GCTGTTGAAT TGGCTAAAAA TCACAGTATG AAAGAAATCG GACCCCTGTT AGCGAGGTAC 
GCATCCCATT TATTGGAAAA GAATAAAACT CTTGATGCCA TAGAACTCTA TCGGAAAGCC 
AACTACTTTT ATGATGCTGC TAAACTGATG TTTAAGATTG CAGATGAAGA GGCAAAGAAA 
AGAACCAAAC CTTTACGTGT CAAGAAGTTG TATGTCCTAT CAGCTTTACT CATAGAGCAA 
TACCATGAAC AAATGAAAAA TGCCCAAAGA GGAAAAGTTA AAGGAAAGAG CTCAGAGGCC 
ACTTCTGCTT TGGCTGGTTT GCTGGAAGAA GAAGTTCTGT CTACAACTAG TCGTTTCACA 
GATAATGCTT GGAGAGGGGC TGAGGCTTAC CACTTCTTTA TACTGGCACA GAGGCAGCTC 
TATGAGGGAT ATGTTGACAC TGCACTGAAG ACAGCTCTTC ACCTGAGAGA CTATGAAGAC 
ATTATCCCTG CCGTTGAGAT CTACTCTCTG TTAGCACTCT GTGCATGTGC CAGTAGAGCT 
TTTGGTACTT GTTCAAAAGC TTTTATTAAA CTTGAATCTT TAGAGACCCT CAGTGCAGAG 
CAAAAACAGC AATATGAAGA TCTTGCTTTA GAAATCTTCA CGAAACATAC TCCAAAAGAT 
AATAGAAAAT CTGAATTGGA CAGCCTTCTT GAAGGAGGGG AAGGGAAGCT GCCAACTTGT 
GTTGCCACAG GAAGCCCAAT CACCGAGTAT CAATTCTGGA TGTGCAGTGT ATGCAAGCAC 
TGTGTTCTGG CTCAGGAAAT AAGTAACTAC AACTTCTGTC CCTTATGCCA TAGTTCAGTG 
GGATAA

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

WDR35 ( XM_019794965.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019650524.1 Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc89755
Clone ID Related Accession (Same CDS sequence)	XM_019794965.1
Accession Version	XM_019794965.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3246bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	WD repeat-containing protein 35 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217360.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGGAGGAG 
AACGAGATGG GAACATTTGG TGCAACGTTT GTCCTAGTTC TTTGTAATTC TATTGGCACA 
CCTTTGGATC CCAAGTATAT TGATATTGTA CCATTATTTG TTGCAATGAC CAAAACTCAT 
GTGATAGCAG CTTCAAAAGA AGCCTTTTAT ACCTGGCAGT ATCGTGTGGC CAAGAAGCTC 
ACAGCGTTGG AAATAAATCA GATCACGCGG TCTCGAAGAG AAGGGAGAGA AAGGATTTAT 
CACGTTGATG ATACTCCTTC TGGATCTGTG GATGGGGTGC TTGATTATAG TAAAGCCATT 
CAAGGCACCC GGGATCCGAT TTGTGCCATA ACTGCATCTG ATAAGACACT GATCGTGGGT 
CGTGAATCTG GCACCATTCA GAGATATAGT CTTCCTAATG TTGGTTTAAT TCAAAAATAT 
TCCCTTAATT GTCGAGCCTA CCAGTTATCC TTGAATTGCA ACTCTAGTCG TCTGGCTGTC 
ATCGACATCT CAGGAATCCT CACTTTCTTT GACTTGGATG CTCGGGTAAC AGACAGCACA 
GGACAGCAGG TCATTGGCGA GTTGTTAAAA CTGGAGCGGA AAGATGTCTG GGATATGAAG 
TGGGCCAAAG ATAACCCAGA TCTGTTTGCC ATGATGGAGA AGACAAGAAT GTATGTTTTC 
AGAAACTTGG ATCCTGAGGA GCCCATTCAG ACTTCTGGAT ATATTTGTAA CTTTGAGGAT 
TTAGAAATTA AATCTGTTCT TTTGGATGAG ATACTGAAGA ATCCCGAACA TCCAAACAAG 
GATTATATAA TTAACTTTGA GATTCGGTCC TTGCGAGATA GTCGAGCATT GATTGAGAAG 
GTTGGAATTG AAGATGCATC TCAATTCATA GAGGACAATC CACACCCCCG ACTTTGGCGC 
CTACTGGCTG AAGCAGCTCT TCAGAAGCTG GATTTGCACA CTGCAGAGCA AGCATTTGTA 
CGCTGCAAAG ATTACCAAGG CATTAAGTTT GTGAAGCGTC TGGGCAATCT GCAGACTGAG 
TCCATGAAGC AGGCCGAGGT TGCTGCCTAT TTCGGCAGGT TTGAAGAGGC CGAAAGAATG 
TATCTTGATA TGGACAGAAG AGATCTTGCT ATTGGCCTTC GGCTGAAATT GGGAGATTGG 
TTTAGAGTAC TCCAGCTCCT GAAAACTGGA TCTGGCGATG CAGATGACAG TCTCCTAGAG 
CAAGCCCACA ATGCCATCGG AGACTACTTT GCTGATCGAC AAAAATGGTT GAATGCTGTG 
CAATATTATG TACAAGGCCG GAACCAGGAA CGTCTAGCTG AATGTTATTA TATGTTGGAA 
GATTATGAGG GATTGGAGAA TCTTGCCAGC TCACTTCCAG AAAACCATAA GTTGCTTCCA 
GAAATAGCCC AGATGTTTGT GAGGGTTGGA ATGTGCGAAC AAGCAGTGAC TGCATTTTTG 
AAATGTAATC AGCCAAAGGA TGCAGTGGAT GCCTGTGTGC ATCTCAACCA ATGGAACAAA 
GCTGTTGAAT TGGCTAAAAA TCACAGTATG AAAGAAATCG GACCCCTGTT AGCGAGGTAC 
GCATCCCATT TATTGGAAAA GAATAAAACT CTTGATGCCA TAGAACTCTA TCGGAAAGCC 
AACTACTTTT ATGATGCTGC TAAACTGATG TTTAAGATTG CAGATGAAGA GGCAAAGAAA 
AGAACCAAAC CTTTACGTGT CAAGAAGTTG TATGTCCTAT CAGCTTTACT CATAGAGCAA 
TACCATGAAC AAATGAAAAA TGCCCAAAGA GGAAAAGTTA AAGGAAAGAG CTCAGAGGCC 
ACTTCTGCTT TGGCTGGTTT GCTGGAAGAA GAAGTTCTGT CTACAACTAG TCGTTTCACA 
GATAATGCTT GGAGAGGGGC TGAGGCTTAC CACTTCTTTA TACTGGCACA GAGGCAGCTC 
TATGAGGGAT ATGTTGACAC TGCACTGAAG ACAGCTCTTC ACCTGAGAGA CTATGAAGAC 
ATTATCCCTG CCGTTGAGAT CTACTCTCTG TTAGCACTCT GTGCATGTGC CAGTAGAGCT 
TTTGGTACTT GTTCAAAAGC TTTTATTAAA CTTGAATCTT TAGAGACCCT CAGTGCAGAG 
CAAAAACAGC AATATGAAGA TCTTGCTTTA GAAATCTTCA CGAAACATAC TCCAAAAGAT 
AATAGAAAAT CTGAATTGGA CAGCCTTCTT GAAGGAGGGG AAGGGAAGCT GCCAACTTGT 
GTTGCCACAG GAAGCCCAAT CACCGAGTAT CAATTCTGGA TGTGCAGTGT ATGCAAGCAC 
TGTGTTCTGG CTCAGGAAAT AAGTAACTAC AACTTCTGTC CCTTATGCCA TAGTTCAGTG 
GGATAA

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

RefSeq	XP_019650524.1
CDS	119..3364
Translation	MFFYLSKKIAIPNNVKLKCVSWNKDQGFIACGGEDGLLKVLKLETQTDDAKLRGLAAPSNLSMNQTLEGHSGSVQVVTWNEQYQKLTTSDQNGLIIVWMLYKGSWYEEMINNRNKSVVRSMSWNADGQKICIVYEDGAVIVGSVDDPVLIDTGMYAVSIQWNHIGSVLAVAGSQKIVTQDKDVNTVQFYTPFGEHLGTLKVPGKQMSALSWEGGGLKIALAVDSFIYFANIRPDYKWGYCSNTVVYAYTRPDRPEYCVIFWDTKNNEKYVKYVKSLISITTCGDFCILATKADENHPQEENEMGTFGATFVLVLCNSIGTPLDPKYIDIVPLFVAMTKTHVIAASKEAFYTWQYRVAKKLTALEINQITRSRREGRERIYHVDDTPSGSVDGVLDYSKAIQGTRDPICAITASDKTLIVGRESGTIQRYSLPNVGLIQKYSLNCRAYQLSLNCNSSRLAVIDISGILTFFDLDARVTDSTGQQVIGELLKLERKDVWDMKWAKDNPDLFAMMEKTRMYVFRNLDPEEPIQTSGYICNFEDLEIKSVLLDEILKNPEHPNKDYIINFEIRSLRDSRALIEKVGIEDASQFIEDNPHPRLWRLLAEAALQKLDLHTAEQAFVRCKDYQGIKFVKRLGNLQTESMKQAEVAAYFGRFEEAERMYLDMDRRDLAIGLRLKLGDWFRVLQLLKTGSGDADDSLLEQAHNAIGDYFADRQKWLNAVQYYVQGRNQERLAECYYMLEDYEGLENLASSLPENHKLLPEIAQMFVRVGMCEQAVTAFLKCNQPKDAVDACVHLNQWNKAVELAKNHSMKEIGPLLARYASHLLEKNKTLDAIELYRKANYFYDAAKLMFKIADEEAKKRTKPLRVKKLYVLSALLIEQYHEQMKNAQRGKVKGKSSEATSALAGLLEEEVLSTTSRFTDNAWRGAEAYHFFILAQRQLYEGYVDTALKTALHLRDYEDIIPAVEIYSLLALCACASRAFGTCSKAFIKLESLETLSAEQKQQYEDLALEIFTKHTPKDNRKSELDSLLEGGEGKLPTCVATGSPITEYQFWMCSVCKHCVLAQEISNYNFCPLCHSSVG

Target ORF information:

RefSeq Version	XM_019794965.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X3, mRNA.

Target ORF information:

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

XM_019794965.1

ORF Insert Sequence:

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGGAGGAG 
AACGAGATGG GAACATTTGG TGCAACGTTT GTCCTAGTTC TTTGTAATTC TATTGGCACA 
CCTTTGGATC CCAAGTATAT TGATATTGTA CCATTATTTG TTGCAATGAC CAAAACTCAT 
GTGATAGCAG CTTCAAAAGA AGCCTTTTAT ACCTGGCAGT ATCGTGTGGC CAAGAAGCTC 
ACAGCGTTGG AAATAAATCA GATCACGCGG TCTCGAAGAG AAGGGAGAGA AAGGATTTAT 
CACGTTGATG ATACTCCTTC TGGATCTGTG GATGGGGTGC TTGATTATAG TAAAGCCATT 
CAAGGCACCC GGGATCCGAT TTGTGCCATA ACTGCATCTG ATAAGACACT GATCGTGGGT 
CGTGAATCTG GCACCATTCA GAGATATAGT CTTCCTAATG TTGGTTTAAT TCAAAAATAT 
TCCCTTAATT GTCGAGCCTA CCAGTTATCC TTGAATTGCA ACTCTAGTCG TCTGGCTGTC 
ATCGACATCT CAGGAATCCT CACTTTCTTT GACTTGGATG CTCGGGTAAC AGACAGCACA 
GGACAGCAGG TCATTGGCGA GTTGTTAAAA CTGGAGCGGA AAGATGTCTG GGATATGAAG 
TGGGCCAAAG ATAACCCAGA TCTGTTTGCC ATGATGGAGA AGACAAGAAT GTATGTTTTC 
AGAAACTTGG ATCCTGAGGA GCCCATTCAG ACTTCTGGAT ATATTTGTAA CTTTGAGGAT 
TTAGAAATTA AATCTGTTCT TTTGGATGAG ATACTGAAGA ATCCCGAACA TCCAAACAAG 
GATTATATAA TTAACTTTGA GATTCGGTCC TTGCGAGATA GTCGAGCATT GATTGAGAAG 
GTTGGAATTG AAGATGCATC TCAATTCATA GAGGACAATC CACACCCCCG ACTTTGGCGC 
CTACTGGCTG AAGCAGCTCT TCAGAAGCTG GATTTGCACA CTGCAGAGCA AGCATTTGTA 
CGCTGCAAAG ATTACCAAGG CATTAAGTTT GTGAAGCGTC TGGGCAATCT GCAGACTGAG 
TCCATGAAGC AGGCCGAGGT TGCTGCCTAT TTCGGCAGGT TTGAAGAGGC CGAAAGAATG 
TATCTTGATA TGGACAGAAG AGATCTTGCT ATTGGCCTTC GGCTGAAATT GGGAGATTGG 
TTTAGAGTAC TCCAGCTCCT GAAAACTGGA TCTGGCGATG CAGATGACAG TCTCCTAGAG 
CAAGCCCACA ATGCCATCGG AGACTACTTT GCTGATCGAC AAAAATGGTT GAATGCTGTG 
CAATATTATG TACAAGGCCG GAACCAGGAA CGTCTAGCTG AATGTTATTA TATGTTGGAA 
GATTATGAGG GATTGGAGAA TCTTGCCAGC TCACTTCCAG AAAACCATAA GTTGCTTCCA 
GAAATAGCCC AGATGTTTGT GAGGGTTGGA ATGTGCGAAC AAGCAGTGAC TGCATTTTTG 
AAATGTAATC AGCCAAAGGA TGCAGTGGAT GCCTGTGTGC ATCTCAACCA ATGGAACAAA 
GCTGTTGAAT TGGCTAAAAA TCACAGTATG AAAGAAATCG GACCCCTGTT AGCGAGGTAC 
GCATCCCATT TATTGGAAAA GAATAAAACT CTTGATGCCA TAGAACTCTA TCGGAAAGCC 
AACTACTTTT ATGATGCTGC TAAACTGATG TTTAAGATTG CAGATGAAGA GGCAAAGAAA 
AGAACCAAAC CTTTACGTGT CAAGAAGTTG TATGTCCTAT CAGCTTTACT CATAGAGCAA 
TACCATGAAC AAATGAAAAA TGCCCAAAGA GGAAAAGTTA AAGGAAAGAG CTCAGAGGCC 
ACTTCTGCTT TGGCTGGTTT GCTGGAAGAA GAAGTTCTGT CTACAACTAG TCGTTTCACA 
GATAATGCTT GGAGAGGGGC TGAGGCTTAC CACTTCTTTA TACTGGCACA GAGGCAGCTC 
TATGAGGGAT ATGTTGACAC TGCACTGAAG ACAGCTCTTC ACCTGAGAGA CTATGAAGAC 
ATTATCCCTG CCGTTGAGAT CTACTCTCTG TTAGCACTCT GTGCATGTGC CAGTAGAGCT 
TTTGGTACTT GTTCAAAAGC TTTTATTAAA CTTGAATCTT TAGAGACCCT CAGTGCAGAG 
CAAAAACAGC AATATGAAGA TCTTGCTTTA GAAATCTTCA CGAAACATAC TCCAAAAGAT 
AATAGAAAAT CTGAATTGGA CAGCCTTCTT GAAGGAGGGG AAGGGAAGCT GCCAACTTGT 
GTTGCCACAG GAAGCCCAAT CACCGAGTAT CAATTCTGGA TGTGCAGTGT ATGCAAGCAC 
TGTGTTCTGG CTCAGGAAAT AAGTAACTAC AACTTCTGTC CCTTATGCCA TAGTTCAGTG 
GGATAA

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

WDR35 ( XM_019794966.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019650525.1 Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc89756
Clone ID Related Accession (Same CDS sequence)	XM_019794966.1
Accession Version	XM_019794966.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3018bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	WD repeat-containing protein 35 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217360.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGGGAA TCGCATTTGG GGAAAAGACT TGAAGGGTAT ACAGTTATGC 
CACGTAGCGT GGTCTGCAGA TAGTAAAGTC CTACTTTTTG GAATGGCAAA TGGAGAAATA 
CACATTTATG ATAATCAGGG GAATTTTATA ATGAAAATGA AACTGAATTG CTTGGTGAAT 
GTCACTGGAG CAATCAGTAT TGCTGGAATT CATTGGTACC ATGGCACGGA AGGCTACGTG 
GAGCCAGACT GCCCCTGCCT TGCCATTTGT TTTGACAATG GGAGGTGCCA AATCATGAGA 
CATGAGAATG ACCAAAATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGGAGGAG 
AACGAGATGG GAACATTTGG TGCAACGTTT GTCCTAGTTC TTTGTAATTC TATTGGCACA 
CCTTTGGATC CCAAGTATAT TGATATTGTA CCATTATTTG TTGCAATGAC CAAAACTCAT 
GTGATAGCAG CTTCAAAAGA AGCCTTTTAT ACCTGGCAGT ATCGTGTGGC CAAGAAGCTC 
ACAGCGTTGG AAATAAATCA GATCACGCGG TCTCGAAGAG AAGGGAGAGA AAGGATTTAT 
CACGTTGATG ATACTCCTTC TGGATCTGTG GATGGGGTGC TTGATTATAG TAAAGCCATT 
CAAGGCACCC GGGATCCGAT TTGTGCCATA ACTGCATCTG ATAAGACACT GATCGTGGGT 
CGTGAATCTG GCACCATTCA GAGATATAGT CTTCCTAATG TTGGTTTAAT TCAAAAATAT 
TCCCTTAATT GTCGAGCCTA CCAGTTATCC TTGAATTGCA ACTCTAGTCG TCTGGCTGTC 
ATCGACATCT CAGGAATCCT CACTTTCTTT GACTTGGATG CTCGGGTAAC AGACAGCACA 
GGACAGCAGG TCATTGGCGA GTTGTTAAAA CTGGAGCGGA AAGATGTCTG GGATATGAAG 
TGGGCCAAAG ATAACCCAGA TCTGTTTGCC ATGATGGAGA AGACAAGAAT GTATGTTTTC 
AGAAACTTGG ATCCTGAGGA GCCCATTCAG ACTTCTGGAT ATATTTGTAA CTTTGAGGAT 
TTAGAAATTA AATCTGTTCT TTTGGATGAG ATACTGAAGA ATCCCGAACA TCCAAACAAG 
GATTATATAA TTAACTTTGA GATTCGGTCC TTGCGAGATA GTCGAGCATT GATTGAGAAG 
GTTGGAATTG AAGATGCATC TCAATTCATA GAGGACAATC CACACCCCCG ACTTTGGCGC 
CTACTGGCTG AAGCAGCTCT TCAGAAGCTG GATTTGCACA CTGCAGAGCA AGCATTTGTA 
CGCTGCAAAG ATTACCAAGG CATTAAGTTT GTGAAGCGTC TGGGCAATCT GCAGACTGAG 
TCCATGAAGC AGGCCGAGGT TGCTGCCTAT TTCGGCAGGT TTGAAGAGGC CGAAAGAATG 
TATCTTGATA TGGACAGAAG AGATCTTGCT ATTGGCCTTC GGCTGAAATT GGGAGATTGG 
TTTAGAGTAC TCCAGCTCCT GAAAACTGGA TCTGGCGATG CAGATGACAG TCTCCTAGAG 
CAAGCCCACA ATGCCATCGG AGACTACTTT GCTGATCGAC AAAAATGGTT GAATGCTGTG 
CAATATTATG TACAAGGCCG GAACCAGGAA CGTCTAGCTG AATGTTATTA TATGTTGGAA 
GATTATGAGG GATTGGAGAA TCTTGCCAGC TCACTTCCAG AAAACCATAA GTTGCTTCCA 
GAAATAGCCC AGATGTTTGT GAGGGTTGGA ATGTGCGAAC AAGCAGTGAC TGCATTTTTG 
AAATGTAATC AGCCAAAGGA TGCAGTGGAT GCCTGTGTGC ATCTCAACCA ATGGAACAAA 
GCTGTTGAAT TGGCTAAAAA TCACAGTATG AAAGAAATCG GACCCCTGTT AGCGAGGTAC 
GCATCCCATT TATTGGAAAA GAATAAAACT CTTGATGCCA TAGAACTCTA TCGGAAAGCC 
AACTACTTTT ATGATGCTGC TAAACTGATG TTTAAGATTG CAGATGAAGA GGCAAAGAAA 
AGAACCAAAC CTTTACGTGT CAAGAAGTTG TATGTCCTAT CAGCTTTACT CATAGAGCAA 
TACCATGAAC AAATGAAAAA TGCCCAAAGA GGAAAAGTTA AAGGAAAGAG CTCAGAGAAG 
CTATCTTTAT TGGAATGA

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

RefSeq	XP_019650525.1
CDS	119..3136
Translation	MFFYLSKKIAIPNNVKLKCVSWNKDQGFIACGGEDGLLKVLKLETQTDDAKLRGLAAPSNLSMNQTLEGHSGSVQVVTWNEQYQKLTTSDQNGLIIVWMLYKGSWYEEMINNRNKSVVRSMSWNADGQKICIVYEDGAVIVGSVDGNRIWGKDLKGIQLCHVAWSADSKVLLFGMANGEIHIYDNQGNFIMKMKLNCLVNVTGAISIAGIHWYHGTEGYVEPDCPCLAICFDNGRCQIMRHENDQNPVLIDTGMYAVSIQWNHIGSVLAVAGSQKIVTQDKDVNTVQFYTPFGEHLGTLKVPGKQMSALSWEGGGLKIALAVDSFIYFANIRPDYKWGYCSNTVVYAYTRPDRPEYCVIFWDTKNNEKYVKYVKSLISITTCGDFCILATKADENHPQEENEMGTFGATFVLVLCNSIGTPLDPKYIDIVPLFVAMTKTHVIAASKEAFYTWQYRVAKKLTALEINQITRSRREGRERIYHVDDTPSGSVDGVLDYSKAIQGTRDPICAITASDKTLIVGRESGTIQRYSLPNVGLIQKYSLNCRAYQLSLNCNSSRLAVIDISGILTFFDLDARVTDSTGQQVIGELLKLERKDVWDMKWAKDNPDLFAMMEKTRMYVFRNLDPEEPIQTSGYICNFEDLEIKSVLLDEILKNPEHPNKDYIINFEIRSLRDSRALIEKVGIEDASQFIEDNPHPRLWRLLAEAALQKLDLHTAEQAFVRCKDYQGIKFVKRLGNLQTESMKQAEVAAYFGRFEEAERMYLDMDRRDLAIGLRLKLGDWFRVLQLLKTGSGDADDSLLEQAHNAIGDYFADRQKWLNAVQYYVQGRNQERLAECYYMLEDYEGLENLASSLPENHKLLPEIAQMFVRVGMCEQAVTAFLKCNQPKDAVDACVHLNQWNKAVELAKNHSMKEIGPLLARYASHLLEKNKTLDAIELYRKANYFYDAAKLMFKIADEEAKKRTKPLRVKKLYVLSALLIEQYHEQMKNAQRGKVKGKSSEKLSLLE

Target ORF information:

RefSeq Version	XM_019794966.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca WD repeat domain 35 (WDR35), transcript variant X4, mRNA.

Target ORF information:

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

XM_019794966.1

ORF Insert Sequence:

ATGTTCTTTT ACCTGAGCAA GAAAATTGCC ATTCCCAACA ACGTGAAGCT GAAATGTGTA 
TCTTGGAACA AGGACCAAGG ATTCATAGCA TGTGGTGGCG AAGATGGATT ACTGAAAGTT 
TTGAAATTAG AGACACAGAC AGATGATGCA AAATTGAGGG GTCTTGCAGC CCCTAGTAAC 
CTTTCTATGA ATCAGACTCT CGAAGGTCAT AGTGGTTCTG TTCAAGTTGT AACGTGGAAT 
GAACAGTATC AGAAGTTGAC TACTAGTGAT CAAAATGGGC TTATCATTGT TTGGATGTTA 
TATAAAGGCT CTTGGTACGA GGAGATGATC AATAATAGAA ATAAGTCAGT GGTTCGAAGT 
ATGAGCTGGA ATGCCGACGG ACAGAAGATC TGCATTGTAT ACGAAGATGG GGCTGTGATA 
GTTGGTTCAG TGGATGGGAA TCGCATTTGG GGAAAAGACT TGAAGGGTAT ACAGTTATGC 
CACGTAGCGT GGTCTGCAGA TAGTAAAGTC CTACTTTTTG GAATGGCAAA TGGAGAAATA 
CACATTTATG ATAATCAGGG GAATTTTATA ATGAAAATGA AACTGAATTG CTTGGTGAAT 
GTCACTGGAG CAATCAGTAT TGCTGGAATT CATTGGTACC ATGGCACGGA AGGCTACGTG 
GAGCCAGACT GCCCCTGCCT TGCCATTTGT TTTGACAATG GGAGGTGCCA AATCATGAGA 
CATGAGAATG ACCAAAATCC TGTTTTAATC GACACTGGCA TGTATGCGGT GAGTATCCAG 
TGGAACCACA TCGGCAGCGT GTTAGCTGTG GCAGGCTCCC AGAAGATTGT CACTCAGGAT 
AAAGATGTAA ACACTGTGCA GTTTTACACT CCATTTGGTG AGCATTTGGG TACTTTGAAG 
GTTCCTGGAA AGCAGATGTC TGCACTATCT TGGGAAGGAG GAGGACTGAA AATTGCCCTA 
GCTGTTGATT CTTTTATATA TTTTGCAAAC ATTCGACCTG ACTATAAGTG GGGTTATTGC 
TCAAATACTG TCGTTTATGC ATATACCAGA CCTGATCGTC CAGAGTATTG TGTTATCTTT 
TGGGACACGA AAAACAATGA GAAATATGTT AAATATGTGA AGAGTCTCAT TTCTATTACT 
ACCTGTGGAG ATTTCTGCAT TTTGGCTACA AAAGCTGATG AAAATCATCC TCAGGAGGAG 
AACGAGATGG GAACATTTGG TGCAACGTTT GTCCTAGTTC TTTGTAATTC TATTGGCACA 
CCTTTGGATC CCAAGTATAT TGATATTGTA CCATTATTTG TTGCAATGAC CAAAACTCAT 
GTGATAGCAG CTTCAAAAGA AGCCTTTTAT ACCTGGCAGT ATCGTGTGGC CAAGAAGCTC 
ACAGCGTTGG AAATAAATCA GATCACGCGG TCTCGAAGAG AAGGGAGAGA AAGGATTTAT 
CACGTTGATG ATACTCCTTC TGGATCTGTG GATGGGGTGC TTGATTATAG TAAAGCCATT 
CAAGGCACCC GGGATCCGAT TTGTGCCATA ACTGCATCTG ATAAGACACT GATCGTGGGT 
CGTGAATCTG GCACCATTCA GAGATATAGT CTTCCTAATG TTGGTTTAAT TCAAAAATAT 
TCCCTTAATT GTCGAGCCTA CCAGTTATCC TTGAATTGCA ACTCTAGTCG TCTGGCTGTC 
ATCGACATCT CAGGAATCCT CACTTTCTTT GACTTGGATG CTCGGGTAAC AGACAGCACA 
GGACAGCAGG TCATTGGCGA GTTGTTAAAA CTGGAGCGGA AAGATGTCTG GGATATGAAG 
TGGGCCAAAG ATAACCCAGA TCTGTTTGCC ATGATGGAGA AGACAAGAAT GTATGTTTTC 
AGAAACTTGG ATCCTGAGGA GCCCATTCAG ACTTCTGGAT ATATTTGTAA CTTTGAGGAT 
TTAGAAATTA AATCTGTTCT TTTGGATGAG ATACTGAAGA ATCCCGAACA TCCAAACAAG 
GATTATATAA TTAACTTTGA GATTCGGTCC TTGCGAGATA GTCGAGCATT GATTGAGAAG 
GTTGGAATTG AAGATGCATC TCAATTCATA GAGGACAATC CACACCCCCG ACTTTGGCGC 
CTACTGGCTG AAGCAGCTCT TCAGAAGCTG GATTTGCACA CTGCAGAGCA AGCATTTGTA 
CGCTGCAAAG ATTACCAAGG CATTAAGTTT GTGAAGCGTC TGGGCAATCT GCAGACTGAG 
TCCATGAAGC AGGCCGAGGT TGCTGCCTAT TTCGGCAGGT TTGAAGAGGC CGAAAGAATG 
TATCTTGATA TGGACAGAAG AGATCTTGCT ATTGGCCTTC GGCTGAAATT GGGAGATTGG 
TTTAGAGTAC TCCAGCTCCT GAAAACTGGA TCTGGCGATG CAGATGACAG TCTCCTAGAG 
CAAGCCCACA ATGCCATCGG AGACTACTTT GCTGATCGAC AAAAATGGTT GAATGCTGTG 
CAATATTATG TACAAGGCCG GAACCAGGAA CGTCTAGCTG AATGTTATTA TATGTTGGAA 
GATTATGAGG GATTGGAGAA TCTTGCCAGC TCACTTCCAG AAAACCATAA GTTGCTTCCA 
GAAATAGCCC AGATGTTTGT GAGGGTTGGA ATGTGCGAAC AAGCAGTGAC TGCATTTTTG 
AAATGTAATC AGCCAAAGGA TGCAGTGGAT GCCTGTGTGC ATCTCAACCA ATGGAACAAA 
GCTGTTGAAT TGGCTAAAAA TCACAGTATG AAAGAAATCG GACCCCTGTT AGCGAGGTAC 
GCATCCCATT TATTGGAAAA GAATAAAACT CTTGATGCCA TAGAACTCTA TCGGAAAGCC 
AACTACTTTT ATGATGCTGC TAAACTGATG TTTAAGATTG CAGATGAAGA GGCAAAGAAA 
AGAACCAAAC CTTTACGTGT CAAGAAGTTG TATGTCCTAT CAGCTTTACT CATAGAGCAA 
TACCATGAAC AAATGAAAAA TGCCCAAAGA GGAAAAGTTA AAGGAAAGAG CTCAGAGAAG 
CTATCTTTAT TGGAATGA

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

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WDR35 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

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:

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