WDR60 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	WDR60
Entrez Gene ID	100483949
Full Name	WD repeat domain 60
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011230140.2	XP_011228442.1	WD repeat-containing protein 60 isoform X1
XM_019804026.1	XP_019659585.1	WD repeat-containing protein 60 isoform X2

Pathways from BioSystems
Gene Ontology

The following WDR60 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR60 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
OAc32791	XM_011230140.2 Latest version!	Ailuropoda melanoleuca WD repeat domain 60 (WDR60), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc95770	XM_019804026.1 Latest version!	Ailuropoda melanoleuca WD repeat domain 60 (WDR60), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

WDR60 ( XM_011230140.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011228442.1 Ailuropoda melanoleuca WD repeat domain 60 (WDR60), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc32791
Clone ID Related Accession (Same CDS sequence)	XM_011230140.2
Accession Version	XM_011230140.2 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	WD repeat-containing protein 60 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217987.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011230140.1. ##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##

ATGGAGCCTG GGAAGAGAAG AACAAAGGAT GATACTTGGA AAGCAGATGA CCTCAGAAAA 
CATCTTTTGG CTGCACAATC GGGTAGTCCC AAGGAAGATA AGAAACACAG AGAAAAGAAG 
CTGCATAAGG GGTCAGAAAT GGACCTCCCT GAATACAAAG AGCCCAAGCA CAGGGAACCA 
GACCGAGACT CCAAGTACAG AGAGAGGCCC AGCGAGAGAG ATGGCCACAC CTCCAGGGAG 
AACCCTCACG GGGACAGAGA CAGAGACAGA GAAAAGCAAA GGGAAAGGAA AAAGGACTCC 
AGAGACCGGG ACAGAGAAAG GCATAAAGAG AAATACCGAG AACAGGACAC AGAGAAGTCT 
CACGGTAAAG GAAAAGACAG GGACAAGGAC AGAGACCGCA GAGCTAGGAG GGAGGAGCTC 
AGGCAGACGG CAGCCCACCA TAGCCTGCTG GGCCGTCAGC TCCTGGACAG AACGGAGCGC 
AGGGTGCGAG CAGTAATCAA AGTGAGACCG GAAGAGAAGG AGAGGAGAGA TGAAGACCCT 
GAGAGGGGGG AAGAAGAGAG AGAAAGACGG TACAGAGAAA GAAAGCTGCA GTACAGCGAC 
AGTAAAGACA ATCCTCTTAA GTATTGGCTG TATAAAGAAG AAGGTGAAAG GAGACACAGG 
AAGCAGAAAG AACCAGATCG AGAAAGGAAA CATGGAGAAA AAAGCAGCAC AAGGGAAAAA 
AAAGAAAAGT ATCCAAAAGA AAAAAGTAAT TCCTTCTCTG ACAGGGAAGG GGAAGAAAGA 
CACAAGGAAA AGCGACACAA GGAAGGCTTT CATTTTGGTG AAGAGAGGCA CCAAAGTAAC 
ACGGATAAAA AAGAGAGGTT GTCAAGAGAA GATCTTAAGA AAAGGGAGTC CAAGAAGAGT 
GAGCACAGAA ATCGGGGTGC AAGTTCAAGG AGAGATCCCA CCGGCAGCCA GGAAGGAACG 
TGCGCTCTCT GGTATGCAGA GAATTTAGTA AGAAATAATG AAAAAAATAA AGACTCAAGA 
AGAAAGCACA GCCGCGAAGA GGGCTCCTCA GTGTGGAAGC TGGCTCAGAA GCATGGAAGA 
GAAGAAACGG CGGAAATTGA AAAGGATGAC ATTGGTTCAG GAAATGCTGG AGCTGATGAA 
TATATAGCTT ATTTTGAAGA TGATTTTGAA GACTATGAAG ATGACTTTGA GGTCTGTGAT 
GGAGAGGATG ACAGCTCTAA TGAGCTGGAA CCAAAAGAGA AAATCGAAGA GCTTCCTCCA 
GCCAGAAAAA AGGAGATACA AGAAATTCAG AAAGCCATTA ATGCAGAAAA CGAAAGGGTT 
GGCAAGTTGT CCTGCAAACT GTCCCAGAAG CAAGGTCTGC TGGAGGGTGA GAGAGACTCA 
AAGACAGATG GAAACAGTTC CCCTTCCAAA ACCCCTGTTT GTGGAATTTT CGTTGATTTT 
GCAACAGCCT CACGCCGTCA GAAGAGTCGG ACTCAGTCCC TTAAGCAAAA GACACGCAGT 
ACAAAGCTGC TTCGGCTCAT TGACTTAGAT TTTTCATTCA CTTTCTCTCT CTTGGATCTA 
CCGCCAGTAA ATGAGTATGA CATGTACATC AGAAACTTTG GGAAAAAAAA TACCAAGCAG 
GCGTATGTTC AGTACAATGA AGATAACGTT GACAGAGACG TCCAAACTGA AGAGATAGAG 
ACCAGGGTTG TGTGGACCCA GCACCCCGGA GAGGGCACGG CCGTGTCAGG GGGGAGTGGG 
AGTGGAGATC TCTGTGATGT GGCCGCTGCA CCAAAGGTCG ACACGCCCAG GCTGTCCAGC 
TTCCTCCGGG CAGCCTGCCA GGTGATTGCG GTCTTGCTTG AAGAGGACCG TGTGGGAGCC 
GAACCCAGCT GGAGCCCCAG GGCACAGGAC AGCACCCTGC ATATCAGTGA CAGCTCCTCT 
CAGCTGAATA CCAGCCTGCC ATTCCTTCAG AATCGAAAAG TGTTGTGCTT ATGTGCCTCT 
CAGGTGCAGA GACAGACGGT AGTGTCTGTG CACGGGCTGC CTGGAGCTGC ATTCGCCCCC 
GCGCTGGACG GCAGATATGT GCTGTGCGTG TGGGATATCT GGCAGCCTTC GGGGCCTCAG 
AAGGTCCTGA TATGTGAGTC AGAGGTCACA TGTTGCTGCT TTAGCCCTTT TAAAGCCTTT 
TTACTGTTTG CTGGGACGGT GCACGGCTCG GTCGTTGTGT GGGACCTACG AGAAGACTCC 
AGAATGCATC ATTATGTGAA GCTGGGCAAT TGCTTCTGGA CGTTCAGGAC AGCAACGTTT 
TCTACTGATG GTGTCCTGAC TTCAGTAAAC CACCTCAGTC CTGTTCAGGC AGTAGAACCC 
GTCTCCACGT CTGTCTACAA AAAGCAGAGT TCTGTGCTTT CCCCCTTTTC TGCTCAAGAA 
GAAATGTCAG GTTTGTCATT CCACATTGCT TCCCTGGATG AAAGTGGGGT TCTCAACGTG 
TGGGTGGTCG TTGAATTACC AAAGGCAGAT ATTGCAGGCT CAGTAACTGA TTTAGGGCTG 
ATACCCGGAG GGAGGGTAAA GCTGGTGCAC AGTGCTGTGG TTCGGCTGAG CAACAGCCTT 
TCCCATAAAG GCTGTGAATT CTGGGGGGCC ACACGAACCC TGAATGTGAA GTTTCTGCCT 
TCAGACCCTA GTCACTTCAT TGTTGGCACA GACATGGGTC TTATAAGTCA TGGCACCAGA 
CAAGATTTGA GAGTATCTCC CAAGTTGTAC AAACCTCAGC AACATGGTAC GAGACCAGTC 
GAAGTGAATG TCATTGATTT TTCACCATTT GGAGAACCAA TATTCTTGGC CGGCTGTTCA 
GATGGAAGCA TCAGGTTACA TCAGCTGACG TCCGAGTGCC CTCTCCTGCA GTGGGATGGC 
AGCACAGACG GCCACGCAGT CACAGGCCTG CGCTGGTCCT TGACCAGACC TGCCGTGTTT 
CTGGCCCAGG ATGACACATC CTGTATTTAT ATCTGGGATC TGCTGGAAAG CGATCTGGGT 
CCTGTAGCCA AACAGCTCAT CTCCCCAGAC AGGCTGGTGG CCATGACAGT CGTGGGTGAA 
GCAGAGAAGG CCAGTGGCAG CTTCCTGGCC CTGGTGCTGG CTAGAGCCTC TGGCAGCGTG 
GACATCCAGT ACCTGAAGAG GGCGTGGGCA GCCCCCGTGG GAGACGAGCT GGGGAAGCTG 
CGACTGCTCT TGCAGGAAGC CCTGTAG

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

RefSeq	XP_011228442.1
CDS	154..3360
Translation	MEPGKRRTKDDTWKADDLRKHLLAAQSGSPKEDKKHREKKLHKGSEMDLPEYKEPKHREPDRDSKYRERPSERDGHTSRENPHGDRDRDREKQRERKKDSRDRDRERHKEKYREQDTEKSHGKGKDRDKDRDRRARREELRQTAAHHSLLGRQLLDRTERRVRAVIKVRPEEKERRDEDPERGEEERERRYRERKLQYSDSKDNPLKYWLYKEEGERRHRKQKEPDRERKHGEKSSTREKKEKYPKEKSNSFSDREGEERHKEKRHKEGFHFGEERHQSNTDKKERLSREDLKKRESKKSEHRNRGASSRRDPTGSQEGTCALWYAENLVRNNEKNKDSRRKHSREEGSSVWKLAQKHGREETAEIEKDDIGSGNAGADEYIAYFEDDFEDYEDDFEVCDGEDDSSNELEPKEKIEELPPARKKEIQEIQKAINAENERVGKLSCKLSQKQGLLEGERDSKTDGNSSPSKTPVCGIFVDFATASRRQKSRTQSLKQKTRSTKLLRLIDLDFSFTFSLLDLPPVNEYDMYIRNFGKKNTKQAYVQYNEDNVDRDVQTEEIETRVVWTQHPGEGTAVSGGSGSGDLCDVAAAPKVDTPRLSSFLRAACQVIAVLLEEDRVGAEPSWSPRAQDSTLHISDSSSQLNTSLPFLQNRKVLCLCASQVQRQTVVSVHGLPGAAFAPALDGRYVLCVWDIWQPSGPQKVLICESEVTCCCFSPFKAFLLFAGTVHGSVVVWDLREDSRMHHYVKLGNCFWTFRTATFSTDGVLTSVNHLSPVQAVEPVSTSVYKKQSSVLSPFSAQEEMSGLSFHIASLDESGVLNVWVVVELPKADIAGSVTDLGLIPGGRVKLVHSAVVRLSNSLSHKGCEFWGATRTLNVKFLPSDPSHFIVGTDMGLISHGTRQDLRVSPKLYKPQQHGTRPVEVNVIDFSPFGEPIFLAGCSDGSIRLHQLTSECPLLQWDGSTDGHAVTGLRWSLTRPAVFLAQDDTSCIYIWDLLESDLGPVAKQLISPDRLVAMTVVGEAEKASGSFLALVLARASGSVDIQYLKRAWAAPVGDELGKLRLLLQEAL

Target ORF information:

RefSeq Version	XM_011230140.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca WD repeat domain 60 (WDR60), transcript variant X1, mRNA.

Target ORF information:

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

XM_011230140.2

ORF Insert Sequence:

ATGGAGCCTG GGAAGAGAAG AACAAAGGAT GATACTTGGA AAGCAGATGA CCTCAGAAAA 
CATCTTTTGG CTGCACAATC GGGTAGTCCC AAGGAAGATA AGAAACACAG AGAAAAGAAG 
CTGCATAAGG GGTCAGAAAT GGACCTCCCT GAATACAAAG AGCCCAAGCA CAGGGAACCA 
GACCGAGACT CCAAGTACAG AGAGAGGCCC AGCGAGAGAG ATGGCCACAC CTCCAGGGAG 
AACCCTCACG GGGACAGAGA CAGAGACAGA GAAAAGCAAA GGGAAAGGAA AAAGGACTCC 
AGAGACCGGG ACAGAGAAAG GCATAAAGAG AAATACCGAG AACAGGACAC AGAGAAGTCT 
CACGGTAAAG GAAAAGACAG GGACAAGGAC AGAGACCGCA GAGCTAGGAG GGAGGAGCTC 
AGGCAGACGG CAGCCCACCA TAGCCTGCTG GGCCGTCAGC TCCTGGACAG AACGGAGCGC 
AGGGTGCGAG CAGTAATCAA AGTGAGACCG GAAGAGAAGG AGAGGAGAGA TGAAGACCCT 
GAGAGGGGGG AAGAAGAGAG AGAAAGACGG TACAGAGAAA GAAAGCTGCA GTACAGCGAC 
AGTAAAGACA ATCCTCTTAA GTATTGGCTG TATAAAGAAG AAGGTGAAAG GAGACACAGG 
AAGCAGAAAG AACCAGATCG AGAAAGGAAA CATGGAGAAA AAAGCAGCAC AAGGGAAAAA 
AAAGAAAAGT ATCCAAAAGA AAAAAGTAAT TCCTTCTCTG ACAGGGAAGG GGAAGAAAGA 
CACAAGGAAA AGCGACACAA GGAAGGCTTT CATTTTGGTG AAGAGAGGCA CCAAAGTAAC 
ACGGATAAAA AAGAGAGGTT GTCAAGAGAA GATCTTAAGA AAAGGGAGTC CAAGAAGAGT 
GAGCACAGAA ATCGGGGTGC AAGTTCAAGG AGAGATCCCA CCGGCAGCCA GGAAGGAACG 
TGCGCTCTCT GGTATGCAGA GAATTTAGTA AGAAATAATG AAAAAAATAA AGACTCAAGA 
AGAAAGCACA GCCGCGAAGA GGGCTCCTCA GTGTGGAAGC TGGCTCAGAA GCATGGAAGA 
GAAGAAACGG CGGAAATTGA AAAGGATGAC ATTGGTTCAG GAAATGCTGG AGCTGATGAA 
TATATAGCTT ATTTTGAAGA TGATTTTGAA GACTATGAAG ATGACTTTGA GGTCTGTGAT 
GGAGAGGATG ACAGCTCTAA TGAGCTGGAA CCAAAAGAGA AAATCGAAGA GCTTCCTCCA 
GCCAGAAAAA AGGAGATACA AGAAATTCAG AAAGCCATTA ATGCAGAAAA CGAAAGGGTT 
GGCAAGTTGT CCTGCAAACT GTCCCAGAAG CAAGGTCTGC TGGAGGGTGA GAGAGACTCA 
AAGACAGATG GAAACAGTTC CCCTTCCAAA ACCCCTGTTT GTGGAATTTT CGTTGATTTT 
GCAACAGCCT CACGCCGTCA GAAGAGTCGG ACTCAGTCCC TTAAGCAAAA GACACGCAGT 
ACAAAGCTGC TTCGGCTCAT TGACTTAGAT TTTTCATTCA CTTTCTCTCT CTTGGATCTA 
CCGCCAGTAA ATGAGTATGA CATGTACATC AGAAACTTTG GGAAAAAAAA TACCAAGCAG 
GCGTATGTTC AGTACAATGA AGATAACGTT GACAGAGACG TCCAAACTGA AGAGATAGAG 
ACCAGGGTTG TGTGGACCCA GCACCCCGGA GAGGGCACGG CCGTGTCAGG GGGGAGTGGG 
AGTGGAGATC TCTGTGATGT GGCCGCTGCA CCAAAGGTCG ACACGCCCAG GCTGTCCAGC 
TTCCTCCGGG CAGCCTGCCA GGTGATTGCG GTCTTGCTTG AAGAGGACCG TGTGGGAGCC 
GAACCCAGCT GGAGCCCCAG GGCACAGGAC AGCACCCTGC ATATCAGTGA CAGCTCCTCT 
CAGCTGAATA CCAGCCTGCC ATTCCTTCAG AATCGAAAAG TGTTGTGCTT ATGTGCCTCT 
CAGGTGCAGA GACAGACGGT AGTGTCTGTG CACGGGCTGC CTGGAGCTGC ATTCGCCCCC 
GCGCTGGACG GCAGATATGT GCTGTGCGTG TGGGATATCT GGCAGCCTTC GGGGCCTCAG 
AAGGTCCTGA TATGTGAGTC AGAGGTCACA TGTTGCTGCT TTAGCCCTTT TAAAGCCTTT 
TTACTGTTTG CTGGGACGGT GCACGGCTCG GTCGTTGTGT GGGACCTACG AGAAGACTCC 
AGAATGCATC ATTATGTGAA GCTGGGCAAT TGCTTCTGGA CGTTCAGGAC AGCAACGTTT 
TCTACTGATG GTGTCCTGAC TTCAGTAAAC CACCTCAGTC CTGTTCAGGC AGTAGAACCC 
GTCTCCACGT CTGTCTACAA AAAGCAGAGT TCTGTGCTTT CCCCCTTTTC TGCTCAAGAA 
GAAATGTCAG GTTTGTCATT CCACATTGCT TCCCTGGATG AAAGTGGGGT TCTCAACGTG 
TGGGTGGTCG TTGAATTACC AAAGGCAGAT ATTGCAGGCT CAGTAACTGA TTTAGGGCTG 
ATACCCGGAG GGAGGGTAAA GCTGGTGCAC AGTGCTGTGG TTCGGCTGAG CAACAGCCTT 
TCCCATAAAG GCTGTGAATT CTGGGGGGCC ACACGAACCC TGAATGTGAA GTTTCTGCCT 
TCAGACCCTA GTCACTTCAT TGTTGGCACA GACATGGGTC TTATAAGTCA TGGCACCAGA 
CAAGATTTGA GAGTATCTCC CAAGTTGTAC AAACCTCAGC AACATGGTAC GAGACCAGTC 
GAAGTGAATG TCATTGATTT TTCACCATTT GGAGAACCAA TATTCTTGGC CGGCTGTTCA 
GATGGAAGCA TCAGGTTACA TCAGCTGACG TCCGAGTGCC CTCTCCTGCA GTGGGATGGC 
AGCACAGACG GCCACGCAGT CACAGGCCTG CGCTGGTCCT TGACCAGACC TGCCGTGTTT 
CTGGCCCAGG ATGACACATC CTGTATTTAT ATCTGGGATC TGCTGGAAAG CGATCTGGGT 
CCTGTAGCCA AACAGCTCAT CTCCCCAGAC AGGCTGGTGG CCATGACAGT CGTGGGTGAA 
GCAGAGAAGG CCAGTGGCAG CTTCCTGGCC CTGGTGCTGG CTAGAGCCTC TGGCAGCGTG 
GACATCCAGT ACCTGAAGAG GGCGTGGGCA GCCCCCGTGG GAGACGAGCT GGGGAAGCTG 
CGACTGCTCT TGCAGGAAGC CCTGTAG

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

WDR60 ( XM_019804026.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019659585.1 Ailuropoda melanoleuca WD repeat domain 60 (WDR60), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc95770
Clone ID Related Accession (Same CDS sequence)	XM_019804026.1
Accession Version	XM_019804026.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3186bp) 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 60 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217987.1) 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##

ATGGAGCCTG GGAAGAGAAG AACAAAGGAT GATACTTGGA AAGCAGATGA CCTCAGAAAA 
CATCTTTTGG CTGCACAATC GGGTAGTCCC AAGGAAGATA AGAAACACAG AGAAAAGAAG 
CTGCATAAGG GGTCAGAAAT GGACCTCCCT GAATACAAAG AGCCCAAGCA CAGGGAACCA 
GACCGAGACT CCAAGTACAG AGAGAGGCCC AGCGAGAGAG ATGGCCACAC CTCCAGGGAG 
AACCCTCACG GGGACAGAGA CAGAGACAGA GAAAAGCAAA GGGAAAGGAA AAAGGACTCC 
AGAGACCGGG ACAGAGAAAG GCATAAAGAG AAATACCGAG AACAGGACAC AGAGAAGTCT 
CACGGTAAAG GAAAAGACAG GGACAAGGAC AGAGACCGCA GAGCTAGGAG GGAGGAGCTC 
AGGCAGACGG CAGCCCACCA TAGCCTGCTG GGCCGTCAGC TCCTGGACAG AACGGAGCGC 
AGGGTGCGAG CAGTAATCAA AGTGAGACCG GAAGAGAAGG AGAGGAGAGA TGAAGACCCT 
GAGAGGGGGG AAGAAGAGAG AGAAAGACGG TACAGAGAAA GAAAGCTGCA GTACAGCGAC 
AGTAAAGACA ATCCTCTTAA GTATTGGCTG TATAAAGAAG AAGGTGAAAG GAGACACAGG 
AAGCAGAAAG AACCAGATCG AGAAAGGAAA CATGGAGAAA AAAGCAGCAC AAGGGAAAAA 
AAAGAAAAGT ATCCAAAAGA AAAAAGTAAT TCCTTCTCTG ACAGGGAAGG GGAAGAAAGA 
CACAAGGAAA AGCGACACAA GGAAGGCTTT CATTTTGGTG AAGAGAGGCA CCAAAGTAAC 
ACGGATAAAA AAGAGAGGTT GTCAAGAGAA GATCTTAAGA AAAGGGAGTC CAAGAAGAGT 
GAGCACAGAA ATCGGGGTGC AAGTTCAAGG AGAGATCCCA CCGGCAGCCA GGAAGGAACG 
TGCGCTCTCT GGTATGCAGA GAATTTAGTA AGAAATAATG AAAAAAATAA AGACTCAAGA 
AGAAAGCACA GCCGCGAAGA GGGCTCCTCA GTGTGGAAGC TGGCTCAGAA GCATGGAAGA 
GAAGAAACGG CGGAAATTGA AAAGGATGAC ATTGGTTCAG GAAATGCTGG AGCTGATGAA 
TATATAGCTT ATTTTGAAGA TGATTTTGAA GACTATGAAG ATGACTTTGA GGTCTGTGAT 
GGAGAGGATG ACAGCTCTAA TGAGCTGGAA CCAAAAGAGA AAATCGAAGA GCTTCCTCCA 
GCCAGAAAAA AGGAGATACA AGAAATTCAG AAAGCCATTA ATGCAGAAAA CGAAAGGGTT 
GGCAAGTTGT CCTGCAAACT GTCCCAGAAG CAAGGTCTGC TGGAGGATGG AAACAGTTCC 
CCTTCCAAAA CCCCTGTTTG TGGAATTTTC GTTGATTTTG CAACAGCCTC ACGCCGTCAG 
AAGAGTCGGA CTCAGTCCCT TAAGCAAAAG ACACGCAGTA CAAAGCTGCT TCGGCTCATT 
GACTTAGATT TTTCATTCAC TTTCTCTCTC TTGGATCTAC CGCCAGTAAA TGAGTATGAC 
ATGTACATCA GAAACTTTGG GAAAAAAAAT ACCAAGCAGG CGTATGTTCA GTACAATGAA 
GATAACGTTG ACAGAGACGT CCAAACTGAA GAGATAGAGA CCAGGGTTGT GTGGACCCAG 
CACCCCGGAG AGGGCACGGC CGTGTCAGGG GGGAGTGGGA GTGGAGATCT CTGTGATGTG 
GCCGCTGCAC CAAAGGTCGA CACGCCCAGG CTGTCCAGCT TCCTCCGGGC AGCCTGCCAG 
GTGATTGCGG TCTTGCTTGA AGAGGACCGT GTGGGAGCCG AACCCAGCTG GAGCCCCAGG 
GCACAGGACA GCACCCTGCA TATCAGTGAC AGCTCCTCTC AGCTGAATAC CAGCCTGCCA 
TTCCTTCAGA ATCGAAAAGT GTTGTGCTTA TGTGCCTCTC AGGTGCAGAG ACAGACGGTA 
GTGTCTGTGC ACGGGCTGCC TGGAGCTGCA TTCGCCCCCG CGCTGGACGG CAGATATGTG 
CTGTGCGTGT GGGATATCTG GCAGCCTTCG GGGCCTCAGA AGGTCCTGAT ATGTGAGTCA 
GAGGTCACAT GTTGCTGCTT TAGCCCTTTT AAAGCCTTTT TACTGTTTGC TGGGACGGTG 
CACGGCTCGG TCGTTGTGTG GGACCTACGA GAAGACTCCA GAATGCATCA TTATGTGAAG 
CTGGGCAATT GCTTCTGGAC GTTCAGGACA GCAACGTTTT CTACTGATGG TGTCCTGACT 
TCAGTAAACC ACCTCAGTCC TGTTCAGGCA GTAGAACCCG TCTCCACGTC TGTCTACAAA 
AAGCAGAGTT CTGTGCTTTC CCCCTTTTCT GCTCAAGAAG AAATGTCAGG TTTGTCATTC 
CACATTGCTT CCCTGGATGA AAGTGGGGTT CTCAACGTGT GGGTGGTCGT TGAATTACCA 
AAGGCAGATA TTGCAGGCTC AGTAACTGAT TTAGGGCTGA TACCCGGAGG GAGGGTAAAG 
CTGGTGCACA GTGCTGTGGT TCGGCTGAGC AACAGCCTTT CCCATAAAGG CTGTGAATTC 
TGGGGGGCCA CACGAACCCT GAATGTGAAG TTTCTGCCTT CAGACCCTAG TCACTTCATT 
GTTGGCACAG ACATGGGTCT TATAAGTCAT GGCACCAGAC AAGATTTGAG AGTATCTCCC 
AAGTTGTACA AACCTCAGCA ACATGGTACG AGACCAGTCG AAGTGAATGT CATTGATTTT 
TCACCATTTG GAGAACCAAT ATTCTTGGCC GGCTGTTCAG ATGGAAGCAT CAGGTTACAT 
CAGCTGACGT CCGAGTGCCC TCTCCTGCAG TGGGATGGCA GCACAGACGG CCACGCAGTC 
ACAGGCCTGC GCTGGTCCTT GACCAGACCT GCCGTGTTTC TGGCCCAGGA TGACACATCC 
TGTATTTATA TCTGGGATCT GCTGGAAAGC GATCTGGGTC CTGTAGCCAA ACAGCTCATC 
TCCCCAGACA GGCTGGTGGC CATGACAGTC GTGGGTGAAG CAGAGAAGGC CAGTGGCAGC 
TTCCTGGCCC TGGTGCTGGC TAGAGCCTCT GGCAGCGTGG ACATCCAGTA CCTGAAGAGG 
GCGTGGGCAG CCCCCGTGGG AGACGAGCTG GGGAAGCTGC GACTGCTCTT GCAGGAAGCC 
CTGTAG

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

RefSeq	XP_019659585.1
CDS	154..3339
Translation	MEPGKRRTKDDTWKADDLRKHLLAAQSGSPKEDKKHREKKLHKGSEMDLPEYKEPKHREPDRDSKYRERPSERDGHTSRENPHGDRDRDREKQRERKKDSRDRDRERHKEKYREQDTEKSHGKGKDRDKDRDRRARREELRQTAAHHSLLGRQLLDRTERRVRAVIKVRPEEKERRDEDPERGEEERERRYRERKLQYSDSKDNPLKYWLYKEEGERRHRKQKEPDRERKHGEKSSTREKKEKYPKEKSNSFSDREGEERHKEKRHKEGFHFGEERHQSNTDKKERLSREDLKKRESKKSEHRNRGASSRRDPTGSQEGTCALWYAENLVRNNEKNKDSRRKHSREEGSSVWKLAQKHGREETAEIEKDDIGSGNAGADEYIAYFEDDFEDYEDDFEVCDGEDDSSNELEPKEKIEELPPARKKEIQEIQKAINAENERVGKLSCKLSQKQGLLEDGNSSPSKTPVCGIFVDFATASRRQKSRTQSLKQKTRSTKLLRLIDLDFSFTFSLLDLPPVNEYDMYIRNFGKKNTKQAYVQYNEDNVDRDVQTEEIETRVVWTQHPGEGTAVSGGSGSGDLCDVAAAPKVDTPRLSSFLRAACQVIAVLLEEDRVGAEPSWSPRAQDSTLHISDSSSQLNTSLPFLQNRKVLCLCASQVQRQTVVSVHGLPGAAFAPALDGRYVLCVWDIWQPSGPQKVLICESEVTCCCFSPFKAFLLFAGTVHGSVVVWDLREDSRMHHYVKLGNCFWTFRTATFSTDGVLTSVNHLSPVQAVEPVSTSVYKKQSSVLSPFSAQEEMSGLSFHIASLDESGVLNVWVVVELPKADIAGSVTDLGLIPGGRVKLVHSAVVRLSNSLSHKGCEFWGATRTLNVKFLPSDPSHFIVGTDMGLISHGTRQDLRVSPKLYKPQQHGTRPVEVNVIDFSPFGEPIFLAGCSDGSIRLHQLTSECPLLQWDGSTDGHAVTGLRWSLTRPAVFLAQDDTSCIYIWDLLESDLGPVAKQLISPDRLVAMTVVGEAEKASGSFLALVLARASGSVDIQYLKRAWAAPVGDELGKLRLLLQEAL

Target ORF information:

RefSeq Version	XM_019804026.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca WD repeat domain 60 (WDR60), transcript variant X2, mRNA.

Target ORF information:

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

XM_019804026.1

ORF Insert Sequence:

ATGGAGCCTG GGAAGAGAAG AACAAAGGAT GATACTTGGA AAGCAGATGA CCTCAGAAAA 
CATCTTTTGG CTGCACAATC GGGTAGTCCC AAGGAAGATA AGAAACACAG AGAAAAGAAG 
CTGCATAAGG GGTCAGAAAT GGACCTCCCT GAATACAAAG AGCCCAAGCA CAGGGAACCA 
GACCGAGACT CCAAGTACAG AGAGAGGCCC AGCGAGAGAG ATGGCCACAC CTCCAGGGAG 
AACCCTCACG GGGACAGAGA CAGAGACAGA GAAAAGCAAA GGGAAAGGAA AAAGGACTCC 
AGAGACCGGG ACAGAGAAAG GCATAAAGAG AAATACCGAG AACAGGACAC AGAGAAGTCT 
CACGGTAAAG GAAAAGACAG GGACAAGGAC AGAGACCGCA GAGCTAGGAG GGAGGAGCTC 
AGGCAGACGG CAGCCCACCA TAGCCTGCTG GGCCGTCAGC TCCTGGACAG AACGGAGCGC 
AGGGTGCGAG CAGTAATCAA AGTGAGACCG GAAGAGAAGG AGAGGAGAGA TGAAGACCCT 
GAGAGGGGGG AAGAAGAGAG AGAAAGACGG TACAGAGAAA GAAAGCTGCA GTACAGCGAC 
AGTAAAGACA ATCCTCTTAA GTATTGGCTG TATAAAGAAG AAGGTGAAAG GAGACACAGG 
AAGCAGAAAG AACCAGATCG AGAAAGGAAA CATGGAGAAA AAAGCAGCAC AAGGGAAAAA 
AAAGAAAAGT ATCCAAAAGA AAAAAGTAAT TCCTTCTCTG ACAGGGAAGG GGAAGAAAGA 
CACAAGGAAA AGCGACACAA GGAAGGCTTT CATTTTGGTG AAGAGAGGCA CCAAAGTAAC 
ACGGATAAAA AAGAGAGGTT GTCAAGAGAA GATCTTAAGA AAAGGGAGTC CAAGAAGAGT 
GAGCACAGAA ATCGGGGTGC AAGTTCAAGG AGAGATCCCA CCGGCAGCCA GGAAGGAACG 
TGCGCTCTCT GGTATGCAGA GAATTTAGTA AGAAATAATG AAAAAAATAA AGACTCAAGA 
AGAAAGCACA GCCGCGAAGA GGGCTCCTCA GTGTGGAAGC TGGCTCAGAA GCATGGAAGA 
GAAGAAACGG CGGAAATTGA AAAGGATGAC ATTGGTTCAG GAAATGCTGG AGCTGATGAA 
TATATAGCTT ATTTTGAAGA TGATTTTGAA GACTATGAAG ATGACTTTGA GGTCTGTGAT 
GGAGAGGATG ACAGCTCTAA TGAGCTGGAA CCAAAAGAGA AAATCGAAGA GCTTCCTCCA 
GCCAGAAAAA AGGAGATACA AGAAATTCAG AAAGCCATTA ATGCAGAAAA CGAAAGGGTT 
GGCAAGTTGT CCTGCAAACT GTCCCAGAAG CAAGGTCTGC TGGAGGATGG AAACAGTTCC 
CCTTCCAAAA CCCCTGTTTG TGGAATTTTC GTTGATTTTG CAACAGCCTC ACGCCGTCAG 
AAGAGTCGGA CTCAGTCCCT TAAGCAAAAG ACACGCAGTA CAAAGCTGCT TCGGCTCATT 
GACTTAGATT TTTCATTCAC TTTCTCTCTC TTGGATCTAC CGCCAGTAAA TGAGTATGAC 
ATGTACATCA GAAACTTTGG GAAAAAAAAT ACCAAGCAGG CGTATGTTCA GTACAATGAA 
GATAACGTTG ACAGAGACGT CCAAACTGAA GAGATAGAGA CCAGGGTTGT GTGGACCCAG 
CACCCCGGAG AGGGCACGGC CGTGTCAGGG GGGAGTGGGA GTGGAGATCT CTGTGATGTG 
GCCGCTGCAC CAAAGGTCGA CACGCCCAGG CTGTCCAGCT TCCTCCGGGC AGCCTGCCAG 
GTGATTGCGG TCTTGCTTGA AGAGGACCGT GTGGGAGCCG AACCCAGCTG GAGCCCCAGG 
GCACAGGACA GCACCCTGCA TATCAGTGAC AGCTCCTCTC AGCTGAATAC CAGCCTGCCA 
TTCCTTCAGA ATCGAAAAGT GTTGTGCTTA TGTGCCTCTC AGGTGCAGAG ACAGACGGTA 
GTGTCTGTGC ACGGGCTGCC TGGAGCTGCA TTCGCCCCCG CGCTGGACGG CAGATATGTG 
CTGTGCGTGT GGGATATCTG GCAGCCTTCG GGGCCTCAGA AGGTCCTGAT ATGTGAGTCA 
GAGGTCACAT GTTGCTGCTT TAGCCCTTTT AAAGCCTTTT TACTGTTTGC TGGGACGGTG 
CACGGCTCGG TCGTTGTGTG GGACCTACGA GAAGACTCCA GAATGCATCA TTATGTGAAG 
CTGGGCAATT GCTTCTGGAC GTTCAGGACA GCAACGTTTT CTACTGATGG TGTCCTGACT 
TCAGTAAACC ACCTCAGTCC TGTTCAGGCA GTAGAACCCG TCTCCACGTC TGTCTACAAA 
AAGCAGAGTT CTGTGCTTTC CCCCTTTTCT GCTCAAGAAG AAATGTCAGG TTTGTCATTC 
CACATTGCTT CCCTGGATGA AAGTGGGGTT CTCAACGTGT GGGTGGTCGT TGAATTACCA 
AAGGCAGATA TTGCAGGCTC AGTAACTGAT TTAGGGCTGA TACCCGGAGG GAGGGTAAAG 
CTGGTGCACA GTGCTGTGGT TCGGCTGAGC AACAGCCTTT CCCATAAAGG CTGTGAATTC 
TGGGGGGCCA CACGAACCCT GAATGTGAAG TTTCTGCCTT CAGACCCTAG TCACTTCATT 
GTTGGCACAG ACATGGGTCT TATAAGTCAT GGCACCAGAC AAGATTTGAG AGTATCTCCC 
AAGTTGTACA AACCTCAGCA ACATGGTACG AGACCAGTCG AAGTGAATGT CATTGATTTT 
TCACCATTTG GAGAACCAAT ATTCTTGGCC GGCTGTTCAG ATGGAAGCAT CAGGTTACAT 
CAGCTGACGT CCGAGTGCCC TCTCCTGCAG TGGGATGGCA GCACAGACGG CCACGCAGTC 
ACAGGCCTGC GCTGGTCCTT GACCAGACCT GCCGTGTTTC TGGCCCAGGA TGACACATCC 
TGTATTTATA TCTGGGATCT GCTGGAAAGC GATCTGGGTC CTGTAGCCAA ACAGCTCATC 
TCCCCAGACA GGCTGGTGGC CATGACAGTC GTGGGTGAAG CAGAGAAGGC CAGTGGCAGC 
TTCCTGGCCC TGGTGCTGGC TAGAGCCTCT GGCAGCGTGG ACATCCAGTA CCTGAAGAGG 
GCGTGGGCAG CCCCCGTGGG AGACGAGCTG GGGAAGCTGC GACTGCTCTT GCAGGAAGCC 
CTGTAG

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

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WDR60 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:

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