KANK1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	KANK1
Entrez Gene ID	100484862
Full Name	KN motif and ankyrin repeat domains 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019800366.1	XP_019655925.1	KN motif and ankyrin repeat domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following KANK1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KANK1 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
OAc93285	XM_019800366.1 Latest version!	Ailuropoda melanoleuca KN motif and ankyrin repeat domains 1 (KANK1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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** 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)

KANK1 ( XM_019800366.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019655925.1 Ailuropoda melanoleuca KN motif and ankyrin repeat domains 1 (KANK1), mRNA.

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CloneID	OAc93285
Clone ID Related Accession (Same CDS sequence)	XM_019800366.1
Accession Version	XM_019800366.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4059bp) 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	KN motif and ankyrin repeat domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217654.1) 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##

ATGGCTCACA CCACAAAGGC TGACGGCTCT GCATCAGGAA ATGCGGAGGG TGTTCTGAAT 
GGAGATCATG ACAAGGAACA GAAAGATCCG TATTTTGTGG AGACCCCCTA CGGTTATCAG 
CTAGACTTAG ATTTCCTCAA GTACGTGGAT GACATACAGA AAGGAAACAC CATCAAAAAA 
CTGAACATCC AGAAGAGGCG GAAGCCGTCT GTGCTGTGCG CGGACAGCAG GGCGGCTCCC 
GGCCAGCACG GTGTGTGGAC TTCCACTGAA TCCCTCTCCT CCTCCAACAG TGATGACACC 
AAGCAGTGCC CCCACTTCCT CCTCGCCAGA AGCCAAGTGA CATCGACGCC AATCCCGAGG 
CCACCCGCCC CCCTGGAGAC CTCACCCACT TTTCTTACCA TCCCAGAAAG TCGGCAGCTG 
CCACCACCCT CACCGCAGCT CCCAAAGCAC AACCTTCATG TCACCAAGAC ACTGATGGAG 
ACCCGGAGAA GACTGGAACA GGAGAGAGTC GCCATGCAGG TGGCACCGGC TGAGTTCCGA 
AGGCCCAGGC TGGCCAGTTT CGGAGGCATG GGCTCCACGA GCTCGCTGTC CTCCTTTATG 
GGTTCCGGAA ACCACAATCC CGCCATGAAC CAACTTCAGA ATGGCTACCA AGGCAACGGG 
GACTACGGTG GCTACGTCCC AGCTGCGGCC ACCACTTCAT CCATGGGGAG CTCCCTCCAC 
CACAGCCCCC TGAGCTCAGG GATCTCCACT CCGGTGACCA ACGTGAGCCC CATGCACCTG 
CAGCACATCC GTGAGCAGAT GGCCGTCGCC CTGAAACGCC TGAAGGAGCT TGAGGAGCAG 
GTGCGAACCA TCCCCGTGCT ACAGGTGAAG ATCTCGGTCT TGCAAGAGGA GAAACGACAG 
TTGGCCTTGC AGCTGAAACA CCAGAGAGCC ACGGCCCAGA ACGAGGTCGG TGGCGTGAGG 
AAGCGGTCCT ACAGTGCTGG GAACGCAGCC CAGCTGCAAG AGCTGTCCCG GGCCCGGCGA 
GGCGGGGAGT TGTACATTGA CTACGAGGAG GAGGAGGTGA AGAGCGTGGA GCAGAGTACG 
CAGGGCATCC GGGAGTTCCG GCAGCTCGCG GCGGACATGC GGGCCCTGGA GCAGAAGATA 
CAGGACAGCA GCTGCGGGGC CTCCTCGGAG CCCCAGGAGA ACCGGGAGTG CCGGTCCGTG 
GCCGTGGGTG CCGACGAGAA CATGGACCAC GTCGTCGTAT ACCGCAGGGG CCCCGGGACC 
TGTAGGGACG CCGCTGTGGG GACCGTCACG GAGACAAGGA GTTCTGGGGT CGGTGTGACC 
GAGGCCATGC TGGGAGTGAC CACTGAAGCT GACAAAGAAA TTGAGCTGCA GCAGCAGACC 
ATAGAAGCCC TGAAGGAAAA GATCTACCGC CTGGAAGTTC AGCTGAAGGA AACCACCCAC 
GACCGCGAGA TGACAAGACT CAAGCAAGAG CTGCAGGCCG CTGGATCGAG GAAGAAGGTG 
GACAAGGCCA TGATGGCCCA GCCGCTTGTG TGCAGCAAGA TGGTGGAGGC AGTGGTGCCG 
ACGAGAGACC AGATGGCTGG CCGTCACATG GACGTGGCCG ACACGTGCGT CGGGACCTCC 
GTGCAGACGC ACAGCGTGGG GGTCTCCTGC CAGCCCAGTT GTGAGAGTAG AGCCGCGGGG 
CCTGAGCTGC CCATGAATTG GTGGATTGTC AAGGAACGGG TGGAGTTGCG TGACCAATGT 
ACTGGGAGGT CCCTGGAGAC GTGTGACAAG AGTGTGGGTG TGGAAATCAG TGTCTGCGAA 
ACAGGCAGCA ACACGGAGGA GTCCGTGAAT GACCTCTCTC TCCTCAAGAC CAACCTGAAT 
CTCAAAGAAG TGCGATCAAT CGGCTGTGGG GATTGTTCTG TTGACGTGAC CGTCTGCCCT 
CCAAAGGAGC GCACGTCCCG GAGCGTGAAC ACGGAGGCTG TTAGCCAGGT AGAAGCTGCT 
GTCATGGCAG TGCCTCCTAC CACGAGCCAG CACACCAGTA CGGTTTGGGA ACAGGTGACC 
CAGTTCACCA ACACCGAGGT GGCCATCCTT GTGGACTCCT GCACCAACAC CTCCCTCAGC 
ACTTTGGACA AGCAGACGAG CACCCAGACT GTGGAGATGC GGACCGTGGC TATCGGAGAA 
GGCCGGGTTA AGGATGTCAA CTCCTCCGCC AAGATGCGGT CCATCGGAGT GGGAACGGTG 
CTCTCTGGCA ATTCTGGGTT TGACAGGCCT TCGGCTGTGA AGACCAAAGA ATCAGGCGTG 
GGGCAGATAA ATATTCACGA CAACTATCTG GTTGGCCTCA AGATGAGGAC CATAGCCTGT 
GGTCCTCCCC AGGTGACTCT GGGGCTGGCG GCCAGCAGGA GGAGCATAGG TGTTGGGGAT 
GAGCCCGTTG GAGAGTTCAC GGAAAGCCCC CAGCCCCAGG CTCCTTCGGG GATGATGACC 
GGCTTGGATC ACTACATTGA GCGCGTCCAG AAGTTGCTGG CAGAGCAGCA GACGCTGCTG 
GCTGAGAACT ACAGTGAACT GGCGGAGGCC TTTGGGGAGC CGCACTCACA GATCAGCTCT 
CTGAACTCGC AGCTCATCAG CACCCTGTCC TCAATCAACT CTGTCATGAA GTCTGCAAGC 
ACGGAGGAGC TGAGGAACCC TGACTTCCCA AAAATGAGCC TGGGTAAAGT CACAGGCAGT 
AGCTTGGAAT ACACCTGTAA GTGTGGAGGC CTTCAAGCAG GAGCTCCGTT CAACACCCAG 
ACCTCCCGGC ATGAACAAGC AGTGGGGAGC ACAGAAGGGG CACCCTTCGG CGGCCAGGAC 
ACCTTCCCCT CTCAGGAAAG CACGCTGCCC CCCGTGAACC TGACAGACGA CCAGATAGCC 
GCCGGCCTCT ATGTATGTGC AAACGGTGAA AGCACACTGA AGTCTATCAT GAAGAAGAAA 
GATGGCAACA AAGATTCAAA TGGCACAAAG AAGAATCTTC AGTTTGTTGG CATCAATGGA 
GGGTATGAAA CAACTTCAAG TGATGATTCC AGCTCGGATG AAAGCTCTTC CTCCGAGTCA 
GATGACGAGT GTGATGTCAT TGAGTATCCT CCTGAGGAAG AGGAGGATGA AGAGGAGGAT 
GAAGACACTC GGGGAATGGC GGAAGGGCAC CATGCCGTTA ATATTGAAGG TTTCAAGTCC 
GCCAGGGTGG AAGATGAGAT GCAGGTTCCA GAATGTGAAC CTGAGAAGGT GGAAATCAGA 
GAGAGGTATG AATTAAGTGA AAAGATGTTG TCTGCATGCA ACTTACTGAA AAATAATATA 
AATGACCCCA AAGCTTTGAC CAGCAAGGAT ATGCGGTTCT GCCTGAACAC CCTGCAGCAC 
GAGTGGTTCC GCGTGTCCAG TCAGAAGTCG GCCAGTCCGG CCATGGTGGG GGACTACATA 
GCGGCGTTTG AGGCCATCTC CCCGGACGTC CTCCGCCACG TCATCAACAT GGCCGACGGC 
AACGGCAACA CGGCCCTCCA CTACAGCGTG TCCCACTCCA ACTTCGAGAT CGTGAAGCTG 
CTCTTGGACG CCGACGTGTG TAATGTGGAT CACCAGAACA AAGCGGGCTA CACCCCCATC 
ATGCTGGCAG CCCTGGCCGC GGTGGAAGCC GAGAAGGACA TGCGCGTCGT GGAAGAACTC 
TTCGGCTGCG GGGACGTGAA CGCCAAAGCC AGCCAGGCGG GGCAGACAGC CCTAATGCTG 
GCCGTCAGCC ACGGGCGGAT CGACATGGTG AGGGGCCTGC TGGCCTGCGG CGCTGATGTC 
AACATCCAGG ACGACGAGGG CTCCACGGCC CTCATGTGCG CCAGCGAGCA CGGGCACGTG 
GAGATCGTCA AGCTACTGCT GGCCCAGCCG GGCTGCAACG GCCACCTGGA GGACAACGAC 
GGCAGCACTG CACTCTCGAT AGCCCTGGAG GCGGGACACA AGGACATCGC GGTTCTTCTG 
TACGCCCACG TCAACTTCGC CAAGGCCCAG TCTCCGGGCA CCCCTAGGCT TGGAAGGAAG 
ACATCTCCTG GCCCCACCCA CCGAAGTTCA TTTGATTGA

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

RefSeq	XP_019655925.1
CDS	271..4329
Translation	MAHTTKADGSASGNAEGVLNGDHDKEQKDPYFVETPYGYQLDLDFLKYVDDIQKGNTIKKLNIQKRRKPSVLCADSRAAPGQHGVWTSTESLSSSNSDDTKQCPHFLLARSQVTSTPIPRPPAPLETSPTFLTIPESRQLPPPSPQLPKHNLHVTKTLMETRRRLEQERVAMQVAPAEFRRPRLASFGGMGSTSSLSSFMGSGNHNPAMNQLQNGYQGNGDYGGYVPAAATTSSMGSSLHHSPLSSGISTPVTNVSPMHLQHIREQMAVALKRLKELEEQVRTIPVLQVKISVLQEEKRQLALQLKHQRATAQNEVGGVRKRSYSAGNAAQLQELSRARRGGELYIDYEEEEVKSVEQSTQGIREFRQLAADMRALEQKIQDSSCGASSEPQENRECRSVAVGADENMDHVVVYRRGPGTCRDAAVGTVTETRSSGVGVTEAMLGVTTEADKEIELQQQTIEALKEKIYRLEVQLKETTHDREMTRLKQELQAAGSRKKVDKAMMAQPLVCSKMVEAVVPTRDQMAGRHMDVADTCVGTSVQTHSVGVSCQPSCESRAAGPELPMNWWIVKERVELRDQCTGRSLETCDKSVGVEISVCETGSNTEESVNDLSLLKTNLNLKEVRSIGCGDCSVDVTVCPPKERTSRSVNTEAVSQVEAAVMAVPPTTSQHTSTVWEQVTQFTNTEVAILVDSCTNTSLSTLDKQTSTQTVEMRTVAIGEGRVKDVNSSAKMRSIGVGTVLSGNSGFDRPSAVKTKESGVGQINIHDNYLVGLKMRTIACGPPQVTLGLAASRRSIGVGDEPVGEFTESPQPQAPSGMMTGLDHYIERVQKLLAEQQTLLAENYSELAEAFGEPHSQISSLNSQLISTLSSINSVMKSASTEELRNPDFPKMSLGKVTGSSLEYTCKCGGLQAGAPFNTQTSRHEQAVGSTEGAPFGGQDTFPSQESTLPPVNLTDDQIAAGLYVCANGESTLKSIMKKKDGNKDSNGTKKNLQFVGINGGYETTSSDDSSSDESSSSESDDECDVIEYPPEEEEDEEEDEDTRGMAEGHHAVNIEGFKSARVEDEMQVPECEPEKVEIRERYELSEKMLSACNLLKNNINDPKALTSKDMRFCLNTLQHEWFRVSSQKSASPAMVGDYIAAFEAISPDVLRHVINMADGNGNTALHYSVSHSNFEIVKLLLDADVCNVDHQNKAGYTPIMLAALAAVEAEKDMRVVEELFGCGDVNAKASQAGQTALMLAVSHGRIDMVRGLLACGADVNIQDDEGSTALMCASEHGHVEIVKLLLAQPGCNGHLEDNDGSTALSIALEAGHKDIAVLLYAHVNFAKAQSPGTPRLGRKTSPGPTHRSSFD

Target ORF information:

RefSeq Version	XM_019800366.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca KN motif and ankyrin repeat domains 1 (KANK1), mRNA.

Target ORF information:

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

XM_019800366.1

ORF Insert Sequence:

ATGGCTCACA CCACAAAGGC TGACGGCTCT GCATCAGGAA ATGCGGAGGG TGTTCTGAAT 
GGAGATCATG ACAAGGAACA GAAAGATCCG TATTTTGTGG AGACCCCCTA CGGTTATCAG 
CTAGACTTAG ATTTCCTCAA GTACGTGGAT GACATACAGA AAGGAAACAC CATCAAAAAA 
CTGAACATCC AGAAGAGGCG GAAGCCGTCT GTGCTGTGCG CGGACAGCAG GGCGGCTCCC 
GGCCAGCACG GTGTGTGGAC TTCCACTGAA TCCCTCTCCT CCTCCAACAG TGATGACACC 
AAGCAGTGCC CCCACTTCCT CCTCGCCAGA AGCCAAGTGA CATCGACGCC AATCCCGAGG 
CCACCCGCCC CCCTGGAGAC CTCACCCACT TTTCTTACCA TCCCAGAAAG TCGGCAGCTG 
CCACCACCCT CACCGCAGCT CCCAAAGCAC AACCTTCATG TCACCAAGAC ACTGATGGAG 
ACCCGGAGAA GACTGGAACA GGAGAGAGTC GCCATGCAGG TGGCACCGGC TGAGTTCCGA 
AGGCCCAGGC TGGCCAGTTT CGGAGGCATG GGCTCCACGA GCTCGCTGTC CTCCTTTATG 
GGTTCCGGAA ACCACAATCC CGCCATGAAC CAACTTCAGA ATGGCTACCA AGGCAACGGG 
GACTACGGTG GCTACGTCCC AGCTGCGGCC ACCACTTCAT CCATGGGGAG CTCCCTCCAC 
CACAGCCCCC TGAGCTCAGG GATCTCCACT CCGGTGACCA ACGTGAGCCC CATGCACCTG 
CAGCACATCC GTGAGCAGAT GGCCGTCGCC CTGAAACGCC TGAAGGAGCT TGAGGAGCAG 
GTGCGAACCA TCCCCGTGCT ACAGGTGAAG ATCTCGGTCT TGCAAGAGGA GAAACGACAG 
TTGGCCTTGC AGCTGAAACA CCAGAGAGCC ACGGCCCAGA ACGAGGTCGG TGGCGTGAGG 
AAGCGGTCCT ACAGTGCTGG GAACGCAGCC CAGCTGCAAG AGCTGTCCCG GGCCCGGCGA 
GGCGGGGAGT TGTACATTGA CTACGAGGAG GAGGAGGTGA AGAGCGTGGA GCAGAGTACG 
CAGGGCATCC GGGAGTTCCG GCAGCTCGCG GCGGACATGC GGGCCCTGGA GCAGAAGATA 
CAGGACAGCA GCTGCGGGGC CTCCTCGGAG CCCCAGGAGA ACCGGGAGTG CCGGTCCGTG 
GCCGTGGGTG CCGACGAGAA CATGGACCAC GTCGTCGTAT ACCGCAGGGG CCCCGGGACC 
TGTAGGGACG CCGCTGTGGG GACCGTCACG GAGACAAGGA GTTCTGGGGT CGGTGTGACC 
GAGGCCATGC TGGGAGTGAC CACTGAAGCT GACAAAGAAA TTGAGCTGCA GCAGCAGACC 
ATAGAAGCCC TGAAGGAAAA GATCTACCGC CTGGAAGTTC AGCTGAAGGA AACCACCCAC 
GACCGCGAGA TGACAAGACT CAAGCAAGAG CTGCAGGCCG CTGGATCGAG GAAGAAGGTG 
GACAAGGCCA TGATGGCCCA GCCGCTTGTG TGCAGCAAGA TGGTGGAGGC AGTGGTGCCG 
ACGAGAGACC AGATGGCTGG CCGTCACATG GACGTGGCCG ACACGTGCGT CGGGACCTCC 
GTGCAGACGC ACAGCGTGGG GGTCTCCTGC CAGCCCAGTT GTGAGAGTAG AGCCGCGGGG 
CCTGAGCTGC CCATGAATTG GTGGATTGTC AAGGAACGGG TGGAGTTGCG TGACCAATGT 
ACTGGGAGGT CCCTGGAGAC GTGTGACAAG AGTGTGGGTG TGGAAATCAG TGTCTGCGAA 
ACAGGCAGCA ACACGGAGGA GTCCGTGAAT GACCTCTCTC TCCTCAAGAC CAACCTGAAT 
CTCAAAGAAG TGCGATCAAT CGGCTGTGGG GATTGTTCTG TTGACGTGAC CGTCTGCCCT 
CCAAAGGAGC GCACGTCCCG GAGCGTGAAC ACGGAGGCTG TTAGCCAGGT AGAAGCTGCT 
GTCATGGCAG TGCCTCCTAC CACGAGCCAG CACACCAGTA CGGTTTGGGA ACAGGTGACC 
CAGTTCACCA ACACCGAGGT GGCCATCCTT GTGGACTCCT GCACCAACAC CTCCCTCAGC 
ACTTTGGACA AGCAGACGAG CACCCAGACT GTGGAGATGC GGACCGTGGC TATCGGAGAA 
GGCCGGGTTA AGGATGTCAA CTCCTCCGCC AAGATGCGGT CCATCGGAGT GGGAACGGTG 
CTCTCTGGCA ATTCTGGGTT TGACAGGCCT TCGGCTGTGA AGACCAAAGA ATCAGGCGTG 
GGGCAGATAA ATATTCACGA CAACTATCTG GTTGGCCTCA AGATGAGGAC CATAGCCTGT 
GGTCCTCCCC AGGTGACTCT GGGGCTGGCG GCCAGCAGGA GGAGCATAGG TGTTGGGGAT 
GAGCCCGTTG GAGAGTTCAC GGAAAGCCCC CAGCCCCAGG CTCCTTCGGG GATGATGACC 
GGCTTGGATC ACTACATTGA GCGCGTCCAG AAGTTGCTGG CAGAGCAGCA GACGCTGCTG 
GCTGAGAACT ACAGTGAACT GGCGGAGGCC TTTGGGGAGC CGCACTCACA GATCAGCTCT 
CTGAACTCGC AGCTCATCAG CACCCTGTCC TCAATCAACT CTGTCATGAA GTCTGCAAGC 
ACGGAGGAGC TGAGGAACCC TGACTTCCCA AAAATGAGCC TGGGTAAAGT CACAGGCAGT 
AGCTTGGAAT ACACCTGTAA GTGTGGAGGC CTTCAAGCAG GAGCTCCGTT CAACACCCAG 
ACCTCCCGGC ATGAACAAGC AGTGGGGAGC ACAGAAGGGG CACCCTTCGG CGGCCAGGAC 
ACCTTCCCCT CTCAGGAAAG CACGCTGCCC CCCGTGAACC TGACAGACGA CCAGATAGCC 
GCCGGCCTCT ATGTATGTGC AAACGGTGAA AGCACACTGA AGTCTATCAT GAAGAAGAAA 
GATGGCAACA AAGATTCAAA TGGCACAAAG AAGAATCTTC AGTTTGTTGG CATCAATGGA 
GGGTATGAAA CAACTTCAAG TGATGATTCC AGCTCGGATG AAAGCTCTTC CTCCGAGTCA 
GATGACGAGT GTGATGTCAT TGAGTATCCT CCTGAGGAAG AGGAGGATGA AGAGGAGGAT 
GAAGACACTC GGGGAATGGC GGAAGGGCAC CATGCCGTTA ATATTGAAGG TTTCAAGTCC 
GCCAGGGTGG AAGATGAGAT GCAGGTTCCA GAATGTGAAC CTGAGAAGGT GGAAATCAGA 
GAGAGGTATG AATTAAGTGA AAAGATGTTG TCTGCATGCA ACTTACTGAA AAATAATATA 
AATGACCCCA AAGCTTTGAC CAGCAAGGAT ATGCGGTTCT GCCTGAACAC CCTGCAGCAC 
GAGTGGTTCC GCGTGTCCAG TCAGAAGTCG GCCAGTCCGG CCATGGTGGG GGACTACATA 
GCGGCGTTTG AGGCCATCTC CCCGGACGTC CTCCGCCACG TCATCAACAT GGCCGACGGC 
AACGGCAACA CGGCCCTCCA CTACAGCGTG TCCCACTCCA ACTTCGAGAT CGTGAAGCTG 
CTCTTGGACG CCGACGTGTG TAATGTGGAT CACCAGAACA AAGCGGGCTA CACCCCCATC 
ATGCTGGCAG CCCTGGCCGC GGTGGAAGCC GAGAAGGACA TGCGCGTCGT GGAAGAACTC 
TTCGGCTGCG GGGACGTGAA CGCCAAAGCC AGCCAGGCGG GGCAGACAGC CCTAATGCTG 
GCCGTCAGCC ACGGGCGGAT CGACATGGTG AGGGGCCTGC TGGCCTGCGG CGCTGATGTC 
AACATCCAGG ACGACGAGGG CTCCACGGCC CTCATGTGCG CCAGCGAGCA CGGGCACGTG 
GAGATCGTCA AGCTACTGCT GGCCCAGCCG GGCTGCAACG GCCACCTGGA GGACAACGAC 
GGCAGCACTG CACTCTCGAT AGCCCTGGAG GCGGGACACA AGGACATCGC GGTTCTTCTG 
TACGCCCACG TCAACTTCGC CAAGGCCCAG TCTCCGGGCA CCCCTAGGCT TGGAAGGAAG 
ACATCTCCTG GCCCCACCCA CCGAAGTTCA TTTGATTGA

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

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KANK1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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