DGKH cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	DGKH
Entrez Gene ID	100482826
Full Name	diacylglycerol kinase eta
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011220570.2	XP_011218872.1	diacylglycerol kinase eta isoform X2
XM_011220571.2	XP_011218873.1	diacylglycerol kinase eta isoform X1
XM_019796026.1	XP_019651585.1	diacylglycerol kinase eta isoform X1

Pathways from BioSystems
Gene Ontology

The following DGKH gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DGKH 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)
OAc31940	XM_011220570.2 Latest version!	Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc31941	XM_019796026.1 Latest version!	Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc31941	XM_011220571.2 Latest version!	Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

DGKH ( XM_011220570.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011218872.1 Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc31940
Clone ID Related Accession (Same CDS sequence)	XM_011220570.2
Accession Version	XM_011220570.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3255bp) 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	diacylglycerol kinase eta isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217397.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011220570.1. ##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##

ATGCTGTGCG CTGAGAACAG GAAGGAGATG GAGGATTGGA TGAGCTCACT GAAGTCTGTA 
CAGACCAGAG AACCTTACGA GGTGGCCCAG TTTAACGTGG AACATTTCTC AGGGATGCAT 
AACTGGTACG CCTGCTCCCA TGCCCGACCC ACTTTCTGTA ACGTGTGCAG AGAGAGTCTT 
TCCGGAGTCA CCTCCCATGG CCTGTCCTGC GAAGTGTGTA AATTCAAGGC TCACAAAAGA 
TGTGCAGTGA GGGCAACAAA TAATTGCAAA TGGACGACTC TGGCCTCCAT CGGGAAGGAC 
ATCATAGAGG ACGAAGATGG AGTAGCTATG CCCCACCAAT GGCTTGAGGG TAACTTGCCC 
GTGAGTGCCA AATGTGCTGT CTGTGACAAA ACGTGTGGCA GCGTTCTACG TCTACAGGAT 
TGGAAATGCC TTTGGTGTAA AACAATGGTA CACACTGCCT GCAAAGATTT ATATCATCCT 
GTGTGTCCCC TTGGCCAATG TAAAGTGTCC ATCATACCTC CAATTGCACT GAATAGCACT 
GATTCTGATG GTTTCTGTAG AGCGACATTT TCATTCTGTG TTAGTCCTCT GTTGGTTTTT 
GTCAATTCTA AGAGTGGAGA TAATCAGGGA GTAAAGTTCC TTCGTCGATT TAAACAGTTG 
CTAAATCCGG CTCAGGTGTT TGATTTAATG AACGGAGGTC CTCATTTAGG TTTAAGATTA 
TTCCAGAAGT TCGACAATTT CCGAATTCTC GTTTGTGGAG GAGATGGAAG TGTAGGTTGG 
GTTTTGTCAG AAATTGATAA GCTCAACTTG AATAAACAGT GTCAGCTGGG AGTATTGCCT 
TTGGGTACAG GAAATGACCT TGCCCGGGTT CTAGGCTGGG GTGGTTCCTA TGATGATGAC 
ACCCAACTTC CTCAGATATT AGAGAAGCTG GAACGAGCCA GTACCAAAAT GCTAGACAGG 
TGGAGTATAA TGACCTATGA ACTCAAATTG CCACCAAAGG CTTCTCTACT TCCAGAACCT 
CCAGAAGCAT CGGAAGAATT TTATATGACA ATTTATGAGG ACTCTGTTGC AGCTCATCTT 
ACAAAAATCC TCAATTCTGA TGAACATGCA GTGGTCATAT CGTCTGCCAA GATACTATGT 
GAAACTGTAA AGGACTTCGT TGCCAAAGTA GAGAAGGCCT ATGAGAAAAC GTTGGAAAAC 
GCCGTTGCAG CTGACGCCGT GGCCAGTAAA TGTTCGGTCC TAAATGAAAA GCTTGAACAA 
CTACTTCAAG CTTTGCACGC AGATTCCCAG GCTGCCCCCG TTCTCCCAGG CATCCGCTCT 
CTCATTGTAG AAGAAGATAC TGCGGAATCT TCCAGTGAAG AATCCTTGTG TGAAAGCAAG 
GAACAGCTCG CGGATGACCC TGCGAAACCT CCCTCCCAGA AAGCTGTCAA ACCAAAGGAA 
ATAATGTTGC GGGCAAACAG TTTAAAGAAA GCAGTGAGAC AAGTCATTGA AGAAGCCGGC 
AAAGTTATGG ATGACCAGAG TGTTCATCCC TGTGAACCAG TTAACCAATC ATTCGATAAC 
GATAGTACAG AAACAGATGA ATCTAAGGAA GAATCTAAAG ATGATGATGC AACAGCGTCA 
TTAACTGTTA AAACTGCACC TGCACCTCGG TCTCCAGATG GCCGGGCAAA TCGTTCCCAG 
ACTGACTCTG GCCCTGGTCC AGCTGTGGCA GCCAGCAAAG AAAACCTCCC TGTGCTCAAC 
ACTAGAATAA TCTGCCCAGG TTTAAGAGCA GGACTAGCTG CCTCAATTGC TGGGAGTTCT 
ATAATCAACA AAATGTTACT AGCAAATATT GATCCTTTTG GTGCAACGCC ATTTATCGAC 
CCAGATCCAG ATTCAGTAGA TGGATATTCA GAAAAATGTG TCATGAACAA TTACTTTGGG 
ATTGGATTAG ATGCAAAAAT TTCGTTAGAA TTTAATAATA AGAGAGAGGA ACACCCTGAA 
AAATGCAGGA GCCGAACTAA AAACTTGATG TGGTATGGAG TCCTTGGAAC CCGGGAGTTA 
CTACAGAGGT CGTATAAGAA TTTAGAACAG AGGGTTCAAC TTGAATGCGA TGGGCAGTAT 
ATTCCTCTGC CCAGTCTTCA AGGAATAGCA GTGTTGAACA TTCCCAGCTA TGCAGGAGGC 
ACTAACTTTT GGGGTGGAAC TAAAGAGGAT GATATATTTG CTGCACCATC ATTTGATGAC 
AAGATCCTGG AAGTTGTTGC GATATTTGAT AGCATGCAAA TGGCAGTTTC AAGGGTCATT 
AAACTGCAGC ATCATCGAAT AGCCCAGTGC CGTACGGTAA AAATCACCAT ATTTGGCGAT 
GAGGGAGTCC CAGTGCAGGT GGATGGTGAA GCATGGGTTC AGCCTCCAGG AATTATCAAA 
ATTGTGCACA AAAACAGAGC TCAGATGCTA ACAAGGGACA GGGCTTTTGA AAGCACTCTG 
AAATCTTGGG AAGATAAACA GAAGTGTGAT TCTGGTAAAC CAGTTCTTCG AACCCATTTG 
TACATCCAGC ATGCCGTTGA CTTGGCCACA GAAGAGGTGT CCCAGATGCA GCTCTGCTCC 
CAGGCCGCAG AGGAGCTCAT TACTCGCATC TGTGACGCAG CCACGATCCA TTGTCTGTTG 
GAGCAAGAAC TGGCCCATGC TGTGAATGCG TGCTCCCACG CCCTGAATAA AGCCAACCCA 
CGGTTCCCAG AGAGTCTTAC GAGAGACACT GCCACTGAAA TAGCGATCAA TGTGAAGGCC 
CTATATAATG AAACAGAATC TTTGCTAGTG GGCAGGGTTC CTTTGCAGTT GGAATCCCCG 
CACGAGGAGC GCGTGTCTGA CGCTTTGCAC TGTGTGGAGG TGGAGCTGCA GAAGTTAACG 
GAGATTCCTT GGCTTTACTA CATCTTACAC CCAAACGAAG ATGAGGAGCC CCCCATGGAT 
TGCACCAAGA GAAACAGCAG AAGCACAGTC TTTCGTATCG TGCCAAAATT TAAAAAGGAA 
AAGGTTCAGA AGCAGAAGAC AAGTTCCCAG CCTGTTCAAA AGTGGGGCAC AGAGGAAGTT 
GCTGCTTGGC TGGATCTGCT CAATTTGGGA GAGTACAAAG AAATCTTCAT CCGTCATGAC 
ATCAGAGGGG CTGAACTTTT GCATCTGGAA AGGCGAGATC TTAAGGACCT GGGGATAACG 
AAAGTGGGTC ATATGAAGCG AATTCTCCAG GGAATTAAAG AGCTTGGAAG GAGCACTCCC 
CAGTCTGAGG TGTAA

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

RefSeq	XP_011218872.1
CDS	302..3556
Translation	MLCAENRKEMEDWMSSLKSVQTREPYEVAQFNVEHFSGMHNWYACSHARPTFCNVCRESLSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGVAMPHQWLEGNLPVSAKCAVCDKTCGSVLRLQDWKCLWCKTMVHTACKDLYHPVCPLGQCKVSIIPPIALNSTDSDGFCRATFSFCVSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDNFRILVCGGDGSVGWVLSEIDKLNLNKQCQLGVLPLGTGNDLARVLGWGGSYDDDTQLPQILEKLERASTKMLDRWSIMTYELKLPPKASLLPEPPEASEEFYMTIYEDSVAAHLTKILNSDEHAVVISSAKILCETVKDFVAKVEKAYEKTLENAVAADAVASKCSVLNEKLEQLLQALHADSQAAPVLPGIRSLIVEEDTAESSSEESLCESKEQLADDPAKPPSQKAVKPKEIMLRANSLKKAVRQVIEEAGKVMDDQSVHPCEPVNQSFDNDSTETDESKEESKDDDATASLTVKTAPAPRSPDGRANRSQTDSGPGPAVAASKENLPVLNTRIICPGLRAGLAASIAGSSIINKMLLANIDPFGATPFIDPDPDSVDGYSEKCVMNNYFGIGLDAKISLEFNNKREEHPEKCRSRTKNLMWYGVLGTRELLQRSYKNLEQRVQLECDGQYIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDIFAAPSFDDKILEVVAIFDSMQMAVSRVIKLQHHRIAQCRTVKITIFGDEGVPVQVDGEAWVQPPGIIKIVHKNRAQMLTRDRAFESTLKSWEDKQKCDSGKPVLRTHLYIQHAVDLATEEVSQMQLCSQAAEELITRICDAATIHCLLEQELAHAVNACSHALNKANPRFPESLTRDTATEIAINVKALYNETESLLVGRVPLQLESPHEERVSDALHCVEVELQKLTEIPWLYYILHPNEDEEPPMDCTKRNSRSTVFRIVPKFKKEKVQKQKTSSQPVQKWGTEEVAAWLDLLNLGEYKEIFIRHDIRGAELLHLERRDLKDLGITKVGHMKRILQGIKELGRSTPQSEV

Target ORF information:

RefSeq Version	XM_011220570.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X2, mRNA.

Target ORF information:

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

XM_011220570.2

ORF Insert Sequence:

ATGCTGTGCG CTGAGAACAG GAAGGAGATG GAGGATTGGA TGAGCTCACT GAAGTCTGTA 
CAGACCAGAG AACCTTACGA GGTGGCCCAG TTTAACGTGG AACATTTCTC AGGGATGCAT 
AACTGGTACG CCTGCTCCCA TGCCCGACCC ACTTTCTGTA ACGTGTGCAG AGAGAGTCTT 
TCCGGAGTCA CCTCCCATGG CCTGTCCTGC GAAGTGTGTA AATTCAAGGC TCACAAAAGA 
TGTGCAGTGA GGGCAACAAA TAATTGCAAA TGGACGACTC TGGCCTCCAT CGGGAAGGAC 
ATCATAGAGG ACGAAGATGG AGTAGCTATG CCCCACCAAT GGCTTGAGGG TAACTTGCCC 
GTGAGTGCCA AATGTGCTGT CTGTGACAAA ACGTGTGGCA GCGTTCTACG TCTACAGGAT 
TGGAAATGCC TTTGGTGTAA AACAATGGTA CACACTGCCT GCAAAGATTT ATATCATCCT 
GTGTGTCCCC TTGGCCAATG TAAAGTGTCC ATCATACCTC CAATTGCACT GAATAGCACT 
GATTCTGATG GTTTCTGTAG AGCGACATTT TCATTCTGTG TTAGTCCTCT GTTGGTTTTT 
GTCAATTCTA AGAGTGGAGA TAATCAGGGA GTAAAGTTCC TTCGTCGATT TAAACAGTTG 
CTAAATCCGG CTCAGGTGTT TGATTTAATG AACGGAGGTC CTCATTTAGG TTTAAGATTA 
TTCCAGAAGT TCGACAATTT CCGAATTCTC GTTTGTGGAG GAGATGGAAG TGTAGGTTGG 
GTTTTGTCAG AAATTGATAA GCTCAACTTG AATAAACAGT GTCAGCTGGG AGTATTGCCT 
TTGGGTACAG GAAATGACCT TGCCCGGGTT CTAGGCTGGG GTGGTTCCTA TGATGATGAC 
ACCCAACTTC CTCAGATATT AGAGAAGCTG GAACGAGCCA GTACCAAAAT GCTAGACAGG 
TGGAGTATAA TGACCTATGA ACTCAAATTG CCACCAAAGG CTTCTCTACT TCCAGAACCT 
CCAGAAGCAT CGGAAGAATT TTATATGACA ATTTATGAGG ACTCTGTTGC AGCTCATCTT 
ACAAAAATCC TCAATTCTGA TGAACATGCA GTGGTCATAT CGTCTGCCAA GATACTATGT 
GAAACTGTAA AGGACTTCGT TGCCAAAGTA GAGAAGGCCT ATGAGAAAAC GTTGGAAAAC 
GCCGTTGCAG CTGACGCCGT GGCCAGTAAA TGTTCGGTCC TAAATGAAAA GCTTGAACAA 
CTACTTCAAG CTTTGCACGC AGATTCCCAG GCTGCCCCCG TTCTCCCAGG CATCCGCTCT 
CTCATTGTAG AAGAAGATAC TGCGGAATCT TCCAGTGAAG AATCCTTGTG TGAAAGCAAG 
GAACAGCTCG CGGATGACCC TGCGAAACCT CCCTCCCAGA AAGCTGTCAA ACCAAAGGAA 
ATAATGTTGC GGGCAAACAG TTTAAAGAAA GCAGTGAGAC AAGTCATTGA AGAAGCCGGC 
AAAGTTATGG ATGACCAGAG TGTTCATCCC TGTGAACCAG TTAACCAATC ATTCGATAAC 
GATAGTACAG AAACAGATGA ATCTAAGGAA GAATCTAAAG ATGATGATGC AACAGCGTCA 
TTAACTGTTA AAACTGCACC TGCACCTCGG TCTCCAGATG GCCGGGCAAA TCGTTCCCAG 
ACTGACTCTG GCCCTGGTCC AGCTGTGGCA GCCAGCAAAG AAAACCTCCC TGTGCTCAAC 
ACTAGAATAA TCTGCCCAGG TTTAAGAGCA GGACTAGCTG CCTCAATTGC TGGGAGTTCT 
ATAATCAACA AAATGTTACT AGCAAATATT GATCCTTTTG GTGCAACGCC ATTTATCGAC 
CCAGATCCAG ATTCAGTAGA TGGATATTCA GAAAAATGTG TCATGAACAA TTACTTTGGG 
ATTGGATTAG ATGCAAAAAT TTCGTTAGAA TTTAATAATA AGAGAGAGGA ACACCCTGAA 
AAATGCAGGA GCCGAACTAA AAACTTGATG TGGTATGGAG TCCTTGGAAC CCGGGAGTTA 
CTACAGAGGT CGTATAAGAA TTTAGAACAG AGGGTTCAAC TTGAATGCGA TGGGCAGTAT 
ATTCCTCTGC CCAGTCTTCA AGGAATAGCA GTGTTGAACA TTCCCAGCTA TGCAGGAGGC 
ACTAACTTTT GGGGTGGAAC TAAAGAGGAT GATATATTTG CTGCACCATC ATTTGATGAC 
AAGATCCTGG AAGTTGTTGC GATATTTGAT AGCATGCAAA TGGCAGTTTC AAGGGTCATT 
AAACTGCAGC ATCATCGAAT AGCCCAGTGC CGTACGGTAA AAATCACCAT ATTTGGCGAT 
GAGGGAGTCC CAGTGCAGGT GGATGGTGAA GCATGGGTTC AGCCTCCAGG AATTATCAAA 
ATTGTGCACA AAAACAGAGC TCAGATGCTA ACAAGGGACA GGGCTTTTGA AAGCACTCTG 
AAATCTTGGG AAGATAAACA GAAGTGTGAT TCTGGTAAAC CAGTTCTTCG AACCCATTTG 
TACATCCAGC ATGCCGTTGA CTTGGCCACA GAAGAGGTGT CCCAGATGCA GCTCTGCTCC 
CAGGCCGCAG AGGAGCTCAT TACTCGCATC TGTGACGCAG CCACGATCCA TTGTCTGTTG 
GAGCAAGAAC TGGCCCATGC TGTGAATGCG TGCTCCCACG CCCTGAATAA AGCCAACCCA 
CGGTTCCCAG AGAGTCTTAC GAGAGACACT GCCACTGAAA TAGCGATCAA TGTGAAGGCC 
CTATATAATG AAACAGAATC TTTGCTAGTG GGCAGGGTTC CTTTGCAGTT GGAATCCCCG 
CACGAGGAGC GCGTGTCTGA CGCTTTGCAC TGTGTGGAGG TGGAGCTGCA GAAGTTAACG 
GAGATTCCTT GGCTTTACTA CATCTTACAC CCAAACGAAG ATGAGGAGCC CCCCATGGAT 
TGCACCAAGA GAAACAGCAG AAGCACAGTC TTTCGTATCG TGCCAAAATT TAAAAAGGAA 
AAGGTTCAGA AGCAGAAGAC AAGTTCCCAG CCTGTTCAAA AGTGGGGCAC AGAGGAAGTT 
GCTGCTTGGC TGGATCTGCT CAATTTGGGA GAGTACAAAG AAATCTTCAT CCGTCATGAC 
ATCAGAGGGG CTGAACTTTT GCATCTGGAA AGGCGAGATC TTAAGGACCT GGGGATAACG 
AAAGTGGGTC ATATGAAGCG AATTCTCCAG GGAATTAAAG AGCTTGGAAG GAGCACTCCC 
CAGTCTGAGG TGTAA

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

DGKH ( XM_011220571.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011218873.1 Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc31941
Clone ID Related Accession (Same CDS sequence)	XM_011220571.2 , XM_019796026.1
Accession Version	XM_011220571.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3087bp) 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	diacylglycerol kinase eta isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217397.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011220571.1. ##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##

ATGCTGTGCG CTGAGAACAG GAAGGAGATG GAGGATTGGA TGAGCTCACT GAAGTCTGTA 
CAGACCAGAG AACCTTACGA GGTGGCCCAG TTTAACGTGG AACATTTCTC AGGGATGCAT 
AACTGGTACG CCTGCTCCCA TGCCCGACCC ACTTTCTGTA ACGTGTGCAG AGAGAGTCTT 
TCCGGAGTCA CCTCCCATGG CCTGTCCTGC GAAGTGTGTA AATTCAAGGC TCACAAAAGA 
TGTGCAGTGA GGGCAACAAA TAATTGCAAA TGGACGACTC TGGCCTCCAT CGGGAAGGAC 
ATCATAGAGG ACGAAGATGG AGTAGCTATG CCCCACCAAT GGCTTGAGGG TAACTTGCCC 
GTGAGTGCCA AATGTGCTGT CTGTGACAAA ACGTGTGGCA GCGTTCTACG TCTACAGGAT 
TGGAAATGCC TTTGGTGTAA AACAATGGTA CACACTGCCT GCAAAGATTT ATATCATCCT 
GTGTGTCCCC TTGGCCAATG TAAAGTGTCC ATCATACCTC CAATTGCACT GAATAGCACT 
GATTCTGATG GTTTCTGTAG AGCGACATTT TCATTCTGTG TTAGTCCTCT GTTGGTTTTT 
GTCAATTCTA AGAGTGGAGA TAATCAGGGA GTAAAGTTCC TTCGTCGATT TAAACAGTTG 
CTAAATCCGG CTCAGGTGTT TGATTTAATG AACGGAGGTC CTCATTTAGG TTTAAGATTA 
TTCCAGAAGT TCGACAATTT CCGAATTCTC GTTTGTGGAG GAGATGGAAG TGTAGGTTGG 
GTTTTGTCAG AAATTGATAA GCTCAACTTG AATAAACAGT GTCAGCTGGG AGTATTGCCT 
TTGGGTACAG GAAATGACCT TGCCCGGGTT CTAGGCTGGG GTGGTTCCTA TGATGATGAC 
ACCCAACTTC CTCAGATATT AGAGAAGCTG GAACGAGCCA GTACCAAAAT GCTAGACAGG 
TGGAGTATAA TGACCTATGA ACTCAAATTG CCACCAAAGG CTTCTCTACT TCCAGAACCT 
CCAGAAGCAT CGGAAGAATT TTATATGACA ATTTATGAGG ACTCTGTTGC AGCTCATCTT 
ACAAAAATCC TCAATTCTGA TGAACATGCA GTGGTCATAT CGTCTGCCAA GATACTATGT 
GAAACTGTAA AGGACTTCGT TGCCAAAGTA GAGAAGGCCT ATGAGAAAAC GTTGGAAAAC 
GCCGTTGCAG CTGACGCCGT GGCCAGTAAA TGTTCGGTCC TAAATGAAAA GCTTGAACAA 
CTACTTCAAG CTTTGCACGC AGATTCCCAG GCTGCCCCCG TTCTCCCAGG CATCCGCTCT 
CTCATTGTAG AAGAAGATAC TGCGGAATCT TCCAGTGAAG AATCCTTGTG TGAAAGCAAG 
GAACAGCTCG CGGATGACCC TGCGAAACCT CCCTCCCAGA AAGCTGTCAA ACCAAAGGAA 
ATAATGTTGC GGGCAAACAG TTTAAAGAAA GCAGTGAGAC AAGTCATTGA AGAAGCCGGC 
AAAGTTATGG ATGACCAGAG TGTTCATCCC TGTGAACCAG TTAACCAATC ATTCGATAAC 
GATAGTACAG AAACAGATGA ATCTAAGGAA GAATCTAAAG ATGATGATGC AACAGCGTCA 
TTAACTGTTA AAACTGCACC TGCACCTCGG TCTCCAGATG GCCGGGCAAA TCGTTCCCAG 
ACTGACTCTG GCCCTGGTCC AGCTGTGGCA GCCAGCAAAG AAAACCTCCC TGTGCTCAAC 
ACTAGAATAA TCTGCCCAGG TTTAAGAGCA GGACTAGCTG CCTCAATTGC TGGGAGTTCT 
ATAATCAACA AAATGTTACT AGCAAATATT GATCCTTTTG GTGCAACGCC ATTTATCGAC 
CCAGATCCAG ATTCAGTAGA TGGATATTCA GAAAAATGTG TCATGAACAA TTACTTTGGG 
ATTGGATTAG ATGCAAAAAT TTCGTTAGAA TTTAATAATA AGAGAGAGGA ACACCCTGAA 
AAATGCAGGA GCCGAACTAA AAACTTGATG TGGTATGGAG TCCTTGGAAC CCGGGAGTTA 
CTACAGAGGT CGTATAAGAA TTTAGAACAG AGGGTTCAAC TTGAATGCGA TGGGCAGTAT 
ATTCCTCTGC CCAGTCTTCA AGGAATAGCA GTGTTGAACA TTCCCAGCTA TGCAGGAGGC 
ACTAACTTTT GGGGTGGAAC TAAAGAGGAT GATATATTTG CTGCACCATC ATTTGATGAC 
AAGATCCTGG AAGTTGTTGC GATATTTGAT AGCATGCAAA TGGCAGTTTC AAGGGTCATT 
AAACTGCAGC ATCATCGAAT AGCCCAGTGC CGTACGGTAA AAATCACCAT ATTTGGCGAT 
GAGGGAGTCC CAGTGCAGGT GGATGGTGAA GCATGGGTTC AGCCTCCAGG AATTATCAAA 
ATTGTGCACA AAAACAGAGC TCAGATGCTA ACAAGGGACA GGGCTTTTGA AAGCACTCTG 
AAATCTTGGG AAGATAAACA GAAGTGTGAT TCTGGTAAAC CAGTTCTTCG AACCCATTTG 
TACATCCAGC ATGCCGTTGA CTTGGCCACA GAAGAGGTGT CCCAGATGCA GCTCTGCTCC 
CAGGCCGCAG AGGAGCTCAT TACTCGCATC TGTGACGCAG CCACGATCCA TTGTCTGTTG 
GAGCAAGAAC TGGCCCATGC TGTGAATGCG TGCTCCCACG CCCTGAATAA AGCCAACCCA 
CGGTTCCCAG AGAGTCTTAC GAGAGACACT GCCACTGAAA TAGCGATCAA TGTGAAGGCC 
CTATATAATG AAACAGAATC TTTGCTAGTG GGCAGGGTTC CTTTGCAGTT GGAATCCCCG 
CACGAGGAGC GCGTGTCTGA CGCTTTGCAC TGTGTGGAGG TGGAGCTGCA GAAGTTAACG 
GAGATTCCTT GGCTTTACTA CATCTTACAC CCAAACGAAG ATGAGGAGCC CCCCATGGAT 
TGCACCAAGA GAAACAGCAG AAGCACAGTC TTTCGTATCG TGCCAAAATT TAAAAAGGAA 
AAGGTTCAGA AGCAGAAGAC AAGTTCCCAG CCTGGACCTG GGGATAACGA AAGTGGGTCA 
TATGAAGCGA ATTCTCCAGG GAATTAA

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

RefSeq	XP_011218873.1
CDS	302..3388
Translation	MLCAENRKEMEDWMSSLKSVQTREPYEVAQFNVEHFSGMHNWYACSHARPTFCNVCRESLSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGVAMPHQWLEGNLPVSAKCAVCDKTCGSVLRLQDWKCLWCKTMVHTACKDLYHPVCPLGQCKVSIIPPIALNSTDSDGFCRATFSFCVSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDNFRILVCGGDGSVGWVLSEIDKLNLNKQCQLGVLPLGTGNDLARVLGWGGSYDDDTQLPQILEKLERASTKMLDRWSIMTYELKLPPKASLLPEPPEASEEFYMTIYEDSVAAHLTKILNSDEHAVVISSAKILCETVKDFVAKVEKAYEKTLENAVAADAVASKCSVLNEKLEQLLQALHADSQAAPVLPGIRSLIVEEDTAESSSEESLCESKEQLADDPAKPPSQKAVKPKEIMLRANSLKKAVRQVIEEAGKVMDDQSVHPCEPVNQSFDNDSTETDESKEESKDDDATASLTVKTAPAPRSPDGRANRSQTDSGPGPAVAASKENLPVLNTRIICPGLRAGLAASIAGSSIINKMLLANIDPFGATPFIDPDPDSVDGYSEKCVMNNYFGIGLDAKISLEFNNKREEHPEKCRSRTKNLMWYGVLGTRELLQRSYKNLEQRVQLECDGQYIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDIFAAPSFDDKILEVVAIFDSMQMAVSRVIKLQHHRIAQCRTVKITIFGDEGVPVQVDGEAWVQPPGIIKIVHKNRAQMLTRDRAFESTLKSWEDKQKCDSGKPVLRTHLYIQHAVDLATEEVSQMQLCSQAAEELITRICDAATIHCLLEQELAHAVNACSHALNKANPRFPESLTRDTATEIAINVKALYNETESLLVGRVPLQLESPHEERVSDALHCVEVELQKLTEIPWLYYILHPNEDEEPPMDCTKRNSRSTVFRIVPKFKKEKVQKQKTSSQPGPGDNESGSYEANSPGN

Target ORF information:

RefSeq Version	XM_011220571.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X3, mRNA.

Target ORF information:

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

XM_011220571.2

ORF Insert Sequence:

ATGCTGTGCG CTGAGAACAG GAAGGAGATG GAGGATTGGA TGAGCTCACT GAAGTCTGTA 
CAGACCAGAG AACCTTACGA GGTGGCCCAG TTTAACGTGG AACATTTCTC AGGGATGCAT 
AACTGGTACG CCTGCTCCCA TGCCCGACCC ACTTTCTGTA ACGTGTGCAG AGAGAGTCTT 
TCCGGAGTCA CCTCCCATGG CCTGTCCTGC GAAGTGTGTA AATTCAAGGC TCACAAAAGA 
TGTGCAGTGA GGGCAACAAA TAATTGCAAA TGGACGACTC TGGCCTCCAT CGGGAAGGAC 
ATCATAGAGG ACGAAGATGG AGTAGCTATG CCCCACCAAT GGCTTGAGGG TAACTTGCCC 
GTGAGTGCCA AATGTGCTGT CTGTGACAAA ACGTGTGGCA GCGTTCTACG TCTACAGGAT 
TGGAAATGCC TTTGGTGTAA AACAATGGTA CACACTGCCT GCAAAGATTT ATATCATCCT 
GTGTGTCCCC TTGGCCAATG TAAAGTGTCC ATCATACCTC CAATTGCACT GAATAGCACT 
GATTCTGATG GTTTCTGTAG AGCGACATTT TCATTCTGTG TTAGTCCTCT GTTGGTTTTT 
GTCAATTCTA AGAGTGGAGA TAATCAGGGA GTAAAGTTCC TTCGTCGATT TAAACAGTTG 
CTAAATCCGG CTCAGGTGTT TGATTTAATG AACGGAGGTC CTCATTTAGG TTTAAGATTA 
TTCCAGAAGT TCGACAATTT CCGAATTCTC GTTTGTGGAG GAGATGGAAG TGTAGGTTGG 
GTTTTGTCAG AAATTGATAA GCTCAACTTG AATAAACAGT GTCAGCTGGG AGTATTGCCT 
TTGGGTACAG GAAATGACCT TGCCCGGGTT CTAGGCTGGG GTGGTTCCTA TGATGATGAC 
ACCCAACTTC CTCAGATATT AGAGAAGCTG GAACGAGCCA GTACCAAAAT GCTAGACAGG 
TGGAGTATAA TGACCTATGA ACTCAAATTG CCACCAAAGG CTTCTCTACT TCCAGAACCT 
CCAGAAGCAT CGGAAGAATT TTATATGACA ATTTATGAGG ACTCTGTTGC AGCTCATCTT 
ACAAAAATCC TCAATTCTGA TGAACATGCA GTGGTCATAT CGTCTGCCAA GATACTATGT 
GAAACTGTAA AGGACTTCGT TGCCAAAGTA GAGAAGGCCT ATGAGAAAAC GTTGGAAAAC 
GCCGTTGCAG CTGACGCCGT GGCCAGTAAA TGTTCGGTCC TAAATGAAAA GCTTGAACAA 
CTACTTCAAG CTTTGCACGC AGATTCCCAG GCTGCCCCCG TTCTCCCAGG CATCCGCTCT 
CTCATTGTAG AAGAAGATAC TGCGGAATCT TCCAGTGAAG AATCCTTGTG TGAAAGCAAG 
GAACAGCTCG CGGATGACCC TGCGAAACCT CCCTCCCAGA AAGCTGTCAA ACCAAAGGAA 
ATAATGTTGC GGGCAAACAG TTTAAAGAAA GCAGTGAGAC AAGTCATTGA AGAAGCCGGC 
AAAGTTATGG ATGACCAGAG TGTTCATCCC TGTGAACCAG TTAACCAATC ATTCGATAAC 
GATAGTACAG AAACAGATGA ATCTAAGGAA GAATCTAAAG ATGATGATGC AACAGCGTCA 
TTAACTGTTA AAACTGCACC TGCACCTCGG TCTCCAGATG GCCGGGCAAA TCGTTCCCAG 
ACTGACTCTG GCCCTGGTCC AGCTGTGGCA GCCAGCAAAG AAAACCTCCC TGTGCTCAAC 
ACTAGAATAA TCTGCCCAGG TTTAAGAGCA GGACTAGCTG CCTCAATTGC TGGGAGTTCT 
ATAATCAACA AAATGTTACT AGCAAATATT GATCCTTTTG GTGCAACGCC ATTTATCGAC 
CCAGATCCAG ATTCAGTAGA TGGATATTCA GAAAAATGTG TCATGAACAA TTACTTTGGG 
ATTGGATTAG ATGCAAAAAT TTCGTTAGAA TTTAATAATA AGAGAGAGGA ACACCCTGAA 
AAATGCAGGA GCCGAACTAA AAACTTGATG TGGTATGGAG TCCTTGGAAC CCGGGAGTTA 
CTACAGAGGT CGTATAAGAA TTTAGAACAG AGGGTTCAAC TTGAATGCGA TGGGCAGTAT 
ATTCCTCTGC CCAGTCTTCA AGGAATAGCA GTGTTGAACA TTCCCAGCTA TGCAGGAGGC 
ACTAACTTTT GGGGTGGAAC TAAAGAGGAT GATATATTTG CTGCACCATC ATTTGATGAC 
AAGATCCTGG AAGTTGTTGC GATATTTGAT AGCATGCAAA TGGCAGTTTC AAGGGTCATT 
AAACTGCAGC ATCATCGAAT AGCCCAGTGC CGTACGGTAA AAATCACCAT ATTTGGCGAT 
GAGGGAGTCC CAGTGCAGGT GGATGGTGAA GCATGGGTTC AGCCTCCAGG AATTATCAAA 
ATTGTGCACA AAAACAGAGC TCAGATGCTA ACAAGGGACA GGGCTTTTGA AAGCACTCTG 
AAATCTTGGG AAGATAAACA GAAGTGTGAT TCTGGTAAAC CAGTTCTTCG AACCCATTTG 
TACATCCAGC ATGCCGTTGA CTTGGCCACA GAAGAGGTGT CCCAGATGCA GCTCTGCTCC 
CAGGCCGCAG AGGAGCTCAT TACTCGCATC TGTGACGCAG CCACGATCCA TTGTCTGTTG 
GAGCAAGAAC TGGCCCATGC TGTGAATGCG TGCTCCCACG CCCTGAATAA AGCCAACCCA 
CGGTTCCCAG AGAGTCTTAC GAGAGACACT GCCACTGAAA TAGCGATCAA TGTGAAGGCC 
CTATATAATG AAACAGAATC TTTGCTAGTG GGCAGGGTTC CTTTGCAGTT GGAATCCCCG 
CACGAGGAGC GCGTGTCTGA CGCTTTGCAC TGTGTGGAGG TGGAGCTGCA GAAGTTAACG 
GAGATTCCTT GGCTTTACTA CATCTTACAC CCAAACGAAG ATGAGGAGCC CCCCATGGAT 
TGCACCAAGA GAAACAGCAG AAGCACAGTC TTTCGTATCG TGCCAAAATT TAAAAAGGAA 
AAGGTTCAGA AGCAGAAGAC AAGTTCCCAG CCTGGACCTG GGGATAACGA AAGTGGGTCA 
TATGAAGCGA ATTCTCCAGG GAATTAA

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

DGKH ( XM_019796026.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019651585.1 Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X1, mRNA.

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CloneID	OAc31941
Clone ID Related Accession (Same CDS sequence)	XM_011220571.2 , XM_019796026.1
Accession Version	XM_019796026.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3087bp) 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	diacylglycerol kinase eta isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217397.1) 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##

ATGCTGTGCG CTGAGAACAG GAAGGAGATG GAGGATTGGA TGAGCTCACT GAAGTCTGTA 
CAGACCAGAG AACCTTACGA GGTGGCCCAG TTTAACGTGG AACATTTCTC AGGGATGCAT 
AACTGGTACG CCTGCTCCCA TGCCCGACCC ACTTTCTGTA ACGTGTGCAG AGAGAGTCTT 
TCCGGAGTCA CCTCCCATGG CCTGTCCTGC GAAGTGTGTA AATTCAAGGC TCACAAAAGA 
TGTGCAGTGA GGGCAACAAA TAATTGCAAA TGGACGACTC TGGCCTCCAT CGGGAAGGAC 
ATCATAGAGG ACGAAGATGG AGTAGCTATG CCCCACCAAT GGCTTGAGGG TAACTTGCCC 
GTGAGTGCCA AATGTGCTGT CTGTGACAAA ACGTGTGGCA GCGTTCTACG TCTACAGGAT 
TGGAAATGCC TTTGGTGTAA AACAATGGTA CACACTGCCT GCAAAGATTT ATATCATCCT 
GTGTGTCCCC TTGGCCAATG TAAAGTGTCC ATCATACCTC CAATTGCACT GAATAGCACT 
GATTCTGATG GTTTCTGTAG AGCGACATTT TCATTCTGTG TTAGTCCTCT GTTGGTTTTT 
GTCAATTCTA AGAGTGGAGA TAATCAGGGA GTAAAGTTCC TTCGTCGATT TAAACAGTTG 
CTAAATCCGG CTCAGGTGTT TGATTTAATG AACGGAGGTC CTCATTTAGG TTTAAGATTA 
TTCCAGAAGT TCGACAATTT CCGAATTCTC GTTTGTGGAG GAGATGGAAG TGTAGGTTGG 
GTTTTGTCAG AAATTGATAA GCTCAACTTG AATAAACAGT GTCAGCTGGG AGTATTGCCT 
TTGGGTACAG GAAATGACCT TGCCCGGGTT CTAGGCTGGG GTGGTTCCTA TGATGATGAC 
ACCCAACTTC CTCAGATATT AGAGAAGCTG GAACGAGCCA GTACCAAAAT GCTAGACAGG 
TGGAGTATAA TGACCTATGA ACTCAAATTG CCACCAAAGG CTTCTCTACT TCCAGAACCT 
CCAGAAGCAT CGGAAGAATT TTATATGACA ATTTATGAGG ACTCTGTTGC AGCTCATCTT 
ACAAAAATCC TCAATTCTGA TGAACATGCA GTGGTCATAT CGTCTGCCAA GATACTATGT 
GAAACTGTAA AGGACTTCGT TGCCAAAGTA GAGAAGGCCT ATGAGAAAAC GTTGGAAAAC 
GCCGTTGCAG CTGACGCCGT GGCCAGTAAA TGTTCGGTCC TAAATGAAAA GCTTGAACAA 
CTACTTCAAG CTTTGCACGC AGATTCCCAG GCTGCCCCCG TTCTCCCAGG CATCCGCTCT 
CTCATTGTAG AAGAAGATAC TGCGGAATCT TCCAGTGAAG AATCCTTGTG TGAAAGCAAG 
GAACAGCTCG CGGATGACCC TGCGAAACCT CCCTCCCAGA AAGCTGTCAA ACCAAAGGAA 
ATAATGTTGC GGGCAAACAG TTTAAAGAAA GCAGTGAGAC AAGTCATTGA AGAAGCCGGC 
AAAGTTATGG ATGACCAGAG TGTTCATCCC TGTGAACCAG TTAACCAATC ATTCGATAAC 
GATAGTACAG AAACAGATGA ATCTAAGGAA GAATCTAAAG ATGATGATGC AACAGCGTCA 
TTAACTGTTA AAACTGCACC TGCACCTCGG TCTCCAGATG GCCGGGCAAA TCGTTCCCAG 
ACTGACTCTG GCCCTGGTCC AGCTGTGGCA GCCAGCAAAG AAAACCTCCC TGTGCTCAAC 
ACTAGAATAA TCTGCCCAGG TTTAAGAGCA GGACTAGCTG CCTCAATTGC TGGGAGTTCT 
ATAATCAACA AAATGTTACT AGCAAATATT GATCCTTTTG GTGCAACGCC ATTTATCGAC 
CCAGATCCAG ATTCAGTAGA TGGATATTCA GAAAAATGTG TCATGAACAA TTACTTTGGG 
ATTGGATTAG ATGCAAAAAT TTCGTTAGAA TTTAATAATA AGAGAGAGGA ACACCCTGAA 
AAATGCAGGA GCCGAACTAA AAACTTGATG TGGTATGGAG TCCTTGGAAC CCGGGAGTTA 
CTACAGAGGT CGTATAAGAA TTTAGAACAG AGGGTTCAAC TTGAATGCGA TGGGCAGTAT 
ATTCCTCTGC CCAGTCTTCA AGGAATAGCA GTGTTGAACA TTCCCAGCTA TGCAGGAGGC 
ACTAACTTTT GGGGTGGAAC TAAAGAGGAT GATATATTTG CTGCACCATC ATTTGATGAC 
AAGATCCTGG AAGTTGTTGC GATATTTGAT AGCATGCAAA TGGCAGTTTC AAGGGTCATT 
AAACTGCAGC ATCATCGAAT AGCCCAGTGC CGTACGGTAA AAATCACCAT ATTTGGCGAT 
GAGGGAGTCC CAGTGCAGGT GGATGGTGAA GCATGGGTTC AGCCTCCAGG AATTATCAAA 
ATTGTGCACA AAAACAGAGC TCAGATGCTA ACAAGGGACA GGGCTTTTGA AAGCACTCTG 
AAATCTTGGG AAGATAAACA GAAGTGTGAT TCTGGTAAAC CAGTTCTTCG AACCCATTTG 
TACATCCAGC ATGCCGTTGA CTTGGCCACA GAAGAGGTGT CCCAGATGCA GCTCTGCTCC 
CAGGCCGCAG AGGAGCTCAT TACTCGCATC TGTGACGCAG CCACGATCCA TTGTCTGTTG 
GAGCAAGAAC TGGCCCATGC TGTGAATGCG TGCTCCCACG CCCTGAATAA AGCCAACCCA 
CGGTTCCCAG AGAGTCTTAC GAGAGACACT GCCACTGAAA TAGCGATCAA TGTGAAGGCC 
CTATATAATG AAACAGAATC TTTGCTAGTG GGCAGGGTTC CTTTGCAGTT GGAATCCCCG 
CACGAGGAGC GCGTGTCTGA CGCTTTGCAC TGTGTGGAGG TGGAGCTGCA GAAGTTAACG 
GAGATTCCTT GGCTTTACTA CATCTTACAC CCAAACGAAG ATGAGGAGCC CCCCATGGAT 
TGCACCAAGA GAAACAGCAG AAGCACAGTC TTTCGTATCG TGCCAAAATT TAAAAAGGAA 
AAGGTTCAGA AGCAGAAGAC AAGTTCCCAG CCTGGACCTG GGGATAACGA AAGTGGGTCA 
TATGAAGCGA ATTCTCCAGG GAATTAA

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

RefSeq	XP_019651585.1
CDS	99..3185
Translation	MLCAENRKEMEDWMSSLKSVQTREPYEVAQFNVEHFSGMHNWYACSHARPTFCNVCRESLSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGVAMPHQWLEGNLPVSAKCAVCDKTCGSVLRLQDWKCLWCKTMVHTACKDLYHPVCPLGQCKVSIIPPIALNSTDSDGFCRATFSFCVSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDNFRILVCGGDGSVGWVLSEIDKLNLNKQCQLGVLPLGTGNDLARVLGWGGSYDDDTQLPQILEKLERASTKMLDRWSIMTYELKLPPKASLLPEPPEASEEFYMTIYEDSVAAHLTKILNSDEHAVVISSAKILCETVKDFVAKVEKAYEKTLENAVAADAVASKCSVLNEKLEQLLQALHADSQAAPVLPGIRSLIVEEDTAESSSEESLCESKEQLADDPAKPPSQKAVKPKEIMLRANSLKKAVRQVIEEAGKVMDDQSVHPCEPVNQSFDNDSTETDESKEESKDDDATASLTVKTAPAPRSPDGRANRSQTDSGPGPAVAASKENLPVLNTRIICPGLRAGLAASIAGSSIINKMLLANIDPFGATPFIDPDPDSVDGYSEKCVMNNYFGIGLDAKISLEFNNKREEHPEKCRSRTKNLMWYGVLGTRELLQRSYKNLEQRVQLECDGQYIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDIFAAPSFDDKILEVVAIFDSMQMAVSRVIKLQHHRIAQCRTVKITIFGDEGVPVQVDGEAWVQPPGIIKIVHKNRAQMLTRDRAFESTLKSWEDKQKCDSGKPVLRTHLYIQHAVDLATEEVSQMQLCSQAAEELITRICDAATIHCLLEQELAHAVNACSHALNKANPRFPESLTRDTATEIAINVKALYNETESLLVGRVPLQLESPHEERVSDALHCVEVELQKLTEIPWLYYILHPNEDEEPPMDCTKRNSRSTVFRIVPKFKKEKVQKQKTSSQPGPGDNESGSYEANSPGN

Target ORF information:

RefSeq Version	XM_019796026.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca diacylglycerol kinase eta (DGKH), transcript variant X1, mRNA.

Target ORF information:

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

XM_019796026.1

ORF Insert Sequence:

ATGCTGTGCG CTGAGAACAG GAAGGAGATG GAGGATTGGA TGAGCTCACT GAAGTCTGTA 
CAGACCAGAG AACCTTACGA GGTGGCCCAG TTTAACGTGG AACATTTCTC AGGGATGCAT 
AACTGGTACG CCTGCTCCCA TGCCCGACCC ACTTTCTGTA ACGTGTGCAG AGAGAGTCTT 
TCCGGAGTCA CCTCCCATGG CCTGTCCTGC GAAGTGTGTA AATTCAAGGC TCACAAAAGA 
TGTGCAGTGA GGGCAACAAA TAATTGCAAA TGGACGACTC TGGCCTCCAT CGGGAAGGAC 
ATCATAGAGG ACGAAGATGG AGTAGCTATG CCCCACCAAT GGCTTGAGGG TAACTTGCCC 
GTGAGTGCCA AATGTGCTGT CTGTGACAAA ACGTGTGGCA GCGTTCTACG TCTACAGGAT 
TGGAAATGCC TTTGGTGTAA AACAATGGTA CACACTGCCT GCAAAGATTT ATATCATCCT 
GTGTGTCCCC TTGGCCAATG TAAAGTGTCC ATCATACCTC CAATTGCACT GAATAGCACT 
GATTCTGATG GTTTCTGTAG AGCGACATTT TCATTCTGTG TTAGTCCTCT GTTGGTTTTT 
GTCAATTCTA AGAGTGGAGA TAATCAGGGA GTAAAGTTCC TTCGTCGATT TAAACAGTTG 
CTAAATCCGG CTCAGGTGTT TGATTTAATG AACGGAGGTC CTCATTTAGG TTTAAGATTA 
TTCCAGAAGT TCGACAATTT CCGAATTCTC GTTTGTGGAG GAGATGGAAG TGTAGGTTGG 
GTTTTGTCAG AAATTGATAA GCTCAACTTG AATAAACAGT GTCAGCTGGG AGTATTGCCT 
TTGGGTACAG GAAATGACCT TGCCCGGGTT CTAGGCTGGG GTGGTTCCTA TGATGATGAC 
ACCCAACTTC CTCAGATATT AGAGAAGCTG GAACGAGCCA GTACCAAAAT GCTAGACAGG 
TGGAGTATAA TGACCTATGA ACTCAAATTG CCACCAAAGG CTTCTCTACT TCCAGAACCT 
CCAGAAGCAT CGGAAGAATT TTATATGACA ATTTATGAGG ACTCTGTTGC AGCTCATCTT 
ACAAAAATCC TCAATTCTGA TGAACATGCA GTGGTCATAT CGTCTGCCAA GATACTATGT 
GAAACTGTAA AGGACTTCGT TGCCAAAGTA GAGAAGGCCT ATGAGAAAAC GTTGGAAAAC 
GCCGTTGCAG CTGACGCCGT GGCCAGTAAA TGTTCGGTCC TAAATGAAAA GCTTGAACAA 
CTACTTCAAG CTTTGCACGC AGATTCCCAG GCTGCCCCCG TTCTCCCAGG CATCCGCTCT 
CTCATTGTAG AAGAAGATAC TGCGGAATCT TCCAGTGAAG AATCCTTGTG TGAAAGCAAG 
GAACAGCTCG CGGATGACCC TGCGAAACCT CCCTCCCAGA AAGCTGTCAA ACCAAAGGAA 
ATAATGTTGC GGGCAAACAG TTTAAAGAAA GCAGTGAGAC AAGTCATTGA AGAAGCCGGC 
AAAGTTATGG ATGACCAGAG TGTTCATCCC TGTGAACCAG TTAACCAATC ATTCGATAAC 
GATAGTACAG AAACAGATGA ATCTAAGGAA GAATCTAAAG ATGATGATGC AACAGCGTCA 
TTAACTGTTA AAACTGCACC TGCACCTCGG TCTCCAGATG GCCGGGCAAA TCGTTCCCAG 
ACTGACTCTG GCCCTGGTCC AGCTGTGGCA GCCAGCAAAG AAAACCTCCC TGTGCTCAAC 
ACTAGAATAA TCTGCCCAGG TTTAAGAGCA GGACTAGCTG CCTCAATTGC TGGGAGTTCT 
ATAATCAACA AAATGTTACT AGCAAATATT GATCCTTTTG GTGCAACGCC ATTTATCGAC 
CCAGATCCAG ATTCAGTAGA TGGATATTCA GAAAAATGTG TCATGAACAA TTACTTTGGG 
ATTGGATTAG ATGCAAAAAT TTCGTTAGAA TTTAATAATA AGAGAGAGGA ACACCCTGAA 
AAATGCAGGA GCCGAACTAA AAACTTGATG TGGTATGGAG TCCTTGGAAC CCGGGAGTTA 
CTACAGAGGT CGTATAAGAA TTTAGAACAG AGGGTTCAAC TTGAATGCGA TGGGCAGTAT 
ATTCCTCTGC CCAGTCTTCA AGGAATAGCA GTGTTGAACA TTCCCAGCTA TGCAGGAGGC 
ACTAACTTTT GGGGTGGAAC TAAAGAGGAT GATATATTTG CTGCACCATC ATTTGATGAC 
AAGATCCTGG AAGTTGTTGC GATATTTGAT AGCATGCAAA TGGCAGTTTC AAGGGTCATT 
AAACTGCAGC ATCATCGAAT AGCCCAGTGC CGTACGGTAA AAATCACCAT ATTTGGCGAT 
GAGGGAGTCC CAGTGCAGGT GGATGGTGAA GCATGGGTTC AGCCTCCAGG AATTATCAAA 
ATTGTGCACA AAAACAGAGC TCAGATGCTA ACAAGGGACA GGGCTTTTGA AAGCACTCTG 
AAATCTTGGG AAGATAAACA GAAGTGTGAT TCTGGTAAAC CAGTTCTTCG AACCCATTTG 
TACATCCAGC ATGCCGTTGA CTTGGCCACA GAAGAGGTGT CCCAGATGCA GCTCTGCTCC 
CAGGCCGCAG AGGAGCTCAT TACTCGCATC TGTGACGCAG CCACGATCCA TTGTCTGTTG 
GAGCAAGAAC TGGCCCATGC TGTGAATGCG TGCTCCCACG CCCTGAATAA AGCCAACCCA 
CGGTTCCCAG AGAGTCTTAC GAGAGACACT GCCACTGAAA TAGCGATCAA TGTGAAGGCC 
CTATATAATG AAACAGAATC TTTGCTAGTG GGCAGGGTTC CTTTGCAGTT GGAATCCCCG 
CACGAGGAGC GCGTGTCTGA CGCTTTGCAC TGTGTGGAGG TGGAGCTGCA GAAGTTAACG 
GAGATTCCTT GGCTTTACTA CATCTTACAC CCAAACGAAG ATGAGGAGCC CCCCATGGAT 
TGCACCAAGA GAAACAGCAG AAGCACAGTC TTTCGTATCG TGCCAAAATT TAAAAAGGAA 
AAGGTTCAGA AGCAGAAGAC AAGTTCCCAG CCTGGACCTG GGGATAACGA AAGTGGGTCA 
TATGAAGCGA ATTCTCCAGG GAATTAA

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

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DGKH 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:

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