DGKD cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	DGKD
Entrez Gene ID	100218663
Full Name	diacylglycerol kinase delta
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030279973.1	XP_030135833.1	diacylglycerol kinase delta isoform X2
XM_030279977.1	XP_030135837.1	diacylglycerol kinase delta isoform X5
XM_030279981.1	XP_030135841.1	diacylglycerol kinase delta isoform X7
XM_030279982.1	XP_030135842.1	diacylglycerol kinase delta isoform X7
XM_030279975.1	XP_030135835.1	diacylglycerol kinase delta isoform X3
XM_030279979.1	XP_030135839.1	diacylglycerol kinase delta isoform X7

Pathways from BioSystems
Gene Ontology

The following DGKD gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DGKD 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)
OTd51631	XM_030279973.1 Latest version!	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd51632	XM_030279975.1 Latest version!	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd51634	XM_030279977.1 Latest version!	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd51636	XM_030279981.1 Latest version!	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd51636	XM_030279979.1 Latest version!	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd51636	XM_030279982.1 Latest version!	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X10, 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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** 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)

DGKD ( XM_030279973.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135833.1 Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd51631
Clone ID Related Accession (Same CDS sequence)	XM_030279973.1
Accession Version	XM_030279973.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3651bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	diacylglycerol kinase delta isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGCGG CGGGGGCTGA GCAGCCACAG CCAGAGCCGG CCGCCGGCGC CGCGCCCGAG 
GAGTCGTCGG ACAGCGAGCC GGAGCAGGAG CCCGGCTCCC TGCAGAAGCT CATCCGCAAA 
GTCTCGACGT CCGGGCAGAT CCGCCAGAAG ACTGTCATAA AAGAGGGGAT GCTAATGAAA 
CAGACCAGCT CCTTCCAGCG CTGGAAGAGA CGATACTTTA AGCTGCGAGG ACGAACGCTC 
TACTATGCAA AAACTGCTAA GTCCATTATT TTTGATGAGG TGGATCTGAC AGATGCCAGT 
GTGGCAGAAT CCAGCACAAA GAATGTCAAC AACAGCTTCA CGATTATCAC TCCATGTCGG 
AAACTCATCC TTTGTGCTGA CAACAGAAAA GAGATGGAAG ATTGGATTGC AGCACTGAAG 
ACTGTCCAAA ACCGTGAACA TTTTGAGTCT ACCCAGTACA GCATGGACCA TTTCTCAGGG 
ATGCATAACT GGTACGCCTG CTCCCATGCC CGGCCAACGT ACTGCAACGT GTGTCGGGAG 
GCCTTGTCTG GGGTCACGTC ACATGGGCTG TCCTGTGAAG TGTGCAAGTT TAAAGCCCAC 
AAGCGCTGTG CTGTGCGGGC AACCAACAAT TGCAAGTGGA CGACTCTGGC CTCTATCGGG 
AAGGATATCA TTGAGGATGA AGATGGGATC TCAATGCCAC ATCAGTGGCT GGAAGGAAAC 
CTGCCCGTGA GTGCCAAATG CACTGTGTGT GATAAAACCT GTGGCAGTGT CCTGCGTTTG 
CAAGACTGGC GCTGCCTGTG GTGCAAAGCC ATGGTACACA CAGCATGTAA AGAGTTGTTG 
CCAAACAAGT GCCCTCTTGG GCTCTGCAAA GTGTCTGTCA TTCCTCCTAC TGCTCTTAAC 
AGCATTGATT CAGATGGTTT CTGGAAAGCC ACCTGTCCCC CTTCTTGCAC AAGCCCTTTG 
TTGGTCTTTG TCAACTCAAA AAGTGGAGAC AACCAAGGTG TAAAATTTCT ACGAAGATTC 
AAACAACTGC TGAATCCAGC CCAGGTCTTT GACCTCATGA ATGGAGGACC TCACCTTGGT 
TTACGATTAT TCCAGAAATT TGACACTTTC CGGATTCTAG TTTGTGGTGG GGACGGAAGT 
GTTGGCTGGG TTCTCTCTGA AATTGATAGC CTCAACCTTC ACAAGCAGTG CCAACTAGGA 
GTGCTGCCCT TGGGAACAGG GAATGACCTT GCCCGTGTTT TAGGCTGGGG TTCTGCTTGT 
GATGATGATA CCCAGCTCCC GCAGATCCTG GAGAAGTTGG AGAGGGCCAG TACCAAAATG 
CTGGACAGGT GGAGCATCAT GGTGTATGAA ACCAAACTCC CTCGCCAGGC CTCCACTTCT 
ACAGTCACTG AAGACTGCAG TGAGAATTCA GAGGTGCAGA AGATTCTCTG CTATGAAGAT 
TCTGTGGCTG CTCATCTGTC CAAAATTTTG ACTTCTGACC AACACTCAGT GGTGATCTCC 
TCAGCCAAAG TGCTTTGTGA GACAGTGAAG GATTTTGTGG CTCGAGTAGG GAAAGCCTAT 
GAGAAGGCAA CAGAAAGCTC AGAGGAGTCA GAGGTCATGG CCAGGAAGTG CTCTGTCCTG 
AAGGAGAAGC TGGACTCATT GCTGAAGACA CTGAATGATG AATCTCAAGC GTCTTCCTCT 
CTGCCCAACC CTCCTCCCAC CATTGCAGAG GAGACGGAGG ATGGGGATGG GTCGGGCAGT 
GCTGGTGACT CTTCAAGTGA GCTCTCGGTG GGCTCGGCTT GCACTGCACG GCCCCAGATA 
TTCCGTCCCC GAGAGCAGCT CATGCTGAGA GCCAACAGCT TGAAAAAAGC CATTCGCCAG 
ATAATAGAGC ATGCAGAGAA AGCTGTAGAT GAACAGAACG CTCAGACCCA GGAGCAAGAG 
GGATTCCTCC TTAGTCTCTC AGCCTCTGAG GAAGGCAAGG AGCTGAGGAA CGAAGATAAA 
ATTTCCATGC AGTCATCACA TAGCAGCAGC TATGGAGTGT CCAAGGGGAG GAGCCAGAGG 
AAAGCCTCCA AGTCTCCTTG TGAAAGACTA ATAAACAAAG GAAGTTTGTC ACTGGGCAGC 
TCTGCATCTC TTCCTCCCCA GACAGGAAGC CGGGACAACT TGCCAATGCT GAACACAAAA 
ATCCTCTACC CAAATATCCG TGCTGGCATG TCAGGTTCTT TGCCTGGGAG CTCTGTCATC 
AGCAGATTGT TGATCCATGC TGATCCCTTT AACTCTGAGC CTGAAAATCT AGAATGTTAC 
ACTGAGAAGT GTGTCATGAA TAATTACTTT GGAATTGGAC TGGATGCAAA GATTTCTTTG 
GACTTCAACA ACAAACGTGA TGAGCACCCA GAGAAATGCA GAAGTCGTAC TAAGAATATG 
ATGTGGTATG GAGTATTGGG GACCAAGGAG CTGCTGCACA GAACATATAA AAACCTGGAG 
CAGAAGGTCT TGCTGGAGTG CGATGGGAGG CCAATCCCTC TGCCCAGTCT CCAGGGGATT 
GCTGTACTCA ACATTCCCAG CTATGCAGGA GGCACCAACT TCTGGGGGGG AACCAAGGAA 
GATGATACAT TTACAGCCCC TTCCTTCGAT GACAAGATTT TGGAGGTGGT AGCCGTGTTT 
GGTAGCATGC AGATGGCAGT GTCACGTGTG ATAAACCTAC AGCATCACCG GATTGCACAG 
TGCCGGACAG TAAAGATAGC AATCCTTGGA GAAGAGGGAG TTCCCGTGCA AGTGGATGGA 
GAAGCCTGGA TCCAGCCTCC GGGTTACATT TGGATTGTTC ATAAGAACAG GGCACAGACC 
CTCACCCGAG ACAGGGCCTT TGAGAGCACC CTGAAGTCTT GGGAGGACAA GCAGAAGTGC 
GAGTTGTCAC GACCCTCCTC TTTCTCTCTG CAACCAGAGA TCATGTCTGA AGAAGAATCC 
ACCCAGATCA TCCAGTTTGG TCAAGCTGCA GGTGCTCTGA TCCACAGTAT TCGGGAAATA 
GCACAATCCT ATCAGGACAT GGAACAGGAG CTTGCCCATG CTGTCAATGC CAGCTCCAAG 
TCTATGGACA AAGTCTACGC TAAATCCAAG TCTACAGAGG GTCTGAACTG CAGCCTTGTT 
GTAGAGATGG TGAATAATGT CAAAGCCCTG CACAATGAGA CAGAGCTGCT GCTGGCAGGC 
AAGATGGCAC TGCAATTAGA TCCTCCACAG AAGGAGCAGC TCCAGGCAGC CCTGGCAGAC 
ATGGACCTCC AACTGAGGAA ACTGGCAGAC ATCCCTTGGC TGTGGCAGCT TATGGAGCCC 
TGTGATGAGG AGAACCAGAT GCTGGATTAT TCTAAACGCA GCCGCAGTGG CAAATTCCGT 
CTGGTGACCA AATTTAAAAA GGAGAAGAAC AACAAAAATA AGGAGTCTCA CAGTAGCATG 
GGATTGCCGG TTCACCTCTG GGGAACGGAG GAGGTTGCGG CGTGGCTTGA GCACCTCAGT 
CTTTGTGAGT ATAAGGATAT CTTCATCCGG CATGACGTCC GGGGCTCTGA GCTCCTGCAC 
CTTGAACGGA GGGACCTCAA GGACCTGGGT GTGACCAAAG TGGGTCATAT GAAGAGGATA 
CTGCACGGGA TCAAGGAGCT GAGCCGGAGT ACTCCTGCCA GCGAGGCTTA G

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

RefSeq	XP_030135833.1
CDS	36..3686
Translation	MAAAGAEQPQPEPAAGAAPEESSDSEPEQEPGSLQKLIRKVSTSGQIRQKTVIKEGMLMKQTSSFQRWKRRYFKLRGRTLYYAKTAKSIIFDEVDLTDASVAESSTKNVNNSFTIITPCRKLILCADNRKEMEDWIAALKTVQNREHFESTQYSMDHFSGMHNWYACSHARPTYCNVCREALSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGISMPHQWLEGNLPVSAKCTVCDKTCGSVLRLQDWRCLWCKAMVHTACKELLPNKCPLGLCKVSVIPPTALNSIDSDGFWKATCPPSCTSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDTFRILVCGGDGSVGWVLSEIDSLNLHKQCQLGVLPLGTGNDLARVLGWGSACDDDTQLPQILEKLERASTKMLDRWSIMVYETKLPRQASTSTVTEDCSENSEVQKILCYEDSVAAHLSKILTSDQHSVVISSAKVLCETVKDFVARVGKAYEKATESSEESEVMARKCSVLKEKLDSLLKTLNDESQASSSLPNPPPTIAEETEDGDGSGSAGDSSSELSVGSACTARPQIFRPREQLMLRANSLKKAIRQIIEHAEKAVDEQNAQTQEQEGFLLSLSASEEGKELRNEDKISMQSSHSSSYGVSKGRSQRKASKSPCERLINKGSLSLGSSASLPPQTGSRDNLPMLNTKILYPNIRAGMSGSLPGSSVISRLLIHADPFNSEPENLECYTEKCVMNNYFGIGLDAKISLDFNNKRDEHPEKCRSRTKNMMWYGVLGTKELLHRTYKNLEQKVLLECDGRPIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDTFTAPSFDDKILEVVAVFGSMQMAVSRVINLQHHRIAQCRTVKIAILGEEGVPVQVDGEAWIQPPGYIWIVHKNRAQTLTRDRAFESTLKSWEDKQKCELSRPSSFSLQPEIMSEEESTQIIQFGQAAGALIHSIREIAQSYQDMEQELAHAVNASSKSMDKVYAKSKSTEGLNCSLVVEMVNNVKALHNETELLLAGKMALQLDPPQKEQLQAALADMDLQLRKLADIPWLWQLMEPCDEENQMLDYSKRSRSGKFRLVTKFKKEKNNKNKESHSSMGLPVHLWGTEEVAAWLEHLSLCEYKDIFIRHDVRGSELLHLERRDLKDLGVTKVGHMKRILHGIKELSRSTPASEA

Target ORF information:

RefSeq Version	XM_030279973.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X2, mRNA.

Target ORF information:

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

XM_030279973.1

ORF Insert Sequence:

ATGGCGGCGG CGGGGGCTGA GCAGCCACAG CCAGAGCCGG CCGCCGGCGC CGCGCCCGAG 
GAGTCGTCGG ACAGCGAGCC GGAGCAGGAG CCCGGCTCCC TGCAGAAGCT CATCCGCAAA 
GTCTCGACGT CCGGGCAGAT CCGCCAGAAG ACTGTCATAA AAGAGGGGAT GCTAATGAAA 
CAGACCAGCT CCTTCCAGCG CTGGAAGAGA CGATACTTTA AGCTGCGAGG ACGAACGCTC 
TACTATGCAA AAACTGCTAA GTCCATTATT TTTGATGAGG TGGATCTGAC AGATGCCAGT 
GTGGCAGAAT CCAGCACAAA GAATGTCAAC AACAGCTTCA CGATTATCAC TCCATGTCGG 
AAACTCATCC TTTGTGCTGA CAACAGAAAA GAGATGGAAG ATTGGATTGC AGCACTGAAG 
ACTGTCCAAA ACCGTGAACA TTTTGAGTCT ACCCAGTACA GCATGGACCA TTTCTCAGGG 
ATGCATAACT GGTACGCCTG CTCCCATGCC CGGCCAACGT ACTGCAACGT GTGTCGGGAG 
GCCTTGTCTG GGGTCACGTC ACATGGGCTG TCCTGTGAAG TGTGCAAGTT TAAAGCCCAC 
AAGCGCTGTG CTGTGCGGGC AACCAACAAT TGCAAGTGGA CGACTCTGGC CTCTATCGGG 
AAGGATATCA TTGAGGATGA AGATGGGATC TCAATGCCAC ATCAGTGGCT GGAAGGAAAC 
CTGCCCGTGA GTGCCAAATG CACTGTGTGT GATAAAACCT GTGGCAGTGT CCTGCGTTTG 
CAAGACTGGC GCTGCCTGTG GTGCAAAGCC ATGGTACACA CAGCATGTAA AGAGTTGTTG 
CCAAACAAGT GCCCTCTTGG GCTCTGCAAA GTGTCTGTCA TTCCTCCTAC TGCTCTTAAC 
AGCATTGATT CAGATGGTTT CTGGAAAGCC ACCTGTCCCC CTTCTTGCAC AAGCCCTTTG 
TTGGTCTTTG TCAACTCAAA AAGTGGAGAC AACCAAGGTG TAAAATTTCT ACGAAGATTC 
AAACAACTGC TGAATCCAGC CCAGGTCTTT GACCTCATGA ATGGAGGACC TCACCTTGGT 
TTACGATTAT TCCAGAAATT TGACACTTTC CGGATTCTAG TTTGTGGTGG GGACGGAAGT 
GTTGGCTGGG TTCTCTCTGA AATTGATAGC CTCAACCTTC ACAAGCAGTG CCAACTAGGA 
GTGCTGCCCT TGGGAACAGG GAATGACCTT GCCCGTGTTT TAGGCTGGGG TTCTGCTTGT 
GATGATGATA CCCAGCTCCC GCAGATCCTG GAGAAGTTGG AGAGGGCCAG TACCAAAATG 
CTGGACAGGT GGAGCATCAT GGTGTATGAA ACCAAACTCC CTCGCCAGGC CTCCACTTCT 
ACAGTCACTG AAGACTGCAG TGAGAATTCA GAGGTGCAGA AGATTCTCTG CTATGAAGAT 
TCTGTGGCTG CTCATCTGTC CAAAATTTTG ACTTCTGACC AACACTCAGT GGTGATCTCC 
TCAGCCAAAG TGCTTTGTGA GACAGTGAAG GATTTTGTGG CTCGAGTAGG GAAAGCCTAT 
GAGAAGGCAA CAGAAAGCTC AGAGGAGTCA GAGGTCATGG CCAGGAAGTG CTCTGTCCTG 
AAGGAGAAGC TGGACTCATT GCTGAAGACA CTGAATGATG AATCTCAAGC GTCTTCCTCT 
CTGCCCAACC CTCCTCCCAC CATTGCAGAG GAGACGGAGG ATGGGGATGG GTCGGGCAGT 
GCTGGTGACT CTTCAAGTGA GCTCTCGGTG GGCTCGGCTT GCACTGCACG GCCCCAGATA 
TTCCGTCCCC GAGAGCAGCT CATGCTGAGA GCCAACAGCT TGAAAAAAGC CATTCGCCAG 
ATAATAGAGC ATGCAGAGAA AGCTGTAGAT GAACAGAACG CTCAGACCCA GGAGCAAGAG 
GGATTCCTCC TTAGTCTCTC AGCCTCTGAG GAAGGCAAGG AGCTGAGGAA CGAAGATAAA 
ATTTCCATGC AGTCATCACA TAGCAGCAGC TATGGAGTGT CCAAGGGGAG GAGCCAGAGG 
AAAGCCTCCA AGTCTCCTTG TGAAAGACTA ATAAACAAAG GAAGTTTGTC ACTGGGCAGC 
TCTGCATCTC TTCCTCCCCA GACAGGAAGC CGGGACAACT TGCCAATGCT GAACACAAAA 
ATCCTCTACC CAAATATCCG TGCTGGCATG TCAGGTTCTT TGCCTGGGAG CTCTGTCATC 
AGCAGATTGT TGATCCATGC TGATCCCTTT AACTCTGAGC CTGAAAATCT AGAATGTTAC 
ACTGAGAAGT GTGTCATGAA TAATTACTTT GGAATTGGAC TGGATGCAAA GATTTCTTTG 
GACTTCAACA ACAAACGTGA TGAGCACCCA GAGAAATGCA GAAGTCGTAC TAAGAATATG 
ATGTGGTATG GAGTATTGGG GACCAAGGAG CTGCTGCACA GAACATATAA AAACCTGGAG 
CAGAAGGTCT TGCTGGAGTG CGATGGGAGG CCAATCCCTC TGCCCAGTCT CCAGGGGATT 
GCTGTACTCA ACATTCCCAG CTATGCAGGA GGCACCAACT TCTGGGGGGG AACCAAGGAA 
GATGATACAT TTACAGCCCC TTCCTTCGAT GACAAGATTT TGGAGGTGGT AGCCGTGTTT 
GGTAGCATGC AGATGGCAGT GTCACGTGTG ATAAACCTAC AGCATCACCG GATTGCACAG 
TGCCGGACAG TAAAGATAGC AATCCTTGGA GAAGAGGGAG TTCCCGTGCA AGTGGATGGA 
GAAGCCTGGA TCCAGCCTCC GGGTTACATT TGGATTGTTC ATAAGAACAG GGCACAGACC 
CTCACCCGAG ACAGGGCCTT TGAGAGCACC CTGAAGTCTT GGGAGGACAA GCAGAAGTGC 
GAGTTGTCAC GACCCTCCTC TTTCTCTCTG CAACCAGAGA TCATGTCTGA AGAAGAATCC 
ACCCAGATCA TCCAGTTTGG TCAAGCTGCA GGTGCTCTGA TCCACAGTAT TCGGGAAATA 
GCACAATCCT ATCAGGACAT GGAACAGGAG CTTGCCCATG CTGTCAATGC CAGCTCCAAG 
TCTATGGACA AAGTCTACGC TAAATCCAAG TCTACAGAGG GTCTGAACTG CAGCCTTGTT 
GTAGAGATGG TGAATAATGT CAAAGCCCTG CACAATGAGA CAGAGCTGCT GCTGGCAGGC 
AAGATGGCAC TGCAATTAGA TCCTCCACAG AAGGAGCAGC TCCAGGCAGC CCTGGCAGAC 
ATGGACCTCC AACTGAGGAA ACTGGCAGAC ATCCCTTGGC TGTGGCAGCT TATGGAGCCC 
TGTGATGAGG AGAACCAGAT GCTGGATTAT TCTAAACGCA GCCGCAGTGG CAAATTCCGT 
CTGGTGACCA AATTTAAAAA GGAGAAGAAC AACAAAAATA AGGAGTCTCA CAGTAGCATG 
GGATTGCCGG TTCACCTCTG GGGAACGGAG GAGGTTGCGG CGTGGCTTGA GCACCTCAGT 
CTTTGTGAGT ATAAGGATAT CTTCATCCGG CATGACGTCC GGGGCTCTGA GCTCCTGCAC 
CTTGAACGGA GGGACCTCAA GGACCTGGGT GTGACCAAAG TGGGTCATAT GAAGAGGATA 
CTGCACGGGA TCAAGGAGCT GAGCCGGAGT ACTCCTGCCA GCGAGGCTTA G

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

DGKD ( XM_030279975.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135835.1 Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd51632
Clone ID Related Accession (Same CDS sequence)	XM_030279975.1
Accession Version	XM_030279975.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3528bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	diacylglycerol kinase delta isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAAGAAT GCACATCTTG TGCAGAGACT GTCATAAAAG AGGGGATGCT AATGAAACAG 
ACCAGCTCCT TCCAGCGCTG GAAGAGACGA TACTTTAAGC TGCGAGGACG AACGCTCTAC 
TATGCAAAAA CTGCTAAGTC CATTATTTTT GATGAGGTGG ATCTGACAGA TGCCAGTGTG 
GCAGAATCCA GCACAAAGAA TGTCAACAAC AGCTTCACGA TTATCACTCC ATGTCGGAAA 
CTCATCCTTT GTGCTGACAA CAGAAAAGAG ATGGAAGATT GGATTGCAGC ACTGAAGACT 
GTCCAAAACC GTGAACATTT TGAGTCTACC CAGTACAGCA TGGACCATTT CTCAGGGATG 
CATAACTGGT ACGCCTGCTC CCATGCCCGG CCAACGTACT GCAACGTGTG TCGGGAGGCC 
TTGTCTGGGG TCACGTCACA TGGGCTGTCC TGTGAAGTGT GCAAGTTTAA AGCCCACAAG 
CGCTGTGCTG TGCGGGCAAC CAACAATTGC AAGTGGACGA CTCTGGCCTC TATCGGGAAG 
GATATCATTG AGGATGAAGA TGGGATCTCA ATGCCACATC AGTGGCTGGA AGGAAACCTG 
CCCGTGAGTG CCAAATGCAC TGTGTGTGAT AAAACCTGTG GCAGTGTCCT GCGTTTGCAA 
GACTGGCGCT GCCTGTGGTG CAAAGCCATG GTACACACAG CATGTAAAGA GTTGTTGCCA 
AACAAGTGCC CTCTTGGGCT CTGCAAAGTG TCTGTCATTC CTCCTACTGC TCTTAACAGC 
ATTGATTCAG ATGGTTTCTG GAAAGCCACC TGTCCCCCTT CTTGCACAAG CCCTTTGTTG 
GTCTTTGTCA ACTCAAAAAG TGGAGACAAC CAAGGTGTAA AATTTCTACG AAGATTCAAA 
CAACTGCTGA ATCCAGCCCA GGTCTTTGAC CTCATGAATG GAGGACCTCA CCTTGGTTTA 
CGATTATTCC AGAAATTTGA CACTTTCCGG ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT 
GGCTGGGTTC TCTCTGAAAT TGATAGCCTC AACCTTCACA AGCAGTGCCA ACTAGGAGTG 
CTGCCCTTGG GAACAGGGAA TGACCTTGCC CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT 
GATGATACCC AGCTCCCGCA GATCCTGGAG AAGTTGGAGA GGGCCAGTAC CAAAATGCTG 
GACAGGTGGA GCATCATGGT GTATGAAACC AAACTCCCTC GCCAGGCCTC CACTTCTACA 
GTCACTGAAG ACTGCAGTGA GAATTCAGAG GTGCAGAAGA TTCTCTGCTA TGAAGATTCT 
GTGGCTGCTC ATCTGTCCAA AATTTTGACT TCTGACCAAC ACTCAGTGGT GATCTCCTCA 
GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT TTTGTGGCTC GAGTAGGGAA AGCCTATGAG 
AAGGCAACAG AAAGCTCAGA GGAGTCAGAG GTCATGGCCA GGAAGTGCTC TGTCCTGAAG 
GAGAAGCTGG ACTCATTGCT GAAGACACTG AATGATGAAT CTCAAGCGTC TTCCTCTCTG 
CCCAACCCTC CTCCCACCAT TGCAGAGGAG ACGGAGGATG GGGATGGGTC GGGCAGTGCT 
GGTGACTCTT CAAGTGAGCT CTCGGTGGGC TCGGCTTGCA CTGCACGGCC CCAGATATTC 
CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC AACAGCTTGA AAAAAGCCAT TCGCCAGATA 
ATAGAGCATG CAGAGAAAGC TGTAGATGAA CAGAACGCTC AGACCCAGGA GCAAGAGGGA 
TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA GGCAAGGAGC TGAGGAACGA AGATAAAATT 
TCCATGCAGT CATCACATAG CAGCAGCTAT GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA 
GCCTCCAAGT CTCCTTGTGA AAGACTAATA AACAAAGGAA GTTTGTCACT GGGCAGCTCT 
GCATCTCTTC CTCCCCAGAC AGGAAGCCGG GACAACTTGC CAATGCTGAA CACAAAAATC 
CTCTACCCAA ATATCCGTGC TGGCATGTCA GGTTCTTTGC CTGGGAGCTC TGTCATCAGC 
AGATTGTTGA TCCATGCTGA TCCCTTTAAC TCTGAGCCTG AAAATCTAGA ATGTTACACT 
GAGAAGTGTG TCATGAATAA TTACTTTGGA ATTGGACTGG ATGCAAAGAT TTCTTTGGAC 
TTCAACAACA AACGTGATGA GCACCCAGAG AAATGCAGAA GTCGTACTAA GAATATGATG 
TGGTATGGAG TATTGGGGAC CAAGGAGCTG CTGCACAGAA CATATAAAAA CCTGGAGCAG 
AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA ATCCCTCTGC CCAGTCTCCA GGGGATTGCT 
GTACTCAACA TTCCCAGCTA TGCAGGAGGC ACCAACTTCT GGGGGGGAAC CAAGGAAGAT 
GATACATTTA CAGCCCCTTC CTTCGATGAC AAGATTTTGG AGGTGGTAGC CGTGTTTGGT 
AGCATGCAGA TGGCAGTGTC ACGTGTGATA AACCTACAGC ATCACCGGAT TGCACAGTGC 
CGGACAGTAA AGATAGCAAT CCTTGGAGAA GAGGGAGTTC CCGTGCAAGT GGATGGAGAA 
GCCTGGATCC AGCCTCCGGG TTACATTTGG ATTGTTCATA AGAACAGGGC ACAGACCCTC 
ACCCGAGACA GGGCCTTTGA GAGCACCCTG AAGTCTTGGG AGGACAAGCA GAAGTGCGAG 
TTGTCACGAC CCTCCTCTTT CTCTCTGCAA CCAGAGATCA TGTCTGAAGA AGAATCCACC 
CAGATCATCC AGTTTGGTCA AGCTGCAGGT GCTCTGATCC ACAGTATTCG GGAAATAGCA 
CAATCCTATC AGGACATGGA ACAGGAGCTT GCCCATGCTG TCAATGCCAG CTCCAAGTCT 
ATGGACAAAG TCTACGCTAA ATCCAAGTCT ACAGAGGGTC TGAACTGCAG CCTTGTTGTA 
GAGATGGTGA ATAATGTCAA AGCCCTGCAC AATGAGACAG AGCTGCTGCT GGCAGGCAAG 
ATGGCACTGC AATTAGATCC TCCACAGAAG GAGCAGCTCC AGGCAGCCCT GGCAGACATG 
GACCTCCAAC TGAGGAAACT GGCAGACATC CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT 
GATGAGGAGA ACCAGATGCT GGATTATTCT AAACGCAGCC GCAGTGGCAA ATTCCGTCTG 
GTGACCAAAT TTAAAAAGGA GAAGAACAAC AAAAATAAGG AGTCTCACAG TAGCATGGGA 
TTGCCGGTTC ACCTCTGGGG AACGGAGGAG GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT 
TGTGAGTATA AGGATATCTT CATCCGGCAT GACGTCCGGG GCTCTGAGCT CCTGCACCTT 
GAACGGAGGG ACCTCAAGGA CCTGGGTGTG ACCAAAGTGG GTCATATGAA GAGGATACTG 
CACGGGATCA AGGAGCTGAG CCGGAGTACT CCTGCCAGCG AGGCTTAG

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

RefSeq	XP_030135835.1
CDS	85..3612
Translation	MEECTSCAETVIKEGMLMKQTSSFQRWKRRYFKLRGRTLYYAKTAKSIIFDEVDLTDASVAESSTKNVNNSFTIITPCRKLILCADNRKEMEDWIAALKTVQNREHFESTQYSMDHFSGMHNWYACSHARPTYCNVCREALSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGISMPHQWLEGNLPVSAKCTVCDKTCGSVLRLQDWRCLWCKAMVHTACKELLPNKCPLGLCKVSVIPPTALNSIDSDGFWKATCPPSCTSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDTFRILVCGGDGSVGWVLSEIDSLNLHKQCQLGVLPLGTGNDLARVLGWGSACDDDTQLPQILEKLERASTKMLDRWSIMVYETKLPRQASTSTVTEDCSENSEVQKILCYEDSVAAHLSKILTSDQHSVVISSAKVLCETVKDFVARVGKAYEKATESSEESEVMARKCSVLKEKLDSLLKTLNDESQASSSLPNPPPTIAEETEDGDGSGSAGDSSSELSVGSACTARPQIFRPREQLMLRANSLKKAIRQIIEHAEKAVDEQNAQTQEQEGFLLSLSASEEGKELRNEDKISMQSSHSSSYGVSKGRSQRKASKSPCERLINKGSLSLGSSASLPPQTGSRDNLPMLNTKILYPNIRAGMSGSLPGSSVISRLLIHADPFNSEPENLECYTEKCVMNNYFGIGLDAKISLDFNNKRDEHPEKCRSRTKNMMWYGVLGTKELLHRTYKNLEQKVLLECDGRPIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDTFTAPSFDDKILEVVAVFGSMQMAVSRVINLQHHRIAQCRTVKIAILGEEGVPVQVDGEAWIQPPGYIWIVHKNRAQTLTRDRAFESTLKSWEDKQKCELSRPSSFSLQPEIMSEEESTQIIQFGQAAGALIHSIREIAQSYQDMEQELAHAVNASSKSMDKVYAKSKSTEGLNCSLVVEMVNNVKALHNETELLLAGKMALQLDPPQKEQLQAALADMDLQLRKLADIPWLWQLMEPCDEENQMLDYSKRSRSGKFRLVTKFKKEKNNKNKESHSSMGLPVHLWGTEEVAAWLEHLSLCEYKDIFIRHDVRGSELLHLERRDLKDLGVTKVGHMKRILHGIKELSRSTPASEA

Target ORF information:

RefSeq Version	XM_030279975.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X3, mRNA.

Target ORF information:

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

XM_030279975.1

ORF Insert Sequence:

ATGGAAGAAT GCACATCTTG TGCAGAGACT GTCATAAAAG AGGGGATGCT AATGAAACAG 
ACCAGCTCCT TCCAGCGCTG GAAGAGACGA TACTTTAAGC TGCGAGGACG AACGCTCTAC 
TATGCAAAAA CTGCTAAGTC CATTATTTTT GATGAGGTGG ATCTGACAGA TGCCAGTGTG 
GCAGAATCCA GCACAAAGAA TGTCAACAAC AGCTTCACGA TTATCACTCC ATGTCGGAAA 
CTCATCCTTT GTGCTGACAA CAGAAAAGAG ATGGAAGATT GGATTGCAGC ACTGAAGACT 
GTCCAAAACC GTGAACATTT TGAGTCTACC CAGTACAGCA TGGACCATTT CTCAGGGATG 
CATAACTGGT ACGCCTGCTC CCATGCCCGG CCAACGTACT GCAACGTGTG TCGGGAGGCC 
TTGTCTGGGG TCACGTCACA TGGGCTGTCC TGTGAAGTGT GCAAGTTTAA AGCCCACAAG 
CGCTGTGCTG TGCGGGCAAC CAACAATTGC AAGTGGACGA CTCTGGCCTC TATCGGGAAG 
GATATCATTG AGGATGAAGA TGGGATCTCA ATGCCACATC AGTGGCTGGA AGGAAACCTG 
CCCGTGAGTG CCAAATGCAC TGTGTGTGAT AAAACCTGTG GCAGTGTCCT GCGTTTGCAA 
GACTGGCGCT GCCTGTGGTG CAAAGCCATG GTACACACAG CATGTAAAGA GTTGTTGCCA 
AACAAGTGCC CTCTTGGGCT CTGCAAAGTG TCTGTCATTC CTCCTACTGC TCTTAACAGC 
ATTGATTCAG ATGGTTTCTG GAAAGCCACC TGTCCCCCTT CTTGCACAAG CCCTTTGTTG 
GTCTTTGTCA ACTCAAAAAG TGGAGACAAC CAAGGTGTAA AATTTCTACG AAGATTCAAA 
CAACTGCTGA ATCCAGCCCA GGTCTTTGAC CTCATGAATG GAGGACCTCA CCTTGGTTTA 
CGATTATTCC AGAAATTTGA CACTTTCCGG ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT 
GGCTGGGTTC TCTCTGAAAT TGATAGCCTC AACCTTCACA AGCAGTGCCA ACTAGGAGTG 
CTGCCCTTGG GAACAGGGAA TGACCTTGCC CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT 
GATGATACCC AGCTCCCGCA GATCCTGGAG AAGTTGGAGA GGGCCAGTAC CAAAATGCTG 
GACAGGTGGA GCATCATGGT GTATGAAACC AAACTCCCTC GCCAGGCCTC CACTTCTACA 
GTCACTGAAG ACTGCAGTGA GAATTCAGAG GTGCAGAAGA TTCTCTGCTA TGAAGATTCT 
GTGGCTGCTC ATCTGTCCAA AATTTTGACT TCTGACCAAC ACTCAGTGGT GATCTCCTCA 
GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT TTTGTGGCTC GAGTAGGGAA AGCCTATGAG 
AAGGCAACAG AAAGCTCAGA GGAGTCAGAG GTCATGGCCA GGAAGTGCTC TGTCCTGAAG 
GAGAAGCTGG ACTCATTGCT GAAGACACTG AATGATGAAT CTCAAGCGTC TTCCTCTCTG 
CCCAACCCTC CTCCCACCAT TGCAGAGGAG ACGGAGGATG GGGATGGGTC GGGCAGTGCT 
GGTGACTCTT CAAGTGAGCT CTCGGTGGGC TCGGCTTGCA CTGCACGGCC CCAGATATTC 
CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC AACAGCTTGA AAAAAGCCAT TCGCCAGATA 
ATAGAGCATG CAGAGAAAGC TGTAGATGAA CAGAACGCTC AGACCCAGGA GCAAGAGGGA 
TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA GGCAAGGAGC TGAGGAACGA AGATAAAATT 
TCCATGCAGT CATCACATAG CAGCAGCTAT GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA 
GCCTCCAAGT CTCCTTGTGA AAGACTAATA AACAAAGGAA GTTTGTCACT GGGCAGCTCT 
GCATCTCTTC CTCCCCAGAC AGGAAGCCGG GACAACTTGC CAATGCTGAA CACAAAAATC 
CTCTACCCAA ATATCCGTGC TGGCATGTCA GGTTCTTTGC CTGGGAGCTC TGTCATCAGC 
AGATTGTTGA TCCATGCTGA TCCCTTTAAC TCTGAGCCTG AAAATCTAGA ATGTTACACT 
GAGAAGTGTG TCATGAATAA TTACTTTGGA ATTGGACTGG ATGCAAAGAT TTCTTTGGAC 
TTCAACAACA AACGTGATGA GCACCCAGAG AAATGCAGAA GTCGTACTAA GAATATGATG 
TGGTATGGAG TATTGGGGAC CAAGGAGCTG CTGCACAGAA CATATAAAAA CCTGGAGCAG 
AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA ATCCCTCTGC CCAGTCTCCA GGGGATTGCT 
GTACTCAACA TTCCCAGCTA TGCAGGAGGC ACCAACTTCT GGGGGGGAAC CAAGGAAGAT 
GATACATTTA CAGCCCCTTC CTTCGATGAC AAGATTTTGG AGGTGGTAGC CGTGTTTGGT 
AGCATGCAGA TGGCAGTGTC ACGTGTGATA AACCTACAGC ATCACCGGAT TGCACAGTGC 
CGGACAGTAA AGATAGCAAT CCTTGGAGAA GAGGGAGTTC CCGTGCAAGT GGATGGAGAA 
GCCTGGATCC AGCCTCCGGG TTACATTTGG ATTGTTCATA AGAACAGGGC ACAGACCCTC 
ACCCGAGACA GGGCCTTTGA GAGCACCCTG AAGTCTTGGG AGGACAAGCA GAAGTGCGAG 
TTGTCACGAC CCTCCTCTTT CTCTCTGCAA CCAGAGATCA TGTCTGAAGA AGAATCCACC 
CAGATCATCC AGTTTGGTCA AGCTGCAGGT GCTCTGATCC ACAGTATTCG GGAAATAGCA 
CAATCCTATC AGGACATGGA ACAGGAGCTT GCCCATGCTG TCAATGCCAG CTCCAAGTCT 
ATGGACAAAG TCTACGCTAA ATCCAAGTCT ACAGAGGGTC TGAACTGCAG CCTTGTTGTA 
GAGATGGTGA ATAATGTCAA AGCCCTGCAC AATGAGACAG AGCTGCTGCT GGCAGGCAAG 
ATGGCACTGC AATTAGATCC TCCACAGAAG GAGCAGCTCC AGGCAGCCCT GGCAGACATG 
GACCTCCAAC TGAGGAAACT GGCAGACATC CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT 
GATGAGGAGA ACCAGATGCT GGATTATTCT AAACGCAGCC GCAGTGGCAA ATTCCGTCTG 
GTGACCAAAT TTAAAAAGGA GAAGAACAAC AAAAATAAGG AGTCTCACAG TAGCATGGGA 
TTGCCGGTTC ACCTCTGGGG AACGGAGGAG GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT 
TGTGAGTATA AGGATATCTT CATCCGGCAT GACGTCCGGG GCTCTGAGCT CCTGCACCTT 
GAACGGAGGG ACCTCAAGGA CCTGGGTGTG ACCAAAGTGG GTCATATGAA GAGGATACTG 
CACGGGATCA AGGAGCTGAG CCGGAGTACT CCTGCCAGCG AGGCTTAG

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

DGKD ( XM_030279977.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135837.1 Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X5, mRNA.

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CloneID	OTd51634
Clone ID Related Accession (Same CDS sequence)	XM_030279977.1
Accession Version	XM_030279977.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3486bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	diacylglycerol kinase delta isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAAGGA TTTTTGGGAC TCTTAATCCA GCCTCCTGTA GGAGCTGGTT ATTAGTCTGC 
TGTCACAAAA GAAGGAAAAA TCTGGAGAAA AACTACCAAA AAGAAGATAA ACATGGAAGA 
AGAGTTAGAG AGTCTGGAAG AAGTTGCTGT GGGTGGAGAG ATCTGGCGAT TGCTACTATT 
ATCACTCCAT GTCGGAAACT CATCCTTTGT GCTGACAACA GAAAAGAGAT GGAAGATTGG 
ATTGCAGCAC TGAAGACTGT CCAAAACCGT GAACATTTTG AGTCTACCCA GTACAGCATG 
GACCATTTCT CAGGGATGCA TAACTGGTAC GCCTGCTCCC ATGCCCGGCC AACGTACTGC 
AACGTGTGTC GGGAGGCCTT GTCTGGGGTC ACGTCACATG GGCTGTCCTG TGAAGTGTGC 
AAGTTTAAAG CCCACAAGCG CTGTGCTGTG CGGGCAACCA ACAATTGCAA GTGGACGACT 
CTGGCCTCTA TCGGGAAGGA TATCATTGAG GATGAAGATG GGATCTCAAT GCCACATCAG 
TGGCTGGAAG GAAACCTGCC CGTGAGTGCC AAATGCACTG TGTGTGATAA AACCTGTGGC 
AGTGTCCTGC GTTTGCAAGA CTGGCGCTGC CTGTGGTGCA AAGCCATGGT ACACACAGCA 
TGTAAAGAGT TGTTGCCAAA CAAGTGCCCT CTTGGGCTCT GCAAAGTGTC TGTCATTCCT 
CCTACTGCTC TTAACAGCAT TGATTCAGAT GGTTTCTGGA AAGCCACCTG TCCCCCTTCT 
TGCACAAGCC CTTTGTTGGT CTTTGTCAAC TCAAAAAGTG GAGACAACCA AGGTGTAAAA 
TTTCTACGAA GATTCAAACA ACTGCTGAAT CCAGCCCAGG TCTTTGACCT CATGAATGGA 
GGACCTCACC TTGGTTTACG ATTATTCCAG AAATTTGACA CTTTCCGGAT TCTAGTTTGT 
GGTGGGGACG GAAGTGTTGG CTGGGTTCTC TCTGAAATTG ATAGCCTCAA CCTTCACAAG 
CAGTGCCAAC TAGGAGTGCT GCCCTTGGGA ACAGGGAATG ACCTTGCCCG TGTTTTAGGC 
TGGGGTTCTG CTTGTGATGA TGATACCCAG CTCCCGCAGA TCCTGGAGAA GTTGGAGAGG 
GCCAGTACCA AAATGCTGGA CAGGTGGAGC ATCATGGTGT ATGAAACCAA ACTCCCTCGC 
CAGGCCTCCA CTTCTACAGT CACTGAAGAC TGCAGTGAGA ATTCAGAGGT GCAGAAGATT 
CTCTGCTATG AAGATTCTGT GGCTGCTCAT CTGTCCAAAA TTTTGACTTC TGACCAACAC 
TCAGTGGTGA TCTCCTCAGC CAAAGTGCTT TGTGAGACAG TGAAGGATTT TGTGGCTCGA 
GTAGGGAAAG CCTATGAGAA GGCAACAGAA AGCTCAGAGG AGTCAGAGGT CATGGCCAGG 
AAGTGCTCTG TCCTGAAGGA GAAGCTGGAC TCATTGCTGA AGACACTGAA TGATGAATCT 
CAAGCGTCTT CCTCTCTGCC CAACCCTCCT CCCACCATTG CAGAGGAGAC GGAGGATGGG 
GATGGGTCGG GCAGTGCTGG TGACTCTTCA AGTGAGCTCT CGGTGGGCTC GGCTTGCACT 
GCACGGCCCC AGATATTCCG TCCCCGAGAG CAGCTCATGC TGAGAGCCAA CAGCTTGAAA 
AAAGCCATTC GCCAGATAAT AGAGCATGCA GAGAAAGCTG TAGATGAACA GAACGCTCAG 
ACCCAGGAGC AAGAGGGATT CCTCCTTAGT CTCTCAGCCT CTGAGGAAGG CAAGGAGCTG 
AGGAACGAAG ATAAAATTTC CATGCAGTCA TCACATAGCA GCAGCTATGG AGTGTCCAAG 
GGGAGGAGCC AGAGGAAAGC CTCCAAGTCT CCTTGTGAAA GACTAATAAA CAAAGGAAGT 
TTGTCACTGG GCAGCTCTGC ATCTCTTCCT CCCCAGACAG GAAGCCGGGA CAACTTGCCA 
ATGCTGAACA CAAAAATCCT CTACCCAAAT ATCCGTGCTG GCATGTCAGG TTCTTTGCCT 
GGGAGCTCTG TCATCAGCAG ATTGTTGATC CATGCTGATC CCTTTAACTC TGAGCCTGAA 
AATCTAGAAT GTTACACTGA GAAGTGTGTC ATGAATAATT ACTTTGGAAT TGGACTGGAT 
GCAAAGATTT CTTTGGACTT CAACAACAAA CGTGATGAGC ACCCAGAGAA ATGCAGAAGT 
CGTACTAAGA ATATGATGTG GTATGGAGTA TTGGGGACCA AGGAGCTGCT GCACAGAACA 
TATAAAAACC TGGAGCAGAA GGTCTTGCTG GAGTGCGATG GGAGGCCAAT CCCTCTGCCC 
AGTCTCCAGG GGATTGCTGT ACTCAACATT CCCAGCTATG CAGGAGGCAC CAACTTCTGG 
GGGGGAACCA AGGAAGATGA TACATTTACA GCCCCTTCCT TCGATGACAA GATTTTGGAG 
GTGGTAGCCG TGTTTGGTAG CATGCAGATG GCAGTGTCAC GTGTGATAAA CCTACAGCAT 
CACCGGATTG CACAGTGCCG GACAGTAAAG ATAGCAATCC TTGGAGAAGA GGGAGTTCCC 
GTGCAAGTGG ATGGAGAAGC CTGGATCCAG CCTCCGGGTT ACATTTGGAT TGTTCATAAG 
AACAGGGCAC AGACCCTCAC CCGAGACAGG GCCTTTGAGA GCACCCTGAA GTCTTGGGAG 
GACAAGCAGA AGTGCGAGTT GTCACGACCC TCCTCTTTCT CTCTGCAACC AGAGATCATG 
TCTGAAGAAG AATCCACCCA GATCATCCAG TTTGGTCAAG CTGCAGGTGC TCTGATCCAC 
AGTATTCGGG AAATAGCACA ATCCTATCAG GACATGGAAC AGGAGCTTGC CCATGCTGTC 
AATGCCAGCT CCAAGTCTAT GGACAAAGTC TACGCTAAAT CCAAGTCTAC AGAGGGTCTG 
AACTGCAGCC TTGTTGTAGA GATGGTGAAT AATGTCAAAG CCCTGCACAA TGAGACAGAG 
CTGCTGCTGG CAGGCAAGAT GGCACTGCAA TTAGATCCTC CACAGAAGGA GCAGCTCCAG 
GCAGCCCTGG CAGACATGGA CCTCCAACTG AGGAAACTGG CAGACATCCC TTGGCTGTGG 
CAGCTTATGG AGCCCTGTGA TGAGGAGAAC CAGATGCTGG ATTATTCTAA ACGCAGCCGC 
AGTGGCAAAT TCCGTCTGGT GACCAAATTT AAAAAGGAGA AGAACAACAA AAATAAGGAG 
TCTCACAGTA GCATGGGATT GCCGGTTCAC CTCTGGGGAA CGGAGGAGGT TGCGGCGTGG 
CTTGAGCACC TCAGTCTTTG TGAGTATAAG GATATCTTCA TCCGGCATGA CGTCCGGGGC 
TCTGAGCTCC TGCACCTTGA ACGGAGGGAC CTCAAGGACC TGGGTGTGAC CAAAGTGGGT 
CATATGAAGA GGATACTGCA CGGGATCAAG GAGCTGAGCC GGAGTACTCC TGCCAGCGAG 
GCTTAG

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

RefSeq	XP_030135837.1
CDS	16..3501
Translation	MSRIFGTLNPASCRSWLLVCCHKRRKNLEKNYQKEDKHGRRVRESGRSCCGWRDLAIATIITPCRKLILCADNRKEMEDWIAALKTVQNREHFESTQYSMDHFSGMHNWYACSHARPTYCNVCREALSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGISMPHQWLEGNLPVSAKCTVCDKTCGSVLRLQDWRCLWCKAMVHTACKELLPNKCPLGLCKVSVIPPTALNSIDSDGFWKATCPPSCTSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDTFRILVCGGDGSVGWVLSEIDSLNLHKQCQLGVLPLGTGNDLARVLGWGSACDDDTQLPQILEKLERASTKMLDRWSIMVYETKLPRQASTSTVTEDCSENSEVQKILCYEDSVAAHLSKILTSDQHSVVISSAKVLCETVKDFVARVGKAYEKATESSEESEVMARKCSVLKEKLDSLLKTLNDESQASSSLPNPPPTIAEETEDGDGSGSAGDSSSELSVGSACTARPQIFRPREQLMLRANSLKKAIRQIIEHAEKAVDEQNAQTQEQEGFLLSLSASEEGKELRNEDKISMQSSHSSSYGVSKGRSQRKASKSPCERLINKGSLSLGSSASLPPQTGSRDNLPMLNTKILYPNIRAGMSGSLPGSSVISRLLIHADPFNSEPENLECYTEKCVMNNYFGIGLDAKISLDFNNKRDEHPEKCRSRTKNMMWYGVLGTKELLHRTYKNLEQKVLLECDGRPIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDTFTAPSFDDKILEVVAVFGSMQMAVSRVINLQHHRIAQCRTVKIAILGEEGVPVQVDGEAWIQPPGYIWIVHKNRAQTLTRDRAFESTLKSWEDKQKCELSRPSSFSLQPEIMSEEESTQIIQFGQAAGALIHSIREIAQSYQDMEQELAHAVNASSKSMDKVYAKSKSTEGLNCSLVVEMVNNVKALHNETELLLAGKMALQLDPPQKEQLQAALADMDLQLRKLADIPWLWQLMEPCDEENQMLDYSKRSRSGKFRLVTKFKKEKNNKNKESHSSMGLPVHLWGTEEVAAWLEHLSLCEYKDIFIRHDVRGSELLHLERRDLKDLGVTKVGHMKRILHGIKELSRSTPASEA

Target ORF information:

RefSeq Version	XM_030279977.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X5, mRNA.

Target ORF information:

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

XM_030279977.1

ORF Insert Sequence:

ATGTCAAGGA TTTTTGGGAC TCTTAATCCA GCCTCCTGTA GGAGCTGGTT ATTAGTCTGC 
TGTCACAAAA GAAGGAAAAA TCTGGAGAAA AACTACCAAA AAGAAGATAA ACATGGAAGA 
AGAGTTAGAG AGTCTGGAAG AAGTTGCTGT GGGTGGAGAG ATCTGGCGAT TGCTACTATT 
ATCACTCCAT GTCGGAAACT CATCCTTTGT GCTGACAACA GAAAAGAGAT GGAAGATTGG 
ATTGCAGCAC TGAAGACTGT CCAAAACCGT GAACATTTTG AGTCTACCCA GTACAGCATG 
GACCATTTCT CAGGGATGCA TAACTGGTAC GCCTGCTCCC ATGCCCGGCC AACGTACTGC 
AACGTGTGTC GGGAGGCCTT GTCTGGGGTC ACGTCACATG GGCTGTCCTG TGAAGTGTGC 
AAGTTTAAAG CCCACAAGCG CTGTGCTGTG CGGGCAACCA ACAATTGCAA GTGGACGACT 
CTGGCCTCTA TCGGGAAGGA TATCATTGAG GATGAAGATG GGATCTCAAT GCCACATCAG 
TGGCTGGAAG GAAACCTGCC CGTGAGTGCC AAATGCACTG TGTGTGATAA AACCTGTGGC 
AGTGTCCTGC GTTTGCAAGA CTGGCGCTGC CTGTGGTGCA AAGCCATGGT ACACACAGCA 
TGTAAAGAGT TGTTGCCAAA CAAGTGCCCT CTTGGGCTCT GCAAAGTGTC TGTCATTCCT 
CCTACTGCTC TTAACAGCAT TGATTCAGAT GGTTTCTGGA AAGCCACCTG TCCCCCTTCT 
TGCACAAGCC CTTTGTTGGT CTTTGTCAAC TCAAAAAGTG GAGACAACCA AGGTGTAAAA 
TTTCTACGAA GATTCAAACA ACTGCTGAAT CCAGCCCAGG TCTTTGACCT CATGAATGGA 
GGACCTCACC TTGGTTTACG ATTATTCCAG AAATTTGACA CTTTCCGGAT TCTAGTTTGT 
GGTGGGGACG GAAGTGTTGG CTGGGTTCTC TCTGAAATTG ATAGCCTCAA CCTTCACAAG 
CAGTGCCAAC TAGGAGTGCT GCCCTTGGGA ACAGGGAATG ACCTTGCCCG TGTTTTAGGC 
TGGGGTTCTG CTTGTGATGA TGATACCCAG CTCCCGCAGA TCCTGGAGAA GTTGGAGAGG 
GCCAGTACCA AAATGCTGGA CAGGTGGAGC ATCATGGTGT ATGAAACCAA ACTCCCTCGC 
CAGGCCTCCA CTTCTACAGT CACTGAAGAC TGCAGTGAGA ATTCAGAGGT GCAGAAGATT 
CTCTGCTATG AAGATTCTGT GGCTGCTCAT CTGTCCAAAA TTTTGACTTC TGACCAACAC 
TCAGTGGTGA TCTCCTCAGC CAAAGTGCTT TGTGAGACAG TGAAGGATTT TGTGGCTCGA 
GTAGGGAAAG CCTATGAGAA GGCAACAGAA AGCTCAGAGG AGTCAGAGGT CATGGCCAGG 
AAGTGCTCTG TCCTGAAGGA GAAGCTGGAC TCATTGCTGA AGACACTGAA TGATGAATCT 
CAAGCGTCTT CCTCTCTGCC CAACCCTCCT CCCACCATTG CAGAGGAGAC GGAGGATGGG 
GATGGGTCGG GCAGTGCTGG TGACTCTTCA AGTGAGCTCT CGGTGGGCTC GGCTTGCACT 
GCACGGCCCC AGATATTCCG TCCCCGAGAG CAGCTCATGC TGAGAGCCAA CAGCTTGAAA 
AAAGCCATTC GCCAGATAAT AGAGCATGCA GAGAAAGCTG TAGATGAACA GAACGCTCAG 
ACCCAGGAGC AAGAGGGATT CCTCCTTAGT CTCTCAGCCT CTGAGGAAGG CAAGGAGCTG 
AGGAACGAAG ATAAAATTTC CATGCAGTCA TCACATAGCA GCAGCTATGG AGTGTCCAAG 
GGGAGGAGCC AGAGGAAAGC CTCCAAGTCT CCTTGTGAAA GACTAATAAA CAAAGGAAGT 
TTGTCACTGG GCAGCTCTGC ATCTCTTCCT CCCCAGACAG GAAGCCGGGA CAACTTGCCA 
ATGCTGAACA CAAAAATCCT CTACCCAAAT ATCCGTGCTG GCATGTCAGG TTCTTTGCCT 
GGGAGCTCTG TCATCAGCAG ATTGTTGATC CATGCTGATC CCTTTAACTC TGAGCCTGAA 
AATCTAGAAT GTTACACTGA GAAGTGTGTC ATGAATAATT ACTTTGGAAT TGGACTGGAT 
GCAAAGATTT CTTTGGACTT CAACAACAAA CGTGATGAGC ACCCAGAGAA ATGCAGAAGT 
CGTACTAAGA ATATGATGTG GTATGGAGTA TTGGGGACCA AGGAGCTGCT GCACAGAACA 
TATAAAAACC TGGAGCAGAA GGTCTTGCTG GAGTGCGATG GGAGGCCAAT CCCTCTGCCC 
AGTCTCCAGG GGATTGCTGT ACTCAACATT CCCAGCTATG CAGGAGGCAC CAACTTCTGG 
GGGGGAACCA AGGAAGATGA TACATTTACA GCCCCTTCCT TCGATGACAA GATTTTGGAG 
GTGGTAGCCG TGTTTGGTAG CATGCAGATG GCAGTGTCAC GTGTGATAAA CCTACAGCAT 
CACCGGATTG CACAGTGCCG GACAGTAAAG ATAGCAATCC TTGGAGAAGA GGGAGTTCCC 
GTGCAAGTGG ATGGAGAAGC CTGGATCCAG CCTCCGGGTT ACATTTGGAT TGTTCATAAG 
AACAGGGCAC AGACCCTCAC CCGAGACAGG GCCTTTGAGA GCACCCTGAA GTCTTGGGAG 
GACAAGCAGA AGTGCGAGTT GTCACGACCC TCCTCTTTCT CTCTGCAACC AGAGATCATG 
TCTGAAGAAG AATCCACCCA GATCATCCAG TTTGGTCAAG CTGCAGGTGC TCTGATCCAC 
AGTATTCGGG AAATAGCACA ATCCTATCAG GACATGGAAC AGGAGCTTGC CCATGCTGTC 
AATGCCAGCT CCAAGTCTAT GGACAAAGTC TACGCTAAAT CCAAGTCTAC AGAGGGTCTG 
AACTGCAGCC TTGTTGTAGA GATGGTGAAT AATGTCAAAG CCCTGCACAA TGAGACAGAG 
CTGCTGCTGG CAGGCAAGAT GGCACTGCAA TTAGATCCTC CACAGAAGGA GCAGCTCCAG 
GCAGCCCTGG CAGACATGGA CCTCCAACTG AGGAAACTGG CAGACATCCC TTGGCTGTGG 
CAGCTTATGG AGCCCTGTGA TGAGGAGAAC CAGATGCTGG ATTATTCTAA ACGCAGCCGC 
AGTGGCAAAT TCCGTCTGGT GACCAAATTT AAAAAGGAGA AGAACAACAA AAATAAGGAG 
TCTCACAGTA GCATGGGATT GCCGGTTCAC CTCTGGGGAA CGGAGGAGGT TGCGGCGTGG 
CTTGAGCACC TCAGTCTTTG TGAGTATAAG GATATCTTCA TCCGGCATGA CGTCCGGGGC 
TCTGAGCTCC TGCACCTTGA ACGGAGGGAC CTCAAGGACC TGGGTGTGAC CAAAGTGGGT 
CATATGAAGA GGATACTGCA CGGGATCAAG GAGCTGAGCC GGAGTACTCC TGCCAGCGAG 
GCTTAG

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

DGKD ( XM_030279981.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135841.1 Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X9, mRNA.

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CloneID	OTd51636
Clone ID Related Accession (Same CDS sequence)	XM_030279981.1 , XM_030279982.1 , XM_030279979.1
Accession Version	XM_030279981.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3258bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	diacylglycerol kinase delta isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAAGATT GGATTGCAGC ACTGAAGACT GTCCAAAACC GTGAACATTT TGAGTCTACC 
CAGTACAGCA TGGACCATTT CTCAGGGATG CATAACTGGT ACGCCTGCTC CCATGCCCGG 
CCAACGTACT GCAACGTGTG TCGGGAGGCC TTGTCTGGGG TCACGTCACA TGGGCTGTCC 
TGTGAAGTGT GCAAGTTTAA AGCCCACAAG CGCTGTGCTG TGCGGGCAAC CAACAATTGC 
AAGTGGACGA CTCTGGCCTC TATCGGGAAG GATATCATTG AGGATGAAGA TGGGATCTCA 
ATGCCACATC AGTGGCTGGA AGGAAACCTG CCCGTGAGTG CCAAATGCAC TGTGTGTGAT 
AAAACCTGTG GCAGTGTCCT GCGTTTGCAA GACTGGCGCT GCCTGTGGTG CAAAGCCATG 
GTACACACAG CATGTAAAGA GTTGTTGCCA AACAAGTGCC CTCTTGGGCT CTGCAAAGTG 
TCTGTCATTC CTCCTACTGC TCTTAACAGC ATTGATTCAG ATGGTTTCTG GAAAGCCACC 
TGTCCCCCTT CTTGCACAAG CCCTTTGTTG GTCTTTGTCA ACTCAAAAAG TGGAGACAAC 
CAAGGTGTAA AATTTCTACG AAGATTCAAA CAACTGCTGA ATCCAGCCCA GGTCTTTGAC 
CTCATGAATG GAGGACCTCA CCTTGGTTTA CGATTATTCC AGAAATTTGA CACTTTCCGG 
ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT GGCTGGGTTC TCTCTGAAAT TGATAGCCTC 
AACCTTCACA AGCAGTGCCA ACTAGGAGTG CTGCCCTTGG GAACAGGGAA TGACCTTGCC 
CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT GATGATACCC AGCTCCCGCA GATCCTGGAG 
AAGTTGGAGA GGGCCAGTAC CAAAATGCTG GACAGGTGGA GCATCATGGT GTATGAAACC 
AAACTCCCTC GCCAGGCCTC CACTTCTACA GTCACTGAAG ACTGCAGTGA GAATTCAGAG 
GTGCAGAAGA TTCTCTGCTA TGAAGATTCT GTGGCTGCTC ATCTGTCCAA AATTTTGACT 
TCTGACCAAC ACTCAGTGGT GATCTCCTCA GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT 
TTTGTGGCTC GAGTAGGGAA AGCCTATGAG AAGGCAACAG AAAGCTCAGA GGAGTCAGAG 
GTCATGGCCA GGAAGTGCTC TGTCCTGAAG GAGAAGCTGG ACTCATTGCT GAAGACACTG 
AATGATGAAT CTCAAGCGTC TTCCTCTCTG CCCAACCCTC CTCCCACCAT TGCAGAGGAG 
ACGGAGGATG GGGATGGGTC GGGCAGTGCT GGTGACTCTT CAAGTGAGCT CTCGGTGGGC 
TCGGCTTGCA CTGCACGGCC CCAGATATTC CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC 
AACAGCTTGA AAAAAGCCAT TCGCCAGATA ATAGAGCATG CAGAGAAAGC TGTAGATGAA 
CAGAACGCTC AGACCCAGGA GCAAGAGGGA TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA 
GGCAAGGAGC TGAGGAACGA AGATAAAATT TCCATGCAGT CATCACATAG CAGCAGCTAT 
GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA GCCTCCAAGT CTCCTTGTGA AAGACTAATA 
AACAAAGGAA GTTTGTCACT GGGCAGCTCT GCATCTCTTC CTCCCCAGAC AGGAAGCCGG 
GACAACTTGC CAATGCTGAA CACAAAAATC CTCTACCCAA ATATCCGTGC TGGCATGTCA 
GGTTCTTTGC CTGGGAGCTC TGTCATCAGC AGATTGTTGA TCCATGCTGA TCCCTTTAAC 
TCTGAGCCTG AAAATCTAGA ATGTTACACT GAGAAGTGTG TCATGAATAA TTACTTTGGA 
ATTGGACTGG ATGCAAAGAT TTCTTTGGAC TTCAACAACA AACGTGATGA GCACCCAGAG 
AAATGCAGAA GTCGTACTAA GAATATGATG TGGTATGGAG TATTGGGGAC CAAGGAGCTG 
CTGCACAGAA CATATAAAAA CCTGGAGCAG AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA 
ATCCCTCTGC CCAGTCTCCA GGGGATTGCT GTACTCAACA TTCCCAGCTA TGCAGGAGGC 
ACCAACTTCT GGGGGGGAAC CAAGGAAGAT GATACATTTA CAGCCCCTTC CTTCGATGAC 
AAGATTTTGG AGGTGGTAGC CGTGTTTGGT AGCATGCAGA TGGCAGTGTC ACGTGTGATA 
AACCTACAGC ATCACCGGAT TGCACAGTGC CGGACAGTAA AGATAGCAAT CCTTGGAGAA 
GAGGGAGTTC CCGTGCAAGT GGATGGAGAA GCCTGGATCC AGCCTCCGGG TTACATTTGG 
ATTGTTCATA AGAACAGGGC ACAGACCCTC ACCCGAGACA GGGCCTTTGA GAGCACCCTG 
AAGTCTTGGG AGGACAAGCA GAAGTGCGAG TTGTCACGAC CCTCCTCTTT CTCTCTGCAA 
CCAGAGATCA TGTCTGAAGA AGAATCCACC CAGATCATCC AGTTTGGTCA AGCTGCAGGT 
GCTCTGATCC ACAGTATTCG GGAAATAGCA CAATCCTATC AGGACATGGA ACAGGAGCTT 
GCCCATGCTG TCAATGCCAG CTCCAAGTCT ATGGACAAAG TCTACGCTAA ATCCAAGTCT 
ACAGAGGGTC TGAACTGCAG CCTTGTTGTA GAGATGGTGA ATAATGTCAA AGCCCTGCAC 
AATGAGACAG AGCTGCTGCT GGCAGGCAAG ATGGCACTGC AATTAGATCC TCCACAGAAG 
GAGCAGCTCC AGGCAGCCCT GGCAGACATG GACCTCCAAC TGAGGAAACT GGCAGACATC 
CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT GATGAGGAGA ACCAGATGCT GGATTATTCT 
AAACGCAGCC GCAGTGGCAA ATTCCGTCTG GTGACCAAAT TTAAAAAGGA GAAGAACAAC 
AAAAATAAGG AGTCTCACAG TAGCATGGGA TTGCCGGTTC ACCTCTGGGG AACGGAGGAG 
GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT TGTGAGTATA AGGATATCTT CATCCGGCAT 
GACGTCCGGG GCTCTGAGCT CCTGCACCTT GAACGGAGGG ACCTCAAGGA CCTGGGTGTG 
ACCAAAGTGG GTCATATGAA GAGGATACTG CACGGGATCA AGGAGCTGAG CCGGAGTACT 
CCTGCCAGCG AGGCTTAG

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

RefSeq	XP_030135841.1
CDS	358..3615
Translation	MEDWIAALKTVQNREHFESTQYSMDHFSGMHNWYACSHARPTYCNVCREALSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGISMPHQWLEGNLPVSAKCTVCDKTCGSVLRLQDWRCLWCKAMVHTACKELLPNKCPLGLCKVSVIPPTALNSIDSDGFWKATCPPSCTSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDTFRILVCGGDGSVGWVLSEIDSLNLHKQCQLGVLPLGTGNDLARVLGWGSACDDDTQLPQILEKLERASTKMLDRWSIMVYETKLPRQASTSTVTEDCSENSEVQKILCYEDSVAAHLSKILTSDQHSVVISSAKVLCETVKDFVARVGKAYEKATESSEESEVMARKCSVLKEKLDSLLKTLNDESQASSSLPNPPPTIAEETEDGDGSGSAGDSSSELSVGSACTARPQIFRPREQLMLRANSLKKAIRQIIEHAEKAVDEQNAQTQEQEGFLLSLSASEEGKELRNEDKISMQSSHSSSYGVSKGRSQRKASKSPCERLINKGSLSLGSSASLPPQTGSRDNLPMLNTKILYPNIRAGMSGSLPGSSVISRLLIHADPFNSEPENLECYTEKCVMNNYFGIGLDAKISLDFNNKRDEHPEKCRSRTKNMMWYGVLGTKELLHRTYKNLEQKVLLECDGRPIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDTFTAPSFDDKILEVVAVFGSMQMAVSRVINLQHHRIAQCRTVKIAILGEEGVPVQVDGEAWIQPPGYIWIVHKNRAQTLTRDRAFESTLKSWEDKQKCELSRPSSFSLQPEIMSEEESTQIIQFGQAAGALIHSIREIAQSYQDMEQELAHAVNASSKSMDKVYAKSKSTEGLNCSLVVEMVNNVKALHNETELLLAGKMALQLDPPQKEQLQAALADMDLQLRKLADIPWLWQLMEPCDEENQMLDYSKRSRSGKFRLVTKFKKEKNNKNKESHSSMGLPVHLWGTEEVAAWLEHLSLCEYKDIFIRHDVRGSELLHLERRDLKDLGVTKVGHMKRILHGIKELSRSTPASEA

Target ORF information:

RefSeq Version	XM_030279981.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X9, mRNA.

Target ORF information:

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

XM_030279981.1

ORF Insert Sequence:

ATGGAAGATT GGATTGCAGC ACTGAAGACT GTCCAAAACC GTGAACATTT TGAGTCTACC 
CAGTACAGCA TGGACCATTT CTCAGGGATG CATAACTGGT ACGCCTGCTC CCATGCCCGG 
CCAACGTACT GCAACGTGTG TCGGGAGGCC TTGTCTGGGG TCACGTCACA TGGGCTGTCC 
TGTGAAGTGT GCAAGTTTAA AGCCCACAAG CGCTGTGCTG TGCGGGCAAC CAACAATTGC 
AAGTGGACGA CTCTGGCCTC TATCGGGAAG GATATCATTG AGGATGAAGA TGGGATCTCA 
ATGCCACATC AGTGGCTGGA AGGAAACCTG CCCGTGAGTG CCAAATGCAC TGTGTGTGAT 
AAAACCTGTG GCAGTGTCCT GCGTTTGCAA GACTGGCGCT GCCTGTGGTG CAAAGCCATG 
GTACACACAG CATGTAAAGA GTTGTTGCCA AACAAGTGCC CTCTTGGGCT CTGCAAAGTG 
TCTGTCATTC CTCCTACTGC TCTTAACAGC ATTGATTCAG ATGGTTTCTG GAAAGCCACC 
TGTCCCCCTT CTTGCACAAG CCCTTTGTTG GTCTTTGTCA ACTCAAAAAG TGGAGACAAC 
CAAGGTGTAA AATTTCTACG AAGATTCAAA CAACTGCTGA ATCCAGCCCA GGTCTTTGAC 
CTCATGAATG GAGGACCTCA CCTTGGTTTA CGATTATTCC AGAAATTTGA CACTTTCCGG 
ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT GGCTGGGTTC TCTCTGAAAT TGATAGCCTC 
AACCTTCACA AGCAGTGCCA ACTAGGAGTG CTGCCCTTGG GAACAGGGAA TGACCTTGCC 
CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT GATGATACCC AGCTCCCGCA GATCCTGGAG 
AAGTTGGAGA GGGCCAGTAC CAAAATGCTG GACAGGTGGA GCATCATGGT GTATGAAACC 
AAACTCCCTC GCCAGGCCTC CACTTCTACA GTCACTGAAG ACTGCAGTGA GAATTCAGAG 
GTGCAGAAGA TTCTCTGCTA TGAAGATTCT GTGGCTGCTC ATCTGTCCAA AATTTTGACT 
TCTGACCAAC ACTCAGTGGT GATCTCCTCA GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT 
TTTGTGGCTC GAGTAGGGAA AGCCTATGAG AAGGCAACAG AAAGCTCAGA GGAGTCAGAG 
GTCATGGCCA GGAAGTGCTC TGTCCTGAAG GAGAAGCTGG ACTCATTGCT GAAGACACTG 
AATGATGAAT CTCAAGCGTC TTCCTCTCTG CCCAACCCTC CTCCCACCAT TGCAGAGGAG 
ACGGAGGATG GGGATGGGTC GGGCAGTGCT GGTGACTCTT CAAGTGAGCT CTCGGTGGGC 
TCGGCTTGCA CTGCACGGCC CCAGATATTC CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC 
AACAGCTTGA AAAAAGCCAT TCGCCAGATA ATAGAGCATG CAGAGAAAGC TGTAGATGAA 
CAGAACGCTC AGACCCAGGA GCAAGAGGGA TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA 
GGCAAGGAGC TGAGGAACGA AGATAAAATT TCCATGCAGT CATCACATAG CAGCAGCTAT 
GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA GCCTCCAAGT CTCCTTGTGA AAGACTAATA 
AACAAAGGAA GTTTGTCACT GGGCAGCTCT GCATCTCTTC CTCCCCAGAC AGGAAGCCGG 
GACAACTTGC CAATGCTGAA CACAAAAATC CTCTACCCAA ATATCCGTGC TGGCATGTCA 
GGTTCTTTGC CTGGGAGCTC TGTCATCAGC AGATTGTTGA TCCATGCTGA TCCCTTTAAC 
TCTGAGCCTG AAAATCTAGA ATGTTACACT GAGAAGTGTG TCATGAATAA TTACTTTGGA 
ATTGGACTGG ATGCAAAGAT TTCTTTGGAC TTCAACAACA AACGTGATGA GCACCCAGAG 
AAATGCAGAA GTCGTACTAA GAATATGATG TGGTATGGAG TATTGGGGAC CAAGGAGCTG 
CTGCACAGAA CATATAAAAA CCTGGAGCAG AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA 
ATCCCTCTGC CCAGTCTCCA GGGGATTGCT GTACTCAACA TTCCCAGCTA TGCAGGAGGC 
ACCAACTTCT GGGGGGGAAC CAAGGAAGAT GATACATTTA CAGCCCCTTC CTTCGATGAC 
AAGATTTTGG AGGTGGTAGC CGTGTTTGGT AGCATGCAGA TGGCAGTGTC ACGTGTGATA 
AACCTACAGC ATCACCGGAT TGCACAGTGC CGGACAGTAA AGATAGCAAT CCTTGGAGAA 
GAGGGAGTTC CCGTGCAAGT GGATGGAGAA GCCTGGATCC AGCCTCCGGG TTACATTTGG 
ATTGTTCATA AGAACAGGGC ACAGACCCTC ACCCGAGACA GGGCCTTTGA GAGCACCCTG 
AAGTCTTGGG AGGACAAGCA GAAGTGCGAG TTGTCACGAC CCTCCTCTTT CTCTCTGCAA 
CCAGAGATCA TGTCTGAAGA AGAATCCACC CAGATCATCC AGTTTGGTCA AGCTGCAGGT 
GCTCTGATCC ACAGTATTCG GGAAATAGCA CAATCCTATC AGGACATGGA ACAGGAGCTT 
GCCCATGCTG TCAATGCCAG CTCCAAGTCT ATGGACAAAG TCTACGCTAA ATCCAAGTCT 
ACAGAGGGTC TGAACTGCAG CCTTGTTGTA GAGATGGTGA ATAATGTCAA AGCCCTGCAC 
AATGAGACAG AGCTGCTGCT GGCAGGCAAG ATGGCACTGC AATTAGATCC TCCACAGAAG 
GAGCAGCTCC AGGCAGCCCT GGCAGACATG GACCTCCAAC TGAGGAAACT GGCAGACATC 
CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT GATGAGGAGA ACCAGATGCT GGATTATTCT 
AAACGCAGCC GCAGTGGCAA ATTCCGTCTG GTGACCAAAT TTAAAAAGGA GAAGAACAAC 
AAAAATAAGG AGTCTCACAG TAGCATGGGA TTGCCGGTTC ACCTCTGGGG AACGGAGGAG 
GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT TGTGAGTATA AGGATATCTT CATCCGGCAT 
GACGTCCGGG GCTCTGAGCT CCTGCACCTT GAACGGAGGG ACCTCAAGGA CCTGGGTGTG 
ACCAAAGTGG GTCATATGAA GAGGATACTG CACGGGATCA AGGAGCTGAG CCGGAGTACT 
CCTGCCAGCG AGGCTTAG

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

DGKD ( XM_030279982.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135842.1 Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X10, mRNA.

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CloneID	OTd51636
Clone ID Related Accession (Same CDS sequence)	XM_030279981.1 , XM_030279982.1 , XM_030279979.1
Accession Version	XM_030279982.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3258bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	diacylglycerol kinase delta isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAAGATT GGATTGCAGC ACTGAAGACT GTCCAAAACC GTGAACATTT TGAGTCTACC 
CAGTACAGCA TGGACCATTT CTCAGGGATG CATAACTGGT ACGCCTGCTC CCATGCCCGG 
CCAACGTACT GCAACGTGTG TCGGGAGGCC TTGTCTGGGG TCACGTCACA TGGGCTGTCC 
TGTGAAGTGT GCAAGTTTAA AGCCCACAAG CGCTGTGCTG TGCGGGCAAC CAACAATTGC 
AAGTGGACGA CTCTGGCCTC TATCGGGAAG GATATCATTG AGGATGAAGA TGGGATCTCA 
ATGCCACATC AGTGGCTGGA AGGAAACCTG CCCGTGAGTG CCAAATGCAC TGTGTGTGAT 
AAAACCTGTG GCAGTGTCCT GCGTTTGCAA GACTGGCGCT GCCTGTGGTG CAAAGCCATG 
GTACACACAG CATGTAAAGA GTTGTTGCCA AACAAGTGCC CTCTTGGGCT CTGCAAAGTG 
TCTGTCATTC CTCCTACTGC TCTTAACAGC ATTGATTCAG ATGGTTTCTG GAAAGCCACC 
TGTCCCCCTT CTTGCACAAG CCCTTTGTTG GTCTTTGTCA ACTCAAAAAG TGGAGACAAC 
CAAGGTGTAA AATTTCTACG AAGATTCAAA CAACTGCTGA ATCCAGCCCA GGTCTTTGAC 
CTCATGAATG GAGGACCTCA CCTTGGTTTA CGATTATTCC AGAAATTTGA CACTTTCCGG 
ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT GGCTGGGTTC TCTCTGAAAT TGATAGCCTC 
AACCTTCACA AGCAGTGCCA ACTAGGAGTG CTGCCCTTGG GAACAGGGAA TGACCTTGCC 
CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT GATGATACCC AGCTCCCGCA GATCCTGGAG 
AAGTTGGAGA GGGCCAGTAC CAAAATGCTG GACAGGTGGA GCATCATGGT GTATGAAACC 
AAACTCCCTC GCCAGGCCTC CACTTCTACA GTCACTGAAG ACTGCAGTGA GAATTCAGAG 
GTGCAGAAGA TTCTCTGCTA TGAAGATTCT GTGGCTGCTC ATCTGTCCAA AATTTTGACT 
TCTGACCAAC ACTCAGTGGT GATCTCCTCA GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT 
TTTGTGGCTC GAGTAGGGAA AGCCTATGAG AAGGCAACAG AAAGCTCAGA GGAGTCAGAG 
GTCATGGCCA GGAAGTGCTC TGTCCTGAAG GAGAAGCTGG ACTCATTGCT GAAGACACTG 
AATGATGAAT CTCAAGCGTC TTCCTCTCTG CCCAACCCTC CTCCCACCAT TGCAGAGGAG 
ACGGAGGATG GGGATGGGTC GGGCAGTGCT GGTGACTCTT CAAGTGAGCT CTCGGTGGGC 
TCGGCTTGCA CTGCACGGCC CCAGATATTC CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC 
AACAGCTTGA AAAAAGCCAT TCGCCAGATA ATAGAGCATG CAGAGAAAGC TGTAGATGAA 
CAGAACGCTC AGACCCAGGA GCAAGAGGGA TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA 
GGCAAGGAGC TGAGGAACGA AGATAAAATT TCCATGCAGT CATCACATAG CAGCAGCTAT 
GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA GCCTCCAAGT CTCCTTGTGA AAGACTAATA 
AACAAAGGAA GTTTGTCACT GGGCAGCTCT GCATCTCTTC CTCCCCAGAC AGGAAGCCGG 
GACAACTTGC CAATGCTGAA CACAAAAATC CTCTACCCAA ATATCCGTGC TGGCATGTCA 
GGTTCTTTGC CTGGGAGCTC TGTCATCAGC AGATTGTTGA TCCATGCTGA TCCCTTTAAC 
TCTGAGCCTG AAAATCTAGA ATGTTACACT GAGAAGTGTG TCATGAATAA TTACTTTGGA 
ATTGGACTGG ATGCAAAGAT TTCTTTGGAC TTCAACAACA AACGTGATGA GCACCCAGAG 
AAATGCAGAA GTCGTACTAA GAATATGATG TGGTATGGAG TATTGGGGAC CAAGGAGCTG 
CTGCACAGAA CATATAAAAA CCTGGAGCAG AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA 
ATCCCTCTGC CCAGTCTCCA GGGGATTGCT GTACTCAACA TTCCCAGCTA TGCAGGAGGC 
ACCAACTTCT GGGGGGGAAC CAAGGAAGAT GATACATTTA CAGCCCCTTC CTTCGATGAC 
AAGATTTTGG AGGTGGTAGC CGTGTTTGGT AGCATGCAGA TGGCAGTGTC ACGTGTGATA 
AACCTACAGC ATCACCGGAT TGCACAGTGC CGGACAGTAA AGATAGCAAT CCTTGGAGAA 
GAGGGAGTTC CCGTGCAAGT GGATGGAGAA GCCTGGATCC AGCCTCCGGG TTACATTTGG 
ATTGTTCATA AGAACAGGGC ACAGACCCTC ACCCGAGACA GGGCCTTTGA GAGCACCCTG 
AAGTCTTGGG AGGACAAGCA GAAGTGCGAG TTGTCACGAC CCTCCTCTTT CTCTCTGCAA 
CCAGAGATCA TGTCTGAAGA AGAATCCACC CAGATCATCC AGTTTGGTCA AGCTGCAGGT 
GCTCTGATCC ACAGTATTCG GGAAATAGCA CAATCCTATC AGGACATGGA ACAGGAGCTT 
GCCCATGCTG TCAATGCCAG CTCCAAGTCT ATGGACAAAG TCTACGCTAA ATCCAAGTCT 
ACAGAGGGTC TGAACTGCAG CCTTGTTGTA GAGATGGTGA ATAATGTCAA AGCCCTGCAC 
AATGAGACAG AGCTGCTGCT GGCAGGCAAG ATGGCACTGC AATTAGATCC TCCACAGAAG 
GAGCAGCTCC AGGCAGCCCT GGCAGACATG GACCTCCAAC TGAGGAAACT GGCAGACATC 
CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT GATGAGGAGA ACCAGATGCT GGATTATTCT 
AAACGCAGCC GCAGTGGCAA ATTCCGTCTG GTGACCAAAT TTAAAAAGGA GAAGAACAAC 
AAAAATAAGG AGTCTCACAG TAGCATGGGA TTGCCGGTTC ACCTCTGGGG AACGGAGGAG 
GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT TGTGAGTATA AGGATATCTT CATCCGGCAT 
GACGTCCGGG GCTCTGAGCT CCTGCACCTT GAACGGAGGG ACCTCAAGGA CCTGGGTGTG 
ACCAAAGTGG GTCATATGAA GAGGATACTG CACGGGATCA AGGAGCTGAG CCGGAGTACT 
CCTGCCAGCG AGGCTTAG

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

RefSeq	XP_030135842.1
CDS	245..3502
Translation	MEDWIAALKTVQNREHFESTQYSMDHFSGMHNWYACSHARPTYCNVCREALSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGISMPHQWLEGNLPVSAKCTVCDKTCGSVLRLQDWRCLWCKAMVHTACKELLPNKCPLGLCKVSVIPPTALNSIDSDGFWKATCPPSCTSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDTFRILVCGGDGSVGWVLSEIDSLNLHKQCQLGVLPLGTGNDLARVLGWGSACDDDTQLPQILEKLERASTKMLDRWSIMVYETKLPRQASTSTVTEDCSENSEVQKILCYEDSVAAHLSKILTSDQHSVVISSAKVLCETVKDFVARVGKAYEKATESSEESEVMARKCSVLKEKLDSLLKTLNDESQASSSLPNPPPTIAEETEDGDGSGSAGDSSSELSVGSACTARPQIFRPREQLMLRANSLKKAIRQIIEHAEKAVDEQNAQTQEQEGFLLSLSASEEGKELRNEDKISMQSSHSSSYGVSKGRSQRKASKSPCERLINKGSLSLGSSASLPPQTGSRDNLPMLNTKILYPNIRAGMSGSLPGSSVISRLLIHADPFNSEPENLECYTEKCVMNNYFGIGLDAKISLDFNNKRDEHPEKCRSRTKNMMWYGVLGTKELLHRTYKNLEQKVLLECDGRPIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDTFTAPSFDDKILEVVAVFGSMQMAVSRVINLQHHRIAQCRTVKIAILGEEGVPVQVDGEAWIQPPGYIWIVHKNRAQTLTRDRAFESTLKSWEDKQKCELSRPSSFSLQPEIMSEEESTQIIQFGQAAGALIHSIREIAQSYQDMEQELAHAVNASSKSMDKVYAKSKSTEGLNCSLVVEMVNNVKALHNETELLLAGKMALQLDPPQKEQLQAALADMDLQLRKLADIPWLWQLMEPCDEENQMLDYSKRSRSGKFRLVTKFKKEKNNKNKESHSSMGLPVHLWGTEEVAAWLEHLSLCEYKDIFIRHDVRGSELLHLERRDLKDLGVTKVGHMKRILHGIKELSRSTPASEA

Target ORF information:

RefSeq Version	XM_030279982.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X10, mRNA.

Target ORF information:

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

XM_030279982.1

ORF Insert Sequence:

ATGGAAGATT GGATTGCAGC ACTGAAGACT GTCCAAAACC GTGAACATTT TGAGTCTACC 
CAGTACAGCA TGGACCATTT CTCAGGGATG CATAACTGGT ACGCCTGCTC CCATGCCCGG 
CCAACGTACT GCAACGTGTG TCGGGAGGCC TTGTCTGGGG TCACGTCACA TGGGCTGTCC 
TGTGAAGTGT GCAAGTTTAA AGCCCACAAG CGCTGTGCTG TGCGGGCAAC CAACAATTGC 
AAGTGGACGA CTCTGGCCTC TATCGGGAAG GATATCATTG AGGATGAAGA TGGGATCTCA 
ATGCCACATC AGTGGCTGGA AGGAAACCTG CCCGTGAGTG CCAAATGCAC TGTGTGTGAT 
AAAACCTGTG GCAGTGTCCT GCGTTTGCAA GACTGGCGCT GCCTGTGGTG CAAAGCCATG 
GTACACACAG CATGTAAAGA GTTGTTGCCA AACAAGTGCC CTCTTGGGCT CTGCAAAGTG 
TCTGTCATTC CTCCTACTGC TCTTAACAGC ATTGATTCAG ATGGTTTCTG GAAAGCCACC 
TGTCCCCCTT CTTGCACAAG CCCTTTGTTG GTCTTTGTCA ACTCAAAAAG TGGAGACAAC 
CAAGGTGTAA AATTTCTACG AAGATTCAAA CAACTGCTGA ATCCAGCCCA GGTCTTTGAC 
CTCATGAATG GAGGACCTCA CCTTGGTTTA CGATTATTCC AGAAATTTGA CACTTTCCGG 
ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT GGCTGGGTTC TCTCTGAAAT TGATAGCCTC 
AACCTTCACA AGCAGTGCCA ACTAGGAGTG CTGCCCTTGG GAACAGGGAA TGACCTTGCC 
CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT GATGATACCC AGCTCCCGCA GATCCTGGAG 
AAGTTGGAGA GGGCCAGTAC CAAAATGCTG GACAGGTGGA GCATCATGGT GTATGAAACC 
AAACTCCCTC GCCAGGCCTC CACTTCTACA GTCACTGAAG ACTGCAGTGA GAATTCAGAG 
GTGCAGAAGA TTCTCTGCTA TGAAGATTCT GTGGCTGCTC ATCTGTCCAA AATTTTGACT 
TCTGACCAAC ACTCAGTGGT GATCTCCTCA GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT 
TTTGTGGCTC GAGTAGGGAA AGCCTATGAG AAGGCAACAG AAAGCTCAGA GGAGTCAGAG 
GTCATGGCCA GGAAGTGCTC TGTCCTGAAG GAGAAGCTGG ACTCATTGCT GAAGACACTG 
AATGATGAAT CTCAAGCGTC TTCCTCTCTG CCCAACCCTC CTCCCACCAT TGCAGAGGAG 
ACGGAGGATG GGGATGGGTC GGGCAGTGCT GGTGACTCTT CAAGTGAGCT CTCGGTGGGC 
TCGGCTTGCA CTGCACGGCC CCAGATATTC CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC 
AACAGCTTGA AAAAAGCCAT TCGCCAGATA ATAGAGCATG CAGAGAAAGC TGTAGATGAA 
CAGAACGCTC AGACCCAGGA GCAAGAGGGA TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA 
GGCAAGGAGC TGAGGAACGA AGATAAAATT TCCATGCAGT CATCACATAG CAGCAGCTAT 
GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA GCCTCCAAGT CTCCTTGTGA AAGACTAATA 
AACAAAGGAA GTTTGTCACT GGGCAGCTCT GCATCTCTTC CTCCCCAGAC AGGAAGCCGG 
GACAACTTGC CAATGCTGAA CACAAAAATC CTCTACCCAA ATATCCGTGC TGGCATGTCA 
GGTTCTTTGC CTGGGAGCTC TGTCATCAGC AGATTGTTGA TCCATGCTGA TCCCTTTAAC 
TCTGAGCCTG AAAATCTAGA ATGTTACACT GAGAAGTGTG TCATGAATAA TTACTTTGGA 
ATTGGACTGG ATGCAAAGAT TTCTTTGGAC TTCAACAACA AACGTGATGA GCACCCAGAG 
AAATGCAGAA GTCGTACTAA GAATATGATG TGGTATGGAG TATTGGGGAC CAAGGAGCTG 
CTGCACAGAA CATATAAAAA CCTGGAGCAG AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA 
ATCCCTCTGC CCAGTCTCCA GGGGATTGCT GTACTCAACA TTCCCAGCTA TGCAGGAGGC 
ACCAACTTCT GGGGGGGAAC CAAGGAAGAT GATACATTTA CAGCCCCTTC CTTCGATGAC 
AAGATTTTGG AGGTGGTAGC CGTGTTTGGT AGCATGCAGA TGGCAGTGTC ACGTGTGATA 
AACCTACAGC ATCACCGGAT TGCACAGTGC CGGACAGTAA AGATAGCAAT CCTTGGAGAA 
GAGGGAGTTC CCGTGCAAGT GGATGGAGAA GCCTGGATCC AGCCTCCGGG TTACATTTGG 
ATTGTTCATA AGAACAGGGC ACAGACCCTC ACCCGAGACA GGGCCTTTGA GAGCACCCTG 
AAGTCTTGGG AGGACAAGCA GAAGTGCGAG TTGTCACGAC CCTCCTCTTT CTCTCTGCAA 
CCAGAGATCA TGTCTGAAGA AGAATCCACC CAGATCATCC AGTTTGGTCA AGCTGCAGGT 
GCTCTGATCC ACAGTATTCG GGAAATAGCA CAATCCTATC AGGACATGGA ACAGGAGCTT 
GCCCATGCTG TCAATGCCAG CTCCAAGTCT ATGGACAAAG TCTACGCTAA ATCCAAGTCT 
ACAGAGGGTC TGAACTGCAG CCTTGTTGTA GAGATGGTGA ATAATGTCAA AGCCCTGCAC 
AATGAGACAG AGCTGCTGCT GGCAGGCAAG ATGGCACTGC AATTAGATCC TCCACAGAAG 
GAGCAGCTCC AGGCAGCCCT GGCAGACATG GACCTCCAAC TGAGGAAACT GGCAGACATC 
CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT GATGAGGAGA ACCAGATGCT GGATTATTCT 
AAACGCAGCC GCAGTGGCAA ATTCCGTCTG GTGACCAAAT TTAAAAAGGA GAAGAACAAC 
AAAAATAAGG AGTCTCACAG TAGCATGGGA TTGCCGGTTC ACCTCTGGGG AACGGAGGAG 
GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT TGTGAGTATA AGGATATCTT CATCCGGCAT 
GACGTCCGGG GCTCTGAGCT CCTGCACCTT GAACGGAGGG ACCTCAAGGA CCTGGGTGTG 
ACCAAAGTGG GTCATATGAA GAGGATACTG CACGGGATCA AGGAGCTGAG CCGGAGTACT 
CCTGCCAGCG AGGCTTAG

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

DGKD ( XM_030279979.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030135839.1 Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X7, mRNA.

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CloneID	OTd51636
Clone ID Related Accession (Same CDS sequence)	XM_030279981.1 , XM_030279982.1 , XM_030279979.1
Accession Version	XM_030279979.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3258bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	diacylglycerol kinase delta isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAAGATT GGATTGCAGC ACTGAAGACT GTCCAAAACC GTGAACATTT TGAGTCTACC 
CAGTACAGCA TGGACCATTT CTCAGGGATG CATAACTGGT ACGCCTGCTC CCATGCCCGG 
CCAACGTACT GCAACGTGTG TCGGGAGGCC TTGTCTGGGG TCACGTCACA TGGGCTGTCC 
TGTGAAGTGT GCAAGTTTAA AGCCCACAAG CGCTGTGCTG TGCGGGCAAC CAACAATTGC 
AAGTGGACGA CTCTGGCCTC TATCGGGAAG GATATCATTG AGGATGAAGA TGGGATCTCA 
ATGCCACATC AGTGGCTGGA AGGAAACCTG CCCGTGAGTG CCAAATGCAC TGTGTGTGAT 
AAAACCTGTG GCAGTGTCCT GCGTTTGCAA GACTGGCGCT GCCTGTGGTG CAAAGCCATG 
GTACACACAG CATGTAAAGA GTTGTTGCCA AACAAGTGCC CTCTTGGGCT CTGCAAAGTG 
TCTGTCATTC CTCCTACTGC TCTTAACAGC ATTGATTCAG ATGGTTTCTG GAAAGCCACC 
TGTCCCCCTT CTTGCACAAG CCCTTTGTTG GTCTTTGTCA ACTCAAAAAG TGGAGACAAC 
CAAGGTGTAA AATTTCTACG AAGATTCAAA CAACTGCTGA ATCCAGCCCA GGTCTTTGAC 
CTCATGAATG GAGGACCTCA CCTTGGTTTA CGATTATTCC AGAAATTTGA CACTTTCCGG 
ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT GGCTGGGTTC TCTCTGAAAT TGATAGCCTC 
AACCTTCACA AGCAGTGCCA ACTAGGAGTG CTGCCCTTGG GAACAGGGAA TGACCTTGCC 
CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT GATGATACCC AGCTCCCGCA GATCCTGGAG 
AAGTTGGAGA GGGCCAGTAC CAAAATGCTG GACAGGTGGA GCATCATGGT GTATGAAACC 
AAACTCCCTC GCCAGGCCTC CACTTCTACA GTCACTGAAG ACTGCAGTGA GAATTCAGAG 
GTGCAGAAGA TTCTCTGCTA TGAAGATTCT GTGGCTGCTC ATCTGTCCAA AATTTTGACT 
TCTGACCAAC ACTCAGTGGT GATCTCCTCA GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT 
TTTGTGGCTC GAGTAGGGAA AGCCTATGAG AAGGCAACAG AAAGCTCAGA GGAGTCAGAG 
GTCATGGCCA GGAAGTGCTC TGTCCTGAAG GAGAAGCTGG ACTCATTGCT GAAGACACTG 
AATGATGAAT CTCAAGCGTC TTCCTCTCTG CCCAACCCTC CTCCCACCAT TGCAGAGGAG 
ACGGAGGATG GGGATGGGTC GGGCAGTGCT GGTGACTCTT CAAGTGAGCT CTCGGTGGGC 
TCGGCTTGCA CTGCACGGCC CCAGATATTC CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC 
AACAGCTTGA AAAAAGCCAT TCGCCAGATA ATAGAGCATG CAGAGAAAGC TGTAGATGAA 
CAGAACGCTC AGACCCAGGA GCAAGAGGGA TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA 
GGCAAGGAGC TGAGGAACGA AGATAAAATT TCCATGCAGT CATCACATAG CAGCAGCTAT 
GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA GCCTCCAAGT CTCCTTGTGA AAGACTAATA 
AACAAAGGAA GTTTGTCACT GGGCAGCTCT GCATCTCTTC CTCCCCAGAC AGGAAGCCGG 
GACAACTTGC CAATGCTGAA CACAAAAATC CTCTACCCAA ATATCCGTGC TGGCATGTCA 
GGTTCTTTGC CTGGGAGCTC TGTCATCAGC AGATTGTTGA TCCATGCTGA TCCCTTTAAC 
TCTGAGCCTG AAAATCTAGA ATGTTACACT GAGAAGTGTG TCATGAATAA TTACTTTGGA 
ATTGGACTGG ATGCAAAGAT TTCTTTGGAC TTCAACAACA AACGTGATGA GCACCCAGAG 
AAATGCAGAA GTCGTACTAA GAATATGATG TGGTATGGAG TATTGGGGAC CAAGGAGCTG 
CTGCACAGAA CATATAAAAA CCTGGAGCAG AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA 
ATCCCTCTGC CCAGTCTCCA GGGGATTGCT GTACTCAACA TTCCCAGCTA TGCAGGAGGC 
ACCAACTTCT GGGGGGGAAC CAAGGAAGAT GATACATTTA CAGCCCCTTC CTTCGATGAC 
AAGATTTTGG AGGTGGTAGC CGTGTTTGGT AGCATGCAGA TGGCAGTGTC ACGTGTGATA 
AACCTACAGC ATCACCGGAT TGCACAGTGC CGGACAGTAA AGATAGCAAT CCTTGGAGAA 
GAGGGAGTTC CCGTGCAAGT GGATGGAGAA GCCTGGATCC AGCCTCCGGG TTACATTTGG 
ATTGTTCATA AGAACAGGGC ACAGACCCTC ACCCGAGACA GGGCCTTTGA GAGCACCCTG 
AAGTCTTGGG AGGACAAGCA GAAGTGCGAG TTGTCACGAC CCTCCTCTTT CTCTCTGCAA 
CCAGAGATCA TGTCTGAAGA AGAATCCACC CAGATCATCC AGTTTGGTCA AGCTGCAGGT 
GCTCTGATCC ACAGTATTCG GGAAATAGCA CAATCCTATC AGGACATGGA ACAGGAGCTT 
GCCCATGCTG TCAATGCCAG CTCCAAGTCT ATGGACAAAG TCTACGCTAA ATCCAAGTCT 
ACAGAGGGTC TGAACTGCAG CCTTGTTGTA GAGATGGTGA ATAATGTCAA AGCCCTGCAC 
AATGAGACAG AGCTGCTGCT GGCAGGCAAG ATGGCACTGC AATTAGATCC TCCACAGAAG 
GAGCAGCTCC AGGCAGCCCT GGCAGACATG GACCTCCAAC TGAGGAAACT GGCAGACATC 
CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT GATGAGGAGA ACCAGATGCT GGATTATTCT 
AAACGCAGCC GCAGTGGCAA ATTCCGTCTG GTGACCAAAT TTAAAAAGGA GAAGAACAAC 
AAAAATAAGG AGTCTCACAG TAGCATGGGA TTGCCGGTTC ACCTCTGGGG AACGGAGGAG 
GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT TGTGAGTATA AGGATATCTT CATCCGGCAT 
GACGTCCGGG GCTCTGAGCT CCTGCACCTT GAACGGAGGG ACCTCAAGGA CCTGGGTGTG 
ACCAAAGTGG GTCATATGAA GAGGATACTG CACGGGATCA AGGAGCTGAG CCGGAGTACT 
CCTGCCAGCG AGGCTTAG

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

RefSeq	XP_030135839.1
CDS	238..3495
Translation	MEDWIAALKTVQNREHFESTQYSMDHFSGMHNWYACSHARPTYCNVCREALSGVTSHGLSCEVCKFKAHKRCAVRATNNCKWTTLASIGKDIIEDEDGISMPHQWLEGNLPVSAKCTVCDKTCGSVLRLQDWRCLWCKAMVHTACKELLPNKCPLGLCKVSVIPPTALNSIDSDGFWKATCPPSCTSPLLVFVNSKSGDNQGVKFLRRFKQLLNPAQVFDLMNGGPHLGLRLFQKFDTFRILVCGGDGSVGWVLSEIDSLNLHKQCQLGVLPLGTGNDLARVLGWGSACDDDTQLPQILEKLERASTKMLDRWSIMVYETKLPRQASTSTVTEDCSENSEVQKILCYEDSVAAHLSKILTSDQHSVVISSAKVLCETVKDFVARVGKAYEKATESSEESEVMARKCSVLKEKLDSLLKTLNDESQASSSLPNPPPTIAEETEDGDGSGSAGDSSSELSVGSACTARPQIFRPREQLMLRANSLKKAIRQIIEHAEKAVDEQNAQTQEQEGFLLSLSASEEGKELRNEDKISMQSSHSSSYGVSKGRSQRKASKSPCERLINKGSLSLGSSASLPPQTGSRDNLPMLNTKILYPNIRAGMSGSLPGSSVISRLLIHADPFNSEPENLECYTEKCVMNNYFGIGLDAKISLDFNNKRDEHPEKCRSRTKNMMWYGVLGTKELLHRTYKNLEQKVLLECDGRPIPLPSLQGIAVLNIPSYAGGTNFWGGTKEDDTFTAPSFDDKILEVVAVFGSMQMAVSRVINLQHHRIAQCRTVKIAILGEEGVPVQVDGEAWIQPPGYIWIVHKNRAQTLTRDRAFESTLKSWEDKQKCELSRPSSFSLQPEIMSEEESTQIIQFGQAAGALIHSIREIAQSYQDMEQELAHAVNASSKSMDKVYAKSKSTEGLNCSLVVEMVNNVKALHNETELLLAGKMALQLDPPQKEQLQAALADMDLQLRKLADIPWLWQLMEPCDEENQMLDYSKRSRSGKFRLVTKFKKEKNNKNKESHSSMGLPVHLWGTEEVAAWLEHLSLCEYKDIFIRHDVRGSELLHLERRDLKDLGVTKVGHMKRILHGIKELSRSTPASEA

Target ORF information:

RefSeq Version	XM_030279979.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata diacylglycerol kinase delta (DGKD), transcript variant X7, mRNA.

Target ORF information:

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

XM_030279979.1

ORF Insert Sequence:

ATGGAAGATT GGATTGCAGC ACTGAAGACT GTCCAAAACC GTGAACATTT TGAGTCTACC 
CAGTACAGCA TGGACCATTT CTCAGGGATG CATAACTGGT ACGCCTGCTC CCATGCCCGG 
CCAACGTACT GCAACGTGTG TCGGGAGGCC TTGTCTGGGG TCACGTCACA TGGGCTGTCC 
TGTGAAGTGT GCAAGTTTAA AGCCCACAAG CGCTGTGCTG TGCGGGCAAC CAACAATTGC 
AAGTGGACGA CTCTGGCCTC TATCGGGAAG GATATCATTG AGGATGAAGA TGGGATCTCA 
ATGCCACATC AGTGGCTGGA AGGAAACCTG CCCGTGAGTG CCAAATGCAC TGTGTGTGAT 
AAAACCTGTG GCAGTGTCCT GCGTTTGCAA GACTGGCGCT GCCTGTGGTG CAAAGCCATG 
GTACACACAG CATGTAAAGA GTTGTTGCCA AACAAGTGCC CTCTTGGGCT CTGCAAAGTG 
TCTGTCATTC CTCCTACTGC TCTTAACAGC ATTGATTCAG ATGGTTTCTG GAAAGCCACC 
TGTCCCCCTT CTTGCACAAG CCCTTTGTTG GTCTTTGTCA ACTCAAAAAG TGGAGACAAC 
CAAGGTGTAA AATTTCTACG AAGATTCAAA CAACTGCTGA ATCCAGCCCA GGTCTTTGAC 
CTCATGAATG GAGGACCTCA CCTTGGTTTA CGATTATTCC AGAAATTTGA CACTTTCCGG 
ATTCTAGTTT GTGGTGGGGA CGGAAGTGTT GGCTGGGTTC TCTCTGAAAT TGATAGCCTC 
AACCTTCACA AGCAGTGCCA ACTAGGAGTG CTGCCCTTGG GAACAGGGAA TGACCTTGCC 
CGTGTTTTAG GCTGGGGTTC TGCTTGTGAT GATGATACCC AGCTCCCGCA GATCCTGGAG 
AAGTTGGAGA GGGCCAGTAC CAAAATGCTG GACAGGTGGA GCATCATGGT GTATGAAACC 
AAACTCCCTC GCCAGGCCTC CACTTCTACA GTCACTGAAG ACTGCAGTGA GAATTCAGAG 
GTGCAGAAGA TTCTCTGCTA TGAAGATTCT GTGGCTGCTC ATCTGTCCAA AATTTTGACT 
TCTGACCAAC ACTCAGTGGT GATCTCCTCA GCCAAAGTGC TTTGTGAGAC AGTGAAGGAT 
TTTGTGGCTC GAGTAGGGAA AGCCTATGAG AAGGCAACAG AAAGCTCAGA GGAGTCAGAG 
GTCATGGCCA GGAAGTGCTC TGTCCTGAAG GAGAAGCTGG ACTCATTGCT GAAGACACTG 
AATGATGAAT CTCAAGCGTC TTCCTCTCTG CCCAACCCTC CTCCCACCAT TGCAGAGGAG 
ACGGAGGATG GGGATGGGTC GGGCAGTGCT GGTGACTCTT CAAGTGAGCT CTCGGTGGGC 
TCGGCTTGCA CTGCACGGCC CCAGATATTC CGTCCCCGAG AGCAGCTCAT GCTGAGAGCC 
AACAGCTTGA AAAAAGCCAT TCGCCAGATA ATAGAGCATG CAGAGAAAGC TGTAGATGAA 
CAGAACGCTC AGACCCAGGA GCAAGAGGGA TTCCTCCTTA GTCTCTCAGC CTCTGAGGAA 
GGCAAGGAGC TGAGGAACGA AGATAAAATT TCCATGCAGT CATCACATAG CAGCAGCTAT 
GGAGTGTCCA AGGGGAGGAG CCAGAGGAAA GCCTCCAAGT CTCCTTGTGA AAGACTAATA 
AACAAAGGAA GTTTGTCACT GGGCAGCTCT GCATCTCTTC CTCCCCAGAC AGGAAGCCGG 
GACAACTTGC CAATGCTGAA CACAAAAATC CTCTACCCAA ATATCCGTGC TGGCATGTCA 
GGTTCTTTGC CTGGGAGCTC TGTCATCAGC AGATTGTTGA TCCATGCTGA TCCCTTTAAC 
TCTGAGCCTG AAAATCTAGA ATGTTACACT GAGAAGTGTG TCATGAATAA TTACTTTGGA 
ATTGGACTGG ATGCAAAGAT TTCTTTGGAC TTCAACAACA AACGTGATGA GCACCCAGAG 
AAATGCAGAA GTCGTACTAA GAATATGATG TGGTATGGAG TATTGGGGAC CAAGGAGCTG 
CTGCACAGAA CATATAAAAA CCTGGAGCAG AAGGTCTTGC TGGAGTGCGA TGGGAGGCCA 
ATCCCTCTGC CCAGTCTCCA GGGGATTGCT GTACTCAACA TTCCCAGCTA TGCAGGAGGC 
ACCAACTTCT GGGGGGGAAC CAAGGAAGAT GATACATTTA CAGCCCCTTC CTTCGATGAC 
AAGATTTTGG AGGTGGTAGC CGTGTTTGGT AGCATGCAGA TGGCAGTGTC ACGTGTGATA 
AACCTACAGC ATCACCGGAT TGCACAGTGC CGGACAGTAA AGATAGCAAT CCTTGGAGAA 
GAGGGAGTTC CCGTGCAAGT GGATGGAGAA GCCTGGATCC AGCCTCCGGG TTACATTTGG 
ATTGTTCATA AGAACAGGGC ACAGACCCTC ACCCGAGACA GGGCCTTTGA GAGCACCCTG 
AAGTCTTGGG AGGACAAGCA GAAGTGCGAG TTGTCACGAC CCTCCTCTTT CTCTCTGCAA 
CCAGAGATCA TGTCTGAAGA AGAATCCACC CAGATCATCC AGTTTGGTCA AGCTGCAGGT 
GCTCTGATCC ACAGTATTCG GGAAATAGCA CAATCCTATC AGGACATGGA ACAGGAGCTT 
GCCCATGCTG TCAATGCCAG CTCCAAGTCT ATGGACAAAG TCTACGCTAA ATCCAAGTCT 
ACAGAGGGTC TGAACTGCAG CCTTGTTGTA GAGATGGTGA ATAATGTCAA AGCCCTGCAC 
AATGAGACAG AGCTGCTGCT GGCAGGCAAG ATGGCACTGC AATTAGATCC TCCACAGAAG 
GAGCAGCTCC AGGCAGCCCT GGCAGACATG GACCTCCAAC TGAGGAAACT GGCAGACATC 
CCTTGGCTGT GGCAGCTTAT GGAGCCCTGT GATGAGGAGA ACCAGATGCT GGATTATTCT 
AAACGCAGCC GCAGTGGCAA ATTCCGTCTG GTGACCAAAT TTAAAAAGGA GAAGAACAAC 
AAAAATAAGG AGTCTCACAG TAGCATGGGA TTGCCGGTTC ACCTCTGGGG AACGGAGGAG 
GTTGCGGCGT GGCTTGAGCA CCTCAGTCTT TGTGAGTATA AGGATATCTT CATCCGGCAT 
GACGTCCGGG GCTCTGAGCT CCTGCACCTT GAACGGAGGG ACCTCAAGGA CCTGGGTGTG 
ACCAAAGTGG GTCATATGAA GAGGATACTG CACGGGATCA AGGAGCTGAG CCGGAGTACT 
CCTGCCAGCG AGGCTTAG

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

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DGKD cDNA ORF clone, Taeniopygia guttata(zebra finch)

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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