| Gene Symbol | DGKQ |
| Entrez Gene ID | 100218840 |
| Full Name | diacylglycerol kinase theta |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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DGKQ cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following DGKQ gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DGKQ 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.
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Reference Sequences (Refseq)
CloneID OTd52998 Clone ID Related Accession (Same CDS sequence) XM_030257952.1 Accession Version XM_030257952.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2832bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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 theta Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by 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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821ATGGCGGACG GGGCGCGCTC GCTGCGCGGC GGCGGCAGCC CGGCCTCCAG CCCGGTGCTG
GGCGGACGGG GGCGCGCCGC GGCGGGCGGC AGCAGCCCGC CGGGCCACAC GTTCCGCAGG
GTGACCCTGA CCAAACCCAC CTTCTGCCAC TACTGCACCG ACTTCATCTG GGGGCTGGCC
GGCTACCAGT GCGAGGTTTG CAACTTCATG TCTCACGAAA AGTGCCTCAA GAATGTCAAG
ATTCCATGCT CATGTATTGC TCCCAGCCTT GTAAGGGTTC CAGTTGCACA CTGTTTTGGG
CCTCCAGGAC ATTACAAAAG AAAGTTTTGT GCTGTGTGCA GGAAGTCCCT AGAGTCACCT
GCCTTTCGAT GTGAAGTTTG TGAGCTACAT GTGCACACAG ACTGTATCCT GTTTGCTTGC
AGTGATTGCC GGCAGTGTCA CCAGGATGGA CACCTGGACC ATGATACTTA CCACCATCAC
TGGAGGGAGG GAAACCTTTC TTCAAGTGCT CGTTGTGAAT TTTGCAAAAA AACCTGTGGG
TCTTCTGAGG TGCTCTCTGG CATGAGATGT GAATGGTGTG GCATCCTGGC TCATGCTGCT
TGCTGTGTAA TTGTCCCACC AGAATGTACC TTTGGAAGAT TAAGGAATAT GATTCTTCCT
CCAAACTGTG TTCAACTGTT TTCTCGCAAC TTTAGCAAAT TACATTGTTT TCGGATATCA
GAAAATTTGC AAACAGATTC AGATGAAGAT GATGATGTTG ATGGGTCAAC ACAAGGATCA
ACAAAAGATA TCCAAATTTC AACCGATTCA AGTAAACAAA CACTAAAGAT ATTTGATGGG
AATGATGCAG TGAAACGCAA TCAATTTCGA CTAATTTCAG TTCCAAGGAT TGCAAAAAAT
GAAGAAGTTG TGGAAGCTGC TTTGAGGGCG TACTACATAA ATGATGACCA GCAGGAGTAT
GAGCTTCAGA CCTTTACACA GCAGGTGCTG CTCTCTGATG ATGTTATCAA CAGGAATGAT
GCAGCAGAGG ACAGCAACTT GGGCTCAGTA TTCCGAGAAT CTGTTCCTGA AGCTTGGATC
ATCAGAGCCA AACCAAAGGA TGAAGAAGTG ATCAGAATTT ATCCTGCTTG GCTGAAAGTG
GGAATGGCAT ATGTTTCTCT ACGAGTAAAT AAGGATAGCA CTGTGCAGAC TGCAATCAAA
GAAGTGCTTC CATTACTTGG AAGGCAGATG GAGTGCCTCC AAAATTTCAA ATTGGTGGAA
GTGCTTATGG GCAGTAAGCA AGTTCAGCGT ATGGTCTTGG ACAGTCAGGA GCTGATTCTG
AACAGACTCA AGGACATAAG AAAGACTTCA ATACGTCAGA TGAATCAAAC AAGATTTTAC
ATAGTGGAAA ACAGTAAATC CATTGTACAA GTAAATGTAT TTGTTGGAGG CCTTCCACCT
CAGCTTTCCC CTGAAGAATA CACAAATATT CTCAAGGAAG AATTAGCTAT CAAAACAAAT
GTAGTATCTG TGAGTCATGT TTATCAAGCA CAAGGTGCTG TTGTACTCCA AATTTCATGT
TTTTCTGAAG CTGAAAGAAT ATATATGCTA GTTAAAGATA CTGTTGTCAA TGACAAGCCT
CTGAATGCTG TGGTGATTCC TGCAGTTATG GCTTCCAAGA TACCACAGAA TTGTTGCCCA
CTTCTTGTAT TTGTGAATCC AAAAAGTGGT GGTCTAAAAG GTCGGGATCT GCTGTACAGT
TTTAGAAAGT TGTTAAACCC ACATCAAGTC TTTGAACTTA CCAATGGGGG CCCACTGCCT
GGGTTTCACA CGTTCTCCAA AGTCCCCTCC TTTCGAGTGC TGGTGTGTGG AGGGGATGGC
ACTGTTGGCT GGGTCCTTGG TGCCCTCGAG GAGATCAGGC ACAAGCTGGT GTGCTCAGAG
CCCTCAGTTG CCATCTTACC TTTAGGAACA GGTAATGACT TGGGGAGGGT CTTGCGCTGG
GGAGCTGGCT ACAGTGGGGA GGACCCATAC TCCATTTTGG TTTCTGTGGA TGAGGCGGAT
GATGTTCTCA TGGATCGCTG GACTATCCTT TTGGATGCAG AAGAGCCAGC TGAAGGTGCA
GAAAATGGCA TTGCAGAACC TGAGCCTCCC AAGATTGTAC AGATGAACAA TTACTGTGGT
CTTGGCATTG ATGCAGAGCT GAGCTTGGAC TTTCATCATG CTAGAGAAGA AGAGCCAGGG
AAATTTAATA GCAGGTTTCA CAACAAGGGA GTTTATGTGA AAGTTGGACT GCAGAAGATA
AGTCACACTA GAAACCTTCA CAAGGACATA AAGCTGCAAG TGGACCAGCA TGAGGTGGAG
TTACCAAGTA TAGAAGGACT CATCTTTATT AATATACCCA GCTGGGGCTC TGGGGCTGAC
CTCTGGGGGT CTGAAAGTGA CAACCGCTTT GAGAAGCCGC GCATCGATGA CGGCCTGCTG
GAAGTGGTTG GCGTGACTGG CGTCGTTCAC ATGGGTCAAG TCCAAGGTGG TTTTCGATCA
GGAATACGCA TAGCTCAAGG CTCATATTTC CGTGTAACAC TCCTAAAGCC AATTCCAGTA
CAAGTTGATG GAGAGCCCTG GATTCAGGCC CCTGGCCAGA TTATAATTTC TGCTGCAGGA
CCAAAGGTCC ATATGTTGAA AAAATCCAAG CAGAAGCAGA AAAAAACTGG AAGCCTGAAA
GAGATGAAAG TGGATAGCAC GTCAGTCTCT GAAGGAGGAC GCAAAGGGGA GACCTGTGTT
CATGCCTATG GTCCCACAGT GTGGACTACA ACTTCACTTT CATTGAACAT GAAAACTGGA
TTCATGCTAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113812.1 CDS 33..2864 Translation 
Target ORF information:
RefSeq Version XM_030257952.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata diacylglycerol kinase theta (DGKQ), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_030257952.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821ATGGCGGACG GGGCGCGCTC GCTGCGCGGC GGCGGCAGCC CGGCCTCCAG CCCGGTGCTG
GGCGGACGGG GGCGCGCCGC GGCGGGCGGC AGCAGCCCGC CGGGCCACAC GTTCCGCAGG
GTGACCCTGA CCAAACCCAC CTTCTGCCAC TACTGCACCG ACTTCATCTG GGGGCTGGCC
GGCTACCAGT GCGAGGTTTG CAACTTCATG TCTCACGAAA AGTGCCTCAA GAATGTCAAG
ATTCCATGCT CATGTATTGC TCCCAGCCTT GTAAGGGTTC CAGTTGCACA CTGTTTTGGG
CCTCCAGGAC ATTACAAAAG AAAGTTTTGT GCTGTGTGCA GGAAGTCCCT AGAGTCACCT
GCCTTTCGAT GTGAAGTTTG TGAGCTACAT GTGCACACAG ACTGTATCCT GTTTGCTTGC
AGTGATTGCC GGCAGTGTCA CCAGGATGGA CACCTGGACC ATGATACTTA CCACCATCAC
TGGAGGGAGG GAAACCTTTC TTCAAGTGCT CGTTGTGAAT TTTGCAAAAA AACCTGTGGG
TCTTCTGAGG TGCTCTCTGG CATGAGATGT GAATGGTGTG GCATCCTGGC TCATGCTGCT
TGCTGTGTAA TTGTCCCACC AGAATGTACC TTTGGAAGAT TAAGGAATAT GATTCTTCCT
CCAAACTGTG TTCAACTGTT TTCTCGCAAC TTTAGCAAAT TACATTGTTT TCGGATATCA
GAAAATTTGC AAACAGATTC AGATGAAGAT GATGATGTTG ATGGGTCAAC ACAAGGATCA
ACAAAAGATA TCCAAATTTC AACCGATTCA AGTAAACAAA CACTAAAGAT ATTTGATGGG
AATGATGCAG TGAAACGCAA TCAATTTCGA CTAATTTCAG TTCCAAGGAT TGCAAAAAAT
GAAGAAGTTG TGGAAGCTGC TTTGAGGGCG TACTACATAA ATGATGACCA GCAGGAGTAT
GAGCTTCAGA CCTTTACACA GCAGGTGCTG CTCTCTGATG ATGTTATCAA CAGGAATGAT
GCAGCAGAGG ACAGCAACTT GGGCTCAGTA TTCCGAGAAT CTGTTCCTGA AGCTTGGATC
ATCAGAGCCA AACCAAAGGA TGAAGAAGTG ATCAGAATTT ATCCTGCTTG GCTGAAAGTG
GGAATGGCAT ATGTTTCTCT ACGAGTAAAT AAGGATAGCA CTGTGCAGAC TGCAATCAAA
GAAGTGCTTC CATTACTTGG AAGGCAGATG GAGTGCCTCC AAAATTTCAA ATTGGTGGAA
GTGCTTATGG GCAGTAAGCA AGTTCAGCGT ATGGTCTTGG ACAGTCAGGA GCTGATTCTG
AACAGACTCA AGGACATAAG AAAGACTTCA ATACGTCAGA TGAATCAAAC AAGATTTTAC
ATAGTGGAAA ACAGTAAATC CATTGTACAA GTAAATGTAT TTGTTGGAGG CCTTCCACCT
CAGCTTTCCC CTGAAGAATA CACAAATATT CTCAAGGAAG AATTAGCTAT CAAAACAAAT
GTAGTATCTG TGAGTCATGT TTATCAAGCA CAAGGTGCTG TTGTACTCCA AATTTCATGT
TTTTCTGAAG CTGAAAGAAT ATATATGCTA GTTAAAGATA CTGTTGTCAA TGACAAGCCT
CTGAATGCTG TGGTGATTCC TGCAGTTATG GCTTCCAAGA TACCACAGAA TTGTTGCCCA
CTTCTTGTAT TTGTGAATCC AAAAAGTGGT GGTCTAAAAG GTCGGGATCT GCTGTACAGT
TTTAGAAAGT TGTTAAACCC ACATCAAGTC TTTGAACTTA CCAATGGGGG CCCACTGCCT
GGGTTTCACA CGTTCTCCAA AGTCCCCTCC TTTCGAGTGC TGGTGTGTGG AGGGGATGGC
ACTGTTGGCT GGGTCCTTGG TGCCCTCGAG GAGATCAGGC ACAAGCTGGT GTGCTCAGAG
CCCTCAGTTG CCATCTTACC TTTAGGAACA GGTAATGACT TGGGGAGGGT CTTGCGCTGG
GGAGCTGGCT ACAGTGGGGA GGACCCATAC TCCATTTTGG TTTCTGTGGA TGAGGCGGAT
GATGTTCTCA TGGATCGCTG GACTATCCTT TTGGATGCAG AAGAGCCAGC TGAAGGTGCA
GAAAATGGCA TTGCAGAACC TGAGCCTCCC AAGATTGTAC AGATGAACAA TTACTGTGGT
CTTGGCATTG ATGCAGAGCT GAGCTTGGAC TTTCATCATG CTAGAGAAGA AGAGCCAGGG
AAATTTAATA GCAGGTTTCA CAACAAGGGA GTTTATGTGA AAGTTGGACT GCAGAAGATA
AGTCACACTA GAAACCTTCA CAAGGACATA AAGCTGCAAG TGGACCAGCA TGAGGTGGAG
TTACCAAGTA TAGAAGGACT CATCTTTATT AATATACCCA GCTGGGGCTC TGGGGCTGAC
CTCTGGGGGT CTGAAAGTGA CAACCGCTTT GAGAAGCCGC GCATCGATGA CGGCCTGCTG
GAAGTGGTTG GCGTGACTGG CGTCGTTCAC ATGGGTCAAG TCCAAGGTGG TTTTCGATCA
GGAATACGCA TAGCTCAAGG CTCATATTTC CGTGTAACAC TCCTAAAGCC AATTCCAGTA
CAAGTTGATG GAGAGCCCTG GATTCAGGCC CCTGGCCAGA TTATAATTTC TGCTGCAGGA
CCAAAGGTCC ATATGTTGAA AAAATCCAAG CAGAAGCAGA AAAAAACTGG AAGCCTGAAA
GAGATGAAAG TGGATAGCAC GTCAGTCTCT GAAGGAGGAC GCAAAGGGGA GACCTGTGTT
CATGCCTATG GTCCCACAGT GTGGACTACA ACTTCACTTT CATTGAACAT GAAAACTGGA
TTCATGCTAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd14578 Clone ID Related Accession (Same CDS sequence) XM_002194437.3 Accession Version XM_002194437.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3060bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product diacylglycerol kinase theta Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002234463.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002194437.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAAGTGCA CCGTCATCAA ATTTGCAGAT GACACCAAGC CAAATGCCAA GGTTGACATT
CCTGAAAGAC GGGATGCCAA CCAGAAGCAC CTGTGCAAGC TCAAGAAATG GGCCCTTGGA
AATGTCATGA GGATCAACAA GACCAAGTTG AAGTGTCATA GCAAGAAACT GGAGGTCATA
CGTCTGAGTC CAGAGAAAGG CAACGAAGAT GGCAAAGGGA CTGGAGAAGA AGTTCAGCCG
GAGAAAAGGA GGCTCAGGGG CGACATTATC AATCTCTACA AGACCCGGAG AGGAGCTTGT
GGCCAGGCGG CGGGCGGCAG CAGCCCGCCG GGCCACACGT TCCGCAGGGT GACCCTGACC
AAACCCACCT TCTGCCACTA CTGCACCGAC TTCATCTGGG GGCTGGCCGG CTACCAGTGC
GAGGTTTGCA ACTTCATGTC TCACGAAAAG TGCCTCAAGA ATGTCAAGAT TCCATGCTCA
TGTATTGCTC CCAGCCTTGT AAGGGTTCCA GTTGCACACT GTTTTGGGCC TCCAGGACAT
TACAAAAGAA AGTTTTGTGC TGTGTGCAGG AAGTCCCTAG AGTCACCTGC CTTTCGATGT
GAAGTTTGTG AGCTACATGT GCACACAGAC TGTATCCTGT TTGCTTGCAG TGATTGCCGG
CAGTGTCACC AGGATGGACA CCTGGACCAT GATACTTACC ACCATCACTG GAGGGAGGGA
AACCTTTCTT CAAGTGCTCG TTGTGAATTT TGCAAAAAAA CCTGTGGGTC TTCTGAGGTG
CTCTCTGGCA TGAGATGTGA ATGGTGTGGC ATCCTGGCTC ATGCTGCTTG CTGTGTAATT
GTCCCACCAG AATGTACCTT TGGAAGATTA AGGAATATGA TTCTTCCTCC AAACTGTGTT
CAACTGTTTT CTCGCAACTT TAGCAAATTA CATTGTTTTC GGATATCAGA AAATTTGCAA
ACAGATTCAG ATGAAGATGA TGATGTTGAT GGGTCAACAC AAGGATCAAC AAAAGATATC
CAAATTTCAA CCGATTCAAG TAAACAAACA CTAAAGATAT TTGATGGGAA TGATGCAGTG
AAACGCAATC AATTTCGACT AATTTCAGTT CCAAGGATTG CAAAAAATGA AGAAGTTGTG
GAAGCTGCTT TGAGGGCGTA CTACATAAAT GATGACCAGC AGGAGTATGA GCTTCAGACC
TTTACACAGC AGGTGCTGCT CTCTGATGAT GTTATCAACA GGAATGATGC AGCAGAGGAC
AGCAACTTGG GCTCAGTATT CCGAGAATCT GTTCCTGAAG CTTGGATCAT CAGAGCCAAA
CCAAAGGATG AAGAAGTGAT CAGAATTTAT CCTGCTTGGC TGAAAGTGGG AATGGCATAT
GTTTCTCTAC GAGTAAATAA GGATAGCACT GTGCAGACTG CAATCAAAGA AGTGCTTCCA
TTACTTGGAA GGCAGATGGA GTGCCTCCAA AATTTCAAAT TGGTGGAAGT GCTTATGGGC
AGTAAGCAAG TTCAGCGTAT GGTCTTGGAC AGTCAGGAGC TGATTCTGAA CAGACTCAAG
GACATAAGAA AGACTTCAAT ACGTCAGATG AATCAAACAA GATTTTACAT AGTGGAAAAC
AGTAAATCCA TTGTACAAGT AAATGTATTT GTTGGAGGCC TTCCACCTCA GCTTTCCCCT
GAAGAATACA CAAATATTCT CAAGGAAGAA TTAGCTATCA AAACAAATGT AGTATCTGTG
AGTCATGTTT ATCAAGCACA AGGTGCTGTT GTACTCCAAA TTTCATGTTT TTCTGAAGCT
GAAAGAATAT ATATGCTAGT TAAAGATACT GTTGTCAATG ACAAGCCTCT GAATGCTGTG
GTGATTCCTG CAGTTATGGC TTCCAAGATA CCACAGAATT GTTGCCCACT TCTTGTATTT
GTGAATCCAA AAAGTGGTGG TCTAAAAGGT CGGGATCTGC TGTACAGTTT TAGAAAGTTG
TTAAACCCAC ATCAAGTCTT TGAACTTACC AATGGGGGCC CACTGCCTGG GTTTCACACG
TTCTCCAAAG TCCCCTCCTT TCGAGTGCTG GTGTGTGGAG GGGATGGCAC TGTTGGCTGG
GTCCTTGGTG CCCTCGAGGA GATCAGGCAC AAGCTGGTGT GCTCAGAGCC CTCAGTTGCC
ATCTTACCTT TAGGAACAGG TAATGACTTG GGGAGGGTCT TGCGCTGGGG AGCTGGCTAC
AGTGGGGAGG ACCCATACTC CATTTTGGTT TCTGTGGATG AGGCGGATGA TGTTCTCATG
GATCGCTGGA CTATCCTTTT GGATGCAGAA GAGCCAGCTG AAGGTGCAGA AAATGGCATT
GCAGAACCTG AGCCTCCCAA GATTGTACAG ATGAACAATT ACTGTGGTCT TGGCATTGAT
GCAGAGCTGA GCTTGGACTT TCATCATGCT AGAGAAGAAG AGCCAGGGAA ATTTAATAGC
AGGTTTCACA ACAAGGGAGT TTATGTGAAA GTTGGACTGC AGAAGATAAG TCACACTAGA
AACCTTCACA AGGACATAAA GCTGCAAGTG GACCAGCATG AGGTGGAGTT ACCAAGTATA
GAAGGACTCA TCTTTATTAA TATACCCAGC TGGGGCTCTG GGGCTGACCT CTGGGGGTCT
GAAAGTGACA ACCGCTTTGA GAAGCCGCGC ATCGATGACG GCCTGCTGGA AGTGGTTGGC
GTGACTGGCG TCGTTCACAT GGGTCAAGTC CAAGGTGGTT TTCGATCAGG AATACGCATA
GCTCAAGGCT CATATTTCCG TGTAACACTC CTAAAGCCAA TTCCAGTACA AGTTGATGGA
GAGCCCTGGA TTCAGGCCCC TGGCCAGATT ATAATTTCTG CTGCAGGACC AAAGGTCCAT
ATGTTGAAAA AATCCAAGCA GAAGCAGAAA AAAACTGGAA GCCTGAAAGA GATGAAAGTG
GATAGCACGT CAGTCTCTGA AGGAGGACGC AAAGGGGAGA CCTGTGTTCA TGCCTATGGT
CCCACAGTGT GGACTACAAC TTCACTTTCA TTGAACATGA AAACTGGATT CATGCTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002194473.3 CDS 1..3060 Translation
Target ORF information:
RefSeq Version XM_002194437.3 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata diacylglycerol kinase, theta 110kDa (DGKQ), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_002194437.3
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAAGTGCA CCGTCATCAA ATTTGCAGAT GACACCAAGC CAAATGCCAA GGTTGACATT
CCTGAAAGAC GGGATGCCAA CCAGAAGCAC CTGTGCAAGC TCAAGAAATG GGCCCTTGGA
AATGTCATGA GGATCAACAA GACCAAGTTG AAGTGTCATA GCAAGAAACT GGAGGTCATA
CGTCTGAGTC CAGAGAAAGG CAACGAAGAT GGCAAAGGGA CTGGAGAAGA AGTTCAGCCG
GAGAAAAGGA GGCTCAGGGG CGACATTATC AATCTCTACA AGACCCGGAG AGGAGCTTGT
GGCCAGGCGG CGGGCGGCAG CAGCCCGCCG GGCCACACGT TCCGCAGGGT GACCCTGACC
AAACCCACCT TCTGCCACTA CTGCACCGAC TTCATCTGGG GGCTGGCCGG CTACCAGTGC
GAGGTTTGCA ACTTCATGTC TCACGAAAAG TGCCTCAAGA ATGTCAAGAT TCCATGCTCA
TGTATTGCTC CCAGCCTTGT AAGGGTTCCA GTTGCACACT GTTTTGGGCC TCCAGGACAT
TACAAAAGAA AGTTTTGTGC TGTGTGCAGG AAGTCCCTAG AGTCACCTGC CTTTCGATGT
GAAGTTTGTG AGCTACATGT GCACACAGAC TGTATCCTGT TTGCTTGCAG TGATTGCCGG
CAGTGTCACC AGGATGGACA CCTGGACCAT GATACTTACC ACCATCACTG GAGGGAGGGA
AACCTTTCTT CAAGTGCTCG TTGTGAATTT TGCAAAAAAA CCTGTGGGTC TTCTGAGGTG
CTCTCTGGCA TGAGATGTGA ATGGTGTGGC ATCCTGGCTC ATGCTGCTTG CTGTGTAATT
GTCCCACCAG AATGTACCTT TGGAAGATTA AGGAATATGA TTCTTCCTCC AAACTGTGTT
CAACTGTTTT CTCGCAACTT TAGCAAATTA CATTGTTTTC GGATATCAGA AAATTTGCAA
ACAGATTCAG ATGAAGATGA TGATGTTGAT GGGTCAACAC AAGGATCAAC AAAAGATATC
CAAATTTCAA CCGATTCAAG TAAACAAACA CTAAAGATAT TTGATGGGAA TGATGCAGTG
AAACGCAATC AATTTCGACT AATTTCAGTT CCAAGGATTG CAAAAAATGA AGAAGTTGTG
GAAGCTGCTT TGAGGGCGTA CTACATAAAT GATGACCAGC AGGAGTATGA GCTTCAGACC
TTTACACAGC AGGTGCTGCT CTCTGATGAT GTTATCAACA GGAATGATGC AGCAGAGGAC
AGCAACTTGG GCTCAGTATT CCGAGAATCT GTTCCTGAAG CTTGGATCAT CAGAGCCAAA
CCAAAGGATG AAGAAGTGAT CAGAATTTAT CCTGCTTGGC TGAAAGTGGG AATGGCATAT
GTTTCTCTAC GAGTAAATAA GGATAGCACT GTGCAGACTG CAATCAAAGA AGTGCTTCCA
TTACTTGGAA GGCAGATGGA GTGCCTCCAA AATTTCAAAT TGGTGGAAGT GCTTATGGGC
AGTAAGCAAG TTCAGCGTAT GGTCTTGGAC AGTCAGGAGC TGATTCTGAA CAGACTCAAG
GACATAAGAA AGACTTCAAT ACGTCAGATG AATCAAACAA GATTTTACAT AGTGGAAAAC
AGTAAATCCA TTGTACAAGT AAATGTATTT GTTGGAGGCC TTCCACCTCA GCTTTCCCCT
GAAGAATACA CAAATATTCT CAAGGAAGAA TTAGCTATCA AAACAAATGT AGTATCTGTG
AGTCATGTTT ATCAAGCACA AGGTGCTGTT GTACTCCAAA TTTCATGTTT TTCTGAAGCT
GAAAGAATAT ATATGCTAGT TAAAGATACT GTTGTCAATG ACAAGCCTCT GAATGCTGTG
GTGATTCCTG CAGTTATGGC TTCCAAGATA CCACAGAATT GTTGCCCACT TCTTGTATTT
GTGAATCCAA AAAGTGGTGG TCTAAAAGGT CGGGATCTGC TGTACAGTTT TAGAAAGTTG
TTAAACCCAC ATCAAGTCTT TGAACTTACC AATGGGGGCC CACTGCCTGG GTTTCACACG
TTCTCCAAAG TCCCCTCCTT TCGAGTGCTG GTGTGTGGAG GGGATGGCAC TGTTGGCTGG
GTCCTTGGTG CCCTCGAGGA GATCAGGCAC AAGCTGGTGT GCTCAGAGCC CTCAGTTGCC
ATCTTACCTT TAGGAACAGG TAATGACTTG GGGAGGGTCT TGCGCTGGGG AGCTGGCTAC
AGTGGGGAGG ACCCATACTC CATTTTGGTT TCTGTGGATG AGGCGGATGA TGTTCTCATG
GATCGCTGGA CTATCCTTTT GGATGCAGAA GAGCCAGCTG AAGGTGCAGA AAATGGCATT
GCAGAACCTG AGCCTCCCAA GATTGTACAG ATGAACAATT ACTGTGGTCT TGGCATTGAT
GCAGAGCTGA GCTTGGACTT TCATCATGCT AGAGAAGAAG AGCCAGGGAA ATTTAATAGC
AGGTTTCACA ACAAGGGAGT TTATGTGAAA GTTGGACTGC AGAAGATAAG TCACACTAGA
AACCTTCACA AGGACATAAA GCTGCAAGTG GACCAGCATG AGGTGGAGTT ACCAAGTATA
GAAGGACTCA TCTTTATTAA TATACCCAGC TGGGGCTCTG GGGCTGACCT CTGGGGGTCT
GAAAGTGACA ACCGCTTTGA GAAGCCGCGC ATCGATGACG GCCTGCTGGA AGTGGTTGGC
GTGACTGGCG TCGTTCACAT GGGTCAAGTC CAAGGTGGTT TTCGATCAGG AATACGCATA
GCTCAAGGCT CATATTTCCG TGTAACACTC CTAAAGCCAA TTCCAGTACA AGTTGATGGA
GAGCCCTGGA TTCAGGCCCC TGGCCAGATT ATAATTTCTG CTGCAGGACC AAAGGTCCAT
ATGTTGAAAA AATCCAAGCA GAAGCAGAAA AAAACTGGAA GCCTGAAAGA GATGAAAGTG
GATAGCACGT CAGTCTCTGA AGGAGGACGC AAAGGGGAGA CCTGTGTTCA TGCCTATGGT
CCCACAGTGT GGACTACAAC TTCACTTTCA TTGAACATGA AAACTGGATT CATGCTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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