The following GPAM gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GPAM 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 |
ODa18042 |
Clone ID Related Accession (Same CDS sequence) |
XM_009306794.3
, XM_009306794.2
|
Accession Version |
XM_009306794.3 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 2481bp)
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 |
2017-06-14 |
Organism |
Danio rerio(zebrafish) |
Product |
glycerol-3-phosphate acyltransferase 1, mitochondrial |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 15, 2017 this sequence version replaced XM_009306794.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 106
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.4
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
| ATGGACGTCC ACATGGTTCT AGGGGGTCCA GATAACATTC TTTTGGCCAA TAATCCTGAC ACGGGAAGTG CCTGTCTCAA GCATCCCTGT GAGGACCAGG ACAGAAGCTC CAGCCCATCT GTACTCCGCT GTGTGACCAC CACGTGGAAG GAGGGTCTGC TGAACAGGAA GAGGCCATTT GTTGGAAGAT GTTGTCACTC ATGCACACCC CAGAGTCAGG ATAGGTTGTT CAATCCCAGC ATCCCTTCAC TAGGGCTTCG TAATGTGATT TACATCAATG AAACCCACAC AAGACACAGG GGTTGGCTTG CACGCAGGCT GAGTTATGTG CTGTTTGTCT TGGAGAGAGA TGTCCAGAAG GACATGTTTG CACGCAATGT GGTGGAGAAC GTGCTTAACA ACAGCAGGCT GGAATGTGCT ATTGTGGAGG TTGCGAATGA GGGTGTACAG GAAGATGCAG AGCCTGGAGT TGATCCCAAA GCTGTCAGTA AAGTTCGACG AAAGGCCAGA GGATGGCTGC AGGAGATGGT TGCCAACATC TCACCGGCCT TAATCAGATT AACAGGATGG GTGCTGTTAA AACTGTTCAA TGGATTTTTC TGGAGCATTC AGATCCATAA AGGTCAGCTG GAGATGGTGA AGAAAGCAGC ATCCGAGTAC AATGCTCCCC TCGTCTTCCT TCCTGTTCAC AAGTCCCACA TAGATTACCT GCTCATCACC TTCATTCTTT TCTGCCACAA CATTAAAGCT CCACACATCG CTGCTGGCAA CAACCTTAAC ATCCCCATCT TAAGCACGCT AATACGCAAA CTCGGAGGAT TCTTCATTCG TCGTAAAATG GACGAGACCT CAGACGGAAA GAAAGATGTG TTATACAGAT CTCTGTTACA TGCATACACG GAAGAATTGT TGCGGCAGCA GCAGTTTCTG GAGGTGTATT TAGAGGGCAC GCGGTCTCGC AGCGGGAAAC CATCTCCAGC ACGTGCGGGC ATGCTCTCCA TCGTGGTCGA CACACTCTGT GCCAGCACCA TCCCTGATGT TCTGATCGTG CCCGTTGGCA TCTCTTATGA CCGGATTATT GAGGGGAACT ACAACAGTGA GCAGCTGGGC AAACCTAAGA AGAATGAGAG TCTGTGGGGT ATTGCCTGTG GTGTGTTTAG GATGCTCCGC AAGAACTATG GCTGTGTGCG TGTGGATTTC ACTCAGCCCT TCTCCCTAAA GGAATACCTG GATACTCAGC GCAGTCGACA TCTCCAGGCC TCTCTGACGC TGGAGCAGAT TCTTCTCCCC ATCATCATCG CTACACAACC TGATCAGGCT GTTTTTAATG GTGAAAATGA GAATCATCTG AACTCTGACC TGTCAGACGA GCCCTGGAGG AGGCAGGTTA TTGCTGACCT GGCCAAGCAC GTTCTCTTCA GCGCCAGTAA GTCTTCAGCA ATCATGTCCA CTCACATCGT AGCCTGTCTT CTCCTGTATC GGCACAGACA GGGTGTTCTG CTGTCCAAAC TGGTGGAGGA CTTCTTCAAT ATGAAGGAAG AGATCTTGTC ACGGGACTTC GACCTGGGTT TTTCTGGTAA CTCAGAGGAT GTTGTCATGC ATGCACTCAG CCTTCTGGGA AACTGTGTGA ATGTCACCAG CACCAACAAA AACACGGAGT TCATCATTTC TCCAAGCAAC ACAGTACCCG CGCTCTTTGA GCTCAATTTC TACAGCAACG GCCTTTTCCA TGTCTTCATC GCTGATGCTA TCATAGCCTG CAGTGCTCTG GCCCTGCTGA GAGAGCAGAC GCCAGCTTCA GCAAGTGAGC AGAATCCTTC ATCCACGCTG CTCAGCCAGG AAAGACTGAT CCGCAGAGCT GCAGGCCTCT CCCACTTTCT GTCCAATGAG GTGGCAGTGG CGCTGCCCTG TCAGACTTTG TACCAGGTGT TCCATGATGC TATTACGAGG TTAATTGAGT ATGGTGTGCT CATTGTAGCT GAGGAGGACC AGGAGGAGTT GAGTCCATCT GAGGAGCCTT GGCCCAAGAA GTTTCCAGAG GCTCTTTCTT GGCGAAGTGA TGAAGAGGAT GAAGACAGTG ACTTTGGAGA TGAACAAAGA GACCGTTACC TAAAGGTGAG CCCATCAGCT GAGCACCAGG AATTTTATAC CTTTCTGCAG AGGATTCTCA CCCCAGTGCT GGAGGCCTAC AGTGGGGCAG CAATTTTCAT ACACAGCCTG ACTTCACCCA TTTCTGAGAG AGACTACACA CATCAACTTT TCAAATATCT TTTGACACGC ACAGAAAGAG GAGTTTCTAT GTATGGAGAG AGTGCCACAC ACTACCTCGT AAAGAATACA GTGAAAACAT TCAAGGAGCT TGGGGTGCTA AAAGAACGAC GAGAAGATGG TGTGTGTCGT CTGGAGCTGA GCAGCACCTT CATACCTCAG GCCAACAAGA ACAAACTCTT ACAGTACATA CTGGGTTTTA GTTTGCTGTA A |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009305069.1 |
CDS | 184..2664 |
Translation | |
Target ORF information:
RefSeq Version | XM_009306794.3 |
Organism | Danio rerio(zebrafish) |
Definition | Danio rerio glycerol-3-phosphate acyltransferase, mitochondrial (gpam), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009306794.3 |
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
| ATGGACGTCC ACATGGTTCT AGGGGGTCCA GATAACATTC TTTTGGCCAA TAATCCTGAC ACGGGAAGTG CCTGTCTCAA GCATCCCTGT GAGGACCAGG ACAGAAGCTC CAGCCCATCT GTACTCCGCT GTGTGACCAC CACGTGGAAG GAGGGTCTGC TGAACAGGAA GAGGCCATTT GTTGGAAGAT GTTGTCACTC ATGCACACCC CAGAGTCAGG ATAGGTTGTT CAATCCCAGC ATCCCTTCAC TAGGGCTTCG TAATGTGATT TACATCAATG AAACCCACAC AAGACACAGG GGTTGGCTTG CACGCAGGCT GAGTTATGTG CTGTTTGTCT TGGAGAGAGA TGTCCAGAAG GACATGTTTG CACGCAATGT GGTGGAGAAC GTGCTTAACA ACAGCAGGCT GGAATGTGCT ATTGTGGAGG TTGCGAATGA GGGTGTACAG GAAGATGCAG AGCCTGGAGT TGATCCCAAA GCTGTCAGTA AAGTTCGACG AAAGGCCAGA GGATGGCTGC AGGAGATGGT TGCCAACATC TCACCGGCCT TAATCAGATT AACAGGATGG GTGCTGTTAA AACTGTTCAA TGGATTTTTC TGGAGCATTC AGATCCATAA AGGTCAGCTG GAGATGGTGA AGAAAGCAGC ATCCGAGTAC AATGCTCCCC TCGTCTTCCT TCCTGTTCAC AAGTCCCACA TAGATTACCT GCTCATCACC TTCATTCTTT TCTGCCACAA CATTAAAGCT CCACACATCG CTGCTGGCAA CAACCTTAAC ATCCCCATCT TAAGCACGCT AATACGCAAA CTCGGAGGAT TCTTCATTCG TCGTAAAATG GACGAGACCT CAGACGGAAA GAAAGATGTG TTATACAGAT CTCTGTTACA TGCATACACG GAAGAATTGT TGCGGCAGCA GCAGTTTCTG GAGGTGTATT TAGAGGGCAC GCGGTCTCGC AGCGGGAAAC CATCTCCAGC ACGTGCGGGC ATGCTCTCCA TCGTGGTCGA CACACTCTGT GCCAGCACCA TCCCTGATGT TCTGATCGTG CCCGTTGGCA TCTCTTATGA CCGGATTATT GAGGGGAACT ACAACAGTGA GCAGCTGGGC AAACCTAAGA AGAATGAGAG TCTGTGGGGT ATTGCCTGTG GTGTGTTTAG GATGCTCCGC AAGAACTATG GCTGTGTGCG TGTGGATTTC ACTCAGCCCT TCTCCCTAAA GGAATACCTG GATACTCAGC GCAGTCGACA TCTCCAGGCC TCTCTGACGC TGGAGCAGAT TCTTCTCCCC ATCATCATCG CTACACAACC TGATCAGGCT GTTTTTAATG GTGAAAATGA GAATCATCTG AACTCTGACC TGTCAGACGA GCCCTGGAGG AGGCAGGTTA TTGCTGACCT GGCCAAGCAC GTTCTCTTCA GCGCCAGTAA GTCTTCAGCA ATCATGTCCA CTCACATCGT AGCCTGTCTT CTCCTGTATC GGCACAGACA GGGTGTTCTG CTGTCCAAAC TGGTGGAGGA CTTCTTCAAT ATGAAGGAAG AGATCTTGTC ACGGGACTTC GACCTGGGTT TTTCTGGTAA CTCAGAGGAT GTTGTCATGC ATGCACTCAG CCTTCTGGGA AACTGTGTGA ATGTCACCAG CACCAACAAA AACACGGAGT TCATCATTTC TCCAAGCAAC ACAGTACCCG CGCTCTTTGA GCTCAATTTC TACAGCAACG GCCTTTTCCA TGTCTTCATC GCTGATGCTA TCATAGCCTG CAGTGCTCTG GCCCTGCTGA GAGAGCAGAC GCCAGCTTCA GCAAGTGAGC AGAATCCTTC ATCCACGCTG CTCAGCCAGG AAAGACTGAT CCGCAGAGCT GCAGGCCTCT CCCACTTTCT GTCCAATGAG GTGGCAGTGG CGCTGCCCTG TCAGACTTTG TACCAGGTGT TCCATGATGC TATTACGAGG TTAATTGAGT ATGGTGTGCT CATTGTAGCT GAGGAGGACC AGGAGGAGTT GAGTCCATCT GAGGAGCCTT GGCCCAAGAA GTTTCCAGAG GCTCTTTCTT GGCGAAGTGA TGAAGAGGAT GAAGACAGTG ACTTTGGAGA TGAACAAAGA GACCGTTACC TAAAGGTGAG CCCATCAGCT GAGCACCAGG AATTTTATAC CTTTCTGCAG AGGATTCTCA CCCCAGTGCT GGAGGCCTAC AGTGGGGCAG CAATTTTCAT ACACAGCCTG ACTTCACCCA TTTCTGAGAG AGACTACACA CATCAACTTT TCAAATATCT TTTGACACGC ACAGAAAGAG GAGTTTCTAT GTATGGAGAG AGTGCCACAC ACTACCTCGT AAAGAATACA GTGAAAACAT TCAAGGAGCT TGGGGTGCTA AAAGAACGAC GAGAAGATGG TGTGTGTCGT CTGGAGCTGA GCAGCACCTT CATACCTCAG GCCAACAAGA ACAAACTCTT ACAGTACATA CTGGGTTTTA GTTTGCTGTA A |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa18042 |
Clone ID Related Accession (Same CDS sequence) |
XM_009306794.3
, XM_009306794.2
|
Accession Version |
XM_009306794.2 |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 2481bp)
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 |
2016-06-23 |
Organism |
Danio rerio(Zebrafish) |
Product |
glycerol-3-phosphate acyltransferase 1, mitochondrial |
Comment |
MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007123.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 24, 2016 this sequence version replaced XM_009306794.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 105
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
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
| ATGGACGTCC ACATGGTTCT AGGGGGTCCA GATAACATTC TTTTGGCCAA TAATCCTGAC ACGGGAAGTG CCTGTCTCAA GCATCCCTGT GAGGACCAGG ACAGAAGCTC CAGCCCATCT GTACTCCGCT GTGTGACCAC CACGTGGAAG GAGGGTCTGC TGAACAGGAA GAGGCCATTT GTTGGAAGAT GTTGTCACTC ATGCACACCC CAGAGTCAGG ATAGGTTGTT CAATCCCAGC ATCCCTTCAC TAGGGCTTCG TAATGTGATT TACATCAATG AAACCCACAC AAGACACAGG GGTTGGCTTG CACGCAGGCT GAGTTATGTG CTGTTTGTCT TGGAGAGAGA TGTCCAGAAG GACATGTTTG CACGCAATGT GGTGGAGAAC GTGCTTAACA ACAGCAGGCT GGAATGTGCT ATTGTGGAGG TTGCGAATGA GGGTGTACAG GAAGATGCAG AGCCTGGAGT TGATCCCAAA GCTGTCAGTA AAGTTCGACG AAAGGCCAGA GGATGGCTGC AGGAGATGGT TGCCAACATC TCACCGGCCT TAATCAGATT AACAGGATGG GTGCTGTTAA AACTGTTCAA TGGATTTTTC TGGAGCATTC AGATCCATAA AGGTCAGCTG GAGATGGTGA AGAAAGCAGC ATCCGAGTAC AATGCTCCCC TCGTCTTCCT TCCTGTTCAC AAGTCCCACA TAGATTACCT GCTCATCACC TTCATTCTTT TCTGCCACAA CATTAAAGCT CCACACATCG CTGCTGGCAA CAACCTTAAC ATCCCCATCT TAAGCACGCT AATACGCAAA CTCGGAGGAT TCTTCATTCG TCGTAAAATG GACGAGACCT CAGACGGAAA GAAAGATGTG TTATACAGAT CTCTGTTACA TGCATACACG GAAGAATTGT TGCGGCAGCA GCAGTTTCTG GAGGTGTATT TAGAGGGCAC GCGGTCTCGC AGCGGGAAAC CATCTCCAGC ACGTGCGGGC ATGCTCTCCA TCGTGGTCGA CACACTCTGT GCCAGCACCA TCCCTGATGT TCTGATCGTG CCCGTTGGCA TCTCTTATGA CCGGATTATT GAGGGGAACT ACAACAGTGA GCAGCTGGGC AAACCTAAGA AGAATGAGAG TCTGTGGGGT ATTGCCTGTG GTGTGTTTAG GATGCTCCGC AAGAACTATG GCTGTGTGCG TGTGGATTTC ACTCAGCCCT TCTCCCTAAA GGAATACCTG GATACTCAGC GCAGTCGACA TCTCCAGGCC TCTCTGACGC TGGAGCAGAT TCTTCTCCCC ATCATCATCG CTACACAACC TGATCAGGCT GTTTTTAATG GTGAAAATGA GAATCATCTG AACTCTGACC TGTCAGACGA GCCCTGGAGG AGGCAGGTTA TTGCTGACCT GGCCAAGCAC GTTCTCTTCA GCGCCAGTAA GTCTTCAGCA ATCATGTCCA CTCACATCGT AGCCTGTCTT CTCCTGTATC GGCACAGACA GGGTGTTCTG CTGTCCAAAC TGGTGGAGGA CTTCTTCAAT ATGAAGGAAG AGATCTTGTC ACGGGACTTC GACCTGGGTT TTTCTGGTAA CTCAGAGGAT GTTGTCATGC ATGCACTCAG CCTTCTGGGA AACTGTGTGA ATGTCACCAG CACCAACAAA AACACGGAGT TCATCATTTC TCCAAGCAAC ACAGTACCCG CGCTCTTTGA GCTCAATTTC TACAGCAACG GCCTTTTCCA TGTCTTCATC GCTGATGCTA TCATAGCCTG CAGTGCTCTG GCCCTGCTGA GAGAGCAGAC GCCAGCTTCA GCAAGTGAGC AGAATCCTTC ATCCACGCTG CTCAGCCAGG AAAGACTGAT CCGCAGAGCT GCAGGCCTCT CCCACTTTCT GTCCAATGAG GTGGCAGTGG CGCTGCCCTG TCAGACTTTG TACCAGGTGT TCCATGATGC TATTACGAGG TTAATTGAGT ATGGTGTGCT CATTGTAGCT GAGGAGGACC AGGAGGAGTT GAGTCCATCT GAGGAGCCTT GGCCCAAGAA GTTTCCAGAG GCTCTTTCTT GGCGAAGTGA TGAAGAGGAT GAAGACAGTG ACTTTGGAGA TGAACAAAGA GACCGTTACC TAAAGGTGAG CCCATCAGCT GAGCACCAGG AATTTTATAC CTTTCTGCAG AGGATTCTCA CCCCAGTGCT GGAGGCCTAC AGTGGGGCAG CAATTTTCAT ACACAGCCTG ACTTCACCCA TTTCTGAGAG AGACTACACA CATCAACTTT TCAAATATCT TTTGACACGC ACAGAAAGAG GAGTTTCTAT GTATGGAGAG AGTGCCACAC ACTACCTCGT AAAGAATACA GTGAAAACAT TCAAGGAGCT TGGGGTGCTA AAAGAACGAC GAGAAGATGG TGTGTGTCGT CTGGAGCTGA GCAGCACCTT CATACCTCAG GCCAACAAGA ACAAACTCTT ACAGTACATA CTGGGTTTTA GTTTGCTGTA A |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_009305069.1 |
CDS | 174..2654 |
Translation | |
Target ORF information:
RefSeq Version | XM_009306794.2 |
Organism | Danio rerio(Zebrafish) |
Definition | Danio rerio glycerol-3-phosphate acyltransferase, mitochondrial (gpam), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_009306794.2 |
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
| ATGGACGTCC ACATGGTTCT AGGGGGTCCA GATAACATTC TTTTGGCCAA TAATCCTGAC ACGGGAAGTG CCTGTCTCAA GCATCCCTGT GAGGACCAGG ACAGAAGCTC CAGCCCATCT GTACTCCGCT GTGTGACCAC CACGTGGAAG GAGGGTCTGC TGAACAGGAA GAGGCCATTT GTTGGAAGAT GTTGTCACTC ATGCACACCC CAGAGTCAGG ATAGGTTGTT CAATCCCAGC ATCCCTTCAC TAGGGCTTCG TAATGTGATT TACATCAATG AAACCCACAC AAGACACAGG GGTTGGCTTG CACGCAGGCT GAGTTATGTG CTGTTTGTCT TGGAGAGAGA TGTCCAGAAG GACATGTTTG CACGCAATGT GGTGGAGAAC GTGCTTAACA ACAGCAGGCT GGAATGTGCT ATTGTGGAGG TTGCGAATGA GGGTGTACAG GAAGATGCAG AGCCTGGAGT TGATCCCAAA GCTGTCAGTA AAGTTCGACG AAAGGCCAGA GGATGGCTGC AGGAGATGGT TGCCAACATC TCACCGGCCT TAATCAGATT AACAGGATGG GTGCTGTTAA AACTGTTCAA TGGATTTTTC TGGAGCATTC AGATCCATAA AGGTCAGCTG GAGATGGTGA AGAAAGCAGC ATCCGAGTAC AATGCTCCCC TCGTCTTCCT TCCTGTTCAC AAGTCCCACA TAGATTACCT GCTCATCACC TTCATTCTTT TCTGCCACAA CATTAAAGCT CCACACATCG CTGCTGGCAA CAACCTTAAC ATCCCCATCT TAAGCACGCT AATACGCAAA CTCGGAGGAT TCTTCATTCG TCGTAAAATG GACGAGACCT CAGACGGAAA GAAAGATGTG TTATACAGAT CTCTGTTACA TGCATACACG GAAGAATTGT TGCGGCAGCA GCAGTTTCTG GAGGTGTATT TAGAGGGCAC GCGGTCTCGC AGCGGGAAAC CATCTCCAGC ACGTGCGGGC ATGCTCTCCA TCGTGGTCGA CACACTCTGT GCCAGCACCA TCCCTGATGT TCTGATCGTG CCCGTTGGCA TCTCTTATGA CCGGATTATT GAGGGGAACT ACAACAGTGA GCAGCTGGGC AAACCTAAGA AGAATGAGAG TCTGTGGGGT ATTGCCTGTG GTGTGTTTAG GATGCTCCGC AAGAACTATG GCTGTGTGCG TGTGGATTTC ACTCAGCCCT TCTCCCTAAA GGAATACCTG GATACTCAGC GCAGTCGACA TCTCCAGGCC TCTCTGACGC TGGAGCAGAT TCTTCTCCCC ATCATCATCG CTACACAACC TGATCAGGCT GTTTTTAATG GTGAAAATGA GAATCATCTG AACTCTGACC TGTCAGACGA GCCCTGGAGG AGGCAGGTTA TTGCTGACCT GGCCAAGCAC GTTCTCTTCA GCGCCAGTAA GTCTTCAGCA ATCATGTCCA CTCACATCGT AGCCTGTCTT CTCCTGTATC GGCACAGACA GGGTGTTCTG CTGTCCAAAC TGGTGGAGGA CTTCTTCAAT ATGAAGGAAG AGATCTTGTC ACGGGACTTC GACCTGGGTT TTTCTGGTAA CTCAGAGGAT GTTGTCATGC ATGCACTCAG CCTTCTGGGA AACTGTGTGA ATGTCACCAG CACCAACAAA AACACGGAGT TCATCATTTC TCCAAGCAAC ACAGTACCCG CGCTCTTTGA GCTCAATTTC TACAGCAACG GCCTTTTCCA TGTCTTCATC GCTGATGCTA TCATAGCCTG CAGTGCTCTG GCCCTGCTGA GAGAGCAGAC GCCAGCTTCA GCAAGTGAGC AGAATCCTTC ATCCACGCTG CTCAGCCAGG AAAGACTGAT CCGCAGAGCT GCAGGCCTCT CCCACTTTCT GTCCAATGAG GTGGCAGTGG CGCTGCCCTG TCAGACTTTG TACCAGGTGT TCCATGATGC TATTACGAGG TTAATTGAGT ATGGTGTGCT CATTGTAGCT GAGGAGGACC AGGAGGAGTT GAGTCCATCT GAGGAGCCTT GGCCCAAGAA GTTTCCAGAG GCTCTTTCTT GGCGAAGTGA TGAAGAGGAT GAAGACAGTG ACTTTGGAGA TGAACAAAGA GACCGTTACC TAAAGGTGAG CCCATCAGCT GAGCACCAGG AATTTTATAC CTTTCTGCAG AGGATTCTCA CCCCAGTGCT GGAGGCCTAC AGTGGGGCAG CAATTTTCAT ACACAGCCTG ACTTCACCCA TTTCTGAGAG AGACTACACA CATCAACTTT TCAAATATCT TTTGACACGC ACAGAAAGAG GAGTTTCTAT GTATGGAGAG AGTGCCACAC ACTACCTCGT AAAGAATACA GTGAAAACAT TCAAGGAGCT TGGGGTGCTA AAAGAACGAC GAGAAGATGG TGTGTGTCGT CTGGAGCTGA GCAGCACCTT CATACCTCAG GCCAACAAGA ACAAACTCTT ACAGTACATA CTGGGTTTTA GTTTGCTGTA A |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.