| Gene Symbol | ACLY |
| Entrez Gene ID | 102986461 |
| Full Name | ATP citrate lyase |
| Gene Type | protein-coding |
| Organism | Physeter catodon(sperm whale) |
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ACLY cDNA ORF clone, Physeter catodon(sperm whale)
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Gene
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Clones
gRNAs
The following ACLY gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ACLY 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 OPh316685 Clone ID Related Accession (Same CDS sequence) XM_028486091.1 Accession Version XM_028486091.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2187bp)
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 1553011200000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021145962.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 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
2161ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGC CTCACCACCG CCGACTTCAT CCCAGACTCC CAGCACCAGG
GACAAGTTTA GATTTCGCTG GGATTTGGGT GGAAGACAGA ATGGAGAAGG AGAGAGAGAG
ACCCAGAAGG GAAAGAGCGC CACCCTCTTC AGCCGCCATA CCAAGGCCAT CGTGTGGGGC
ATGCAGACCC GGGCCGTGCA GGGCATGCTG GACTTTGACT ACGTCTGCTC CCGCGACGAG
CCCTCGGTGG CTGCCATGGT CTACCCTTTC ACCGGGGACC ACAAACAGAA GTTTTACTGG
GGTCACAAGG AGATCCTGAT CCCCGTCTTC AAGAACATGG CTGATGCCAT GAAGAAACAC
CCGGAGGTGG ACGTGCTGAT CAGCTTTGCC TCCCTGCGCT CGGCCTATGA CAGCACCATC
GAAACCATGA ATCACGCACA GATCCGGACC ATCGCCATCA TAGCTGAAGG CATCCCCGAG
GCCCTCACGA GGAAGCTGAT CAAGAAGGCG GAGCAGAAGG GAGTGACCAT CATTGGACCT
GCCACTGTTG GTGGCATCAA GCCCGGGTGC TTTAAGATTG GGAACACCGG CGGGATGCTG
GACAACATCC TGGCCTCCAA GCTGTACCGC CCCGGCAGCG TGGCCTATGT CTCGCGTTCG
GGCGGCATGT CCAACGAGCT CAACAATATC ATCTCTCGGA CCACGGACGG CGTCTACGAG
GGCGTGGCCA TCGGCGGGGA CAGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028341892.1 CDS 147..2333 Translation 
Target ORF information:
RefSeq Version XM_028486091.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP-citrate synthase (LOC102986461), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_028486091.1
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
2161ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGC CTCACCACCG CCGACTTCAT CCCAGACTCC CAGCACCAGG
GACAAGTTTA GATTTCGCTG GGATTTGGGT GGAAGACAGA ATGGAGAAGG AGAGAGAGAG
ACCCAGAAGG GAAAGAGCGC CACCCTCTTC AGCCGCCATA CCAAGGCCAT CGTGTGGGGC
ATGCAGACCC GGGCCGTGCA GGGCATGCTG GACTTTGACT ACGTCTGCTC CCGCGACGAG
CCCTCGGTGG CTGCCATGGT CTACCCTTTC ACCGGGGACC ACAAACAGAA GTTTTACTGG
GGTCACAAGG AGATCCTGAT CCCCGTCTTC AAGAACATGG CTGATGCCAT GAAGAAACAC
CCGGAGGTGG ACGTGCTGAT CAGCTTTGCC TCCCTGCGCT CGGCCTATGA CAGCACCATC
GAAACCATGA ATCACGCACA GATCCGGACC ATCGCCATCA TAGCTGAAGG CATCCCCGAG
GCCCTCACGA GGAAGCTGAT CAAGAAGGCG GAGCAGAAGG GAGTGACCAT CATTGGACCT
GCCACTGTTG GTGGCATCAA GCCCGGGTGC TTTAAGATTG GGAACACCGG CGGGATGCTG
GACAACATCC TGGCCTCCAA GCTGTACCGC CCCGGCAGCG TGGCCTATGT CTCGCGTTCG
GGCGGCATGT CCAACGAGCT CAACAATATC ATCTCTCGGA CCACGGACGG CGTCTACGAG
GGCGTGGCCA TCGGCGGGGA CAGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh316686 Clone ID Related Accession (Same CDS sequence) XM_028486092.1 Accession Version XM_028486092.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2076bp)
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 1553011200000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021145962.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 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
2041ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGG AAAGAGCGCC ACCCTCTTCA GCCGCCATAC CAAGGCCATC
GTGTGGGGCA TGCAGACCCG GGCCGTGCAG GGCATGCTGG ACTTTGACTA CGTCTGCTCC
CGCGACGAGC CCTCGGTGGC TGCCATGGTC TACCCTTTCA CCGGGGACCA CAAACAGAAG
TTTTACTGGG GTCACAAGGA GATCCTGATC CCCGTCTTCA AGAACATGGC TGATGCCATG
AAGAAACACC CGGAGGTGGA CGTGCTGATC AGCTTTGCCT CCCTGCGCTC GGCCTATGAC
AGCACCATCG AAACCATGAA TCACGCACAG ATCCGGACCA TCGCCATCAT AGCTGAAGGC
ATCCCCGAGG CCCTCACGAG GAAGCTGATC AAGAAGGCGG AGCAGAAGGG AGTGACCATC
ATTGGACCTG CCACTGTTGG TGGCATCAAG CCCGGGTGCT TTAAGATTGG GAACACCGGC
GGGATGCTGG ACAACATCCT GGCCTCCAAG CTGTACCGCC CCGGCAGCGT GGCCTATGTC
TCGCGTTCGG GCGGCATGTC CAACGAGCTC AACAATATCA TCTCTCGGAC CACGGACGGC
GTCTACGAGG GCGTGGCCAT CGGCGGGGAC AGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028341893.1 CDS 146..2221 Translation
Target ORF information:
RefSeq Version XM_028486092.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP-citrate synthase (LOC102986461), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028486092.1
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
2041ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGG AAAGAGCGCC ACCCTCTTCA GCCGCCATAC CAAGGCCATC
GTGTGGGGCA TGCAGACCCG GGCCGTGCAG GGCATGCTGG ACTTTGACTA CGTCTGCTCC
CGCGACGAGC CCTCGGTGGC TGCCATGGTC TACCCTTTCA CCGGGGACCA CAAACAGAAG
TTTTACTGGG GTCACAAGGA GATCCTGATC CCCGTCTTCA AGAACATGGC TGATGCCATG
AAGAAACACC CGGAGGTGGA CGTGCTGATC AGCTTTGCCT CCCTGCGCTC GGCCTATGAC
AGCACCATCG AAACCATGAA TCACGCACAG ATCCGGACCA TCGCCATCAT AGCTGAAGGC
ATCCCCGAGG CCCTCACGAG GAAGCTGATC AAGAAGGCGG AGCAGAAGGG AGTGACCATC
ATTGGACCTG CCACTGTTGG TGGCATCAAG CCCGGGTGCT TTAAGATTGG GAACACCGGC
GGGATGCTGG ACAACATCCT GGCCTCCAAG CTGTACCGCC CCGGCAGCGT GGCCTATGTC
TCGCGTTCGG GCGGCATGTC CAACGAGCTC AACAATATCA TCTCTCGGAC CACGGACGGC
GTCTACGAGG GCGTGGCCAT CGGCGGGGAC AGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh316687 Clone ID Related Accession (Same CDS sequence) XM_028486093.1 Accession Version XM_028486093.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2046bp)
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 1553011200000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021145962.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 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
2041ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGG AAAGAGCGCC
ACCCTCTTCA GCCGCCATAC CAAGGCCATC GTGTGGGGCA TGCAGACCCG GGCCGTGCAG
GGCATGCTGG ACTTTGACTA CGTCTGCTCC CGCGACGAGC CCTCGGTGGC TGCCATGGTC
TACCCTTTCA CCGGGGACCA CAAACAGAAG TTTTACTGGG GTCACAAGGA GATCCTGATC
CCCGTCTTCA AGAACATGGC TGATGCCATG AAGAAACACC CGGAGGTGGA CGTGCTGATC
AGCTTTGCCT CCCTGCGCTC GGCCTATGAC AGCACCATCG AAACCATGAA TCACGCACAG
ATCCGGACCA TCGCCATCAT AGCTGAAGGC ATCCCCGAGG CCCTCACGAG GAAGCTGATC
AAGAAGGCGG AGCAGAAGGG AGTGACCATC ATTGGACCTG CCACTGTTGG TGGCATCAAG
CCCGGGTGCT TTAAGATTGG GAACACCGGC GGGATGCTGG ACAACATCCT GGCCTCCAAG
CTGTACCGCC CCGGCAGCGT GGCCTATGTC TCGCGTTCGG GCGGCATGTC CAACGAGCTC
AACAATATCA TCTCTCGGAC CACGGACGGC GTCTACGAGG GCGTGGCCAT CGGCGGGGAC
AGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028341894.1 CDS 146..2191 Translation
Target ORF information:
RefSeq Version XM_028486093.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP-citrate synthase (LOC102986461), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028486093.1
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
2041ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGG AAAGAGCGCC
ACCCTCTTCA GCCGCCATAC CAAGGCCATC GTGTGGGGCA TGCAGACCCG GGCCGTGCAG
GGCATGCTGG ACTTTGACTA CGTCTGCTCC CGCGACGAGC CCTCGGTGGC TGCCATGGTC
TACCCTTTCA CCGGGGACCA CAAACAGAAG TTTTACTGGG GTCACAAGGA GATCCTGATC
CCCGTCTTCA AGAACATGGC TGATGCCATG AAGAAACACC CGGAGGTGGA CGTGCTGATC
AGCTTTGCCT CCCTGCGCTC GGCCTATGAC AGCACCATCG AAACCATGAA TCACGCACAG
ATCCGGACCA TCGCCATCAT AGCTGAAGGC ATCCCCGAGG CCCTCACGAG GAAGCTGATC
AAGAAGGCGG AGCAGAAGGG AGTGACCATC ATTGGACCTG CCACTGTTGG TGGCATCAAG
CCCGGGTGCT TTAAGATTGG GAACACCGGC GGGATGCTGG ACAACATCCT GGCCTCCAAG
CTGTACCGCC CCGGCAGCGT GGCCTATGTC TCGCGTTCGG GCGGCATGTC CAACGAGCTC
AACAATATCA TCTCTCGGAC CACGGACGGC GTCTACGAGG GCGTGGCCAT CGGCGGGGAC
AGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh126576 Clone ID Related Accession (Same CDS sequence) XM_007129056.1 Accession Version XM_007129056.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3417bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006724343.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG TGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGC CTCACCACCG CCGACTTCAT CCCAGACTCC CAGCACCAGG
GACAAGTTTA GATTTCGCTG GGATTTGGGT GGAAGACAGA ATGGAGAAGG AGAGAGAGAG
ACCCAGAAGG GAAAGAGCGC CACCCTCTTC AGCCGCCATA CCAAGGCCAT CGTGTGGGGC
ATGCAGACCC GGGCCGTGCA GGGCATGCTG GACTTTGACT ACGTCTGCTC CCGCGACGAG
CCCTCGGTGG CTGCCATGGT CTACCCTTTC ACCGGGGACC ACAAACAGAA GTTTTACTGG
GGTCACAAGG AGATCCTGAT CCCCGTCTTC AAGAACATGG CTGATGCCAT GAAGAAACAC
CCGGAGGTGG ACGTGCTGAT CAGCTTTGCC TCCCTGCGCT CGGCCTATGA CAGCACCATC
GAAACCATGA ATCACGCACA GATCCGGACC ATCGCCATCA TAGCTGAAGG CATCCCCGAG
GCCCTCACGA GGAAGCTGAT CAAGAAGGCG GAGCAGAAGG GAGTGACCAT CATTGGACCT
GCCACTGTTG GTGGCATCAA GCCCGGGTGC TTTAAGATTG GGAACACCGG CGGGATGCTG
GACAACATCC TGGCCTCCAA GCTGTACCGC CCCGGCAGCG TGGCCTATGT CTCGCGTTCG
GGCGGCATGT CCAACGAGCT CAACAATATC ATCTCTCGGA CCACGGACGG CGTCTACGAG
GGCGTGGCCA TCGGCGGGGA CAGGTACCCC GGCTCAACAT TCATGGATCA TGTGTTACGT
TACCAGGACA CTCCAGGAGT CAAAATGATT GTGGTTCTTG GAGAGATAGG GGGCACGGAG
GAATATAAGA TCTGCCGGGG CATCAAGGAG GGCCGCATCA CCAAGCCCGT GGTCTCCTGG
TGCATCGGGA CCTGTGCCAC CATGTTCTCC TCTGAGGTAC AGTTCGGCCA CGCTGGAGCT
TGTGCCAATC AGGCTTCTGA AACTGCAGTA GCCAAAAACC AGGCTTTGAA GGAGGCCGGA
GTGTTTGTGC CCCGGAGCTT CGATGAGCTT GGAGAGATCA TCCAGTCCGT GTATGAGGAT
CTCGTGGCCA GAGGGGTCAT CATACCTGCT CAGGAGGTGC CGCCCCCGAC GGTACCCATG
GACTACTCTT GGGCCAGGGA GCTGGGCCTG ATCCGCAAAC CTGCCTCGTT CATGACCAGC
ATCTGTGATG AGCGAGGACA GGAGCTCATC TACGCGGGCA TGCCCATCAC TGAGGTCTTC
AAGGAGGAGA TGGGCATCGG CGGGGTCCTC GGCCTCCTCT GGTTCCAGAA AAGGTTGCCC
AAGTACTCCT GCCAGTTCAT CGAGATGTGC CTGATGGTGA CGGCTGATCA CGGGCCAGCC
GTCTCTGGGG CTCACAACAC CATCATCTGT GCTCGGGCCG GGAAGGACCT GGTTTCCAGC
CTCACCTCAG GACTGCTCAC CATCGGTGAC CGGTTTGGGG GTGCCCTGGA TGCAGCAGCC
AAGATGTTCA GCAAGGCCTT TGACAGTGGC ATCATCCCCA TGGAGTTTGT GAACAAGATG
AAGAAGGAAG GAAAACTCAT CATGGGCATT GGTCACCGAG TGAAATCGAT AAACAACCCA
GACATGCGCG TGCAAATCCT CAAAGACTAC GTCAGACAGC ACTTCCCTGC CACACCCCTG
CTTGACTATG CGCTGGAAGT AGAGAAGATT ACCACCTCGA AGAAACCAAA CCTTATCCTG
AATGTAGACG GTTTAATTGG AGTTGCATTT GTAGACATGC TCAGAAACTG TGGGTCCTTC
ACTCGGGAGG AAGCTGATGA ATATATTGAC ATTGGAGCCC TCAATGGCAT CTTTGTGCTG
GGAAGGAGTA TGGGCTTCAT TGGACACTAT CTTGATCAGA AGAGGCTGAA GCAGGGGCTG
TATCGTCACC CATGGGATGA TATTTCATAT GTTCTTCCGG AACACATGAG CATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007129118.1 CDS 128..3544 Translation
Target ORF information:
RefSeq Version XM_007129056.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP citrate lyase (ACLY), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007129056.1
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
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG TGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGC CTCACCACCG CCGACTTCAT CCCAGACTCC CAGCACCAGG
GACAAGTTTA GATTTCGCTG GGATTTGGGT GGAAGACAGA ATGGAGAAGG AGAGAGAGAG
ACCCAGAAGG GAAAGAGCGC CACCCTCTTC AGCCGCCATA CCAAGGCCAT CGTGTGGGGC
ATGCAGACCC GGGCCGTGCA GGGCATGCTG GACTTTGACT ACGTCTGCTC CCGCGACGAG
CCCTCGGTGG CTGCCATGGT CTACCCTTTC ACCGGGGACC ACAAACAGAA GTTTTACTGG
GGTCACAAGG AGATCCTGAT CCCCGTCTTC AAGAACATGG CTGATGCCAT GAAGAAACAC
CCGGAGGTGG ACGTGCTGAT CAGCTTTGCC TCCCTGCGCT CGGCCTATGA CAGCACCATC
GAAACCATGA ATCACGCACA GATCCGGACC ATCGCCATCA TAGCTGAAGG CATCCCCGAG
GCCCTCACGA GGAAGCTGAT CAAGAAGGCG GAGCAGAAGG GAGTGACCAT CATTGGACCT
GCCACTGTTG GTGGCATCAA GCCCGGGTGC TTTAAGATTG GGAACACCGG CGGGATGCTG
GACAACATCC TGGCCTCCAA GCTGTACCGC CCCGGCAGCG TGGCCTATGT CTCGCGTTCG
GGCGGCATGT CCAACGAGCT CAACAATATC ATCTCTCGGA CCACGGACGG CGTCTACGAG
GGCGTGGCCA TCGGCGGGGA CAGGTACCCC GGCTCAACAT TCATGGATCA TGTGTTACGT
TACCAGGACA CTCCAGGAGT CAAAATGATT GTGGTTCTTG GAGAGATAGG GGGCACGGAG
GAATATAAGA TCTGCCGGGG CATCAAGGAG GGCCGCATCA CCAAGCCCGT GGTCTCCTGG
TGCATCGGGA CCTGTGCCAC CATGTTCTCC TCTGAGGTAC AGTTCGGCCA CGCTGGAGCT
TGTGCCAATC AGGCTTCTGA AACTGCAGTA GCCAAAAACC AGGCTTTGAA GGAGGCCGGA
GTGTTTGTGC CCCGGAGCTT CGATGAGCTT GGAGAGATCA TCCAGTCCGT GTATGAGGAT
CTCGTGGCCA GAGGGGTCAT CATACCTGCT CAGGAGGTGC CGCCCCCGAC GGTACCCATG
GACTACTCTT GGGCCAGGGA GCTGGGCCTG ATCCGCAAAC CTGCCTCGTT CATGACCAGC
ATCTGTGATG AGCGAGGACA GGAGCTCATC TACGCGGGCA TGCCCATCAC TGAGGTCTTC
AAGGAGGAGA TGGGCATCGG CGGGGTCCTC GGCCTCCTCT GGTTCCAGAA AAGGTTGCCC
AAGTACTCCT GCCAGTTCAT CGAGATGTGC CTGATGGTGA CGGCTGATCA CGGGCCAGCC
GTCTCTGGGG CTCACAACAC CATCATCTGT GCTCGGGCCG GGAAGGACCT GGTTTCCAGC
CTCACCTCAG GACTGCTCAC CATCGGTGAC CGGTTTGGGG GTGCCCTGGA TGCAGCAGCC
AAGATGTTCA GCAAGGCCTT TGACAGTGGC ATCATCCCCA TGGAGTTTGT GAACAAGATG
AAGAAGGAAG GAAAACTCAT CATGGGCATT GGTCACCGAG TGAAATCGAT AAACAACCCA
GACATGCGCG TGCAAATCCT CAAAGACTAC GTCAGACAGC ACTTCCCTGC CACACCCCTG
CTTGACTATG CGCTGGAAGT AGAGAAGATT ACCACCTCGA AGAAACCAAA CCTTATCCTG
AATGTAGACG GTTTAATTGG AGTTGCATTT GTAGACATGC TCAGAAACTG TGGGTCCTTC
ACTCGGGAGG AAGCTGATGA ATATATTGAC ATTGGAGCCC TCAATGGCAT CTTTGTGCTG
GGAAGGAGTA TGGGCTTCAT TGGACACTAT CTTGATCAGA AGAGGCTGAA GCAGGGGCTG
TATCGTCACC CATGGGATGA TATTTCATAT GTTCTTCCGG AACACATGAG CATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh126577 Clone ID Related Accession (Same CDS sequence) XM_007129057.1 Accession Version XM_007129057.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3306bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006724343.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG TGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGG AAAGAGCGCC ACCCTCTTCA GCCGCCATAC CAAGGCCATC
GTGTGGGGCA TGCAGACCCG GGCCGTGCAG GGCATGCTGG ACTTTGACTA CGTCTGCTCC
CGCGACGAGC CCTCGGTGGC TGCCATGGTC TACCCTTTCA CCGGGGACCA CAAACAGAAG
TTTTACTGGG GTCACAAGGA GATCCTGATC CCCGTCTTCA AGAACATGGC TGATGCCATG
AAGAAACACC CGGAGGTGGA CGTGCTGATC AGCTTTGCCT CCCTGCGCTC GGCCTATGAC
AGCACCATCG AAACCATGAA TCACGCACAG ATCCGGACCA TCGCCATCAT AGCTGAAGGC
ATCCCCGAGG CCCTCACGAG GAAGCTGATC AAGAAGGCGG AGCAGAAGGG AGTGACCATC
ATTGGACCTG CCACTGTTGG TGGCATCAAG CCCGGGTGCT TTAAGATTGG GAACACCGGC
GGGATGCTGG ACAACATCCT GGCCTCCAAG CTGTACCGCC CCGGCAGCGT GGCCTATGTC
TCGCGTTCGG GCGGCATGTC CAACGAGCTC AACAATATCA TCTCTCGGAC CACGGACGGC
GTCTACGAGG GCGTGGCCAT CGGCGGGGAC AGGTACCCCG GCTCAACATT CATGGATCAT
GTGTTACGTT ACCAGGACAC TCCAGGAGTC AAAATGATTG TGGTTCTTGG AGAGATAGGG
GGCACGGAGG AATATAAGAT CTGCCGGGGC ATCAAGGAGG GCCGCATCAC CAAGCCCGTG
GTCTCCTGGT GCATCGGGAC CTGTGCCACC ATGTTCTCCT CTGAGGTACA GTTCGGCCAC
GCTGGAGCTT GTGCCAATCA GGCTTCTGAA ACTGCAGTAG CCAAAAACCA GGCTTTGAAG
GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC GATGAGCTTG GAGAGATCAT CCAGTCCGTG
TATGAGGATC TCGTGGCCAG AGGGGTCATC ATACCTGCTC AGGAGGTGCC GCCCCCGACG
GTACCCATGG ACTACTCTTG GGCCAGGGAG CTGGGCCTGA TCCGCAAACC TGCCTCGTTC
ATGACCAGCA TCTGTGATGA GCGAGGACAG GAGCTCATCT ACGCGGGCAT GCCCATCACT
GAGGTCTTCA AGGAGGAGAT GGGCATCGGC GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA
AGGTTGCCCA AGTACTCCTG CCAGTTCATC GAGATGTGCC TGATGGTGAC GGCTGATCAC
GGGCCAGCCG TCTCTGGGGC TCACAACACC ATCATCTGTG CTCGGGCCGG GAAGGACCTG
GTTTCCAGCC TCACCTCAGG ACTGCTCACC ATCGGTGACC GGTTTGGGGG TGCCCTGGAT
GCAGCAGCCA AGATGTTCAG CAAGGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG
AACAAGATGA AGAAGGAAGG AAAACTCATC ATGGGCATTG GTCACCGAGT GAAATCGATA
AACAACCCAG ACATGCGCGT GCAAATCCTC AAAGACTACG TCAGACAGCA CTTCCCTGCC
ACACCCCTGC TTGACTATGC GCTGGAAGTA GAGAAGATTA CCACCTCGAA GAAACCAAAC
CTTATCCTGA ATGTAGACGG TTTAATTGGA GTTGCATTTG TAGACATGCT CAGAAACTGT
GGGTCCTTCA CTCGGGAGGA AGCTGATGAA TATATTGACA TTGGAGCCCT CAATGGCATC
TTTGTGCTGG GAAGGAGTAT GGGCTTCATT GGACACTATC TTGATCAGAA GAGGCTGAAG
CAGGGGCTGT ATCGTCACCC ATGGGATGAT ATTTCATATG TTCTTCCGGA ACACATGAGC
ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007129119.1 CDS 128..3433 Translation
Target ORF information:
RefSeq Version XM_007129057.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP citrate lyase (ACLY), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007129057.1
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
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG TGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGG AAAGAGCGCC ACCCTCTTCA GCCGCCATAC CAAGGCCATC
GTGTGGGGCA TGCAGACCCG GGCCGTGCAG GGCATGCTGG ACTTTGACTA CGTCTGCTCC
CGCGACGAGC CCTCGGTGGC TGCCATGGTC TACCCTTTCA CCGGGGACCA CAAACAGAAG
TTTTACTGGG GTCACAAGGA GATCCTGATC CCCGTCTTCA AGAACATGGC TGATGCCATG
AAGAAACACC CGGAGGTGGA CGTGCTGATC AGCTTTGCCT CCCTGCGCTC GGCCTATGAC
AGCACCATCG AAACCATGAA TCACGCACAG ATCCGGACCA TCGCCATCAT AGCTGAAGGC
ATCCCCGAGG CCCTCACGAG GAAGCTGATC AAGAAGGCGG AGCAGAAGGG AGTGACCATC
ATTGGACCTG CCACTGTTGG TGGCATCAAG CCCGGGTGCT TTAAGATTGG GAACACCGGC
GGGATGCTGG ACAACATCCT GGCCTCCAAG CTGTACCGCC CCGGCAGCGT GGCCTATGTC
TCGCGTTCGG GCGGCATGTC CAACGAGCTC AACAATATCA TCTCTCGGAC CACGGACGGC
GTCTACGAGG GCGTGGCCAT CGGCGGGGAC AGGTACCCCG GCTCAACATT CATGGATCAT
GTGTTACGTT ACCAGGACAC TCCAGGAGTC AAAATGATTG TGGTTCTTGG AGAGATAGGG
GGCACGGAGG AATATAAGAT CTGCCGGGGC ATCAAGGAGG GCCGCATCAC CAAGCCCGTG
GTCTCCTGGT GCATCGGGAC CTGTGCCACC ATGTTCTCCT CTGAGGTACA GTTCGGCCAC
GCTGGAGCTT GTGCCAATCA GGCTTCTGAA ACTGCAGTAG CCAAAAACCA GGCTTTGAAG
GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC GATGAGCTTG GAGAGATCAT CCAGTCCGTG
TATGAGGATC TCGTGGCCAG AGGGGTCATC ATACCTGCTC AGGAGGTGCC GCCCCCGACG
GTACCCATGG ACTACTCTTG GGCCAGGGAG CTGGGCCTGA TCCGCAAACC TGCCTCGTTC
ATGACCAGCA TCTGTGATGA GCGAGGACAG GAGCTCATCT ACGCGGGCAT GCCCATCACT
GAGGTCTTCA AGGAGGAGAT GGGCATCGGC GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA
AGGTTGCCCA AGTACTCCTG CCAGTTCATC GAGATGTGCC TGATGGTGAC GGCTGATCAC
GGGCCAGCCG TCTCTGGGGC TCACAACACC ATCATCTGTG CTCGGGCCGG GAAGGACCTG
GTTTCCAGCC TCACCTCAGG ACTGCTCACC ATCGGTGACC GGTTTGGGGG TGCCCTGGAT
GCAGCAGCCA AGATGTTCAG CAAGGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG
AACAAGATGA AGAAGGAAGG AAAACTCATC ATGGGCATTG GTCACCGAGT GAAATCGATA
AACAACCCAG ACATGCGCGT GCAAATCCTC AAAGACTACG TCAGACAGCA CTTCCCTGCC
ACACCCCTGC TTGACTATGC GCTGGAAGTA GAGAAGATTA CCACCTCGAA GAAACCAAAC
CTTATCCTGA ATGTAGACGG TTTAATTGGA GTTGCATTTG TAGACATGCT CAGAAACTGT
GGGTCCTTCA CTCGGGAGGA AGCTGATGAA TATATTGACA TTGGAGCCCT CAATGGCATC
TTTGTGCTGG GAAGGAGTAT GGGCTTCATT GGACACTATC TTGATCAGAA GAGGCTGAAG
CAGGGGCTGT ATCGTCACCC ATGGGATGAT ATTTCATATG TTCTTCCGGA ACACATGAGC
ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh126578 Clone ID Related Accession (Same CDS sequence) XM_007129058.1 Accession Version XM_007129058.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3276bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006724343.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
2821
2881
2941
3001
3061
3121
3181
3241ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG TGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGG AAAGAGCGCC
ACCCTCTTCA GCCGCCATAC CAAGGCCATC GTGTGGGGCA TGCAGACCCG GGCCGTGCAG
GGCATGCTGG ACTTTGACTA CGTCTGCTCC CGCGACGAGC CCTCGGTGGC TGCCATGGTC
TACCCTTTCA CCGGGGACCA CAAACAGAAG TTTTACTGGG GTCACAAGGA GATCCTGATC
CCCGTCTTCA AGAACATGGC TGATGCCATG AAGAAACACC CGGAGGTGGA CGTGCTGATC
AGCTTTGCCT CCCTGCGCTC GGCCTATGAC AGCACCATCG AAACCATGAA TCACGCACAG
ATCCGGACCA TCGCCATCAT AGCTGAAGGC ATCCCCGAGG CCCTCACGAG GAAGCTGATC
AAGAAGGCGG AGCAGAAGGG AGTGACCATC ATTGGACCTG CCACTGTTGG TGGCATCAAG
CCCGGGTGCT TTAAGATTGG GAACACCGGC GGGATGCTGG ACAACATCCT GGCCTCCAAG
CTGTACCGCC CCGGCAGCGT GGCCTATGTC TCGCGTTCGG GCGGCATGTC CAACGAGCTC
AACAATATCA TCTCTCGGAC CACGGACGGC GTCTACGAGG GCGTGGCCAT CGGCGGGGAC
AGGTACCCCG GCTCAACATT CATGGATCAT GTGTTACGTT ACCAGGACAC TCCAGGAGTC
AAAATGATTG TGGTTCTTGG AGAGATAGGG GGCACGGAGG AATATAAGAT CTGCCGGGGC
ATCAAGGAGG GCCGCATCAC CAAGCCCGTG GTCTCCTGGT GCATCGGGAC CTGTGCCACC
ATGTTCTCCT CTGAGGTACA GTTCGGCCAC GCTGGAGCTT GTGCCAATCA GGCTTCTGAA
ACTGCAGTAG CCAAAAACCA GGCTTTGAAG GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC
GATGAGCTTG GAGAGATCAT CCAGTCCGTG TATGAGGATC TCGTGGCCAG AGGGGTCATC
ATACCTGCTC AGGAGGTGCC GCCCCCGACG GTACCCATGG ACTACTCTTG GGCCAGGGAG
CTGGGCCTGA TCCGCAAACC TGCCTCGTTC ATGACCAGCA TCTGTGATGA GCGAGGACAG
GAGCTCATCT ACGCGGGCAT GCCCATCACT GAGGTCTTCA AGGAGGAGAT GGGCATCGGC
GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA AGGTTGCCCA AGTACTCCTG CCAGTTCATC
GAGATGTGCC TGATGGTGAC GGCTGATCAC GGGCCAGCCG TCTCTGGGGC TCACAACACC
ATCATCTGTG CTCGGGCCGG GAAGGACCTG GTTTCCAGCC TCACCTCAGG ACTGCTCACC
ATCGGTGACC GGTTTGGGGG TGCCCTGGAT GCAGCAGCCA AGATGTTCAG CAAGGCCTTT
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAGGAAGG AAAACTCATC
ATGGGCATTG GTCACCGAGT GAAATCGATA AACAACCCAG ACATGCGCGT GCAAATCCTC
AAAGACTACG TCAGACAGCA CTTCCCTGCC ACACCCCTGC TTGACTATGC GCTGGAAGTA
GAGAAGATTA CCACCTCGAA GAAACCAAAC CTTATCCTGA ATGTAGACGG TTTAATTGGA
GTTGCATTTG TAGACATGCT CAGAAACTGT GGGTCCTTCA CTCGGGAGGA AGCTGATGAA
TATATTGACA TTGGAGCCCT CAATGGCATC TTTGTGCTGG GAAGGAGTAT GGGCTTCATT
GGACACTATC TTGATCAGAA GAGGCTGAAG CAGGGGCTGT ATCGTCACCC ATGGGATGAT
ATTTCATATG TTCTTCCGGA ACACATGAGC ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007129120.1 CDS 128..3403 Translation
Target ORF information:
RefSeq Version XM_007129058.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP citrate lyase (ACLY), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007129058.1
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
2821
2881
2941
3001
3061
3121
3181
3241ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG TGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGG AAAGAGCGCC
ACCCTCTTCA GCCGCCATAC CAAGGCCATC GTGTGGGGCA TGCAGACCCG GGCCGTGCAG
GGCATGCTGG ACTTTGACTA CGTCTGCTCC CGCGACGAGC CCTCGGTGGC TGCCATGGTC
TACCCTTTCA CCGGGGACCA CAAACAGAAG TTTTACTGGG GTCACAAGGA GATCCTGATC
CCCGTCTTCA AGAACATGGC TGATGCCATG AAGAAACACC CGGAGGTGGA CGTGCTGATC
AGCTTTGCCT CCCTGCGCTC GGCCTATGAC AGCACCATCG AAACCATGAA TCACGCACAG
ATCCGGACCA TCGCCATCAT AGCTGAAGGC ATCCCCGAGG CCCTCACGAG GAAGCTGATC
AAGAAGGCGG AGCAGAAGGG AGTGACCATC ATTGGACCTG CCACTGTTGG TGGCATCAAG
CCCGGGTGCT TTAAGATTGG GAACACCGGC GGGATGCTGG ACAACATCCT GGCCTCCAAG
CTGTACCGCC CCGGCAGCGT GGCCTATGTC TCGCGTTCGG GCGGCATGTC CAACGAGCTC
AACAATATCA TCTCTCGGAC CACGGACGGC GTCTACGAGG GCGTGGCCAT CGGCGGGGAC
AGGTACCCCG GCTCAACATT CATGGATCAT GTGTTACGTT ACCAGGACAC TCCAGGAGTC
AAAATGATTG TGGTTCTTGG AGAGATAGGG GGCACGGAGG AATATAAGAT CTGCCGGGGC
ATCAAGGAGG GCCGCATCAC CAAGCCCGTG GTCTCCTGGT GCATCGGGAC CTGTGCCACC
ATGTTCTCCT CTGAGGTACA GTTCGGCCAC GCTGGAGCTT GTGCCAATCA GGCTTCTGAA
ACTGCAGTAG CCAAAAACCA GGCTTTGAAG GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC
GATGAGCTTG GAGAGATCAT CCAGTCCGTG TATGAGGATC TCGTGGCCAG AGGGGTCATC
ATACCTGCTC AGGAGGTGCC GCCCCCGACG GTACCCATGG ACTACTCTTG GGCCAGGGAG
CTGGGCCTGA TCCGCAAACC TGCCTCGTTC ATGACCAGCA TCTGTGATGA GCGAGGACAG
GAGCTCATCT ACGCGGGCAT GCCCATCACT GAGGTCTTCA AGGAGGAGAT GGGCATCGGC
GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA AGGTTGCCCA AGTACTCCTG CCAGTTCATC
GAGATGTGCC TGATGGTGAC GGCTGATCAC GGGCCAGCCG TCTCTGGGGC TCACAACACC
ATCATCTGTG CTCGGGCCGG GAAGGACCTG GTTTCCAGCC TCACCTCAGG ACTGCTCACC
ATCGGTGACC GGTTTGGGGG TGCCCTGGAT GCAGCAGCCA AGATGTTCAG CAAGGCCTTT
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAGGAAGG AAAACTCATC
ATGGGCATTG GTCACCGAGT GAAATCGATA AACAACCCAG ACATGCGCGT GCAAATCCTC
AAAGACTACG TCAGACAGCA CTTCCCTGCC ACACCCCTGC TTGACTATGC GCTGGAAGTA
GAGAAGATTA CCACCTCGAA GAAACCAAAC CTTATCCTGA ATGTAGACGG TTTAATTGGA
GTTGCATTTG TAGACATGCT CAGAAACTGT GGGTCCTTCA CTCGGGAGGA AGCTGATGAA
TATATTGACA TTGGAGCCCT CAATGGCATC TTTGTGCTGG GAAGGAGTAT GGGCTTCATT
GGACACTATC TTGATCAGAA GAGGCTGAAG CAGGGGCTGT ATCGTCACCC ATGGGATGAT
ATTTCATATG TTCTTCCGGA ACACATGAGC ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh298977 Clone ID Related Accession (Same CDS sequence) XM_007129056.2 Accession Version XM_007129056.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3417bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873583.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 23, 2018 this sequence version replaced XM_007129056.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGC CTCACCACCG CCGACTTCAT CCCAGACTCC CAGCACCAGG
GACAAGTTTA GATTTCGCTG GGATTTGGGT GGAAGACAGA ATGGAGAAGG AGAGAGAGAG
ACCCAGAAGG GAAAGAGCGC CACCCTCTTC AGCCGCCATA CCAAGGCCAT CGTGTGGGGC
ATGCAGACCC GGGCCGTGCA GGGCATGCTG GACTTTGACT ACGTCTGCTC CCGCGACGAG
CCCTCGGTGG CTGCCATGGT CTACCCTTTC ACCGGGGACC ACAAACAGAA GTTTTACTGG
GGTCACAAGG AGATCCTGAT CCCCGTCTTC AAGAACATGG CTGATGCCAT GAAGAAACAC
CCGGAGGTGG ACGTGCTGAT CAGCTTTGCC TCCCTGCGCT CGGCCTATGA CAGCACCATC
GAAACCATGA ATCACGCACA GATCCGGACC ATCGCCATCA TAGCTGAAGG CATCCCCGAG
GCCCTCACGA GGAAGCTGAT CAAGAAGGCG GAGCAGAAGG GAGTGACCAT CATTGGACCT
GCCACTGTTG GTGGCATCAA GCCCGGGTGC TTTAAGATTG GGAACACCGG CGGGATGCTG
GACAACATCC TGGCCTCCAA GCTGTACCGC CCCGGCAGCG TGGCCTATGT CTCGCGTTCG
GGCGGCATGT CCAACGAGCT CAACAATATC ATCTCTCGGA CCACGGACGG CGTCTACGAG
GGCGTGGCCA TCGGCGGGGA CAGGTACCCC GGCTCAACAT TCATGGATCA TGTGTTACGT
TACCAGGACA CTCCAGGAGT CAAAATGATT GTGGTTCTTG GAGAGATAGG GGGCACGGAG
GAATATAAGA TCTGCCGGGG CATCAAGGAG GGCCGCATCA CCAAGCCCGT GGTCTCCTGG
TGCATCGGGA CCTGTGCCAC CATGTTCTCC TCTGAGGTAC AGTTCGGCCA CGCTGGAGCT
TGTGCCAATC AGGCTTCTGA AACTGCAGTA GCCAAAAACC AGGCTTTGAA GGAGGCCGGA
GTGTTTGTGC CCCGGAGCTT CGATGAGCTT GGAGAGATCA TCCAGTCCGT GTATGAGGAT
CTCGTGGCCA GAGGGGTCAT CATACCTGCT CAGGAGGTGC CGCCCCCGAC GGTACCCATG
GACTACTCTT GGGCCAGGGA GCTGGGCCTG ATCCGCAAAC CTGCCTCGTT CATGACCAGC
ATCTGTGATG AGCGAGGACA GGAGCTCATC TACGCGGGCA TGCCCATCAC TGAGGTCTTC
AAGGAGGAGA TGGGCATCGG CGGGGTCCTC GGCCTCCTCT GGTTCCAGAA AAGGTTGCCC
AAGTACTCCT GCCAGTTCAT CGAGATGTGC CTGATGGTGA CGGCTGATCA CGGGCCAGCC
GTCTCTGGGG CTCACAACAC CATCATCTGT GCTCGGGCCG GGAAGGACCT GGTTTCCAGC
CTCACCTCAG GACTGCTCAC CATCGGTGAC CGGTTTGGGG GTGCCCTGGA TGCAGCAGCC
AAGATGTTCA GCAAGGCCTT TGACAGTGGC ATCATCCCCA TGGAGTTTGT GAACAAGATG
AAGAAGGAAG GAAAACTCAT CATGGGCATT GGTCACCGAG TGAAATCGAT AAACAACCCA
GACATGCGCG TGCAAATCCT CAAAGACTAC GTCAGACAGC ACTTCCCTGC CACACCCCTG
CTTGACTATG CGCTGGAAGT AGAGAAGATT ACCACCTCGA AGAAACCAAA CCTTATCCTG
AATGTAGACG GTTTAATTGG AGTTGCATTT GTAGACATGC TCAGAAACTG TGGGTCCTTC
ACTCGGGAGG AAGCTGATGA ATATATTGAC ATTGGAGCCC TCAATGGCAT CTTTGTGCTG
GGAAGGAGTA TGGGCTTCAT TGGACACTAT CTTGATCAGA AGAGGCTGAA GCAGGGGCTG
TATCGTCACC CATGGGATGA TATTTCATAT GTTCTTCCGG AACACATGAG CATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007129118.1 CDS 128..3544 Translation
Target ORF information:
RefSeq Version XM_007129056.2 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP citrate lyase (ACLY), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007129056.2
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
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGC CTCACCACCG CCGACTTCAT CCCAGACTCC CAGCACCAGG
GACAAGTTTA GATTTCGCTG GGATTTGGGT GGAAGACAGA ATGGAGAAGG AGAGAGAGAG
ACCCAGAAGG GAAAGAGCGC CACCCTCTTC AGCCGCCATA CCAAGGCCAT CGTGTGGGGC
ATGCAGACCC GGGCCGTGCA GGGCATGCTG GACTTTGACT ACGTCTGCTC CCGCGACGAG
CCCTCGGTGG CTGCCATGGT CTACCCTTTC ACCGGGGACC ACAAACAGAA GTTTTACTGG
GGTCACAAGG AGATCCTGAT CCCCGTCTTC AAGAACATGG CTGATGCCAT GAAGAAACAC
CCGGAGGTGG ACGTGCTGAT CAGCTTTGCC TCCCTGCGCT CGGCCTATGA CAGCACCATC
GAAACCATGA ATCACGCACA GATCCGGACC ATCGCCATCA TAGCTGAAGG CATCCCCGAG
GCCCTCACGA GGAAGCTGAT CAAGAAGGCG GAGCAGAAGG GAGTGACCAT CATTGGACCT
GCCACTGTTG GTGGCATCAA GCCCGGGTGC TTTAAGATTG GGAACACCGG CGGGATGCTG
GACAACATCC TGGCCTCCAA GCTGTACCGC CCCGGCAGCG TGGCCTATGT CTCGCGTTCG
GGCGGCATGT CCAACGAGCT CAACAATATC ATCTCTCGGA CCACGGACGG CGTCTACGAG
GGCGTGGCCA TCGGCGGGGA CAGGTACCCC GGCTCAACAT TCATGGATCA TGTGTTACGT
TACCAGGACA CTCCAGGAGT CAAAATGATT GTGGTTCTTG GAGAGATAGG GGGCACGGAG
GAATATAAGA TCTGCCGGGG CATCAAGGAG GGCCGCATCA CCAAGCCCGT GGTCTCCTGG
TGCATCGGGA CCTGTGCCAC CATGTTCTCC TCTGAGGTAC AGTTCGGCCA CGCTGGAGCT
TGTGCCAATC AGGCTTCTGA AACTGCAGTA GCCAAAAACC AGGCTTTGAA GGAGGCCGGA
GTGTTTGTGC CCCGGAGCTT CGATGAGCTT GGAGAGATCA TCCAGTCCGT GTATGAGGAT
CTCGTGGCCA GAGGGGTCAT CATACCTGCT CAGGAGGTGC CGCCCCCGAC GGTACCCATG
GACTACTCTT GGGCCAGGGA GCTGGGCCTG ATCCGCAAAC CTGCCTCGTT CATGACCAGC
ATCTGTGATG AGCGAGGACA GGAGCTCATC TACGCGGGCA TGCCCATCAC TGAGGTCTTC
AAGGAGGAGA TGGGCATCGG CGGGGTCCTC GGCCTCCTCT GGTTCCAGAA AAGGTTGCCC
AAGTACTCCT GCCAGTTCAT CGAGATGTGC CTGATGGTGA CGGCTGATCA CGGGCCAGCC
GTCTCTGGGG CTCACAACAC CATCATCTGT GCTCGGGCCG GGAAGGACCT GGTTTCCAGC
CTCACCTCAG GACTGCTCAC CATCGGTGAC CGGTTTGGGG GTGCCCTGGA TGCAGCAGCC
AAGATGTTCA GCAAGGCCTT TGACAGTGGC ATCATCCCCA TGGAGTTTGT GAACAAGATG
AAGAAGGAAG GAAAACTCAT CATGGGCATT GGTCACCGAG TGAAATCGAT AAACAACCCA
GACATGCGCG TGCAAATCCT CAAAGACTAC GTCAGACAGC ACTTCCCTGC CACACCCCTG
CTTGACTATG CGCTGGAAGT AGAGAAGATT ACCACCTCGA AGAAACCAAA CCTTATCCTG
AATGTAGACG GTTTAATTGG AGTTGCATTT GTAGACATGC TCAGAAACTG TGGGTCCTTC
ACTCGGGAGG AAGCTGATGA ATATATTGAC ATTGGAGCCC TCAATGGCAT CTTTGTGCTG
GGAAGGAGTA TGGGCTTCAT TGGACACTAT CTTGATCAGA AGAGGCTGAA GCAGGGGCTG
TATCGTCACC CATGGGATGA TATTTCATAT GTTCTTCCGG AACACATGAG CATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh298978 Clone ID Related Accession (Same CDS sequence) XM_007129057.2 Accession Version XM_007129057.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3306bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873583.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 23, 2018 this sequence version replaced XM_007129057.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGG AAAGAGCGCC ACCCTCTTCA GCCGCCATAC CAAGGCCATC
GTGTGGGGCA TGCAGACCCG GGCCGTGCAG GGCATGCTGG ACTTTGACTA CGTCTGCTCC
CGCGACGAGC CCTCGGTGGC TGCCATGGTC TACCCTTTCA CCGGGGACCA CAAACAGAAG
TTTTACTGGG GTCACAAGGA GATCCTGATC CCCGTCTTCA AGAACATGGC TGATGCCATG
AAGAAACACC CGGAGGTGGA CGTGCTGATC AGCTTTGCCT CCCTGCGCTC GGCCTATGAC
AGCACCATCG AAACCATGAA TCACGCACAG ATCCGGACCA TCGCCATCAT AGCTGAAGGC
ATCCCCGAGG CCCTCACGAG GAAGCTGATC AAGAAGGCGG AGCAGAAGGG AGTGACCATC
ATTGGACCTG CCACTGTTGG TGGCATCAAG CCCGGGTGCT TTAAGATTGG GAACACCGGC
GGGATGCTGG ACAACATCCT GGCCTCCAAG CTGTACCGCC CCGGCAGCGT GGCCTATGTC
TCGCGTTCGG GCGGCATGTC CAACGAGCTC AACAATATCA TCTCTCGGAC CACGGACGGC
GTCTACGAGG GCGTGGCCAT CGGCGGGGAC AGGTACCCCG GCTCAACATT CATGGATCAT
GTGTTACGTT ACCAGGACAC TCCAGGAGTC AAAATGATTG TGGTTCTTGG AGAGATAGGG
GGCACGGAGG AATATAAGAT CTGCCGGGGC ATCAAGGAGG GCCGCATCAC CAAGCCCGTG
GTCTCCTGGT GCATCGGGAC CTGTGCCACC ATGTTCTCCT CTGAGGTACA GTTCGGCCAC
GCTGGAGCTT GTGCCAATCA GGCTTCTGAA ACTGCAGTAG CCAAAAACCA GGCTTTGAAG
GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC GATGAGCTTG GAGAGATCAT CCAGTCCGTG
TATGAGGATC TCGTGGCCAG AGGGGTCATC ATACCTGCTC AGGAGGTGCC GCCCCCGACG
GTACCCATGG ACTACTCTTG GGCCAGGGAG CTGGGCCTGA TCCGCAAACC TGCCTCGTTC
ATGACCAGCA TCTGTGATGA GCGAGGACAG GAGCTCATCT ACGCGGGCAT GCCCATCACT
GAGGTCTTCA AGGAGGAGAT GGGCATCGGC GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA
AGGTTGCCCA AGTACTCCTG CCAGTTCATC GAGATGTGCC TGATGGTGAC GGCTGATCAC
GGGCCAGCCG TCTCTGGGGC TCACAACACC ATCATCTGTG CTCGGGCCGG GAAGGACCTG
GTTTCCAGCC TCACCTCAGG ACTGCTCACC ATCGGTGACC GGTTTGGGGG TGCCCTGGAT
GCAGCAGCCA AGATGTTCAG CAAGGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG
AACAAGATGA AGAAGGAAGG AAAACTCATC ATGGGCATTG GTCACCGAGT GAAATCGATA
AACAACCCAG ACATGCGCGT GCAAATCCTC AAAGACTACG TCAGACAGCA CTTCCCTGCC
ACACCCCTGC TTGACTATGC GCTGGAAGTA GAGAAGATTA CCACCTCGAA GAAACCAAAC
CTTATCCTGA ATGTAGACGG TTTAATTGGA GTTGCATTTG TAGACATGCT CAGAAACTGT
GGGTCCTTCA CTCGGGAGGA AGCTGATGAA TATATTGACA TTGGAGCCCT CAATGGCATC
TTTGTGCTGG GAAGGAGTAT GGGCTTCATT GGACACTATC TTGATCAGAA GAGGCTGAAG
CAGGGGCTGT ATCGTCACCC ATGGGATGAT ATTTCATATG TTCTTCCGGA ACACATGAGC
ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007129119.1 CDS 128..3433 Translation
Target ORF information:
RefSeq Version XM_007129057.2 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP citrate lyase (ACLY), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007129057.2
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
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGA TTCAGTCCCA
GGTCCAAGAT CCCCGCAAGG AAAGAGCGCC ACCCTCTTCA GCCGCCATAC CAAGGCCATC
GTGTGGGGCA TGCAGACCCG GGCCGTGCAG GGCATGCTGG ACTTTGACTA CGTCTGCTCC
CGCGACGAGC CCTCGGTGGC TGCCATGGTC TACCCTTTCA CCGGGGACCA CAAACAGAAG
TTTTACTGGG GTCACAAGGA GATCCTGATC CCCGTCTTCA AGAACATGGC TGATGCCATG
AAGAAACACC CGGAGGTGGA CGTGCTGATC AGCTTTGCCT CCCTGCGCTC GGCCTATGAC
AGCACCATCG AAACCATGAA TCACGCACAG ATCCGGACCA TCGCCATCAT AGCTGAAGGC
ATCCCCGAGG CCCTCACGAG GAAGCTGATC AAGAAGGCGG AGCAGAAGGG AGTGACCATC
ATTGGACCTG CCACTGTTGG TGGCATCAAG CCCGGGTGCT TTAAGATTGG GAACACCGGC
GGGATGCTGG ACAACATCCT GGCCTCCAAG CTGTACCGCC CCGGCAGCGT GGCCTATGTC
TCGCGTTCGG GCGGCATGTC CAACGAGCTC AACAATATCA TCTCTCGGAC CACGGACGGC
GTCTACGAGG GCGTGGCCAT CGGCGGGGAC AGGTACCCCG GCTCAACATT CATGGATCAT
GTGTTACGTT ACCAGGACAC TCCAGGAGTC AAAATGATTG TGGTTCTTGG AGAGATAGGG
GGCACGGAGG AATATAAGAT CTGCCGGGGC ATCAAGGAGG GCCGCATCAC CAAGCCCGTG
GTCTCCTGGT GCATCGGGAC CTGTGCCACC ATGTTCTCCT CTGAGGTACA GTTCGGCCAC
GCTGGAGCTT GTGCCAATCA GGCTTCTGAA ACTGCAGTAG CCAAAAACCA GGCTTTGAAG
GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC GATGAGCTTG GAGAGATCAT CCAGTCCGTG
TATGAGGATC TCGTGGCCAG AGGGGTCATC ATACCTGCTC AGGAGGTGCC GCCCCCGACG
GTACCCATGG ACTACTCTTG GGCCAGGGAG CTGGGCCTGA TCCGCAAACC TGCCTCGTTC
ATGACCAGCA TCTGTGATGA GCGAGGACAG GAGCTCATCT ACGCGGGCAT GCCCATCACT
GAGGTCTTCA AGGAGGAGAT GGGCATCGGC GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA
AGGTTGCCCA AGTACTCCTG CCAGTTCATC GAGATGTGCC TGATGGTGAC GGCTGATCAC
GGGCCAGCCG TCTCTGGGGC TCACAACACC ATCATCTGTG CTCGGGCCGG GAAGGACCTG
GTTTCCAGCC TCACCTCAGG ACTGCTCACC ATCGGTGACC GGTTTGGGGG TGCCCTGGAT
GCAGCAGCCA AGATGTTCAG CAAGGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG
AACAAGATGA AGAAGGAAGG AAAACTCATC ATGGGCATTG GTCACCGAGT GAAATCGATA
AACAACCCAG ACATGCGCGT GCAAATCCTC AAAGACTACG TCAGACAGCA CTTCCCTGCC
ACACCCCTGC TTGACTATGC GCTGGAAGTA GAGAAGATTA CCACCTCGAA GAAACCAAAC
CTTATCCTGA ATGTAGACGG TTTAATTGGA GTTGCATTTG TAGACATGCT CAGAAACTGT
GGGTCCTTCA CTCGGGAGGA AGCTGATGAA TATATTGACA TTGGAGCCCT CAATGGCATC
TTTGTGCTGG GAAGGAGTAT GGGCTTCATT GGACACTATC TTGATCAGAA GAGGCTGAAG
CAGGGGCTGT ATCGTCACCC ATGGGATGAT ATTTCATATG TTCTTCCGGA ACACATGAGC
ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh298979 Clone ID Related Accession (Same CDS sequence) XM_007129058.2 Accession Version XM_007129058.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3276bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product ATP-citrate synthase isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873583.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 23, 2018 this sequence version replaced XM_007129058.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
2821
2881
2941
3001
3061
3121
3181
3241ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGG AAAGAGCGCC
ACCCTCTTCA GCCGCCATAC CAAGGCCATC GTGTGGGGCA TGCAGACCCG GGCCGTGCAG
GGCATGCTGG ACTTTGACTA CGTCTGCTCC CGCGACGAGC CCTCGGTGGC TGCCATGGTC
TACCCTTTCA CCGGGGACCA CAAACAGAAG TTTTACTGGG GTCACAAGGA GATCCTGATC
CCCGTCTTCA AGAACATGGC TGATGCCATG AAGAAACACC CGGAGGTGGA CGTGCTGATC
AGCTTTGCCT CCCTGCGCTC GGCCTATGAC AGCACCATCG AAACCATGAA TCACGCACAG
ATCCGGACCA TCGCCATCAT AGCTGAAGGC ATCCCCGAGG CCCTCACGAG GAAGCTGATC
AAGAAGGCGG AGCAGAAGGG AGTGACCATC ATTGGACCTG CCACTGTTGG TGGCATCAAG
CCCGGGTGCT TTAAGATTGG GAACACCGGC GGGATGCTGG ACAACATCCT GGCCTCCAAG
CTGTACCGCC CCGGCAGCGT GGCCTATGTC TCGCGTTCGG GCGGCATGTC CAACGAGCTC
AACAATATCA TCTCTCGGAC CACGGACGGC GTCTACGAGG GCGTGGCCAT CGGCGGGGAC
AGGTACCCCG GCTCAACATT CATGGATCAT GTGTTACGTT ACCAGGACAC TCCAGGAGTC
AAAATGATTG TGGTTCTTGG AGAGATAGGG GGCACGGAGG AATATAAGAT CTGCCGGGGC
ATCAAGGAGG GCCGCATCAC CAAGCCCGTG GTCTCCTGGT GCATCGGGAC CTGTGCCACC
ATGTTCTCCT CTGAGGTACA GTTCGGCCAC GCTGGAGCTT GTGCCAATCA GGCTTCTGAA
ACTGCAGTAG CCAAAAACCA GGCTTTGAAG GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC
GATGAGCTTG GAGAGATCAT CCAGTCCGTG TATGAGGATC TCGTGGCCAG AGGGGTCATC
ATACCTGCTC AGGAGGTGCC GCCCCCGACG GTACCCATGG ACTACTCTTG GGCCAGGGAG
CTGGGCCTGA TCCGCAAACC TGCCTCGTTC ATGACCAGCA TCTGTGATGA GCGAGGACAG
GAGCTCATCT ACGCGGGCAT GCCCATCACT GAGGTCTTCA AGGAGGAGAT GGGCATCGGC
GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA AGGTTGCCCA AGTACTCCTG CCAGTTCATC
GAGATGTGCC TGATGGTGAC GGCTGATCAC GGGCCAGCCG TCTCTGGGGC TCACAACACC
ATCATCTGTG CTCGGGCCGG GAAGGACCTG GTTTCCAGCC TCACCTCAGG ACTGCTCACC
ATCGGTGACC GGTTTGGGGG TGCCCTGGAT GCAGCAGCCA AGATGTTCAG CAAGGCCTTT
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAGGAAGG AAAACTCATC
ATGGGCATTG GTCACCGAGT GAAATCGATA AACAACCCAG ACATGCGCGT GCAAATCCTC
AAAGACTACG TCAGACAGCA CTTCCCTGCC ACACCCCTGC TTGACTATGC GCTGGAAGTA
GAGAAGATTA CCACCTCGAA GAAACCAAAC CTTATCCTGA ATGTAGACGG TTTAATTGGA
GTTGCATTTG TAGACATGCT CAGAAACTGT GGGTCCTTCA CTCGGGAGGA AGCTGATGAA
TATATTGACA TTGGAGCCCT CAATGGCATC TTTGTGCTGG GAAGGAGTAT GGGCTTCATT
GGACACTATC TTGATCAGAA GAGGCTGAAG CAGGGGCTGT ATCGTCACCC ATGGGATGAT
ATTTCATATG TTCTTCCGGA ACACATGAGC ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007129120.1 CDS 128..3403 Translation
Target ORF information:
RefSeq Version XM_007129058.2 Organism Physeter catodon(sperm whale) Definition Physeter catodon ATP citrate lyase (ACLY), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007129058.2
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
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGTCGGCCA AGGCGATCTC CGAGCAGACA GGCAAAGAAC TCCTCTACAA GTACATCTGC
ACCACCTCGG CCATCCAGAA CCGGTTCAAG TATGCCCGGG TCACCCCTGA CACTGACTGG
GCCCACCTGC TGCAGGACCA CCCGTGGCTG CTCAGCCAGA GCTTGGTGGT TAAGCCAGAC
CAGCTGATCA AACGGCGTGG AAAGCTGGGC CTCATTGGGG TCAACCTCAC TCTGGACGGC
GTCAAGTCCT GGCTGAAGCC ACGGCTGGGA CAGGAGGCCG CAGTTGGCAA GGCCAGAGGC
TTCCTCAAGA ACTTTCTGAT CGAACCCTTC GTCCCCCACA CTCAGGAGGA GGAGTTCTAT
GTCTGCATCT ATGCCACCCG AGAAGGGGAC TACGTCCTGT TCCACCACGA AGGCGGGGTG
GATGTGGGTG ACGTGGACGC CAAAGCCCAG AAACTGCTCG TTGGTGTGGA CGAGAAGCTG
AATCTTGAGG GCATCAAGAA ACAACTGTTG GTCCACGCCC CCGAAGACAA GAAAGAAATT
CTGGCCAGCT TTATCTCCGG CCTCTTCAAT TTCTATGAGG ATCTGTACTT CACCTACCTC
GAGATCAACC CCCTTGTGGT GACCAAAGAT GGCGTCTACG TCCTTGACTT GGCAGCCAAG
GTGGACGCCA CCGCCGACTA CATCTGCAAA GTGAAGTGGG GTGATATAGA GTTCCCTCCC
CCCTTCGGGC GGGAGGCTTA TCCAGAGGAA GCCTACATCG CAGACCTGGA CGCCAAAAGT
GGGGCAAGCT TGAAGCTGAC CTTGCTGAAC CCCAAGGGGA GGATCTGGAC CATGGTGGCC
GGAGGTGGCG CCTCTGTCGT GTACAGCGAT ACCATCTGCG ACCTAGGGGG CGTCAACGAG
CTAGCGAACT ACGGGGAGTA CTCGGGCGCC CCCAGCGAGC AGCAGACCTA TGACTACGCC
AAGACGATCC TTTCCCTCAT GACCCGCGAG AAGCACCCCG ATGGCAAGAT CCTCATTATC
GGAGGCAGCA TCGCCAACTT CACCAATGTG GCCGCCACAT TCAAGGGCAT CGTGAGAGCG
ATTCGCGATT ACCAGGGCCC CCTGAAGGAG CACGAGGTCA CGATCTTTGT CCGAAGAGGT
GGCCCCAACT ACCAGGAGGG CTTACGGGTG ATGGGAGAAG TCGGGAAGAC CACTGGGATC
CCCATCCATG TCTTTGGCAC CGAGACTCAC ATGACGGCCA TTGTGGGCAT GGCCCTGGGC
CATCGGCCCA TCCCCAATCA GCCGCCCACA GCGGCCCACA CTGCAAACTT CCTCCTCAAC
GCCAGCGGGA GCACGTCGAC TCCAGCCCCC AGCAGGACGG CATCTTTTTC TGAGTCCAGG
GCTGATGAGG TGGCACCTGC CAAGAAGGCC AAGCCCGCCA TGCCACTAGG AAAGAGCGCC
ACCCTCTTCA GCCGCCATAC CAAGGCCATC GTGTGGGGCA TGCAGACCCG GGCCGTGCAG
GGCATGCTGG ACTTTGACTA CGTCTGCTCC CGCGACGAGC CCTCGGTGGC TGCCATGGTC
TACCCTTTCA CCGGGGACCA CAAACAGAAG TTTTACTGGG GTCACAAGGA GATCCTGATC
CCCGTCTTCA AGAACATGGC TGATGCCATG AAGAAACACC CGGAGGTGGA CGTGCTGATC
AGCTTTGCCT CCCTGCGCTC GGCCTATGAC AGCACCATCG AAACCATGAA TCACGCACAG
ATCCGGACCA TCGCCATCAT AGCTGAAGGC ATCCCCGAGG CCCTCACGAG GAAGCTGATC
AAGAAGGCGG AGCAGAAGGG AGTGACCATC ATTGGACCTG CCACTGTTGG TGGCATCAAG
CCCGGGTGCT TTAAGATTGG GAACACCGGC GGGATGCTGG ACAACATCCT GGCCTCCAAG
CTGTACCGCC CCGGCAGCGT GGCCTATGTC TCGCGTTCGG GCGGCATGTC CAACGAGCTC
AACAATATCA TCTCTCGGAC CACGGACGGC GTCTACGAGG GCGTGGCCAT CGGCGGGGAC
AGGTACCCCG GCTCAACATT CATGGATCAT GTGTTACGTT ACCAGGACAC TCCAGGAGTC
AAAATGATTG TGGTTCTTGG AGAGATAGGG GGCACGGAGG AATATAAGAT CTGCCGGGGC
ATCAAGGAGG GCCGCATCAC CAAGCCCGTG GTCTCCTGGT GCATCGGGAC CTGTGCCACC
ATGTTCTCCT CTGAGGTACA GTTCGGCCAC GCTGGAGCTT GTGCCAATCA GGCTTCTGAA
ACTGCAGTAG CCAAAAACCA GGCTTTGAAG GAGGCCGGAG TGTTTGTGCC CCGGAGCTTC
GATGAGCTTG GAGAGATCAT CCAGTCCGTG TATGAGGATC TCGTGGCCAG AGGGGTCATC
ATACCTGCTC AGGAGGTGCC GCCCCCGACG GTACCCATGG ACTACTCTTG GGCCAGGGAG
CTGGGCCTGA TCCGCAAACC TGCCTCGTTC ATGACCAGCA TCTGTGATGA GCGAGGACAG
GAGCTCATCT ACGCGGGCAT GCCCATCACT GAGGTCTTCA AGGAGGAGAT GGGCATCGGC
GGGGTCCTCG GCCTCCTCTG GTTCCAGAAA AGGTTGCCCA AGTACTCCTG CCAGTTCATC
GAGATGTGCC TGATGGTGAC GGCTGATCAC GGGCCAGCCG TCTCTGGGGC TCACAACACC
ATCATCTGTG CTCGGGCCGG GAAGGACCTG GTTTCCAGCC TCACCTCAGG ACTGCTCACC
ATCGGTGACC GGTTTGGGGG TGCCCTGGAT GCAGCAGCCA AGATGTTCAG CAAGGCCTTT
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAGGAAGG AAAACTCATC
ATGGGCATTG GTCACCGAGT GAAATCGATA AACAACCCAG ACATGCGCGT GCAAATCCTC
AAAGACTACG TCAGACAGCA CTTCCCTGCC ACACCCCTGC TTGACTATGC GCTGGAAGTA
GAGAAGATTA CCACCTCGAA GAAACCAAAC CTTATCCTGA ATGTAGACGG TTTAATTGGA
GTTGCATTTG TAGACATGCT CAGAAACTGT GGGTCCTTCA CTCGGGAGGA AGCTGATGAA
TATATTGACA TTGGAGCCCT CAATGGCATC TTTGTGCTGG GAAGGAGTAT GGGCTTCATT
GGACACTATC TTGATCAGAA GAGGCTGAAG CAGGGGCTGT ATCGTCACCC ATGGGATGAT
ATTTCATATG TTCTTCCGGA ACACATGAGC ATGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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