ACLY cDNA ORF clone, Phalacrocorax carbo(great cormorant)

Gene
Clones
gRNAs

Summary

Gene Symbol	ACLY
Entrez Gene ID	104046745
Full Name	ATP citrate lyase
Gene Type	protein-coding
Organism	Phalacrocorax carbo(great cormorant)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009506955.1	XP_009505250.1	ATP-citrate synthase isoform X2
XM_009506954.1	XP_009505249.1	ATP-citrate synthase isoform X1

Pathways from BioSystems
Gene Ontology

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.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OPh215522	XM_009506954.1 Latest version!	Phalacrocorax carbo ATP citrate lyase (ACLY), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OPh215523	XM_009506955.1 Latest version!	Phalacrocorax carbo ATP citrate lyase (ACLY), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

ACLY ( XM_009506954.1 ) cDNA ORF clone, Phalacrocorax carbo(great cormorant) -> XP_009505249.1 Phalacrocorax carbo ATP citrate lyase (ACLY), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPh215522
Clone ID Related Accession (Same CDS sequence)	XM_009506954.1
Accession Version	XM_009506954.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3306bp) 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	2014-10-07
Organism	Phalacrocorax carbo(great cormorant)
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_009156295.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Phalacrocorax carbo Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGCCA AAGCCATCTC TGAGCAGACG GGGAAGGAGT TCTTGTATAA GTACATCTGC 
ACATCCTCTG CCATCCAGAA CCGTTTCAAG TATGCCCGAG TCACCCCAGA CACTGACTGG 
GCGCGGCTCA CCCAGGACCA CCCTTGGCTT CTGAGCGAGC GTTTAGTGGT GAAGCCAGAT 
CAGCTAATAA AGAGACGTGG GAAGCTTGGA CTGGTTGGAA TTAACCTCAC TCTGGATCAG 
GTGAAGGTTT GGCTCAAACA GCGTCTGGGC CAAGAAACCA CGATTGCTAA TGCTAAGGGA 
ATCCTAAAGA ATTTTCTGAT TGAACCCTTC GTCCCTCACA AACAGGAGGA AGAGTTCTAT 
GTGTGCATAT ACGCGGCCCG TGAGGGAGAC TATGTACTCT TCTACCACGA AGGGGGTGTG 
GATGTGGGAG ATGTTGATGC CAAAGCTCAG AAGTTGCTTG TGGCGGTGGA TGAAAAGCTC 
AATGAATCCG ATGTAAAGAA ACATCTCCTG CAGCACGCAC CAGCAAATAA AAAGGACATC 
TTGGCGAGCT TCATCTGTGG CCTGTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTT 
GAGATCAATC CATTAGTGGT GACTAATGGT GGTGTCTACA TCCTTGATTT GGCTGCAAAG 
ATTGATGCAA CTGCCGACTA CATCTGCAAA GTGAAGTGGG GAGATGTGGA GTTCCCCCCT 
CCCTTTGGCA GGGAAGCTTA TCCAGAGGAA GCCTACATTG CTGATCTGGA TGCGAAGAGC 
GGAGCCAGCT TGAAACTTAC TATTCTCAAC CCCAAAGGCA GGATCTGGAC GATGGTGGCT 
GGTGGTGGTG CCTCTGTGGT TTACAGTGAC ACCATCTGTG ACCTGGGGGG TGTGAATGAA 
CTGGCTAACT ACGGGGAATA CTCAGGAGCC CCAAGTGAGC AACAGACCTA TGACTATGCT 
AAGACTATTC TCTCCCTCAT GACACGAGAG AAGCATCCTG AAGGTAAAAT CCTGATCATT 
GGAGGCAGCA TTGCTAACTT CACCAATGTA GCAGCCACTT TTAAAGGCAT TGTGAGAGCG 
ATTAAGGATT ACCAAGGCCC TCTGAAGGAG CATGAGGTGA GGATCTTTGT ACGAAGAGGA 
GGCCCAAACT ACCAGGAAGG ATTACGTGTC ATGGGAGAAG TTGGGAAGAC CACCGGGATC 
CCCATCCATG TCTTTGGCAC GGAGACACAC ATGACTGCGA TCGTGGGCAT GGCGCTCGGC 
CATCGGCCTA TCCCCAACCA ACCGCCTGCT GCAGCCCACA CCGCCAACTT CCTCCTCAAC 
GCCAGCGGCA GCCCTTCGAC TCCAGCACCG AGCAGAACGG CTTCCTTCTC AGAGTCCAAA 
ACAGATGATA TTGCTCCAGC CAAGAAGGCA AAACCAACAG CACCTCTTGA TTCAATCCCA 
GCTTCAAGAC CTGGTTCAGG TAAAGCTACA ACCCTGTTCA GCCGTCACAC CAAAGCTATC 
ATCTGGGGGA TGCAGACGCG GGCTGTGCAA GGAATGCTGG ACTTTGATTA TATTTGCTCC 
CGGGATGAAC CTTCAGTAGC TGCTATGGTC TATCCATTCA CCGGTGACCA CAGGCAGAAG 
TTCTACTGGG GTCACAAAGA AATCCTGATC CCGGTCTACA AGAACATGTC AGATGCCATG 
AGGAAGCACC CAGAGGTGGA TGTTCTCATC AACTTTGCAT CTCTGCGCTC TGCTTATGAC 
AGCACTGTTG AAACCATGAA TTATCCACAG ATCCGCACCA TTGCCATTAT TGCCGAGGGC 
ATTCCAGAGG CCCTGACACG CAAACTGATC AAGACAGCGG ATAAAAAAGG AGTCACTATC 
ATTGGGCCTG CAACTGTTGG TGGGATCAAA CCAGGTTGCT TTAAAATAGG CAACACAGGA 
GGCATGCTGG ATAATATCTT AGCATCAAAA CTGTACCGTC CTGGCAGTGT GGCTTATGTT 
TCACGGTCCG GAGGAATGTC CAATGAGCTC AACAACATCA TTTCCCGAAC CACTGATGGG 
GTCTATGAAG GGGTGGCCAT CGGAGGAGAC AGATATCCTG GTTCAACTTT TATGGATCAT 
GTCTTGCGTT ATGAAGATAC TCCAGGAGTG AAAATGATTG TAGTACTTGG AGAGATTGGA 
GGCACAGAAG AGTATAAGAT CTGCAGGGGT ATTAAAGAAG GTCGTATCAC CAAGCCAGTG 
GTGTGCTGGT GTATTGGTAC TTGTGCCACC ATGTTCTCTT CAGAGGTGCA GTTTGGCCAT 
GCAGGAGCTT GTGCCAACCA GGCTTCTGAA ACTGCTGTTG CAAAGAATCA AGCCTTGAAG 
GAAGCTGGCG TGTTTGTTCC CCGGAGTTTT GATGAACTAG GAGAAGTCAT TCAGTCTGTC 
TACCAGGATC TTGTGGCCAA AAGAGTGATT GAACCAGCTG AGGAAGTGCC TCCTCCAACT 
GTGCCAATGG ATTACTCCTG GGCAAGGGAG CTGGGGCTGA TCCGCAAACC AGCTTCCTTT 
ATGACAAGTA TCTGTGACGA GAGAGGTCAG GAACTGATTT ATGCTGGGAT GCCAATCACT 
GAGGTCTTCA AAGAAGAGAT GGGAATTGGA GGGGTTCTGG GCCTGCTCTG GTTTCAAAGG 
AGGTTACCAA AGTATGCCTG CCAATTCATT GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCTGGAGC CCACAACACC ATTGTCTGTG CAAGAGCTGG AAAAGATCTT 
GTCTCAAGTC TCACTTCAGG CCTTCTTACT ATTGGTGACC GGTTTGGTGG AGCACTGGAT 
GCTGCAGCTA AAATGTTCAG CAAAGCCTTC GACAGTGGGA TTATCCCTAT GGAGTTTGTG 
AATAAGATGA AGAAAGAAGG GAAATTGATC ATGGGCATTG GACACAGAGT CAAATCAATA 
AATAACCCAG ACATGAGAGT TCAGATTCTC AAAGACTATG TGAAGCAGCA TTTCCCTGCC 
ACCCCACTGT TGGACTATGC ACTCGAAGTG GAAAAAATTA CAACTTCCAA GAAACCAAAT 
CTTATCCTGA ATGTAGATGG CTTTATTGGA GTTGCCTTTG TTGACGTTCT CAGGAATTGT 
GGCTCTTTCA CACGGGAAGA AGCAGATGAA TATATTGATA TAGGAGCTCT TAATGGCATC 
TTTGTACTAG GCAGGAGTAT GGGATTCATT GGACACTACC TGGATCAGAA GAGGTTGAAG 
CAAGGTCTGT ACCGTCACCC GTGGGATGAC ATATCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_009505249.1
CDS	11..3316
Translation	MSAKAISEQTGKEFLYKYICTSSAIQNRFKYARVTPDTDWARLTQDHPWLLSERLVVKPDQLIKRRGKLGLVGINLTLDQVKVWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVAVDEKLNESDVKKHLLQHAPANKKDILASFICGLFNLYEDLYFTYLEINPLVVTNGGVYILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTILNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTREKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKTDDIAPAKKAKPTAPLDSIPASRPGSGKATTLFSRHTKAIIWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHRQKFYWGHKEILIPVYKNMSDAMRKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYEDTPGVKMIVVLGEIGGTEEYKICRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNQALKEAGVFVPRSFDELGEVIQSVYQDLVAKRVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDYVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRNCGSFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_009506954.1
Organism	Phalacrocorax carbo(great cormorant)
Definition	Phalacrocorax carbo ATP citrate lyase (ACLY), transcript variant X1, mRNA.

Target ORF information:

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

XM_009506954.1

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACG GGGAAGGAGT TCTTGTATAA GTACATCTGC 
ACATCCTCTG CCATCCAGAA CCGTTTCAAG TATGCCCGAG TCACCCCAGA CACTGACTGG 
GCGCGGCTCA CCCAGGACCA CCCTTGGCTT CTGAGCGAGC GTTTAGTGGT GAAGCCAGAT 
CAGCTAATAA AGAGACGTGG GAAGCTTGGA CTGGTTGGAA TTAACCTCAC TCTGGATCAG 
GTGAAGGTTT GGCTCAAACA GCGTCTGGGC CAAGAAACCA CGATTGCTAA TGCTAAGGGA 
ATCCTAAAGA ATTTTCTGAT TGAACCCTTC GTCCCTCACA AACAGGAGGA AGAGTTCTAT 
GTGTGCATAT ACGCGGCCCG TGAGGGAGAC TATGTACTCT TCTACCACGA AGGGGGTGTG 
GATGTGGGAG ATGTTGATGC CAAAGCTCAG AAGTTGCTTG TGGCGGTGGA TGAAAAGCTC 
AATGAATCCG ATGTAAAGAA ACATCTCCTG CAGCACGCAC CAGCAAATAA AAAGGACATC 
TTGGCGAGCT TCATCTGTGG CCTGTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTT 
GAGATCAATC CATTAGTGGT GACTAATGGT GGTGTCTACA TCCTTGATTT GGCTGCAAAG 
ATTGATGCAA CTGCCGACTA CATCTGCAAA GTGAAGTGGG GAGATGTGGA GTTCCCCCCT 
CCCTTTGGCA GGGAAGCTTA TCCAGAGGAA GCCTACATTG CTGATCTGGA TGCGAAGAGC 
GGAGCCAGCT TGAAACTTAC TATTCTCAAC CCCAAAGGCA GGATCTGGAC GATGGTGGCT 
GGTGGTGGTG CCTCTGTGGT TTACAGTGAC ACCATCTGTG ACCTGGGGGG TGTGAATGAA 
CTGGCTAACT ACGGGGAATA CTCAGGAGCC CCAAGTGAGC AACAGACCTA TGACTATGCT 
AAGACTATTC TCTCCCTCAT GACACGAGAG AAGCATCCTG AAGGTAAAAT CCTGATCATT 
GGAGGCAGCA TTGCTAACTT CACCAATGTA GCAGCCACTT TTAAAGGCAT TGTGAGAGCG 
ATTAAGGATT ACCAAGGCCC TCTGAAGGAG CATGAGGTGA GGATCTTTGT ACGAAGAGGA 
GGCCCAAACT ACCAGGAAGG ATTACGTGTC ATGGGAGAAG TTGGGAAGAC CACCGGGATC 
CCCATCCATG TCTTTGGCAC GGAGACACAC ATGACTGCGA TCGTGGGCAT GGCGCTCGGC 
CATCGGCCTA TCCCCAACCA ACCGCCTGCT GCAGCCCACA CCGCCAACTT CCTCCTCAAC 
GCCAGCGGCA GCCCTTCGAC TCCAGCACCG AGCAGAACGG CTTCCTTCTC AGAGTCCAAA 
ACAGATGATA TTGCTCCAGC CAAGAAGGCA AAACCAACAG CACCTCTTGA TTCAATCCCA 
GCTTCAAGAC CTGGTTCAGG TAAAGCTACA ACCCTGTTCA GCCGTCACAC CAAAGCTATC 
ATCTGGGGGA TGCAGACGCG GGCTGTGCAA GGAATGCTGG ACTTTGATTA TATTTGCTCC 
CGGGATGAAC CTTCAGTAGC TGCTATGGTC TATCCATTCA CCGGTGACCA CAGGCAGAAG 
TTCTACTGGG GTCACAAAGA AATCCTGATC CCGGTCTACA AGAACATGTC AGATGCCATG 
AGGAAGCACC CAGAGGTGGA TGTTCTCATC AACTTTGCAT CTCTGCGCTC TGCTTATGAC 
AGCACTGTTG AAACCATGAA TTATCCACAG ATCCGCACCA TTGCCATTAT TGCCGAGGGC 
ATTCCAGAGG CCCTGACACG CAAACTGATC AAGACAGCGG ATAAAAAAGG AGTCACTATC 
ATTGGGCCTG CAACTGTTGG TGGGATCAAA CCAGGTTGCT TTAAAATAGG CAACACAGGA 
GGCATGCTGG ATAATATCTT AGCATCAAAA CTGTACCGTC CTGGCAGTGT GGCTTATGTT 
TCACGGTCCG GAGGAATGTC CAATGAGCTC AACAACATCA TTTCCCGAAC CACTGATGGG 
GTCTATGAAG GGGTGGCCAT CGGAGGAGAC AGATATCCTG GTTCAACTTT TATGGATCAT 
GTCTTGCGTT ATGAAGATAC TCCAGGAGTG AAAATGATTG TAGTACTTGG AGAGATTGGA 
GGCACAGAAG AGTATAAGAT CTGCAGGGGT ATTAAAGAAG GTCGTATCAC CAAGCCAGTG 
GTGTGCTGGT GTATTGGTAC TTGTGCCACC ATGTTCTCTT CAGAGGTGCA GTTTGGCCAT 
GCAGGAGCTT GTGCCAACCA GGCTTCTGAA ACTGCTGTTG CAAAGAATCA AGCCTTGAAG 
GAAGCTGGCG TGTTTGTTCC CCGGAGTTTT GATGAACTAG GAGAAGTCAT TCAGTCTGTC 
TACCAGGATC TTGTGGCCAA AAGAGTGATT GAACCAGCTG AGGAAGTGCC TCCTCCAACT 
GTGCCAATGG ATTACTCCTG GGCAAGGGAG CTGGGGCTGA TCCGCAAACC AGCTTCCTTT 
ATGACAAGTA TCTGTGACGA GAGAGGTCAG GAACTGATTT ATGCTGGGAT GCCAATCACT 
GAGGTCTTCA AAGAAGAGAT GGGAATTGGA GGGGTTCTGG GCCTGCTCTG GTTTCAAAGG 
AGGTTACCAA AGTATGCCTG CCAATTCATT GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCTGGAGC CCACAACACC ATTGTCTGTG CAAGAGCTGG AAAAGATCTT 
GTCTCAAGTC TCACTTCAGG CCTTCTTACT ATTGGTGACC GGTTTGGTGG AGCACTGGAT 
GCTGCAGCTA AAATGTTCAG CAAAGCCTTC GACAGTGGGA TTATCCCTAT GGAGTTTGTG 
AATAAGATGA AGAAAGAAGG GAAATTGATC ATGGGCATTG GACACAGAGT CAAATCAATA 
AATAACCCAG ACATGAGAGT TCAGATTCTC AAAGACTATG TGAAGCAGCA TTTCCCTGCC 
ACCCCACTGT TGGACTATGC ACTCGAAGTG GAAAAAATTA CAACTTCCAA GAAACCAAAT 
CTTATCCTGA ATGTAGATGG CTTTATTGGA GTTGCCTTTG TTGACGTTCT CAGGAATTGT 
GGCTCTTTCA CACGGGAAGA AGCAGATGAA TATATTGATA TAGGAGCTCT TAATGGCATC 
TTTGTACTAG GCAGGAGTAT GGGATTCATT GGACACTACC TGGATCAGAA GAGGTTGAAG 
CAAGGTCTGT ACCGTCACCC GTGGGATGAC ATATCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_009506955.1 ) cDNA ORF clone, Phalacrocorax carbo(great cormorant) -> XP_009505250.1 Phalacrocorax carbo ATP citrate lyase (ACLY), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPh215523
Clone ID Related Accession (Same CDS sequence)	XM_009506955.1
Accession Version	XM_009506955.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3276bp) 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	2014-10-07
Organism	Phalacrocorax carbo(great cormorant)
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_009156295.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Phalacrocorax carbo Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGCCA AAGCCATCTC TGAGCAGACG GGGAAGGAGT TCTTGTATAA GTACATCTGC 
ACATCCTCTG CCATCCAGAA CCGTTTCAAG TATGCCCGAG TCACCCCAGA CACTGACTGG 
GCGCGGCTCA CCCAGGACCA CCCTTGGCTT CTGAGCGAGC GTTTAGTGGT GAAGCCAGAT 
CAGCTAATAA AGAGACGTGG GAAGCTTGGA CTGGTTGGAA TTAACCTCAC TCTGGATCAG 
GTGAAGGTTT GGCTCAAACA GCGTCTGGGC CAAGAAACCA CGATTGCTAA TGCTAAGGGA 
ATCCTAAAGA ATTTTCTGAT TGAACCCTTC GTCCCTCACA AACAGGAGGA AGAGTTCTAT 
GTGTGCATAT ACGCGGCCCG TGAGGGAGAC TATGTACTCT TCTACCACGA AGGGGGTGTG 
GATGTGGGAG ATGTTGATGC CAAAGCTCAG AAGTTGCTTG TGGCGGTGGA TGAAAAGCTC 
AATGAATCCG ATGTAAAGAA ACATCTCCTG CAGCACGCAC CAGCAAATAA AAAGGACATC 
TTGGCGAGCT TCATCTGTGG CCTGTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTT 
GAGATCAATC CATTAGTGGT GACTAATGGT GGTGTCTACA TCCTTGATTT GGCTGCAAAG 
ATTGATGCAA CTGCCGACTA CATCTGCAAA GTGAAGTGGG GAGATGTGGA GTTCCCCCCT 
CCCTTTGGCA GGGAAGCTTA TCCAGAGGAA GCCTACATTG CTGATCTGGA TGCGAAGAGC 
GGAGCCAGCT TGAAACTTAC TATTCTCAAC CCCAAAGGCA GGATCTGGAC GATGGTGGCT 
GGTGGTGGTG CCTCTGTGGT TTACAGTGAC ACCATCTGTG ACCTGGGGGG TGTGAATGAA 
CTGGCTAACT ACGGGGAATA CTCAGGAGCC CCAAGTGAGC AACAGACCTA TGACTATGCT 
AAGACTATTC TCTCCCTCAT GACACGAGAG AAGCATCCTG AAGGTAAAAT CCTGATCATT 
GGAGGCAGCA TTGCTAACTT CACCAATGTA GCAGCCACTT TTAAAGGCAT TGTGAGAGCG 
ATTAAGGATT ACCAAGGCCC TCTGAAGGAG CATGAGGTGA GGATCTTTGT ACGAAGAGGA 
GGCCCAAACT ACCAGGAAGG ATTACGTGTC ATGGGAGAAG TTGGGAAGAC CACCGGGATC 
CCCATCCATG TCTTTGGCAC GGAGACACAC ATGACTGCGA TCGTGGGCAT GGCGCTCGGC 
CATCGGCCTA TCCCCAACCA ACCGCCTGCT GCAGCCCACA CCGCCAACTT CCTCCTCAAC 
GCCAGCGGCA GCCCTTCGAC TCCAGCACCG AGCAGAACGG CTTCCTTCTC AGAGTCCAAA 
ACAGATGATA TTGCTCCAGC CAAGAAGGCA AAACCAACAG CACCTCTTGG TAAAGCTACA 
ACCCTGTTCA GCCGTCACAC CAAAGCTATC ATCTGGGGGA TGCAGACGCG GGCTGTGCAA 
GGAATGCTGG ACTTTGATTA TATTTGCTCC CGGGATGAAC CTTCAGTAGC TGCTATGGTC 
TATCCATTCA CCGGTGACCA CAGGCAGAAG TTCTACTGGG GTCACAAAGA AATCCTGATC 
CCGGTCTACA AGAACATGTC AGATGCCATG AGGAAGCACC CAGAGGTGGA TGTTCTCATC 
AACTTTGCAT CTCTGCGCTC TGCTTATGAC AGCACTGTTG AAACCATGAA TTATCCACAG 
ATCCGCACCA TTGCCATTAT TGCCGAGGGC ATTCCAGAGG CCCTGACACG CAAACTGATC 
AAGACAGCGG ATAAAAAAGG AGTCACTATC ATTGGGCCTG CAACTGTTGG TGGGATCAAA 
CCAGGTTGCT TTAAAATAGG CAACACAGGA GGCATGCTGG ATAATATCTT AGCATCAAAA 
CTGTACCGTC CTGGCAGTGT GGCTTATGTT TCACGGTCCG GAGGAATGTC CAATGAGCTC 
AACAACATCA TTTCCCGAAC CACTGATGGG GTCTATGAAG GGGTGGCCAT CGGAGGAGAC 
AGATATCCTG GTTCAACTTT TATGGATCAT GTCTTGCGTT ATGAAGATAC TCCAGGAGTG 
AAAATGATTG TAGTACTTGG AGAGATTGGA GGCACAGAAG AGTATAAGAT CTGCAGGGGT 
ATTAAAGAAG GTCGTATCAC CAAGCCAGTG GTGTGCTGGT GTATTGGTAC TTGTGCCACC 
ATGTTCTCTT CAGAGGTGCA GTTTGGCCAT GCAGGAGCTT GTGCCAACCA GGCTTCTGAA 
ACTGCTGTTG CAAAGAATCA AGCCTTGAAG GAAGCTGGCG TGTTTGTTCC CCGGAGTTTT 
GATGAACTAG GAGAAGTCAT TCAGTCTGTC TACCAGGATC TTGTGGCCAA AAGAGTGATT 
GAACCAGCTG AGGAAGTGCC TCCTCCAACT GTGCCAATGG ATTACTCCTG GGCAAGGGAG 
CTGGGGCTGA TCCGCAAACC AGCTTCCTTT ATGACAAGTA TCTGTGACGA GAGAGGTCAG 
GAACTGATTT ATGCTGGGAT GCCAATCACT GAGGTCTTCA AAGAAGAGAT GGGAATTGGA 
GGGGTTCTGG GCCTGCTCTG GTTTCAAAGG AGGTTACCAA AGTATGCCTG CCAATTCATT 
GAGATGTGTT TGATGGTAAC AGCAGATCAT GGACCTGCTG TATCTGGAGC CCACAACACC 
ATTGTCTGTG CAAGAGCTGG AAAAGATCTT GTCTCAAGTC TCACTTCAGG CCTTCTTACT 
ATTGGTGACC GGTTTGGTGG AGCACTGGAT GCTGCAGCTA AAATGTTCAG CAAAGCCTTC 
GACAGTGGGA TTATCCCTAT GGAGTTTGTG AATAAGATGA AGAAAGAAGG GAAATTGATC 
ATGGGCATTG GACACAGAGT CAAATCAATA AATAACCCAG ACATGAGAGT TCAGATTCTC 
AAAGACTATG TGAAGCAGCA TTTCCCTGCC ACCCCACTGT TGGACTATGC ACTCGAAGTG 
GAAAAAATTA CAACTTCCAA GAAACCAAAT CTTATCCTGA ATGTAGATGG CTTTATTGGA 
GTTGCCTTTG TTGACGTTCT CAGGAATTGT GGCTCTTTCA CACGGGAAGA AGCAGATGAA 
TATATTGATA TAGGAGCTCT TAATGGCATC TTTGTACTAG GCAGGAGTAT GGGATTCATT 
GGACACTACC TGGATCAGAA GAGGTTGAAG CAAGGTCTGT ACCGTCACCC GTGGGATGAC 
ATATCCTATG TTCTACCAGA GCACATGACT ATGTGA

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

RefSeq	XP_009505250.1
CDS	11..3286
Translation	MSAKAISEQTGKEFLYKYICTSSAIQNRFKYARVTPDTDWARLTQDHPWLLSERLVVKPDQLIKRRGKLGLVGINLTLDQVKVWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVAVDEKLNESDVKKHLLQHAPANKKDILASFICGLFNLYEDLYFTYLEINPLVVTNGGVYILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTILNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTREKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKTDDIAPAKKAKPTAPLGKATTLFSRHTKAIIWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHRQKFYWGHKEILIPVYKNMSDAMRKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYEDTPGVKMIVVLGEIGGTEEYKICRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNQALKEAGVFVPRSFDELGEVIQSVYQDLVAKRVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDYVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRNCGSFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_009506955.1
Organism	Phalacrocorax carbo(great cormorant)
Definition	Phalacrocorax carbo ATP citrate lyase (ACLY), transcript variant X2, mRNA.

Target ORF information:

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

XM_009506955.1

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACG GGGAAGGAGT TCTTGTATAA GTACATCTGC 
ACATCCTCTG CCATCCAGAA CCGTTTCAAG TATGCCCGAG TCACCCCAGA CACTGACTGG 
GCGCGGCTCA CCCAGGACCA CCCTTGGCTT CTGAGCGAGC GTTTAGTGGT GAAGCCAGAT 
CAGCTAATAA AGAGACGTGG GAAGCTTGGA CTGGTTGGAA TTAACCTCAC TCTGGATCAG 
GTGAAGGTTT GGCTCAAACA GCGTCTGGGC CAAGAAACCA CGATTGCTAA TGCTAAGGGA 
ATCCTAAAGA ATTTTCTGAT TGAACCCTTC GTCCCTCACA AACAGGAGGA AGAGTTCTAT 
GTGTGCATAT ACGCGGCCCG TGAGGGAGAC TATGTACTCT TCTACCACGA AGGGGGTGTG 
GATGTGGGAG ATGTTGATGC CAAAGCTCAG AAGTTGCTTG TGGCGGTGGA TGAAAAGCTC 
AATGAATCCG ATGTAAAGAA ACATCTCCTG CAGCACGCAC CAGCAAATAA AAAGGACATC 
TTGGCGAGCT TCATCTGTGG CCTGTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTT 
GAGATCAATC CATTAGTGGT GACTAATGGT GGTGTCTACA TCCTTGATTT GGCTGCAAAG 
ATTGATGCAA CTGCCGACTA CATCTGCAAA GTGAAGTGGG GAGATGTGGA GTTCCCCCCT 
CCCTTTGGCA GGGAAGCTTA TCCAGAGGAA GCCTACATTG CTGATCTGGA TGCGAAGAGC 
GGAGCCAGCT TGAAACTTAC TATTCTCAAC CCCAAAGGCA GGATCTGGAC GATGGTGGCT 
GGTGGTGGTG CCTCTGTGGT TTACAGTGAC ACCATCTGTG ACCTGGGGGG TGTGAATGAA 
CTGGCTAACT ACGGGGAATA CTCAGGAGCC CCAAGTGAGC AACAGACCTA TGACTATGCT 
AAGACTATTC TCTCCCTCAT GACACGAGAG AAGCATCCTG AAGGTAAAAT CCTGATCATT 
GGAGGCAGCA TTGCTAACTT CACCAATGTA GCAGCCACTT TTAAAGGCAT TGTGAGAGCG 
ATTAAGGATT ACCAAGGCCC TCTGAAGGAG CATGAGGTGA GGATCTTTGT ACGAAGAGGA 
GGCCCAAACT ACCAGGAAGG ATTACGTGTC ATGGGAGAAG TTGGGAAGAC CACCGGGATC 
CCCATCCATG TCTTTGGCAC GGAGACACAC ATGACTGCGA TCGTGGGCAT GGCGCTCGGC 
CATCGGCCTA TCCCCAACCA ACCGCCTGCT GCAGCCCACA CCGCCAACTT CCTCCTCAAC 
GCCAGCGGCA GCCCTTCGAC TCCAGCACCG AGCAGAACGG CTTCCTTCTC AGAGTCCAAA 
ACAGATGATA TTGCTCCAGC CAAGAAGGCA AAACCAACAG CACCTCTTGG TAAAGCTACA 
ACCCTGTTCA GCCGTCACAC CAAAGCTATC ATCTGGGGGA TGCAGACGCG GGCTGTGCAA 
GGAATGCTGG ACTTTGATTA TATTTGCTCC CGGGATGAAC CTTCAGTAGC TGCTATGGTC 
TATCCATTCA CCGGTGACCA CAGGCAGAAG TTCTACTGGG GTCACAAAGA AATCCTGATC 
CCGGTCTACA AGAACATGTC AGATGCCATG AGGAAGCACC CAGAGGTGGA TGTTCTCATC 
AACTTTGCAT CTCTGCGCTC TGCTTATGAC AGCACTGTTG AAACCATGAA TTATCCACAG 
ATCCGCACCA TTGCCATTAT TGCCGAGGGC ATTCCAGAGG CCCTGACACG CAAACTGATC 
AAGACAGCGG ATAAAAAAGG AGTCACTATC ATTGGGCCTG CAACTGTTGG TGGGATCAAA 
CCAGGTTGCT TTAAAATAGG CAACACAGGA GGCATGCTGG ATAATATCTT AGCATCAAAA 
CTGTACCGTC CTGGCAGTGT GGCTTATGTT TCACGGTCCG GAGGAATGTC CAATGAGCTC 
AACAACATCA TTTCCCGAAC CACTGATGGG GTCTATGAAG GGGTGGCCAT CGGAGGAGAC 
AGATATCCTG GTTCAACTTT TATGGATCAT GTCTTGCGTT ATGAAGATAC TCCAGGAGTG 
AAAATGATTG TAGTACTTGG AGAGATTGGA GGCACAGAAG AGTATAAGAT CTGCAGGGGT 
ATTAAAGAAG GTCGTATCAC CAAGCCAGTG GTGTGCTGGT GTATTGGTAC TTGTGCCACC 
ATGTTCTCTT CAGAGGTGCA GTTTGGCCAT GCAGGAGCTT GTGCCAACCA GGCTTCTGAA 
ACTGCTGTTG CAAAGAATCA AGCCTTGAAG GAAGCTGGCG TGTTTGTTCC CCGGAGTTTT 
GATGAACTAG GAGAAGTCAT TCAGTCTGTC TACCAGGATC TTGTGGCCAA AAGAGTGATT 
GAACCAGCTG AGGAAGTGCC TCCTCCAACT GTGCCAATGG ATTACTCCTG GGCAAGGGAG 
CTGGGGCTGA TCCGCAAACC AGCTTCCTTT ATGACAAGTA TCTGTGACGA GAGAGGTCAG 
GAACTGATTT ATGCTGGGAT GCCAATCACT GAGGTCTTCA AAGAAGAGAT GGGAATTGGA 
GGGGTTCTGG GCCTGCTCTG GTTTCAAAGG AGGTTACCAA AGTATGCCTG CCAATTCATT 
GAGATGTGTT TGATGGTAAC AGCAGATCAT GGACCTGCTG TATCTGGAGC CCACAACACC 
ATTGTCTGTG CAAGAGCTGG AAAAGATCTT GTCTCAAGTC TCACTTCAGG CCTTCTTACT 
ATTGGTGACC GGTTTGGTGG AGCACTGGAT GCTGCAGCTA AAATGTTCAG CAAAGCCTTC 
GACAGTGGGA TTATCCCTAT GGAGTTTGTG AATAAGATGA AGAAAGAAGG GAAATTGATC 
ATGGGCATTG GACACAGAGT CAAATCAATA AATAACCCAG ACATGAGAGT TCAGATTCTC 
AAAGACTATG TGAAGCAGCA TTTCCCTGCC ACCCCACTGT TGGACTATGC ACTCGAAGTG 
GAAAAAATTA CAACTTCCAA GAAACCAAAT CTTATCCTGA ATGTAGATGG CTTTATTGGA 
GTTGCCTTTG TTGACGTTCT CAGGAATTGT GGCTCTTTCA CACGGGAAGA AGCAGATGAA 
TATATTGATA TAGGAGCTCT TAATGGCATC TTTGTACTAG GCAGGAGTAT GGGATTCATT 
GGACACTACC TGGATCAGAA GAGGTTGAAG CAAGGTCTGT ACCGTCACCC GTGGGATGAC 
ATATCCTATG TTCTACCAGA GCACATGACT ATGTGA