ACLY cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	ACLY
Entrez Gene ID	102386616
Full Name	ATP citrate lyase
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006032765.2	XP_006032827.1	ATP-citrate synthase isoform X1
XM_006032768.3	XP_006032830.1	ATP-citrate synthase isoform X1
XM_006032765.3	XP_006032827.1	ATP-citrate synthase isoform X1
XM_025214505.1	XP_025070290.1	ATP-citrate synthase isoform X1
XM_014524256.1	XP_014379742.1	ATP-citrate synthase isoform X2
XM_025214506.1	XP_025070291.1	ATP-citrate synthase isoform X1
XM_006032768.2	XP_006032830.1	ATP-citrate synthase isoform X1
XM_014524256.2	XP_014379742.1	ATP-citrate synthase isoform X2

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)
OAl26725	XM_006032768.3 Latest version!	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl26725	XM_025214506.1 Latest version!	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl26725	XM_025214505.1 Latest version!	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl26725	XM_006032765.3 Latest version!	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl26726	XM_014524256.2 Latest version!	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
View Old Accession Versions >>
OAl26725	XM_006032765.2	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl26725	XM_006032768.2	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl26726	XM_014524256.1	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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_006032765.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006032827.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl26725
Clone ID Related Accession (Same CDS sequence)	XM_006032765.2 , XM_006032768.3 , XM_006032765.3 , XM_025214505.1 , XM_025214506.1 , XM_006032768.2
Accession Version	XM_006032765.2	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	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006032765.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_006032827.1
CDS	567..3872
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPDSAPTSRRVQGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_006032765.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis 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_006032765.2

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_006032768.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006032830.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl26725
Clone ID Related Accession (Same CDS sequence)	XM_006032765.2 , XM_006032768.3 , XM_006032765.3 , XM_025214505.1 , XM_025214506.1 , XM_006032768.2
Accession Version	XM_006032768.3 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006032768.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 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##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_006032830.1
CDS	190..3495
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPDSAPTSRRVQGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_006032768.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis 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_006032768.3

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_006032765.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006032827.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAl26725
Clone ID Related Accession (Same CDS sequence)	XM_006032765.2 , XM_006032768.3 , XM_006032765.3 , XM_025214505.1 , XM_025214506.1 , XM_006032768.2
Accession Version	XM_006032765.3 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006032765.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 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##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_006032827.1
CDS	367..3672
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPDSAPTSRRVQGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_006032765.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X4, mRNA.

Target ORF information:

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

XM_006032765.3

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_025214505.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025070290.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl26725
Clone ID Related Accession (Same CDS sequence)	XM_006032765.2 , XM_006032768.3 , XM_006032765.3 , XM_025214505.1 , XM_025214506.1 , XM_006032768.2
Accession Version	XM_025214505.1 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) 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 Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 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##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_025070290.1
CDS	219..3524
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPDSAPTSRRVQGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_025214505.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis 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_025214505.1

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_025214506.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025070291.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAl26725
Clone ID Related Accession (Same CDS sequence)	XM_006032765.2 , XM_006032768.3 , XM_006032765.3 , XM_025214505.1 , XM_025214506.1 , XM_006032768.2
Accession Version	XM_025214506.1 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) 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 Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 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##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_025070291.1
CDS	73..3378
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPDSAPTSRRVQGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_025214506.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X3, mRNA.

Target ORF information:

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

XM_025214506.1

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_006032768.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006032830.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl26725
Clone ID Related Accession (Same CDS sequence)	XM_006032765.2 , XM_006032768.3 , XM_006032765.3 , XM_025214505.1 , XM_025214506.1 , XM_006032768.2
Accession Version	XM_006032768.2	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	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006032768.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

RefSeq	XP_006032830.1
CDS	174..3479
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPDSAPTSRRVQGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_006032768.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis 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_006032768.2

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGA TTCAGCCCCA 
ACTTCAAGAC GTGTTCAAGG TAAAGCCACG ACCCTGTTCA GCCGTCACAC CAAAGCGATT 
GTTTGGGGCA TGCAGACACG GGCCGTCCAG GGCATGCTGG ACTTTGACTA TATCTGTTCC 
AGGGATGAAC CTTCGGTTGC TGCCATGGTT TATCCATTCA CTGGAGATCA TAAGCAGAAA 
TTCTACTGGG GCCACAAGGA AATTCTGATC CCTGTCTACA AGAACATGTC GGATGCCATG 
AAGAAGCACC CAGAGGTGGA CGTCCTGATC AACTTTGCCT CTCTGCGATC TGCTTATGAC 
AGCACTGTCG AGACCATGAA CTATCCCCAG ATCCGCACCA TTGCCATCAT CGCGGAGGGC 
ATTCCAGAAG CGCTGACACG CAAGCTAATC AAAACTGCTG ACAAGAAAGG GGTCACAATC 
ATCGGGCCTG CAACTGTTGG TGGGATCAAA CCCGGCTGCT TTAAAATAGG TAACACAGGA 
GGGATGCTGG ATAATATCCT GGCATCAAAA CTCTACCGCC CAGGCAGCGT GGCCTATGTC 
TCCCGCTCTG GAGGAATGTC AAATGAGCTC AACAACATCA TCTCCCGAAC CACAGATGGA 
GTGTATGAGG GAGTGGCCAT TGGTGGGGAC AGGTATCCTG GCTCAACTTT CATGGACCAT 
GTCTTACGCT ATCAGGACAC TCCAGGAGTG AAAATGATTG TGGTGCTTGG GGAAATTGGA 
GGCACAGAAG AGTACAAGAT CAGCAGGGGT ATTAAAGAAG GCCGCATCAC CAAGCCTGTT 
GTCTGCTGGT GTATTGGTAC CTGTGCTACC ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC 
GCAGGGGCTT GTGCCAACCA AGCTTCTGAA ACTGCTGTTG CAAAGAACAA AGCCCTGAAA 
GAAGCTGGAG TGTTTGTGCC TCATAGTTTT GACGAGCTGG GAGATGTGAT TCAGTCTGTG 
TATGAAGACC TTGTTTCAAA AGGAGTGATT GAACCAGCTG AGGAAGTGCC TCCCCCAACT 
GTGCCTATGG ACTACTCTTG GGCAAGGGAA CTAGGTCTGA TCCGGAAGCC AGCATCTTTC 
ATGACCAGCA TTTGTGATGA GAGGGGCCAG GAGCTGATCT ATGCTGGGAT GCCCATCACT 
GAAGTCTTCA AGGAGGAGAT GGGAATTGGT GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA 
AGGTTACCAA AGTATGCCTG TCAGTTTATA GAGATGTGTT TGATGGTAAC AGCAGATCAT 
GGACCTGCTG TATCGGGAGC CCACAACACC ATTGTCTGTG CAAGAGCCGG GAAAGATCTG 
GTTTCTAGTC TCACCTCGGG CCTTCTCACC ATTGGAGACC GGTTTGGCGG TGCATTGGAT 
GCAGCAGCTA AGATGTTCAG TAAAGCCTTT GACAGTGGCA TCATCCCCAT GGAGTTTGTG 
AACAAGATGA AGAAAGAAGG GAAACTGATC ATGGGCATTG GCCACAGGGT CAAATCGATA 
AATAACCCTG ACATGAGGGT TCAGATTCTC AAGGACTTTG TGAAACAGCA CTTCCCTGCT 
ACCCCATTGC TGGACTACGC ACTTGAAGTA GAGAAAATTA CAACTTCCAA GAAGCCAAAT 
CTTATTCTGA ATGTGGACGG CTTTATTGGA GTGGCCTTTG TTGATGTACT CAGGACCTGT 
GGAACCTTCA CTCGAGAAGA AGCAGATGAA TATATTGACA TAGGAGCCCT CAATGGCATC 
TTTGTTCTTG GCAGGAGTAT GGGGTTCATT GGACACTACC TGGATCAGAA GAGGCTGAAG 
CAAGGTCTGT ATCGTCATCC ATGGGACGAC ATCTCCTATG TTCTACCAGA GCACATGACT 
ATGTGA

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

ACLY ( XM_014524256.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014379742.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAl26726
Clone ID Related Accession (Same CDS sequence)	XM_014524256.1 , XM_014524256.2
Accession Version	XM_014524256.1	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	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) 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 :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGG TAAAGCCACG 
ACCCTGTTCA GCCGTCACAC CAAAGCGATT GTTTGGGGCA TGCAGACACG GGCCGTCCAG 
GGCATGCTGG ACTTTGACTA TATCTGTTCC AGGGATGAAC CTTCGGTTGC TGCCATGGTT 
TATCCATTCA CTGGAGATCA TAAGCAGAAA TTCTACTGGG GCCACAAGGA AATTCTGATC 
CCTGTCTACA AGAACATGTC GGATGCCATG AAGAAGCACC CAGAGGTGGA CGTCCTGATC 
AACTTTGCCT CTCTGCGATC TGCTTATGAC AGCACTGTCG AGACCATGAA CTATCCCCAG 
ATCCGCACCA TTGCCATCAT CGCGGAGGGC ATTCCAGAAG CGCTGACACG CAAGCTAATC 
AAAACTGCTG ACAAGAAAGG GGTCACAATC ATCGGGCCTG CAACTGTTGG TGGGATCAAA 
CCCGGCTGCT TTAAAATAGG TAACACAGGA GGGATGCTGG ATAATATCCT GGCATCAAAA 
CTCTACCGCC CAGGCAGCGT GGCCTATGTC TCCCGCTCTG GAGGAATGTC AAATGAGCTC 
AACAACATCA TCTCCCGAAC CACAGATGGA GTGTATGAGG GAGTGGCCAT TGGTGGGGAC 
AGGTATCCTG GCTCAACTTT CATGGACCAT GTCTTACGCT ATCAGGACAC TCCAGGAGTG 
AAAATGATTG TGGTGCTTGG GGAAATTGGA GGCACAGAAG AGTACAAGAT CAGCAGGGGT 
ATTAAAGAAG GCCGCATCAC CAAGCCTGTT GTCTGCTGGT GTATTGGTAC CTGTGCTACC 
ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC GCAGGGGCTT GTGCCAACCA AGCTTCTGAA 
ACTGCTGTTG CAAAGAACAA AGCCCTGAAA GAAGCTGGAG TGTTTGTGCC TCATAGTTTT 
GACGAGCTGG GAGATGTGAT TCAGTCTGTG TATGAAGACC TTGTTTCAAA AGGAGTGATT 
GAACCAGCTG AGGAAGTGCC TCCCCCAACT GTGCCTATGG ACTACTCTTG GGCAAGGGAA 
CTAGGTCTGA TCCGGAAGCC AGCATCTTTC ATGACCAGCA TTTGTGATGA GAGGGGCCAG 
GAGCTGATCT ATGCTGGGAT GCCCATCACT GAAGTCTTCA AGGAGGAGAT GGGAATTGGT 
GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA AGGTTACCAA AGTATGCCTG TCAGTTTATA 
GAGATGTGTT TGATGGTAAC AGCAGATCAT GGACCTGCTG TATCGGGAGC CCACAACACC 
ATTGTCTGTG CAAGAGCCGG GAAAGATCTG GTTTCTAGTC TCACCTCGGG CCTTCTCACC 
ATTGGAGACC GGTTTGGCGG TGCATTGGAT GCAGCAGCTA AGATGTTCAG TAAAGCCTTT 
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAAGAAGG GAAACTGATC 
ATGGGCATTG GCCACAGGGT CAAATCGATA AATAACCCTG ACATGAGGGT TCAGATTCTC 
AAGGACTTTG TGAAACAGCA CTTCCCTGCT ACCCCATTGC TGGACTACGC ACTTGAAGTA 
GAGAAAATTA CAACTTCCAA GAAGCCAAAT CTTATTCTGA ATGTGGACGG CTTTATTGGA 
GTGGCCTTTG TTGATGTACT CAGGACCTGT GGAACCTTCA CTCGAGAAGA AGCAGATGAA 
TATATTGACA TAGGAGCCCT CAATGGCATC TTTGTTCTTG GCAGGAGTAT GGGGTTCATT 
GGACACTACC TGGATCAGAA GAGGCTGAAG CAAGGTCTGT ATCGTCATCC ATGGGACGAC 
ATCTCCTATG TTCTACCAGA GCACATGACT ATGTGA

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

RefSeq	XP_014379742.1
CDS	174..3449
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_014524256.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X3, mRNA.

Target ORF information:

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

XM_014524256.1

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGG TAAAGCCACG 
ACCCTGTTCA GCCGTCACAC CAAAGCGATT GTTTGGGGCA TGCAGACACG GGCCGTCCAG 
GGCATGCTGG ACTTTGACTA TATCTGTTCC AGGGATGAAC CTTCGGTTGC TGCCATGGTT 
TATCCATTCA CTGGAGATCA TAAGCAGAAA TTCTACTGGG GCCACAAGGA AATTCTGATC 
CCTGTCTACA AGAACATGTC GGATGCCATG AAGAAGCACC CAGAGGTGGA CGTCCTGATC 
AACTTTGCCT CTCTGCGATC TGCTTATGAC AGCACTGTCG AGACCATGAA CTATCCCCAG 
ATCCGCACCA TTGCCATCAT CGCGGAGGGC ATTCCAGAAG CGCTGACACG CAAGCTAATC 
AAAACTGCTG ACAAGAAAGG GGTCACAATC ATCGGGCCTG CAACTGTTGG TGGGATCAAA 
CCCGGCTGCT TTAAAATAGG TAACACAGGA GGGATGCTGG ATAATATCCT GGCATCAAAA 
CTCTACCGCC CAGGCAGCGT GGCCTATGTC TCCCGCTCTG GAGGAATGTC AAATGAGCTC 
AACAACATCA TCTCCCGAAC CACAGATGGA GTGTATGAGG GAGTGGCCAT TGGTGGGGAC 
AGGTATCCTG GCTCAACTTT CATGGACCAT GTCTTACGCT ATCAGGACAC TCCAGGAGTG 
AAAATGATTG TGGTGCTTGG GGAAATTGGA GGCACAGAAG AGTACAAGAT CAGCAGGGGT 
ATTAAAGAAG GCCGCATCAC CAAGCCTGTT GTCTGCTGGT GTATTGGTAC CTGTGCTACC 
ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC GCAGGGGCTT GTGCCAACCA AGCTTCTGAA 
ACTGCTGTTG CAAAGAACAA AGCCCTGAAA GAAGCTGGAG TGTTTGTGCC TCATAGTTTT 
GACGAGCTGG GAGATGTGAT TCAGTCTGTG TATGAAGACC TTGTTTCAAA AGGAGTGATT 
GAACCAGCTG AGGAAGTGCC TCCCCCAACT GTGCCTATGG ACTACTCTTG GGCAAGGGAA 
CTAGGTCTGA TCCGGAAGCC AGCATCTTTC ATGACCAGCA TTTGTGATGA GAGGGGCCAG 
GAGCTGATCT ATGCTGGGAT GCCCATCACT GAAGTCTTCA AGGAGGAGAT GGGAATTGGT 
GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA AGGTTACCAA AGTATGCCTG TCAGTTTATA 
GAGATGTGTT TGATGGTAAC AGCAGATCAT GGACCTGCTG TATCGGGAGC CCACAACACC 
ATTGTCTGTG CAAGAGCCGG GAAAGATCTG GTTTCTAGTC TCACCTCGGG CCTTCTCACC 
ATTGGAGACC GGTTTGGCGG TGCATTGGAT GCAGCAGCTA AGATGTTCAG TAAAGCCTTT 
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAAGAAGG GAAACTGATC 
ATGGGCATTG GCCACAGGGT CAAATCGATA AATAACCCTG ACATGAGGGT TCAGATTCTC 
AAGGACTTTG TGAAACAGCA CTTCCCTGCT ACCCCATTGC TGGACTACGC ACTTGAAGTA 
GAGAAAATTA CAACTTCCAA GAAGCCAAAT CTTATTCTGA ATGTGGACGG CTTTATTGGA 
GTGGCCTTTG TTGATGTACT CAGGACCTGT GGAACCTTCA CTCGAGAAGA AGCAGATGAA 
TATATTGACA TAGGAGCCCT CAATGGCATC TTTGTTCTTG GCAGGAGTAT GGGGTTCATT 
GGACACTACC TGGATCAGAA GAGGCTGAAG CAAGGTCTGT ATCGTCATCC ATGGGACGAC 
ATCTCCTATG TTCTACCAGA GCACATGACT ATGTGA

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

ACLY ( XM_014524256.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014379742.1 Alligator sinensis ATP citrate lyase (ACLY), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OAl26726
Clone ID Related Accession (Same CDS sequence)	XM_014524256.1 , XM_014524256.2
Accession Version	XM_014524256.2 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
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_005842585.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_014524256.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 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##

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGG TAAAGCCACG 
ACCCTGTTCA GCCGTCACAC CAAAGCGATT GTTTGGGGCA TGCAGACACG GGCCGTCCAG 
GGCATGCTGG ACTTTGACTA TATCTGTTCC AGGGATGAAC CTTCGGTTGC TGCCATGGTT 
TATCCATTCA CTGGAGATCA TAAGCAGAAA TTCTACTGGG GCCACAAGGA AATTCTGATC 
CCTGTCTACA AGAACATGTC GGATGCCATG AAGAAGCACC CAGAGGTGGA CGTCCTGATC 
AACTTTGCCT CTCTGCGATC TGCTTATGAC AGCACTGTCG AGACCATGAA CTATCCCCAG 
ATCCGCACCA TTGCCATCAT CGCGGAGGGC ATTCCAGAAG CGCTGACACG CAAGCTAATC 
AAAACTGCTG ACAAGAAAGG GGTCACAATC ATCGGGCCTG CAACTGTTGG TGGGATCAAA 
CCCGGCTGCT TTAAAATAGG TAACACAGGA GGGATGCTGG ATAATATCCT GGCATCAAAA 
CTCTACCGCC CAGGCAGCGT GGCCTATGTC TCCCGCTCTG GAGGAATGTC AAATGAGCTC 
AACAACATCA TCTCCCGAAC CACAGATGGA GTGTATGAGG GAGTGGCCAT TGGTGGGGAC 
AGGTATCCTG GCTCAACTTT CATGGACCAT GTCTTACGCT ATCAGGACAC TCCAGGAGTG 
AAAATGATTG TGGTGCTTGG GGAAATTGGA GGCACAGAAG AGTACAAGAT CAGCAGGGGT 
ATTAAAGAAG GCCGCATCAC CAAGCCTGTT GTCTGCTGGT GTATTGGTAC CTGTGCTACC 
ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC GCAGGGGCTT GTGCCAACCA AGCTTCTGAA 
ACTGCTGTTG CAAAGAACAA AGCCCTGAAA GAAGCTGGAG TGTTTGTGCC TCATAGTTTT 
GACGAGCTGG GAGATGTGAT TCAGTCTGTG TATGAAGACC TTGTTTCAAA AGGAGTGATT 
GAACCAGCTG AGGAAGTGCC TCCCCCAACT GTGCCTATGG ACTACTCTTG GGCAAGGGAA 
CTAGGTCTGA TCCGGAAGCC AGCATCTTTC ATGACCAGCA TTTGTGATGA GAGGGGCCAG 
GAGCTGATCT ATGCTGGGAT GCCCATCACT GAAGTCTTCA AGGAGGAGAT GGGAATTGGT 
GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA AGGTTACCAA AGTATGCCTG TCAGTTTATA 
GAGATGTGTT TGATGGTAAC AGCAGATCAT GGACCTGCTG TATCGGGAGC CCACAACACC 
ATTGTCTGTG CAAGAGCCGG GAAAGATCTG GTTTCTAGTC TCACCTCGGG CCTTCTCACC 
ATTGGAGACC GGTTTGGCGG TGCATTGGAT GCAGCAGCTA AGATGTTCAG TAAAGCCTTT 
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAAGAAGG GAAACTGATC 
ATGGGCATTG GCCACAGGGT CAAATCGATA AATAACCCTG ACATGAGGGT TCAGATTCTC 
AAGGACTTTG TGAAACAGCA CTTCCCTGCT ACCCCATTGC TGGACTACGC ACTTGAAGTA 
GAGAAAATTA CAACTTCCAA GAAGCCAAAT CTTATTCTGA ATGTGGACGG CTTTATTGGA 
GTGGCCTTTG TTGATGTACT CAGGACCTGT GGAACCTTCA CTCGAGAAGA AGCAGATGAA 
TATATTGACA TAGGAGCCCT CAATGGCATC TTTGTTCTTG GCAGGAGTAT GGGGTTCATT 
GGACACTACC TGGATCAGAA GAGGCTGAAG CAAGGTCTGT ATCGTCATCC ATGGGACGAC 
ATCTCCTATG TTCTACCAGA GCACATGACT ATGTGA

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

RefSeq	XP_014379742.1
CDS	190..3465
Translation	MSAKAISEQTGKEFLYKYICTTSAIQNRFKYARVTPDTDWDRLIQDHPWLLTECLVVKPDQLIKRRGKLGLVGVNLSLNQVKSWLKQRLGQETTIANAKGILKNFLIEPFVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVNEKLTESDVKKHLLVHAPEDKKDILASFISGLFNLYEDLYFTYLEINPLVVTKDGVHILDLAAKIDATADYICKVKWGDVEFPPPFGREAYPEEAYIADLDAKSGASLKLTLLNPKGRIWTMVAGGGASVVYSDTICDLGGVNELANYGEYSGAPSEQQTYDYAKTILSLMTQEKHPEGKILIIGGSIANFTNVAATFKGIVRAIKDYQGPLKEHEVRIFVRRGGPNYQEGLRVMGEVGKTTGIPIHVFGTETHMTAIVGMALGHRPIPNQPPAAAHTANFLLNASGSPSTPAPSRTASFSESKPDEITPAKKAKSVAPPGKATTLFSRHTKAIVWGMQTRAVQGMLDFDYICSRDEPSVAAMVYPFTGDHKQKFYWGHKEILIPVYKNMSDAMKKHPEVDVLINFASLRSAYDSTVETMNYPQIRTIAIIAEGIPEALTRKLIKTADKKGVTIIGPATVGGIKPGCFKIGNTGGMLDNILASKLYRPGSVAYVSRSGGMSNELNNIISRTTDGVYEGVAIGGDRYPGSTFMDHVLRYQDTPGVKMIVVLGEIGGTEEYKISRGIKEGRITKPVVCWCIGTCATMFSSEVQFGHAGACANQASETAVAKNKALKEAGVFVPHSFDELGDVIQSVYEDLVSKGVIEPAEEVPPPTVPMDYSWARELGLIRKPASFMTSICDERGQELIYAGMPITEVFKEEMGIGGVLGLLWFQRRLPKYACQFIEMCLMVTADHGPAVSGAHNTIVCARAGKDLVSSLTSGLLTIGDRFGGALDAAAKMFSKAFDSGIIPMEFVNKMKKEGKLIMGIGHRVKSINNPDMRVQILKDFVKQHFPATPLLDYALEVEKITTSKKPNLILNVDGFIGVAFVDVLRTCGTFTREEADEYIDIGALNGIFVLGRSMGFIGHYLDQKRLKQGLYRHPWDDISYVLPEHMTM

Target ORF information:

RefSeq Version	XM_014524256.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis ATP citrate lyase (ACLY), transcript variant X5, mRNA.

Target ORF information:

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

XM_014524256.2

ORF Insert Sequence:

ATGTCAGCCA AAGCCATCTC TGAGCAGACT GGGAAGGAGT TCCTCTATAA ATATATCTGT 
ACCACCTCAG CTATCCAGAA CCGCTTCAAG TATGCCAGAG TGACTCCAGA CACTGACTGG 
GATCGGTTGA TCCAAGATCA CCCCTGGCTC CTAACTGAGT GTCTGGTGGT GAAGCCGGAT 
CAGTTAATTA AACGGCGTGG GAAGCTCGGA TTGGTCGGAG TTAACCTCAG CCTGAATCAG 
GTGAAGAGTT GGCTCAAACA GCGGCTGGGA CAAGAAACCA CGATTGCTAA TGCCAAGGGA 
ATCCTGAAGA ACTTTCTGAT TGAACCCTTC GTCCCTCACA AGCAGGAGGA AGAATTCTAT 
GTGTGCATCT ATGCTGCCCG TGAGGGGGAC TATGTGCTTT TCCACCACGA AGGGGGTGTG 
GATGTGGGCG ATGTTGATGC CAAAGCTCAG AAGCTGCTTG TGGGGGTGAA TGAAAAGCTC 
ACCGAGTCCG ATGTGAAGAA GCACCTCCTG GTGCATGCAC CAGAGGACAA GAAAGACATC 
CTGGCTAGCT TCATATCCGG CCTTTTCAAC CTTTATGAAG ATCTGTATTT CACATACCTG 
GAGATCAATC CACTAGTTGT GACTAAAGAT GGCGTCCACA TTTTGGATTT GGCTGCAAAG 
ATTGATGCTA CGGCTGACTA CATCTGCAAA GTGAAATGGG GGGATGTGGA GTTCCCGCCT 
CCCTTTGGCA GGGAGGCTTA TCCAGAGGAA GCCTACATTG CGGATCTGGA TGCAAAGAGT 
GGAGCCAGCC TGAAACTGAC TCTTCTCAAC CCAAAGGGAA GGATCTGGAC CATGGTGGCT 
GGAGGCGGTG CATCTGTGGT CTACAGTGAT ACCATTTGTG ACCTGGGGGG CGTGAATGAA 
CTGGCAAACT ATGGGGAATA CTCTGGAGCC CCAAGTGAGC AGCAGACCTA TGATTATGCT 
AAGACTATTC TCTCCCTCAT GACCCAGGAG AAGCATCCTG AGGGAAAAAT CCTGATCATC 
GGAGGCAGCA TTGCTAACTT CACCAATGTG GCAGCCACTT TCAAGGGTAT TGTGAGAGCC 
ATCAAAGATT ACCAGGGCCC TCTGAAAGAG CATGAAGTGA GGATCTTTGT GCGGCGAGGA 
GGCCCAAACT ACCAGGAAGG GCTGCGTGTC ATGGGTGAAG TGGGAAAAAC CACTGGGATC 
CCCATCCACG TCTTTGGCAC TGAAACCCAC ATGACTGCCA TTGTAGGCAT GGCGCTTGGC 
CACCGGCCTA TCCCTAATCA GCCTCCTGCT GCAGCCCACA CTGCCAACTT CCTCCTCAAT 
GCCAGTGGCA GCCCTTCGAC ACCAGCACCA AGCAGAACTG CCTCTTTTTC TGAATCCAAG 
CCTGATGAGA TCACTCCAGC CAAGAAAGCA AAGTCTGTGG CGCCACCTGG TAAAGCCACG 
ACCCTGTTCA GCCGTCACAC CAAAGCGATT GTTTGGGGCA TGCAGACACG GGCCGTCCAG 
GGCATGCTGG ACTTTGACTA TATCTGTTCC AGGGATGAAC CTTCGGTTGC TGCCATGGTT 
TATCCATTCA CTGGAGATCA TAAGCAGAAA TTCTACTGGG GCCACAAGGA AATTCTGATC 
CCTGTCTACA AGAACATGTC GGATGCCATG AAGAAGCACC CAGAGGTGGA CGTCCTGATC 
AACTTTGCCT CTCTGCGATC TGCTTATGAC AGCACTGTCG AGACCATGAA CTATCCCCAG 
ATCCGCACCA TTGCCATCAT CGCGGAGGGC ATTCCAGAAG CGCTGACACG CAAGCTAATC 
AAAACTGCTG ACAAGAAAGG GGTCACAATC ATCGGGCCTG CAACTGTTGG TGGGATCAAA 
CCCGGCTGCT TTAAAATAGG TAACACAGGA GGGATGCTGG ATAATATCCT GGCATCAAAA 
CTCTACCGCC CAGGCAGCGT GGCCTATGTC TCCCGCTCTG GAGGAATGTC AAATGAGCTC 
AACAACATCA TCTCCCGAAC CACAGATGGA GTGTATGAGG GAGTGGCCAT TGGTGGGGAC 
AGGTATCCTG GCTCAACTTT CATGGACCAT GTCTTACGCT ATCAGGACAC TCCAGGAGTG 
AAAATGATTG TGGTGCTTGG GGAAATTGGA GGCACAGAAG AGTACAAGAT CAGCAGGGGT 
ATTAAAGAAG GCCGCATCAC CAAGCCTGTT GTCTGCTGGT GTATTGGTAC CTGTGCTACC 
ATGTTCTCTT CAGAGGTTCA GTTTGGCCAC GCAGGGGCTT GTGCCAACCA AGCTTCTGAA 
ACTGCTGTTG CAAAGAACAA AGCCCTGAAA GAAGCTGGAG TGTTTGTGCC TCATAGTTTT 
GACGAGCTGG GAGATGTGAT TCAGTCTGTG TATGAAGACC TTGTTTCAAA AGGAGTGATT 
GAACCAGCTG AGGAAGTGCC TCCCCCAACT GTGCCTATGG ACTACTCTTG GGCAAGGGAA 
CTAGGTCTGA TCCGGAAGCC AGCATCTTTC ATGACCAGCA TTTGTGATGA GAGGGGCCAG 
GAGCTGATCT ATGCTGGGAT GCCCATCACT GAAGTCTTCA AGGAGGAGAT GGGAATTGGT 
GGGGTCCTGG GCTTGCTCTG GTTTCAGAGA AGGTTACCAA AGTATGCCTG TCAGTTTATA 
GAGATGTGTT TGATGGTAAC AGCAGATCAT GGACCTGCTG TATCGGGAGC CCACAACACC 
ATTGTCTGTG CAAGAGCCGG GAAAGATCTG GTTTCTAGTC TCACCTCGGG CCTTCTCACC 
ATTGGAGACC GGTTTGGCGG TGCATTGGAT GCAGCAGCTA AGATGTTCAG TAAAGCCTTT 
GACAGTGGCA TCATCCCCAT GGAGTTTGTG AACAAGATGA AGAAAGAAGG GAAACTGATC 
ATGGGCATTG GCCACAGGGT CAAATCGATA AATAACCCTG ACATGAGGGT TCAGATTCTC 
AAGGACTTTG TGAAACAGCA CTTCCCTGCT ACCCCATTGC TGGACTACGC ACTTGAAGTA 
GAGAAAATTA CAACTTCCAA GAAGCCAAAT CTTATTCTGA ATGTGGACGG CTTTATTGGA 
GTGGCCTTTG TTGATGTACT CAGGACCTGT GGAACCTTCA CTCGAGAAGA AGCAGATGAA 
TATATTGACA TAGGAGCCCT CAATGGCATC TTTGTTCTTG GCAGGAGTAT GGGGTTCATT 
GGACACTACC TGGATCAGAA GAGGCTGAAG CAAGGTCTGT ATCGTCATCC ATGGGACGAC 
ATCTCCTATG TTCTACCAGA GCACATGACT ATGTGA

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

PubMed

- Most Popular Services
  - 人工遺伝子合成& DNA合成-納期保証
- Services & Products

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文

ACLY cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム