ACE cDNA ORF clone, Protobothrops mucrosquamatus

Gene
Clones
gRNAs

Summary

Gene Symbol	ACE
Entrez Gene ID	107302404
Full Name	angiotensin I converting enzyme
Gene Type	protein-coding
Organism	Protobothrops mucrosquamatus

mRNA and Protein(s)

mRNA	Protein	Name
XM_015831509.1	XP_015686995.1	angiotensin-converting enzyme
XM_029287230.1	XP_029143063.1	angiotensin-converting enzyme

Pathways from BioSystems
Gene Ontology

The following ACE gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ACE 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
OPr197643	XM_029287230.1 Latest version!	Protobothrops mucrosquamatus angiotensin I converting enzyme (ACE), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OPr24270	XM_015831509.1 Latest version!	Protobothrops mucrosquamatus angiotensin I converting enzyme (ACE), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

ORF Online Only Promotion

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

ACE ( XM_029287230.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_029143063.1 Protobothrops mucrosquamatus angiotensin I converting enzyme (ACE), mRNA.

Price & Availability↑

CloneID	OPr197643
Clone ID Related Accession (Same CDS sequence)	XM_029287230.1
Accession Version	XM_029287230.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3915bp) 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	2019-05-22
Organism	Protobothrops mucrosquamatus
Product	angiotensin-converting enzyme
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386333.1) 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 :: Protobothrops mucrosquamatus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGCCTCCGG TGGCGGGTTT TTTCCTTTCG ATCTCCGTTG GTGTGGCACT CGCCTTGGAT 
GCCTCCCTGA TGCCTCCTGA TCACAACAAG ACCGAGGAAG GGGCCCGCTT GTTCGCAAAC 
GCTTATAACA CTACCGGGGA AATTGTGTTC TTCGAAAGCA TCTCCGCCAG CTGGAATTAC 
AACACCAACC TGACAAACCA CAACGCTCAG CAGCAGCAAG TACTATGGAG AAAAAACAAA 
CAAATAAAGT TTAACATATG CACCAAATGT CTTTGTCTTC CACTCCTATT ACAGATAACA 
GCTTCTTTGA AGGAGCAAGA ATTCACAGAG CTTTGGGGGG GGAAAGCTAA GGACAATTAT 
GGCAAAATCT GGCAGAACTT TAGTGATCCA CAACTCAAGA AAATAATCAG CTCCATTCAG 
ACCTTGGGTC CTTCTAATTT ACCAATGCAG AAACGGAAAG AGTATAATAC TATTCTAAGT 
GAGATGGACA ACATCTACTC TGTTGCCAAG GTTTGTCTAC CAAACCAGAA CTCCCACTGC 
TGGGCTTTAG AGCCAGATAT TACAGAAATT ATGGCCACTT CTCATAGTTA CAGGAAGTTG 
CTTTATGCCT GGGAAGGATG GCATAATTCT GCTGGCAATC CTCTGAGATC CATGTATGAG 
AAATTTGTTT CCCTGAGCAA CGAAGCCTAT AAAATGGATG GATTCCAAGA TACTGGGGCT 
TATTGGCGCT CCTGGTATGA TTCACCAACA TTTAAGGAAG ATCTAGAGCA ACTCTATCAA 
CAGTTGGAGC CTCTCTATCT AAATCTCCAT GCATATGTCA GAAGGAAACT ATATAACCAA 
TATGGCTCTA AATACATAAA CCTGAAAGGC CCTATTCCTG CTCACTTATT GGGTAACATG 
TGGGCCCAGC AATGGAACAA CATTTACGAC ATGATGGTGC CTTTTGCAAA TAAGCCACAT 
CTAGATGTTA CCAATACCAT GAAGCAGAAA AACTGGAACG CAACACACAT GTTCCGGGTG 
TCGGAAGAAT TCTTCACCTC ACTTGGCATG TTTGAAATGC CACCTGAATT CTGGGAGAAA 
TCCATGCTGG AGAAACCGAC AGATGGGCGG GAGGTGGTGT GCCATGCATC AGCATGGGAC 
TTCTTCAATC GCAAAGACTT CAGGATAAAG CAGTGTACAA CAGTTACTAT GGAGCAGCTC 
TTTACAGTAC ACCATGAAAT GGGTCACGTT CAATATTACT TGCAGTATAA GGACCAGCCA 
GTAAGTTTTC GCAGTGGGGC CAACCCTGGC TTTCATGAAG CCATTGGAGA TGTCATGAGT 
TTGTCTGTTT CTACCCCCAT CCATCTCAAG AAAATTGAGC TGCTCACCCA TGTCACTGAA 
GACAGAGAGA GTGATATCAA TTATCTTCTG AAAATGGCCC TGGAAAAGAT TGCCTTCCTA 
CCCTTTGGCT ATCTAATTGA TCAATGGCGG TGGGATGTCT TCAGTGGACG CACCCCTCCG 
AGCCGCTACA ATTTTGATTG GTGGTACCTA AGAACAAAAT ATCAAGGAAT TTGTCCTCCT 
ATTGCAAGAA ATGAAACAAA CTTTGATCCT GGGGCTAAAT ATCACATCCC TGGCAACACA 
CCTTATATCA GGTACTTTGT CAGTTTTATT CTGCAATTCC AATTCCACAA GGCCCTTTGC 
CAAGCTGCCA ACCATACTGG TGATCTTCAT ACATGTGACA TCTATAACTC TAAAGAAGCT 
GGACAGAAAC TCAGTGAGGC AATGAAGGCT GGATCTTCCC AGCCTTGGCA AGATATTCTC 
CAACAACTGA CTGGTACAAA TAAGATGGAT GCTTCAGCAT TGCTTGAATA TTTCAAACCA 
GTTATTGAAT GGCTGCAAAA AGAGAATGGG AAGAACAATG AAACACTGGG CTGGCCAGAA 
TTTGATTGGC GTCCACCTGT CCCTGAGGGC TATCCAGAAG GCCTTGATAA AATAACTGAT 
GAAGCTGAAG CTAAAGCATT CTTAGAAAAG TATAACAGCA CAGCTGAAGT GGTGTGGAAT 
GCTTACACAG AGGCTTCTTG GACATACAAT GTCAATATTA CTGAACACAA CAAACAGATT 
ATGTTGGAGA AGAATCTCGC AATGTCAAAC CATACTCTGC AAAATGGATT AAAGGCTCGG 
CAGTTTGATT CCACTGACTT CAAAGATCCC AGAATAAAGC GTATTCTGAA GAAATTAAGT 
GACATTGAAC GGGCAGCCTT ACCTGAAGCA GAACTGAAGG AGTATAATCA ACTGCTCTCA 
GAAATGGAGA CAATTTATAG TGTAGCCAAA ATCTGTGAAA AAGATACAGA CTGCAAAGCA 
TTAGATCCTG ACCTTACAGA TACTATGGCT AAATCAAGAG ACTATGATGA GCTTCTTAAC 
ACCTGGAAAG GTTGGCGGGA TGCATCAGGG AAGAAAATCC GAAGACACTA TGAGAGATAT 
GTACATCTGA GCAATAAGGC TGCCAAATTA AATGGACATG CAGACAACGG TGCTTACTGG 
AGATCTCTTT ATGAAACTCC AACTTTTGAA ACTGACCTGG AGAACATTTG GTACCAGCTT 
CAACCACTAT ACTTCAATCT GCATGCTTAT GTACGTCGGG CTCTATACAA AAAATATGGC 
GAAAAGCGCA TCAATCTCAA AGGCCCAATT CCAGCTCATT TGCTAGGTAA CATGTGGGCA 
CAATCATGGG CAAATATTTT TGACCTTGTC ATGCCCTTCC CTGATGCTAC CAAAGTGGAT 
GCTACTCCAG CAATGATACA ACAGGGCTGG ACCCCAAAGA AGATGTTTGA ACAATCTGAC 
AGTTTCTTCC AGTCACTGGG GCTTATCCCT ATGCCGCCAG AGTTCTGGGA AAAGTCTATG 
CTGGAAAAGC CATCAGATGG GAGAGAAGTG GTCTGTCATG CTTCAGCCTG GGACTTCTAC 
AATCGCAAGG ACTTTAGGAT AAAACAATGC ACTGTTGTGA ATATGGATGA TTTAATAACA 
GTTCACCATG AAATGGGACA CGTCCAATAC TTTTTGCAGT ATAAAGATCA GCCCATTTCA 
TTTCGTGATG GGGCAAATCC AGGATTCCAT GAAGCCATTG GCGATGTTAT GGCCTTATCA 
GTGTCAACCC CAAAGCATTT GAAAAACATC AAGCTGCTTG AACATTTGGA AGACAACACT 
GAGAGTGATA TCAACTACCT TATGAGCATG GCACTGGATA AGATTGCTTT CCTGCCCTTT 
GGCTACCTGA TCGACCAATG GAGATGGAAA GTATTTGATG GGCGTATTCC AAAAAAGGAG 
TACAATCAAC AATGGTGGAA TCTCAGATTG AAATACCAGG GTTTATGTCC TCCTACACCA 
AGATCAGAAG AAGATTTTGA TCCAGGAGCA AAATTCCACA TTCCTGCTAG TGTCCCATAT 
GTCAGATACT TTGTCAGTTT TATAATCCAA TTTCAGTTTC ACCAAGCTCT GTGCAAAGCT 
GCTGGCCATA CTGGACCTTT ATATAAATGT GACATTTACC AGTCTAAAGA AGCTGGGAAA 
ATCTTAGGGG ATGCCTTGAA GCTGGGCTTC AGCAGGCCGT GGCCTGATGT CATGCAAAAT 
ATTACAGGGC AATCCAACAT GTCTGCTGAA GCTTTGCTGA CCTATTTTGA ACCACTGACA 
AAATGGCTCA TTGAAAAGAA CAGGCAAAAT AATGAAACTC TGGGCTGGCC TGAATACACC 
TGGCAGGCTT ATGCAGATGA AACAGAAGTC AATTTCCTTG GGATGTCACT GAGCAGCAGT 
CAAATAGAAA CAGGACAGTG GATCTTGCTT GCAATTGGGC TTATACTTCT TATTACCACA 
ATAGTCTTGG GTGTCAAATA CTTCATAACA AGAAGGAAAG GCTTCAAGTC TGGTTCAGAA 
ATGGAATTGA AATGA

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

RefSeq	XP_029143063.1
CDS	1..3915
Translation	MPPVAGFFLSISVGVALALDASLMPPDHNKTEEGARLFANAYNTTGEIVFFESISASWNYNTNLTNHNAQQQQVLWRKNKQIKFNICTKCLCLPLLLQITASLKEQEFTELWGGKAKDNYGKIWQNFSDPQLKKIISSIQTLGPSNLPMQKRKEYNTILSEMDNIYSVAKVCLPNQNSHCWALEPDITEIMATSHSYRKLLYAWEGWHNSAGNPLRSMYEKFVSLSNEAYKMDGFQDTGAYWRSWYDSPTFKEDLEQLYQQLEPLYLNLHAYVRRKLYNQYGSKYINLKGPIPAHLLGNMWAQQWNNIYDMMVPFANKPHLDVTNTMKQKNWNATHMFRVSEEFFTSLGMFEMPPEFWEKSMLEKPTDGREVVCHASAWDFFNRKDFRIKQCTTVTMEQLFTVHHEMGHVQYYLQYKDQPVSFRSGANPGFHEAIGDVMSLSVSTPIHLKKIELLTHVTEDRESDINYLLKMALEKIAFLPFGYLIDQWRWDVFSGRTPPSRYNFDWWYLRTKYQGICPPIARNETNFDPGAKYHIPGNTPYIRYFVSFILQFQFHKALCQAANHTGDLHTCDIYNSKEAGQKLSEAMKAGSSQPWQDILQQLTGTNKMDASALLEYFKPVIEWLQKENGKNNETLGWPEFDWRPPVPEGYPEGLDKITDEAEAKAFLEKYNSTAEVVWNAYTEASWTYNVNITEHNKQIMLEKNLAMSNHTLQNGLKARQFDSTDFKDPRIKRILKKLSDIERAALPEAELKEYNQLLSEMETIYSVAKICEKDTDCKALDPDLTDTMAKSRDYDELLNTWKGWRDASGKKIRRHYERYVHLSNKAAKLNGHADNGAYWRSLYETPTFETDLENIWYQLQPLYFNLHAYVRRALYKKYGEKRINLKGPIPAHLLGNMWAQSWANIFDLVMPFPDATKVDATPAMIQQGWTPKKMFEQSDSFFQSLGLIPMPPEFWEKSMLEKPSDGREVVCHASAWDFYNRKDFRIKQCTVVNMDDLITVHHEMGHVQYFLQYKDQPISFRDGANPGFHEAIGDVMALSVSTPKHLKNIKLLEHLEDNTESDINYLMSMALDKIAFLPFGYLIDQWRWKVFDGRIPKKEYNQQWWNLRLKYQGLCPPTPRSEEDFDPGAKFHIPASVPYVRYFVSFIIQFQFHQALCKAAGHTGPLYKCDIYQSKEAGKILGDALKLGFSRPWPDVMQNITGQSNMSAEALLTYFEPLTKWLIEKNRQNNETLGWPEYTWQAYADETEVNFLGMSLSSSQIETGQWILLAIGLILLITTIVLGVKYFITRRKGFKSGSEMELK

Target ORF information:

RefSeq Version	XM_029287230.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus angiotensin I converting enzyme (ACE), mRNA.

Target ORF information:

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

XM_029287230.1

ORF Insert Sequence:

ATGCCTCCGG TGGCGGGTTT TTTCCTTTCG ATCTCCGTTG GTGTGGCACT CGCCTTGGAT 
GCCTCCCTGA TGCCTCCTGA TCACAACAAG ACCGAGGAAG GGGCCCGCTT GTTCGCAAAC 
GCTTATAACA CTACCGGGGA AATTGTGTTC TTCGAAAGCA TCTCCGCCAG CTGGAATTAC 
AACACCAACC TGACAAACCA CAACGCTCAG CAGCAGCAAG TACTATGGAG AAAAAACAAA 
CAAATAAAGT TTAACATATG CACCAAATGT CTTTGTCTTC CACTCCTATT ACAGATAACA 
GCTTCTTTGA AGGAGCAAGA ATTCACAGAG CTTTGGGGGG GGAAAGCTAA GGACAATTAT 
GGCAAAATCT GGCAGAACTT TAGTGATCCA CAACTCAAGA AAATAATCAG CTCCATTCAG 
ACCTTGGGTC CTTCTAATTT ACCAATGCAG AAACGGAAAG AGTATAATAC TATTCTAAGT 
GAGATGGACA ACATCTACTC TGTTGCCAAG GTTTGTCTAC CAAACCAGAA CTCCCACTGC 
TGGGCTTTAG AGCCAGATAT TACAGAAATT ATGGCCACTT CTCATAGTTA CAGGAAGTTG 
CTTTATGCCT GGGAAGGATG GCATAATTCT GCTGGCAATC CTCTGAGATC CATGTATGAG 
AAATTTGTTT CCCTGAGCAA CGAAGCCTAT AAAATGGATG GATTCCAAGA TACTGGGGCT 
TATTGGCGCT CCTGGTATGA TTCACCAACA TTTAAGGAAG ATCTAGAGCA ACTCTATCAA 
CAGTTGGAGC CTCTCTATCT AAATCTCCAT GCATATGTCA GAAGGAAACT ATATAACCAA 
TATGGCTCTA AATACATAAA CCTGAAAGGC CCTATTCCTG CTCACTTATT GGGTAACATG 
TGGGCCCAGC AATGGAACAA CATTTACGAC ATGATGGTGC CTTTTGCAAA TAAGCCACAT 
CTAGATGTTA CCAATACCAT GAAGCAGAAA AACTGGAACG CAACACACAT GTTCCGGGTG 
TCGGAAGAAT TCTTCACCTC ACTTGGCATG TTTGAAATGC CACCTGAATT CTGGGAGAAA 
TCCATGCTGG AGAAACCGAC AGATGGGCGG GAGGTGGTGT GCCATGCATC AGCATGGGAC 
TTCTTCAATC GCAAAGACTT CAGGATAAAG CAGTGTACAA CAGTTACTAT GGAGCAGCTC 
TTTACAGTAC ACCATGAAAT GGGTCACGTT CAATATTACT TGCAGTATAA GGACCAGCCA 
GTAAGTTTTC GCAGTGGGGC CAACCCTGGC TTTCATGAAG CCATTGGAGA TGTCATGAGT 
TTGTCTGTTT CTACCCCCAT CCATCTCAAG AAAATTGAGC TGCTCACCCA TGTCACTGAA 
GACAGAGAGA GTGATATCAA TTATCTTCTG AAAATGGCCC TGGAAAAGAT TGCCTTCCTA 
CCCTTTGGCT ATCTAATTGA TCAATGGCGG TGGGATGTCT TCAGTGGACG CACCCCTCCG 
AGCCGCTACA ATTTTGATTG GTGGTACCTA AGAACAAAAT ATCAAGGAAT TTGTCCTCCT 
ATTGCAAGAA ATGAAACAAA CTTTGATCCT GGGGCTAAAT ATCACATCCC TGGCAACACA 
CCTTATATCA GGTACTTTGT CAGTTTTATT CTGCAATTCC AATTCCACAA GGCCCTTTGC 
CAAGCTGCCA ACCATACTGG TGATCTTCAT ACATGTGACA TCTATAACTC TAAAGAAGCT 
GGACAGAAAC TCAGTGAGGC AATGAAGGCT GGATCTTCCC AGCCTTGGCA AGATATTCTC 
CAACAACTGA CTGGTACAAA TAAGATGGAT GCTTCAGCAT TGCTTGAATA TTTCAAACCA 
GTTATTGAAT GGCTGCAAAA AGAGAATGGG AAGAACAATG AAACACTGGG CTGGCCAGAA 
TTTGATTGGC GTCCACCTGT CCCTGAGGGC TATCCAGAAG GCCTTGATAA AATAACTGAT 
GAAGCTGAAG CTAAAGCATT CTTAGAAAAG TATAACAGCA CAGCTGAAGT GGTGTGGAAT 
GCTTACACAG AGGCTTCTTG GACATACAAT GTCAATATTA CTGAACACAA CAAACAGATT 
ATGTTGGAGA AGAATCTCGC AATGTCAAAC CATACTCTGC AAAATGGATT AAAGGCTCGG 
CAGTTTGATT CCACTGACTT CAAAGATCCC AGAATAAAGC GTATTCTGAA GAAATTAAGT 
GACATTGAAC GGGCAGCCTT ACCTGAAGCA GAACTGAAGG AGTATAATCA ACTGCTCTCA 
GAAATGGAGA CAATTTATAG TGTAGCCAAA ATCTGTGAAA AAGATACAGA CTGCAAAGCA 
TTAGATCCTG ACCTTACAGA TACTATGGCT AAATCAAGAG ACTATGATGA GCTTCTTAAC 
ACCTGGAAAG GTTGGCGGGA TGCATCAGGG AAGAAAATCC GAAGACACTA TGAGAGATAT 
GTACATCTGA GCAATAAGGC TGCCAAATTA AATGGACATG CAGACAACGG TGCTTACTGG 
AGATCTCTTT ATGAAACTCC AACTTTTGAA ACTGACCTGG AGAACATTTG GTACCAGCTT 
CAACCACTAT ACTTCAATCT GCATGCTTAT GTACGTCGGG CTCTATACAA AAAATATGGC 
GAAAAGCGCA TCAATCTCAA AGGCCCAATT CCAGCTCATT TGCTAGGTAA CATGTGGGCA 
CAATCATGGG CAAATATTTT TGACCTTGTC ATGCCCTTCC CTGATGCTAC CAAAGTGGAT 
GCTACTCCAG CAATGATACA ACAGGGCTGG ACCCCAAAGA AGATGTTTGA ACAATCTGAC 
AGTTTCTTCC AGTCACTGGG GCTTATCCCT ATGCCGCCAG AGTTCTGGGA AAAGTCTATG 
CTGGAAAAGC CATCAGATGG GAGAGAAGTG GTCTGTCATG CTTCAGCCTG GGACTTCTAC 
AATCGCAAGG ACTTTAGGAT AAAACAATGC ACTGTTGTGA ATATGGATGA TTTAATAACA 
GTTCACCATG AAATGGGACA CGTCCAATAC TTTTTGCAGT ATAAAGATCA GCCCATTTCA 
TTTCGTGATG GGGCAAATCC AGGATTCCAT GAAGCCATTG GCGATGTTAT GGCCTTATCA 
GTGTCAACCC CAAAGCATTT GAAAAACATC AAGCTGCTTG AACATTTGGA AGACAACACT 
GAGAGTGATA TCAACTACCT TATGAGCATG GCACTGGATA AGATTGCTTT CCTGCCCTTT 
GGCTACCTGA TCGACCAATG GAGATGGAAA GTATTTGATG GGCGTATTCC AAAAAAGGAG 
TACAATCAAC AATGGTGGAA TCTCAGATTG AAATACCAGG GTTTATGTCC TCCTACACCA 
AGATCAGAAG AAGATTTTGA TCCAGGAGCA AAATTCCACA TTCCTGCTAG TGTCCCATAT 
GTCAGATACT TTGTCAGTTT TATAATCCAA TTTCAGTTTC ACCAAGCTCT GTGCAAAGCT 
GCTGGCCATA CTGGACCTTT ATATAAATGT GACATTTACC AGTCTAAAGA AGCTGGGAAA 
ATCTTAGGGG ATGCCTTGAA GCTGGGCTTC AGCAGGCCGT GGCCTGATGT CATGCAAAAT 
ATTACAGGGC AATCCAACAT GTCTGCTGAA GCTTTGCTGA CCTATTTTGA ACCACTGACA 
AAATGGCTCA TTGAAAAGAA CAGGCAAAAT AATGAAACTC TGGGCTGGCC TGAATACACC 
TGGCAGGCTT ATGCAGATGA AACAGAAGTC AATTTCCTTG GGATGTCACT GAGCAGCAGT 
CAAATAGAAA CAGGACAGTG GATCTTGCTT GCAATTGGGC TTATACTTCT TATTACCACA 
ATAGTCTTGG GTGTCAAATA CTTCATAACA AGAAGGAAAG GCTTCAAGTC TGGTTCAGAA 
ATGGAATTGA AATGA

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

ACE ( XM_015831509.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_015686995.1 Protobothrops mucrosquamatus angiotensin I converting enzyme (ACE), mRNA.

Price & Availability↑

CloneID	OPr24270
Clone ID Related Accession (Same CDS sequence)	XM_015831509.1
Accession Version	XM_015831509.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3837bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-03-01
Organism	Protobothrops mucrosquamatus
Product	angiotensin-converting enzyme
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386333.1) 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 :: Protobothrops mucrosquamatus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTCCGG TGGCGGGTTT TTTCCTTTCG ATCTCCGTTG GTGTGGCACT CGCCTTGGAT 
GCCTCCCTGA TGCCTCCTGA TCACAACAAG ACCGAGGAAG GGGCCCGCTT GTTCGCAAAC 
GCTTATAACA CTACCGGGGA AATTGTGTTC TTCGAAAGCA TCTCCGCCAG CTGGAATTAC 
AACACCAACC TGACAAACCA CAACGCTCAG CAGCAGATAA CAGCTTCTTT GAAGGAGCAA 
GAATTCACAG AGCTTTGGGG GGGGAAAGCT AAGGACAATT ATGGCAAAAT CTGGCAGAAC 
TTTAGTGATC CACAACTCAA GAAAATAATC AGCTCCATTC AGACCTTGGG TCCTTCTAAT 
TTACCAATGC AGAAACGGAA AGAGTATAAT ACTATTCTAA GTGAGATGGA CAACATCTAC 
TCTGTTGCCA AGGTTTGTCT ACCAAACCAG AACTCCCACT GCTGGGCTTT AGAGCCAGAT 
ATTACAGAAA TTATGGCCAC TTCTCATAGT TACAGGAAGT TGCTTTATGC CTGGGAAGGA 
TGGCATAATT CTGCTGGCAA TCCTCTGAGA TCCATGTATG AGAAATTTGT TTCCCTGAGC 
AACGAAGCCT ATAAAATGGA TGGATTCCAA GATACTGGGG CTTATTGGCG CTCCTGGTAT 
GATTCACCAA CATTTAAGGA AGATCTAGAG CAACTCTATC AACAGTTGGA GCCTCTCTAT 
CTAAATCTCC ATGCATATGT CAGAAGGAAA CTATATAACC AATATGGCTC TAAATACATA 
AACCTGAAAG GCCCTATTCC TGCTCACTTA TTGGGTAACA TGTGGGCCCA GCAATGGAAC 
AACATTTACG ACATGATGGT GCCTTTTGCA AATAAGCCAC ATCTAGATGT TACCAATACC 
ATGAAGCAGA AAAACTGGAA CGCAACACAC ATGTTCCGGG TGTCGGAAGA ATTCTTCACC 
TCACTTGGCA TGTTTGAAAT GCCACCTGAA TTCTGGGAGA AATCCATGCT GGAGAAACCG 
ACAGATGGGC GGGAGGTGGT GTGCCATGCA TCAGCATGGG ACTTCTTCAA TCGCAAAGAC 
TTCAGGATAA AGCAGTGTAC AACAGTTACT ATGGAGCAGC TCTTTACAGT ACACCATGAA 
ATGGGTCACG TTCAATATTA CTTGCAGTAT AAGGACCAGC CAGTAAGTTT TCGCAGTGGG 
GCCAACCCTG GCTTTCATGA AGCCATTGGA GATGTCATGA GTTTGTCTGT TTCTACCCCC 
ATCCATCTCA AGAAAATTGA GCTGCTCACC CATGTCACTG AAGACAGAGA GAGTGATATC 
AATTATCTTC TGAAAATGGC CCTGGAAAAG ATTGCCTTCC TACCCTTTGG CTATCTAATT 
GATCAATGGC GGTGGGATGT CTTCAGTGGA CGCACCCCTC CGAGCCGCTA CAATTTTGAT 
TGGTGGTACC TAAGAACAAA ATATCAAGGA ATTTGTCCTC CTATTGCAAG AAATGAAACA 
AACTTTGATC CTGGGGCTAA ATATCACATC CCTGGCAACA CACCTTATAT CAGGTACTTT 
GTCAGTTTTA TTCTGCAATT CCAATTCCAC AAGGCCCTTT GCCAAGCTGC CAACCATACT 
GGTGATCTTC ATACATGTGA CATCTATAAC TCTAAAGAAG CTGGACAGAA ACTCAGTGAG 
GCAATGAAGG CTGGATCTTC CCAGCCTTGG CAAGATATTC TCCAACAACT GACTGGTACA 
AATAAGATGG ATGCTTCAGC ATTGCTTGAA TATTTCAAAC CAGTTATTGA ATGGCTGCAA 
AAAGAGAATG GGAAGAACAA TGAAACACTG GGCTGGCCAG AATTTGATTG GCGTCCACCT 
GTCCCTGAGG GCTATCCAGA AGGCCTTGAT AAAATAACTG ATGAAGCTGA AGCTAAAGCA 
TTCTTAGAAA AGTATAACAG CACAGCTGAA GTGGTGTGGA ATGCTTACAC AGAGGCTTCT 
TGGACATACA ATGTCAATAT TACTGAACAC AACAAACAGA TTATGTTGGA GAAGAATCTC 
GCAATGTCAA ACCATACTCT GCAAAATGGA TTAAAGGCTC GGCAGTTTGA TTCCACTGAC 
TTCAAAGATC CCAGAATAAA GCGTATTCTG AAGAAATTAA GTGACATTGA ACGGGCAGCC 
TTACCTGAAG CAGAACTGAA GGAGTATAAT CAACTGCTCT CAGAAATGGA GACAATTTAT 
AGTGTAGCCA AAATCTGTGA AAAAGATACA GACTGCAAAG CATTAGATCC TGACCTTACA 
GATACTATGG CTAAATCAAG AGACTATGAT GAGCTTCTTA ACACCTGGAA AGGTTGGCGG 
GATGCATCAG GGAAGAAAAT CCGAAGACAC TATGAGAGAT ATGTACATCT GAGCAATAAG 
GCTGCCAAAT TAAATGGACA TGCAGACAAC GGTGCTTACT GGAGATCTCT TTATGAAACT 
CCAACTTTTG AAACTGACCT GGAGAACATT TGGTACCAGC TTCAACCACT ATACTTCAAT 
CTGCATGCTT ATGTACGTCG GGCTCTATAC AAAAAATATG GCGAAAAGCG CATCAATCTC 
AAAGGCCCAA TTCCAGCTCA TTTGCTAGGT AACATGTGGG CACAATCATG GGCAAATATT 
TTTGACCTTG TCATGCCCTT CCCTGATGCT ACCAAAGTGG ATGCTACTCC AGCAATGATA 
CAACAGGGCT GGACCCCAAA GAAGATGTTT GAACAATCTG ACAGTTTCTT CCAGTCACTG 
GGGCTTATCC CTATGCCGCC AGAGTTCTGG GAAAAGTCTA TGCTGGAAAA GCCATCAGAT 
GGGAGAGAAG TGGTCTGTCA TGCTTCAGCC TGGGACTTCT ACAATCGCAA GGACTTTAGG 
ATAAAACAAT GCACTGTTGT GAATATGGAT GATTTAATAA CAGTTCACCA TGAAATGGGA 
CACGTCCAAT ACTTTTTGCA GTATAAAGAT CAGCCCATTT CATTTCGTGA TGGGGCAAAT 
CCAGGATTCC ATGAAGCCAT TGGCGATGTT ATGGCCTTAT CAGTGTCAAC CCCAAAGCAT 
TTGAAAAACA TCAAGCTGCT TGAACATTTG GAAGACAACA CTGAGAGTGA TATCAACTAC 
CTTATGAGCA TGGCACTGGA TAAGATTGCT TTCCTGCCCT TTGGCTACCT GATCGACCAA 
TGGAGATGGA AAGTATTTGA TGGGCGTATT CCAAAAAAGG AGTACAATCA ACAATGGTGG 
AATCTCAGAT TGAAATACCA GGGTTTATGT CCTCCTACAC CAAGATCAGA AGAAGATTTT 
GATCCAGGAG CAAAATTCCA CATTCCTGCT AGTGTCCCAT ATGTCAGATA CTTTGTCAGT 
TTTATAATCC AATTTCAGTT TCACCAAGCT CTGTGCAAAG CTGCTGGCCA TACTGGACCT 
TTATATAAAT GTGACATTTA CCAGTCTAAA GAAGCTGGGA AAATCTTAGG GGATGCCTTG 
AAGCTGGGCT TCAGCAGGCC GTGGCCTGAT GTCATGCAAA ATATTACAGG GCAATCCAAC 
ATGTCTGCTG AAGCTTTGCT GACCTATTTT GAACCACTGA CAAAATGGCT CATTGAAAAG 
AACAGGCAAA ATAATGAAAC TCTGGGCTGG CCTGAATACA CCTGGCAGGC TTATGCAGAT 
GAAACAGAAG TCAATTTCCT TGGGATGTCA CTGAGCAGCA GTCAAATAGA AACAGGACAG 
TGGATCTTGC TTGCAATTGG GCTTATACTT CTTATTACCA CAATAGTCTT GGGTGTCAAA 
TACTTCATAA CAAGAAGGAA AGGCTTCAAG TCTGGTTCAG AAATGGAATT GAAATGA

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

RefSeq	XP_015686995.1
CDS	54..3890
Translation	MPPVAGFFLSISVGVALALDASLMPPDHNKTEEGARLFANAYNTTGEIVFFESISASWNYNTNLTNHNAQQQITASLKEQEFTELWGGKAKDNYGKIWQNFSDPQLKKIISSIQTLGPSNLPMQKRKEYNTILSEMDNIYSVAKVCLPNQNSHCWALEPDITEIMATSHSYRKLLYAWEGWHNSAGNPLRSMYEKFVSLSNEAYKMDGFQDTGAYWRSWYDSPTFKEDLEQLYQQLEPLYLNLHAYVRRKLYNQYGSKYINLKGPIPAHLLGNMWAQQWNNIYDMMVPFANKPHLDVTNTMKQKNWNATHMFRVSEEFFTSLGMFEMPPEFWEKSMLEKPTDGREVVCHASAWDFFNRKDFRIKQCTTVTMEQLFTVHHEMGHVQYYLQYKDQPVSFRSGANPGFHEAIGDVMSLSVSTPIHLKKIELLTHVTEDRESDINYLLKMALEKIAFLPFGYLIDQWRWDVFSGRTPPSRYNFDWWYLRTKYQGICPPIARNETNFDPGAKYHIPGNTPYIRYFVSFILQFQFHKALCQAANHTGDLHTCDIYNSKEAGQKLSEAMKAGSSQPWQDILQQLTGTNKMDASALLEYFKPVIEWLQKENGKNNETLGWPEFDWRPPVPEGYPEGLDKITDEAEAKAFLEKYNSTAEVVWNAYTEASWTYNVNITEHNKQIMLEKNLAMSNHTLQNGLKARQFDSTDFKDPRIKRILKKLSDIERAALPEAELKEYNQLLSEMETIYSVAKICEKDTDCKALDPDLTDTMAKSRDYDELLNTWKGWRDASGKKIRRHYERYVHLSNKAAKLNGHADNGAYWRSLYETPTFETDLENIWYQLQPLYFNLHAYVRRALYKKYGEKRINLKGPIPAHLLGNMWAQSWANIFDLVMPFPDATKVDATPAMIQQGWTPKKMFEQSDSFFQSLGLIPMPPEFWEKSMLEKPSDGREVVCHASAWDFYNRKDFRIKQCTVVNMDDLITVHHEMGHVQYFLQYKDQPISFRDGANPGFHEAIGDVMALSVSTPKHLKNIKLLEHLEDNTESDINYLMSMALDKIAFLPFGYLIDQWRWKVFDGRIPKKEYNQQWWNLRLKYQGLCPPTPRSEEDFDPGAKFHIPASVPYVRYFVSFIIQFQFHQALCKAAGHTGPLYKCDIYQSKEAGKILGDALKLGFSRPWPDVMQNITGQSNMSAEALLTYFEPLTKWLIEKNRQNNETLGWPEYTWQAYADETEVNFLGMSLSSSQIETGQWILLAIGLILLITTIVLGVKYFITRRKGFKSGSEMELK

Target ORF information:

RefSeq Version	XM_015831509.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus angiotensin I converting enzyme (ACE), mRNA.

Target ORF information:

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

XM_015831509.1

ORF Insert Sequence:

ATGCCTCCGG TGGCGGGTTT TTTCCTTTCG ATCTCCGTTG GTGTGGCACT CGCCTTGGAT 
GCCTCCCTGA TGCCTCCTGA TCACAACAAG ACCGAGGAAG GGGCCCGCTT GTTCGCAAAC 
GCTTATAACA CTACCGGGGA AATTGTGTTC TTCGAAAGCA TCTCCGCCAG CTGGAATTAC 
AACACCAACC TGACAAACCA CAACGCTCAG CAGCAGATAA CAGCTTCTTT GAAGGAGCAA 
GAATTCACAG AGCTTTGGGG GGGGAAAGCT AAGGACAATT ATGGCAAAAT CTGGCAGAAC 
TTTAGTGATC CACAACTCAA GAAAATAATC AGCTCCATTC AGACCTTGGG TCCTTCTAAT 
TTACCAATGC AGAAACGGAA AGAGTATAAT ACTATTCTAA GTGAGATGGA CAACATCTAC 
TCTGTTGCCA AGGTTTGTCT ACCAAACCAG AACTCCCACT GCTGGGCTTT AGAGCCAGAT 
ATTACAGAAA TTATGGCCAC TTCTCATAGT TACAGGAAGT TGCTTTATGC CTGGGAAGGA 
TGGCATAATT CTGCTGGCAA TCCTCTGAGA TCCATGTATG AGAAATTTGT TTCCCTGAGC 
AACGAAGCCT ATAAAATGGA TGGATTCCAA GATACTGGGG CTTATTGGCG CTCCTGGTAT 
GATTCACCAA CATTTAAGGA AGATCTAGAG CAACTCTATC AACAGTTGGA GCCTCTCTAT 
CTAAATCTCC ATGCATATGT CAGAAGGAAA CTATATAACC AATATGGCTC TAAATACATA 
AACCTGAAAG GCCCTATTCC TGCTCACTTA TTGGGTAACA TGTGGGCCCA GCAATGGAAC 
AACATTTACG ACATGATGGT GCCTTTTGCA AATAAGCCAC ATCTAGATGT TACCAATACC 
ATGAAGCAGA AAAACTGGAA CGCAACACAC ATGTTCCGGG TGTCGGAAGA ATTCTTCACC 
TCACTTGGCA TGTTTGAAAT GCCACCTGAA TTCTGGGAGA AATCCATGCT GGAGAAACCG 
ACAGATGGGC GGGAGGTGGT GTGCCATGCA TCAGCATGGG ACTTCTTCAA TCGCAAAGAC 
TTCAGGATAA AGCAGTGTAC AACAGTTACT ATGGAGCAGC TCTTTACAGT ACACCATGAA 
ATGGGTCACG TTCAATATTA CTTGCAGTAT AAGGACCAGC CAGTAAGTTT TCGCAGTGGG 
GCCAACCCTG GCTTTCATGA AGCCATTGGA GATGTCATGA GTTTGTCTGT TTCTACCCCC 
ATCCATCTCA AGAAAATTGA GCTGCTCACC CATGTCACTG AAGACAGAGA GAGTGATATC 
AATTATCTTC TGAAAATGGC CCTGGAAAAG ATTGCCTTCC TACCCTTTGG CTATCTAATT 
GATCAATGGC GGTGGGATGT CTTCAGTGGA CGCACCCCTC CGAGCCGCTA CAATTTTGAT 
TGGTGGTACC TAAGAACAAA ATATCAAGGA ATTTGTCCTC CTATTGCAAG AAATGAAACA 
AACTTTGATC CTGGGGCTAA ATATCACATC CCTGGCAACA CACCTTATAT CAGGTACTTT 
GTCAGTTTTA TTCTGCAATT CCAATTCCAC AAGGCCCTTT GCCAAGCTGC CAACCATACT 
GGTGATCTTC ATACATGTGA CATCTATAAC TCTAAAGAAG CTGGACAGAA ACTCAGTGAG 
GCAATGAAGG CTGGATCTTC CCAGCCTTGG CAAGATATTC TCCAACAACT GACTGGTACA 
AATAAGATGG ATGCTTCAGC ATTGCTTGAA TATTTCAAAC CAGTTATTGA ATGGCTGCAA 
AAAGAGAATG GGAAGAACAA TGAAACACTG GGCTGGCCAG AATTTGATTG GCGTCCACCT 
GTCCCTGAGG GCTATCCAGA AGGCCTTGAT AAAATAACTG ATGAAGCTGA AGCTAAAGCA 
TTCTTAGAAA AGTATAACAG CACAGCTGAA GTGGTGTGGA ATGCTTACAC AGAGGCTTCT 
TGGACATACA ATGTCAATAT TACTGAACAC AACAAACAGA TTATGTTGGA GAAGAATCTC 
GCAATGTCAA ACCATACTCT GCAAAATGGA TTAAAGGCTC GGCAGTTTGA TTCCACTGAC 
TTCAAAGATC CCAGAATAAA GCGTATTCTG AAGAAATTAA GTGACATTGA ACGGGCAGCC 
TTACCTGAAG CAGAACTGAA GGAGTATAAT CAACTGCTCT CAGAAATGGA GACAATTTAT 
AGTGTAGCCA AAATCTGTGA AAAAGATACA GACTGCAAAG CATTAGATCC TGACCTTACA 
GATACTATGG CTAAATCAAG AGACTATGAT GAGCTTCTTA ACACCTGGAA AGGTTGGCGG 
GATGCATCAG GGAAGAAAAT CCGAAGACAC TATGAGAGAT ATGTACATCT GAGCAATAAG 
GCTGCCAAAT TAAATGGACA TGCAGACAAC GGTGCTTACT GGAGATCTCT TTATGAAACT 
CCAACTTTTG AAACTGACCT GGAGAACATT TGGTACCAGC TTCAACCACT ATACTTCAAT 
CTGCATGCTT ATGTACGTCG GGCTCTATAC AAAAAATATG GCGAAAAGCG CATCAATCTC 
AAAGGCCCAA TTCCAGCTCA TTTGCTAGGT AACATGTGGG CACAATCATG GGCAAATATT 
TTTGACCTTG TCATGCCCTT CCCTGATGCT ACCAAAGTGG ATGCTACTCC AGCAATGATA 
CAACAGGGCT GGACCCCAAA GAAGATGTTT GAACAATCTG ACAGTTTCTT CCAGTCACTG 
GGGCTTATCC CTATGCCGCC AGAGTTCTGG GAAAAGTCTA TGCTGGAAAA GCCATCAGAT 
GGGAGAGAAG TGGTCTGTCA TGCTTCAGCC TGGGACTTCT ACAATCGCAA GGACTTTAGG 
ATAAAACAAT GCACTGTTGT GAATATGGAT GATTTAATAA CAGTTCACCA TGAAATGGGA 
CACGTCCAAT ACTTTTTGCA GTATAAAGAT CAGCCCATTT CATTTCGTGA TGGGGCAAAT 
CCAGGATTCC ATGAAGCCAT TGGCGATGTT ATGGCCTTAT CAGTGTCAAC CCCAAAGCAT 
TTGAAAAACA TCAAGCTGCT TGAACATTTG GAAGACAACA CTGAGAGTGA TATCAACTAC 
CTTATGAGCA TGGCACTGGA TAAGATTGCT TTCCTGCCCT TTGGCTACCT GATCGACCAA 
TGGAGATGGA AAGTATTTGA TGGGCGTATT CCAAAAAAGG AGTACAATCA ACAATGGTGG 
AATCTCAGAT TGAAATACCA GGGTTTATGT CCTCCTACAC CAAGATCAGA AGAAGATTTT 
GATCCAGGAG CAAAATTCCA CATTCCTGCT AGTGTCCCAT ATGTCAGATA CTTTGTCAGT 
TTTATAATCC AATTTCAGTT TCACCAAGCT CTGTGCAAAG CTGCTGGCCA TACTGGACCT 
TTATATAAAT GTGACATTTA CCAGTCTAAA GAAGCTGGGA AAATCTTAGG GGATGCCTTG 
AAGCTGGGCT TCAGCAGGCC GTGGCCTGAT GTCATGCAAA ATATTACAGG GCAATCCAAC 
ATGTCTGCTG AAGCTTTGCT GACCTATTTT GAACCACTGA CAAAATGGCT CATTGAAAAG 
AACAGGCAAA ATAATGAAAC TCTGGGCTGG CCTGAATACA CCTGGCAGGC TTATGCAGAT 
GAAACAGAAG TCAATTTCCT TGGGATGTCA CTGAGCAGCA GTCAAATAGA AACAGGACAG 
TGGATCTTGC TTGCAATTGG GCTTATACTT CTTATTACCA CAATAGTCTT GGGTGTCAAA 
TACTTCATAA CAAGAAGGAA AGGCTTCAAG TCTGGTTCAG AAATGGAATT GAAATGA