PLCG1 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	PLCG1
Entrez Gene ID	103064933
Full Name	phospholipase C gamma 1
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007430319.1	XP_007430381.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X2
XM_015888453.2	XP_015743939.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X1
XM_015888453.1	XP_015743939.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X1
XM_007430320.1	XP_007430382.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X3
XM_007430319.2	XP_007430381.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X2
XM_007430320.2	XP_007430382.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X3

Pathways from BioSystems
Gene Ontology

The following PLCG1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PLCG1 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)
OPy08999	XM_015888453.2 Latest version!	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPy09000	XM_007430319.2 Latest version!	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPy09001	XM_007430320.2 Latest version!	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
OPy08999	XM_015888453.1	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPy09000	XM_007430319.1	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPy09001	XM_007430320.1	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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

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

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

Reference Sequences (Refseq)

PLCG1 ( XM_015888453.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_015743939.1 Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPy08999
Clone ID Related Accession (Same CDS sequence)	XM_015888453.2 , XM_015888453.1
Accession Version	XM_015888453.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3528bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533417.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_015888453.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Python bivittatus 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##

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGTG GAGAGAGATC CGAATACAAC AGAGTTTCGC TGTCAGAGTT CCAGACATTT 
TTGCTAGAAT ACCAAATGGA GCTTTGGGCT GCTAACGTTT CCTTGGTGCA AGATTTTATG 
TTTACCTACT TGTCGGATCC ATTGAGGGTA ATTGAAGAAC CTTATTTTTC TTTAGATGAG 
TTTCTCACCT TCCTGTTTTC CAAAGAGAAC AGCATCTGGA ACTCGGAATT TGATGTCACA 
CGCCCAGAGG ACATGAACAA TCCCTTGTCC CACTATTGGA TCTCATCTTC TCATAACACG 
TACTTGACAG GAGATCAGTT CTCAAGTGAG TCTTCCTTGG AAGCCTATGC CCGTTGCCTG 
CGCATGGGAT GCCGCTGTAT TGAACTTGAT TGCTGGGATG GTCCTGATGG GATGCCTGTG 
ATTTATCATG GACACACATT AACTACAAAA ATTAAATTTT CTGATGTTCT CACCACCATC 
AAGGAGCATG CTTTTGTGAC TTCTGATTAT CCTGTTATCT TATCCATTGA AGACCATTGC 
AGCATTGCCC AGCAGAGGAA TATGGCTCAG AACTTTAAGA AGGTCTTTGG GGACATGCTG 
CTAACCAAAC CAGTAGATAT CTCTGCTGAT GGTCTGCCAT CTCCAAACCA GCTGAAGAGG 
AAGATTCTCA TAAAGCACAA GAAACTGGCT GAGGGTAGTG CTTATGAAGA AGTACCATCA 
TCTGCAGTGT ATTCAGAGAA TGACATCAGC AACTCAATAA AGAATGGAAT TCTCTATCTC 
GAAGACCCAA TCAACCACGA CTGGAATCCC CATTATTTTG TCCTGACCAG CAGCAAGATC 
TATTACTCTG GAGAAACAAC CAGTGATTTA GGAAATGAGG AGGAAGAGGA GCAAAAGGAG 
ACAAGCAACA GCACTGAACT CCATTCCACT GAAAAGTGGT TCCATGGCAA GCTGGGAGCA 
GGGCGTGATG GGCGCCACAT AGCAGAGAGG CTGTTAACCG AATATTGTGT AGACACTGGA 
GCCCCTGATG GCTCGTTCTT GGTGCGAGAA AGTGAGACCT TTGTTGGTGA TTACACTCTT 
TCTTTCTGGC GCAATGGGAA AGTGCAGCAC TGCCGGATCC ATTCCCGGCA GGATGCTGGC 
AGCCCCAAAT TCTTCCTCAC TGATAACCTG GTATTCAATA GCCTCTATGA TCTCATTACT 
CATTATCAGC AAGTGCCACT CAGATGCAAT GAATTTGAAA TGAGGTTGAC AGAACCTGTG 
CCACAGACAA ATGCTCATGA GAGCAAAGAA TGGTACCATG CTAATCTCAC CCGGAATTTG 
GCTGAGCACA TGCTGATGAG GGTGCCCCGG GATGGGGCCT TTTTGGTGCG CAAGAGGAGT 
GAGTCAAACT CCTATGCAAT CTCTTTTCGG GCTGAAGGGA AGATCAAGCA CTGCCGAGTG 
CAGCAGGATG GCCAGACAAT CATCTTGGGC AATTCAGAAT TTGATAGCCT GGTGGATTTA 
ATCAGTTATT ATGAGAAACA CCCATTGTAC CGCAAGATGA AGTTGAGGTA TCCAATTAAT 
GAAGAAACAC TGGAGAAGAT TGGGACAGCA GAACCAGATT ATGGTGCTCT ATATGAAGGA 
CGGAATCCAG GATTTTATGT GGAGGCCAAC CCTATGCCAA CCTTTAAGTG TGCTGTCAAA 
GCTTTGTTTG ACTACAAAGC TCAGCGAGAA GATGAGCTCA CCTTCACAAA AAATGCAATC 
ATCCAGAATG TAGAAAAACA AGAAGGAGGC TGGTGGAGAG GAGACTATGG GGGTAAGAAG 
CAACTGTGGT TTCCCTCTAA TTATGTAGAA GAAATAACTA GTCCAACTGG CCTGGAACCT 
GAGAGGGAGC AACAGCTAGA TGAAAACAGC CCCCTGGGAG ATCTACTCAG AGGAGTATTG 
GATGTACCAT CATGTCAGAT TGCTATCCGC CCTGAGGGGA AGAACAACCG TATGTTTGTA 
TTCTCCATTA GTATGGCTTC TGTCTCACGG TGGTCCCTGG ATGTTGCAGC TGACACACAT 
GAAGATCTGT TGGACTGGGT GAAGAAGATC CGTGAGGCAG CCCAAACTGC TGATGCAAGG 
CTCTCTGAAG GGAAGATGAT GGAACGGAGG AAAAAGATAG CCTTGGAGCT TTCAGAACTT 
GTAATCTACT GTCGTCCTGT TCCCTTTGAT GAAGAAAAAA TTGGCACAGA AAGAGCCTGC 
TACAGAGATA TGTCATCTTT TCCTGAAACC AAAGCAGAAA AGTATGTCAA TAAGATCAAA 
GGGAAGAAAT TTTTGCAGTA CAACCGGCTA CAGCTTTCCC GCATCTACCC TAAAGGACAG 
CGCCTTGACT CTTCTAACTA TGATCCCCTT CCTATGTGGA TCTGTGGCAG CCAGTTGGTG 
GCACTCAACT TTCAAACACC AGACAAGCCA ATGCAGATGA ATCAGGCTCT ATTCATGTCT 
GGAGGCCGAT GTGGCTTTGT GTTGCAACCA GCCAACATGC GGGATGATCC CTTCGATCCC 
TTTGACAAGA ACACTCTGCG TGGAATGGTA CCACTTTCCA TCTCCATTGA GGTTCTAGGG 
GCACGGCATC TTCCCAAAAA TGGAAGGGGA ATCGTCTGTC CATTTGTAGA GATTGAGGTA 
TCTGGAGCAG ATTATGACAG TGCAAAACAG AAGACCGAGA TGGTGGTGGA CAATGGTCTG 
AATCCTGCTT GGGCTCAGAA GACTTTTCAC TTCCATGTCA GTAATCCTGA CTTTGCTTTT 
CTGCGTTTTG TGGTATATGA AGAAGATATG TTCAGCGACC AGAACTTCTT AGCTCAAGCC 
ACTTTCTTGG TTAAAGGTTT AAAGACAGGA TACCGGGCTG TGCCTTTGAA GAACAACTAC 
AGTGAGGATC TGGAATTAGC CTCCTTGCTT GTTAAAATAG ATATAATTCC TGTCATGCAG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

RefSeq	XP_015743939.1
CDS	92..3619
Translation	MEFRLKTLSLQATSEDEVNMWIKGLNWLVADTLKAATPLQIERWLRKQFYFVDRNREDRISAKDLKNMLSQVNYRVPNMRFLRERLTDVEQRNGDITYGQFVQLYQSLMYNAQKGMAVPFLESGERSEYNRVSLSEFQTFLLEYQMELWAANVSLVQDFMFTYLSDPLRVIEEPYFSLDEFLTFLFSKENSIWNSEFDVTRPEDMNNPLSHYWISSSHNTYLTGDQFSSESSLEAYARCLRMGCRCIELDCWDGPDGMPVIYHGHTLTTKIKFSDVLTTIKEHAFVTSDYPVILSIEDHCSIAQQRNMAQNFKKVFGDMLLTKPVDISADGLPSPNQLKRKILIKHKKLAEGSAYEEVPSSAVYSENDISNSIKNGILYLEDPINHDWNPHYFVLTSSKIYYSGETTSDLGNEEEEEQKETSNSTELHSTEKWFHGKLGAGRDGRHIAERLLTEYCVDTGAPDGSFLVRESETFVGDYTLSFWRNGKVQHCRIHSRQDAGSPKFFLTDNLVFNSLYDLITHYQQVPLRCNEFEMRLTEPVPQTNAHESKEWYHANLTRNLAEHMLMRVPRDGAFLVRKRSESNSYAISFRAEGKIKHCRVQQDGQTIILGNSEFDSLVDLISYYEKHPLYRKMKLRYPINEETLEKIGTAEPDYGALYEGRNPGFYVEANPMPTFKCAVKALFDYKAQREDELTFTKNAIIQNVEKQEGGWWRGDYGGKKQLWFPSNYVEEITSPTGLEPEREQQLDENSPLGDLLRGVLDVPSCQIAIRPEGKNNRMFVFSISMASVSRWSLDVAADTHEDLLDWVKKIREAAQTADARLSEGKMMERRKKIALELSELVIYCRPVPFDEEKIGTERACYRDMSSFPETKAEKYVNKIKGKKFLQYNRLQLSRIYPKGQRLDSSNYDPLPMWICGSQLVALNFQTPDKPMQMNQALFMSGGRCGFVLQPANMRDDPFDPFDKNTLRGMVPLSISIEVLGARHLPKNGRGIVCPFVEIEVSGADYDSAKQKTEMVVDNGLNPAWAQKTFHFHVSNPDFAFLRFVVYEEDMFSDQNFLAQATFLVKGLKTGYRAVPLKNNYSEDLELASLLVKIDIIPVMQENGEISPFAASPFRERSADSPNQLLAGRAREGSLEARYQQPFEDFRMSQEQLSDHFDNRDRRFLRKTRVNGDNRL

Target ORF information:

RefSeq Version	XM_015888453.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X1, mRNA.

Target ORF information:

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

XM_015888453.2

ORF Insert Sequence:

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGTG GAGAGAGATC CGAATACAAC AGAGTTTCGC TGTCAGAGTT CCAGACATTT 
TTGCTAGAAT ACCAAATGGA GCTTTGGGCT GCTAACGTTT CCTTGGTGCA AGATTTTATG 
TTTACCTACT TGTCGGATCC ATTGAGGGTA ATTGAAGAAC CTTATTTTTC TTTAGATGAG 
TTTCTCACCT TCCTGTTTTC CAAAGAGAAC AGCATCTGGA ACTCGGAATT TGATGTCACA 
CGCCCAGAGG ACATGAACAA TCCCTTGTCC CACTATTGGA TCTCATCTTC TCATAACACG 
TACTTGACAG GAGATCAGTT CTCAAGTGAG TCTTCCTTGG AAGCCTATGC CCGTTGCCTG 
CGCATGGGAT GCCGCTGTAT TGAACTTGAT TGCTGGGATG GTCCTGATGG GATGCCTGTG 
ATTTATCATG GACACACATT AACTACAAAA ATTAAATTTT CTGATGTTCT CACCACCATC 
AAGGAGCATG CTTTTGTGAC TTCTGATTAT CCTGTTATCT TATCCATTGA AGACCATTGC 
AGCATTGCCC AGCAGAGGAA TATGGCTCAG AACTTTAAGA AGGTCTTTGG GGACATGCTG 
CTAACCAAAC CAGTAGATAT CTCTGCTGAT GGTCTGCCAT CTCCAAACCA GCTGAAGAGG 
AAGATTCTCA TAAAGCACAA GAAACTGGCT GAGGGTAGTG CTTATGAAGA AGTACCATCA 
TCTGCAGTGT ATTCAGAGAA TGACATCAGC AACTCAATAA AGAATGGAAT TCTCTATCTC 
GAAGACCCAA TCAACCACGA CTGGAATCCC CATTATTTTG TCCTGACCAG CAGCAAGATC 
TATTACTCTG GAGAAACAAC CAGTGATTTA GGAAATGAGG AGGAAGAGGA GCAAAAGGAG 
ACAAGCAACA GCACTGAACT CCATTCCACT GAAAAGTGGT TCCATGGCAA GCTGGGAGCA 
GGGCGTGATG GGCGCCACAT AGCAGAGAGG CTGTTAACCG AATATTGTGT AGACACTGGA 
GCCCCTGATG GCTCGTTCTT GGTGCGAGAA AGTGAGACCT TTGTTGGTGA TTACACTCTT 
TCTTTCTGGC GCAATGGGAA AGTGCAGCAC TGCCGGATCC ATTCCCGGCA GGATGCTGGC 
AGCCCCAAAT TCTTCCTCAC TGATAACCTG GTATTCAATA GCCTCTATGA TCTCATTACT 
CATTATCAGC AAGTGCCACT CAGATGCAAT GAATTTGAAA TGAGGTTGAC AGAACCTGTG 
CCACAGACAA ATGCTCATGA GAGCAAAGAA TGGTACCATG CTAATCTCAC CCGGAATTTG 
GCTGAGCACA TGCTGATGAG GGTGCCCCGG GATGGGGCCT TTTTGGTGCG CAAGAGGAGT 
GAGTCAAACT CCTATGCAAT CTCTTTTCGG GCTGAAGGGA AGATCAAGCA CTGCCGAGTG 
CAGCAGGATG GCCAGACAAT CATCTTGGGC AATTCAGAAT TTGATAGCCT GGTGGATTTA 
ATCAGTTATT ATGAGAAACA CCCATTGTAC CGCAAGATGA AGTTGAGGTA TCCAATTAAT 
GAAGAAACAC TGGAGAAGAT TGGGACAGCA GAACCAGATT ATGGTGCTCT ATATGAAGGA 
CGGAATCCAG GATTTTATGT GGAGGCCAAC CCTATGCCAA CCTTTAAGTG TGCTGTCAAA 
GCTTTGTTTG ACTACAAAGC TCAGCGAGAA GATGAGCTCA CCTTCACAAA AAATGCAATC 
ATCCAGAATG TAGAAAAACA AGAAGGAGGC TGGTGGAGAG GAGACTATGG GGGTAAGAAG 
CAACTGTGGT TTCCCTCTAA TTATGTAGAA GAAATAACTA GTCCAACTGG CCTGGAACCT 
GAGAGGGAGC AACAGCTAGA TGAAAACAGC CCCCTGGGAG ATCTACTCAG AGGAGTATTG 
GATGTACCAT CATGTCAGAT TGCTATCCGC CCTGAGGGGA AGAACAACCG TATGTTTGTA 
TTCTCCATTA GTATGGCTTC TGTCTCACGG TGGTCCCTGG ATGTTGCAGC TGACACACAT 
GAAGATCTGT TGGACTGGGT GAAGAAGATC CGTGAGGCAG CCCAAACTGC TGATGCAAGG 
CTCTCTGAAG GGAAGATGAT GGAACGGAGG AAAAAGATAG CCTTGGAGCT TTCAGAACTT 
GTAATCTACT GTCGTCCTGT TCCCTTTGAT GAAGAAAAAA TTGGCACAGA AAGAGCCTGC 
TACAGAGATA TGTCATCTTT TCCTGAAACC AAAGCAGAAA AGTATGTCAA TAAGATCAAA 
GGGAAGAAAT TTTTGCAGTA CAACCGGCTA CAGCTTTCCC GCATCTACCC TAAAGGACAG 
CGCCTTGACT CTTCTAACTA TGATCCCCTT CCTATGTGGA TCTGTGGCAG CCAGTTGGTG 
GCACTCAACT TTCAAACACC AGACAAGCCA ATGCAGATGA ATCAGGCTCT ATTCATGTCT 
GGAGGCCGAT GTGGCTTTGT GTTGCAACCA GCCAACATGC GGGATGATCC CTTCGATCCC 
TTTGACAAGA ACACTCTGCG TGGAATGGTA CCACTTTCCA TCTCCATTGA GGTTCTAGGG 
GCACGGCATC TTCCCAAAAA TGGAAGGGGA ATCGTCTGTC CATTTGTAGA GATTGAGGTA 
TCTGGAGCAG ATTATGACAG TGCAAAACAG AAGACCGAGA TGGTGGTGGA CAATGGTCTG 
AATCCTGCTT GGGCTCAGAA GACTTTTCAC TTCCATGTCA GTAATCCTGA CTTTGCTTTT 
CTGCGTTTTG TGGTATATGA AGAAGATATG TTCAGCGACC AGAACTTCTT AGCTCAAGCC 
ACTTTCTTGG TTAAAGGTTT AAAGACAGGA TACCGGGCTG TGCCTTTGAA GAACAACTAC 
AGTGAGGATC TGGAATTAGC CTCCTTGCTT GTTAAAATAG ATATAATTCC TGTCATGCAG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

PLCG1 ( XM_015888453.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_015743939.1 Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPy08999
Clone ID Related Accession (Same CDS sequence)	XM_015888453.2 , XM_015888453.1
Accession Version	XM_015888453.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3528bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533417.1) 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 :: Python bivittatus Annotation Release 101 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##

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGTG GAGAGAGATC CGAATACAAC AGAGTTTCGC TGTCAGAGTT CCAGACATTT 
TTGCTAGAAT ACCAAATGGA GCTTTGGGCT GCTAACGTTT CCTTGGTGCA AGATTTTATG 
TTTACCTACT TGTCGGATCC ATTGAGGGTA ATTGAAGAAC CTTATTTTTC TTTAGATGAG 
TTTCTCACCT TCCTGTTTTC CAAAGAGAAC AGCATCTGGA ACTCGGAATT TGATGTCACA 
CGCCCAGAGG ACATGAACAA TCCCTTGTCC CACTATTGGA TCTCATCTTC TCATAACACG 
TACTTGACAG GAGATCAGTT CTCAAGTGAG TCTTCCTTGG AAGCCTATGC CCGTTGCCTG 
CGCATGGGAT GCCGCTGTAT TGAACTTGAT TGCTGGGATG GTCCTGATGG GATGCCTGTG 
ATTTATCATG GACACACATT AACTACAAAA ATTAAATTTT CTGATGTTCT CACCACCATC 
AAGGAGCATG CTTTTGTGAC TTCTGATTAT CCTGTTATCT TATCCATTGA AGACCATTGC 
AGCATTGCCC AGCAGAGGAA TATGGCTCAG AACTTTAAGA AGGTCTTTGG GGACATGCTG 
CTAACCAAAC CAGTAGATAT CTCTGCTGAT GGTCTGCCAT CTCCAAACCA GCTGAAGAGG 
AAGATTCTCA TAAAGCACAA GAAACTGGCT GAGGGTAGTG CTTATGAAGA AGTACCATCA 
TCTGCAGTGT ATTCAGAGAA TGACATCAGC AACTCAATAA AGAATGGAAT TCTCTATCTC 
GAAGACCCAA TCAACCACGA CTGGAATCCC CATTATTTTG TCCTGACCAG CAGCAAGATC 
TATTACTCTG GAGAAACAAC CAGTGATTTA GGAAATGAGG AGGAAGAGGA GCAAAAGGAG 
ACAAGCAACA GCACTGAACT CCATTCCACT GAAAAGTGGT TCCATGGCAA GCTGGGAGCA 
GGGCGTGATG GGCGCCACAT AGCAGAGAGG CTGTTAACCG AATATTGTGT AGACACTGGA 
GCCCCTGATG GCTCGTTCTT GGTGCGAGAA AGTGAGACCT TTGTTGGTGA TTACACTCTT 
TCTTTCTGGC GCAATGGGAA AGTGCAGCAC TGCCGGATCC ATTCCCGGCA GGATGCTGGC 
AGCCCCAAAT TCTTCCTCAC TGATAACCTG GTATTCAATA GCCTCTATGA TCTCATTACT 
CATTATCAGC AAGTGCCACT CAGATGCAAT GAATTTGAAA TGAGGTTGAC AGAACCTGTG 
CCACAGACAA ATGCTCATGA GAGCAAAGAA TGGTACCATG CTAATCTCAC CCGGAATTTG 
GCTGAGCACA TGCTGATGAG GGTGCCCCGG GATGGGGCCT TTTTGGTGCG CAAGAGGAGT 
GAGTCAAACT CCTATGCAAT CTCTTTTCGG GCTGAAGGGA AGATCAAGCA CTGCCGAGTG 
CAGCAGGATG GCCAGACAAT CATCTTGGGC AATTCAGAAT TTGATAGCCT GGTGGATTTA 
ATCAGTTATT ATGAGAAACA CCCATTGTAC CGCAAGATGA AGTTGAGGTA TCCAATTAAT 
GAAGAAACAC TGGAGAAGAT TGGGACAGCA GAACCAGATT ATGGTGCTCT ATATGAAGGA 
CGGAATCCAG GATTTTATGT GGAGGCCAAC CCTATGCCAA CCTTTAAGTG TGCTGTCAAA 
GCTTTGTTTG ACTACAAAGC TCAGCGAGAA GATGAGCTCA CCTTCACAAA AAATGCAATC 
ATCCAGAATG TAGAAAAACA AGAAGGAGGC TGGTGGAGAG GAGACTATGG GGGTAAGAAG 
CAACTGTGGT TTCCCTCTAA TTATGTAGAA GAAATAACTA GTCCAACTGG CCTGGAACCT 
GAGAGGGAGC AACAGCTAGA TGAAAACAGC CCCCTGGGAG ATCTACTCAG AGGAGTATTG 
GATGTACCAT CATGTCAGAT TGCTATCCGC CCTGAGGGGA AGAACAACCG TATGTTTGTA 
TTCTCCATTA GTATGGCTTC TGTCTCACGG TGGTCCCTGG ATGTTGCAGC TGACACACAT 
GAAGATCTGT TGGACTGGGT GAAGAAGATC CGTGAGGCAG CCCAAACTGC TGATGCAAGG 
CTCTCTGAAG GGAAGATGAT GGAACGGAGG AAAAAGATAG CCTTGGAGCT TTCAGAACTT 
GTAATCTACT GTCGTCCTGT TCCCTTTGAT GAAGAAAAAA TTGGCACAGA AAGAGCCTGC 
TACAGAGATA TGTCATCTTT TCCTGAAACC AAAGCAGAAA AGTATGTCAA TAAGATCAAA 
GGGAAGAAAT TTTTGCAGTA CAACCGGCTA CAGCTTTCCC GCATCTACCC TAAAGGACAG 
CGCCTTGACT CTTCTAACTA TGATCCCCTT CCTATGTGGA TCTGTGGCAG CCAGTTGGTG 
GCACTCAACT TTCAAACACC AGACAAGCCA ATGCAGATGA ATCAGGCTCT ATTCATGTCT 
GGAGGCCGAT GTGGCTTTGT GTTGCAACCA GCCAACATGC GGGATGATCC CTTCGATCCC 
TTTGACAAGA ACACTCTGCG TGGAATGGTA CCACTTTCCA TCTCCATTGA GGTTCTAGGG 
GCACGGCATC TTCCCAAAAA TGGAAGGGGA ATCGTCTGTC CATTTGTAGA GATTGAGGTA 
TCTGGAGCAG ATTATGACAG TGCAAAACAG AAGACCGAGA TGGTGGTGGA CAATGGTCTG 
AATCCTGCTT GGGCTCAGAA GACTTTTCAC TTCCATGTCA GTAATCCTGA CTTTGCTTTT 
CTGCGTTTTG TGGTATATGA AGAAGATATG TTCAGCGACC AGAACTTCTT AGCTCAAGCC 
ACTTTCTTGG TTAAAGGTTT AAAGACAGGA TACCGGGCTG TGCCTTTGAA GAACAACTAC 
AGTGAGGATC TGGAATTAGC CTCCTTGCTT GTTAAAATAG ATATAATTCC TGTCATGCAG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

RefSeq	XP_015743939.1
CDS	80..3607
Translation	MEFRLKTLSLQATSEDEVNMWIKGLNWLVADTLKAATPLQIERWLRKQFYFVDRNREDRISAKDLKNMLSQVNYRVPNMRFLRERLTDVEQRNGDITYGQFVQLYQSLMYNAQKGMAVPFLESGERSEYNRVSLSEFQTFLLEYQMELWAANVSLVQDFMFTYLSDPLRVIEEPYFSLDEFLTFLFSKENSIWNSEFDVTRPEDMNNPLSHYWISSSHNTYLTGDQFSSESSLEAYARCLRMGCRCIELDCWDGPDGMPVIYHGHTLTTKIKFSDVLTTIKEHAFVTSDYPVILSIEDHCSIAQQRNMAQNFKKVFGDMLLTKPVDISADGLPSPNQLKRKILIKHKKLAEGSAYEEVPSSAVYSENDISNSIKNGILYLEDPINHDWNPHYFVLTSSKIYYSGETTSDLGNEEEEEQKETSNSTELHSTEKWFHGKLGAGRDGRHIAERLLTEYCVDTGAPDGSFLVRESETFVGDYTLSFWRNGKVQHCRIHSRQDAGSPKFFLTDNLVFNSLYDLITHYQQVPLRCNEFEMRLTEPVPQTNAHESKEWYHANLTRNLAEHMLMRVPRDGAFLVRKRSESNSYAISFRAEGKIKHCRVQQDGQTIILGNSEFDSLVDLISYYEKHPLYRKMKLRYPINEETLEKIGTAEPDYGALYEGRNPGFYVEANPMPTFKCAVKALFDYKAQREDELTFTKNAIIQNVEKQEGGWWRGDYGGKKQLWFPSNYVEEITSPTGLEPEREQQLDENSPLGDLLRGVLDVPSCQIAIRPEGKNNRMFVFSISMASVSRWSLDVAADTHEDLLDWVKKIREAAQTADARLSEGKMMERRKKIALELSELVIYCRPVPFDEEKIGTERACYRDMSSFPETKAEKYVNKIKGKKFLQYNRLQLSRIYPKGQRLDSSNYDPLPMWICGSQLVALNFQTPDKPMQMNQALFMSGGRCGFVLQPANMRDDPFDPFDKNTLRGMVPLSISIEVLGARHLPKNGRGIVCPFVEIEVSGADYDSAKQKTEMVVDNGLNPAWAQKTFHFHVSNPDFAFLRFVVYEEDMFSDQNFLAQATFLVKGLKTGYRAVPLKNNYSEDLELASLLVKIDIIPVMQENGEISPFAASPFRERSADSPNQLLAGRAREGSLEARYQQPFEDFRMSQEQLSDHFDNRDRRFLRKTRVNGDNRL

Target ORF information:

RefSeq Version	XM_015888453.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X1, mRNA.

Target ORF information:

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

XM_015888453.1

ORF Insert Sequence:

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGTG GAGAGAGATC CGAATACAAC AGAGTTTCGC TGTCAGAGTT CCAGACATTT 
TTGCTAGAAT ACCAAATGGA GCTTTGGGCT GCTAACGTTT CCTTGGTGCA AGATTTTATG 
TTTACCTACT TGTCGGATCC ATTGAGGGTA ATTGAAGAAC CTTATTTTTC TTTAGATGAG 
TTTCTCACCT TCCTGTTTTC CAAAGAGAAC AGCATCTGGA ACTCGGAATT TGATGTCACA 
CGCCCAGAGG ACATGAACAA TCCCTTGTCC CACTATTGGA TCTCATCTTC TCATAACACG 
TACTTGACAG GAGATCAGTT CTCAAGTGAG TCTTCCTTGG AAGCCTATGC CCGTTGCCTG 
CGCATGGGAT GCCGCTGTAT TGAACTTGAT TGCTGGGATG GTCCTGATGG GATGCCTGTG 
ATTTATCATG GACACACATT AACTACAAAA ATTAAATTTT CTGATGTTCT CACCACCATC 
AAGGAGCATG CTTTTGTGAC TTCTGATTAT CCTGTTATCT TATCCATTGA AGACCATTGC 
AGCATTGCCC AGCAGAGGAA TATGGCTCAG AACTTTAAGA AGGTCTTTGG GGACATGCTG 
CTAACCAAAC CAGTAGATAT CTCTGCTGAT GGTCTGCCAT CTCCAAACCA GCTGAAGAGG 
AAGATTCTCA TAAAGCACAA GAAACTGGCT GAGGGTAGTG CTTATGAAGA AGTACCATCA 
TCTGCAGTGT ATTCAGAGAA TGACATCAGC AACTCAATAA AGAATGGAAT TCTCTATCTC 
GAAGACCCAA TCAACCACGA CTGGAATCCC CATTATTTTG TCCTGACCAG CAGCAAGATC 
TATTACTCTG GAGAAACAAC CAGTGATTTA GGAAATGAGG AGGAAGAGGA GCAAAAGGAG 
ACAAGCAACA GCACTGAACT CCATTCCACT GAAAAGTGGT TCCATGGCAA GCTGGGAGCA 
GGGCGTGATG GGCGCCACAT AGCAGAGAGG CTGTTAACCG AATATTGTGT AGACACTGGA 
GCCCCTGATG GCTCGTTCTT GGTGCGAGAA AGTGAGACCT TTGTTGGTGA TTACACTCTT 
TCTTTCTGGC GCAATGGGAA AGTGCAGCAC TGCCGGATCC ATTCCCGGCA GGATGCTGGC 
AGCCCCAAAT TCTTCCTCAC TGATAACCTG GTATTCAATA GCCTCTATGA TCTCATTACT 
CATTATCAGC AAGTGCCACT CAGATGCAAT GAATTTGAAA TGAGGTTGAC AGAACCTGTG 
CCACAGACAA ATGCTCATGA GAGCAAAGAA TGGTACCATG CTAATCTCAC CCGGAATTTG 
GCTGAGCACA TGCTGATGAG GGTGCCCCGG GATGGGGCCT TTTTGGTGCG CAAGAGGAGT 
GAGTCAAACT CCTATGCAAT CTCTTTTCGG GCTGAAGGGA AGATCAAGCA CTGCCGAGTG 
CAGCAGGATG GCCAGACAAT CATCTTGGGC AATTCAGAAT TTGATAGCCT GGTGGATTTA 
ATCAGTTATT ATGAGAAACA CCCATTGTAC CGCAAGATGA AGTTGAGGTA TCCAATTAAT 
GAAGAAACAC TGGAGAAGAT TGGGACAGCA GAACCAGATT ATGGTGCTCT ATATGAAGGA 
CGGAATCCAG GATTTTATGT GGAGGCCAAC CCTATGCCAA CCTTTAAGTG TGCTGTCAAA 
GCTTTGTTTG ACTACAAAGC TCAGCGAGAA GATGAGCTCA CCTTCACAAA AAATGCAATC 
ATCCAGAATG TAGAAAAACA AGAAGGAGGC TGGTGGAGAG GAGACTATGG GGGTAAGAAG 
CAACTGTGGT TTCCCTCTAA TTATGTAGAA GAAATAACTA GTCCAACTGG CCTGGAACCT 
GAGAGGGAGC AACAGCTAGA TGAAAACAGC CCCCTGGGAG ATCTACTCAG AGGAGTATTG 
GATGTACCAT CATGTCAGAT TGCTATCCGC CCTGAGGGGA AGAACAACCG TATGTTTGTA 
TTCTCCATTA GTATGGCTTC TGTCTCACGG TGGTCCCTGG ATGTTGCAGC TGACACACAT 
GAAGATCTGT TGGACTGGGT GAAGAAGATC CGTGAGGCAG CCCAAACTGC TGATGCAAGG 
CTCTCTGAAG GGAAGATGAT GGAACGGAGG AAAAAGATAG CCTTGGAGCT TTCAGAACTT 
GTAATCTACT GTCGTCCTGT TCCCTTTGAT GAAGAAAAAA TTGGCACAGA AAGAGCCTGC 
TACAGAGATA TGTCATCTTT TCCTGAAACC AAAGCAGAAA AGTATGTCAA TAAGATCAAA 
GGGAAGAAAT TTTTGCAGTA CAACCGGCTA CAGCTTTCCC GCATCTACCC TAAAGGACAG 
CGCCTTGACT CTTCTAACTA TGATCCCCTT CCTATGTGGA TCTGTGGCAG CCAGTTGGTG 
GCACTCAACT TTCAAACACC AGACAAGCCA ATGCAGATGA ATCAGGCTCT ATTCATGTCT 
GGAGGCCGAT GTGGCTTTGT GTTGCAACCA GCCAACATGC GGGATGATCC CTTCGATCCC 
TTTGACAAGA ACACTCTGCG TGGAATGGTA CCACTTTCCA TCTCCATTGA GGTTCTAGGG 
GCACGGCATC TTCCCAAAAA TGGAAGGGGA ATCGTCTGTC CATTTGTAGA GATTGAGGTA 
TCTGGAGCAG ATTATGACAG TGCAAAACAG AAGACCGAGA TGGTGGTGGA CAATGGTCTG 
AATCCTGCTT GGGCTCAGAA GACTTTTCAC TTCCATGTCA GTAATCCTGA CTTTGCTTTT 
CTGCGTTTTG TGGTATATGA AGAAGATATG TTCAGCGACC AGAACTTCTT AGCTCAAGCC 
ACTTTCTTGG TTAAAGGTTT AAAGACAGGA TACCGGGCTG TGCCTTTGAA GAACAACTAC 
AGTGAGGATC TGGAATTAGC CTCCTTGCTT GTTAAAATAG ATATAATTCC TGTCATGCAG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

PLCG1 ( XM_007430319.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007430381.1 Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X2, mRNA.

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CloneID	OPy09000
Clone ID Related Accession (Same CDS sequence)	XM_007430319.1 , XM_007430319.2
Accession Version	XM_007430319.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3531bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533417.1) 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 :: Python bivittatus Annotation Release 101 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##

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
CAGGAAAATG GTGAAATTAG CCCCTTTGCA GCTTCACCTT TCCGAGAGAG GTCAGCTGAT 
TCTCCAAATC AGCTCCTGGC GGGCAGAGCC AGAGAAGGTT CATTGGAAGC ACGATATCAG 
CAACCGTTTG AAGATTTCAG GATGTCACAG GAGCAGCTAT CAGACCATTT TGACAATCGA 
GACAGAAGGT TCCTGCGAAA GACGCGGGTG AATGGGGATA ACCGCCTCTA G

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

RefSeq	XP_007430381.1
CDS	117..3647
Translation	MEFRLKTLSLQATSEDEVNMWIKGLNWLVADTLKAATPLQIERWLRKQFYFVDRNREDRISAKDLKNMLSQVNYRVPNMRFLRERLTDVEQRNGDITYGQFVQLYQSLMYNAQKGMAVPFLESSGERSEYNRVSLSEFQTFLLEYQMELWAANVSLVQDFMFTYLSDPLRVIEEPYFSLDEFLTFLFSKENSIWNSEFDVTRPEDMNNPLSHYWISSSHNTYLTGDQFSSESSLEAYARCLRMGCRCIELDCWDGPDGMPVIYHGHTLTTKIKFSDVLTTIKEHAFVTSDYPVILSIEDHCSIAQQRNMAQNFKKVFGDMLLTKPVDISADGLPSPNQLKRKILIKHKKLAEGSAYEEVPSSAVYSENDISNSIKNGILYLEDPINHDWNPHYFVLTSSKIYYSGETTSDLGNEEEEEQKETSNSTELHSTEKWFHGKLGAGRDGRHIAERLLTEYCVDTGAPDGSFLVRESETFVGDYTLSFWRNGKVQHCRIHSRQDAGSPKFFLTDNLVFNSLYDLITHYQQVPLRCNEFEMRLTEPVPQTNAHESKEWYHANLTRNLAEHMLMRVPRDGAFLVRKRSESNSYAISFRAEGKIKHCRVQQDGQTIILGNSEFDSLVDLISYYEKHPLYRKMKLRYPINEETLEKIGTAEPDYGALYEGRNPGFYVEANPMPTFKCAVKALFDYKAQREDELTFTKNAIIQNVEKQEGGWWRGDYGGKKQLWFPSNYVEEITSPTGLEPEREQQLDENSPLGDLLRGVLDVPSCQIAIRPEGKNNRMFVFSISMASVSRWSLDVAADTHEDLLDWVKKIREAAQTADARLSEGKMMERRKKIALELSELVIYCRPVPFDEEKIGTERACYRDMSSFPETKAEKYVNKIKGKKFLQYNRLQLSRIYPKGQRLDSSNYDPLPMWICGSQLVALNFQTPDKPMQMNQALFMSGGRCGFVLQPANMRDDPFDPFDKNTLRGMVPLSISIEVLGARHLPKNGRGIVCPFVEIEVSGADYDSAKQKTEMVVDNGLNPAWAQKTFHFHVSNPDFAFLRFVVYEEDMFSDQNFLAQATFLVKGLKTGYRAVPLKNNYSEDLELASLLVKIDIIPVMQENGEISPFAASPFRERSADSPNQLLAGRAREGSLEARYQQPFEDFRMSQEQLSDHFDNRDRRFLRKTRVNGDNRL

Target ORF information:

RefSeq Version	XM_007430319.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X2, mRNA.

Target ORF information:

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

XM_007430319.1

ORF Insert Sequence:

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
CAGGAAAATG GTGAAATTAG CCCCTTTGCA GCTTCACCTT TCCGAGAGAG GTCAGCTGAT 
TCTCCAAATC AGCTCCTGGC GGGCAGAGCC AGAGAAGGTT CATTGGAAGC ACGATATCAG 
CAACCGTTTG AAGATTTCAG GATGTCACAG GAGCAGCTAT CAGACCATTT TGACAATCGA 
GACAGAAGGT TCCTGCGAAA GACGCGGGTG AATGGGGATA ACCGCCTCTA G

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

PLCG1 ( XM_007430319.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007430381.1 Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X2, mRNA.

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CloneID	OPy09000
Clone ID Related Accession (Same CDS sequence)	XM_007430319.1 , XM_007430319.2
Accession Version	XM_007430319.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3531bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533417.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_007430319.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Python bivittatus 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##

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
CAGGAAAATG GTGAAATTAG CCCCTTTGCA GCTTCACCTT TCCGAGAGAG GTCAGCTGAT 
TCTCCAAATC AGCTCCTGGC GGGCAGAGCC AGAGAAGGTT CATTGGAAGC ACGATATCAG 
CAACCGTTTG AAGATTTCAG GATGTCACAG GAGCAGCTAT CAGACCATTT TGACAATCGA 
GACAGAAGGT TCCTGCGAAA GACGCGGGTG AATGGGGATA ACCGCCTCTA G

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

RefSeq	XP_007430381.1
CDS	117..3647
Translation	MEFRLKTLSLQATSEDEVNMWIKGLNWLVADTLKAATPLQIERWLRKQFYFVDRNREDRISAKDLKNMLSQVNYRVPNMRFLRERLTDVEQRNGDITYGQFVQLYQSLMYNAQKGMAVPFLESSGERSEYNRVSLSEFQTFLLEYQMELWAANVSLVQDFMFTYLSDPLRVIEEPYFSLDEFLTFLFSKENSIWNSEFDVTRPEDMNNPLSHYWISSSHNTYLTGDQFSSESSLEAYARCLRMGCRCIELDCWDGPDGMPVIYHGHTLTTKIKFSDVLTTIKEHAFVTSDYPVILSIEDHCSIAQQRNMAQNFKKVFGDMLLTKPVDISADGLPSPNQLKRKILIKHKKLAEGSAYEEVPSSAVYSENDISNSIKNGILYLEDPINHDWNPHYFVLTSSKIYYSGETTSDLGNEEEEEQKETSNSTELHSTEKWFHGKLGAGRDGRHIAERLLTEYCVDTGAPDGSFLVRESETFVGDYTLSFWRNGKVQHCRIHSRQDAGSPKFFLTDNLVFNSLYDLITHYQQVPLRCNEFEMRLTEPVPQTNAHESKEWYHANLTRNLAEHMLMRVPRDGAFLVRKRSESNSYAISFRAEGKIKHCRVQQDGQTIILGNSEFDSLVDLISYYEKHPLYRKMKLRYPINEETLEKIGTAEPDYGALYEGRNPGFYVEANPMPTFKCAVKALFDYKAQREDELTFTKNAIIQNVEKQEGGWWRGDYGGKKQLWFPSNYVEEITSPTGLEPEREQQLDENSPLGDLLRGVLDVPSCQIAIRPEGKNNRMFVFSISMASVSRWSLDVAADTHEDLLDWVKKIREAAQTADARLSEGKMMERRKKIALELSELVIYCRPVPFDEEKIGTERACYRDMSSFPETKAEKYVNKIKGKKFLQYNRLQLSRIYPKGQRLDSSNYDPLPMWICGSQLVALNFQTPDKPMQMNQALFMSGGRCGFVLQPANMRDDPFDPFDKNTLRGMVPLSISIEVLGARHLPKNGRGIVCPFVEIEVSGADYDSAKQKTEMVVDNGLNPAWAQKTFHFHVSNPDFAFLRFVVYEEDMFSDQNFLAQATFLVKGLKTGYRAVPLKNNYSEDLELASLLVKIDIIPVMQENGEISPFAASPFRERSADSPNQLLAGRAREGSLEARYQQPFEDFRMSQEQLSDHFDNRDRRFLRKTRVNGDNRL

Target ORF information:

RefSeq Version	XM_007430319.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X2, mRNA.

Target ORF information:

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

XM_007430319.2

ORF Insert Sequence:

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
CAGGAAAATG GTGAAATTAG CCCCTTTGCA GCTTCACCTT TCCGAGAGAG GTCAGCTGAT 
TCTCCAAATC AGCTCCTGGC GGGCAGAGCC AGAGAAGGTT CATTGGAAGC ACGATATCAG 
CAACCGTTTG AAGATTTCAG GATGTCACAG GAGCAGCTAT CAGACCATTT TGACAATCGA 
GACAGAAGGT TCCTGCGAAA GACGCGGGTG AATGGGGATA ACCGCCTCTA G

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

PLCG1 ( XM_007430320.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007430382.1 Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X3, mRNA.

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CloneID	OPy09001
Clone ID Related Accession (Same CDS sequence)	XM_007430320.1 , XM_007430320.2
Accession Version	XM_007430320.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3528bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533417.1) 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 :: Python bivittatus Annotation Release 101 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##

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

RefSeq	XP_007430382.1
CDS	117..3644
Translation	MEFRLKTLSLQATSEDEVNMWIKGLNWLVADTLKAATPLQIERWLRKQFYFVDRNREDRISAKDLKNMLSQVNYRVPNMRFLRERLTDVEQRNGDITYGQFVQLYQSLMYNAQKGMAVPFLESSGERSEYNRVSLSEFQTFLLEYQMELWAANVSLVQDFMFTYLSDPLRVIEEPYFSLDEFLTFLFSKENSIWNSEFDVTRPEDMNNPLSHYWISSSHNTYLTGDQFSSESSLEAYARCLRMGCRCIELDCWDGPDGMPVIYHGHTLTTKIKFSDVLTTIKEHAFVTSDYPVILSIEDHCSIAQQRNMAQNFKKVFGDMLLTKPVDISADGLPSPNQLKRKILIKHKKLAEGSAYEEVPSSAVYSENDISNSIKNGILYLEDPINHDWNPHYFVLTSSKIYYSGETTSDLGNEEEEEQKETSNSTELHSTEKWFHGKLGAGRDGRHIAERLLTEYCVDTGAPDGSFLVRESETFVGDYTLSFWRNGKVQHCRIHSRQDAGSPKFFLTDNLVFNSLYDLITHYQQVPLRCNEFEMRLTEPVPQTNAHESKEWYHANLTRNLAEHMLMRVPRDGAFLVRKRSESNSYAISFRAEGKIKHCRVQQDGQTIILGNSEFDSLVDLISYYEKHPLYRKMKLRYPINEETLEKIGTAEPDYGALYEGRNPGFYVEANPMPTFKCAVKALFDYKAQREDELTFTKNAIIQNVEKQEGGWWRGDYGGKKQLWFPSNYVEEITSPTGLEPEREQQLDENSPLGDLLRGVLDVPSCQIAIRPEGKNNRMFVFSISMASVSRWSLDVAADTHEDLLDWVKKIREAAQTADARLSEGKMMERRKKIALELSELVIYCRPVPFDEEKIGTERACYRDMSSFPETKAEKYVNKIKGKKFLQYNRLQLSRIYPKGQRLDSSNYDPLPMWICGSQLVALNFQTPDKPMQMNQALFMSGGRCGFVLQPANMRDDPFDPFDKNTLRGMVPLSISIEVLGARHLPKNGRGIVCPFVEIEVSGADYDSAKQKTEMVVDNGLNPAWAQKTFHFHVSNPDFAFLRFVVYEEDMFSDQNFLAQATFLVKGLKTGYRAVPLKNNYSEDLELASLLVKIDIIPVMENGEISPFAASPFRERSADSPNQLLAGRAREGSLEARYQQPFEDFRMSQEQLSDHFDNRDRRFLRKTRVNGDNRL

Target ORF information:

RefSeq Version	XM_007430320.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X3, mRNA.

Target ORF information:

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

XM_007430320.1

ORF Insert Sequence:

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

PLCG1 ( XM_007430320.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007430382.1 Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X3, mRNA.

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CloneID	OPy09001
Clone ID Related Accession (Same CDS sequence)	XM_007430320.1 , XM_007430320.2
Accession Version	XM_007430320.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3528bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma-1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533417.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_007430320.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Python bivittatus 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##

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

RefSeq	XP_007430382.1
CDS	117..3644
Translation	MEFRLKTLSLQATSEDEVNMWIKGLNWLVADTLKAATPLQIERWLRKQFYFVDRNREDRISAKDLKNMLSQVNYRVPNMRFLRERLTDVEQRNGDITYGQFVQLYQSLMYNAQKGMAVPFLESSGERSEYNRVSLSEFQTFLLEYQMELWAANVSLVQDFMFTYLSDPLRVIEEPYFSLDEFLTFLFSKENSIWNSEFDVTRPEDMNNPLSHYWISSSHNTYLTGDQFSSESSLEAYARCLRMGCRCIELDCWDGPDGMPVIYHGHTLTTKIKFSDVLTTIKEHAFVTSDYPVILSIEDHCSIAQQRNMAQNFKKVFGDMLLTKPVDISADGLPSPNQLKRKILIKHKKLAEGSAYEEVPSSAVYSENDISNSIKNGILYLEDPINHDWNPHYFVLTSSKIYYSGETTSDLGNEEEEEQKETSNSTELHSTEKWFHGKLGAGRDGRHIAERLLTEYCVDTGAPDGSFLVRESETFVGDYTLSFWRNGKVQHCRIHSRQDAGSPKFFLTDNLVFNSLYDLITHYQQVPLRCNEFEMRLTEPVPQTNAHESKEWYHANLTRNLAEHMLMRVPRDGAFLVRKRSESNSYAISFRAEGKIKHCRVQQDGQTIILGNSEFDSLVDLISYYEKHPLYRKMKLRYPINEETLEKIGTAEPDYGALYEGRNPGFYVEANPMPTFKCAVKALFDYKAQREDELTFTKNAIIQNVEKQEGGWWRGDYGGKKQLWFPSNYVEEITSPTGLEPEREQQLDENSPLGDLLRGVLDVPSCQIAIRPEGKNNRMFVFSISMASVSRWSLDVAADTHEDLLDWVKKIREAAQTADARLSEGKMMERRKKIALELSELVIYCRPVPFDEEKIGTERACYRDMSSFPETKAEKYVNKIKGKKFLQYNRLQLSRIYPKGQRLDSSNYDPLPMWICGSQLVALNFQTPDKPMQMNQALFMSGGRCGFVLQPANMRDDPFDPFDKNTLRGMVPLSISIEVLGARHLPKNGRGIVCPFVEIEVSGADYDSAKQKTEMVVDNGLNPAWAQKTFHFHVSNPDFAFLRFVVYEEDMFSDQNFLAQATFLVKGLKTGYRAVPLKNNYSEDLELASLLVKIDIIPVMENGEISPFAASPFRERSADSPNQLLAGRAREGSLEARYQQPFEDFRMSQEQLSDHFDNRDRRFLRKTRVNGDNRL

Target ORF information:

RefSeq Version	XM_007430320.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C gamma 1 (PLCG1), transcript variant X3, mRNA.

Target ORF information:

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

XM_007430320.2

ORF Insert Sequence:

ATGGAATTCA GACTGAAAAC GCTCAGTTTG CAAGCCACTT CTGAAGATGA AGTCAACATG 
TGGATCAAAG GGTTGAACTG GCTTGTGGCA GATACCCTAA AAGCTGCTAC TCCATTGCAA 
ATTGAAAGGT GGCTCCGGAA ACAGTTCTAC TTCGTTGACC GCAACAGAGA GGACAGAATT 
TCTGCAAAAG ACCTTAAAAA TATGCTATCT CAAGTCAACT ACCGTGTCCC CAACATGAGA 
TTTTTGAGAG AGAGATTAAC AGATGTGGAG CAGAGGAATG GGGATATCAC TTATGGACAA 
TTTGTTCAGC TGTACCAAAG CCTGATGTAC AATGCACAGA AAGGAATGGC TGTTCCATTC 
TTAGAAAGCA GTGGAGAGAG ATCCGAATAC AACAGAGTTT CGCTGTCAGA GTTCCAGACA 
TTTTTGCTAG AATACCAAAT GGAGCTTTGG GCTGCTAACG TTTCCTTGGT GCAAGATTTT 
ATGTTTACCT ACTTGTCGGA TCCATTGAGG GTAATTGAAG AACCTTATTT TTCTTTAGAT 
GAGTTTCTCA CCTTCCTGTT TTCCAAAGAG AACAGCATCT GGAACTCGGA ATTTGATGTC 
ACACGCCCAG AGGACATGAA CAATCCCTTG TCCCACTATT GGATCTCATC TTCTCATAAC 
ACGTACTTGA CAGGAGATCA GTTCTCAAGT GAGTCTTCCT TGGAAGCCTA TGCCCGTTGC 
CTGCGCATGG GATGCCGCTG TATTGAACTT GATTGCTGGG ATGGTCCTGA TGGGATGCCT 
GTGATTTATC ATGGACACAC ATTAACTACA AAAATTAAAT TTTCTGATGT TCTCACCACC 
ATCAAGGAGC ATGCTTTTGT GACTTCTGAT TATCCTGTTA TCTTATCCAT TGAAGACCAT 
TGCAGCATTG CCCAGCAGAG GAATATGGCT CAGAACTTTA AGAAGGTCTT TGGGGACATG 
CTGCTAACCA AACCAGTAGA TATCTCTGCT GATGGTCTGC CATCTCCAAA CCAGCTGAAG 
AGGAAGATTC TCATAAAGCA CAAGAAACTG GCTGAGGGTA GTGCTTATGA AGAAGTACCA 
TCATCTGCAG TGTATTCAGA GAATGACATC AGCAACTCAA TAAAGAATGG AATTCTCTAT 
CTCGAAGACC CAATCAACCA CGACTGGAAT CCCCATTATT TTGTCCTGAC CAGCAGCAAG 
ATCTATTACT CTGGAGAAAC AACCAGTGAT TTAGGAAATG AGGAGGAAGA GGAGCAAAAG 
GAGACAAGCA ACAGCACTGA ACTCCATTCC ACTGAAAAGT GGTTCCATGG CAAGCTGGGA 
GCAGGGCGTG ATGGGCGCCA CATAGCAGAG AGGCTGTTAA CCGAATATTG TGTAGACACT 
GGAGCCCCTG ATGGCTCGTT CTTGGTGCGA GAAAGTGAGA CCTTTGTTGG TGATTACACT 
CTTTCTTTCT GGCGCAATGG GAAAGTGCAG CACTGCCGGA TCCATTCCCG GCAGGATGCT 
GGCAGCCCCA AATTCTTCCT CACTGATAAC CTGGTATTCA ATAGCCTCTA TGATCTCATT 
ACTCATTATC AGCAAGTGCC ACTCAGATGC AATGAATTTG AAATGAGGTT GACAGAACCT 
GTGCCACAGA CAAATGCTCA TGAGAGCAAA GAATGGTACC ATGCTAATCT CACCCGGAAT 
TTGGCTGAGC ACATGCTGAT GAGGGTGCCC CGGGATGGGG CCTTTTTGGT GCGCAAGAGG 
AGTGAGTCAA ACTCCTATGC AATCTCTTTT CGGGCTGAAG GGAAGATCAA GCACTGCCGA 
GTGCAGCAGG ATGGCCAGAC AATCATCTTG GGCAATTCAG AATTTGATAG CCTGGTGGAT 
TTAATCAGTT ATTATGAGAA ACACCCATTG TACCGCAAGA TGAAGTTGAG GTATCCAATT 
AATGAAGAAA CACTGGAGAA GATTGGGACA GCAGAACCAG ATTATGGTGC TCTATATGAA 
GGACGGAATC CAGGATTTTA TGTGGAGGCC AACCCTATGC CAACCTTTAA GTGTGCTGTC 
AAAGCTTTGT TTGACTACAA AGCTCAGCGA GAAGATGAGC TCACCTTCAC AAAAAATGCA 
ATCATCCAGA ATGTAGAAAA ACAAGAAGGA GGCTGGTGGA GAGGAGACTA TGGGGGTAAG 
AAGCAACTGT GGTTTCCCTC TAATTATGTA GAAGAAATAA CTAGTCCAAC TGGCCTGGAA 
CCTGAGAGGG AGCAACAGCT AGATGAAAAC AGCCCCCTGG GAGATCTACT CAGAGGAGTA 
TTGGATGTAC CATCATGTCA GATTGCTATC CGCCCTGAGG GGAAGAACAA CCGTATGTTT 
GTATTCTCCA TTAGTATGGC TTCTGTCTCA CGGTGGTCCC TGGATGTTGC AGCTGACACA 
CATGAAGATC TGTTGGACTG GGTGAAGAAG ATCCGTGAGG CAGCCCAAAC TGCTGATGCA 
AGGCTCTCTG AAGGGAAGAT GATGGAACGG AGGAAAAAGA TAGCCTTGGA GCTTTCAGAA 
CTTGTAATCT ACTGTCGTCC TGTTCCCTTT GATGAAGAAA AAATTGGCAC AGAAAGAGCC 
TGCTACAGAG ATATGTCATC TTTTCCTGAA ACCAAAGCAG AAAAGTATGT CAATAAGATC 
AAAGGGAAGA AATTTTTGCA GTACAACCGG CTACAGCTTT CCCGCATCTA CCCTAAAGGA 
CAGCGCCTTG ACTCTTCTAA CTATGATCCC CTTCCTATGT GGATCTGTGG CAGCCAGTTG 
GTGGCACTCA ACTTTCAAAC ACCAGACAAG CCAATGCAGA TGAATCAGGC TCTATTCATG 
TCTGGAGGCC GATGTGGCTT TGTGTTGCAA CCAGCCAACA TGCGGGATGA TCCCTTCGAT 
CCCTTTGACA AGAACACTCT GCGTGGAATG GTACCACTTT CCATCTCCAT TGAGGTTCTA 
GGGGCACGGC ATCTTCCCAA AAATGGAAGG GGAATCGTCT GTCCATTTGT AGAGATTGAG 
GTATCTGGAG CAGATTATGA CAGTGCAAAA CAGAAGACCG AGATGGTGGT GGACAATGGT 
CTGAATCCTG CTTGGGCTCA GAAGACTTTT CACTTCCATG TCAGTAATCC TGACTTTGCT 
TTTCTGCGTT TTGTGGTATA TGAAGAAGAT ATGTTCAGCG ACCAGAACTT CTTAGCTCAA 
GCCACTTTCT TGGTTAAAGG TTTAAAGACA GGATACCGGG CTGTGCCTTT GAAGAACAAC 
TACAGTGAGG ATCTGGAATT AGCCTCCTTG CTTGTTAAAA TAGATATAAT TCCTGTCATG 
GAAAATGGTG AAATTAGCCC CTTTGCAGCT TCACCTTTCC GAGAGAGGTC AGCTGATTCT 
CCAAATCAGC TCCTGGCGGG CAGAGCCAGA GAAGGTTCAT TGGAAGCACG ATATCAGCAA 
CCGTTTGAAG ATTTCAGGAT GTCACAGGAG CAGCTATCAG ACCATTTTGA CAATCGAGAC 
AGAAGGTTCC TGCGAAAGAC GCGGGTGAAT GGGGATAACC GCCTCTAG

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

PubMed

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PLCG1 cDNA ORF clone, Python bivittatus(Burmese python)

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:

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Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム