PLCB4 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	PLCB4
Entrez Gene ID	103057663
Full Name	phospholipase C beta 4
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015888405.1	XP_015743891.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase beta-4
XM_025167871.1	XP_025023639.1	1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase beta-4

Pathways from BioSystems
Gene Ontology

The following PLCB4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PLCB4 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
OPy08822	XM_025167871.1 Latest version!	Python bivittatus phospholipase C beta 4 (PLCB4), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPy08822	XM_015888405.1 Latest version!	Python bivittatus phospholipase C beta 4 (PLCB4), 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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5 or more Clone	50% OFF
All Other ORF Clones
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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)

PLCB4 ( XM_015888405.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_015743891.1 Python bivittatus phospholipase C beta 4 (PLCB4), mRNA.

Price & Availability↑

CloneID	OPy08822
Clone ID Related Accession (Same CDS sequence)	XM_015888405.1 , XM_025167871.1
Accession Version	XM_015888405.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3621bp) 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 beta-4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533361.1) 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##

ATGGCAAAAC CATACGAATT TAACTGGCAG AAGCCAGTTC CATCCTTTCT ACAGGATGGA 
GCTATTTTTG ACAGATACGA AGAGGAATCT TTTGTCTTTG AGCCAAGCTG CCTCTTTAAA 
GTTGATGAAT TTGGCTTTTT TCTGTCATGG AAAAGTGAGG GAAAGGAAGG GCAAGTTTTA 
GAATGTTCCC TGATCAATAG TATTCGCTTT GGAGCAGTGC CAAAGGATCC AAAAATACTA 
GCTGCTCTTG AAGCTGTTAG TAAAGCAGAA AATGAACTTG AAGGACGAAT AGTGTGTGTC 
TGTAGTGGCA CCGATCTGGT GAACATCAAC TTCACATACA TGGTAGCAGA AAGCACTGAA 
GACGCTAAGC AATGGGTTGA TGGACTCAGA TCAATCATAC GTAACTTTAG AGCCAACAAT 
GTTTGTCCCA TGACATGCCT CAAGAAACAC TGGATGAAAT TGGCATTTCT GACTAATACT 
AATGGCAAAA TTCCAGTTAG AAGCATTACC AGAACTTTTG CGTCAGGTAA AACTGAAAAG 
GTGATCTTTC AGGCACTTAA GGAATTGGGT CTTCCCAGTG GAAAGAATGA TGAAATAGAG 
CCTTCAGCTT TTACTTATGA GAAATTTTAT GAACTGACCC AGAAGATATG TCCTCGTACT 
GATATAGAGG AGCTTTTTAG AAAAATCAAT GGAGACAAAA CAGATTATTT AACGGTAGAC 
CAATTAGTGA GCTTTCTAAA TGAACATCAG CGAGATCCTC GGCTGAATGA AATTCTATTT 
CCATTCTTTG ATCCTAAAAG AGCAATGCAA ATAATTGAAA CATATGAACC AGATGAAGAT 
TTGAAAAACA AAGGTGTCAT GTCAAGTGAT GGGTTTTGTC GGTACTTGAT GTCAGATGAG 
AATGCTCCTG TCTTCCTAGA CCGTTTAGAA CTATATCAAG AAATGGAACA TCCTCTGGCT 
CACTATTTTA TTAGCTCTTC CCACAACACA TATCTCACAG GAAGACAGTT TGGTGGAAAG 
TCATCTGTGG AGATGTACAG ACAAGTCCTC TTGGCTGGAT GCAGGTGTGT CGAACTTGAC 
TGCTGGGATG GAAAAGGTGA AGATCAAGAA CCAATAATAA CACATGGAAA GGCCATGTGT 
ACAGACATTC TGTTCAAGGA TGTGATTCAA GCTATTAAGG AAACTGCCTT TGTAACATCT 
GACTATCCTG TCATCCTGTC CTTTGAAAAT CACTGCAGCA AATACCAACA ATACAAAATG 
TCAAAGTACT GTGAAGATAT TTTTGGAGAT CTTCTCTTAA AACAGCCACT AGAAACACAT 
CCACTCGAAT CAGGAAGGCC CTTGCCCTCC CCAAATGATC TGAAAAGAAA GATTCTTATT 
AAAAACAAAA GGTTGAAACC AGAGGTGGAA AAAAAACAGC TTGAAACTTT GAAAAGTATG 
ATGGAAGCTG GTGAAACAGC TGCTCCTGTC AGCATCTTGG AAGATGATAA TGAAGAGGAG 
ATAGAAAGTG GGGATCAAGA AGAGGAAGCA CATCCAGAGT ATAAATTTGG AAGTGAACTT 
TCTGCAGATG ACCTGAGCCA AAAAGAATCT GTAGCTAATC ACATTAAAAA AGCTGTGGAC 
GATTCTGAAC AAGAAAACAA TAAAAAGGGC GTGATAACCG CAGAAGATGA ACAAGCGTGG 
ATGGCTTCTT ACAAATATGT AGGTGCCACA ACTAATATAC ATCCGTACTT ATCAACATTG 
ATCAACTATG CTCAGCCTGT AAAATTTCAA GGTTTCAGTG TAGCAGAAGA ACGCAACATT 
CACTACAACA TGTCCTCTTT TAATGAGTCT GTCGGGTTAG GTTATTTGAA GACCCACGCA 
ATCGAATTTG TGAACTATAA TAAACGGCAA ATGAGTCGGA TATATCCAAA GGGAGGCCGA 
GTGGATTCCA GCAATTACAT GCCTCAAATT TTCTGGAACG CTGGATGCCA GATGGTCTCA 
CTCAACTATC AGACCCCAGA TCTAGCAATG CAGTTGAATC AGGGGAAATT TGAATATAAC 
GGGTCCTGTG GATACCTTCT TAAACCAGAT TTCATGCGGC GACCTGATCG GACATTTGAC 
CCTTTTTCTG AGACTCCTGT GGATGGTGTT ATTGCAGCAA CTTGTTCAGT ACAGGTCATA 
TCTGGTCAAT TTTTATCAGA CAAAAAAATT GGTACTTATG TAGAGGTGGA TATGTATGGC 
CTTCCCACTG ACACGATACG TAAGGAATTC CGAACACGGA TGGTGATGAA CAATGGCTTA 
AATCCTGTTT ACAATGAAGA ATGCTTTGTG TTCCGAAAGG TGATTCTACC AGATCTTGCG 
GTCTTGAGGA TAGCAGTTTA TGATGACAAC AACAAGCTGA TCGGTCAGAG GATATTGCCA 
CTGGATGGGC TTCAGGCAGG CTATCGACAC ATTTCCCTTC GAAATGAAGG CAACAAACCA 
TTATCTCTAC CAACAATTTT CTGCAACATT GTACTTAAAA CTTATGTGCC TGATGGTTTT 
GGAGATATTG TGGATGCCTT GTCAGACCCA AAGAAATTTT TATCTGTCAT GGAGAAAAGA 
GCAGACCAGA TGAGAGCTAT GGGAATTGAA ACAAGTGACA TAGCTGATGT TCCAAATGAC 
ACTTCAAAGA ACGATAAGAA GGGCAAAACT AATAACGCTA AAGCAAATGT TACTCCTCAG 
ACTAGCTCTG AAGTCAGATC AAATGCCATT TCCAGTACAG GACCTGGCAC AGAAATTAAG 
AAAGGTATAG ATCTTATTCC TCAAATAAAG ATAGAGGACT TAAAACAGAT GAAGGCATAT 
ATAAAGCATC TGAAAAAACA GCAAAAAGAG CTGACTGCTT TGAAGAAGAG GCATGCAAAG 
GAGCACAGCA TCATGCAGAA GTTACACTGC ACACAAGTTG ACAAAATGGT AGCCCAATAT 
GACAAAGAGA AGCTAGCTTA CGAGAAACTC CTTGAGAAGG CAATCAAGAA AAAAGGAGGA 
AATAATTGTC TTGAGATGAA AAAAGAAACA GAAGGTAAAA TTCAGATGTT AACATCTGAT 
CATAAATCAA AGGTGAAAGA AATTGTGGCA CAGCACACCA AAGAGTGGTC TGAGATGATC 
AACACCCACA GTGCGGAAGA GCAAGAAATG CGTGATCTGC ACCTTAGCCA GCAGTGTGAA 
CTACTAAAGA AGCTGTTAAT TAATGTGCAC GAACAGCAGA CACAACAACT AAAACTTTCC 
CATGACAGGG AAAGCAAAGA AATGCGGGCC AACCAAGCAA AGATTTCAAT GGAAAACAGT 
AAAGCCATAA GCCAAGATAA ATCTATCAAA AACAAAGCTG AAAGAGAGAG GCGTGTGAGG 
GAGCTGAATA GCAGTAACAC AAAGAAGTTT CTGGAGGAAA GAAAACGGTT GGCAATGAAG 
CAATCAAAGG AAATGGATCA GTTGAAGAAA GTTCAACTTG AACATCTAGA AATTTTGGAG 
AAACAAAATG AGCAGCTTTT GAAATCCTGT CATGCAGTCT CTCAAATTCA AGGCCAAAGA 
GATGCAGCAG ATGGTGAAGC TAGAGGCAGA GATGGACCGC AGGCCTGCAA CAGTGGTATA 
AAGCTCCAAT ACCCCAACTG A

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

RefSeq	XP_015743891.1
CDS	251..3871
Translation	MAKPYEFNWQKPVPSFLQDGAIFDRYEEESFVFEPSCLFKVDEFGFFLSWKSEGKEGQVLECSLINSIRFGAVPKDPKILAALEAVSKAENELEGRIVCVCSGTDLVNINFTYMVAESTEDAKQWVDGLRSIIRNFRANNVCPMTCLKKHWMKLAFLTNTNGKIPVRSITRTFASGKTEKVIFQALKELGLPSGKNDEIEPSAFTYEKFYELTQKICPRTDIEELFRKINGDKTDYLTVDQLVSFLNEHQRDPRLNEILFPFFDPKRAMQIIETYEPDEDLKNKGVMSSDGFCRYLMSDENAPVFLDRLELYQEMEHPLAHYFISSSHNTYLTGRQFGGKSSVEMYRQVLLAGCRCVELDCWDGKGEDQEPIITHGKAMCTDILFKDVIQAIKETAFVTSDYPVILSFENHCSKYQQYKMSKYCEDIFGDLLLKQPLETHPLESGRPLPSPNDLKRKILIKNKRLKPEVEKKQLETLKSMMEAGETAAPVSILEDDNEEEIESGDQEEEAHPEYKFGSELSADDLSQKESVANHIKKAVDDSEQENNKKGVITAEDEQAWMASYKYVGATTNIHPYLSTLINYAQPVKFQGFSVAEERNIHYNMSSFNESVGLGYLKTHAIEFVNYNKRQMSRIYPKGGRVDSSNYMPQIFWNAGCQMVSLNYQTPDLAMQLNQGKFEYNGSCGYLLKPDFMRRPDRTFDPFSETPVDGVIAATCSVQVISGQFLSDKKIGTYVEVDMYGLPTDTIRKEFRTRMVMNNGLNPVYNEECFVFRKVILPDLAVLRIAVYDDNNKLIGQRILPLDGLQAGYRHISLRNEGNKPLSLPTIFCNIVLKTYVPDGFGDIVDALSDPKKFLSVMEKRADQMRAMGIETSDIADVPNDTSKNDKKGKTNNAKANVTPQTSSEVRSNAISSTGPGTEIKKGIDLIPQIKIEDLKQMKAYIKHLKKQQKELTALKKRHAKEHSIMQKLHCTQVDKMVAQYDKEKLAYEKLLEKAIKKKGGNNCLEMKKETEGKIQMLTSDHKSKVKEIVAQHTKEWSEMINTHSAEEQEMRDLHLSQQCELLKKLLINVHEQQTQQLKLSHDRESKEMRANQAKISMENSKAISQDKSIKNKAERERRVRELNSSNTKKFLEERKRLAMKQSKEMDQLKKVQLEHLEILEKQNEQLLKSCHAVSQIQGQRDAADGEARGRDGPQACNSGIKLQYPN

Target ORF information:

RefSeq Version	XM_015888405.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C beta 4 (PLCB4), mRNA.

Target ORF information:

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

XM_015888405.1

ORF Insert Sequence:

ATGGCAAAAC CATACGAATT TAACTGGCAG AAGCCAGTTC CATCCTTTCT ACAGGATGGA 
GCTATTTTTG ACAGATACGA AGAGGAATCT TTTGTCTTTG AGCCAAGCTG CCTCTTTAAA 
GTTGATGAAT TTGGCTTTTT TCTGTCATGG AAAAGTGAGG GAAAGGAAGG GCAAGTTTTA 
GAATGTTCCC TGATCAATAG TATTCGCTTT GGAGCAGTGC CAAAGGATCC AAAAATACTA 
GCTGCTCTTG AAGCTGTTAG TAAAGCAGAA AATGAACTTG AAGGACGAAT AGTGTGTGTC 
TGTAGTGGCA CCGATCTGGT GAACATCAAC TTCACATACA TGGTAGCAGA AAGCACTGAA 
GACGCTAAGC AATGGGTTGA TGGACTCAGA TCAATCATAC GTAACTTTAG AGCCAACAAT 
GTTTGTCCCA TGACATGCCT CAAGAAACAC TGGATGAAAT TGGCATTTCT GACTAATACT 
AATGGCAAAA TTCCAGTTAG AAGCATTACC AGAACTTTTG CGTCAGGTAA AACTGAAAAG 
GTGATCTTTC AGGCACTTAA GGAATTGGGT CTTCCCAGTG GAAAGAATGA TGAAATAGAG 
CCTTCAGCTT TTACTTATGA GAAATTTTAT GAACTGACCC AGAAGATATG TCCTCGTACT 
GATATAGAGG AGCTTTTTAG AAAAATCAAT GGAGACAAAA CAGATTATTT AACGGTAGAC 
CAATTAGTGA GCTTTCTAAA TGAACATCAG CGAGATCCTC GGCTGAATGA AATTCTATTT 
CCATTCTTTG ATCCTAAAAG AGCAATGCAA ATAATTGAAA CATATGAACC AGATGAAGAT 
TTGAAAAACA AAGGTGTCAT GTCAAGTGAT GGGTTTTGTC GGTACTTGAT GTCAGATGAG 
AATGCTCCTG TCTTCCTAGA CCGTTTAGAA CTATATCAAG AAATGGAACA TCCTCTGGCT 
CACTATTTTA TTAGCTCTTC CCACAACACA TATCTCACAG GAAGACAGTT TGGTGGAAAG 
TCATCTGTGG AGATGTACAG ACAAGTCCTC TTGGCTGGAT GCAGGTGTGT CGAACTTGAC 
TGCTGGGATG GAAAAGGTGA AGATCAAGAA CCAATAATAA CACATGGAAA GGCCATGTGT 
ACAGACATTC TGTTCAAGGA TGTGATTCAA GCTATTAAGG AAACTGCCTT TGTAACATCT 
GACTATCCTG TCATCCTGTC CTTTGAAAAT CACTGCAGCA AATACCAACA ATACAAAATG 
TCAAAGTACT GTGAAGATAT TTTTGGAGAT CTTCTCTTAA AACAGCCACT AGAAACACAT 
CCACTCGAAT CAGGAAGGCC CTTGCCCTCC CCAAATGATC TGAAAAGAAA GATTCTTATT 
AAAAACAAAA GGTTGAAACC AGAGGTGGAA AAAAAACAGC TTGAAACTTT GAAAAGTATG 
ATGGAAGCTG GTGAAACAGC TGCTCCTGTC AGCATCTTGG AAGATGATAA TGAAGAGGAG 
ATAGAAAGTG GGGATCAAGA AGAGGAAGCA CATCCAGAGT ATAAATTTGG AAGTGAACTT 
TCTGCAGATG ACCTGAGCCA AAAAGAATCT GTAGCTAATC ACATTAAAAA AGCTGTGGAC 
GATTCTGAAC AAGAAAACAA TAAAAAGGGC GTGATAACCG CAGAAGATGA ACAAGCGTGG 
ATGGCTTCTT ACAAATATGT AGGTGCCACA ACTAATATAC ATCCGTACTT ATCAACATTG 
ATCAACTATG CTCAGCCTGT AAAATTTCAA GGTTTCAGTG TAGCAGAAGA ACGCAACATT 
CACTACAACA TGTCCTCTTT TAATGAGTCT GTCGGGTTAG GTTATTTGAA GACCCACGCA 
ATCGAATTTG TGAACTATAA TAAACGGCAA ATGAGTCGGA TATATCCAAA GGGAGGCCGA 
GTGGATTCCA GCAATTACAT GCCTCAAATT TTCTGGAACG CTGGATGCCA GATGGTCTCA 
CTCAACTATC AGACCCCAGA TCTAGCAATG CAGTTGAATC AGGGGAAATT TGAATATAAC 
GGGTCCTGTG GATACCTTCT TAAACCAGAT TTCATGCGGC GACCTGATCG GACATTTGAC 
CCTTTTTCTG AGACTCCTGT GGATGGTGTT ATTGCAGCAA CTTGTTCAGT ACAGGTCATA 
TCTGGTCAAT TTTTATCAGA CAAAAAAATT GGTACTTATG TAGAGGTGGA TATGTATGGC 
CTTCCCACTG ACACGATACG TAAGGAATTC CGAACACGGA TGGTGATGAA CAATGGCTTA 
AATCCTGTTT ACAATGAAGA ATGCTTTGTG TTCCGAAAGG TGATTCTACC AGATCTTGCG 
GTCTTGAGGA TAGCAGTTTA TGATGACAAC AACAAGCTGA TCGGTCAGAG GATATTGCCA 
CTGGATGGGC TTCAGGCAGG CTATCGACAC ATTTCCCTTC GAAATGAAGG CAACAAACCA 
TTATCTCTAC CAACAATTTT CTGCAACATT GTACTTAAAA CTTATGTGCC TGATGGTTTT 
GGAGATATTG TGGATGCCTT GTCAGACCCA AAGAAATTTT TATCTGTCAT GGAGAAAAGA 
GCAGACCAGA TGAGAGCTAT GGGAATTGAA ACAAGTGACA TAGCTGATGT TCCAAATGAC 
ACTTCAAAGA ACGATAAGAA GGGCAAAACT AATAACGCTA AAGCAAATGT TACTCCTCAG 
ACTAGCTCTG AAGTCAGATC AAATGCCATT TCCAGTACAG GACCTGGCAC AGAAATTAAG 
AAAGGTATAG ATCTTATTCC TCAAATAAAG ATAGAGGACT TAAAACAGAT GAAGGCATAT 
ATAAAGCATC TGAAAAAACA GCAAAAAGAG CTGACTGCTT TGAAGAAGAG GCATGCAAAG 
GAGCACAGCA TCATGCAGAA GTTACACTGC ACACAAGTTG ACAAAATGGT AGCCCAATAT 
GACAAAGAGA AGCTAGCTTA CGAGAAACTC CTTGAGAAGG CAATCAAGAA AAAAGGAGGA 
AATAATTGTC TTGAGATGAA AAAAGAAACA GAAGGTAAAA TTCAGATGTT AACATCTGAT 
CATAAATCAA AGGTGAAAGA AATTGTGGCA CAGCACACCA AAGAGTGGTC TGAGATGATC 
AACACCCACA GTGCGGAAGA GCAAGAAATG CGTGATCTGC ACCTTAGCCA GCAGTGTGAA 
CTACTAAAGA AGCTGTTAAT TAATGTGCAC GAACAGCAGA CACAACAACT AAAACTTTCC 
CATGACAGGG AAAGCAAAGA AATGCGGGCC AACCAAGCAA AGATTTCAAT GGAAAACAGT 
AAAGCCATAA GCCAAGATAA ATCTATCAAA AACAAAGCTG AAAGAGAGAG GCGTGTGAGG 
GAGCTGAATA GCAGTAACAC AAAGAAGTTT CTGGAGGAAA GAAAACGGTT GGCAATGAAG 
CAATCAAAGG AAATGGATCA GTTGAAGAAA GTTCAACTTG AACATCTAGA AATTTTGGAG 
AAACAAAATG AGCAGCTTTT GAAATCCTGT CATGCAGTCT CTCAAATTCA AGGCCAAAGA 
GATGCAGCAG ATGGTGAAGC TAGAGGCAGA GATGGACCGC AGGCCTGCAA CAGTGGTATA 
AAGCTCCAAT ACCCCAACTG A

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

PLCB4 ( XM_025167871.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025023639.1 Python bivittatus phospholipase C beta 4 (PLCB4), mRNA.

Price & Availability↑

CloneID	OPy08822
Clone ID Related Accession (Same CDS sequence)	XM_015888405.1 , XM_025167871.1
Accession Version	XM_025167871.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3621bp) 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 beta-4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006533361.1) 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 :: 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##

ATGGCAAAAC CATACGAATT TAACTGGCAG AAGCCAGTTC CATCCTTTCT ACAGGATGGA 
GCTATTTTTG ACAGATACGA AGAGGAATCT TTTGTCTTTG AGCCAAGCTG CCTCTTTAAA 
GTTGATGAAT TTGGCTTTTT TCTGTCATGG AAAAGTGAGG GAAAGGAAGG GCAAGTTTTA 
GAATGTTCCC TGATCAATAG TATTCGCTTT GGAGCAGTGC CAAAGGATCC AAAAATACTA 
GCTGCTCTTG AAGCTGTTAG TAAAGCAGAA AATGAACTTG AAGGACGAAT AGTGTGTGTC 
TGTAGTGGCA CCGATCTGGT GAACATCAAC TTCACATACA TGGTAGCAGA AAGCACTGAA 
GACGCTAAGC AATGGGTTGA TGGACTCAGA TCAATCATAC GTAACTTTAG AGCCAACAAT 
GTTTGTCCCA TGACATGCCT CAAGAAACAC TGGATGAAAT TGGCATTTCT GACTAATACT 
AATGGCAAAA TTCCAGTTAG AAGCATTACC AGAACTTTTG CGTCAGGTAA AACTGAAAAG 
GTGATCTTTC AGGCACTTAA GGAATTGGGT CTTCCCAGTG GAAAGAATGA TGAAATAGAG 
CCTTCAGCTT TTACTTATGA GAAATTTTAT GAACTGACCC AGAAGATATG TCCTCGTACT 
GATATAGAGG AGCTTTTTAG AAAAATCAAT GGAGACAAAA CAGATTATTT AACGGTAGAC 
CAATTAGTGA GCTTTCTAAA TGAACATCAG CGAGATCCTC GGCTGAATGA AATTCTATTT 
CCATTCTTTG ATCCTAAAAG AGCAATGCAA ATAATTGAAA CATATGAACC AGATGAAGAT 
TTGAAAAACA AAGGTGTCAT GTCAAGTGAT GGGTTTTGTC GGTACTTGAT GTCAGATGAG 
AATGCTCCTG TCTTCCTAGA CCGTTTAGAA CTATATCAAG AAATGGAACA TCCTCTGGCT 
CACTATTTTA TTAGCTCTTC CCACAACACA TATCTCACAG GAAGACAGTT TGGTGGAAAG 
TCATCTGTGG AGATGTACAG ACAAGTCCTC TTGGCTGGAT GCAGGTGTGT CGAACTTGAC 
TGCTGGGATG GAAAAGGTGA AGATCAAGAA CCAATAATAA CACATGGAAA GGCCATGTGT 
ACAGACATTC TGTTCAAGGA TGTGATTCAA GCTATTAAGG AAACTGCCTT TGTAACATCT 
GACTATCCTG TCATCCTGTC CTTTGAAAAT CACTGCAGCA AATACCAACA ATACAAAATG 
TCAAAGTACT GTGAAGATAT TTTTGGAGAT CTTCTCTTAA AACAGCCACT AGAAACACAT 
CCACTCGAAT CAGGAAGGCC CTTGCCCTCC CCAAATGATC TGAAAAGAAA GATTCTTATT 
AAAAACAAAA GGTTGAAACC AGAGGTGGAA AAAAAACAGC TTGAAACTTT GAAAAGTATG 
ATGGAAGCTG GTGAAACAGC TGCTCCTGTC AGCATCTTGG AAGATGATAA TGAAGAGGAG 
ATAGAAAGTG GGGATCAAGA AGAGGAAGCA CATCCAGAGT ATAAATTTGG AAGTGAACTT 
TCTGCAGATG ACCTGAGCCA AAAAGAATCT GTAGCTAATC ACATTAAAAA AGCTGTGGAC 
GATTCTGAAC AAGAAAACAA TAAAAAGGGC GTGATAACCG CAGAAGATGA ACAAGCGTGG 
ATGGCTTCTT ACAAATATGT AGGTGCCACA ACTAATATAC ATCCGTACTT ATCAACATTG 
ATCAACTATG CTCAGCCTGT AAAATTTCAA GGTTTCAGTG TAGCAGAAGA ACGCAACATT 
CACTACAACA TGTCCTCTTT TAATGAGTCT GTCGGGTTAG GTTATTTGAA GACCCACGCA 
ATCGAATTTG TGAACTATAA TAAACGGCAA ATGAGTCGGA TATATCCAAA GGGAGGCCGA 
GTGGATTCCA GCAATTACAT GCCTCAAATT TTCTGGAACG CTGGATGCCA GATGGTCTCA 
CTCAACTATC AGACCCCAGA TCTAGCAATG CAGTTGAATC AGGGGAAATT TGAATATAAC 
GGGTCCTGTG GATACCTTCT TAAACCAGAT TTCATGCGGC GACCTGATCG GACATTTGAC 
CCTTTTTCTG AGACTCCTGT GGATGGTGTT ATTGCAGCAA CTTGTTCAGT ACAGGTCATA 
TCTGGTCAAT TTTTATCAGA CAAAAAAATT GGTACTTATG TAGAGGTGGA TATGTATGGC 
CTTCCCACTG ACACGATACG TAAGGAATTC CGAACACGGA TGGTGATGAA CAATGGCTTA 
AATCCTGTTT ACAATGAAGA ATGCTTTGTG TTCCGAAAGG TGATTCTACC AGATCTTGCG 
GTCTTGAGGA TAGCAGTTTA TGATGACAAC AACAAGCTGA TCGGTCAGAG GATATTGCCA 
CTGGATGGGC TTCAGGCAGG CTATCGACAC ATTTCCCTTC GAAATGAAGG CAACAAACCA 
TTATCTCTAC CAACAATTTT CTGCAACATT GTACTTAAAA CTTATGTGCC TGATGGTTTT 
GGAGATATTG TGGATGCCTT GTCAGACCCA AAGAAATTTT TATCTGTCAT GGAGAAAAGA 
GCAGACCAGA TGAGAGCTAT GGGAATTGAA ACAAGTGACA TAGCTGATGT TCCAAATGAC 
ACTTCAAAGA ACGATAAGAA GGGCAAAACT AATAACGCTA AAGCAAATGT TACTCCTCAG 
ACTAGCTCTG AAGTCAGATC AAATGCCATT TCCAGTACAG GACCTGGCAC AGAAATTAAG 
AAAGGTATAG ATCTTATTCC TCAAATAAAG ATAGAGGACT TAAAACAGAT GAAGGCATAT 
ATAAAGCATC TGAAAAAACA GCAAAAAGAG CTGACTGCTT TGAAGAAGAG GCATGCAAAG 
GAGCACAGCA TCATGCAGAA GTTACACTGC ACACAAGTTG ACAAAATGGT AGCCCAATAT 
GACAAAGAGA AGCTAGCTTA CGAGAAACTC CTTGAGAAGG CAATCAAGAA AAAAGGAGGA 
AATAATTGTC TTGAGATGAA AAAAGAAACA GAAGGTAAAA TTCAGATGTT AACATCTGAT 
CATAAATCAA AGGTGAAAGA AATTGTGGCA CAGCACACCA AAGAGTGGTC TGAGATGATC 
AACACCCACA GTGCGGAAGA GCAAGAAATG CGTGATCTGC ACCTTAGCCA GCAGTGTGAA 
CTACTAAAGA AGCTGTTAAT TAATGTGCAC GAACAGCAGA CACAACAACT AAAACTTTCC 
CATGACAGGG AAAGCAAAGA AATGCGGGCC AACCAAGCAA AGATTTCAAT GGAAAACAGT 
AAAGCCATAA GCCAAGATAA ATCTATCAAA AACAAAGCTG AAAGAGAGAG GCGTGTGAGG 
GAGCTGAATA GCAGTAACAC AAAGAAGTTT CTGGAGGAAA GAAAACGGTT GGCAATGAAG 
CAATCAAAGG AAATGGATCA GTTGAAGAAA GTTCAACTTG AACATCTAGA AATTTTGGAG 
AAACAAAATG AGCAGCTTTT GAAATCCTGT CATGCAGTCT CTCAAATTCA AGGCCAAAGA 
GATGCAGCAG ATGGTGAAGC TAGAGGCAGA GATGGACCGC AGGCCTGCAA CAGTGGTATA 
AAGCTCCAAT ACCCCAACTG A

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

RefSeq	XP_025023639.1
CDS	426..4046
Translation	MAKPYEFNWQKPVPSFLQDGAIFDRYEEESFVFEPSCLFKVDEFGFFLSWKSEGKEGQVLECSLINSIRFGAVPKDPKILAALEAVSKAENELEGRIVCVCSGTDLVNINFTYMVAESTEDAKQWVDGLRSIIRNFRANNVCPMTCLKKHWMKLAFLTNTNGKIPVRSITRTFASGKTEKVIFQALKELGLPSGKNDEIEPSAFTYEKFYELTQKICPRTDIEELFRKINGDKTDYLTVDQLVSFLNEHQRDPRLNEILFPFFDPKRAMQIIETYEPDEDLKNKGVMSSDGFCRYLMSDENAPVFLDRLELYQEMEHPLAHYFISSSHNTYLTGRQFGGKSSVEMYRQVLLAGCRCVELDCWDGKGEDQEPIITHGKAMCTDILFKDVIQAIKETAFVTSDYPVILSFENHCSKYQQYKMSKYCEDIFGDLLLKQPLETHPLESGRPLPSPNDLKRKILIKNKRLKPEVEKKQLETLKSMMEAGETAAPVSILEDDNEEEIESGDQEEEAHPEYKFGSELSADDLSQKESVANHIKKAVDDSEQENNKKGVITAEDEQAWMASYKYVGATTNIHPYLSTLINYAQPVKFQGFSVAEERNIHYNMSSFNESVGLGYLKTHAIEFVNYNKRQMSRIYPKGGRVDSSNYMPQIFWNAGCQMVSLNYQTPDLAMQLNQGKFEYNGSCGYLLKPDFMRRPDRTFDPFSETPVDGVIAATCSVQVISGQFLSDKKIGTYVEVDMYGLPTDTIRKEFRTRMVMNNGLNPVYNEECFVFRKVILPDLAVLRIAVYDDNNKLIGQRILPLDGLQAGYRHISLRNEGNKPLSLPTIFCNIVLKTYVPDGFGDIVDALSDPKKFLSVMEKRADQMRAMGIETSDIADVPNDTSKNDKKGKTNNAKANVTPQTSSEVRSNAISSTGPGTEIKKGIDLIPQIKIEDLKQMKAYIKHLKKQQKELTALKKRHAKEHSIMQKLHCTQVDKMVAQYDKEKLAYEKLLEKAIKKKGGNNCLEMKKETEGKIQMLTSDHKSKVKEIVAQHTKEWSEMINTHSAEEQEMRDLHLSQQCELLKKLLINVHEQQTQQLKLSHDRESKEMRANQAKISMENSKAISQDKSIKNKAERERRVRELNSSNTKKFLEERKRLAMKQSKEMDQLKKVQLEHLEILEKQNEQLLKSCHAVSQIQGQRDAADGEARGRDGPQACNSGIKLQYPN

Target ORF information:

RefSeq Version	XM_025167871.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus phospholipase C beta 4 (PLCB4), mRNA.

Target ORF information:

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

XM_025167871.1

ORF Insert Sequence:

ATGGCAAAAC CATACGAATT TAACTGGCAG AAGCCAGTTC CATCCTTTCT ACAGGATGGA 
GCTATTTTTG ACAGATACGA AGAGGAATCT TTTGTCTTTG AGCCAAGCTG CCTCTTTAAA 
GTTGATGAAT TTGGCTTTTT TCTGTCATGG AAAAGTGAGG GAAAGGAAGG GCAAGTTTTA 
GAATGTTCCC TGATCAATAG TATTCGCTTT GGAGCAGTGC CAAAGGATCC AAAAATACTA 
GCTGCTCTTG AAGCTGTTAG TAAAGCAGAA AATGAACTTG AAGGACGAAT AGTGTGTGTC 
TGTAGTGGCA CCGATCTGGT GAACATCAAC TTCACATACA TGGTAGCAGA AAGCACTGAA 
GACGCTAAGC AATGGGTTGA TGGACTCAGA TCAATCATAC GTAACTTTAG AGCCAACAAT 
GTTTGTCCCA TGACATGCCT CAAGAAACAC TGGATGAAAT TGGCATTTCT GACTAATACT 
AATGGCAAAA TTCCAGTTAG AAGCATTACC AGAACTTTTG CGTCAGGTAA AACTGAAAAG 
GTGATCTTTC AGGCACTTAA GGAATTGGGT CTTCCCAGTG GAAAGAATGA TGAAATAGAG 
CCTTCAGCTT TTACTTATGA GAAATTTTAT GAACTGACCC AGAAGATATG TCCTCGTACT 
GATATAGAGG AGCTTTTTAG AAAAATCAAT GGAGACAAAA CAGATTATTT AACGGTAGAC 
CAATTAGTGA GCTTTCTAAA TGAACATCAG CGAGATCCTC GGCTGAATGA AATTCTATTT 
CCATTCTTTG ATCCTAAAAG AGCAATGCAA ATAATTGAAA CATATGAACC AGATGAAGAT 
TTGAAAAACA AAGGTGTCAT GTCAAGTGAT GGGTTTTGTC GGTACTTGAT GTCAGATGAG 
AATGCTCCTG TCTTCCTAGA CCGTTTAGAA CTATATCAAG AAATGGAACA TCCTCTGGCT 
CACTATTTTA TTAGCTCTTC CCACAACACA TATCTCACAG GAAGACAGTT TGGTGGAAAG 
TCATCTGTGG AGATGTACAG ACAAGTCCTC TTGGCTGGAT GCAGGTGTGT CGAACTTGAC 
TGCTGGGATG GAAAAGGTGA AGATCAAGAA CCAATAATAA CACATGGAAA GGCCATGTGT 
ACAGACATTC TGTTCAAGGA TGTGATTCAA GCTATTAAGG AAACTGCCTT TGTAACATCT 
GACTATCCTG TCATCCTGTC CTTTGAAAAT CACTGCAGCA AATACCAACA ATACAAAATG 
TCAAAGTACT GTGAAGATAT TTTTGGAGAT CTTCTCTTAA AACAGCCACT AGAAACACAT 
CCACTCGAAT CAGGAAGGCC CTTGCCCTCC CCAAATGATC TGAAAAGAAA GATTCTTATT 
AAAAACAAAA GGTTGAAACC AGAGGTGGAA AAAAAACAGC TTGAAACTTT GAAAAGTATG 
ATGGAAGCTG GTGAAACAGC TGCTCCTGTC AGCATCTTGG AAGATGATAA TGAAGAGGAG 
ATAGAAAGTG GGGATCAAGA AGAGGAAGCA CATCCAGAGT ATAAATTTGG AAGTGAACTT 
TCTGCAGATG ACCTGAGCCA AAAAGAATCT GTAGCTAATC ACATTAAAAA AGCTGTGGAC 
GATTCTGAAC AAGAAAACAA TAAAAAGGGC GTGATAACCG CAGAAGATGA ACAAGCGTGG 
ATGGCTTCTT ACAAATATGT AGGTGCCACA ACTAATATAC ATCCGTACTT ATCAACATTG 
ATCAACTATG CTCAGCCTGT AAAATTTCAA GGTTTCAGTG TAGCAGAAGA ACGCAACATT 
CACTACAACA TGTCCTCTTT TAATGAGTCT GTCGGGTTAG GTTATTTGAA GACCCACGCA 
ATCGAATTTG TGAACTATAA TAAACGGCAA ATGAGTCGGA TATATCCAAA GGGAGGCCGA 
GTGGATTCCA GCAATTACAT GCCTCAAATT TTCTGGAACG CTGGATGCCA GATGGTCTCA 
CTCAACTATC AGACCCCAGA TCTAGCAATG CAGTTGAATC AGGGGAAATT TGAATATAAC 
GGGTCCTGTG GATACCTTCT TAAACCAGAT TTCATGCGGC GACCTGATCG GACATTTGAC 
CCTTTTTCTG AGACTCCTGT GGATGGTGTT ATTGCAGCAA CTTGTTCAGT ACAGGTCATA 
TCTGGTCAAT TTTTATCAGA CAAAAAAATT GGTACTTATG TAGAGGTGGA TATGTATGGC 
CTTCCCACTG ACACGATACG TAAGGAATTC CGAACACGGA TGGTGATGAA CAATGGCTTA 
AATCCTGTTT ACAATGAAGA ATGCTTTGTG TTCCGAAAGG TGATTCTACC AGATCTTGCG 
GTCTTGAGGA TAGCAGTTTA TGATGACAAC AACAAGCTGA TCGGTCAGAG GATATTGCCA 
CTGGATGGGC TTCAGGCAGG CTATCGACAC ATTTCCCTTC GAAATGAAGG CAACAAACCA 
TTATCTCTAC CAACAATTTT CTGCAACATT GTACTTAAAA CTTATGTGCC TGATGGTTTT 
GGAGATATTG TGGATGCCTT GTCAGACCCA AAGAAATTTT TATCTGTCAT GGAGAAAAGA 
GCAGACCAGA TGAGAGCTAT GGGAATTGAA ACAAGTGACA TAGCTGATGT TCCAAATGAC 
ACTTCAAAGA ACGATAAGAA GGGCAAAACT AATAACGCTA AAGCAAATGT TACTCCTCAG 
ACTAGCTCTG AAGTCAGATC AAATGCCATT TCCAGTACAG GACCTGGCAC AGAAATTAAG 
AAAGGTATAG ATCTTATTCC TCAAATAAAG ATAGAGGACT TAAAACAGAT GAAGGCATAT 
ATAAAGCATC TGAAAAAACA GCAAAAAGAG CTGACTGCTT TGAAGAAGAG GCATGCAAAG 
GAGCACAGCA TCATGCAGAA GTTACACTGC ACACAAGTTG ACAAAATGGT AGCCCAATAT 
GACAAAGAGA AGCTAGCTTA CGAGAAACTC CTTGAGAAGG CAATCAAGAA AAAAGGAGGA 
AATAATTGTC TTGAGATGAA AAAAGAAACA GAAGGTAAAA TTCAGATGTT AACATCTGAT 
CATAAATCAA AGGTGAAAGA AATTGTGGCA CAGCACACCA AAGAGTGGTC TGAGATGATC 
AACACCCACA GTGCGGAAGA GCAAGAAATG CGTGATCTGC ACCTTAGCCA GCAGTGTGAA 
CTACTAAAGA AGCTGTTAAT TAATGTGCAC GAACAGCAGA CACAACAACT AAAACTTTCC 
CATGACAGGG AAAGCAAAGA AATGCGGGCC AACCAAGCAA AGATTTCAAT GGAAAACAGT 
AAAGCCATAA GCCAAGATAA ATCTATCAAA AACAAAGCTG AAAGAGAGAG GCGTGTGAGG 
GAGCTGAATA GCAGTAACAC AAAGAAGTTT CTGGAGGAAA GAAAACGGTT GGCAATGAAG 
CAATCAAAGG AAATGGATCA GTTGAAGAAA GTTCAACTTG AACATCTAGA AATTTTGGAG 
AAACAAAATG AGCAGCTTTT GAAATCCTGT CATGCAGTCT CTCAAATTCA AGGCCAAAGA 
GATGCAGCAG ATGGTGAAGC TAGAGGCAGA GATGGACCGC AGGCCTGCAA CAGTGGTATA 
AAGCTCCAAT ACCCCAACTG A