Parp14 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Parp14
Entrez Gene ID	303903
Full Name	poly (ADP-ribose) polymerase family, member 14
Synonyms	RGD1310490
General protein information	Preferred Names poly (ADP-ribose) polymerase family, member 14 Names poly [ADP-ribose] polymerase 14
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 11 Map Location: 11q22

mRNA and Protein(s)

mRNA	Protein	Name
NM_001191659.1	NP_001178588.1	poly [ADP-ribose] polymerase 14

Pathways from BioSystems

Homologies

Gallus gallus (chicken)	PARP14	XP_422113.4
Danio rerio (zebrafish)	LOC100332428	XP_002663580.3
Homo sapiens (human)	PARP14	NP_060024.2
Mus musculus (house mouse)	Parp14	NP_001034619.2
Danio rerio (zebrafish)	parp14	XP_691115.6
Xenopus tropicalis (tropical clawed frog)	parp14	XP_004919737.1
Xenopus tropicalis (tropical clawed frog)	LOC101732564	XP_004919736.1
Canis lupus familiaris (dog)	PARP14	XP_850880.2
Rattus norvegicus (Norway rat)	Parp14	NP_001178588.1
Pan troglodytes (chimpanzee)	PARP14	XP_516695.3
	PARP14	XP_001105869.2
Danio rerio (zebrafish)	si:ch211-219a4.3	NP_001107919.2
Xenopus tropicalis (tropical clawed frog)	LOC100487753	XP_002942644.2
Bos taurus (cattle)	PARP14	NP_001193467.1

Gene Ontology
Bibliography

Related articles in PubMed

PARP9 and PARP14 cross-regulate macrophage activation via STAT1 ADP-ribosylation.
Iwata H, Goettsch C, Sharma A, Ricchiuto P, Goh WW, Halu A, Yamada I, Yoshida H, Hara T, Wei M, Inoue N, Fukuda D, Mojcher A, Mattson PC, Barab?si AL, Boothby M, Aikawa E, Singh SA, Aikawa M
Nature communications712849(2016 Oct)

Structures and Mechanisms of Enzymes Employed in the Synthesis and Degradation of PARP-Dependent Protein ADP-Ribosylation.
Barkauskaite E, Jankevicius G, Ahel I
Molecular cell58(6)935-46(2015 Jun)

Family-wide analysis of poly(ADP-ribose) polymerase activity.
Vyas S, Matic I, Uchima L, Rood J, Zaja R, Hay RT, Ahel I, Chang P
Nature communications54426(2014 Jul)

Recognition of mono-ADP-ribosylated ARTD10 substrates by ARTD8 macrodomains.
Forst AH, Karlberg T, Herzog N, Thorsell AG, Gross A, Feijs KL, Verheugd P, Kursula P, Nijmeijer B, Kremmer E, Kleine H, Ladurner AG, Sch?ler H, L?scher B
Structure (London, England : 1993)21(3)462-75(2013 Mar)

Defining the membrane proteome of NK cells.
Ghosh D, Lippert D, Krokhin O, Cortens JP, Wilkins JA
Journal of mass spectrometry : JMS45(1)1-25(2010 Jan)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following Parp14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Parp14 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
ORa07353	NM_001191659.1 Latest version!	Rattus norvegicus poly (ADP-ribose) polymerase family, member 14 (Parp14), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00

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** 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)

Parp14 ( NM_001191659.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001178588.1 Rattus norvegicus poly (ADP-ribose) polymerase family, member 14 (Parp14), mRNA.

Price & Availability↑

CloneID	ORa07353
Clone ID Related Accession (Same CDS sequence)	NM_001191659.1
Accession Version	NM_001191659.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5364bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-04-18
Organism	Rattus norvegicus(Norway rat)
Product	poly [ADP-ribose] polymerase 14
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07034394.1 and AABR07034395.1. On Jul 17, 2010 this sequence version replaced XM_221401.5. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

ATGGCAGCGT CGGGTCCCTT CCCGCTGCTG GTCGAGGGCT CTTGGGGTCC CGACCCCCCG 
AAGAACTTGA TCAACAAGTT GCAAATGTAC TTCCAGAGCC GGAAGAAATC TGGAGGAGGG 
GAGTGCGAGG TCGTCCCGGA GCCCGGGAAC CCAGCACGCT TCCTGGTGCT CTTCTCCCCG 
GAGGATGTTC GGCAGAATGT TCTGGAGAAA GAGAATCATG AGTTAGTGTG GCAAGGAAAA 
GGAACATTCA AAATGACCGT CCAGTTGCCC GCAGACCCAG GGCAAGCCTC AGTCTCTAAG 
AAGGCAATTC CAGAAGAGGA GTCCAAGACA AAAGAAGATG CTGTGAAACC AGGTGATTTG 
GACACAACAC CTTCTCCCAG CAGCAGATCA GAAGAAATGG AAGATGTCCC AAAAGAATGT 
GAAAATATTT CCTCCATGGT GGCATTTGAA CAACTGCCCG AGAAAGTATC GGAGATGGTG 
CTGACCTTCC TGGTGGAGAA TATAAGTGGC CTCCCTAGTG ATGATTTTAA GGTGGAATTG 
ATCCGAGATT TCGCTGTTGC TGTGGTTACC TTTCAGAAGC CTATAGATAC CAAAAAATTT 
ATTATTGATT GTATCAGCCA CCGCTCAAAT CAACAACTCC AACTTGTCCC GAGACTTCTG 
GAAACGACCA ATGTAGTGAG GGTGGAGAAC CTGCCTCCTG GGGTGGATGA TTACCAGCTG 
CAACTCTTCT TTGAAAACCC TTTCAACGGG GGTGGTAGGG TCGCCCGAGT TGAGTGTTTC 
CCCGAAGAGA GTTCGGCGCT GGTTGAGTTT TGTGACAGCA AAGTGTTAGA CACCATTATG 
GCCAAGAAAC ACAGTTTCAA CAAGATGCCG CTGTCTGTCT TCCCATATTA CCCCTCCCTG 
GGCACAGCCT TGTATGGTGA GGAGAAGCCT CTGGTCAAGC TTCCAGCATC TTTCCAGGAG 
TCCCTGGATC TTCCTTTGTG GAAGTTCTTT CAGAAAAATG ATCATCTGAT GGAGGAGATA 
AATGATGAAA TGAGGCACTG TCACTGCGAG CTGACGTGGT CTGAAATCAA CGGTAAACTG 
ACCGTCAGAC CGGCCGCCAC CTTAGTCAGT CACAGACCGA GCATCAAGAC CTGGCAGAGG 
GATGCGTCCG CAGCACTCTC TGGCATCAGG TCTAAATATG ATGTGATGGT GTTTGAAGTG 
TGCTCGCCAG TATGGGACAT CATAAAGCAT GAGTTAGGAG ATGACAGGGT TTTGATTGAG 
TTTGAGAAGG AGAGTCTGAA TGTAGCAGGA AAATCAGAAG ATGTCCAAGG CATTAGCCAG 
CAAATCAGGG AACTAATAGA GCGCACCACT GAAAAGCTCA GAAGGGAAGA GCAGAGTCTG 
GAGGAGAAAG TGGCCATTTC CTCGGGAAAG CATTTTCTTC TGTACCACAG TGGCTTCCTG 
AAGGATCTAA GCAAAGAGTA CCCGGAGATG GAGATCTCTT ACGATGCCAC GGCTCAGTAC 
CTGTGCATTA AAGGCCTCCG TGCAGATGTG TACAAAGTAA AGTGTGAAAT CCAAGAAAAG 
GTGTTTTCCA TGGCTCAGAA AAATGTCCCG GTTTCTTCCG AAGTCTTCAG ATTTCTGCAG 
CAAGTAGACG GTCAGAGACT CTCCAATGCT CTGTTCAAGG CTCAGAACAT TCTTGCCACA 
TACGAGCTGA AAGATAACGC TCTTTTCTTA ATTGGAAGTT CTCCCAAAGA TCTGGCAGAA 
GCTGAGGCCA AAATGCTCAG TGCTTTAAGT CATAAGCACA TTGAAGTTGA GGACAAGGAA 
GTTCTGAGAA GTAATGTGTG GAAGAAGAAA ATTCACCCTC TGCAAAAGAG ACACGGCTCC 
TACGCAGCCA TTATGGTCAA GAATGAGTTG ACGTCGGGAG TCCCGGCTGA GGTCGTCATC 
GCCGGCTGTG TGAAAGAAGT CAATGAAATT CATAGGCAGC TTTTCGAGTT TTTGGAAAAC 
CACATGAAAG TTGAAAGAGT GGTCAAAATC GATCCACCCT TGATTATTGA CTATTTAAAG 
ACAGACAAGA GGCTACTGTC AAAGACAAAG AAGGCAAATG TGAGTGTGAG TTTCAAGACT 
AAAGATGATC CAAACAGCAT TTTGTTACTT GGCTCCAAGA GCAAAGTTCT AGAGTGCCTG 
GATACAGTCA AGGAAATCCG GGATTCAGTC TGCGTCAGAA AATTCCAGAC TGACAAAGCC 
GGTGCCAGGC ACTTCTTCCA GGATAAAGAA TTCTATTACA AAATGGAGAT CAGACGTCTG 
TATGGATGCA TCGTTGAACT GAAGGAGGGT GAAGAGGGGG AGGAAGACAG CCTTAAGGAG 
CAGAAGTGCT ACTTACAGAG GGACATAGGC CCTGGGGTTA CACTGATTGT CCACGAGGGA 
GACCTGAGTC TGTTTCCTGT TGATGTGGTA GTGAACGCAG CCAATGAGAG CCTTAAGCAC 
ATCGATGGCC TCGCGGGCAC TCTCTCAAAG GCTGCGGGCC CCAGCCTCCA AGCAGAATGT 
GACCTGATCG TGAAAAAGGG AGGCATGGTC CCACCCGGCA ATGCTGTTAT CTCAAAAGCA 
GGCAAGCTCC CTTGTCGTTA TGTCATCCAT GCCGTAGGGC CTCGATGGAA GGGAGATAAG 
GTCCTGGAGT GTGTGAACCT CCTGAAGAAA GCTGTGAAAC AAAGTCTCAC TTTAGCTGAA 
GAGTACAAGT GCCAGTCCAT AGCCATACCA GCGATCAGCT CTGGGATCTT TGATTTTCCC 
TTAGACCTGT GCGTGGCATC CATTGCTTCA GCCATCAAGG ACAACGTCCA ACAGAAGCAG 
AACACGCACT CCGTGAAAAA GATTTATCTG GTGGACGTAT CTGCAAAGGT TGCCAAGGCC 
TTTGCTGAAG CTGTCAAGAC TACATATAGA GATATCCTTT CTCCAGCCAG TGTTAAAGCA 
TTAGTACCAC CTGGGAAAAT GCCCCAGAAG CAAGGCAAGC TGCTGGTGTC ACCAGAAGGC 
TTGAACATCC GCCTGATTGA AGAAGGTGTG CAGAATGCTG AGGCCCATGC CATTGTGAAC 
TCTGTTTCCT CGGATCTTAT ACTCAACAAA GGACCCCTTT CTCAGGCTTT CTTGGAAAGT 
GCTGGGCCAG AACTCCAGGA GGAATTGACC AAGGCAGGAC AAGGGGTCTC TGTCAGTGTG 
GGTACAGTTC TTCAAACCAG CGGCTGTAAT CTGAACAGCC GCTCCATCTT CCACGTGGTG 
ACCCCACCAT GGAAAAGCAA CAACAGCGAG TGGTCACTAA AGATCATGAA AAACATCATC 
CGTGACTGTC TGAGGACCAC CGAGGACCTG TCTCTACAAT CCATTGCATT TCCAGCAATA 
GGAACGGGAA ATCTGGGGTT TCCTAAACCC GAATTTGCTA AATTGATAAT TTCAGAAGTA 
CTCAAATTCA GTAGCAGGAA CCAACTGAAG ACTTTACAAG AGGTTCAGTT TCTGCTGCAC 
CCCAAGGACC ATGAAAACAT TCAGGCATTT TTAGATGAAT TTGACAAAAG GAGTAATGGA 
GATCCTAGTA GCAAGAATCC CAAGGCTGAA GACACACAAG GTATCTATGG GAGTCTTTCC 
AGCCCTACTT TAGGAGTGCA TGAGATGAAT ATTGGCCCGA TCCTCTTCCA AGTGGCCACC 
GGGGACATCA TCAAAGAAGT GGCAGATGTG ATTGTCAATT CCACATCATG CACGTTTAAT 
CTCAAATCAG GGGTCTCCAA AGCAATTTTG GAAGGTGCAG GACAAAATGT GGAGCAAGAG 
TGTTCTCGCT TGGCTCAACA GGGTAAAGAG TACATAGTCA CTGGAGGTGG ATTATTGAAA 
TGTAAGAGTA TTATTCATGT TGATGGTGGG AATGATGTCA AGAGATCAGT TTCCTGTATT 
TTGGAAGAAT GTGAACAACG CAGTTTCTCA TCCATTTGTC TACCAGCTAT TGGCACAGGA 
AGCGCTCAAC AGGATCCAAA GGTAGTAGCA AAAGCGGTAT TGGATGCCAT TGAAGAATTT 
GTCCAGAAGA AATCAGTGCA GGCTGTGAAG AGAGTTAAAG TTGTTATCTT CCAGCCCCAT 
ATTCTGCAAT TTTTCTATGA CAACATGAAA GAAAGAGAAG GTTCTCCAGC TCCTGTCAAG 
CCGTCAGTGA TGTCTAAGAT TGCCTCCTTC CTTGGCTTTC CAACACAAGC TTCACCCCCA 
AAGAACACCC TGGTTTTGGA AAAGAAAATT GAGCTCACAG TTTTCCAGAT ATGTGGCCCA 
GGTGTAGACA GTGTGGAAGG TACAATCTCC TGGCTAAAGA GTCTGATTAC CAAAGAGCAG 
TTTTCCTTCA CCAATGAGGA CGAGTGTGTC AGAGACTTTG ACACCGAGGA GTACAGGAAA 
CTGAATGAGA TGCAGAAGAG GCTGAACATC ATCATTGAGC TGAACCAGAA GAAACCTTTG 
ATTAAAGTCT CAGGAATCAG CAGAGACGTG GTAGAAGCTA GAGATGAGAT TGACAACATG 
GTCAAGAGCA TTAGATTGGC TAAGGAAAAG GAAAACCAGG CAGACTACGT CTCTACATTT 
GTGGAATGGC AATATATTGC TAATAACACC ACACGGTGTT TTGACAAGAT AGCCAACATG 
CAGTTGGAGG ATGCATGGAA GGCAAAGAAG AAGCACACTG TTGTCAAAAT TCAGAATCAG 
GACTTCACGG TGGACTTGAG CACAAACACA GCCACGGCTC CCCAAGGACT GAGTTTCACT 
GTCCAGCGAC TCCTCAAAGC TGAAGCTGAA ATTCCTGCCA ATTGGAGTGA TATGAAGCAG 
AACAAATTGC TTGTGGTGAG TCTGCAAACC AGTGATGCCG AGTACACCAT GGTATCCAGG 
GCCTTCCATC AGACCTGCCC AAACTTTGTC ATAGAGAAGA TTGAAAGGAT TCAAAATCCA 
GCTCTTTGGA GGAGGTACCA GGCGTACAAA AAAATTATGG ATGAAAAGAA TGGCAATGTG 
ATAAATGAGA AGCAACTCTT CCATGGGACG GAGTTTGGCT CTCTGGCACA GCTCAACAGT 
AATGGATTTA ACCGCAGCTA TGCTGGGAAG AACGCTACAG CCTATGGGAA AGGAACCTAT 
TTTGCAGTCA ATGCTTCCTA TTCTGCCCAT GACACATATT CCAAACCAGA TGCCAATGGG 
AAAAAGTATA TGTATTATGT GCGGGTCCTC ACTGGAAACT ACACACAAGG AAACGCATCA 
CTGATTGTGC CTCCTTCAAG GGACCCTCAA AATGCTACTG ACTTGTTTGA CACTGTCGCA 
GATAATGTTA TAAATCCGAG TATATTTGTA GTGTTTTATG ACAATCAAGC ATACCCTGAG 
TATCTTATCA CATTTAGGAA GTAA

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

RefSeq	NP_001178588.1
CDS	1..5364
Translation	MAASGPFPLLVEGSWGPDPPKNLINKLQMYFQSRKKSGGGECEVVPEPGNPARFLVLFSPEDVRQNVLEKENHELVWQGKGTFKMTVQLPADPGQASVSKKAIPEEESKTKEDAVKPGDLDTTPSPSSRSEEMEDVPKECENISSMVAFEQLPEKVSEMVLTFLVENISGLPSDDFKVELIRDFAVAVVTFQKPIDTKKFIIDCISHRSNQQLQLVPRLLETTNVVRVENLPPGVDDYQLQLFFENPFNGGGRVARVECFPEESSALVEFCDSKVLDTIMAKKHSFNKMPLSVFPYYPSLGTALYGEEKPLVKLPASFQESLDLPLWKFFQKNDHLMEEINDEMRHCHCELTWSEINGKLTVRPAATLVSHRPSIKTWQRDASAALSGIRSKYDVMVFEVCSPVWDIIKHELGDDRVLIEFEKESLNVAGKSEDVQGISQQIRELIERTTEKLRREEQSLEEKVAISSGKHFLLYHSGFLKDLSKEYPEMEISYDATAQYLCIKGLRADVYKVKCEIQEKVFSMAQKNVPVSSEVFRFLQQVDGQRLSNALFKAQNILATYELKDNALFLIGSSPKDLAEAEAKMLSALSHKHIEVEDKEVLRSNVWKKKIHPLQKRHGSYAAIMVKNELTSGVPAEVVIAGCVKEVNEIHRQLFEFLENHMKVERVVKIDPPLIIDYLKTDKRLLSKTKKANVSVSFKTKDDPNSILLLGSKSKVLECLDTVKEIRDSVCVRKFQTDKAGARHFFQDKEFYYKMEIRRLYGCIVELKEGEEGEEDSLKEQKCYLQRDIGPGVTLIVHEGDLSLFPVDVVVNAANESLKHIDGLAGTLSKAAGPSLQAECDLIVKKGGMVPPGNAVISKAGKLPCRYVIHAVGPRWKGDKVLECVNLLKKAVKQSLTLAEEYKCQSIAIPAISSGIFDFPLDLCVASIASAIKDNVQQKQNTHSVKKIYLVDVSAKVAKAFAEAVKTTYRDILSPASVKALVPPGKMPQKQGKLLVSPEGLNIRLIEEGVQNAEAHAIVNSVSSDLILNKGPLSQAFLESAGPELQEELTKAGQGVSVSVGTVLQTSGCNLNSRSIFHVVTPPWKSNNSEWSLKIMKNIIRDCLRTTEDLSLQSIAFPAIGTGNLGFPKPEFAKLIISEVLKFSSRNQLKTLQEVQFLLHPKDHENIQAFLDEFDKRSNGDPSSKNPKAEDTQGIYGSLSSPTLGVHEMNIGPILFQVATGDIIKEVADVIVNSTSCTFNLKSGVSKAILEGAGQNVEQECSRLAQQGKEYIVTGGGLLKCKSIIHVDGGNDVKRSVSCILEECEQRSFSSICLPAIGTGSAQQDPKVVAKAVLDAIEEFVQKKSVQAVKRVKVVIFQPHILQFFYDNMKEREGSPAPVKPSVMSKIASFLGFPTQASPPKNTLVLEKKIELTVFQICGPGVDSVEGTISWLKSLITKEQFSFTNEDECVRDFDTEEYRKLNEMQKRLNIIIELNQKKPLIKVSGISRDVVEARDEIDNMVKSIRLAKEKENQADYVSTFVEWQYIANNTTRCFDKIANMQLEDAWKAKKKHTVVKIQNQDFTVDLSTNTATAPQGLSFTVQRLLKAEAEIPANWSDMKQNKLLVVSLQTSDAEYTMVSRAFHQTCPNFVIEKIERIQNPALWRRYQAYKKIMDEKNGNVINEKQLFHGTEFGSLAQLNSNGFNRSYAGKNATAYGKGTYFAVNASYSAHDTYSKPDANGKKYMYYVRVLTGNYTQGNASLIVPPSRDPQNATDLFDTVADNVINPSIFVVFYDNQAYPEYLITFRK

Target ORF information:

RefSeq Version	NM_001191659.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus poly (ADP-ribose) polymerase family, member 14 (Parp14), mRNA.

Target ORF information:

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

NM_001191659.1

ORF Insert Sequence:

ATGGCAGCGT CGGGTCCCTT CCCGCTGCTG GTCGAGGGCT CTTGGGGTCC CGACCCCCCG 
AAGAACTTGA TCAACAAGTT GCAAATGTAC TTCCAGAGCC GGAAGAAATC TGGAGGAGGG 
GAGTGCGAGG TCGTCCCGGA GCCCGGGAAC CCAGCACGCT TCCTGGTGCT CTTCTCCCCG 
GAGGATGTTC GGCAGAATGT TCTGGAGAAA GAGAATCATG AGTTAGTGTG GCAAGGAAAA 
GGAACATTCA AAATGACCGT CCAGTTGCCC GCAGACCCAG GGCAAGCCTC AGTCTCTAAG 
AAGGCAATTC CAGAAGAGGA GTCCAAGACA AAAGAAGATG CTGTGAAACC AGGTGATTTG 
GACACAACAC CTTCTCCCAG CAGCAGATCA GAAGAAATGG AAGATGTCCC AAAAGAATGT 
GAAAATATTT CCTCCATGGT GGCATTTGAA CAACTGCCCG AGAAAGTATC GGAGATGGTG 
CTGACCTTCC TGGTGGAGAA TATAAGTGGC CTCCCTAGTG ATGATTTTAA GGTGGAATTG 
ATCCGAGATT TCGCTGTTGC TGTGGTTACC TTTCAGAAGC CTATAGATAC CAAAAAATTT 
ATTATTGATT GTATCAGCCA CCGCTCAAAT CAACAACTCC AACTTGTCCC GAGACTTCTG 
GAAACGACCA ATGTAGTGAG GGTGGAGAAC CTGCCTCCTG GGGTGGATGA TTACCAGCTG 
CAACTCTTCT TTGAAAACCC TTTCAACGGG GGTGGTAGGG TCGCCCGAGT TGAGTGTTTC 
CCCGAAGAGA GTTCGGCGCT GGTTGAGTTT TGTGACAGCA AAGTGTTAGA CACCATTATG 
GCCAAGAAAC ACAGTTTCAA CAAGATGCCG CTGTCTGTCT TCCCATATTA CCCCTCCCTG 
GGCACAGCCT TGTATGGTGA GGAGAAGCCT CTGGTCAAGC TTCCAGCATC TTTCCAGGAG 
TCCCTGGATC TTCCTTTGTG GAAGTTCTTT CAGAAAAATG ATCATCTGAT GGAGGAGATA 
AATGATGAAA TGAGGCACTG TCACTGCGAG CTGACGTGGT CTGAAATCAA CGGTAAACTG 
ACCGTCAGAC CGGCCGCCAC CTTAGTCAGT CACAGACCGA GCATCAAGAC CTGGCAGAGG 
GATGCGTCCG CAGCACTCTC TGGCATCAGG TCTAAATATG ATGTGATGGT GTTTGAAGTG 
TGCTCGCCAG TATGGGACAT CATAAAGCAT GAGTTAGGAG ATGACAGGGT TTTGATTGAG 
TTTGAGAAGG AGAGTCTGAA TGTAGCAGGA AAATCAGAAG ATGTCCAAGG CATTAGCCAG 
CAAATCAGGG AACTAATAGA GCGCACCACT GAAAAGCTCA GAAGGGAAGA GCAGAGTCTG 
GAGGAGAAAG TGGCCATTTC CTCGGGAAAG CATTTTCTTC TGTACCACAG TGGCTTCCTG 
AAGGATCTAA GCAAAGAGTA CCCGGAGATG GAGATCTCTT ACGATGCCAC GGCTCAGTAC 
CTGTGCATTA AAGGCCTCCG TGCAGATGTG TACAAAGTAA AGTGTGAAAT CCAAGAAAAG 
GTGTTTTCCA TGGCTCAGAA AAATGTCCCG GTTTCTTCCG AAGTCTTCAG ATTTCTGCAG 
CAAGTAGACG GTCAGAGACT CTCCAATGCT CTGTTCAAGG CTCAGAACAT TCTTGCCACA 
TACGAGCTGA AAGATAACGC TCTTTTCTTA ATTGGAAGTT CTCCCAAAGA TCTGGCAGAA 
GCTGAGGCCA AAATGCTCAG TGCTTTAAGT CATAAGCACA TTGAAGTTGA GGACAAGGAA 
GTTCTGAGAA GTAATGTGTG GAAGAAGAAA ATTCACCCTC TGCAAAAGAG ACACGGCTCC 
TACGCAGCCA TTATGGTCAA GAATGAGTTG ACGTCGGGAG TCCCGGCTGA GGTCGTCATC 
GCCGGCTGTG TGAAAGAAGT CAATGAAATT CATAGGCAGC TTTTCGAGTT TTTGGAAAAC 
CACATGAAAG TTGAAAGAGT GGTCAAAATC GATCCACCCT TGATTATTGA CTATTTAAAG 
ACAGACAAGA GGCTACTGTC AAAGACAAAG AAGGCAAATG TGAGTGTGAG TTTCAAGACT 
AAAGATGATC CAAACAGCAT TTTGTTACTT GGCTCCAAGA GCAAAGTTCT AGAGTGCCTG 
GATACAGTCA AGGAAATCCG GGATTCAGTC TGCGTCAGAA AATTCCAGAC TGACAAAGCC 
GGTGCCAGGC ACTTCTTCCA GGATAAAGAA TTCTATTACA AAATGGAGAT CAGACGTCTG 
TATGGATGCA TCGTTGAACT GAAGGAGGGT GAAGAGGGGG AGGAAGACAG CCTTAAGGAG 
CAGAAGTGCT ACTTACAGAG GGACATAGGC CCTGGGGTTA CACTGATTGT CCACGAGGGA 
GACCTGAGTC TGTTTCCTGT TGATGTGGTA GTGAACGCAG CCAATGAGAG CCTTAAGCAC 
ATCGATGGCC TCGCGGGCAC TCTCTCAAAG GCTGCGGGCC CCAGCCTCCA AGCAGAATGT 
GACCTGATCG TGAAAAAGGG AGGCATGGTC CCACCCGGCA ATGCTGTTAT CTCAAAAGCA 
GGCAAGCTCC CTTGTCGTTA TGTCATCCAT GCCGTAGGGC CTCGATGGAA GGGAGATAAG 
GTCCTGGAGT GTGTGAACCT CCTGAAGAAA GCTGTGAAAC AAAGTCTCAC TTTAGCTGAA 
GAGTACAAGT GCCAGTCCAT AGCCATACCA GCGATCAGCT CTGGGATCTT TGATTTTCCC 
TTAGACCTGT GCGTGGCATC CATTGCTTCA GCCATCAAGG ACAACGTCCA ACAGAAGCAG 
AACACGCACT CCGTGAAAAA GATTTATCTG GTGGACGTAT CTGCAAAGGT TGCCAAGGCC 
TTTGCTGAAG CTGTCAAGAC TACATATAGA GATATCCTTT CTCCAGCCAG TGTTAAAGCA 
TTAGTACCAC CTGGGAAAAT GCCCCAGAAG CAAGGCAAGC TGCTGGTGTC ACCAGAAGGC 
TTGAACATCC GCCTGATTGA AGAAGGTGTG CAGAATGCTG AGGCCCATGC CATTGTGAAC 
TCTGTTTCCT CGGATCTTAT ACTCAACAAA GGACCCCTTT CTCAGGCTTT CTTGGAAAGT 
GCTGGGCCAG AACTCCAGGA GGAATTGACC AAGGCAGGAC AAGGGGTCTC TGTCAGTGTG 
GGTACAGTTC TTCAAACCAG CGGCTGTAAT CTGAACAGCC GCTCCATCTT CCACGTGGTG 
ACCCCACCAT GGAAAAGCAA CAACAGCGAG TGGTCACTAA AGATCATGAA AAACATCATC 
CGTGACTGTC TGAGGACCAC CGAGGACCTG TCTCTACAAT CCATTGCATT TCCAGCAATA 
GGAACGGGAA ATCTGGGGTT TCCTAAACCC GAATTTGCTA AATTGATAAT TTCAGAAGTA 
CTCAAATTCA GTAGCAGGAA CCAACTGAAG ACTTTACAAG AGGTTCAGTT TCTGCTGCAC 
CCCAAGGACC ATGAAAACAT TCAGGCATTT TTAGATGAAT TTGACAAAAG GAGTAATGGA 
GATCCTAGTA GCAAGAATCC CAAGGCTGAA GACACACAAG GTATCTATGG GAGTCTTTCC 
AGCCCTACTT TAGGAGTGCA TGAGATGAAT ATTGGCCCGA TCCTCTTCCA AGTGGCCACC 
GGGGACATCA TCAAAGAAGT GGCAGATGTG ATTGTCAATT CCACATCATG CACGTTTAAT 
CTCAAATCAG GGGTCTCCAA AGCAATTTTG GAAGGTGCAG GACAAAATGT GGAGCAAGAG 
TGTTCTCGCT TGGCTCAACA GGGTAAAGAG TACATAGTCA CTGGAGGTGG ATTATTGAAA 
TGTAAGAGTA TTATTCATGT TGATGGTGGG AATGATGTCA AGAGATCAGT TTCCTGTATT 
TTGGAAGAAT GTGAACAACG CAGTTTCTCA TCCATTTGTC TACCAGCTAT TGGCACAGGA 
AGCGCTCAAC AGGATCCAAA GGTAGTAGCA AAAGCGGTAT TGGATGCCAT TGAAGAATTT 
GTCCAGAAGA AATCAGTGCA GGCTGTGAAG AGAGTTAAAG TTGTTATCTT CCAGCCCCAT 
ATTCTGCAAT TTTTCTATGA CAACATGAAA GAAAGAGAAG GTTCTCCAGC TCCTGTCAAG 
CCGTCAGTGA TGTCTAAGAT TGCCTCCTTC CTTGGCTTTC CAACACAAGC TTCACCCCCA 
AAGAACACCC TGGTTTTGGA AAAGAAAATT GAGCTCACAG TTTTCCAGAT ATGTGGCCCA 
GGTGTAGACA GTGTGGAAGG TACAATCTCC TGGCTAAAGA GTCTGATTAC CAAAGAGCAG 
TTTTCCTTCA CCAATGAGGA CGAGTGTGTC AGAGACTTTG ACACCGAGGA GTACAGGAAA 
CTGAATGAGA TGCAGAAGAG GCTGAACATC ATCATTGAGC TGAACCAGAA GAAACCTTTG 
ATTAAAGTCT CAGGAATCAG CAGAGACGTG GTAGAAGCTA GAGATGAGAT TGACAACATG 
GTCAAGAGCA TTAGATTGGC TAAGGAAAAG GAAAACCAGG CAGACTACGT CTCTACATTT 
GTGGAATGGC AATATATTGC TAATAACACC ACACGGTGTT TTGACAAGAT AGCCAACATG 
CAGTTGGAGG ATGCATGGAA GGCAAAGAAG AAGCACACTG TTGTCAAAAT TCAGAATCAG 
GACTTCACGG TGGACTTGAG CACAAACACA GCCACGGCTC CCCAAGGACT GAGTTTCACT 
GTCCAGCGAC TCCTCAAAGC TGAAGCTGAA ATTCCTGCCA ATTGGAGTGA TATGAAGCAG 
AACAAATTGC TTGTGGTGAG TCTGCAAACC AGTGATGCCG AGTACACCAT GGTATCCAGG 
GCCTTCCATC AGACCTGCCC AAACTTTGTC ATAGAGAAGA TTGAAAGGAT TCAAAATCCA 
GCTCTTTGGA GGAGGTACCA GGCGTACAAA AAAATTATGG ATGAAAAGAA TGGCAATGTG 
ATAAATGAGA AGCAACTCTT CCATGGGACG GAGTTTGGCT CTCTGGCACA GCTCAACAGT 
AATGGATTTA ACCGCAGCTA TGCTGGGAAG AACGCTACAG CCTATGGGAA AGGAACCTAT 
TTTGCAGTCA ATGCTTCCTA TTCTGCCCAT GACACATATT CCAAACCAGA TGCCAATGGG 
AAAAAGTATA TGTATTATGT GCGGGTCCTC ACTGGAAACT ACACACAAGG AAACGCATCA 
CTGATTGTGC CTCCTTCAAG GGACCCTCAA AATGCTACTG ACTTGTTTGA CACTGTCGCA 
GATAATGTTA TAAATCCGAG TATATTTGTA GTGTTTTATG ACAATCAAGC ATACCCTGAG 
TATCTTATCA CATTTAGGAA GTAA

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

PubMed

PARP9 and PARP14 cross-regulate macrophage activation via STAT1 ADP-ribosylation.
Nature communications712849(2016 Oct)
Iwata H,Goettsch C,Sharma A,Ricchiuto P,Goh WW,Halu A,Yamada I,Yoshida H,Hara T,Wei M,Inoue N,Fukuda D,Mojcher A,Mattson PC,Barab?si AL,Boothby M,Aikawa E,Singh SA,Aikawa M

Structures and Mechanisms of Enzymes Employed in the Synthesis and Degradation of PARP-Dependent Protein ADP-Ribosylation.
Molecular cell58(6)935-46(2015 Jun)
Barkauskaite E,Jankevicius G,Ahel I

Family-wide analysis of poly(ADP-ribose) polymerase activity.
Nature communications54426(2014 Jul)
Vyas S,Matic I,Uchima L,Rood J,Zaja R,Hay RT,Ahel I,Chang P

Recognition of mono-ADP-ribosylated ARTD10 substrates by ARTD8 macrodomains.
Structure (London, England : 1993)21(3)462-75(2013 Mar)
Forst AH,Karlberg T,Herzog N,Thorsell AG,Gross A,Feijs KL,Verheugd P,Kursula P,Nijmeijer B,Kremmer E,Kleine H,Ladurner AG,Sch?ler H,L?scher B

Defining the membrane proteome of NK cells.
Journal of mass spectrometry : JMS45(1)1-25(2010 Jan)
Ghosh D,Lippert D,Krokhin O,Cortens JP,Wilkins JA

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Parp14 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

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gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

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