RPAP1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	RPAP1
Entrez Gene ID	26015
Full Name	RNA polymerase II associated protein 1
General protein information	Preferred Names RNA polymerase II associated protein 1 Names RNA polymerase II-associated protein 1
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 15 Map Location: 15q15.1
Summary	This protein forms part of the RNA polymerase II (RNAPII) enzyme complex and may recruit RNAPII to chromatin through its interaction with acetylated histones. [provided by RefSeq, Jul 2012].
Disorder MIM:	611475

mRNA and Protein(s)

mRNA	Protein	Name
NM_015540.3	NP_056355.2	RNA polymerase II-associated protein 1
XM_005254297.1	XP_005254354.1	RNA polymerase II-associated protein 1 isoform X1
NM_015540.4	NP_056355.2	RNA polymerase II-associated protein 1
XM_006720469.1	XP_006720532.1	RNA polymerase II-associated protein 1 isoform X2

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	RPAP1	XP_544632.2
Mus musculus (house mouse)	Rpap1	NP_001157173.1
Rattus norvegicus (Norway rat)	Rpap1	NP_001029171.1
Xenopus tropicalis (tropical clawed frog)	rpap1	NP_001123724.1
Bos taurus (cattle)	RPAP1	NP_001071452.1
Homo sapiens (human)	RPAP1	NP_056355.2
	RPAP1	XP_001101155.1
Gallus gallus (chicken)	RPAP1	XP_004941683.1
Pan troglodytes (chimpanzee)	RPAP1	XP_001150430.1
Danio rerio (zebrafish)	rpap1	XP_003200406.2

Gene Ontology
Bibliography

Related articles in PubMed

Genome-wide YFP fluorescence complementation screen identifies new regulators for telomere signaling in human cells.
Lee OH, Kim H, He Q, Baek HJ, Yang D, Chen LY, Liang J, Chae HK, Safari A, Liu D, Songyang Z
Molecular & cellular proteomics : MCP10(2)M110.001628(2011 Feb)

RNA polymerase II bypasses 8-oxoguanine in the presence of transcription elongation factor TFIIS.
Kuraoka I, Suzuki K, Ito S, Hayashida M, Kwei JS, Ikegami T, Handa H, Nakabeppu Y, Tanaka K
DNA repair6(6)841-51(2007 Jun)

Phosphoproteomic analysis of the developing mouse brain.
Ballif BA, Vill?n J, Beausoleil SA, Schwartz D, Gygi SP
Molecular & cellular proteomics : MCP3(11)1093-101(2004 Nov)

RPAP1, a novel human RNA polymerase II-associated protein affinity purified with recombinant wild-type and mutated polymerase subunits.
Jeronimo C, Langelier MF, Zeghouf M, Cojocaru M, Bergeron D, Baali D, Forget D, Mnaimneh S, Davierwala AP, Pootoolal J, Chandy M, Canadien V, Beattie BK, Richards DP, Workman JL, Hughes TR, Greenblatt J, Coulombe B
Molecular and cellular biology24(16)7043-58(2004 Aug)

Large-scale characterization of HeLa cell nuclear phosphoproteins.
Beausoleil SA, Jedrychowski M, Schwartz D, Elias JE, Vill?n J, Li J, Cohn MA, Cantley LC, Gygi SP
Proceedings of the National Academy of Sciences of the United States of America101(33)12130-5(2004 Aug)

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

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

SII is important for preventing cellular death due to oxidative DNA damage, assisting RNAPII to bypass 8-oxoG
Title: RNA polymerase II bypasses 8-oxoguanine in the presence of transcription elongation factor TFIIS.

Data report the purification of RNA polymerase II-associated protein 1 (RPAP1), a 153-kDa polypeptide of unknown function.
Title: RPAP1, a novel human RNA polymerase II-associated protein affinity purified with recombinant wild-type and mutated polymerase subunits.

The following RPAP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RPAP1 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)
OHu08614	NM_015540.4 Latest version!	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$519.50-$727.30 $1039.00
OHu08614	XM_005254297.1 Latest version!	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$69.30 $99.00
OHu48222	XM_006720469.1 Latest version!	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
View Old Accession Versions >>
OHu08614	NM_015540.3	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$69.30 $99.00
Hide Old Accession Versions >>

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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)

RPAP1 ( NM_015540.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_056355.2 Homo sapiens RNA polymerase II associated protein 1 (RPAP1), mRNA.

Price & Availability↑

CloneID	OHu08614
Clone ID Related Accession (Same CDS sequence)	NM_015540.3 , XM_005254297.1 , NM_015540.4
Accession Version	NM_015540.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4182bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-05-01
Organism	Homo sapiens(human)
Product	RNA polymerase II-associated protein 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC016134.7. On Nov 23, 2018 this sequence version replaced NM_015540.3. ##Evidence-Data-START## Transcript exon combination :: BC000246.1, SRR1803615.29460.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000304330.9/ ENSP00000306123.4 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGACCCCAG CTTGGTTGCT 
TTCTTGAGAT CTCACAGCCA CACGCAAGAG CAAACAGGAG AGACAGCCTC TGAGGAGCAG 
AGGCCAGGAG GACCCTCTGC TAATGTCACC AAGGAGGAAC CCCTCATGTC AGCTTTTGCC 
AGTGAGCCCA GGAAGAGAGA CAAGCTGGAG CCAGAAGCCC CAGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RefSeq	NP_056355.2
CDS	116..4297
Translation	MLSRPKPGESEVDLLHFQSQFLAAGAAPAVQLVKKGNRGGGDANSDRPPLQDHRDVVMLDNLPDLPPALVPSPPKRARPSPGHCLPEDEDPEERLRRHDQHITAVLTKIIERDTSSVAVNLPVPSGVAFPAVFLRSRDTQGKSATSGKRSIFAQEIAARRIAEAKGPSVGEVVPNVGPPEGAVTCETPTPRNQGCQLPGSSHSFQGPNLVTGKGLRDQEAEQEAQTIHEENIARLQAMAPEEILQEQQRLLAQLDPSLVAFLRSHSHTQEQTGETASEEQRPGGPSANVTKEEPLMSAFASEPRKRDKLEPEAPALALPVTPQKEWLHMDTVELEKLHWTQDLPPVRRQQTQERMQARFSLQGELLAPDVDLPTHLGLHHHGEEAERAGYSLQELFHLTRSQVSQQRALALHVLAQVISRAQAGEFGDRLAGSVLSLLLDAGFLFLLRFSLDDRVDGVIATAIRALRALLVAPGDEELLDSTFSWYHGALTFPLMPSQEDKEDEDEDEECPAGKAKRKSPEEESRPPPDLARHDVIKGLLATSLLPRLRYVLEVTYPGPAVVLDILAVLIRLARHSLESATRVLECPRLIETIVREFLPTSWSPVGAGPTPSLYKVPCATAMKLLRVLASAGRNIAARLLSSFDLRSRLCRIIAEAPQELALPPEEAEMLSTEALRLWAVAASYGQGGYLYRELYPVLMRALQVVPRELSTHPPQPLSMQRIASLLTLLTQLTLAAGSTPAETISDSAEASLSATPSLVTWTQVSGLQPLVEPCLRQTLKLLSRPEMWRAVGPVPVACLLFLGAYYQAWSQQPSSCPEDWLQDMQRLSEELLLPLLSQPTLGSLWDSLRHCSLLCNPLSCVPALEAPPSLVSLGCSGGCPRLSLAGSASPFPFLTALLSLLNTLAQIHKGLCGQLAAILAAPGLQNYFLQCVAPGAAPHLTPFSAWALRHEYHLQYLALALAQKAAALQPLPATHAALYHGMALALLSRLLPGSEYLTHELLLSCVFRLEFLPERTSGGPEAADFSDQLSLGSSRVPRCGQGTLLAQACQDLPSIRNCYLTHCSPARASLLASQALHRGELQRVPTLLLPMPTEPLLPTDWPFLPLIRLYHRASDTPSGLSPTDTMGTAMRVLQWVLVLESWRPQALWAVPPAARLARLMCVFLVDSELFRESPVQHLVAALLAQLCQPQVLPNLNLDCRLPGLTSFPDLYANFLDHFEAVSFGDHLFGALVLLPLQRRFSVTLRLALFGEHVGALRALSLPLTQLPVSLECYTVPPEDNLALLQLYFRTLVTGALRPRWCPVLYAVAVAHVNSFIFSQDPQSSDEVKAARRSMLQKTWLLADEGLRQHLLHYKLPNSTLPEGFELYSQLPPLRQHYLQRLTSTVLQNGVSET

Target ORF information:

RefSeq Version	NM_015540.4
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), mRNA.

Target ORF information:

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

NM_015540.4

ORF Insert Sequence:

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGACCCCAG CTTGGTTGCT 
TTCTTGAGAT CTCACAGCCA CACGCAAGAG CAAACAGGAG AGACAGCCTC TGAGGAGCAG 
AGGCCAGGAG GACCCTCTGC TAATGTCACC AAGGAGGAAC CCCTCATGTC AGCTTTTGCC 
AGTGAGCCCA GGAAGAGAGA CAAGCTGGAG CCAGAAGCCC CAGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RPAP1 ( NM_015540.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_056355.2 Homo sapiens RNA polymerase II associated protein 1 (RPAP1), mRNA.

Price & Availability↑

CloneID	OHu08614
Clone ID Related Accession (Same CDS sequence)	NM_015540.3 , XM_005254297.1 , NM_015540.4
Accession Version	NM_015540.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4182bp) 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	2017-10-02
Organism	Homo sapiens(human)
Product	RNA polymerase II-associated protein 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA618150.1, AK290224.1, AC016134.7 and BC000246.1. On Sep 11, 2013 this sequence version replaced NM_015540.2. ##Evidence-Data-START## Transcript exon combination :: BC000246.1, SRR1803614.228931.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGACCCCAG CTTGGTTGCT 
TTCTTGAGAT CTCACAGCCA CACGCAAGAG CAAACAGGAG AGACAGCCTC TGAGGAGCAG 
AGGCCAGGAG GACCCTCTGC TAATGTCACC AAGGAGGAAC CCCTCATGTC AGCTTTTGCC 
AGTGAGCCCA GGAAGAGAGA CAAGCTGGAG CCAGAAGCCC CAGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RefSeq	NP_056355.2
CDS	136..4317
Translation	MLSRPKPGESEVDLLHFQSQFLAAGAAPAVQLVKKGNRGGGDANSDRPPLQDHRDVVMLDNLPDLPPALVPSPPKRARPSPGHCLPEDEDPEERLRRHDQHITAVLTKIIERDTSSVAVNLPVPSGVAFPAVFLRSRDTQGKSATSGKRSIFAQEIAARRIAEAKGPSVGEVVPNVGPPEGAVTCETPTPRNQGCQLPGSSHSFQGPNLVTGKGLRDQEAEQEAQTIHEENIARLQAMAPEEILQEQQRLLAQLDPSLVAFLRSHSHTQEQTGETASEEQRPGGPSANVTKEEPLMSAFASEPRKRDKLEPEAPALALPVTPQKEWLHMDTVELEKLHWTQDLPPVRRQQTQERMQARFSLQGELLAPDVDLPTHLGLHHHGEEAERAGYSLQELFHLTRSQVSQQRALALHVLAQVISRAQAGEFGDRLAGSVLSLLLDAGFLFLLRFSLDDRVDGVIATAIRALRALLVAPGDEELLDSTFSWYHGALTFPLMPSQEDKEDEDEDEECPAGKAKRKSPEEESRPPPDLARHDVIKGLLATSLLPRLRYVLEVTYPGPAVVLDILAVLIRLARHSLESATRVLECPRLIETIVREFLPTSWSPVGAGPTPSLYKVPCATAMKLLRVLASAGRNIAARLLSSFDLRSRLCRIIAEAPQELALPPEEAEMLSTEALRLWAVAASYGQGGYLYRELYPVLMRALQVVPRELSTHPPQPLSMQRIASLLTLLTQLTLAAGSTPAETISDSAEASLSATPSLVTWTQVSGLQPLVEPCLRQTLKLLSRPEMWRAVGPVPVACLLFLGAYYQAWSQQPSSCPEDWLQDMQRLSEELLLPLLSQPTLGSLWDSLRHCSLLCNPLSCVPALEAPPSLVSLGCSGGCPRLSLAGSASPFPFLTALLSLLNTLAQIHKGLCGQLAAILAAPGLQNYFLQCVAPGAAPHLTPFSAWALRHEYHLQYLALALAQKAAALQPLPATHAALYHGMALALLSRLLPGSEYLTHELLLSCVFRLEFLPERTSGGPEAADFSDQLSLGSSRVPRCGQGTLLAQACQDLPSIRNCYLTHCSPARASLLASQALHRGELQRVPTLLLPMPTEPLLPTDWPFLPLIRLYHRASDTPSGLSPTDTMGTAMRVLQWVLVLESWRPQALWAVPPAARLARLMCVFLVDSELFRESPVQHLVAALLAQLCQPQVLPNLNLDCRLPGLTSFPDLYANFLDHFEAVSFGDHLFGALVLLPLQRRFSVTLRLALFGEHVGALRALSLPLTQLPVSLECYTVPPEDNLALLQLYFRTLVTGALRPRWCPVLYAVAVAHVNSFIFSQDPQSSDEVKAARRSMLQKTWLLADEGLRQHLLHYKLPNSTLPEGFELYSQLPPLRQHYLQRLTSTVLQNGVSET

Target ORF information:

RefSeq Version	NM_015540.3
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), mRNA.

Target ORF information:

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

NM_015540.3

ORF Insert Sequence:

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGACCCCAG CTTGGTTGCT 
TTCTTGAGAT CTCACAGCCA CACGCAAGAG CAAACAGGAG AGACAGCCTC TGAGGAGCAG 
AGGCCAGGAG GACCCTCTGC TAATGTCACC AAGGAGGAAC CCCTCATGTC AGCTTTTGCC 
AGTGAGCCCA GGAAGAGAGA CAAGCTGGAG CCAGAAGCCC CAGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RPAP1 ( XM_005254297.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254354.1 Homo sapiens RNA polymerase II associated protein 1 (RPAP1), transcript variant X1, mRNA.

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CloneID	OHu08614
Clone ID Related Accession (Same CDS sequence)	NM_015540.3 , XM_005254297.1 , NM_015540.4
Accession Version	XM_005254297.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4182bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	RNA polymerase II-associated protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGACCCCAG CTTGGTTGCT 
TTCTTGAGAT CTCACAGCCA CACGCAAGAG CAAACAGGAG AGACAGCCTC TGAGGAGCAG 
AGGCCAGGAG GACCCTCTGC TAATGTCACC AAGGAGGAAC CCCTCATGTC AGCTTTTGCC 
AGTGAGCCCA GGAAGAGAGA CAAGCTGGAG CCAGAAGCCC CAGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RefSeq	XP_005254354.1
CDS	415..4596
Translation	MLSRPKPGESEVDLLHFQSQFLAAGAAPAVQLVKKGNRGGGDANSDRPPLQDHRDVVMLDNLPDLPPALVPSPPKRARPSPGHCLPEDEDPEERLRRHDQHITAVLTKIIERDTSSVAVNLPVPSGVAFPAVFLRSRDTQGKSATSGKRSIFAQEIAARRIAEAKGPSVGEVVPNVGPPEGAVTCETPTPRNQGCQLPGSSHSFQGPNLVTGKGLRDQEAEQEAQTIHEENIARLQAMAPEEILQEQQRLLAQLDPSLVAFLRSHSHTQEQTGETASEEQRPGGPSANVTKEEPLMSAFASEPRKRDKLEPEAPALALPVTPQKEWLHMDTVELEKLHWTQDLPPVRRQQTQERMQARFSLQGELLAPDVDLPTHLGLHHHGEEAERAGYSLQELFHLTRSQVSQQRALALHVLAQVISRAQAGEFGDRLAGSVLSLLLDAGFLFLLRFSLDDRVDGVIATAIRALRALLVAPGDEELLDSTFSWYHGALTFPLMPSQEDKEDEDEDEECPAGKAKRKSPEEESRPPPDLARHDVIKGLLATSLLPRLRYVLEVTYPGPAVVLDILAVLIRLARHSLESATRVLECPRLIETIVREFLPTSWSPVGAGPTPSLYKVPCATAMKLLRVLASAGRNIAARLLSSFDLRSRLCRIIAEAPQELALPPEEAEMLSTEALRLWAVAASYGQGGYLYRELYPVLMRALQVVPRELSTHPPQPLSMQRIASLLTLLTQLTLAAGSTPAETISDSAEASLSATPSLVTWTQVSGLQPLVEPCLRQTLKLLSRPEMWRAVGPVPVACLLFLGAYYQAWSQQPSSCPEDWLQDMQRLSEELLLPLLSQPTLGSLWDSLRHCSLLCNPLSCVPALEAPPSLVSLGCSGGCPRLSLAGSASPFPFLTALLSLLNTLAQIHKGLCGQLAAILAAPGLQNYFLQCVAPGAAPHLTPFSAWALRHEYHLQYLALALAQKAAALQPLPATHAALYHGMALALLSRLLPGSEYLTHELLLSCVFRLEFLPERTSGGPEAADFSDQLSLGSSRVPRCGQGTLLAQACQDLPSIRNCYLTHCSPARASLLASQALHRGELQRVPTLLLPMPTEPLLPTDWPFLPLIRLYHRASDTPSGLSPTDTMGTAMRVLQWVLVLESWRPQALWAVPPAARLARLMCVFLVDSELFRESPVQHLVAALLAQLCQPQVLPNLNLDCRLPGLTSFPDLYANFLDHFEAVSFGDHLFGALVLLPLQRRFSVTLRLALFGEHVGALRALSLPLTQLPVSLECYTVPPEDNLALLQLYFRTLVTGALRPRWCPVLYAVAVAHVNSFIFSQDPQSSDEVKAARRSMLQKTWLLADEGLRQHLLHYKLPNSTLPEGFELYSQLPPLRQHYLQRLTSTVLQNGVSET

Target ORF information:

RefSeq Version	XM_005254297.1
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), transcript variant X1, mRNA.

Target ORF information:

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

XM_005254297.1

ORF Insert Sequence:

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGACCCCAG CTTGGTTGCT 
TTCTTGAGAT CTCACAGCCA CACGCAAGAG CAAACAGGAG AGACAGCCTC TGAGGAGCAG 
AGGCCAGGAG GACCCTCTGC TAATGTCACC AAGGAGGAAC CCCTCATGTC AGCTTTTGCC 
AGTGAGCCCA GGAAGAGAGA CAAGCTGGAG CCAGAAGCCC CAGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RPAP1 ( XM_006720469.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006720532.1 Homo sapiens RNA polymerase II associated protein 1 (RPAP1), transcript variant X2, mRNA.

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CloneID	OHu48222
Clone ID Related Accession (Same CDS sequence)	XM_006720469.1
Accession Version	XM_006720469.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4002bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	RNA polymerase II-associated protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

RefSeq	XP_006720532.1
CDS	130..4131
Translation	MLSRPKPGESEVDLLHFQSQFLAAGAAPAVQLVKKGNRGGGDANSDRPPLQDHRDVVMLDNLPDLPPALVPSPPKRARPSPGHCLPEDEDPEERLRRHDQHITAVLTKIIERDTSSVAVNLPVPSGVAFPAVFLRSRDTQGKSATSGKRSIFAQEIAARRIAEAKGPSVGEVVPNVGPPEGAVTCETPTPRNQGCQLPGSSHSFQGPNLVTGKGLRDQEAEQEAQTIHEENIARLQAMAPEEILQEQQRLLAQLALALPVTPQKEWLHMDTVELEKLHWTQDLPPVRRQQTQERMQARFSLQGELLAPDVDLPTHLGLHHHGEEAERAGYSLQELFHLTRSQVSQQRALALHVLAQVISRAQAGEFGDRLAGSVLSLLLDAGFLFLLRFSLDDRVDGVIATAIRALRALLVAPGDEELLDSTFSWYHGALTFPLMPSQEDKEDEDEDEECPAGKAKRKSPEEESRPPPDLARHDVIKGLLATSLLPRLRYVLEVTYPGPAVVLDILAVLIRLARHSLESATRVLECPRLIETIVREFLPTSWSPVGAGPTPSLYKVPCATAMKLLRVLASAGRNIAARLLSSFDLRSRLCRIIAEAPQELALPPEEAEMLSTEALRLWAVAASYGQGGYLYRELYPVLMRALQVVPRELSTHPPQPLSMQRIASLLTLLTQLTLAAGSTPAETISDSAEASLSATPSLVTWTQVSGLQPLVEPCLRQTLKLLSRPEMWRAVGPVPVACLLFLGAYYQAWSQQPSSCPEDWLQDMQRLSEELLLPLLSQPTLGSLWDSLRHCSLLCNPLSCVPALEAPPSLVSLGCSGGCPRLSLAGSASPFPFLTALLSLLNTLAQIHKGLCGQLAAILAAPGLQNYFLQCVAPGAAPHLTPFSAWALRHEYHLQYLALALAQKAAALQPLPATHAALYHGMALALLSRLLPGSEYLTHELLLSCVFRLEFLPERTSGGPEAADFSDQLSLGSSRVPRCGQGTLLAQACQDLPSIRNCYLTHCSPARASLLASQALHRGELQRVPTLLLPMPTEPLLPTDWPFLPLIRLYHRASDTPSGLSPTDTMGTAMRVLQWVLVLESWRPQALWAVPPAARLARLMCVFLVDSELFRESPVQHLVAALLAQLCQPQVLPNLNLDCRLPGLTSFPDLYANFLDHFEAVSFGDHLFGALVLLPLQRRFSVTLRLALFGEHVGALRALSLPLTQLPVSLECYTVPPEDNLALLQLYFRTLVTGALRPRWCPVLYAVAVAHVNSFIFSQDPQSSDEVKAARRSMLQKTWLLADEGLRQHLLHYKLPNSTLPEGFELYSQLPPLRQHYLQRLTSTVLQNGVSET

Target ORF information:

RefSeq Version	XM_006720469.1
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA polymerase II associated protein 1 (RPAP1), transcript variant X2, mRNA.

Target ORF information:

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

XM_006720469.1

ORF Insert Sequence:

ATGCTGTCGA GACCGAAGCC AGGGGAGTCC GAGGTGGACC TGCTGCACTT CCAGAGTCAG 
TTTCTCGCAG CTGGTGCAGC CCCAGCAGTG CAGTTGGTGA AGAAAGGAAA TAGGGGCGGT 
GGTGATGCCA ACTCAGACCG GCCTCCGCTC CAGGACCATC GGGATGTGGT GATGTTGGAC 
AATCTCCCAG ATTTGCCCCC AGCTTTGGTC CCTTCTCCTC CAAAGAGAGC CAGGCCCAGC 
CCTGGCCACT GCCTGCCTGA GGATGAGGAC CCAGAAGAGA GGCTGAGGAG GCATGATCAG 
CACATCACTG CTGTCTTGAC TAAGATTATT GAACGAGATA CAAGTTCAGT GGCCGTGAAT 
CTGCCTGTGC CCAGTGGTGT TGCTTTCCCT GCTGTGTTCC TTCGCTCGCG GGACACACAG 
GGGAAATCAG CAACATCTGG TAAGAGAAGC ATCTTTGCCC AGGAAATTGC GGCAAGGAGG 
ATAGCTGAAG CCAAGGGCCC ATCAGTTGGG GAAGTTGTGC CCAACGTGGG CCCACCAGAG 
GGTGCCGTGA CCTGTGAGAC ACCCACTCCT AGGAACCAGG GCTGCCAGCT TCCTGGGAGC 
AGCCACAGCT TTCAGGGACC CAATCTGGTC ACAGGGAAGG GGCTCAGGGA TCAAGAAGCT 
GAGCAGGAAG CCCAGACTAT CCATGAAGAG AACATAGCAA GACTGCAGGC CATGGCTCCT 
GAGGAGATCC TGCAGGAACA GCAGCGGTTG CTGGCCCAGC TTGCTCTGGC ATTGCCCGTG 
ACCCCTCAGA AAGAATGGCT GCACATGGAC ACTGTCGAGC TGGAGAAGCT CCACTGGACC 
CAGGACTTGC CCCCTGTCCG GCGGCAGCAG ACACAGGAGA GGATGCAGGC TCGATTCAGT 
CTTCAGGGAG AACTACTGGC CCCTGACGTG GACCTGCCCA CCCACCTGGG TCTGCACCAC 
CATGGAGAGG AGGCAGAGAG AGCGGGGTAT TCCCTACAGG AGCTGTTCCA CCTGACCCGC 
AGCCAGGTTT CCCAGCAGAG AGCACTGGCA CTGCATGTGT TAGCCCAGGT CATCAGCAGG 
GCCCAGGCTG GTGAGTTTGG GGACCGGCTA GCAGGCAGTG TCTTAAGCCT CCTTTTGGAT 
GCTGGTTTCC TCTTCCTACT GCGCTTCTCC TTGGATGACA GAGTGGATGG GGTCATTGCA 
ACCGCCATCC GTGCTCTTCG GGCTCTGCTG GTGGCTCCTG GAGATGAGGA GCTCCTCGAC 
AGCACCTTCT CTTGGTACCA TGGAGCTTTG ACGTTCCCTC TGATGCCCAG CCAGGAGGAC 
AAGGAGGATG AGGACGAGGA TGAAGAATGC CCAGCAGGAA AAGCAAAAAG GAAAAGCCCT 
GAAGAAGAAA GCCGGCCTCC ACCTGACCTG GCCCGACATG ATGTCATCAA GGGGCTCCTG 
GCTACCAGCC TGCTGCCTCG GCTGCGCTAC GTGCTGGAGG TGACATACCC AGGACCTGCG 
GTGGTCCTTG ACATCCTGGC TGTGCTCATC CGCCTGGCCC GGCATTCCCT GGAATCAGCC 
ACAAGGGTCC TGGAGTGCCC TCGGCTGATA GAGACTATAG TTCGAGAGTT CTTGCCCACC 
AGTTGGTCTC CTGTGGGGGC AGGGCCTACC CCTAGTCTAT ACAAAGTACC CTGTGCTACT 
GCCATGAAAC TACTTCGTGT CCTGGCCTCA GCTGGGAGGA ATATTGCTGC CCGGCTGTTG 
AGCAGCTTTG ATCTCCGGAG CCGCCTGTGC CGCATCATAG CTGAGGCTCC CCAAGAACTG 
GCCTTGCCCC CAGAGGAAGC TGAGATGCTG AGCACCGAGG CCCTCCGTCT GTGGGCTGTG 
GCTGCCTCCT ATGGCCAGGG CGGTTACCTT TACAGGGAGC TCTACCCAGT GCTGATGCGG 
GCCTTGCAGG TGGTGCCGCG GGAGCTCAGC ACCCACCCAC CTCAACCCCT GTCCATGCAG 
CGGATAGCCT CACTGCTCAC TCTCCTCACC CAGCTAACCC TGGCAGCCGG CAGTACCCCT 
GCTGAAACCA TCAGTGATTC TGCTGAGGCC AGCCTCTCGG CCACCCCTTC CTTAGTCACT 
TGGACACAGG TGTCTGGGCT CCAGCCTCTT GTTGAGCCGT GTCTAAGGCA GACCTTGAAG 
TTGCTGTCCA GACCTGAGAT GTGGAGAGCC GTGGGCCCAG TGCCCGTTGC CTGCCTGTTG 
TTCCTGGGAG CCTACTACCA GGCCTGGAGC CAGCAACCAA GCTCATGCCC GGAGGATTGG 
CTCCAGGACA TGCAGCGCCT GTCAGAGGAG CTGCTGCTGC CACTGCTGAG TCAGCCCACA 
CTGGGCAGCC TGTGGGATTC CCTTAGGCAC TGCTCCCTTC TCTGCAACCC GCTGTCCTGT 
GTGCCAGCCC TTGAAGCTCC CCCCAGCCTC GTGTCACTGG GCTGCTCGGG AGGCTGCCCC 
CGTCTCAGTC TGGCTGGCTC AGCCTCACCC TTCCCATTCC TCACTGCCCT CCTCTCTCTT 
CTTAATACCC TGGCCCAGAT CCACAAGGGG CTGTGTGGCC AGCTGGCTGC CATATTGGCT 
GCCCCGGGAC TCCAGAATTA CTTCCTCCAG TGTGTGGCTC CTGGGGCTGC CCCACACCTC 
ACACCTTTCT CTGCATGGGC CCTGCGCCAT GAGTACCACC TGCAGTACCT GGCACTCGCT 
CTGGCCCAGA AAGCGGCAGC GCTGCAGCCA CTGCCAGCCA CCCATGCTGC CCTCTATCAT 
GGTATGGCCT TGGCCCTGCT GAGCCGGCTG CTGCCCGGAA GTGAGTACCT CACCCATGAG 
CTGCTGCTGA GCTGTGTATT CCGGCTGGAG TTCCTCCCGG AAAGAACATC AGGGGGTCCA 
GAGGCAGCCG ACTTCTCTGA CCAGCTGTCG TTAGGAAGCA GCAGGGTCCC TCGGTGTGGG 
CAAGGGACTC TGCTGGCTCA GGCCTGCCAG GACCTCCCCA GCATCCGCAA CTGCTACCTG 
ACTCATTGCT CGCCAGCCCG AGCCAGTCTG CTGGCCTCCC AGGCTCTGCA CCGAGGGGAG 
CTACAGCGAG TCCCAACCCT GCTACTGCCC ATGCCTACGG AGCCGCTGCT GCCCACCGAC 
TGGCCCTTCC TGCCACTGAT TCGCCTCTAC CACCGGGCTT CAGACACCCC CTCGGGACTC 
TCTCCCACAG ACACCATGGG CACAGCCATG CGGGTCCTGC AGTGGGTGCT AGTTTTGGAG 
AGCTGGCGCC CCCAGGCTCT CTGGGCTGTG CCCCCTGCTG CCCGCCTGGC ACGGCTCATG 
TGTGTGTTCC TGGTGGACAG TGAGCTGTTC CGGGAGTCCC CAGTACAGCA TCTGGTGGCA 
GCCCTCCTCG CCCAGCTCTG TCAGCCTCAA GTCTTGCCAA ACCTCAACCT GGACTGCCGA 
CTCCCTGGCC TGACGTCTTT CCCTGACCTC TATGCCAACT TCCTGGATCA TTTTGAGGCT 
GTCTCTTTTG GGGACCACCT CTTTGGGGCC CTGGTCCTCC TGCCCCTGCA GCGTCGGTTC 
AGTGTCACCT TGCGCCTTGC CCTCTTTGGG GAACACGTGG GAGCCTTGCG AGCTCTGAGC 
CTGCCTCTGA CCCAGTTGCC TGTGTCCCTG GAGTGTTACA CAGTGCCTCC TGAAGACAAC 
CTGGCCCTCC TTCAGCTCTA CTTCCGGACC CTGGTTACTG GTGCGCTCCG CCCACGTTGG 
TGCCCCGTGC TCTATGCTGT GGCTGTGGCT CATGTCAATA GCTTCATCTT CTCTCAGGAC 
CCACAGAGCT CAGATGAGGT CAAAGCTGCC CGCAGGAGTA TGCTGCAGAA AACATGGCTG 
CTGGCAGATG AGGGTCTCCG GCAGCACCTC CTGCACTATA AGCTTCCCAA TTCCACGCTC 
CCAGAGGGCT TTGAGCTCTA TTCTCAGTTG CCCCCTCTGC GTCAGCACTA CCTCCAGAGA 
CTGACTTCAA CAGTGCTCCA AAATGGGGTA TCAGAGACCT AG

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

PubMed

Genome-wide YFP fluorescence complementation screen identifies new regulators for telomere signaling in human cells.
Molecular & cellular proteomics : MCP10(2)M110.001628(2011 Feb)
Lee OH,Kim H,He Q,Baek HJ,Yang D,Chen LY,Liang J,Chae HK,Safari A,Liu D,Songyang Z

RNA polymerase II bypasses 8-oxoguanine in the presence of transcription elongation factor TFIIS.
DNA repair6(6)841-51(2007 Jun)
Kuraoka I,Suzuki K,Ito S,Hayashida M,Kwei JS,Ikegami T,Handa H,Nakabeppu Y,Tanaka K

Phosphoproteomic analysis of the developing mouse brain.
Molecular & cellular proteomics : MCP3(11)1093-101(2004 Nov)
Ballif BA,Vill?n J,Beausoleil SA,Schwartz D,Gygi SP

RPAP1, a novel human RNA polymerase II-associated protein affinity purified with recombinant wild-type and mutated polymerase subunits.
Molecular and cellular biology24(16)7043-58(2004 Aug)
Jeronimo C,Langelier MF,Zeghouf M,Cojocaru M,Bergeron D,Baali D,Forget D,Mnaimneh S,Davierwala AP,Pootoolal J,Chandy M,Canadien V,Beattie BK,Richards DP,Workman JL,Hughes TR,Greenblatt J,Coulombe B

Large-scale characterization of HeLa cell nuclear phosphoproteins.
Proceedings of the National Academy of Sciences of the United States of America101(33)12130-5(2004 Aug)
Beausoleil SA,Jedrychowski M,Schwartz D,Elias JE,Vill?n J,Li J,Cohn MA,Cantley LC,Gygi SP

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RPAP1 cDNA ORF clone, Homo sapiens(human)

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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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