Arhgef18 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Arhgef18
Entrez Gene ID	304193
Full Name	Rho/Rac guanine nucleotide exchange factor 18
General protein information	Preferred Names Rho/Rac guanine nucleotide exchange factor 18 Names rho guanine nucleotide exchange factor 18 rho/rac guanine nucleotide exchange factor (GEF) 18
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 12 Map Location: 12p12

mRNA and Protein(s)

mRNA	Protein	Name
NM_001107115.1	NP_001100585.1	rho guanine nucleotide exchange factor 18
XM_008768951.2	XP_008767173.1	rho guanine nucleotide exchange factor 18 isoform X2
XM_008768952.2	XP_008767174.1	rho guanine nucleotide exchange factor 18 isoform X2
XM_017598309.1	XP_017453798.1	rho guanine nucleotide exchange factor 18 isoform X1
XM_017598310.1	XP_017453799.1	rho guanine nucleotide exchange factor 18 isoform X3

Pathways from BioSystems

Homologies

Danio rerio (zebrafish)	arhgef18b	XP_690750.6
Homo sapiens (human)	ARHGEF18	NP_001124427.1
	ARHGEF18	XP_001095927.2
Mus musculus (house mouse)	Arhgef18	NP_598723.3
Canis lupus familiaris (dog)	ARHGEF18	XP_005632985.1
Pan troglodytes (chimpanzee)	ARHGEF18	XP_001145436.1
Bos taurus (cattle)	ARHGEF18	XP_002688879.3
Rattus norvegicus (Norway rat)	Arhgef18	NP_001100585.1
Gallus gallus (chicken)	ARHGEF18	XP_418249.4
Xenopus tropicalis (tropical clawed frog)	arhgef18	XP_004911044.1

Gene Ontology
Bibliography

Related articles in PubMed

Lulu2 regulates the circumferential actomyosin tensile system in epithelial cells through p114RhoGEF.
Nakajima H, Tanoue T
The Journal of cell biology195(2)245-61(2011 Oct)

Proteomic analysis of exosomes from human neural stem cells by flow field-flow fractionation and nanoflow liquid chromatography-tandem mass spectrometry.
Kang D, Oh S, Ahn SM, Lee BH, Moon MH
Journal of proteome research7(8)3475-80(2008 Aug)

G Protein betagamma subunits stimulate p114RhoGEF, a guanine nucleotide exchange factor for RhoA and Rac1: regulation of cell shape and reactive oxygen species production.
Niu J, Profirovic J, Pan H, Vaiskunaite R, Voyno-Yasenetskaya T
Circulation research93(9)848-56(2003 Oct)

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

The following Arhgef18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgef18 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)
ORa57803	XM_017598309.1 Latest version!	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
ORa57804	XM_017598310.1 Latest version!	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
ORa02923	NM_001107115.1 Latest version!	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa46116	XM_008768952.2 Latest version!	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
ORa46116	XM_008768951.2 Latest version!	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00

ORF Online Only Promotion

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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)

Arhgef18 ( XM_017598309.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017453798.1 Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa57803
Clone ID Related Accession (Same CDS sequence)	XM_017598309.1
Accession Version	XM_017598309.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3945bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	rho guanine nucleotide exchange factor 18 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATCCTG AGACCCCCAG AAGAGAGTCC TTCCACACAA GCTGTGAGGG AGCTTCAGCC 
CTGCCTCAAA GACACAGCTG GGAGAGACCC CGGAGCTGCT CAGAGAGGGG TCGAAGGCTC 
AGCCTTGATG CCTCTGAGGT GGATGAGGGG GCCTGTCTCC CCCGGACTCT GGCTAGCCTC 
GCTCTGAATC TGTCTGGAGA TGGGCAGAAG ACTTGGATCC AAGGATGCTT ACCTGTCAGT 
GGGACACCAG CACCCTCAAG CAAGGAAGGC AACAGCCCTG AGAAAAGGCT AAGATCCAAG 
TCAGTACCTG TGTCCTGTGA AGAGATCAGC TGTCTGGAAC CGGCTTCTGG CTCAGATGTG 
TGTGCTCCAC CTGTACAAGG CCTTGAACCC CCGGTGCTGG AGTGTTTGGA AAAGGACCAC 
GTGGAGCCAG ACCATGTGCT GATAGTGCAA CAGGTGCTTC AGGAGCTGAG GCAGTACCAC 
GGGGCCCGTC AGCGAGCTCG CATGTCCATC AGCCCTGGAG GACCCCACTC CAACCTCACC 
TGGTTCGAGT TCCTGTCAGA GAGCGAGGAT GGTGTGTGCA AGAATGAGAA GACGGACAAG 
AGCACCAGAG TGAAGCGCAG CCTGAGCTCC CTCCGCAGCA GGGTCACGAG GCAGAAGGAG 
AAGGGGAAGA ACCCAGCACA TCTAAAAGAT AAGATTCAGG ATGTTCCAGG AAAGCGGGAG 
TGTGTCAACG GGCACCAGCT GGTGCGAGGA ACCTTCTCGG GCCACTCCAG CTGTCCTCTG 
TGTGGCAAAC CTTTGCTGAG CTCAGCCTCC CTGAAGGAGC ACCCCCGGAC CGCACTTCTG 
TCTGATGGCA GCAGCCCGGC TCCCTCCCGG AATGTCGGCA TGACCGTCTC TCAGAAAGGG 
GGTCTCCAGC CAACACCGAG CCCAGCTGGA TCTGGGGTGC GACTTGGACC GATCGCTGGA 
GACATGGATG AAGCTGACTC CGTGTTTTTA AAGCTGAAAC AGACGGCTGA TGACTCTCTG 
TCACTCACAT CCTCGAATGC TGAGTCTGTT TTCATAGAAG ATCCTTACAC TGCCTCGCTG 
AGGTGTGAGA TCGAATCAGA TGCCCATGAG TTTGAGGCCG AGTCCTGGAG CCTCTCGGTG 
GATGTAGCAT ATGCCAAGAA ACAAAAGAAG GAGGTGGTCA AGAGACAGGA CGTCCTGTAT 
GAGCTGATGC AGACAGAGGC GCATCACGTG CGCACGCTGA AGATCATGCT GAAAGTATAC 
TCCAGAGCCC TGCAGGAGGA GCTGCAGTTC AGCGTCCAGG CAGTCAGCCG CCTGTTCCCA 
TGCGCCGACG ACTTACTGGA CATGCACAGC CACTTCCTCG CCCGCCTTAA GGAGCGCCGG 
CAGGAGTTCC TAGAGGAGGA CAGTGATCGG AATTATGTCA TCCAGAAGAT CGGAGATGTC 
CTGGTCCAGC AGTTCTCAGG AGAAACCGGG GAGAGAATGA AGGAGAAATA CGGTGTGTTC 
TGTAGCGGCC ACAAGGATGC GGTCGGGCAC TACAAGTTAC TGCTGCAGCA GAGCAAGAAG 
TTTCAAAACT TAATCAAGAA AATTGGCAAC TTTTCCATCG TGCGAAGGCT GGGAGTGCAG 
GAGTGTATCC TTCTGGTCAC ACAGCGTATA ACCAAGTACC CGGTGCTAGT GGAACGCATC 
ATCCAGAACA CGGAAGCTGG CACTGAGGAC TACAAGGACC TGAGCCAGGC CCTGAACCTC 
ATCAAAGACA TCATCTCACA AGTGGATGCC AAAGTCAGTG AGTGTGAGAA GGACCAGCGC 
CTCAAGGAGA TCGTAGCCAA GATGGACTCG AAGTCATCCG GCAAACTCAA GAACGGGCGA 
ACCTTCCGAA AGGAGGATAT GCTGCAGCGC CAGCTCCACC TGGACAGCAC CCTGTGCTGG 
AAGTCCACGT CGGGGCGCTT GAAAGATGTC CTCGCTGTCC TGTTGACCGA TGTGCTTTTG 
CTGCTGCAAG AAAAGGATCA AAAATACGTC TTTGCTTCTG TGGACTCAAA GCCACCCGTC 
ATCTCTCTGC AAAAGCTCAT TGTGAGAGAG GTAGCCAACG AGGAGAAGGC CATGTTTCTG 
ATCAGCGCCT CCATGCAGGG ACCAGAGATG TACGAGATCT ACACCAGTTC CAAAGAGGAC 
AGGAACATCT GGATGGCCCA CATCCGACGG GCCGTGGAGA GCTGTCCTGA CGAGGAGGAG 
GGCATTTTCC TCGAGGCTGA GGAGAGAAGG ATGGCTGAAG CCCGCACCAT GAAACTCCGG 
GACTTTCAAG AGCGACTGAG CCTGAAAGAC CAGCTGATCG CCCAGAGCCT TCTGGAGAAA 
CAGCAGATCT ACCTGGAGAT GGCTCAGCTG AGCGGGCTGG ATGAGTCGGC CCAGTGCCGA 
GGCCTCTTCC GAGGAGGAGG GGACCCCTCT GAGACCCTAC GAGGGGAGCA GATTCTCAGA 
TCAGCCATGA GTGAGATTGA GGGCATCCAG AGCCTGATCT GCCGGCACGT GGGCAGCACC 
AGTAGCCAAG TGGAAGAGGG AGGTGTCTCT GCAGGCCTGC CTCGGAGGGC TGAGACCTTC 
GGGGGCTATG ACAGCGTGGG CAGCCCCAAC AAGGGTGGCA GCTTTAAAAG GAAGGTGTAC 
AACAGTGACC CCAGGCCCCA AGACTGGCAA GGGCCTGCTA GCAGCCCGGA CTCCATGCCC 
TGTGACACCA CCACCCCCAG TGGCTGCTGC GAGGAATCAC CACAGGCTGT GGAGATGCCT 
AGCGCAGAGA GTAGCCCATG TCTGCCCACT GTCCTGGAAT CAGAGCTGGT CCACCGGGTC 
CAGACCCTGT CGCAGCTGCT TCTTAGTCTC CAGGCAGTCA TCGCTCAACA GGATAGCTAC 
GTGGAGATGC AGCGAATGGC CATCCAGGAG CGTGAGAAGC AGTTCCGGCT GCAATCAACG 
CGTGGGAACC TGCTTCTAGA GCAAGAGCGG CAACGCAACT TTGAGAAGCA GCGTGAGGAG 
CGCGCGGGTG TGGAGAAGCT GCAAAACCAG CTGCGCCAGG AGCAGCAGCG ATGGGAGCGG 
GAGCGGGCAC GCCAGCAGCA GGAACTGGAG CTGGCAGGCG CGCGACTGCA GGAGAGAGAG 
GGCGAGGCGC GCCAGCTGCG CCAGCGGCTG GACCAGGAGC GCACAGAGCT GGAGAGACAG 
CGCCAGGCCT ACCAGCATGA TCTGGAGCGT CTGCGCGAGG CCCAGAGAGC AGTGGACCGT 
GAACGTGAGC GCCTGGAACT ACTGCGCAGG TTCAAGAAAC AGAACACTGT ACCGGGGGCA 
CTGCCCCCGG AAGTGCTGGC AGAGGCCCAG CCTGCAAGCC ACCCTCTCAA CTTCAATGGG 
GATGGGCTGG AGGGCCACTT GGCCCCAGCC AAAGCACCAG GAACACAGGG GAGCATGCTA 
CACGGCACAG GACCTGAGTA CGGAGAGCGA GCTGAGGTGG CCCGCTGGGA CAGTGCCCCT 
GCTGAGAGCC GGCCAGCCAA GAGTGATGTG CCCATCCAGC TGCTCAGTGC CACCAATCAG 
ATTCAGAGGC AGACAGCCGT GCAGCAGCAG ATCCCCACCA AGTTGGCCGC CTCCACCAAG 
GGGGGCAAGG ATAAGAACAG CAAGAGCAGG GGTTCCCAGC GCTGGGAGAG CTCAGCATCC 
TTCGACCTGA AGCAGCAGCC ACTCTTCAAC AAGCTCATGG GCAAGGACGA GAACGCGTCC 
CGAAACCGCC GCTCACTGAG CCCCGTCCTA CCTGCAGCCC ATGGATCTGC ACCTGCCCCA 
GACCCCTGCT TCCCAGCCCC AAGCCCGGTC CCGGCCGCCA CAGCCCCCGA GGCCTTCAAG 
TCAGGAGGCA CGTCACTGCC ACCTGCCTCC CCAGCTCCCT CGCTGCCAAC CACACCGCCC 
ACCATCACAG ATGAAGTTGG CAAGGAAGAC GTCATCTTCT TCTGA

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

RefSeq	XP_017453798.1
CDS	658..4602
Translation	MDPETPRRESFHTSCEGASALPQRHSWERPRSCSERGRRLSLDASEVDEGACLPRTLASLALNLSGDGQKTWIQGCLPVSGTPAPSSKEGNSPEKRLRSKSVPVSCEEISCLEPASGSDVCAPPVQGLEPPVLECLEKDHVEPDHVLIVQQVLQELRQYHGARQRARMSISPGGPHSNLTWFEFLSESEDGVCKNEKTDKSTRVKRSLSSLRSRVTRQKEKGKNPAHLKDKIQDVPGKRECVNGHQLVRGTFSGHSSCPLCGKPLLSSASLKEHPRTALLSDGSSPAPSRNVGMTVSQKGGLQPTPSPAGSGVRLGPIAGDMDEADSVFLKLKQTADDSLSLTSSNAESVFIEDPYTASLRCEIESDAHEFEAESWSLSVDVAYAKKQKKEVVKRQDVLYELMQTEAHHVRTLKIMLKVYSRALQEELQFSVQAVSRLFPCADDLLDMHSHFLARLKERRQEFLEEDSDRNYVIQKIGDVLVQQFSGETGERMKEKYGVFCSGHKDAVGHYKLLLQQSKKFQNLIKKIGNFSIVRRLGVQECILLVTQRITKYPVLVERIIQNTEAGTEDYKDLSQALNLIKDIISQVDAKVSECEKDQRLKEIVAKMDSKSSGKLKNGRTFRKEDMLQRQLHLDSTLCWKSTSGRLKDVLAVLLTDVLLLLQEKDQKYVFASVDSKPPVISLQKLIVREVANEEKAMFLISASMQGPEMYEIYTSSKEDRNIWMAHIRRAVESCPDEEEGIFLEAEERRMAEARTMKLRDFQERLSLKDQLIAQSLLEKQQIYLEMAQLSGLDESAQCRGLFRGGGDPSETLRGEQILRSAMSEIEGIQSLICRHVGSTSSQVEEGGVSAGLPRRAETFGGYDSVGSPNKGGSFKRKVYNSDPRPQDWQGPASSPDSMPCDTTTPSGCCEESPQAVEMPSAESSPCLPTVLESELVHRVQTLSQLLLSLQAVIAQQDSYVEMQRMAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERAGVEKLQNQLRQEQQRWERERARQQQELELAGARLQEREGEARQLRQRLDQERTELERQRQAYQHDLERLREAQRAVDRERERLELLRRFKKQNTVPGALPPEVLAEAQPASHPLNFNGDGLEGHLAPAKAPGTQGSMLHGTGPEYGERAEVARWDSAPAESRPAKSDVPIQLLSATNQIQRQTAVQQQIPTKLAASTKGGKDKNSKSRGSQRWESSASFDLKQQPLFNKLMGKDENASRNRRSLSPVLPAAHGSAPAPDPCFPAPSPVPAATAPEAFKSGGTSLPPASPAPSLPTTPPTITDEVGKEDVIFF

Target ORF information:

RefSeq Version	XM_017598309.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X1, mRNA.

Target ORF information:

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

XM_017598309.1

ORF Insert Sequence:

ATGGATCCTG AGACCCCCAG AAGAGAGTCC TTCCACACAA GCTGTGAGGG AGCTTCAGCC 
CTGCCTCAAA GACACAGCTG GGAGAGACCC CGGAGCTGCT CAGAGAGGGG TCGAAGGCTC 
AGCCTTGATG CCTCTGAGGT GGATGAGGGG GCCTGTCTCC CCCGGACTCT GGCTAGCCTC 
GCTCTGAATC TGTCTGGAGA TGGGCAGAAG ACTTGGATCC AAGGATGCTT ACCTGTCAGT 
GGGACACCAG CACCCTCAAG CAAGGAAGGC AACAGCCCTG AGAAAAGGCT AAGATCCAAG 
TCAGTACCTG TGTCCTGTGA AGAGATCAGC TGTCTGGAAC CGGCTTCTGG CTCAGATGTG 
TGTGCTCCAC CTGTACAAGG CCTTGAACCC CCGGTGCTGG AGTGTTTGGA AAAGGACCAC 
GTGGAGCCAG ACCATGTGCT GATAGTGCAA CAGGTGCTTC AGGAGCTGAG GCAGTACCAC 
GGGGCCCGTC AGCGAGCTCG CATGTCCATC AGCCCTGGAG GACCCCACTC CAACCTCACC 
TGGTTCGAGT TCCTGTCAGA GAGCGAGGAT GGTGTGTGCA AGAATGAGAA GACGGACAAG 
AGCACCAGAG TGAAGCGCAG CCTGAGCTCC CTCCGCAGCA GGGTCACGAG GCAGAAGGAG 
AAGGGGAAGA ACCCAGCACA TCTAAAAGAT AAGATTCAGG ATGTTCCAGG AAAGCGGGAG 
TGTGTCAACG GGCACCAGCT GGTGCGAGGA ACCTTCTCGG GCCACTCCAG CTGTCCTCTG 
TGTGGCAAAC CTTTGCTGAG CTCAGCCTCC CTGAAGGAGC ACCCCCGGAC CGCACTTCTG 
TCTGATGGCA GCAGCCCGGC TCCCTCCCGG AATGTCGGCA TGACCGTCTC TCAGAAAGGG 
GGTCTCCAGC CAACACCGAG CCCAGCTGGA TCTGGGGTGC GACTTGGACC GATCGCTGGA 
GACATGGATG AAGCTGACTC CGTGTTTTTA AAGCTGAAAC AGACGGCTGA TGACTCTCTG 
TCACTCACAT CCTCGAATGC TGAGTCTGTT TTCATAGAAG ATCCTTACAC TGCCTCGCTG 
AGGTGTGAGA TCGAATCAGA TGCCCATGAG TTTGAGGCCG AGTCCTGGAG CCTCTCGGTG 
GATGTAGCAT ATGCCAAGAA ACAAAAGAAG GAGGTGGTCA AGAGACAGGA CGTCCTGTAT 
GAGCTGATGC AGACAGAGGC GCATCACGTG CGCACGCTGA AGATCATGCT GAAAGTATAC 
TCCAGAGCCC TGCAGGAGGA GCTGCAGTTC AGCGTCCAGG CAGTCAGCCG CCTGTTCCCA 
TGCGCCGACG ACTTACTGGA CATGCACAGC CACTTCCTCG CCCGCCTTAA GGAGCGCCGG 
CAGGAGTTCC TAGAGGAGGA CAGTGATCGG AATTATGTCA TCCAGAAGAT CGGAGATGTC 
CTGGTCCAGC AGTTCTCAGG AGAAACCGGG GAGAGAATGA AGGAGAAATA CGGTGTGTTC 
TGTAGCGGCC ACAAGGATGC GGTCGGGCAC TACAAGTTAC TGCTGCAGCA GAGCAAGAAG 
TTTCAAAACT TAATCAAGAA AATTGGCAAC TTTTCCATCG TGCGAAGGCT GGGAGTGCAG 
GAGTGTATCC TTCTGGTCAC ACAGCGTATA ACCAAGTACC CGGTGCTAGT GGAACGCATC 
ATCCAGAACA CGGAAGCTGG CACTGAGGAC TACAAGGACC TGAGCCAGGC CCTGAACCTC 
ATCAAAGACA TCATCTCACA AGTGGATGCC AAAGTCAGTG AGTGTGAGAA GGACCAGCGC 
CTCAAGGAGA TCGTAGCCAA GATGGACTCG AAGTCATCCG GCAAACTCAA GAACGGGCGA 
ACCTTCCGAA AGGAGGATAT GCTGCAGCGC CAGCTCCACC TGGACAGCAC CCTGTGCTGG 
AAGTCCACGT CGGGGCGCTT GAAAGATGTC CTCGCTGTCC TGTTGACCGA TGTGCTTTTG 
CTGCTGCAAG AAAAGGATCA AAAATACGTC TTTGCTTCTG TGGACTCAAA GCCACCCGTC 
ATCTCTCTGC AAAAGCTCAT TGTGAGAGAG GTAGCCAACG AGGAGAAGGC CATGTTTCTG 
ATCAGCGCCT CCATGCAGGG ACCAGAGATG TACGAGATCT ACACCAGTTC CAAAGAGGAC 
AGGAACATCT GGATGGCCCA CATCCGACGG GCCGTGGAGA GCTGTCCTGA CGAGGAGGAG 
GGCATTTTCC TCGAGGCTGA GGAGAGAAGG ATGGCTGAAG CCCGCACCAT GAAACTCCGG 
GACTTTCAAG AGCGACTGAG CCTGAAAGAC CAGCTGATCG CCCAGAGCCT TCTGGAGAAA 
CAGCAGATCT ACCTGGAGAT GGCTCAGCTG AGCGGGCTGG ATGAGTCGGC CCAGTGCCGA 
GGCCTCTTCC GAGGAGGAGG GGACCCCTCT GAGACCCTAC GAGGGGAGCA GATTCTCAGA 
TCAGCCATGA GTGAGATTGA GGGCATCCAG AGCCTGATCT GCCGGCACGT GGGCAGCACC 
AGTAGCCAAG TGGAAGAGGG AGGTGTCTCT GCAGGCCTGC CTCGGAGGGC TGAGACCTTC 
GGGGGCTATG ACAGCGTGGG CAGCCCCAAC AAGGGTGGCA GCTTTAAAAG GAAGGTGTAC 
AACAGTGACC CCAGGCCCCA AGACTGGCAA GGGCCTGCTA GCAGCCCGGA CTCCATGCCC 
TGTGACACCA CCACCCCCAG TGGCTGCTGC GAGGAATCAC CACAGGCTGT GGAGATGCCT 
AGCGCAGAGA GTAGCCCATG TCTGCCCACT GTCCTGGAAT CAGAGCTGGT CCACCGGGTC 
CAGACCCTGT CGCAGCTGCT TCTTAGTCTC CAGGCAGTCA TCGCTCAACA GGATAGCTAC 
GTGGAGATGC AGCGAATGGC CATCCAGGAG CGTGAGAAGC AGTTCCGGCT GCAATCAACG 
CGTGGGAACC TGCTTCTAGA GCAAGAGCGG CAACGCAACT TTGAGAAGCA GCGTGAGGAG 
CGCGCGGGTG TGGAGAAGCT GCAAAACCAG CTGCGCCAGG AGCAGCAGCG ATGGGAGCGG 
GAGCGGGCAC GCCAGCAGCA GGAACTGGAG CTGGCAGGCG CGCGACTGCA GGAGAGAGAG 
GGCGAGGCGC GCCAGCTGCG CCAGCGGCTG GACCAGGAGC GCACAGAGCT GGAGAGACAG 
CGCCAGGCCT ACCAGCATGA TCTGGAGCGT CTGCGCGAGG CCCAGAGAGC AGTGGACCGT 
GAACGTGAGC GCCTGGAACT ACTGCGCAGG TTCAAGAAAC AGAACACTGT ACCGGGGGCA 
CTGCCCCCGG AAGTGCTGGC AGAGGCCCAG CCTGCAAGCC ACCCTCTCAA CTTCAATGGG 
GATGGGCTGG AGGGCCACTT GGCCCCAGCC AAAGCACCAG GAACACAGGG GAGCATGCTA 
CACGGCACAG GACCTGAGTA CGGAGAGCGA GCTGAGGTGG CCCGCTGGGA CAGTGCCCCT 
GCTGAGAGCC GGCCAGCCAA GAGTGATGTG CCCATCCAGC TGCTCAGTGC CACCAATCAG 
ATTCAGAGGC AGACAGCCGT GCAGCAGCAG ATCCCCACCA AGTTGGCCGC CTCCACCAAG 
GGGGGCAAGG ATAAGAACAG CAAGAGCAGG GGTTCCCAGC GCTGGGAGAG CTCAGCATCC 
TTCGACCTGA AGCAGCAGCC ACTCTTCAAC AAGCTCATGG GCAAGGACGA GAACGCGTCC 
CGAAACCGCC GCTCACTGAG CCCCGTCCTA CCTGCAGCCC ATGGATCTGC ACCTGCCCCA 
GACCCCTGCT TCCCAGCCCC AAGCCCGGTC CCGGCCGCCA CAGCCCCCGA GGCCTTCAAG 
TCAGGAGGCA CGTCACTGCC ACCTGCCTCC CCAGCTCCCT CGCTGCCAAC CACACCGCCC 
ACCATCACAG ATGAAGTTGG CAAGGAAGAC GTCATCTTCT TCTGA

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

Arhgef18 ( XM_017598310.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017453799.1 Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X4, mRNA.

Price & Availability↑

CloneID	ORa57804
Clone ID Related Accession (Same CDS sequence)	XM_017598310.1
Accession Version	XM_017598310.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4407bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	rho guanine nucleotide exchange factor 18 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATGAGG TACCCATGGC TGACTCGGTG CTCAACCACT CCTGGCCGGC TCTCTCCAAG 
CTGTGGCTGA AGAGATGGGC ATTTAAGCGA GGCTCTGAGC CCAAGCCGTA TGCCCAGCCC 
TTGGACTCTG GAACGGCAGC TTCAACCACC AGGGGTGGCC ATGGACCCAG GAAACCTGAG 
AATCCAGATT TCTTCTCAAC CATGGAGGAT GAGCAGGAAG ATGGTTTTCT GAGGCACCTC 
AGCGAGAGCG CAGAAGACCT CAGCCTGGAC CTGGGAGCCC TTCAGGGCAG CGAGTACCTC 
CGGGATCTGG GCTTGGGGGC CCCTTCTGAC CTCCATCAGT CTGAAGTGGT TATGGATCCT 
GAGACCCCCA GAAGAGAGTC CTTCCACACA AGCTGTGAGG GAGCTTCAGC CCTGCCTCAA 
AGACACAGCT GGGAGAGACC CCGGAGCTGC TCAGAGAGGG GTCGAAGGCT CAGCCTTGAT 
GCCTCTGAGG TGGATGAGGG GGCCTGTCTC CCCCGGACTC TGGCTAGCCT CGCTCTGAAT 
CTGTCTGGAG ATGGGCAGAA GACTTGGATC CAAGGATGCT TACCTGTCAG TGGGACACCA 
GCACCCTCAA GCAAGGAAGG CAACAGCCCT GAGAAAAGGC TAAGATCCAA GTCAGTACCT 
GTGTCCTGTG AAGAGATCAG CTGTCTGGAA CCGGCTTCTG GCTCAGATGT GTGTGCTCCA 
CCTGTACAAG GCCTTGAACC CCCGGTGCTG GAGTGTTTGG AAAAGGACCA CGTGGAGCCA 
GACCATGTGC TGATAGTGCA ACAGGTGCTT CAGGAGCTGA GGCAGTACCA CGGGGCCCGT 
CAGCGAGCTC GCATGTCCAT CAGCCCTGGA GGACCCCACT CCAACCTCAC CTGGTTCGAG 
TTCCTGTCAG AGAGCGAGGA TGGTGTGTGC AAGAATGAGA AGACGGACAA GAGCACCAGA 
GTGAAGCGCA GCCTGAGCTC CCTCCGCAGC AGGGTCACGA GGCAGAAGGA GAAGGGGAAG 
AACCCAGCAC ATCTAAAAGA TAAGATTCAG GATGTTCCAG GAAAGCGGGA GTGTGTCAAC 
GGGCACCAGC TGGTGCGAGG AACCTTCTCG GGCCACTCCA GCTGTCCTCT GTGTGGCAAA 
CCTTTGCTGA GCTCAGCTTG GTCTCGCACG GCACACCGCT TCCGGCTCCT TGGAGGCCGG 
GCGGAGGCTG CGAGAGCGAC CCGGGAGCCA GCAGGGCGGA GAGCGGCCTG TGAGGGACCC 
CGCGGAGCCT CCCTGAAGGA GCACCCCCGG ACCGCACTTC TGTCTGATGG CAGCAGCCCG 
GCTCCCTCCC GGAATGTCGG CATGACCGTC TCTCAGAAAG GGGGTCTCCA GCCAACACCG 
AGCCCAGCTG GATCTGGGGT GCGACTTGGA CCGATCGCTG GAGACATGGA TGAAGCTGAC 
TCCGTGTTTT TAAAGCTGAA ACAGACGGCT GATGACTCTC TGTCACTCAC ATCCTCGAAT 
GCTGAGTCTG TTTTCATAGA AGATCCTTAC ACTGCCTCGC TGAGGTGTGA GATCGAATCA 
GATGCCCATG AGTTTGAGGC CGAGTCCTGG AGCCTCTCGG TGGATGTAGC ATATGCCAAG 
AAACAAAAGA AGGAGGTGGT CAAGAGACAG GACGTCCTGT ATGAGCTGAT GCAGACAGAG 
GCGCATCACG TGCGCACGCT GAAGATCATG CTGAAAGTAT ACTCCAGAGC CCTGCAGGAG 
GAGCTGCAGT TCAGCGTCCA GGCAGTCAGC CGCCTGTTCC CATGCGCCGA CGACTTACTG 
GACATGCACA GCCACTTCCT CGCCCGCCTT AAGGAGCGCC GGCAGGAGTT CCTAGAGGAG 
GACAGTGATC GGAATTATGT CATCCAGAAG ATCGGAGATG TCCTGGTCCA GCAGTTCTCA 
GGAGAAACCG GGGAGAGAAT GAAGGAGAAA TACGGTGTGT TCTGTAGCGG CCACAAGGAT 
GCGGTCGGGC ACTACAAGTT ACTGCTGCAG CAGAGCAAGA AGTTTCAAAA CTTAATCAAG 
AAAATTGGCA ACTTTTCCAT CGTGCGAAGG CTGGGAGTGC AGGAGTGTAT CCTTCTGGTC 
ACACAGCGTA TAACCAAGTA CCCGGTGCTA GTGGAACGCA TCATCCAGAA CACGGAAGCT 
GGCACTGAGG ACTACAAGGA CCTGAGCCAG GCCCTGAACC TCATCAAAGA CATCATCTCA 
CAAGTGGATG CCAAAGTCAG TGAGTGTGAG AAGGACCAGC GCCTCAAGGA GATCGTAGCC 
AAGATGGACT CGAAGTCATC CGGCAAACTC AAGAACGGGC GAACCTTCCG AAAGGAGGAT 
ATGCTGCAGC GCCAGCTCCA CCTGGACAGC ACCCTGTGCT GGAAGTCCAC GTCGGGGCGC 
TTGAAAGATG TCCTCGCTGT CCTGTTGACC GATGTGCTTT TGCTGCTGCA AGAAAAGGAT 
CAAAAATACG TCTTTGCTTC TGTGGACTCA AAGCCACCCG TCATCTCTCT GCAAAAGCTC 
ATTGTGAGAG AGGTAGCCAA CGAGGAGAAG GCCATGTTTC TGATCAGCGC CTCCATGCAG 
GGACCAGAGA TGTACGAGAT CTACACCAGT TCCAAAGAGG ACAGGAACAT CTGGATGGCC 
CACATCCGAC GGGCCGTGGA GAGCTGTCCT GACGAGGAGG AGGGCATTTT CCTCGAGGCT 
GAGGAGAGAA GGATGGCTGA AGCCCGCACC ATGAAACTCC GGGACTTTCA AGAGCGACTG 
AGCCTGAAAG ACCAGCTGAT CGCCCAGAGC CTTCTGGAGA AACAGCAGAT CTACCTGGAG 
ATGGCTCAGC TGAGCGGGCT GGATGAGTCG GCCCAGTGCC GAGGCCTCTT CCGAGGAGGA 
GGGGACCCCT CTGAGACCCT ACGAGGGGAG CAGATTCTCA GATCAGCCAT GAGTGAGATT 
GAGGGCATCC AGAGCCTGAT CTGCCGGCAC GTGGGCAGCA CCAGTAGCCA AGTGGAAGAG 
GGAGGTGTCT CTGCAGGCCT GCCTCGGAGG GCTGAGACCT TCGGGGGCTA TGACAGCGTG 
GGCAGCCCCA ACAAGGGTGG CAGCTTTAAA AGGAAGGTGT ACAACAGTGA CCCCAGGCCC 
CAAGACTGGC AAGGGCCTGC TAGCAGCCCG GACTCCATGC CCTGTGACAC CACCACCCCC 
AGTGGCTGCT GCGAGGAATC ACCACAGGCT GTGGAGATGC CTAGCGCAGA GAGTAGCCCA 
TGTCTGCCCA CTGTCCTGGA ATCAGAGCTG GTCCACCGGG TCCAGACCCT GTCGCAGCTG 
CTTCTTAGTC TCCAGGCAGT CATCGCTCAA CAGGATAGCT ACGTGGAGAT GCAGCGAATG 
GCCATCCAGG AGCGTGAGAA GCAGTTCCGG CTGCAATCAA CGCGTGGGAA CCTGCTTCTA 
GAGCAAGAGC GGCAACGCAA CTTTGAGAAG CAGCGTGAGG AGCGCGCGGG TGTGGAGAAG 
CTGCAAAACC AGCTGCGCCA GGAGCAGCAG CGATGGGAGC GGGAGCGGGC ACGCCAGCAG 
CAGGAACTGG AGCTGGCAGG CGCGCGACTG CAGGAGAGAG AGGGCGAGGC GCGCCAGCTG 
CGCCAGCGGC TGGACCAGGA GCGCACAGAG CTGGAGAGAC AGCGCCAGGC CTACCAGCAT 
GATCTGGAGC GTCTGCGCGA GGCCCAGAGA GCAGTGGACC GTGAACGTGA GCGCCTGGAA 
CTACTGCGCA GGTTCAAGAA ACAGAACACT GTACCGGGGG CACTGCCCCC GGAAGTGCTG 
GCAGAGGCCC AGCCTGCAAG CCACCCTCTC AACTTCAATG GGGATGGGCT GGAGGGCCAC 
TTGGCCCCAG CCAAAGCACC AGGAACACAG GGGAGCATGC TACACGGCAC AGGACCTGAG 
TACGGAGAGC GAGCTGAGGT GGCCCGCTGG GACAGTGCCC CTGCTGAGAG CCGGCCAGCC 
AAGAGTGATG TGCCCATCCA GCTGCTCAGT GCCACCAATC AGATTCAGAG GCAGACAGCC 
GTGCAGCAGC AGATCCCCAC CAAGTTGGCC GCCTCCACCA AGGGGGGCAA GGATAAGAAC 
AGCAAGAGCA GGGGTTCCCA GCGCTGGGAG AGCTCAGCAT CCTTCGACCT GAAGCAGCAG 
CCACTCTTCA ACAAGCTCAT GGGCAAGGAC GAGAACGCGT CCCGAAACCG CCGCTCACTG 
AGCCCCGTCC TACCTGCAGC CCATGGATCT GCACCTGCCC CAGACCCCTG CTTCCCAGCC 
CCAAGCCCGG TCCCGGCCGC CACAGCCCCC GAGGCCTTCA AGTCAGGAGG CACGTCACTG 
CCACCTGCCT CCCCAGCTCC CTCGCTGCCA ACCACACCGC CCACCATCAC AGATGAAGTT 
GGCAAGGAAG ACGTCATCTT CTTCTGA

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

RefSeq	XP_017453799.1
CDS	441..4847
Translation	MHEVPMADSVLNHSWPALSKLWLKRWAFKRGSEPKPYAQPLDSGTAASTTRGGHGPRKPENPDFFSTMEDEQEDGFLRHLSESAEDLSLDLGALQGSEYLRDLGLGAPSDLHQSEVVMDPETPRRESFHTSCEGASALPQRHSWERPRSCSERGRRLSLDASEVDEGACLPRTLASLALNLSGDGQKTWIQGCLPVSGTPAPSSKEGNSPEKRLRSKSVPVSCEEISCLEPASGSDVCAPPVQGLEPPVLECLEKDHVEPDHVLIVQQVLQELRQYHGARQRARMSISPGGPHSNLTWFEFLSESEDGVCKNEKTDKSTRVKRSLSSLRSRVTRQKEKGKNPAHLKDKIQDVPGKRECVNGHQLVRGTFSGHSSCPLCGKPLLSSAWSRTAHRFRLLGGRAEAARATREPAGRRAACEGPRGASLKEHPRTALLSDGSSPAPSRNVGMTVSQKGGLQPTPSPAGSGVRLGPIAGDMDEADSVFLKLKQTADDSLSLTSSNAESVFIEDPYTASLRCEIESDAHEFEAESWSLSVDVAYAKKQKKEVVKRQDVLYELMQTEAHHVRTLKIMLKVYSRALQEELQFSVQAVSRLFPCADDLLDMHSHFLARLKERRQEFLEEDSDRNYVIQKIGDVLVQQFSGETGERMKEKYGVFCSGHKDAVGHYKLLLQQSKKFQNLIKKIGNFSIVRRLGVQECILLVTQRITKYPVLVERIIQNTEAGTEDYKDLSQALNLIKDIISQVDAKVSECEKDQRLKEIVAKMDSKSSGKLKNGRTFRKEDMLQRQLHLDSTLCWKSTSGRLKDVLAVLLTDVLLLLQEKDQKYVFASVDSKPPVISLQKLIVREVANEEKAMFLISASMQGPEMYEIYTSSKEDRNIWMAHIRRAVESCPDEEEGIFLEAEERRMAEARTMKLRDFQERLSLKDQLIAQSLLEKQQIYLEMAQLSGLDESAQCRGLFRGGGDPSETLRGEQILRSAMSEIEGIQSLICRHVGSTSSQVEEGGVSAGLPRRAETFGGYDSVGSPNKGGSFKRKVYNSDPRPQDWQGPASSPDSMPCDTTTPSGCCEESPQAVEMPSAESSPCLPTVLESELVHRVQTLSQLLLSLQAVIAQQDSYVEMQRMAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERAGVEKLQNQLRQEQQRWERERARQQQELELAGARLQEREGEARQLRQRLDQERTELERQRQAYQHDLERLREAQRAVDRERERLELLRRFKKQNTVPGALPPEVLAEAQPASHPLNFNGDGLEGHLAPAKAPGTQGSMLHGTGPEYGERAEVARWDSAPAESRPAKSDVPIQLLSATNQIQRQTAVQQQIPTKLAASTKGGKDKNSKSRGSQRWESSASFDLKQQPLFNKLMGKDENASRNRRSLSPVLPAAHGSAPAPDPCFPAPSPVPAATAPEAFKSGGTSLPPASPAPSLPTTPPTITDEVGKEDVIFF

Target ORF information:

RefSeq Version	XM_017598310.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X4, mRNA.

Target ORF information:

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

XM_017598310.1

ORF Insert Sequence:

ATGCATGAGG TACCCATGGC TGACTCGGTG CTCAACCACT CCTGGCCGGC TCTCTCCAAG 
CTGTGGCTGA AGAGATGGGC ATTTAAGCGA GGCTCTGAGC CCAAGCCGTA TGCCCAGCCC 
TTGGACTCTG GAACGGCAGC TTCAACCACC AGGGGTGGCC ATGGACCCAG GAAACCTGAG 
AATCCAGATT TCTTCTCAAC CATGGAGGAT GAGCAGGAAG ATGGTTTTCT GAGGCACCTC 
AGCGAGAGCG CAGAAGACCT CAGCCTGGAC CTGGGAGCCC TTCAGGGCAG CGAGTACCTC 
CGGGATCTGG GCTTGGGGGC CCCTTCTGAC CTCCATCAGT CTGAAGTGGT TATGGATCCT 
GAGACCCCCA GAAGAGAGTC CTTCCACACA AGCTGTGAGG GAGCTTCAGC CCTGCCTCAA 
AGACACAGCT GGGAGAGACC CCGGAGCTGC TCAGAGAGGG GTCGAAGGCT CAGCCTTGAT 
GCCTCTGAGG TGGATGAGGG GGCCTGTCTC CCCCGGACTC TGGCTAGCCT CGCTCTGAAT 
CTGTCTGGAG ATGGGCAGAA GACTTGGATC CAAGGATGCT TACCTGTCAG TGGGACACCA 
GCACCCTCAA GCAAGGAAGG CAACAGCCCT GAGAAAAGGC TAAGATCCAA GTCAGTACCT 
GTGTCCTGTG AAGAGATCAG CTGTCTGGAA CCGGCTTCTG GCTCAGATGT GTGTGCTCCA 
CCTGTACAAG GCCTTGAACC CCCGGTGCTG GAGTGTTTGG AAAAGGACCA CGTGGAGCCA 
GACCATGTGC TGATAGTGCA ACAGGTGCTT CAGGAGCTGA GGCAGTACCA CGGGGCCCGT 
CAGCGAGCTC GCATGTCCAT CAGCCCTGGA GGACCCCACT CCAACCTCAC CTGGTTCGAG 
TTCCTGTCAG AGAGCGAGGA TGGTGTGTGC AAGAATGAGA AGACGGACAA GAGCACCAGA 
GTGAAGCGCA GCCTGAGCTC CCTCCGCAGC AGGGTCACGA GGCAGAAGGA GAAGGGGAAG 
AACCCAGCAC ATCTAAAAGA TAAGATTCAG GATGTTCCAG GAAAGCGGGA GTGTGTCAAC 
GGGCACCAGC TGGTGCGAGG AACCTTCTCG GGCCACTCCA GCTGTCCTCT GTGTGGCAAA 
CCTTTGCTGA GCTCAGCTTG GTCTCGCACG GCACACCGCT TCCGGCTCCT TGGAGGCCGG 
GCGGAGGCTG CGAGAGCGAC CCGGGAGCCA GCAGGGCGGA GAGCGGCCTG TGAGGGACCC 
CGCGGAGCCT CCCTGAAGGA GCACCCCCGG ACCGCACTTC TGTCTGATGG CAGCAGCCCG 
GCTCCCTCCC GGAATGTCGG CATGACCGTC TCTCAGAAAG GGGGTCTCCA GCCAACACCG 
AGCCCAGCTG GATCTGGGGT GCGACTTGGA CCGATCGCTG GAGACATGGA TGAAGCTGAC 
TCCGTGTTTT TAAAGCTGAA ACAGACGGCT GATGACTCTC TGTCACTCAC ATCCTCGAAT 
GCTGAGTCTG TTTTCATAGA AGATCCTTAC ACTGCCTCGC TGAGGTGTGA GATCGAATCA 
GATGCCCATG AGTTTGAGGC CGAGTCCTGG AGCCTCTCGG TGGATGTAGC ATATGCCAAG 
AAACAAAAGA AGGAGGTGGT CAAGAGACAG GACGTCCTGT ATGAGCTGAT GCAGACAGAG 
GCGCATCACG TGCGCACGCT GAAGATCATG CTGAAAGTAT ACTCCAGAGC CCTGCAGGAG 
GAGCTGCAGT TCAGCGTCCA GGCAGTCAGC CGCCTGTTCC CATGCGCCGA CGACTTACTG 
GACATGCACA GCCACTTCCT CGCCCGCCTT AAGGAGCGCC GGCAGGAGTT CCTAGAGGAG 
GACAGTGATC GGAATTATGT CATCCAGAAG ATCGGAGATG TCCTGGTCCA GCAGTTCTCA 
GGAGAAACCG GGGAGAGAAT GAAGGAGAAA TACGGTGTGT TCTGTAGCGG CCACAAGGAT 
GCGGTCGGGC ACTACAAGTT ACTGCTGCAG CAGAGCAAGA AGTTTCAAAA CTTAATCAAG 
AAAATTGGCA ACTTTTCCAT CGTGCGAAGG CTGGGAGTGC AGGAGTGTAT CCTTCTGGTC 
ACACAGCGTA TAACCAAGTA CCCGGTGCTA GTGGAACGCA TCATCCAGAA CACGGAAGCT 
GGCACTGAGG ACTACAAGGA CCTGAGCCAG GCCCTGAACC TCATCAAAGA CATCATCTCA 
CAAGTGGATG CCAAAGTCAG TGAGTGTGAG AAGGACCAGC GCCTCAAGGA GATCGTAGCC 
AAGATGGACT CGAAGTCATC CGGCAAACTC AAGAACGGGC GAACCTTCCG AAAGGAGGAT 
ATGCTGCAGC GCCAGCTCCA CCTGGACAGC ACCCTGTGCT GGAAGTCCAC GTCGGGGCGC 
TTGAAAGATG TCCTCGCTGT CCTGTTGACC GATGTGCTTT TGCTGCTGCA AGAAAAGGAT 
CAAAAATACG TCTTTGCTTC TGTGGACTCA AAGCCACCCG TCATCTCTCT GCAAAAGCTC 
ATTGTGAGAG AGGTAGCCAA CGAGGAGAAG GCCATGTTTC TGATCAGCGC CTCCATGCAG 
GGACCAGAGA TGTACGAGAT CTACACCAGT TCCAAAGAGG ACAGGAACAT CTGGATGGCC 
CACATCCGAC GGGCCGTGGA GAGCTGTCCT GACGAGGAGG AGGGCATTTT CCTCGAGGCT 
GAGGAGAGAA GGATGGCTGA AGCCCGCACC ATGAAACTCC GGGACTTTCA AGAGCGACTG 
AGCCTGAAAG ACCAGCTGAT CGCCCAGAGC CTTCTGGAGA AACAGCAGAT CTACCTGGAG 
ATGGCTCAGC TGAGCGGGCT GGATGAGTCG GCCCAGTGCC GAGGCCTCTT CCGAGGAGGA 
GGGGACCCCT CTGAGACCCT ACGAGGGGAG CAGATTCTCA GATCAGCCAT GAGTGAGATT 
GAGGGCATCC AGAGCCTGAT CTGCCGGCAC GTGGGCAGCA CCAGTAGCCA AGTGGAAGAG 
GGAGGTGTCT CTGCAGGCCT GCCTCGGAGG GCTGAGACCT TCGGGGGCTA TGACAGCGTG 
GGCAGCCCCA ACAAGGGTGG CAGCTTTAAA AGGAAGGTGT ACAACAGTGA CCCCAGGCCC 
CAAGACTGGC AAGGGCCTGC TAGCAGCCCG GACTCCATGC CCTGTGACAC CACCACCCCC 
AGTGGCTGCT GCGAGGAATC ACCACAGGCT GTGGAGATGC CTAGCGCAGA GAGTAGCCCA 
TGTCTGCCCA CTGTCCTGGA ATCAGAGCTG GTCCACCGGG TCCAGACCCT GTCGCAGCTG 
CTTCTTAGTC TCCAGGCAGT CATCGCTCAA CAGGATAGCT ACGTGGAGAT GCAGCGAATG 
GCCATCCAGG AGCGTGAGAA GCAGTTCCGG CTGCAATCAA CGCGTGGGAA CCTGCTTCTA 
GAGCAAGAGC GGCAACGCAA CTTTGAGAAG CAGCGTGAGG AGCGCGCGGG TGTGGAGAAG 
CTGCAAAACC AGCTGCGCCA GGAGCAGCAG CGATGGGAGC GGGAGCGGGC ACGCCAGCAG 
CAGGAACTGG AGCTGGCAGG CGCGCGACTG CAGGAGAGAG AGGGCGAGGC GCGCCAGCTG 
CGCCAGCGGC TGGACCAGGA GCGCACAGAG CTGGAGAGAC AGCGCCAGGC CTACCAGCAT 
GATCTGGAGC GTCTGCGCGA GGCCCAGAGA GCAGTGGACC GTGAACGTGA GCGCCTGGAA 
CTACTGCGCA GGTTCAAGAA ACAGAACACT GTACCGGGGG CACTGCCCCC GGAAGTGCTG 
GCAGAGGCCC AGCCTGCAAG CCACCCTCTC AACTTCAATG GGGATGGGCT GGAGGGCCAC 
TTGGCCCCAG CCAAAGCACC AGGAACACAG GGGAGCATGC TACACGGCAC AGGACCTGAG 
TACGGAGAGC GAGCTGAGGT GGCCCGCTGG GACAGTGCCC CTGCTGAGAG CCGGCCAGCC 
AAGAGTGATG TGCCCATCCA GCTGCTCAGT GCCACCAATC AGATTCAGAG GCAGACAGCC 
GTGCAGCAGC AGATCCCCAC CAAGTTGGCC GCCTCCACCA AGGGGGGCAA GGATAAGAAC 
AGCAAGAGCA GGGGTTCCCA GCGCTGGGAG AGCTCAGCAT CCTTCGACCT GAAGCAGCAG 
CCACTCTTCA ACAAGCTCAT GGGCAAGGAC GAGAACGCGT CCCGAAACCG CCGCTCACTG 
AGCCCCGTCC TACCTGCAGC CCATGGATCT GCACCTGCCC CAGACCCCTG CTTCCCAGCC 
CCAAGCCCGG TCCCGGCCGC CACAGCCCCC GAGGCCTTCA AGTCAGGAGG CACGTCACTG 
CCACCTGCCT CCCCAGCTCC CTCGCTGCCA ACCACACCGC CCACCATCAC AGATGAAGTT 
GGCAAGGAAG ACGTCATCTT CTTCTGA

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

Arhgef18 ( NM_001107115.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001100585.1 Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), mRNA.

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CloneID	ORa02923
Clone ID Related Accession (Same CDS sequence)	NM_001107115.1
Accession Version	NM_001107115.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3555bp) 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	2017-10-01
Organism	Rattus norvegicus(Norway rat)
Product	rho guanine nucleotide exchange factor 18
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH474084.1. On or before Oct 4, 2007 this sequence version replaced XM_001063554.1, XM_221775.3. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2689594, SAMEA2689596 [ECO:0000350] ##Evidence-Data-END##

ATGTCCATCA GCCCTGGAGG ACCCCACTCC AACCTCACCT GGTTCGAGTT CCTGTCAGAG 
AGCGAGGATG GTGTGTGCAA GAATGAGAAG ACGGACAAGA GCACCAGAGT GAAGCGCAGC 
CTGAGCTCCC TCCGCAGCAG GGTCACGAGG CAGAAGGAGA AGGGGAAGAA CCCAGCACAT 
CTAAAAGATA AGATTCAGGA TGTTCCAGGA AAGCGGGAGT GTGTCAACGG GCACCAGCTG 
GTGCGAGGAA CCTTCTCGGG CCACTCCAGC TGTCCTCTGT GTGGCAAACC TTTGCTGAGC 
TCAGCTTGGT CTCGCACGGC ACACCGCTTC CGGCTCCTTG GAGGCCGGGC GGAGGCTGCG 
AGAGCGACCC GGGAGCCAGC AGGGCGGAGA GCGGCCTGTG AGGGACCCCG CGGAGCCTCC 
CTGAAGGAGC ACCCCCGGAC CGCACTTCTG TCTGATGGCA GCAGCCCGGC TCCCTCCCGG 
AATGTCGGCA TGACCGTCTC TCAGAAAGGG GGTCTCCAGC CAACACCGAG CCCAGCTGGA 
TCTGGGGTGC GACTTGGACC GATCGCTGGA GACATGGATG AAGCTGACTC CGTGTTTTTA 
AAGCTGAAAC AGACGGCTGA TGACTCTCTG TCACTCACAT CCTCGAATGC TGAGTCTGTT 
TTCATAGAAG ATCCTTACAC TGCCTCGCTG AGGTGTGAGA TCGAATCAGA TGCCCATGAG 
TTTGAGGCCG AGTCCTGGAG CCTCTCGGTG GATGTAGCAT ATGCCAAGAA ACAAAAGAAG 
GAGGTGGTCA AGAGACAGGA CGTCCTGTAT GAGCTGATGC AGACAGAGGC GCATCACGTG 
CGCACGCTGA AGATCATGCT GAAAGTATAC TCCAGAGCCC TGCAGGAGGA GCTGCAGTTC 
AGCGTCCAGG CAGTCAGCCG CCTGTTCCCA TGCGCCGACG ACTTACTGGA CATGCACAGC 
CACTTCCTCG CCCGCCTTAA GGAGCGCCGG CAGGAGTTCC TAGAGGAGGA CAGTGATCGG 
AATTATGTCA TCCAGAAGAT CGGAGATGTC CTGGTCCAGC AGTTCTCAGG AGAAACCGGG 
GAGAGAATGA AGGAGAAATA CGGTGTGTTC TGTAGCGGCC ACAAGGATGC GGTCGGGCAC 
TACAAGTTAC TGCTGCAGCA GAGCAAGAAG TTTCAAAACT TAATCAAGAA AATTGGCAAC 
TTTTCCATCG TGCGAAGGCT GGGAGTGCAG GAGTGTATCC TTCTGGTCAC ACAGCGTATA 
ACCAAGTACC CGGTGCTAGT GGAACGCATC ATCCAGAACA CGGAAGCTGG CACTGAGGAC 
TACAAGGACC TGAGCCAGGC CCTGAACCTC ATCAAAGACA TCATCTCACA AGTGGATGCC 
AAAGTCAGTG AGTGTGAGAA GGACCAGCGC CTCAAGGAGA TCGTAGCCAA GATGGACTCG 
AAGTCATCCG GCAAACTCAA GAACGGGCGA ACCTTCCGAA AGGAGGATAT GCTGCAGCGC 
CAGCTCCACC TGGACAGCAC CCTGTGCTGG AAGTCCACGT CGGGGCGCTT GAAAGATGTC 
CTCGCTGTCC TGTTGACCGA TGTGCTTTTG CTGCTGCAAG AAAAGGATCA AAAATACGTC 
TTTGCTTCTG TGGACTCAAA GCCACCCGTC ATCTCTCTGC AAAAGCTCAT TGTGAGAGAG 
GTAGCCAACG AGGAGAAGGC CATGTTTCTG ATCAGCGCCT CCATGCAGGG ACCAGAGATG 
TACGAGATCT ACACCAGTTC CAAAGAGGAC AGGAACATCT GGATGGCCCA CATCCGACGG 
GCCGTGGAGA GCTGTCCTGA CGAGGAGGAG GGCATTTTCC TCGAGGCTGA GGAGAGAAGG 
ATGGCTGAAG CCCGCACCAT GAAACTCCGG GACTTTCAAG AGCGACTGAG CCTGAAAGAC 
CAGCTGATCG CCCAGAGCCT TCTGGAGAAA CAGCAGATCT ACCTGGAGAT GGCTCAGCTG 
AGCGGGCTGG ATGAGTCGGC CCAGTGCCGA GGCCTCTTCC GAGGAGGAGG GGACCCCTCT 
GAGACCCTAC GAGGGGAGCA GATTCTCAGA TCAGCCATGA GTGAGATTGA GGGCATCCAG 
AGCCTGATCT GCCGGCACGT GGGCAGCACC AGTAGCCAAG TGGAAGAGGG AGGTGTCTCT 
GCAGGCCTGC CTCGGAGGGC TGAGACCTTC GGGGGCTATG ACAGCGTGGG CAGCCCCAAC 
AAGGGTGGCA GCTTTAAAAG GAAGGTGTAC AACAGTGACC CCAGGCCCCA AGACTGGCAA 
GGGCCTGCTA GCAGCCCGGA CTCCATGCCC TGTGACACCA CCACCCCCAG TGGCTGCTGC 
GAGGAATCAC CACAGGCTGT GGAGATGCCT AGCGCAGAGA GTAGCCCATG TCTGCCCACT 
GTCCTGGAAT CAGAGCTGGT CCACCGGGTC CAGACCCTGT CGCAGCTGCT TCTTAGTCTC 
CAGGCAGTCA TCGCTCAACA GGATAGCTAC GTGGAGATGC AGCGAATGGC CATCCAGGAG 
CGTGAGAAGC AGTTCCGGCT GCAATCAACG CGTGGGAACC TGCTTCTAGA GCAAGAGCGG 
CAACGCAACT TTGAGAAGCA GCGTGAGGAG CGCGCGGGTG TGGAGAAGCT GCAAAACCAG 
CTGCGCCAGG AGCAGCAGCG ATGGGAGCGG GAGCGGGCAC GCCAGCAGCA GGAACTGGAG 
CTGGCAGGCG CGCGACTGCA GGAGAGAGAG GGCGAGGCGC GCCAGCTGCG CCAGCGGCTG 
GACCAGGAGC GCACAGAGCT GGAGAGACAG CGCCAGGCCT ACCAGCATGA TCTGGAGCGT 
CTGCGCGAGG CCCAGAGAGC AGTGGACCGT GAACGTGAGC GCCTGGAACT ACTGCGCAGG 
TTCAAGAAAC AGAACACTGT ACCGGGGGCA CTGCCCCCGG AAGTGCTGGC AGAGGCCCAG 
CCTGCAAGCC ACCCTCTCAA CTTCAATGGG GATGGGCTGG AGGGCCACTT GGCCCCAGCC 
AAAGCACCAG GAACACAGGG GAGCATGCTA CACGGCACAG GACCTGAGTA CGGAGAGCGA 
GCTGAGGTGG CCCGCTGGGA CAGTGCCCCT GCTGAGAGCC GGCCAGCCAA GAGTGATGTG 
CCCATCCAGC TGCTCAGTGC CACCAATCAG ATTCAGAGGC AGACAGCCGT GCAGCAGCAG 
ATCCCCACCA AGTTGGCCGC CTCCACCAAG GGGGGCAAGG ATAAGAACAG CAAGAGCAGG 
GGTTCCCAGC GCTGGGAGAG CTCAGCATCC TTCGACCTGA AGCAGCAGCC ACTCTTCAAC 
AAGCTCATGG GCAAGGACGA GAACGCGTCC CGAAACCGCC GCTCACTGAG CCCCGTCCTA 
CCTGCAGCCC ATGGATCTGC ACCTGCCCCA GACCCCTGCT TCCCAGCCCC AAGCCCGGTC 
CCGGCCGCCA CAGCCCCCGA GGCCTTCAAG TCAGGAGGCA CGTCACTGCC ACCTGCCTCC 
CCAGCTCCCT CGCTGCCAAC CACACCGCCC ACCATCACAG ATGAAGTTGG CAAGGAAGAC 
GTCATCTTCT TCTGA

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

RefSeq	NP_001100585.1
CDS	777..4331
Translation	MSISPGGPHSNLTWFEFLSESEDGVCKNEKTDKSTRVKRSLSSLRSRVTRQKEKGKNPAHLKDKIQDVPGKRECVNGHQLVRGTFSGHSSCPLCGKPLLSSAWSRTAHRFRLLGGRAEAARATREPAGRRAACEGPRGASLKEHPRTALLSDGSSPAPSRNVGMTVSQKGGLQPTPSPAGSGVRLGPIAGDMDEADSVFLKLKQTADDSLSLTSSNAESVFIEDPYTASLRCEIESDAHEFEAESWSLSVDVAYAKKQKKEVVKRQDVLYELMQTEAHHVRTLKIMLKVYSRALQEELQFSVQAVSRLFPCADDLLDMHSHFLARLKERRQEFLEEDSDRNYVIQKIGDVLVQQFSGETGERMKEKYGVFCSGHKDAVGHYKLLLQQSKKFQNLIKKIGNFSIVRRLGVQECILLVTQRITKYPVLVERIIQNTEAGTEDYKDLSQALNLIKDIISQVDAKVSECEKDQRLKEIVAKMDSKSSGKLKNGRTFRKEDMLQRQLHLDSTLCWKSTSGRLKDVLAVLLTDVLLLLQEKDQKYVFASVDSKPPVISLQKLIVREVANEEKAMFLISASMQGPEMYEIYTSSKEDRNIWMAHIRRAVESCPDEEEGIFLEAEERRMAEARTMKLRDFQERLSLKDQLIAQSLLEKQQIYLEMAQLSGLDESAQCRGLFRGGGDPSETLRGEQILRSAMSEIEGIQSLICRHVGSTSSQVEEGGVSAGLPRRAETFGGYDSVGSPNKGGSFKRKVYNSDPRPQDWQGPASSPDSMPCDTTTPSGCCEESPQAVEMPSAESSPCLPTVLESELVHRVQTLSQLLLSLQAVIAQQDSYVEMQRMAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERAGVEKLQNQLRQEQQRWERERARQQQELELAGARLQEREGEARQLRQRLDQERTELERQRQAYQHDLERLREAQRAVDRERERLELLRRFKKQNTVPGALPPEVLAEAQPASHPLNFNGDGLEGHLAPAKAPGTQGSMLHGTGPEYGERAEVARWDSAPAESRPAKSDVPIQLLSATNQIQRQTAVQQQIPTKLAASTKGGKDKNSKSRGSQRWESSASFDLKQQPLFNKLMGKDENASRNRRSLSPVLPAAHGSAPAPDPCFPAPSPVPAATAPEAFKSGGTSLPPASPAPSLPTTPPTITDEVGKEDVIFF

Target ORF information:

RefSeq Version	NM_001107115.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), mRNA.

Target ORF information:

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

NM_001107115.1

ORF Insert Sequence:

ATGTCCATCA GCCCTGGAGG ACCCCACTCC AACCTCACCT GGTTCGAGTT CCTGTCAGAG 
AGCGAGGATG GTGTGTGCAA GAATGAGAAG ACGGACAAGA GCACCAGAGT GAAGCGCAGC 
CTGAGCTCCC TCCGCAGCAG GGTCACGAGG CAGAAGGAGA AGGGGAAGAA CCCAGCACAT 
CTAAAAGATA AGATTCAGGA TGTTCCAGGA AAGCGGGAGT GTGTCAACGG GCACCAGCTG 
GTGCGAGGAA CCTTCTCGGG CCACTCCAGC TGTCCTCTGT GTGGCAAACC TTTGCTGAGC 
TCAGCTTGGT CTCGCACGGC ACACCGCTTC CGGCTCCTTG GAGGCCGGGC GGAGGCTGCG 
AGAGCGACCC GGGAGCCAGC AGGGCGGAGA GCGGCCTGTG AGGGACCCCG CGGAGCCTCC 
CTGAAGGAGC ACCCCCGGAC CGCACTTCTG TCTGATGGCA GCAGCCCGGC TCCCTCCCGG 
AATGTCGGCA TGACCGTCTC TCAGAAAGGG GGTCTCCAGC CAACACCGAG CCCAGCTGGA 
TCTGGGGTGC GACTTGGACC GATCGCTGGA GACATGGATG AAGCTGACTC CGTGTTTTTA 
AAGCTGAAAC AGACGGCTGA TGACTCTCTG TCACTCACAT CCTCGAATGC TGAGTCTGTT 
TTCATAGAAG ATCCTTACAC TGCCTCGCTG AGGTGTGAGA TCGAATCAGA TGCCCATGAG 
TTTGAGGCCG AGTCCTGGAG CCTCTCGGTG GATGTAGCAT ATGCCAAGAA ACAAAAGAAG 
GAGGTGGTCA AGAGACAGGA CGTCCTGTAT GAGCTGATGC AGACAGAGGC GCATCACGTG 
CGCACGCTGA AGATCATGCT GAAAGTATAC TCCAGAGCCC TGCAGGAGGA GCTGCAGTTC 
AGCGTCCAGG CAGTCAGCCG CCTGTTCCCA TGCGCCGACG ACTTACTGGA CATGCACAGC 
CACTTCCTCG CCCGCCTTAA GGAGCGCCGG CAGGAGTTCC TAGAGGAGGA CAGTGATCGG 
AATTATGTCA TCCAGAAGAT CGGAGATGTC CTGGTCCAGC AGTTCTCAGG AGAAACCGGG 
GAGAGAATGA AGGAGAAATA CGGTGTGTTC TGTAGCGGCC ACAAGGATGC GGTCGGGCAC 
TACAAGTTAC TGCTGCAGCA GAGCAAGAAG TTTCAAAACT TAATCAAGAA AATTGGCAAC 
TTTTCCATCG TGCGAAGGCT GGGAGTGCAG GAGTGTATCC TTCTGGTCAC ACAGCGTATA 
ACCAAGTACC CGGTGCTAGT GGAACGCATC ATCCAGAACA CGGAAGCTGG CACTGAGGAC 
TACAAGGACC TGAGCCAGGC CCTGAACCTC ATCAAAGACA TCATCTCACA AGTGGATGCC 
AAAGTCAGTG AGTGTGAGAA GGACCAGCGC CTCAAGGAGA TCGTAGCCAA GATGGACTCG 
AAGTCATCCG GCAAACTCAA GAACGGGCGA ACCTTCCGAA AGGAGGATAT GCTGCAGCGC 
CAGCTCCACC TGGACAGCAC CCTGTGCTGG AAGTCCACGT CGGGGCGCTT GAAAGATGTC 
CTCGCTGTCC TGTTGACCGA TGTGCTTTTG CTGCTGCAAG AAAAGGATCA AAAATACGTC 
TTTGCTTCTG TGGACTCAAA GCCACCCGTC ATCTCTCTGC AAAAGCTCAT TGTGAGAGAG 
GTAGCCAACG AGGAGAAGGC CATGTTTCTG ATCAGCGCCT CCATGCAGGG ACCAGAGATG 
TACGAGATCT ACACCAGTTC CAAAGAGGAC AGGAACATCT GGATGGCCCA CATCCGACGG 
GCCGTGGAGA GCTGTCCTGA CGAGGAGGAG GGCATTTTCC TCGAGGCTGA GGAGAGAAGG 
ATGGCTGAAG CCCGCACCAT GAAACTCCGG GACTTTCAAG AGCGACTGAG CCTGAAAGAC 
CAGCTGATCG CCCAGAGCCT TCTGGAGAAA CAGCAGATCT ACCTGGAGAT GGCTCAGCTG 
AGCGGGCTGG ATGAGTCGGC CCAGTGCCGA GGCCTCTTCC GAGGAGGAGG GGACCCCTCT 
GAGACCCTAC GAGGGGAGCA GATTCTCAGA TCAGCCATGA GTGAGATTGA GGGCATCCAG 
AGCCTGATCT GCCGGCACGT GGGCAGCACC AGTAGCCAAG TGGAAGAGGG AGGTGTCTCT 
GCAGGCCTGC CTCGGAGGGC TGAGACCTTC GGGGGCTATG ACAGCGTGGG CAGCCCCAAC 
AAGGGTGGCA GCTTTAAAAG GAAGGTGTAC AACAGTGACC CCAGGCCCCA AGACTGGCAA 
GGGCCTGCTA GCAGCCCGGA CTCCATGCCC TGTGACACCA CCACCCCCAG TGGCTGCTGC 
GAGGAATCAC CACAGGCTGT GGAGATGCCT AGCGCAGAGA GTAGCCCATG TCTGCCCACT 
GTCCTGGAAT CAGAGCTGGT CCACCGGGTC CAGACCCTGT CGCAGCTGCT TCTTAGTCTC 
CAGGCAGTCA TCGCTCAACA GGATAGCTAC GTGGAGATGC AGCGAATGGC CATCCAGGAG 
CGTGAGAAGC AGTTCCGGCT GCAATCAACG CGTGGGAACC TGCTTCTAGA GCAAGAGCGG 
CAACGCAACT TTGAGAAGCA GCGTGAGGAG CGCGCGGGTG TGGAGAAGCT GCAAAACCAG 
CTGCGCCAGG AGCAGCAGCG ATGGGAGCGG GAGCGGGCAC GCCAGCAGCA GGAACTGGAG 
CTGGCAGGCG CGCGACTGCA GGAGAGAGAG GGCGAGGCGC GCCAGCTGCG CCAGCGGCTG 
GACCAGGAGC GCACAGAGCT GGAGAGACAG CGCCAGGCCT ACCAGCATGA TCTGGAGCGT 
CTGCGCGAGG CCCAGAGAGC AGTGGACCGT GAACGTGAGC GCCTGGAACT ACTGCGCAGG 
TTCAAGAAAC AGAACACTGT ACCGGGGGCA CTGCCCCCGG AAGTGCTGGC AGAGGCCCAG 
CCTGCAAGCC ACCCTCTCAA CTTCAATGGG GATGGGCTGG AGGGCCACTT GGCCCCAGCC 
AAAGCACCAG GAACACAGGG GAGCATGCTA CACGGCACAG GACCTGAGTA CGGAGAGCGA 
GCTGAGGTGG CCCGCTGGGA CAGTGCCCCT GCTGAGAGCC GGCCAGCCAA GAGTGATGTG 
CCCATCCAGC TGCTCAGTGC CACCAATCAG ATTCAGAGGC AGACAGCCGT GCAGCAGCAG 
ATCCCCACCA AGTTGGCCGC CTCCACCAAG GGGGGCAAGG ATAAGAACAG CAAGAGCAGG 
GGTTCCCAGC GCTGGGAGAG CTCAGCATCC TTCGACCTGA AGCAGCAGCC ACTCTTCAAC 
AAGCTCATGG GCAAGGACGA GAACGCGTCC CGAAACCGCC GCTCACTGAG CCCCGTCCTA 
CCTGCAGCCC ATGGATCTGC ACCTGCCCCA GACCCCTGCT TCCCAGCCCC AAGCCCGGTC 
CCGGCCGCCA CAGCCCCCGA GGCCTTCAAG TCAGGAGGCA CGTCACTGCC ACCTGCCTCC 
CCAGCTCCCT CGCTGCCAAC CACACCGCCC ACCATCACAG ATGAAGTTGG CAAGGAAGAC 
GTCATCTTCT TCTGA

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

Arhgef18 ( XM_008768951.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008767173.1 Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X2, mRNA.

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CloneID	ORa46116
Clone ID Related Accession (Same CDS sequence)	XM_008768951.2 , XM_008768952.2
Accession Version	XM_008768951.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3444bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	rho guanine nucleotide exchange factor 18 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008768951.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCATCA GCCCTGGAGG ACCCCACTCC AACCTCACCT GGTTCGAGTT CCTGTCAGAG 
AGCGAGGATG GTGTGTGCAA GAATGAGAAG ACGGACAAGA GCACCAGAGT GAAGCGCAGC 
CTGAGCTCCC TCCGCAGCAG GGTCACGAGG CAGAAGGAGA AGGGGAAGAA CCCAGCACAT 
CTAAAAGATA AGATTCAGGA TGTTCCAGGA AAGCGGGAGT GTGTCAACGG GCACCAGCTG 
GTGCGAGGAA CCTTCTCGGG CCACTCCAGC TGTCCTCTGT GTGGCAAACC TTTGCTGAGC 
TCAGCCTCCC TGAAGGAGCA CCCCCGGACC GCACTTCTGT CTGATGGCAG CAGCCCGGCT 
CCCTCCCGGA ATGTCGGCAT GACCGTCTCT CAGAAAGGGG GTCTCCAGCC AACACCGAGC 
CCAGCTGGAT CTGGGGTGCG ACTTGGACCG ATCGCTGGAG ACATGGATGA AGCTGACTCC 
GTGTTTTTAA AGCTGAAACA GACGGCTGAT GACTCTCTGT CACTCACATC CTCGAATGCT 
GAGTCTGTTT TCATAGAAGA TCCTTACACT GCCTCGCTGA GGTGTGAGAT CGAATCAGAT 
GCCCATGAGT TTGAGGCCGA GTCCTGGAGC CTCTCGGTGG ATGTAGCATA TGCCAAGAAA 
CAAAAGAAGG AGGTGGTCAA GAGACAGGAC GTCCTGTATG AGCTGATGCA GACAGAGGCG 
CATCACGTGC GCACGCTGAA GATCATGCTG AAAGTATACT CCAGAGCCCT GCAGGAGGAG 
CTGCAGTTCA GCGTCCAGGC AGTCAGCCGC CTGTTCCCAT GCGCCGACGA CTTACTGGAC 
ATGCACAGCC ACTTCCTCGC CCGCCTTAAG GAGCGCCGGC AGGAGTTCCT AGAGGAGGAC 
AGTGATCGGA ATTATGTCAT CCAGAAGATC GGAGATGTCC TGGTCCAGCA GTTCTCAGGA 
GAAACCGGGG AGAGAATGAA GGAGAAATAC GGTGTGTTCT GTAGCGGCCA CAAGGATGCG 
GTCGGGCACT ACAAGTTACT GCTGCAGCAG AGCAAGAAGT TTCAAAACTT AATCAAGAAA 
ATTGGCAACT TTTCCATCGT GCGAAGGCTG GGAGTGCAGG AGTGTATCCT TCTGGTCACA 
CAGCGTATAA CCAAGTACCC GGTGCTAGTG GAACGCATCA TCCAGAACAC GGAAGCTGGC 
ACTGAGGACT ACAAGGACCT GAGCCAGGCC CTGAACCTCA TCAAAGACAT CATCTCACAA 
GTGGATGCCA AAGTCAGTGA GTGTGAGAAG GACCAGCGCC TCAAGGAGAT CGTAGCCAAG 
ATGGACTCGA AGTCATCCGG CAAACTCAAG AACGGGCGAA CCTTCCGAAA GGAGGATATG 
CTGCAGCGCC AGCTCCACCT GGACAGCACC CTGTGCTGGA AGTCCACGTC GGGGCGCTTG 
AAAGATGTCC TCGCTGTCCT GTTGACCGAT GTGCTTTTGC TGCTGCAAGA AAAGGATCAA 
AAATACGTCT TTGCTTCTGT GGACTCAAAG CCACCCGTCA TCTCTCTGCA AAAGCTCATT 
GTGAGAGAGG TAGCCAACGA GGAGAAGGCC ATGTTTCTGA TCAGCGCCTC CATGCAGGGA 
CCAGAGATGT ACGAGATCTA CACCAGTTCC AAAGAGGACA GGAACATCTG GATGGCCCAC 
ATCCGACGGG CCGTGGAGAG CTGTCCTGAC GAGGAGGAGG GCATTTTCCT CGAGGCTGAG 
GAGAGAAGGA TGGCTGAAGC CCGCACCATG AAACTCCGGG ACTTTCAAGA GCGACTGAGC 
CTGAAAGACC AGCTGATCGC CCAGAGCCTT CTGGAGAAAC AGCAGATCTA CCTGGAGATG 
GCTCAGCTGA GCGGGCTGGA TGAGTCGGCC CAGTGCCGAG GCCTCTTCCG AGGAGGAGGG 
GACCCCTCTG AGACCCTACG AGGGGAGCAG ATTCTCAGAT CAGCCATGAG TGAGATTGAG 
GGCATCCAGA GCCTGATCTG CCGGCACGTG GGCAGCACCA GTAGCCAAGT GGAAGAGGGA 
GGTGTCTCTG CAGGCCTGCC TCGGAGGGCT GAGACCTTCG GGGGCTATGA CAGCGTGGGC 
AGCCCCAACA AGGGTGGCAG CTTTAAAAGG AAGGTGTACA ACAGTGACCC CAGGCCCCAA 
GACTGGCAAG GGCCTGCTAG CAGCCCGGAC TCCATGCCCT GTGACACCAC CACCCCCAGT 
GGCTGCTGCG AGGAATCACC ACAGGCTGTG GAGATGCCTA GCGCAGAGAG TAGCCCATGT 
CTGCCCACTG TCCTGGAATC AGAGCTGGTC CACCGGGTCC AGACCCTGTC GCAGCTGCTT 
CTTAGTCTCC AGGCAGTCAT CGCTCAACAG GATAGCTACG TGGAGATGCA GCGAATGGCC 
ATCCAGGAGC GTGAGAAGCA GTTCCGGCTG CAATCAACGC GTGGGAACCT GCTTCTAGAG 
CAAGAGCGGC AACGCAACTT TGAGAAGCAG CGTGAGGAGC GCGCGGGTGT GGAGAAGCTG 
CAAAACCAGC TGCGCCAGGA GCAGCAGCGA TGGGAGCGGG AGCGGGCACG CCAGCAGCAG 
GAACTGGAGC TGGCAGGCGC GCGACTGCAG GAGAGAGAGG GCGAGGCGCG CCAGCTGCGC 
CAGCGGCTGG ACCAGGAGCG CACAGAGCTG GAGAGACAGC GCCAGGCCTA CCAGCATGAT 
CTGGAGCGTC TGCGCGAGGC CCAGAGAGCA GTGGACCGTG AACGTGAGCG CCTGGAACTA 
CTGCGCAGGT TCAAGAAACA GAACACTGTA CCGGGGGCAC TGCCCCCGGA AGTGCTGGCA 
GAGGCCCAGC CTGCAAGCCA CCCTCTCAAC TTCAATGGGG ATGGGCTGGA GGGCCACTTG 
GCCCCAGCCA AAGCACCAGG AACACAGGGG AGCATGCTAC ACGGCACAGG ACCTGAGTAC 
GGAGAGCGAG CTGAGGTGGC CCGCTGGGAC AGTGCCCCTG CTGAGAGCCG GCCAGCCAAG 
AGTGATGTGC CCATCCAGCT GCTCAGTGCC ACCAATCAGA TTCAGAGGCA GACAGCCGTG 
CAGCAGCAGA TCCCCACCAA GTTGGCCGCC TCCACCAAGG GGGGCAAGGA TAAGAACAGC 
AAGAGCAGGG GTTCCCAGCG CTGGGAGAGC TCAGCATCCT TCGACCTGAA GCAGCAGCCA 
CTCTTCAACA AGCTCATGGG CAAGGACGAG AACGCGTCCC GAAACCGCCG CTCACTGAGC 
CCCGTCCTAC CTGCAGCCCA TGGATCTGCA CCTGCCCCAG ACCCCTGCTT CCCAGCCCCA 
AGCCCGGTCC CGGCCGCCAC AGCCCCCGAG GCCTTCAAGT CAGGAGGCAC GTCACTGCCA 
CCTGCCTCCC CAGCTCCCTC GCTGCCAACC ACACCGCCCA CCATCACAGA TGAAGTTGGC 
AAGGAAGACG TCATCTTCTT CTGA

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

RefSeq	XP_008767173.1
CDS	93..3536
Translation	MSISPGGPHSNLTWFEFLSESEDGVCKNEKTDKSTRVKRSLSSLRSRVTRQKEKGKNPAHLKDKIQDVPGKRECVNGHQLVRGTFSGHSSCPLCGKPLLSSASLKEHPRTALLSDGSSPAPSRNVGMTVSQKGGLQPTPSPAGSGVRLGPIAGDMDEADSVFLKLKQTADDSLSLTSSNAESVFIEDPYTASLRCEIESDAHEFEAESWSLSVDVAYAKKQKKEVVKRQDVLYELMQTEAHHVRTLKIMLKVYSRALQEELQFSVQAVSRLFPCADDLLDMHSHFLARLKERRQEFLEEDSDRNYVIQKIGDVLVQQFSGETGERMKEKYGVFCSGHKDAVGHYKLLLQQSKKFQNLIKKIGNFSIVRRLGVQECILLVTQRITKYPVLVERIIQNTEAGTEDYKDLSQALNLIKDIISQVDAKVSECEKDQRLKEIVAKMDSKSSGKLKNGRTFRKEDMLQRQLHLDSTLCWKSTSGRLKDVLAVLLTDVLLLLQEKDQKYVFASVDSKPPVISLQKLIVREVANEEKAMFLISASMQGPEMYEIYTSSKEDRNIWMAHIRRAVESCPDEEEGIFLEAEERRMAEARTMKLRDFQERLSLKDQLIAQSLLEKQQIYLEMAQLSGLDESAQCRGLFRGGGDPSETLRGEQILRSAMSEIEGIQSLICRHVGSTSSQVEEGGVSAGLPRRAETFGGYDSVGSPNKGGSFKRKVYNSDPRPQDWQGPASSPDSMPCDTTTPSGCCEESPQAVEMPSAESSPCLPTVLESELVHRVQTLSQLLLSLQAVIAQQDSYVEMQRMAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERAGVEKLQNQLRQEQQRWERERARQQQELELAGARLQEREGEARQLRQRLDQERTELERQRQAYQHDLERLREAQRAVDRERERLELLRRFKKQNTVPGALPPEVLAEAQPASHPLNFNGDGLEGHLAPAKAPGTQGSMLHGTGPEYGERAEVARWDSAPAESRPAKSDVPIQLLSATNQIQRQTAVQQQIPTKLAASTKGGKDKNSKSRGSQRWESSASFDLKQQPLFNKLMGKDENASRNRRSLSPVLPAAHGSAPAPDPCFPAPSPVPAATAPEAFKSGGTSLPPASPAPSLPTTPPTITDEVGKEDVIFF

Target ORF information:

RefSeq Version	XM_008768951.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X2, mRNA.

Target ORF information:

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

XM_008768951.2

ORF Insert Sequence:

ATGTCCATCA GCCCTGGAGG ACCCCACTCC AACCTCACCT GGTTCGAGTT CCTGTCAGAG 
AGCGAGGATG GTGTGTGCAA GAATGAGAAG ACGGACAAGA GCACCAGAGT GAAGCGCAGC 
CTGAGCTCCC TCCGCAGCAG GGTCACGAGG CAGAAGGAGA AGGGGAAGAA CCCAGCACAT 
CTAAAAGATA AGATTCAGGA TGTTCCAGGA AAGCGGGAGT GTGTCAACGG GCACCAGCTG 
GTGCGAGGAA CCTTCTCGGG CCACTCCAGC TGTCCTCTGT GTGGCAAACC TTTGCTGAGC 
TCAGCCTCCC TGAAGGAGCA CCCCCGGACC GCACTTCTGT CTGATGGCAG CAGCCCGGCT 
CCCTCCCGGA ATGTCGGCAT GACCGTCTCT CAGAAAGGGG GTCTCCAGCC AACACCGAGC 
CCAGCTGGAT CTGGGGTGCG ACTTGGACCG ATCGCTGGAG ACATGGATGA AGCTGACTCC 
GTGTTTTTAA AGCTGAAACA GACGGCTGAT GACTCTCTGT CACTCACATC CTCGAATGCT 
GAGTCTGTTT TCATAGAAGA TCCTTACACT GCCTCGCTGA GGTGTGAGAT CGAATCAGAT 
GCCCATGAGT TTGAGGCCGA GTCCTGGAGC CTCTCGGTGG ATGTAGCATA TGCCAAGAAA 
CAAAAGAAGG AGGTGGTCAA GAGACAGGAC GTCCTGTATG AGCTGATGCA GACAGAGGCG 
CATCACGTGC GCACGCTGAA GATCATGCTG AAAGTATACT CCAGAGCCCT GCAGGAGGAG 
CTGCAGTTCA GCGTCCAGGC AGTCAGCCGC CTGTTCCCAT GCGCCGACGA CTTACTGGAC 
ATGCACAGCC ACTTCCTCGC CCGCCTTAAG GAGCGCCGGC AGGAGTTCCT AGAGGAGGAC 
AGTGATCGGA ATTATGTCAT CCAGAAGATC GGAGATGTCC TGGTCCAGCA GTTCTCAGGA 
GAAACCGGGG AGAGAATGAA GGAGAAATAC GGTGTGTTCT GTAGCGGCCA CAAGGATGCG 
GTCGGGCACT ACAAGTTACT GCTGCAGCAG AGCAAGAAGT TTCAAAACTT AATCAAGAAA 
ATTGGCAACT TTTCCATCGT GCGAAGGCTG GGAGTGCAGG AGTGTATCCT TCTGGTCACA 
CAGCGTATAA CCAAGTACCC GGTGCTAGTG GAACGCATCA TCCAGAACAC GGAAGCTGGC 
ACTGAGGACT ACAAGGACCT GAGCCAGGCC CTGAACCTCA TCAAAGACAT CATCTCACAA 
GTGGATGCCA AAGTCAGTGA GTGTGAGAAG GACCAGCGCC TCAAGGAGAT CGTAGCCAAG 
ATGGACTCGA AGTCATCCGG CAAACTCAAG AACGGGCGAA CCTTCCGAAA GGAGGATATG 
CTGCAGCGCC AGCTCCACCT GGACAGCACC CTGTGCTGGA AGTCCACGTC GGGGCGCTTG 
AAAGATGTCC TCGCTGTCCT GTTGACCGAT GTGCTTTTGC TGCTGCAAGA AAAGGATCAA 
AAATACGTCT TTGCTTCTGT GGACTCAAAG CCACCCGTCA TCTCTCTGCA AAAGCTCATT 
GTGAGAGAGG TAGCCAACGA GGAGAAGGCC ATGTTTCTGA TCAGCGCCTC CATGCAGGGA 
CCAGAGATGT ACGAGATCTA CACCAGTTCC AAAGAGGACA GGAACATCTG GATGGCCCAC 
ATCCGACGGG CCGTGGAGAG CTGTCCTGAC GAGGAGGAGG GCATTTTCCT CGAGGCTGAG 
GAGAGAAGGA TGGCTGAAGC CCGCACCATG AAACTCCGGG ACTTTCAAGA GCGACTGAGC 
CTGAAAGACC AGCTGATCGC CCAGAGCCTT CTGGAGAAAC AGCAGATCTA CCTGGAGATG 
GCTCAGCTGA GCGGGCTGGA TGAGTCGGCC CAGTGCCGAG GCCTCTTCCG AGGAGGAGGG 
GACCCCTCTG AGACCCTACG AGGGGAGCAG ATTCTCAGAT CAGCCATGAG TGAGATTGAG 
GGCATCCAGA GCCTGATCTG CCGGCACGTG GGCAGCACCA GTAGCCAAGT GGAAGAGGGA 
GGTGTCTCTG CAGGCCTGCC TCGGAGGGCT GAGACCTTCG GGGGCTATGA CAGCGTGGGC 
AGCCCCAACA AGGGTGGCAG CTTTAAAAGG AAGGTGTACA ACAGTGACCC CAGGCCCCAA 
GACTGGCAAG GGCCTGCTAG CAGCCCGGAC TCCATGCCCT GTGACACCAC CACCCCCAGT 
GGCTGCTGCG AGGAATCACC ACAGGCTGTG GAGATGCCTA GCGCAGAGAG TAGCCCATGT 
CTGCCCACTG TCCTGGAATC AGAGCTGGTC CACCGGGTCC AGACCCTGTC GCAGCTGCTT 
CTTAGTCTCC AGGCAGTCAT CGCTCAACAG GATAGCTACG TGGAGATGCA GCGAATGGCC 
ATCCAGGAGC GTGAGAAGCA GTTCCGGCTG CAATCAACGC GTGGGAACCT GCTTCTAGAG 
CAAGAGCGGC AACGCAACTT TGAGAAGCAG CGTGAGGAGC GCGCGGGTGT GGAGAAGCTG 
CAAAACCAGC TGCGCCAGGA GCAGCAGCGA TGGGAGCGGG AGCGGGCACG CCAGCAGCAG 
GAACTGGAGC TGGCAGGCGC GCGACTGCAG GAGAGAGAGG GCGAGGCGCG CCAGCTGCGC 
CAGCGGCTGG ACCAGGAGCG CACAGAGCTG GAGAGACAGC GCCAGGCCTA CCAGCATGAT 
CTGGAGCGTC TGCGCGAGGC CCAGAGAGCA GTGGACCGTG AACGTGAGCG CCTGGAACTA 
CTGCGCAGGT TCAAGAAACA GAACACTGTA CCGGGGGCAC TGCCCCCGGA AGTGCTGGCA 
GAGGCCCAGC CTGCAAGCCA CCCTCTCAAC TTCAATGGGG ATGGGCTGGA GGGCCACTTG 
GCCCCAGCCA AAGCACCAGG AACACAGGGG AGCATGCTAC ACGGCACAGG ACCTGAGTAC 
GGAGAGCGAG CTGAGGTGGC CCGCTGGGAC AGTGCCCCTG CTGAGAGCCG GCCAGCCAAG 
AGTGATGTGC CCATCCAGCT GCTCAGTGCC ACCAATCAGA TTCAGAGGCA GACAGCCGTG 
CAGCAGCAGA TCCCCACCAA GTTGGCCGCC TCCACCAAGG GGGGCAAGGA TAAGAACAGC 
AAGAGCAGGG GTTCCCAGCG CTGGGAGAGC TCAGCATCCT TCGACCTGAA GCAGCAGCCA 
CTCTTCAACA AGCTCATGGG CAAGGACGAG AACGCGTCCC GAAACCGCCG CTCACTGAGC 
CCCGTCCTAC CTGCAGCCCA TGGATCTGCA CCTGCCCCAG ACCCCTGCTT CCCAGCCCCA 
AGCCCGGTCC CGGCCGCCAC AGCCCCCGAG GCCTTCAAGT CAGGAGGCAC GTCACTGCCA 
CCTGCCTCCC CAGCTCCCTC GCTGCCAACC ACACCGCCCA CCATCACAGA TGAAGTTGGC 
AAGGAAGACG TCATCTTCTT CTGA

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

Arhgef18 ( XM_008768952.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008767174.1 Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ORa46116
Clone ID Related Accession (Same CDS sequence)	XM_008768951.2 , XM_008768952.2
Accession Version	XM_008768952.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3444bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	rho guanine nucleotide exchange factor 18 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008768952.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCATCA GCCCTGGAGG ACCCCACTCC AACCTCACCT GGTTCGAGTT CCTGTCAGAG 
AGCGAGGATG GTGTGTGCAA GAATGAGAAG ACGGACAAGA GCACCAGAGT GAAGCGCAGC 
CTGAGCTCCC TCCGCAGCAG GGTCACGAGG CAGAAGGAGA AGGGGAAGAA CCCAGCACAT 
CTAAAAGATA AGATTCAGGA TGTTCCAGGA AAGCGGGAGT GTGTCAACGG GCACCAGCTG 
GTGCGAGGAA CCTTCTCGGG CCACTCCAGC TGTCCTCTGT GTGGCAAACC TTTGCTGAGC 
TCAGCCTCCC TGAAGGAGCA CCCCCGGACC GCACTTCTGT CTGATGGCAG CAGCCCGGCT 
CCCTCCCGGA ATGTCGGCAT GACCGTCTCT CAGAAAGGGG GTCTCCAGCC AACACCGAGC 
CCAGCTGGAT CTGGGGTGCG ACTTGGACCG ATCGCTGGAG ACATGGATGA AGCTGACTCC 
GTGTTTTTAA AGCTGAAACA GACGGCTGAT GACTCTCTGT CACTCACATC CTCGAATGCT 
GAGTCTGTTT TCATAGAAGA TCCTTACACT GCCTCGCTGA GGTGTGAGAT CGAATCAGAT 
GCCCATGAGT TTGAGGCCGA GTCCTGGAGC CTCTCGGTGG ATGTAGCATA TGCCAAGAAA 
CAAAAGAAGG AGGTGGTCAA GAGACAGGAC GTCCTGTATG AGCTGATGCA GACAGAGGCG 
CATCACGTGC GCACGCTGAA GATCATGCTG AAAGTATACT CCAGAGCCCT GCAGGAGGAG 
CTGCAGTTCA GCGTCCAGGC AGTCAGCCGC CTGTTCCCAT GCGCCGACGA CTTACTGGAC 
ATGCACAGCC ACTTCCTCGC CCGCCTTAAG GAGCGCCGGC AGGAGTTCCT AGAGGAGGAC 
AGTGATCGGA ATTATGTCAT CCAGAAGATC GGAGATGTCC TGGTCCAGCA GTTCTCAGGA 
GAAACCGGGG AGAGAATGAA GGAGAAATAC GGTGTGTTCT GTAGCGGCCA CAAGGATGCG 
GTCGGGCACT ACAAGTTACT GCTGCAGCAG AGCAAGAAGT TTCAAAACTT AATCAAGAAA 
ATTGGCAACT TTTCCATCGT GCGAAGGCTG GGAGTGCAGG AGTGTATCCT TCTGGTCACA 
CAGCGTATAA CCAAGTACCC GGTGCTAGTG GAACGCATCA TCCAGAACAC GGAAGCTGGC 
ACTGAGGACT ACAAGGACCT GAGCCAGGCC CTGAACCTCA TCAAAGACAT CATCTCACAA 
GTGGATGCCA AAGTCAGTGA GTGTGAGAAG GACCAGCGCC TCAAGGAGAT CGTAGCCAAG 
ATGGACTCGA AGTCATCCGG CAAACTCAAG AACGGGCGAA CCTTCCGAAA GGAGGATATG 
CTGCAGCGCC AGCTCCACCT GGACAGCACC CTGTGCTGGA AGTCCACGTC GGGGCGCTTG 
AAAGATGTCC TCGCTGTCCT GTTGACCGAT GTGCTTTTGC TGCTGCAAGA AAAGGATCAA 
AAATACGTCT TTGCTTCTGT GGACTCAAAG CCACCCGTCA TCTCTCTGCA AAAGCTCATT 
GTGAGAGAGG TAGCCAACGA GGAGAAGGCC ATGTTTCTGA TCAGCGCCTC CATGCAGGGA 
CCAGAGATGT ACGAGATCTA CACCAGTTCC AAAGAGGACA GGAACATCTG GATGGCCCAC 
ATCCGACGGG CCGTGGAGAG CTGTCCTGAC GAGGAGGAGG GCATTTTCCT CGAGGCTGAG 
GAGAGAAGGA TGGCTGAAGC CCGCACCATG AAACTCCGGG ACTTTCAAGA GCGACTGAGC 
CTGAAAGACC AGCTGATCGC CCAGAGCCTT CTGGAGAAAC AGCAGATCTA CCTGGAGATG 
GCTCAGCTGA GCGGGCTGGA TGAGTCGGCC CAGTGCCGAG GCCTCTTCCG AGGAGGAGGG 
GACCCCTCTG AGACCCTACG AGGGGAGCAG ATTCTCAGAT CAGCCATGAG TGAGATTGAG 
GGCATCCAGA GCCTGATCTG CCGGCACGTG GGCAGCACCA GTAGCCAAGT GGAAGAGGGA 
GGTGTCTCTG CAGGCCTGCC TCGGAGGGCT GAGACCTTCG GGGGCTATGA CAGCGTGGGC 
AGCCCCAACA AGGGTGGCAG CTTTAAAAGG AAGGTGTACA ACAGTGACCC CAGGCCCCAA 
GACTGGCAAG GGCCTGCTAG CAGCCCGGAC TCCATGCCCT GTGACACCAC CACCCCCAGT 
GGCTGCTGCG AGGAATCACC ACAGGCTGTG GAGATGCCTA GCGCAGAGAG TAGCCCATGT 
CTGCCCACTG TCCTGGAATC AGAGCTGGTC CACCGGGTCC AGACCCTGTC GCAGCTGCTT 
CTTAGTCTCC AGGCAGTCAT CGCTCAACAG GATAGCTACG TGGAGATGCA GCGAATGGCC 
ATCCAGGAGC GTGAGAAGCA GTTCCGGCTG CAATCAACGC GTGGGAACCT GCTTCTAGAG 
CAAGAGCGGC AACGCAACTT TGAGAAGCAG CGTGAGGAGC GCGCGGGTGT GGAGAAGCTG 
CAAAACCAGC TGCGCCAGGA GCAGCAGCGA TGGGAGCGGG AGCGGGCACG CCAGCAGCAG 
GAACTGGAGC TGGCAGGCGC GCGACTGCAG GAGAGAGAGG GCGAGGCGCG CCAGCTGCGC 
CAGCGGCTGG ACCAGGAGCG CACAGAGCTG GAGAGACAGC GCCAGGCCTA CCAGCATGAT 
CTGGAGCGTC TGCGCGAGGC CCAGAGAGCA GTGGACCGTG AACGTGAGCG CCTGGAACTA 
CTGCGCAGGT TCAAGAAACA GAACACTGTA CCGGGGGCAC TGCCCCCGGA AGTGCTGGCA 
GAGGCCCAGC CTGCAAGCCA CCCTCTCAAC TTCAATGGGG ATGGGCTGGA GGGCCACTTG 
GCCCCAGCCA AAGCACCAGG AACACAGGGG AGCATGCTAC ACGGCACAGG ACCTGAGTAC 
GGAGAGCGAG CTGAGGTGGC CCGCTGGGAC AGTGCCCCTG CTGAGAGCCG GCCAGCCAAG 
AGTGATGTGC CCATCCAGCT GCTCAGTGCC ACCAATCAGA TTCAGAGGCA GACAGCCGTG 
CAGCAGCAGA TCCCCACCAA GTTGGCCGCC TCCACCAAGG GGGGCAAGGA TAAGAACAGC 
AAGAGCAGGG GTTCCCAGCG CTGGGAGAGC TCAGCATCCT TCGACCTGAA GCAGCAGCCA 
CTCTTCAACA AGCTCATGGG CAAGGACGAG AACGCGTCCC GAAACCGCCG CTCACTGAGC 
CCCGTCCTAC CTGCAGCCCA TGGATCTGCA CCTGCCCCAG ACCCCTGCTT CCCAGCCCCA 
AGCCCGGTCC CGGCCGCCAC AGCCCCCGAG GCCTTCAAGT CAGGAGGCAC GTCACTGCCA 
CCTGCCTCCC CAGCTCCCTC GCTGCCAACC ACACCGCCCA CCATCACAGA TGAAGTTGGC 
AAGGAAGACG TCATCTTCTT CTGA

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

RefSeq	XP_008767174.1
CDS	468..3911
Translation	MSISPGGPHSNLTWFEFLSESEDGVCKNEKTDKSTRVKRSLSSLRSRVTRQKEKGKNPAHLKDKIQDVPGKRECVNGHQLVRGTFSGHSSCPLCGKPLLSSASLKEHPRTALLSDGSSPAPSRNVGMTVSQKGGLQPTPSPAGSGVRLGPIAGDMDEADSVFLKLKQTADDSLSLTSSNAESVFIEDPYTASLRCEIESDAHEFEAESWSLSVDVAYAKKQKKEVVKRQDVLYELMQTEAHHVRTLKIMLKVYSRALQEELQFSVQAVSRLFPCADDLLDMHSHFLARLKERRQEFLEEDSDRNYVIQKIGDVLVQQFSGETGERMKEKYGVFCSGHKDAVGHYKLLLQQSKKFQNLIKKIGNFSIVRRLGVQECILLVTQRITKYPVLVERIIQNTEAGTEDYKDLSQALNLIKDIISQVDAKVSECEKDQRLKEIVAKMDSKSSGKLKNGRTFRKEDMLQRQLHLDSTLCWKSTSGRLKDVLAVLLTDVLLLLQEKDQKYVFASVDSKPPVISLQKLIVREVANEEKAMFLISASMQGPEMYEIYTSSKEDRNIWMAHIRRAVESCPDEEEGIFLEAEERRMAEARTMKLRDFQERLSLKDQLIAQSLLEKQQIYLEMAQLSGLDESAQCRGLFRGGGDPSETLRGEQILRSAMSEIEGIQSLICRHVGSTSSQVEEGGVSAGLPRRAETFGGYDSVGSPNKGGSFKRKVYNSDPRPQDWQGPASSPDSMPCDTTTPSGCCEESPQAVEMPSAESSPCLPTVLESELVHRVQTLSQLLLSLQAVIAQQDSYVEMQRMAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERAGVEKLQNQLRQEQQRWERERARQQQELELAGARLQEREGEARQLRQRLDQERTELERQRQAYQHDLERLREAQRAVDRERERLELLRRFKKQNTVPGALPPEVLAEAQPASHPLNFNGDGLEGHLAPAKAPGTQGSMLHGTGPEYGERAEVARWDSAPAESRPAKSDVPIQLLSATNQIQRQTAVQQQIPTKLAASTKGGKDKNSKSRGSQRWESSASFDLKQQPLFNKLMGKDENASRNRRSLSPVLPAAHGSAPAPDPCFPAPSPVPAATAPEAFKSGGTSLPPASPAPSLPTTPPTITDEVGKEDVIFF

Target ORF information:

RefSeq Version	XM_008768952.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), transcript variant X3, mRNA.

Target ORF information:

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

XM_008768952.2

ORF Insert Sequence:

ATGTCCATCA GCCCTGGAGG ACCCCACTCC AACCTCACCT GGTTCGAGTT CCTGTCAGAG 
AGCGAGGATG GTGTGTGCAA GAATGAGAAG ACGGACAAGA GCACCAGAGT GAAGCGCAGC 
CTGAGCTCCC TCCGCAGCAG GGTCACGAGG CAGAAGGAGA AGGGGAAGAA CCCAGCACAT 
CTAAAAGATA AGATTCAGGA TGTTCCAGGA AAGCGGGAGT GTGTCAACGG GCACCAGCTG 
GTGCGAGGAA CCTTCTCGGG CCACTCCAGC TGTCCTCTGT GTGGCAAACC TTTGCTGAGC 
TCAGCCTCCC TGAAGGAGCA CCCCCGGACC GCACTTCTGT CTGATGGCAG CAGCCCGGCT 
CCCTCCCGGA ATGTCGGCAT GACCGTCTCT CAGAAAGGGG GTCTCCAGCC AACACCGAGC 
CCAGCTGGAT CTGGGGTGCG ACTTGGACCG ATCGCTGGAG ACATGGATGA AGCTGACTCC 
GTGTTTTTAA AGCTGAAACA GACGGCTGAT GACTCTCTGT CACTCACATC CTCGAATGCT 
GAGTCTGTTT TCATAGAAGA TCCTTACACT GCCTCGCTGA GGTGTGAGAT CGAATCAGAT 
GCCCATGAGT TTGAGGCCGA GTCCTGGAGC CTCTCGGTGG ATGTAGCATA TGCCAAGAAA 
CAAAAGAAGG AGGTGGTCAA GAGACAGGAC GTCCTGTATG AGCTGATGCA GACAGAGGCG 
CATCACGTGC GCACGCTGAA GATCATGCTG AAAGTATACT CCAGAGCCCT GCAGGAGGAG 
CTGCAGTTCA GCGTCCAGGC AGTCAGCCGC CTGTTCCCAT GCGCCGACGA CTTACTGGAC 
ATGCACAGCC ACTTCCTCGC CCGCCTTAAG GAGCGCCGGC AGGAGTTCCT AGAGGAGGAC 
AGTGATCGGA ATTATGTCAT CCAGAAGATC GGAGATGTCC TGGTCCAGCA GTTCTCAGGA 
GAAACCGGGG AGAGAATGAA GGAGAAATAC GGTGTGTTCT GTAGCGGCCA CAAGGATGCG 
GTCGGGCACT ACAAGTTACT GCTGCAGCAG AGCAAGAAGT TTCAAAACTT AATCAAGAAA 
ATTGGCAACT TTTCCATCGT GCGAAGGCTG GGAGTGCAGG AGTGTATCCT TCTGGTCACA 
CAGCGTATAA CCAAGTACCC GGTGCTAGTG GAACGCATCA TCCAGAACAC GGAAGCTGGC 
ACTGAGGACT ACAAGGACCT GAGCCAGGCC CTGAACCTCA TCAAAGACAT CATCTCACAA 
GTGGATGCCA AAGTCAGTGA GTGTGAGAAG GACCAGCGCC TCAAGGAGAT CGTAGCCAAG 
ATGGACTCGA AGTCATCCGG CAAACTCAAG AACGGGCGAA CCTTCCGAAA GGAGGATATG 
CTGCAGCGCC AGCTCCACCT GGACAGCACC CTGTGCTGGA AGTCCACGTC GGGGCGCTTG 
AAAGATGTCC TCGCTGTCCT GTTGACCGAT GTGCTTTTGC TGCTGCAAGA AAAGGATCAA 
AAATACGTCT TTGCTTCTGT GGACTCAAAG CCACCCGTCA TCTCTCTGCA AAAGCTCATT 
GTGAGAGAGG TAGCCAACGA GGAGAAGGCC ATGTTTCTGA TCAGCGCCTC CATGCAGGGA 
CCAGAGATGT ACGAGATCTA CACCAGTTCC AAAGAGGACA GGAACATCTG GATGGCCCAC 
ATCCGACGGG CCGTGGAGAG CTGTCCTGAC GAGGAGGAGG GCATTTTCCT CGAGGCTGAG 
GAGAGAAGGA TGGCTGAAGC CCGCACCATG AAACTCCGGG ACTTTCAAGA GCGACTGAGC 
CTGAAAGACC AGCTGATCGC CCAGAGCCTT CTGGAGAAAC AGCAGATCTA CCTGGAGATG 
GCTCAGCTGA GCGGGCTGGA TGAGTCGGCC CAGTGCCGAG GCCTCTTCCG AGGAGGAGGG 
GACCCCTCTG AGACCCTACG AGGGGAGCAG ATTCTCAGAT CAGCCATGAG TGAGATTGAG 
GGCATCCAGA GCCTGATCTG CCGGCACGTG GGCAGCACCA GTAGCCAAGT GGAAGAGGGA 
GGTGTCTCTG CAGGCCTGCC TCGGAGGGCT GAGACCTTCG GGGGCTATGA CAGCGTGGGC 
AGCCCCAACA AGGGTGGCAG CTTTAAAAGG AAGGTGTACA ACAGTGACCC CAGGCCCCAA 
GACTGGCAAG GGCCTGCTAG CAGCCCGGAC TCCATGCCCT GTGACACCAC CACCCCCAGT 
GGCTGCTGCG AGGAATCACC ACAGGCTGTG GAGATGCCTA GCGCAGAGAG TAGCCCATGT 
CTGCCCACTG TCCTGGAATC AGAGCTGGTC CACCGGGTCC AGACCCTGTC GCAGCTGCTT 
CTTAGTCTCC AGGCAGTCAT CGCTCAACAG GATAGCTACG TGGAGATGCA GCGAATGGCC 
ATCCAGGAGC GTGAGAAGCA GTTCCGGCTG CAATCAACGC GTGGGAACCT GCTTCTAGAG 
CAAGAGCGGC AACGCAACTT TGAGAAGCAG CGTGAGGAGC GCGCGGGTGT GGAGAAGCTG 
CAAAACCAGC TGCGCCAGGA GCAGCAGCGA TGGGAGCGGG AGCGGGCACG CCAGCAGCAG 
GAACTGGAGC TGGCAGGCGC GCGACTGCAG GAGAGAGAGG GCGAGGCGCG CCAGCTGCGC 
CAGCGGCTGG ACCAGGAGCG CACAGAGCTG GAGAGACAGC GCCAGGCCTA CCAGCATGAT 
CTGGAGCGTC TGCGCGAGGC CCAGAGAGCA GTGGACCGTG AACGTGAGCG CCTGGAACTA 
CTGCGCAGGT TCAAGAAACA GAACACTGTA CCGGGGGCAC TGCCCCCGGA AGTGCTGGCA 
GAGGCCCAGC CTGCAAGCCA CCCTCTCAAC TTCAATGGGG ATGGGCTGGA GGGCCACTTG 
GCCCCAGCCA AAGCACCAGG AACACAGGGG AGCATGCTAC ACGGCACAGG ACCTGAGTAC 
GGAGAGCGAG CTGAGGTGGC CCGCTGGGAC AGTGCCCCTG CTGAGAGCCG GCCAGCCAAG 
AGTGATGTGC CCATCCAGCT GCTCAGTGCC ACCAATCAGA TTCAGAGGCA GACAGCCGTG 
CAGCAGCAGA TCCCCACCAA GTTGGCCGCC TCCACCAAGG GGGGCAAGGA TAAGAACAGC 
AAGAGCAGGG GTTCCCAGCG CTGGGAGAGC TCAGCATCCT TCGACCTGAA GCAGCAGCCA 
CTCTTCAACA AGCTCATGGG CAAGGACGAG AACGCGTCCC GAAACCGCCG CTCACTGAGC 
CCCGTCCTAC CTGCAGCCCA TGGATCTGCA CCTGCCCCAG ACCCCTGCTT CCCAGCCCCA 
AGCCCGGTCC CGGCCGCCAC AGCCCCCGAG GCCTTCAAGT CAGGAGGCAC GTCACTGCCA 
CCTGCCTCCC CAGCTCCCTC GCTGCCAACC ACACCGCCCA CCATCACAGA TGAAGTTGGC 
AAGGAAGACG TCATCTTCTT CTGA

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

PubMed

Lulu2 regulates the circumferential actomyosin tensile system in epithelial cells through p114RhoGEF.
The Journal of cell biology195(2)245-61(2011 Oct)
Nakajima H,Tanoue T

Proteomic analysis of exosomes from human neural stem cells by flow field-flow fractionation and nanoflow liquid chromatography-tandem mass spectrometry.
Journal of proteome research7(8)3475-80(2008 Aug)
Kang D,Oh S,Ahn SM,Lee BH,Moon MH

G Protein betagamma subunits stimulate p114RhoGEF, a guanine nucleotide exchange factor for RhoA and Rac1: regulation of cell shape and reactive oxygen species production.
Circulation research93(9)848-56(2003 Oct)
Niu J,Profirovic J,Pan H,Vaiskunaite R,Voyno-Yasenetskaya T

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Arhgef18 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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