Pcdh18 cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Pcdh18
Entrez Gene ID	73173
Full Name	protocadherin 18
Synonyms	3110038E07Rik,BB095589,PCDH68L
General protein information	Preferred Names protocadherin 18 Names protocadherin 18
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 3 Map Location: 3\|3 C

mRNA and Protein(s)

mRNA	Protein	Name
NM_130448.3	NP_569715.3	protocadherin 18 precursor
XM_006500789.2	XP_006500852.1	protocadherin 18 isoform X1
XM_006500789.3	XP_006500852.1	protocadherin 18 isoform X1

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	PCDH18	XP_003432524.1
Homo sapiens (human)	PCDH18	NP_061908.1
Pan troglodytes (chimpanzee)	PCDH18	XP_001136066.1
	PCDH18	XP_001086925.2
Mus musculus (house mouse)	Pcdh18	NP_569715.3
Gallus gallus (chicken)	PCDH18	XP_004940992.1
Bos taurus (cattle)	PCDH18	NP_001095699.1
Rattus norvegicus (Norway rat)	Pcdh18	NP_001093994.1
Xenopus tropicalis (tropical clawed frog)	pcdh18	NP_001011150.1

Gene Ontology
Bibliography

Related articles in PubMed

Cell adhesion molecules expression pattern indicates that somatic cells arbitrate gonadal sex of differentiating bipotential fetal mouse gonad.
Piprek RP, Kolasa M, Podkowa D, Kloc M, Kubiak JZ
Mechanisms of development14717-27(2017 Oct)

High-throughput discovery of novel developmental phenotypes.
Dickinson ME, Flenniken AM, Ji X, Teboul L, Wong MD, White JK, Meehan TF, Weninger WJ, Westerberg H, Adissu H, Baker CN, Bower L, Brown JM, Caddle LB, Chiani F, Clary D, Cleak J, Daly MJ, Denegre JM, Doe B, Dolan ME, Edie SM, Fuchs H, Gailus-Durner V, Galli A, Gambadoro A, Gallegos J, Guo S, Horner NR, Hsu CW, Johnson SJ, Kalaga S, Keith LC, Lanoue L, Lawson TN, Lek M, Mark M, Marschall S, Mason J, McElwee ML, Newbigging S, Nutter LM, Peterson KA, Ramirez-Solis R, Rowland DJ, Ryder E, Samocha KE, Seavitt JR, Selloum M, Szoke-Kovacs Z, Tamura M, Trainor AG, Tudose I, Wakana S, Warren J, Wendling O, West DB, Wong L, Yoshiki A, , , , , , , , , MacArthur DG, Tocchini-Valentini GP, Gao X, Flicek P, Bradley A, Skarnes WC, Justice MJ, Parkinson HE, Moore M, Wells S, Braun RE, Svenson KL, de Angelis MH, Herault Y, Mohun T, Mallon AM, Henkelman RM, Brown SD, Adams DJ, Lloyd KC, McKerlie C, Beaudet AL, Bu?an M, Murray SA
Nature537(7621)508-514(2016 09)

Context-specific function of the LIM homeobox 1 transcription factor in head formation of the mouse embryo.
Fossat N, Ip CK, Jones VJ, Studdert JB, Khoo PL, Lewis SL, Power M, Tourle K, Loebel DA, Kwan KM, Behringer RR, Tam PP
Development (Cambridge, England)142(11)2069-79(2015 Jun)

A high-resolution spatiotemporal atlas of gene expression of the developing mouse brain.
Thompson CL, Ng L, Menon V, Martinez S, Lee CK, Glattfelder K, Sunkin SM, Henry A, Lau C, Dang C, Garcia-Lopez R, Martinez-Ferre A, Pombero A, Rubenstein JLR, Wakeman WB, Hohmann J, Dee N, Sodt AJ, Young R, Smith K, Nguyen TN, Kidney J, Kuan L, Jeromin A, Kaykas A, Miller J, Page D, Orta G, Bernard A, Riley Z, Smith S, Wohnoutka P, Hawrylycz MJ, Puelles L, Jones AR
Neuron83(2)309-323(2014 Jul)

The International Mouse Phenotyping Consortium Web Portal, a unified point of access for knockout mice and related phenotyping data.
Koscielny G, Yaikhom G, Iyer V, Meehan TF, Morgan H, Atienza-Herrero J, Blake A, Chen CK, Easty R, Di Fenza A, Fiegel T, Grifiths M, Horne A, Karp NA, Kurbatova N, Mason JC, Matthews P, Oakley DJ, Qazi A, Regnart J, Retha A, Santos LA, Sneddon DJ, Warren J, Westerberg H, Wilson RJ, Melvin DG, Smedley D, Brown SD, Flicek P, Skarnes WC, Mallon AM, Parkinson H
Nucleic acids research42(Database issue)D802-9(2014 Jan)

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

The following Pcdh18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Pcdh18 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)
OMu31474	XM_006500789.3 Latest version!	Mus musculus protocadherin 18 (Pcdh18), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMu09775	NM_130448.3 Latest version!	Mus musculus protocadherin 18 (Pcdh18), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$664.30 $949.00
View Old Accession Versions >>
OMu31474	XM_006500789.2	Mus musculus protocadherin 18 (Pcdh18), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
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)

Pcdh18 ( XM_006500789.3 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006500852.1 Mus musculus protocadherin 18 (Pcdh18), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMu31474
Clone ID Related Accession (Same CDS sequence)	XM_006500789.2 , XM_006500789.3
Accession Version	XM_006500789.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3408bp) 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	2019-08-07
Organism	Mus musculus(house mouse)
Product	protocadherin 18 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000069.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 8, 2019 this sequence version replaced XM_006500789.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACCAAA TGAATACTAA AATGCACTTT AGATTTGCAC TTGCACTTCT GATGGCGTTT 
TTCAGCCACG ATGTCCTGGC TAAGAATCTG AAATACAGGA TTTATGAGGA GCAGAGGGTC 
GGATCGGTAA TTGCTAGACT ATCAGAAGAT GTGGCTGATG TTTTATTGAA GCTACCAAAT 
CCTTCTGCTG TTCGTTTTCG AGCCATGCCA CGGGGGAATT CTCCTCTCCT GGTCGTAAAT 
GAGAATACCG GAGAAATCAG CATAGGGGCT AAAATTGACC GCGAGCAACT ATGCCAAAAA 
AACTTGAACT GTTCGATAGA GTTTGATGTG CTCACTCTGC CGACCGAGCA TCTGCAGCTG 
TTCCACATTG AAGTGGACGT GCTGGACATT AATGACAATT CCCCCCAATT CTCGAGACCC 
GTCATTCCCA TTGAGATATC GGAGAGCGCA GCAGTTGGGA CTCGTATCCC CCTGGACAGT 
GCGTTCGACC CAGATGTTGG GGAAAATTCC CTCCACACCT ACTCGCTCTC TGCTAATGAT 
TATTTTAATA TCGAAGTGCG AACCAGGACA GACGGGGCCA AGTACGCTGA ACTCATAGTG 
GTGAAAGAGT TGGATCGGGA GCTGAAGGCT AGCTACGAGC TTCAGCTCAC CGCCTCCGAC 
ATGGGAGTGC CTCAGAGGTC TGGCTCCTCC ATCCTGAAAA TCAGCATTTC GGATTCCAAC 
GACAACAGCC CGGCCTTTGA GCAGCCTTCT TACACAATAC AACTCTTAGA AAACTCCCCA 
GTTGGAACCT TGCTCCTTGA TCTAAATGCC ACCGATCCAG ATGAGGGCGC TAATGGGAGA 
ATTGTGTATT CTTTCAGCAG TCATGTGTCT CCCAAAATTA TAGAGACTTT TAAGATCGAC 
TCAGAAAAAG GCCACTTGAC TCTTTTCAAG CCAGTGGATT ATGAAATCAC CAAGTCCTAT 
GAGATAGACG TTCAAGCCCA AGATTTGGGT CCCAATTCCA TTCCTGCTCA TTGCAAAATT 
ATAATTAAGG TTGTGGATGT CAATGACAAT AAACCTGAAA TTAGCATAAA TCTCATGTCC 
CCTGGAAAAG AAGAAGTATC TTATGTCTTT GAAGGGGATC CCATTGATAC ATTCGTTGCT 
ATCGTCAGGG TTCAAGACAA GGATTCTGGG CTGAATGGGG AAATAATCTG TAAGCTTCAT 
GGGCATGGAC ATTTTAAACT TCAGAAGACA TATGAAAATA ACTACTTGAT CTTGACCAAT 
GCCACTCTGG ATAGAGAAAA GAGATCTGAG TATAGTTTGA CTGTGATTGC TGAGGACAAG 
GGAACACCAA GCCTCTCCTC AGTGAGACAT TTTACTGTTC AAATCAATGA CATAAATGAC 
AATCCACCTC GCTTCCAGAG GAGCCGATAT GAATTTGTCA TCTCAGAGAA TAATTCACCA 
GGGGCGTATA TCACCACAGT TACAGCCACT GATCCAGATC TTGGTGAAAA CGGACATGTG 
ACATACACCA TTTTGGAGAG TTTTGTCTTG GGAAGTTCCA TCACCACGTA TGTAACCATT 
GACCCCTCTA ATGGCGCCAT CTATGCCCTC AGGATCTTTG ATCATGAAGA AGTGAGTCAG 
ATCACTTTTG TGGTGGAAGC CAGGGATGGA GGGAGTCAGA AGCAACTCTC CAGCAACACC 
ACCGTTGTGC TGACCATCAT TGATGAGAAT GACAATGTCC CTGTGGTTAT AGGGCCTGCA 
ATGCACAATA ATACTGCAGA AATATCCATC CCCAAAGGAG CTGAAAGTGG TTTTCATGTC 
ACAAGAATAA GGGTGGTCGA CAGGGACTCT GGTGCCAATG CTGAATTCAG CTGCTCCATA 
GTATCTGGTA ATGAGGAAAA CATCTTTATC ATGGACCCTA GGTCATGTGA CATTCATACC 
AACGTCAGCA TGGAATCCAT TCCCTCTGCG GAATGGGCAC TCTCAGTTAT CATCCAGGAC 
AAGGGCAGTC CTCCTCTGCA CACCAAAGTC CTTCTGAGGT GCATGGTCTT TGACTATGCA 
GAATCTGTGA CAAGCACAGC CATGACCTCT GTCAGCCGCG CATCCTTGGA TGTGTCCATG 
ATCATAATTA TTTCCTTGGG AGCAATTTGT GCTGTGTTGC TGGTTATTAT GGTCCTGTTT 
GCAACGAGGT GTAATAGAGA AAAGAAAGAC ACCAGATCCT ACAACTGCAG GGTGGCAGAA 
TCCACGTACC AGCATCATCC TAAAAGGCCA TCCAGGCAGA TTCACAAAGG AGACATCACA 
CTGGTACCCA CCATCAATGG CACTCTGCCC ATCAGATCTC ACCACAGATC CTCCCCATCT 
TCATCCCCAA CCTTGGAGAG GGGACAAATG GGCAGCCGCC AGAGTCACAA CAGTCACCAG 
TCACTCAACA GTTTGGTGAC CATCTCATCA AACCACGTGC CAGAGAATTT TTCATTAGAA 
CTCACCCACG CCACTCCTGC TGTTGAGCAG GTCTCGCAGC TTCTCTCCAT GCTTCACCAG 
GGGCAATATC AGCCACGGCC AAGTTTTCGA GGAAACAAAT ATTCCAGGAG CTATAGATAT 
GCCCTTCAAG ACATGGATAA ATTTAGCCTG AAAGACAGTG GCCGTGGAGA TAGCGAAGCA 
GGAGATAGCG ATTATGATTT GGGGCGCGAT TCTCCGATAG ACAGGCTCCT GGGAGAAGGA 
TTCAGTGACC TCTTCCTCAC GGACGGGAGA ATTCCAGCAG CAATGAGGCT ATGTACGGAG 
GAGTGCAGAG TCCTGGGCCA CTCTGACCAG TGCTGGATGC CCCCGCTGCC CTCGCCATCC 
TCTGACTACA GAAGCAACAT GTTCATCCCC GGAGAAGAAT TCCCAGCTCA ACCTCAGCAA 
CAGCATTCTC ATCAGGGCCT TGATGATGAC AGCCAGCCTG CAGAAAACGG GGAGAAAAAA 
AAGAGCTTCT CCACTTTTGG GAAGGACTCC CCTAGCGACG AGGATTCGGG AGACTCTAGC 
ACATCATCTC TGCTATCAGA AATGAGCAGT GTGTTCCAGC GCCTTCTCCC CGCATCCCTA 
GATACCTTTT CTGAATGCAA CGAAGGGGAT CGCTCCAACT CTCTGGAACG TCGAAAGGGT 
CCGGCACAGG GCAAAACTGG GGGTTACCCA CAAGGGGTTG CGGCCTGGGC AGCCAGCACA 
CATTTTCAGA ACCCCACCAG CAGCTCTGGG ACCCCTCTGG GGACTCACTC TAGTGTGCAG 
CCTTCCTCCA AGTGGCTGCC AGCTATGGAG GAGATTCCTG AAAATTACGA GGAAGATGAT 
TTTGACAATG TGCTTAACCA TCTCAGCGAT GGGAAACACG AACTCATGGA TGCCAGCGAG 
CTGGTGGCTG AGATCAACAA ACTGCTTCAA GACGTCCGCC AGAGCTAG

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

RefSeq	XP_006500852.1
CDS	520..3927
Translation	MHQMNTKMHFRFALALLMAFFSHDVLAKNLKYRIYEEQRVGSVIARLSEDVADVLLKLPNPSAVRFRAMPRGNSPLLVVNENTGEISIGAKIDREQLCQKNLNCSIEFDVLTLPTEHLQLFHIEVDVLDINDNSPQFSRPVIPIEISESAAVGTRIPLDSAFDPDVGENSLHTYSLSANDYFNIEVRTRTDGAKYAELIVVKELDRELKASYELQLTASDMGVPQRSGSSILKISISDSNDNSPAFEQPSYTIQLLENSPVGTLLLDLNATDPDEGANGRIVYSFSSHVSPKIIETFKIDSEKGHLTLFKPVDYEITKSYEIDVQAQDLGPNSIPAHCKIIIKVVDVNDNKPEISINLMSPGKEEVSYVFEGDPIDTFVAIVRVQDKDSGLNGEIICKLHGHGHFKLQKTYENNYLILTNATLDREKRSEYSLTVIAEDKGTPSLSSVRHFTVQINDINDNPPRFQRSRYEFVISENNSPGAYITTVTATDPDLGENGHVTYTILESFVLGSSITTYVTIDPSNGAIYALRIFDHEEVSQITFVVEARDGGSQKQLSSNTTVVLTIIDENDNVPVVIGPAMHNNTAEISIPKGAESGFHVTRIRVVDRDSGANAEFSCSIVSGNEENIFIMDPRSCDIHTNVSMESIPSAEWALSVIIQDKGSPPLHTKVLLRCMVFDYAESVTSTAMTSVSRASLDVSMIIIISLGAICAVLLVIMVLFATRCNREKKDTRSYNCRVAESTYQHHPKRPSRQIHKGDITLVPTINGTLPIRSHHRSSPSSSPTLERGQMGSRQSHNSHQSLNSLVTISSNHVPENFSLELTHATPAVEQVSQLLSMLHQGQYQPRPSFRGNKYSRSYRYALQDMDKFSLKDSGRGDSEAGDSDYDLGRDSPIDRLLGEGFSDLFLTDGRIPAAMRLCTEECRVLGHSDQCWMPPLPSPSSDYRSNMFIPGEEFPAQPQQQHSHQGLDDDSQPAENGEKKKSFSTFGKDSPSDEDSGDSSTSSLLSEMSSVFQRLLPASLDTFSECNEGDRSNSLERRKGPAQGKTGGYPQGVAAWAASTHFQNPTSSSGTPLGTHSSVQPSSKWLPAMEEIPENYEEDDFDNVLNHLSDGKHELMDASELVAEINKLLQDVRQS

Target ORF information:

RefSeq Version	XM_006500789.3
Organism	Mus musculus(house mouse)
Definition	Mus musculus protocadherin 18 (Pcdh18), transcript variant X1, mRNA.

Target ORF information:

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

XM_006500789.3

ORF Insert Sequence:

ATGCACCAAA TGAATACTAA AATGCACTTT AGATTTGCAC TTGCACTTCT GATGGCGTTT 
TTCAGCCACG ATGTCCTGGC TAAGAATCTG AAATACAGGA TTTATGAGGA GCAGAGGGTC 
GGATCGGTAA TTGCTAGACT ATCAGAAGAT GTGGCTGATG TTTTATTGAA GCTACCAAAT 
CCTTCTGCTG TTCGTTTTCG AGCCATGCCA CGGGGGAATT CTCCTCTCCT GGTCGTAAAT 
GAGAATACCG GAGAAATCAG CATAGGGGCT AAAATTGACC GCGAGCAACT ATGCCAAAAA 
AACTTGAACT GTTCGATAGA GTTTGATGTG CTCACTCTGC CGACCGAGCA TCTGCAGCTG 
TTCCACATTG AAGTGGACGT GCTGGACATT AATGACAATT CCCCCCAATT CTCGAGACCC 
GTCATTCCCA TTGAGATATC GGAGAGCGCA GCAGTTGGGA CTCGTATCCC CCTGGACAGT 
GCGTTCGACC CAGATGTTGG GGAAAATTCC CTCCACACCT ACTCGCTCTC TGCTAATGAT 
TATTTTAATA TCGAAGTGCG AACCAGGACA GACGGGGCCA AGTACGCTGA ACTCATAGTG 
GTGAAAGAGT TGGATCGGGA GCTGAAGGCT AGCTACGAGC TTCAGCTCAC CGCCTCCGAC 
ATGGGAGTGC CTCAGAGGTC TGGCTCCTCC ATCCTGAAAA TCAGCATTTC GGATTCCAAC 
GACAACAGCC CGGCCTTTGA GCAGCCTTCT TACACAATAC AACTCTTAGA AAACTCCCCA 
GTTGGAACCT TGCTCCTTGA TCTAAATGCC ACCGATCCAG ATGAGGGCGC TAATGGGAGA 
ATTGTGTATT CTTTCAGCAG TCATGTGTCT CCCAAAATTA TAGAGACTTT TAAGATCGAC 
TCAGAAAAAG GCCACTTGAC TCTTTTCAAG CCAGTGGATT ATGAAATCAC CAAGTCCTAT 
GAGATAGACG TTCAAGCCCA AGATTTGGGT CCCAATTCCA TTCCTGCTCA TTGCAAAATT 
ATAATTAAGG TTGTGGATGT CAATGACAAT AAACCTGAAA TTAGCATAAA TCTCATGTCC 
CCTGGAAAAG AAGAAGTATC TTATGTCTTT GAAGGGGATC CCATTGATAC ATTCGTTGCT 
ATCGTCAGGG TTCAAGACAA GGATTCTGGG CTGAATGGGG AAATAATCTG TAAGCTTCAT 
GGGCATGGAC ATTTTAAACT TCAGAAGACA TATGAAAATA ACTACTTGAT CTTGACCAAT 
GCCACTCTGG ATAGAGAAAA GAGATCTGAG TATAGTTTGA CTGTGATTGC TGAGGACAAG 
GGAACACCAA GCCTCTCCTC AGTGAGACAT TTTACTGTTC AAATCAATGA CATAAATGAC 
AATCCACCTC GCTTCCAGAG GAGCCGATAT GAATTTGTCA TCTCAGAGAA TAATTCACCA 
GGGGCGTATA TCACCACAGT TACAGCCACT GATCCAGATC TTGGTGAAAA CGGACATGTG 
ACATACACCA TTTTGGAGAG TTTTGTCTTG GGAAGTTCCA TCACCACGTA TGTAACCATT 
GACCCCTCTA ATGGCGCCAT CTATGCCCTC AGGATCTTTG ATCATGAAGA AGTGAGTCAG 
ATCACTTTTG TGGTGGAAGC CAGGGATGGA GGGAGTCAGA AGCAACTCTC CAGCAACACC 
ACCGTTGTGC TGACCATCAT TGATGAGAAT GACAATGTCC CTGTGGTTAT AGGGCCTGCA 
ATGCACAATA ATACTGCAGA AATATCCATC CCCAAAGGAG CTGAAAGTGG TTTTCATGTC 
ACAAGAATAA GGGTGGTCGA CAGGGACTCT GGTGCCAATG CTGAATTCAG CTGCTCCATA 
GTATCTGGTA ATGAGGAAAA CATCTTTATC ATGGACCCTA GGTCATGTGA CATTCATACC 
AACGTCAGCA TGGAATCCAT TCCCTCTGCG GAATGGGCAC TCTCAGTTAT CATCCAGGAC 
AAGGGCAGTC CTCCTCTGCA CACCAAAGTC CTTCTGAGGT GCATGGTCTT TGACTATGCA 
GAATCTGTGA CAAGCACAGC CATGACCTCT GTCAGCCGCG CATCCTTGGA TGTGTCCATG 
ATCATAATTA TTTCCTTGGG AGCAATTTGT GCTGTGTTGC TGGTTATTAT GGTCCTGTTT 
GCAACGAGGT GTAATAGAGA AAAGAAAGAC ACCAGATCCT ACAACTGCAG GGTGGCAGAA 
TCCACGTACC AGCATCATCC TAAAAGGCCA TCCAGGCAGA TTCACAAAGG AGACATCACA 
CTGGTACCCA CCATCAATGG CACTCTGCCC ATCAGATCTC ACCACAGATC CTCCCCATCT 
TCATCCCCAA CCTTGGAGAG GGGACAAATG GGCAGCCGCC AGAGTCACAA CAGTCACCAG 
TCACTCAACA GTTTGGTGAC CATCTCATCA AACCACGTGC CAGAGAATTT TTCATTAGAA 
CTCACCCACG CCACTCCTGC TGTTGAGCAG GTCTCGCAGC TTCTCTCCAT GCTTCACCAG 
GGGCAATATC AGCCACGGCC AAGTTTTCGA GGAAACAAAT ATTCCAGGAG CTATAGATAT 
GCCCTTCAAG ACATGGATAA ATTTAGCCTG AAAGACAGTG GCCGTGGAGA TAGCGAAGCA 
GGAGATAGCG ATTATGATTT GGGGCGCGAT TCTCCGATAG ACAGGCTCCT GGGAGAAGGA 
TTCAGTGACC TCTTCCTCAC GGACGGGAGA ATTCCAGCAG CAATGAGGCT ATGTACGGAG 
GAGTGCAGAG TCCTGGGCCA CTCTGACCAG TGCTGGATGC CCCCGCTGCC CTCGCCATCC 
TCTGACTACA GAAGCAACAT GTTCATCCCC GGAGAAGAAT TCCCAGCTCA ACCTCAGCAA 
CAGCATTCTC ATCAGGGCCT TGATGATGAC AGCCAGCCTG CAGAAAACGG GGAGAAAAAA 
AAGAGCTTCT CCACTTTTGG GAAGGACTCC CCTAGCGACG AGGATTCGGG AGACTCTAGC 
ACATCATCTC TGCTATCAGA AATGAGCAGT GTGTTCCAGC GCCTTCTCCC CGCATCCCTA 
GATACCTTTT CTGAATGCAA CGAAGGGGAT CGCTCCAACT CTCTGGAACG TCGAAAGGGT 
CCGGCACAGG GCAAAACTGG GGGTTACCCA CAAGGGGTTG CGGCCTGGGC AGCCAGCACA 
CATTTTCAGA ACCCCACCAG CAGCTCTGGG ACCCCTCTGG GGACTCACTC TAGTGTGCAG 
CCTTCCTCCA AGTGGCTGCC AGCTATGGAG GAGATTCCTG AAAATTACGA GGAAGATGAT 
TTTGACAATG TGCTTAACCA TCTCAGCGAT GGGAAACACG AACTCATGGA TGCCAGCGAG 
CTGGTGGCTG AGATCAACAA ACTGCTTCAA GACGTCCGCC AGAGCTAG

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

Pcdh18 ( NM_130448.3 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_569715.3 Mus musculus protocadherin 18 (Pcdh18), mRNA.

Price & Availability↑

CloneID	OMu09775
Clone ID Related Accession (Same CDS sequence)	NM_130448.3
Accession Version	NM_130448.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3405bp) 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	2019-12-24
Organism	Mus musculus(house mouse)
Product	protocadherin 18 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC101940.17. On Mar 18, 2008 this sequence version replaced NM_130448.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC052198.1, AK173204.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN01164134, SAMN01164137 [ECO:0000348] ##Evidence-Data-END##

ATGCACCAAA TGAATACTAA AATGCACTTT AGATTTGCAC TTGCACTTCT GATGGCGTTT 
TTCAGCCACG ATGTCCTGGC TAAGAATCTG AAATACAGGA TTTATGAGGA GCAGAGGGTC 
GGATCGGTAA TTGCTAGACT ATCAGAAGAT GTGGCTGATG TTTTATTGAA GCTACCAAAT 
CCTTCTGCTG TTCGTTTTCG AGCCATGCCA CGGGGGAATT CTCCTCTCCT GGTCGTAAAT 
GAGAATACCG GAGAAATCAG CATAGGGGCT AAAATTGACC GCGAGCAACT ATGCCAAAAA 
AACTTGAACT GTTCGATAGA GTTTGATGTG CTCACTCTGC CGACCGAGCA TCTGCAGCTG 
TTCCACATTG AAGTGGACGT GCTGGACATT AATGACAATT CCCCCCAATT CTCGAGACCC 
GTCATTCCCA TTGAGATATC GGAGAGCGCA GCAGTTGGGA CTCGTATCCC CCTGGACAGT 
GCGTTCGACC CAGATGTTGG GGAAAATTCC CTCCACACCT ACTCGCTCTC TGCTAATGAT 
TATTTTAATA TCGAAGTGCG AACCAGGACA GACGGGGCCA AGTACGCTGA ACTCATAGTG 
GTGAAAGAGT TGGATCGGGA GCTGAAGGCT AGCTACGAGC TTCAGCTCAC CGCCTCCGAC 
ATGGGAGTGC CTCAGAGGTC TGGCTCCTCC ATCCTGAAAA TCAGCATTTC GGATTCCAAC 
GACAACAGCC CGGCCTTTGA GCAGCCTTCT TACACAATAC AACTCTTAGA AAACTCCCCA 
GTTGGAACCT TGCTCCTTGA TCTAAATGCC ACCGATCCAG ATGAGGGCGC TAATGGGAGA 
ATTGTGTATT CTTTCAGCAG TCATGTGTCT CCCAAAATTA TAGAGACTTT TAAGATCGAC 
TCAGAAAAAG GCCACTTGAC TCTTTTCAAG CCAGTGGATT ATGAAATCAC CAAGTCCTAT 
GAGATAGACG TTCAAGCCCA AGATTTGGGT CCCAATTCCA TTCCTGCTCA TTGCAAAATT 
ATAATTAAGG TTGTGGATGT CAATGACAAT AAACCTGAAA TTAGCATAAA TCTCATGTCC 
CCTGGAAAAG AAGAAGTATC TTATGTCTTT GAAGGGGATC CCATTGATAC ATTCGTTGCT 
ATCGTCAGGG TTCAAGACAA GGATTCTGGG CTGAATGGGG AAATAATCTG TAAGCTTCAT 
GGGCATGGAC ATTTTAAACT TCAGAAGACA TATGAAAATA ACTACTTGAT CTTGACCAAT 
GCCACTCTGG ATAGAGAAAA GAGATCTGAG TATAGTTTGA CTGTGATTGC TGAGGACAAG 
GGAACACCAA GCCTCTCCTC AGTGAGACAT TTTACTGTTC AAATCAATGA CATAAATGAC 
AATCCACCTC GCTTCCAGAG GAGCCGATAT GAATTTGTCA TCTCAGAGAA TAATTCACCA 
GGGGCGTATA TCACCACAGT TACAGCCACT GATCCAGATC TTGGTGAAAA CGGACATGTG 
ACATACACCA TTTTGGAGAG TTTTGTCTTG GGAAGTTCCA TCACCACGTA TGTAACCATT 
GACCCCTCTA ATGGCGCCAT CTATGCCCTC AGGATCTTTG ATCATGAAGA AGTGAGTCAG 
ATCACTTTTG TGGTGGAAGC CAGGGATGGA GGGAGTCAGA AGCAACTCTC CAGCAACACC 
ACCGTTGTGC TGACCATCAT TGATGAGAAT GACAATGTCC CTGTGGTTAT AGGGCCTGCA 
ATGCACAATA ATACTGCAGA AATATCCATC CCCAAAGGAG CTGAAAGTGG TTTTCATGTC 
ACAAGAATAA GGGTGGTCGA CAGGGACTCT GGTGCCAATG CTGAATTCAG CTGCTCCATA 
GTATCTGGTA ATGAGGAAAA CATCTTTATC ATGGACCCTA GGTCATGTGA CATTCATACC 
AACGTCAGCA TGGAATCCAT TCCCTCTGCG GAATGGGCAC TCTCAGTTAT CATCCAGGAC 
AAGGGCAGTC CTCCTCTGCA CACCAAAGTC CTTCTGAGGT GCATGGTCTT TGACTATGCA 
GAATCTGTGA CAAGCACAGC CATGACCTCT GTCAGCCGCG CATCCTTGGA TGTGTCCATG 
ATCATAATTA TTTCCTTGGG AGCAATTTGT GCTGTGTTGC TGGTTATTAT GGTCCTGTTT 
GCAACGAGGT GTAATAGAGA AAAGAAAGAC ACCAGATCCT ACAACTGCAG GGTGGCAGAA 
TCCACGTACC AGCATCATCC TAAAAGGCCA TCCAGGCAGA TTCACAAAGG AGACATCACA 
CTGGTACCCA CCATCAATGG CACTCTGCCC ATCAGATCTC ACCACAGATC CTCCCCATCT 
TCATCCCCAA CCTTGGAGAG GGGACAAATG GGCAGCCGCC AGAGTCACAA CAGTCACCAG 
TCACTCAACA GTTTGGTGAC CATCTCATCA AACCACGTGC CAGAGAATTT TTCATTAGAA 
CTCACCCACG CCACTCCTGC TGTTGAGGTC TCGCAGCTTC TCTCCATGCT TCACCAGGGG 
CAATATCAGC CACGGCCAAG TTTTCGAGGA AACAAATATT CCAGGAGCTA TAGATATGCC 
CTTCAAGACA TGGATAAATT TAGCCTGAAA GACAGTGGCC GTGGAGATAG CGAAGCAGGA 
GATAGCGATT ATGATTTGGG GCGCGATTCT CCGATAGACA GGCTCCTGGG AGAAGGATTC 
AGTGACCTCT TCCTCACGGA CGGGAGAATT CCAGCAGCAA TGAGGCTATG TACGGAGGAG 
TGCAGAGTCC TGGGCCACTC TGACCAGTGC TGGATGCCCC CGCTGCCCTC GCCATCCTCT 
GACTACAGAA GCAACATGTT CATCCCCGGA GAAGAATTCC CAGCTCAACC TCAGCAACAG 
CATTCTCATC AGGGCCTTGA TGATGACAGC CAGCCTGCAG AAAACGGGGA GAAAAAAAAG 
AGCTTCTCCA CTTTTGGGAA GGACTCCCCT AGCGACGAGG ATTCGGGAGA CTCTAGCACA 
TCATCTCTGC TATCAGAAAT GAGCAGTGTG TTCCAGCGCC TTCTCCCCGC ATCCCTAGAT 
ACCTTTTCTG AATGCAACGA AGGGGATCGC TCCAACTCTC TGGAACGTCG AAAGGGTCCG 
GCACAGGGCA AAACTGGGGG TTACCCACAA GGGGTTGCGG CCTGGGCAGC CAGCACACAT 
TTTCAGAACC CCACCAGCAG CTCTGGGACC CCTCTGGGGA CTCACTCTAG TGTGCAGCCT 
TCCTCCAAGT GGCTGCCAGC TATGGAGGAG ATTCCTGAAA ATTACGAGGA AGATGATTTT 
GACAATGTGC TTAACCATCT CAGCGATGGG AAACACGAAC TCATGGATGC CAGCGAGCTG 
GTGGCTGAGA TCAACAAACT GCTTCAAGAC GTCCGCCAGA GCTAG

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

RefSeq	NP_569715.3
CDS	453..3857
Translation	MHQMNTKMHFRFALALLMAFFSHDVLAKNLKYRIYEEQRVGSVIARLSEDVADVLLKLPNPSAVRFRAMPRGNSPLLVVNENTGEISIGAKIDREQLCQKNLNCSIEFDVLTLPTEHLQLFHIEVDVLDINDNSPQFSRPVIPIEISESAAVGTRIPLDSAFDPDVGENSLHTYSLSANDYFNIEVRTRTDGAKYAELIVVKELDRELKASYELQLTASDMGVPQRSGSSILKISISDSNDNSPAFEQPSYTIQLLENSPVGTLLLDLNATDPDEGANGRIVYSFSSHVSPKIIETFKIDSEKGHLTLFKPVDYEITKSYEIDVQAQDLGPNSIPAHCKIIIKVVDVNDNKPEISINLMSPGKEEVSYVFEGDPIDTFVAIVRVQDKDSGLNGEIICKLHGHGHFKLQKTYENNYLILTNATLDREKRSEYSLTVIAEDKGTPSLSSVRHFTVQINDINDNPPRFQRSRYEFVISENNSPGAYITTVTATDPDLGENGHVTYTILESFVLGSSITTYVTIDPSNGAIYALRIFDHEEVSQITFVVEARDGGSQKQLSSNTTVVLTIIDENDNVPVVIGPAMHNNTAEISIPKGAESGFHVTRIRVVDRDSGANAEFSCSIVSGNEENIFIMDPRSCDIHTNVSMESIPSAEWALSVIIQDKGSPPLHTKVLLRCMVFDYAESVTSTAMTSVSRASLDVSMIIIISLGAICAVLLVIMVLFATRCNREKKDTRSYNCRVAESTYQHHPKRPSRQIHKGDITLVPTINGTLPIRSHHRSSPSSSPTLERGQMGSRQSHNSHQSLNSLVTISSNHVPENFSLELTHATPAVEVSQLLSMLHQGQYQPRPSFRGNKYSRSYRYALQDMDKFSLKDSGRGDSEAGDSDYDLGRDSPIDRLLGEGFSDLFLTDGRIPAAMRLCTEECRVLGHSDQCWMPPLPSPSSDYRSNMFIPGEEFPAQPQQQHSHQGLDDDSQPAENGEKKKSFSTFGKDSPSDEDSGDSSTSSLLSEMSSVFQRLLPASLDTFSECNEGDRSNSLERRKGPAQGKTGGYPQGVAAWAASTHFQNPTSSSGTPLGTHSSVQPSSKWLPAMEEIPENYEEDDFDNVLNHLSDGKHELMDASELVAEINKLLQDVRQS

Target ORF information:

RefSeq Version	NM_130448.3
Organism	Mus musculus(house mouse)
Definition	Mus musculus protocadherin 18 (Pcdh18), mRNA.

Target ORF information:

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

NM_130448.3

ORF Insert Sequence:

ATGCACCAAA TGAATACTAA AATGCACTTT AGATTTGCAC TTGCACTTCT GATGGCGTTT 
TTCAGCCACG ATGTCCTGGC TAAGAATCTG AAATACAGGA TTTATGAGGA GCAGAGGGTC 
GGATCGGTAA TTGCTAGACT ATCAGAAGAT GTGGCTGATG TTTTATTGAA GCTACCAAAT 
CCTTCTGCTG TTCGTTTTCG AGCCATGCCA CGGGGGAATT CTCCTCTCCT GGTCGTAAAT 
GAGAATACCG GAGAAATCAG CATAGGGGCT AAAATTGACC GCGAGCAACT ATGCCAAAAA 
AACTTGAACT GTTCGATAGA GTTTGATGTG CTCACTCTGC CGACCGAGCA TCTGCAGCTG 
TTCCACATTG AAGTGGACGT GCTGGACATT AATGACAATT CCCCCCAATT CTCGAGACCC 
GTCATTCCCA TTGAGATATC GGAGAGCGCA GCAGTTGGGA CTCGTATCCC CCTGGACAGT 
GCGTTCGACC CAGATGTTGG GGAAAATTCC CTCCACACCT ACTCGCTCTC TGCTAATGAT 
TATTTTAATA TCGAAGTGCG AACCAGGACA GACGGGGCCA AGTACGCTGA ACTCATAGTG 
GTGAAAGAGT TGGATCGGGA GCTGAAGGCT AGCTACGAGC TTCAGCTCAC CGCCTCCGAC 
ATGGGAGTGC CTCAGAGGTC TGGCTCCTCC ATCCTGAAAA TCAGCATTTC GGATTCCAAC 
GACAACAGCC CGGCCTTTGA GCAGCCTTCT TACACAATAC AACTCTTAGA AAACTCCCCA 
GTTGGAACCT TGCTCCTTGA TCTAAATGCC ACCGATCCAG ATGAGGGCGC TAATGGGAGA 
ATTGTGTATT CTTTCAGCAG TCATGTGTCT CCCAAAATTA TAGAGACTTT TAAGATCGAC 
TCAGAAAAAG GCCACTTGAC TCTTTTCAAG CCAGTGGATT ATGAAATCAC CAAGTCCTAT 
GAGATAGACG TTCAAGCCCA AGATTTGGGT CCCAATTCCA TTCCTGCTCA TTGCAAAATT 
ATAATTAAGG TTGTGGATGT CAATGACAAT AAACCTGAAA TTAGCATAAA TCTCATGTCC 
CCTGGAAAAG AAGAAGTATC TTATGTCTTT GAAGGGGATC CCATTGATAC ATTCGTTGCT 
ATCGTCAGGG TTCAAGACAA GGATTCTGGG CTGAATGGGG AAATAATCTG TAAGCTTCAT 
GGGCATGGAC ATTTTAAACT TCAGAAGACA TATGAAAATA ACTACTTGAT CTTGACCAAT 
GCCACTCTGG ATAGAGAAAA GAGATCTGAG TATAGTTTGA CTGTGATTGC TGAGGACAAG 
GGAACACCAA GCCTCTCCTC AGTGAGACAT TTTACTGTTC AAATCAATGA CATAAATGAC 
AATCCACCTC GCTTCCAGAG GAGCCGATAT GAATTTGTCA TCTCAGAGAA TAATTCACCA 
GGGGCGTATA TCACCACAGT TACAGCCACT GATCCAGATC TTGGTGAAAA CGGACATGTG 
ACATACACCA TTTTGGAGAG TTTTGTCTTG GGAAGTTCCA TCACCACGTA TGTAACCATT 
GACCCCTCTA ATGGCGCCAT CTATGCCCTC AGGATCTTTG ATCATGAAGA AGTGAGTCAG 
ATCACTTTTG TGGTGGAAGC CAGGGATGGA GGGAGTCAGA AGCAACTCTC CAGCAACACC 
ACCGTTGTGC TGACCATCAT TGATGAGAAT GACAATGTCC CTGTGGTTAT AGGGCCTGCA 
ATGCACAATA ATACTGCAGA AATATCCATC CCCAAAGGAG CTGAAAGTGG TTTTCATGTC 
ACAAGAATAA GGGTGGTCGA CAGGGACTCT GGTGCCAATG CTGAATTCAG CTGCTCCATA 
GTATCTGGTA ATGAGGAAAA CATCTTTATC ATGGACCCTA GGTCATGTGA CATTCATACC 
AACGTCAGCA TGGAATCCAT TCCCTCTGCG GAATGGGCAC TCTCAGTTAT CATCCAGGAC 
AAGGGCAGTC CTCCTCTGCA CACCAAAGTC CTTCTGAGGT GCATGGTCTT TGACTATGCA 
GAATCTGTGA CAAGCACAGC CATGACCTCT GTCAGCCGCG CATCCTTGGA TGTGTCCATG 
ATCATAATTA TTTCCTTGGG AGCAATTTGT GCTGTGTTGC TGGTTATTAT GGTCCTGTTT 
GCAACGAGGT GTAATAGAGA AAAGAAAGAC ACCAGATCCT ACAACTGCAG GGTGGCAGAA 
TCCACGTACC AGCATCATCC TAAAAGGCCA TCCAGGCAGA TTCACAAAGG AGACATCACA 
CTGGTACCCA CCATCAATGG CACTCTGCCC ATCAGATCTC ACCACAGATC CTCCCCATCT 
TCATCCCCAA CCTTGGAGAG GGGACAAATG GGCAGCCGCC AGAGTCACAA CAGTCACCAG 
TCACTCAACA GTTTGGTGAC CATCTCATCA AACCACGTGC CAGAGAATTT TTCATTAGAA 
CTCACCCACG CCACTCCTGC TGTTGAGGTC TCGCAGCTTC TCTCCATGCT TCACCAGGGG 
CAATATCAGC CACGGCCAAG TTTTCGAGGA AACAAATATT CCAGGAGCTA TAGATATGCC 
CTTCAAGACA TGGATAAATT TAGCCTGAAA GACAGTGGCC GTGGAGATAG CGAAGCAGGA 
GATAGCGATT ATGATTTGGG GCGCGATTCT CCGATAGACA GGCTCCTGGG AGAAGGATTC 
AGTGACCTCT TCCTCACGGA CGGGAGAATT CCAGCAGCAA TGAGGCTATG TACGGAGGAG 
TGCAGAGTCC TGGGCCACTC TGACCAGTGC TGGATGCCCC CGCTGCCCTC GCCATCCTCT 
GACTACAGAA GCAACATGTT CATCCCCGGA GAAGAATTCC CAGCTCAACC TCAGCAACAG 
CATTCTCATC AGGGCCTTGA TGATGACAGC CAGCCTGCAG AAAACGGGGA GAAAAAAAAG 
AGCTTCTCCA CTTTTGGGAA GGACTCCCCT AGCGACGAGG ATTCGGGAGA CTCTAGCACA 
TCATCTCTGC TATCAGAAAT GAGCAGTGTG TTCCAGCGCC TTCTCCCCGC ATCCCTAGAT 
ACCTTTTCTG AATGCAACGA AGGGGATCGC TCCAACTCTC TGGAACGTCG AAAGGGTCCG 
GCACAGGGCA AAACTGGGGG TTACCCACAA GGGGTTGCGG CCTGGGCAGC CAGCACACAT 
TTTCAGAACC CCACCAGCAG CTCTGGGACC CCTCTGGGGA CTCACTCTAG TGTGCAGCCT 
TCCTCCAAGT GGCTGCCAGC TATGGAGGAG ATTCCTGAAA ATTACGAGGA AGATGATTTT 
GACAATGTGC TTAACCATCT CAGCGATGGG AAACACGAAC TCATGGATGC CAGCGAGCTG 
GTGGCTGAGA TCAACAAACT GCTTCAAGAC GTCCGCCAGA GCTAG

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

Pcdh18 ( XM_006500789.2 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006500852.1 Mus musculus protocadherin 18 (Pcdh18), transcript variant X1, mRNA.

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CloneID	OMu31474
Clone ID Related Accession (Same CDS sequence)	XM_006500789.2 , XM_006500789.3
Accession Version	XM_006500789.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3408bp) 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	2016-06-21
Organism	Mus musculus(house mouse)
Product	protocadherin 18 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000069.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 9, 2015 this sequence version replaced XM_006500789.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus musculus 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##

ATGCACCAAA TGAATACTAA AATGCACTTT AGATTTGCAC TTGCACTTCT GATGGCGTTT 
TTCAGCCACG ATGTCCTGGC TAAGAATCTG AAATACAGGA TTTATGAGGA GCAGAGGGTC 
GGATCGGTAA TTGCTAGACT ATCAGAAGAT GTGGCTGATG TTTTATTGAA GCTACCAAAT 
CCTTCTGCTG TTCGTTTTCG AGCCATGCCA CGGGGGAATT CTCCTCTCCT GGTCGTAAAT 
GAGAATACCG GAGAAATCAG CATAGGGGCT AAAATTGACC GCGAGCAACT ATGCCAAAAA 
AACTTGAACT GTTCGATAGA GTTTGATGTG CTCACTCTGC CGACCGAGCA TCTGCAGCTG 
TTCCACATTG AAGTGGACGT GCTGGACATT AATGACAATT CCCCCCAATT CTCGAGACCC 
GTCATTCCCA TTGAGATATC GGAGAGCGCA GCAGTTGGGA CTCGTATCCC CCTGGACAGT 
GCGTTCGACC CAGATGTTGG GGAAAATTCC CTCCACACCT ACTCGCTCTC TGCTAATGAT 
TATTTTAATA TCGAAGTGCG AACCAGGACA GACGGGGCCA AGTACGCTGA ACTCATAGTG 
GTGAAAGAGT TGGATCGGGA GCTGAAGGCT AGCTACGAGC TTCAGCTCAC CGCCTCCGAC 
ATGGGAGTGC CTCAGAGGTC TGGCTCCTCC ATCCTGAAAA TCAGCATTTC GGATTCCAAC 
GACAACAGCC CGGCCTTTGA GCAGCCTTCT TACACAATAC AACTCTTAGA AAACTCCCCA 
GTTGGAACCT TGCTCCTTGA TCTAAATGCC ACCGATCCAG ATGAGGGCGC TAATGGGAGA 
ATTGTGTATT CTTTCAGCAG TCATGTGTCT CCCAAAATTA TAGAGACTTT TAAGATCGAC 
TCAGAAAAAG GCCACTTGAC TCTTTTCAAG CCAGTGGATT ATGAAATCAC CAAGTCCTAT 
GAGATAGACG TTCAAGCCCA AGATTTGGGT CCCAATTCCA TTCCTGCTCA TTGCAAAATT 
ATAATTAAGG TTGTGGATGT CAATGACAAT AAACCTGAAA TTAGCATAAA TCTCATGTCC 
CCTGGAAAAG AAGAAGTATC TTATGTCTTT GAAGGGGATC CCATTGATAC ATTCGTTGCT 
ATCGTCAGGG TTCAAGACAA GGATTCTGGG CTGAATGGGG AAATAATCTG TAAGCTTCAT 
GGGCATGGAC ATTTTAAACT TCAGAAGACA TATGAAAATA ACTACTTGAT CTTGACCAAT 
GCCACTCTGG ATAGAGAAAA GAGATCTGAG TATAGTTTGA CTGTGATTGC TGAGGACAAG 
GGAACACCAA GCCTCTCCTC AGTGAGACAT TTTACTGTTC AAATCAATGA CATAAATGAC 
AATCCACCTC GCTTCCAGAG GAGCCGATAT GAATTTGTCA TCTCAGAGAA TAATTCACCA 
GGGGCGTATA TCACCACAGT TACAGCCACT GATCCAGATC TTGGTGAAAA CGGACATGTG 
ACATACACCA TTTTGGAGAG TTTTGTCTTG GGAAGTTCCA TCACCACGTA TGTAACCATT 
GACCCCTCTA ATGGCGCCAT CTATGCCCTC AGGATCTTTG ATCATGAAGA AGTGAGTCAG 
ATCACTTTTG TGGTGGAAGC CAGGGATGGA GGGAGTCAGA AGCAACTCTC CAGCAACACC 
ACCGTTGTGC TGACCATCAT TGATGAGAAT GACAATGTCC CTGTGGTTAT AGGGCCTGCA 
ATGCACAATA ATACTGCAGA AATATCCATC CCCAAAGGAG CTGAAAGTGG TTTTCATGTC 
ACAAGAATAA GGGTGGTCGA CAGGGACTCT GGTGCCAATG CTGAATTCAG CTGCTCCATA 
GTATCTGGTA ATGAGGAAAA CATCTTTATC ATGGACCCTA GGTCATGTGA CATTCATACC 
AACGTCAGCA TGGAATCCAT TCCCTCTGCG GAATGGGCAC TCTCAGTTAT CATCCAGGAC 
AAGGGCAGTC CTCCTCTGCA CACCAAAGTC CTTCTGAGGT GCATGGTCTT TGACTATGCA 
GAATCTGTGA CAAGCACAGC CATGACCTCT GTCAGCCGCG CATCCTTGGA TGTGTCCATG 
ATCATAATTA TTTCCTTGGG AGCAATTTGT GCTGTGTTGC TGGTTATTAT GGTCCTGTTT 
GCAACGAGGT GTAATAGAGA AAAGAAAGAC ACCAGATCCT ACAACTGCAG GGTGGCAGAA 
TCCACGTACC AGCATCATCC TAAAAGGCCA TCCAGGCAGA TTCACAAAGG AGACATCACA 
CTGGTACCCA CCATCAATGG CACTCTGCCC ATCAGATCTC ACCACAGATC CTCCCCATCT 
TCATCCCCAA CCTTGGAGAG GGGACAAATG GGCAGCCGCC AGAGTCACAA CAGTCACCAG 
TCACTCAACA GTTTGGTGAC CATCTCATCA AACCACGTGC CAGAGAATTT TTCATTAGAA 
CTCACCCACG CCACTCCTGC TGTTGAGCAG GTCTCGCAGC TTCTCTCCAT GCTTCACCAG 
GGGCAATATC AGCCACGGCC AAGTTTTCGA GGAAACAAAT ATTCCAGGAG CTATAGATAT 
GCCCTTCAAG ACATGGATAA ATTTAGCCTG AAAGACAGTG GCCGTGGAGA TAGCGAAGCA 
GGAGATAGCG ATTATGATTT GGGGCGCGAT TCTCCGATAG ACAGGCTCCT GGGAGAAGGA 
TTCAGTGACC TCTTCCTCAC GGACGGGAGA ATTCCAGCAG CAATGAGGCT ATGTACGGAG 
GAGTGCAGAG TCCTGGGCCA CTCTGACCAG TGCTGGATGC CCCCGCTGCC CTCGCCATCC 
TCTGACTACA GAAGCAACAT GTTCATCCCC GGAGAAGAAT TCCCAGCTCA ACCTCAGCAA 
CAGCATTCTC ATCAGGGCCT TGATGATGAC AGCCAGCCTG CAGAAAACGG GGAGAAAAAA 
AAGAGCTTCT CCACTTTTGG GAAGGACTCC CCTAGCGACG AGGATTCGGG AGACTCTAGC 
ACATCATCTC TGCTATCAGA AATGAGCAGT GTGTTCCAGC GCCTTCTCCC CGCATCCCTA 
GATACCTTTT CTGAATGCAA CGAAGGGGAT CGCTCCAACT CTCTGGAACG TCGAAAGGGT 
CCGGCACAGG GCAAAACTGG GGGTTACCCA CAAGGGGTTG CGGCCTGGGC AGCCAGCACA 
CATTTTCAGA ACCCCACCAG CAGCTCTGGG ACCCCTCTGG GGACTCACTC TAGTGTGCAG 
CCTTCCTCCA AGTGGCTGCC AGCTATGGAG GAGATTCCTG AAAATTACGA GGAAGATGAT 
TTTGACAATG TGCTTAACCA TCTCAGCGAT GGGAAACACG AACTCATGGA TGCCAGCGAG 
CTGGTGGCTG AGATCAACAA ACTGCTTCAA GACGTCCGCC AGAGCTAG

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

RefSeq	XP_006500852.1
CDS	519..3926
Translation	MHQMNTKMHFRFALALLMAFFSHDVLAKNLKYRIYEEQRVGSVIARLSEDVADVLLKLPNPSAVRFRAMPRGNSPLLVVNENTGEISIGAKIDREQLCQKNLNCSIEFDVLTLPTEHLQLFHIEVDVLDINDNSPQFSRPVIPIEISESAAVGTRIPLDSAFDPDVGENSLHTYSLSANDYFNIEVRTRTDGAKYAELIVVKELDRELKASYELQLTASDMGVPQRSGSSILKISISDSNDNSPAFEQPSYTIQLLENSPVGTLLLDLNATDPDEGANGRIVYSFSSHVSPKIIETFKIDSEKGHLTLFKPVDYEITKSYEIDVQAQDLGPNSIPAHCKIIIKVVDVNDNKPEISINLMSPGKEEVSYVFEGDPIDTFVAIVRVQDKDSGLNGEIICKLHGHGHFKLQKTYENNYLILTNATLDREKRSEYSLTVIAEDKGTPSLSSVRHFTVQINDINDNPPRFQRSRYEFVISENNSPGAYITTVTATDPDLGENGHVTYTILESFVLGSSITTYVTIDPSNGAIYALRIFDHEEVSQITFVVEARDGGSQKQLSSNTTVVLTIIDENDNVPVVIGPAMHNNTAEISIPKGAESGFHVTRIRVVDRDSGANAEFSCSIVSGNEENIFIMDPRSCDIHTNVSMESIPSAEWALSVIIQDKGSPPLHTKVLLRCMVFDYAESVTSTAMTSVSRASLDVSMIIIISLGAICAVLLVIMVLFATRCNREKKDTRSYNCRVAESTYQHHPKRPSRQIHKGDITLVPTINGTLPIRSHHRSSPSSSPTLERGQMGSRQSHNSHQSLNSLVTISSNHVPENFSLELTHATPAVEQVSQLLSMLHQGQYQPRPSFRGNKYSRSYRYALQDMDKFSLKDSGRGDSEAGDSDYDLGRDSPIDRLLGEGFSDLFLTDGRIPAAMRLCTEECRVLGHSDQCWMPPLPSPSSDYRSNMFIPGEEFPAQPQQQHSHQGLDDDSQPAENGEKKKSFSTFGKDSPSDEDSGDSSTSSLLSEMSSVFQRLLPASLDTFSECNEGDRSNSLERRKGPAQGKTGGYPQGVAAWAASTHFQNPTSSSGTPLGTHSSVQPSSKWLPAMEEIPENYEEDDFDNVLNHLSDGKHELMDASELVAEINKLLQDVRQS

Target ORF information:

RefSeq Version	XM_006500789.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus protocadherin 18 (Pcdh18), transcript variant X1, mRNA.

Target ORF information:

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

XM_006500789.2

ORF Insert Sequence:

ATGCACCAAA TGAATACTAA AATGCACTTT AGATTTGCAC TTGCACTTCT GATGGCGTTT 
TTCAGCCACG ATGTCCTGGC TAAGAATCTG AAATACAGGA TTTATGAGGA GCAGAGGGTC 
GGATCGGTAA TTGCTAGACT ATCAGAAGAT GTGGCTGATG TTTTATTGAA GCTACCAAAT 
CCTTCTGCTG TTCGTTTTCG AGCCATGCCA CGGGGGAATT CTCCTCTCCT GGTCGTAAAT 
GAGAATACCG GAGAAATCAG CATAGGGGCT AAAATTGACC GCGAGCAACT ATGCCAAAAA 
AACTTGAACT GTTCGATAGA GTTTGATGTG CTCACTCTGC CGACCGAGCA TCTGCAGCTG 
TTCCACATTG AAGTGGACGT GCTGGACATT AATGACAATT CCCCCCAATT CTCGAGACCC 
GTCATTCCCA TTGAGATATC GGAGAGCGCA GCAGTTGGGA CTCGTATCCC CCTGGACAGT 
GCGTTCGACC CAGATGTTGG GGAAAATTCC CTCCACACCT ACTCGCTCTC TGCTAATGAT 
TATTTTAATA TCGAAGTGCG AACCAGGACA GACGGGGCCA AGTACGCTGA ACTCATAGTG 
GTGAAAGAGT TGGATCGGGA GCTGAAGGCT AGCTACGAGC TTCAGCTCAC CGCCTCCGAC 
ATGGGAGTGC CTCAGAGGTC TGGCTCCTCC ATCCTGAAAA TCAGCATTTC GGATTCCAAC 
GACAACAGCC CGGCCTTTGA GCAGCCTTCT TACACAATAC AACTCTTAGA AAACTCCCCA 
GTTGGAACCT TGCTCCTTGA TCTAAATGCC ACCGATCCAG ATGAGGGCGC TAATGGGAGA 
ATTGTGTATT CTTTCAGCAG TCATGTGTCT CCCAAAATTA TAGAGACTTT TAAGATCGAC 
TCAGAAAAAG GCCACTTGAC TCTTTTCAAG CCAGTGGATT ATGAAATCAC CAAGTCCTAT 
GAGATAGACG TTCAAGCCCA AGATTTGGGT CCCAATTCCA TTCCTGCTCA TTGCAAAATT 
ATAATTAAGG TTGTGGATGT CAATGACAAT AAACCTGAAA TTAGCATAAA TCTCATGTCC 
CCTGGAAAAG AAGAAGTATC TTATGTCTTT GAAGGGGATC CCATTGATAC ATTCGTTGCT 
ATCGTCAGGG TTCAAGACAA GGATTCTGGG CTGAATGGGG AAATAATCTG TAAGCTTCAT 
GGGCATGGAC ATTTTAAACT TCAGAAGACA TATGAAAATA ACTACTTGAT CTTGACCAAT 
GCCACTCTGG ATAGAGAAAA GAGATCTGAG TATAGTTTGA CTGTGATTGC TGAGGACAAG 
GGAACACCAA GCCTCTCCTC AGTGAGACAT TTTACTGTTC AAATCAATGA CATAAATGAC 
AATCCACCTC GCTTCCAGAG GAGCCGATAT GAATTTGTCA TCTCAGAGAA TAATTCACCA 
GGGGCGTATA TCACCACAGT TACAGCCACT GATCCAGATC TTGGTGAAAA CGGACATGTG 
ACATACACCA TTTTGGAGAG TTTTGTCTTG GGAAGTTCCA TCACCACGTA TGTAACCATT 
GACCCCTCTA ATGGCGCCAT CTATGCCCTC AGGATCTTTG ATCATGAAGA AGTGAGTCAG 
ATCACTTTTG TGGTGGAAGC CAGGGATGGA GGGAGTCAGA AGCAACTCTC CAGCAACACC 
ACCGTTGTGC TGACCATCAT TGATGAGAAT GACAATGTCC CTGTGGTTAT AGGGCCTGCA 
ATGCACAATA ATACTGCAGA AATATCCATC CCCAAAGGAG CTGAAAGTGG TTTTCATGTC 
ACAAGAATAA GGGTGGTCGA CAGGGACTCT GGTGCCAATG CTGAATTCAG CTGCTCCATA 
GTATCTGGTA ATGAGGAAAA CATCTTTATC ATGGACCCTA GGTCATGTGA CATTCATACC 
AACGTCAGCA TGGAATCCAT TCCCTCTGCG GAATGGGCAC TCTCAGTTAT CATCCAGGAC 
AAGGGCAGTC CTCCTCTGCA CACCAAAGTC CTTCTGAGGT GCATGGTCTT TGACTATGCA 
GAATCTGTGA CAAGCACAGC CATGACCTCT GTCAGCCGCG CATCCTTGGA TGTGTCCATG 
ATCATAATTA TTTCCTTGGG AGCAATTTGT GCTGTGTTGC TGGTTATTAT GGTCCTGTTT 
GCAACGAGGT GTAATAGAGA AAAGAAAGAC ACCAGATCCT ACAACTGCAG GGTGGCAGAA 
TCCACGTACC AGCATCATCC TAAAAGGCCA TCCAGGCAGA TTCACAAAGG AGACATCACA 
CTGGTACCCA CCATCAATGG CACTCTGCCC ATCAGATCTC ACCACAGATC CTCCCCATCT 
TCATCCCCAA CCTTGGAGAG GGGACAAATG GGCAGCCGCC AGAGTCACAA CAGTCACCAG 
TCACTCAACA GTTTGGTGAC CATCTCATCA AACCACGTGC CAGAGAATTT TTCATTAGAA 
CTCACCCACG CCACTCCTGC TGTTGAGCAG GTCTCGCAGC TTCTCTCCAT GCTTCACCAG 
GGGCAATATC AGCCACGGCC AAGTTTTCGA GGAAACAAAT ATTCCAGGAG CTATAGATAT 
GCCCTTCAAG ACATGGATAA ATTTAGCCTG AAAGACAGTG GCCGTGGAGA TAGCGAAGCA 
GGAGATAGCG ATTATGATTT GGGGCGCGAT TCTCCGATAG ACAGGCTCCT GGGAGAAGGA 
TTCAGTGACC TCTTCCTCAC GGACGGGAGA ATTCCAGCAG CAATGAGGCT ATGTACGGAG 
GAGTGCAGAG TCCTGGGCCA CTCTGACCAG TGCTGGATGC CCCCGCTGCC CTCGCCATCC 
TCTGACTACA GAAGCAACAT GTTCATCCCC GGAGAAGAAT TCCCAGCTCA ACCTCAGCAA 
CAGCATTCTC ATCAGGGCCT TGATGATGAC AGCCAGCCTG CAGAAAACGG GGAGAAAAAA 
AAGAGCTTCT CCACTTTTGG GAAGGACTCC CCTAGCGACG AGGATTCGGG AGACTCTAGC 
ACATCATCTC TGCTATCAGA AATGAGCAGT GTGTTCCAGC GCCTTCTCCC CGCATCCCTA 
GATACCTTTT CTGAATGCAA CGAAGGGGAT CGCTCCAACT CTCTGGAACG TCGAAAGGGT 
CCGGCACAGG GCAAAACTGG GGGTTACCCA CAAGGGGTTG CGGCCTGGGC AGCCAGCACA 
CATTTTCAGA ACCCCACCAG CAGCTCTGGG ACCCCTCTGG GGACTCACTC TAGTGTGCAG 
CCTTCCTCCA AGTGGCTGCC AGCTATGGAG GAGATTCCTG AAAATTACGA GGAAGATGAT 
TTTGACAATG TGCTTAACCA TCTCAGCGAT GGGAAACACG AACTCATGGA TGCCAGCGAG 
CTGGTGGCTG AGATCAACAA ACTGCTTCAA GACGTCCGCC AGAGCTAG

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

PubMed

Cell adhesion molecules expression pattern indicates that somatic cells arbitrate gonadal sex of differentiating bipotential fetal mouse gonad.
Mechanisms of development14717-27(2017 Oct)
Piprek RP,Kolasa M,Podkowa D,Kloc M,Kubiak JZ

High-throughput discovery of novel developmental phenotypes.
Nature537(7621)508-514(2016 09)
Dickinson ME,Flenniken AM,Ji X,Teboul L,Wong MD,White JK,Meehan TF,Weninger WJ,Westerberg H,Adissu H,Baker CN,Bower L,Brown JM,Caddle LB,Chiani F,Clary D,Cleak J,Daly MJ,Denegre JM,Doe B,Dolan ME,Edie SM,Fuchs H,Gailus-Durner V,Galli A,Gambadoro A,Gallegos J,Guo S,Horner NR,Hsu CW,Johnson SJ,Kalaga S,Keith LC,Lanoue L,Lawson TN,Lek M,Mark M,Marschall S,Mason J,McElwee ML,Newbigging S,Nutter LM,Peterson KA,Ramirez-Solis R,Rowland DJ,Ryder E,Samocha KE,Seavitt JR,Selloum M,Szoke-Kovacs Z,Tamura M,Trainor AG,Tudose I,Wakana S,Warren J,Wendling O,West DB,Wong L,Yoshiki A,,,,,,,,,MacArthur DG,Tocchini-Valentini GP,Gao X,Flicek P,Bradley A,Skarnes WC,Justice MJ,Parkinson HE,Moore M,Wells S,Braun RE,Svenson KL,de Angelis MH,Herault Y,Mohun T,Mallon AM,Henkelman RM,Brown SD,Adams DJ,Lloyd KC,McKerlie C,Beaudet AL,Bu?an M,Murray SA

Context-specific function of the LIM homeobox 1 transcription factor in head formation of the mouse embryo.
Development (Cambridge, England)142(11)2069-79(2015 Jun)
Fossat N,Ip CK,Jones VJ,Studdert JB,Khoo PL,Lewis SL,Power M,Tourle K,Loebel DA,Kwan KM,Behringer RR,Tam PP

A high-resolution spatiotemporal atlas of gene expression of the developing mouse brain.
Neuron83(2)309-323(2014 Jul)
Thompson CL,Ng L,Menon V,Martinez S,Lee CK,Glattfelder K,Sunkin SM,Henry A,Lau C,Dang C,Garcia-Lopez R,Martinez-Ferre A,Pombero A,Rubenstein JLR,Wakeman WB,Hohmann J,Dee N,Sodt AJ,Young R,Smith K,Nguyen TN,Kidney J,Kuan L,Jeromin A,Kaykas A,Miller J,Page D,Orta G,Bernard A,Riley Z,Smith S,Wohnoutka P,Hawrylycz MJ,Puelles L,Jones AR

The International Mouse Phenotyping Consortium Web Portal, a unified point of access for knockout mice and related phenotyping data.
Nucleic acids research42(Database issue)D802-9(2014 Jan)
Koscielny G,Yaikhom G,Iyer V,Meehan TF,Morgan H,Atienza-Herrero J,Blake A,Chen CK,Easty R,Di Fenza A,Fiegel T,Grifiths M,Horne A,Karp NA,Kurbatova N,Mason JC,Matthews P,Oakley DJ,Qazi A,Regnart J,Retha A,Santos LA,Sneddon DJ,Warren J,Westerberg H,Wilson RJ,Melvin DG,Smedley D,Brown SD,Flicek P,Skarnes WC,Mallon AM,Parkinson H

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Pcdh18 cDNA ORF clone, Mus musculus(house mouse)

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gRNAs

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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:

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