Tmem132c cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Tmem132c
Entrez Gene ID	110294792
Full Name	transmembrane protein 132C
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021163260.1	XP_021018919.1	transmembrane protein 132C
XM_029477801.1	XP_029333661.1	transmembrane protein 132C

Pathways from BioSystems
Gene Ontology

The following Tmem132c gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tmem132c cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OMv73900	XM_029477801.1 Latest version!	Mus caroli transmembrane protein 132C (Tmem132c), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMv01601	XM_021163260.1 Latest version!	Mus caroli transmembrane protein 132C (Tmem132c), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

Tmem132c ( XM_029477801.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029333661.1 Mus caroli transmembrane protein 132C (Tmem132c), mRNA.

Price & Availability↑

CloneID	OMv73900
Clone ID Related Accession (Same CDS sequence)	XM_029477801.1
Accession Version	XM_029477801.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3243bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	transmembrane protein 132C
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCCACAT CCATGAATGT CGAAGTGACA GAAAGCCGAG GGGTCATGGA TAATATACAG 
AGATTCTCTT CATTGCCGCC GTACCTGCCC GTGAGCTTCC ACGTCCTCAG AGCCGAGACT 
GCATTCTTCC TAAAGGAGGC CAACCCCGAC CCACTGCGGA ATGCCAGCCT GCAGTCCAGG 
GTGGAGTCTT TCTTCATCTA CAAGGCCCAG CAGCCCCCGG TATTAAACGT CAGCTATGGG 
CCTTACTCTG CAGAAAAGGT CATCCCTCTG GACTTGATGT TGAACCCCAA CTTTTTAGGC 
CCAACCAGTA AGTTTCCCTT TGACTGGAGA CTGAAGGCCT ACATCCTCCA AGAGAAAGTC 
TACCTGAGCC ATCCCAAAGT ACAGGTGCTC TTCCACATTG TGGGCCGAGA CTGGGATGAC 
CAAAAGGACG AGAAACTGCC CTGCCTGCGG GTCTTTGCCT TCAGAGACAG CCGGGAGGTT 
CGAGGCAGCT GCCGCTTGGG TGGAGCCCTG GGACTGTGCG TGGCCCAGCT GGAGATGCTG 
CCTGGCTGGT TCAGTCCCCC AGCGGTTGTA TCTGGGCGCA GGAGGCCAGC AGAGCAGCCA 
GAGGGGAATC TTGTGGAACT GTATTATGCT GTACAGCCAG GGGGTGAGCG TGGTGACTGC 
ACTGGAGGTG ACACCAGGAA GGACAATGCT ATTCGTCCAG GAAAGGATGG ACAGGAGGGC 
AGGACATCCC ACCTACAGAA GATTGGCACC GTTAGCCTTT ACCGCGCCCA GGACAGCACC 
CAGCTCAGCG AACTGCGCCT GGATGGCAAT GTGGTCATCT GGCTGCCCTC CCAGCCTGTC 
AAGCAGGGAG ACATAGTCAC CGCATCTGTC ACCATCGCCA ATAACTCTAC TGTGGACCAT 
TTCATCCTAA GAGCCAAGGT GAAGAAGGGG GTGAACATTC TGACCGCGCA GACCAGCGAG 
CCTCGGCAGT GGGATGTGAG GCAAGAGGTG GGCAACGGAG GGAAGCACAC CACCACCTCG 
GTGGCCTGCC AGCGCCTGGG CCCTGGGGCA CGCAATAGGA GCAGCAATTT ATTCAGCGAG 
GTCATGCAGA TGAATTTTGA AATCGCCAGC TTCAGCAGCC TCTCGGGGAC ACAGCCTATC 
ACATGGCAGG TGGAGTACCC GAGGAAGGGG ACCACGGACA TTGCTGTGTC GGAGATCTTC 
ATCAGCCAGA AGGACCTAGT TGCCATCGTC CCCCTTGCTA TGGACACTGA ACTCCTGAAC 
ACAGCCATCC TCACGGGGAA GACAGTGGCC ATGCCTGTCA GGGTGGTGTC GGTGGAGGAG 
AATAGCACCC TGAGGGACAT CTCAGAGTTG GTGGAGTGCA AGGCCACAGA TGAGAATGTC 
ATCAAGGTCT CAGACCACTG TGACTATGTC TTTGTCAATG GTAAAGAGAT CAAGGGCAAG 
GTGGACTCTG TGGTGAACTT CACTTACCAG CACCTGAGTG CACCGCTGCA TGTCACTGTG 
TGGGTGCCAC GGCTTCCCCT GCAGATCGAG GTCTCTGACA CAGAACTCAG CCAGGTTAAG 
GGCTGGAGAG TCCCCATCGT AGCCAGCAAG AGGCCCACTC GAGACAGTGA GGAGGAGGAA 
GAGGAAGAAC AGAGAGGCCG GGGTTGTACC CTGCAGTTCC AGCATGCCAC AGTGCGAGTC 
CTCACCCAAT TTGTATCAGA GGGTGCTGGG CCCTGGGGCC AGCTGAGCCA CCTTCTCAGT 
CCAGACTGGC AGTTTGACAT CACCCACCTG GTGGCTGACT TTATGAAGCT GGAGTCCCCA 
CACATAGCCA CCCTGCAGGA CAGCAGGGTC TTGGTTGGGC GGGAAGTCGG AATGACCACC 
ATCCAGGTGT TGTCTCCCCT GTCTGACTCC ATCTTGGCCG AGAAGACAGT AACTGTGCTG 
GATGACAAAG TATCTGTGAC AGACTTAGCT GTCCAGGTGG TGGCTGGGCT GTCTGTCACC 
CTACACCCCA TCTCAGAGAA CAACAAGGGT ACCTCAGCTG TGGCCATGGC AGAGGAGCTG 
CTGCGTGCCC CAAAAAAGGA AGCTATAATC AGCACATGGC TCCAGTTCAG TGATGGCTCA 
GTGACACCCC TGGATATCTA CGACTCCAAG GACTTCTCCT TGACTGCCAT CTCTTTGGAT 
GAGGCTGTTG TGTCCATCCC CCAACCCCTC TCGCCTTGGT GGCCCACCAT GGTAGCTGAA 
GGAGAAGGCC AGGGCCCACT GCTCCGGGTC GATATGTCCA TTGCCGAAGC CTGTCAGAAA 
TCCAAGCGCA AGAGTGTGCT GGCTGTTGGC ATTGGCCATG TGGGGGTCAA GTTTGGATGG 
GATGATGCCG ACTCCAGCCA GACTGGAGGA AAGGATGAGG AGGAGATCAA GAACCACGCC 
AGTGACCGTC GACAGAAGAT TCAGGACCTG GAACGCCCAG GCCAGGATGA ACTATACCAT 
GGCAACTTTC CTGGGGACCG TGAAGAAGGA GTGCTGAGTG CTACCACCAC TACCAAGTCC 
CTGCTGGATA ACAACGTGGG GAAGAGTGGC AGGCGGGATG GGGCTAGGCT ACACAGCATA 
CCCATTGACT TCACCAATTT CCCGGCCCAT GTGGACCTCC CCAAGGCCAA GACTGGGGGC 
ACACTGGAGG AGAATGGGCT CATGCAGACA GCCCATGGCC TGAGTGACCT AGAGATTGGG 
ATGTATGCCC TCCTAGGTGT CTTCTGCCTG GCCATCCTTG TCTTTCTCAT TAACTGCGCC 
ACCTTTGCCT TCAAGTACAG GCACAAACAG GTGCCTCTGG AAGGCCAGGC ATCCATGACC 
CACTCTCATG ACTGGGTCTG GCTGGGCAAT GAGGCGGAGC TCTTGGAGAA CATTGGGGAC 
CTGTCCCCAC CCCAGGACGA GCACACGACC ATCATAGACC GAGGGCTGGG GGGCTGTGAG 
GAGAACAACC ACTTACTTCT CAATGGTGGC TCCCAAAAGC CCACGCAGAG CCAGGTCCAC 
AGGCCACCAG GCTCCGGGGG ACGGCAGACC AGGGAGCCCA GGCAGGAGCC TGCAAACTCA 
CCCACCTCCA AGATGAAGAA GGTCAAGTTT GCCACATTCA CCATCCCACC TGAGGAAAGC 
TGCCCCACGG TGAACTCCAT CCTCAGTGGG GAAGATGATA TCAAGTGGGT TTGTCAAGAC 
CTGGATGTGG GCGCACCCAA GGAACTCAGA ACCTACCTGG AGAAATTCCA AGACAGTGTG 
TAG

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

RefSeq	XP_029333661.1
CDS	1..3243
Translation	MATSMNVEVTESRGVMDNIQRFSSLPPYLPVSFHVLRAETAFFLKEANPDPLRNASLQSRVESFFIYKAQQPPVLNVSYGPYSAEKVIPLDLMLNPNFLGPTSKFPFDWRLKAYILQEKVYLSHPKVQVLFHIVGRDWDDQKDEKLPCLRVFAFRDSREVRGSCRLGGALGLCVAQLEMLPGWFSPPAVVSGRRRPAEQPEGNLVELYYAVQPGGERGDCTGGDTRKDNAIRPGKDGQEGRTSHLQKIGTVSLYRAQDSTQLSELRLDGNVVIWLPSQPVKQGDIVTASVTIANNSTVDHFILRAKVKKGVNILTAQTSEPRQWDVRQEVGNGGKHTTTSVACQRLGPGARNRSSNLFSEVMQMNFEIASFSSLSGTQPITWQVEYPRKGTTDIAVSEIFISQKDLVAIVPLAMDTELLNTAILTGKTVAMPVRVVSVEENSTLRDISELVECKATDENVIKVSDHCDYVFVNGKEIKGKVDSVVNFTYQHLSAPLHVTVWVPRLPLQIEVSDTELSQVKGWRVPIVASKRPTRDSEEEEEEEQRGRGCTLQFQHATVRVLTQFVSEGAGPWGQLSHLLSPDWQFDITHLVADFMKLESPHIATLQDSRVLVGREVGMTTIQVLSPLSDSILAEKTVTVLDDKVSVTDLAVQVVAGLSVTLHPISENNKGTSAVAMAEELLRAPKKEAIISTWLQFSDGSVTPLDIYDSKDFSLTAISLDEAVVSIPQPLSPWWPTMVAEGEGQGPLLRVDMSIAEACQKSKRKSVLAVGIGHVGVKFGWDDADSSQTGGKDEEEIKNHASDRRQKIQDLERPGQDELYHGNFPGDREEGVLSATTTTKSLLDNNVGKSGRRDGARLHSIPIDFTNFPAHVDLPKAKTGGTLEENGLMQTAHGLSDLEIGMYALLGVFCLAILVFLINCATFAFKYRHKQVPLEGQASMTHSHDWVWLGNEAELLENIGDLSPPQDEHTTIIDRGLGGCEENNHLLLNGGSQKPTQSQVHRPPGSGGRQTREPRQEPANSPTSKMKKVKFATFTIPPEESCPTVNSILSGEDDIKWVCQDLDVGAPKELRTYLEKFQDSV

Target ORF information:

RefSeq Version	XM_029477801.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli transmembrane protein 132C (Tmem132c), mRNA.

Target ORF information:

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

XM_029477801.1

ORF Insert Sequence:

ATGGCCACAT CCATGAATGT CGAAGTGACA GAAAGCCGAG GGGTCATGGA TAATATACAG 
AGATTCTCTT CATTGCCGCC GTACCTGCCC GTGAGCTTCC ACGTCCTCAG AGCCGAGACT 
GCATTCTTCC TAAAGGAGGC CAACCCCGAC CCACTGCGGA ATGCCAGCCT GCAGTCCAGG 
GTGGAGTCTT TCTTCATCTA CAAGGCCCAG CAGCCCCCGG TATTAAACGT CAGCTATGGG 
CCTTACTCTG CAGAAAAGGT CATCCCTCTG GACTTGATGT TGAACCCCAA CTTTTTAGGC 
CCAACCAGTA AGTTTCCCTT TGACTGGAGA CTGAAGGCCT ACATCCTCCA AGAGAAAGTC 
TACCTGAGCC ATCCCAAAGT ACAGGTGCTC TTCCACATTG TGGGCCGAGA CTGGGATGAC 
CAAAAGGACG AGAAACTGCC CTGCCTGCGG GTCTTTGCCT TCAGAGACAG CCGGGAGGTT 
CGAGGCAGCT GCCGCTTGGG TGGAGCCCTG GGACTGTGCG TGGCCCAGCT GGAGATGCTG 
CCTGGCTGGT TCAGTCCCCC AGCGGTTGTA TCTGGGCGCA GGAGGCCAGC AGAGCAGCCA 
GAGGGGAATC TTGTGGAACT GTATTATGCT GTACAGCCAG GGGGTGAGCG TGGTGACTGC 
ACTGGAGGTG ACACCAGGAA GGACAATGCT ATTCGTCCAG GAAAGGATGG ACAGGAGGGC 
AGGACATCCC ACCTACAGAA GATTGGCACC GTTAGCCTTT ACCGCGCCCA GGACAGCACC 
CAGCTCAGCG AACTGCGCCT GGATGGCAAT GTGGTCATCT GGCTGCCCTC CCAGCCTGTC 
AAGCAGGGAG ACATAGTCAC CGCATCTGTC ACCATCGCCA ATAACTCTAC TGTGGACCAT 
TTCATCCTAA GAGCCAAGGT GAAGAAGGGG GTGAACATTC TGACCGCGCA GACCAGCGAG 
CCTCGGCAGT GGGATGTGAG GCAAGAGGTG GGCAACGGAG GGAAGCACAC CACCACCTCG 
GTGGCCTGCC AGCGCCTGGG CCCTGGGGCA CGCAATAGGA GCAGCAATTT ATTCAGCGAG 
GTCATGCAGA TGAATTTTGA AATCGCCAGC TTCAGCAGCC TCTCGGGGAC ACAGCCTATC 
ACATGGCAGG TGGAGTACCC GAGGAAGGGG ACCACGGACA TTGCTGTGTC GGAGATCTTC 
ATCAGCCAGA AGGACCTAGT TGCCATCGTC CCCCTTGCTA TGGACACTGA ACTCCTGAAC 
ACAGCCATCC TCACGGGGAA GACAGTGGCC ATGCCTGTCA GGGTGGTGTC GGTGGAGGAG 
AATAGCACCC TGAGGGACAT CTCAGAGTTG GTGGAGTGCA AGGCCACAGA TGAGAATGTC 
ATCAAGGTCT CAGACCACTG TGACTATGTC TTTGTCAATG GTAAAGAGAT CAAGGGCAAG 
GTGGACTCTG TGGTGAACTT CACTTACCAG CACCTGAGTG CACCGCTGCA TGTCACTGTG 
TGGGTGCCAC GGCTTCCCCT GCAGATCGAG GTCTCTGACA CAGAACTCAG CCAGGTTAAG 
GGCTGGAGAG TCCCCATCGT AGCCAGCAAG AGGCCCACTC GAGACAGTGA GGAGGAGGAA 
GAGGAAGAAC AGAGAGGCCG GGGTTGTACC CTGCAGTTCC AGCATGCCAC AGTGCGAGTC 
CTCACCCAAT TTGTATCAGA GGGTGCTGGG CCCTGGGGCC AGCTGAGCCA CCTTCTCAGT 
CCAGACTGGC AGTTTGACAT CACCCACCTG GTGGCTGACT TTATGAAGCT GGAGTCCCCA 
CACATAGCCA CCCTGCAGGA CAGCAGGGTC TTGGTTGGGC GGGAAGTCGG AATGACCACC 
ATCCAGGTGT TGTCTCCCCT GTCTGACTCC ATCTTGGCCG AGAAGACAGT AACTGTGCTG 
GATGACAAAG TATCTGTGAC AGACTTAGCT GTCCAGGTGG TGGCTGGGCT GTCTGTCACC 
CTACACCCCA TCTCAGAGAA CAACAAGGGT ACCTCAGCTG TGGCCATGGC AGAGGAGCTG 
CTGCGTGCCC CAAAAAAGGA AGCTATAATC AGCACATGGC TCCAGTTCAG TGATGGCTCA 
GTGACACCCC TGGATATCTA CGACTCCAAG GACTTCTCCT TGACTGCCAT CTCTTTGGAT 
GAGGCTGTTG TGTCCATCCC CCAACCCCTC TCGCCTTGGT GGCCCACCAT GGTAGCTGAA 
GGAGAAGGCC AGGGCCCACT GCTCCGGGTC GATATGTCCA TTGCCGAAGC CTGTCAGAAA 
TCCAAGCGCA AGAGTGTGCT GGCTGTTGGC ATTGGCCATG TGGGGGTCAA GTTTGGATGG 
GATGATGCCG ACTCCAGCCA GACTGGAGGA AAGGATGAGG AGGAGATCAA GAACCACGCC 
AGTGACCGTC GACAGAAGAT TCAGGACCTG GAACGCCCAG GCCAGGATGA ACTATACCAT 
GGCAACTTTC CTGGGGACCG TGAAGAAGGA GTGCTGAGTG CTACCACCAC TACCAAGTCC 
CTGCTGGATA ACAACGTGGG GAAGAGTGGC AGGCGGGATG GGGCTAGGCT ACACAGCATA 
CCCATTGACT TCACCAATTT CCCGGCCCAT GTGGACCTCC CCAAGGCCAA GACTGGGGGC 
ACACTGGAGG AGAATGGGCT CATGCAGACA GCCCATGGCC TGAGTGACCT AGAGATTGGG 
ATGTATGCCC TCCTAGGTGT CTTCTGCCTG GCCATCCTTG TCTTTCTCAT TAACTGCGCC 
ACCTTTGCCT TCAAGTACAG GCACAAACAG GTGCCTCTGG AAGGCCAGGC ATCCATGACC 
CACTCTCATG ACTGGGTCTG GCTGGGCAAT GAGGCGGAGC TCTTGGAGAA CATTGGGGAC 
CTGTCCCCAC CCCAGGACGA GCACACGACC ATCATAGACC GAGGGCTGGG GGGCTGTGAG 
GAGAACAACC ACTTACTTCT CAATGGTGGC TCCCAAAAGC CCACGCAGAG CCAGGTCCAC 
AGGCCACCAG GCTCCGGGGG ACGGCAGACC AGGGAGCCCA GGCAGGAGCC TGCAAACTCA 
CCCACCTCCA AGATGAAGAA GGTCAAGTTT GCCACATTCA CCATCCCACC TGAGGAAAGC 
TGCCCCACGG TGAACTCCAT CCTCAGTGGG GAAGATGATA TCAAGTGGGT TTGTCAAGAC 
CTGGATGTGG GCGCACCCAA GGAACTCAGA ACCTACCTGG AGAAATTCCA AGACAGTGTG 
TAG

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

Tmem132c ( XM_021163260.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021018919.1 Mus caroli transmembrane protein 132C (Tmem132c), mRNA.

Price & Availability↑

CloneID	OMv01601
Clone ID Related Accession (Same CDS sequence)	XM_021163260.1
Accession Version	XM_021163260.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3324bp) 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	2017-05-20
Organism	Mus caroli(Ryukyu mouse)
Product	transmembrane protein 132C
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATGGCG TGACAGCGGC CACGATGCGC TCCGAGGGCG CGGCCCCGAG GCGGGCGGCG 
CGGTACGGGG CGCTGAGCCT GGTCCTAGCC ACGCTGCTGG GCCAAGTGAC AGAAAGCCGA 
GGGGTCATGG ATAATATACA GAGATTCTCT TCATTGCCGC CGTACCTGCC CGTGAGCTTC 
CACGTCCTCA GAGCCGAGAC TGCATTCTTC CTAAAGGAGG CCAACCCCGA CCCACTGCGG 
AATGCCAGCC TGCAGTCCAG GGTGGAGTCT TTCTTCATCT ACAAGGCCCA GCAGCCCCCG 
GTATTAAACG TCAGCTATGG GCCTTACTCT GCAGAAAAGG TCATCCCTCT GGACTTGATG 
TTGAACCCCA ACTTTTTAGG CCCAACCAGT AAGTTTCCCT TTGACTGGAG ACTGAAGGCC 
TACATCCTCC AAGAGAAAGT CTACCTGAGC CATCCCAAAG TACAGGTGCT CTTCCACATT 
GTGGGCCGAG ACTGGGATGA CCAAAAGGAC GAGAAACTGC CCTGCCTGCG GGTCTTTGCC 
TTCAGAGACA GCCGGGAGGT TCGAGGCAGC TGCCGCTTGG GTGGAGCCCT GGGACTGTGC 
GTGGCCCAGC TGGAGATGCT GCCTGGCTGG TTCAGTCCCC CAGCGGTTGT ATCTGGGCGC 
AGGAGGCCAG CAGAGCAGCC AGAGGGGAAT CTTGTGGAAC TGTATTATGC TGTACAGCCA 
GGGGGTGAGC GTGGTGACTG CACTGGAGGT GACACCAGGA AGGACAATGC TATTCGTCCA 
GGAAAGGATG GACAGGAGGG CAGGACATCC CACCTACAGA AGATTGGCAC CGTTAGCCTT 
TACCGCGCCC AGGACAGCAC CCAGCTCAGC GAACTGCGCC TGGATGGCAA TGTGGTCATC 
TGGCTGCCCT CCCAGCCTGT CAAGCAGGGA GACATAGTCA CCGCATCTGT CACCATCGCC 
AATAACTCTA CTGTGGACCA TTTCATCCTA AGAGCCAAGG TGAAGAAGGG GGTGAACATT 
CTGACCGCGC AGACCAGCGA GCCTCGGCAG TGGGATGTGA GGCAAGAGGT GGGCAACGGA 
GGGAAGCACA CCACCACCTC GGTGGCCTGC CAGCGCCTGG GCCCTGGGGC ACGCAATAGG 
AGCAGCAATT TATTCAGCGA GGTCATGCAG ATGAATTTTG AAATCGCCAG CTTCAGCAGC 
CTCTCGGGGA CACAGCCTAT CACATGGCAG GTGGAGTACC CGAGGAAGGG GACCACGGAC 
ATTGCTGTGT CGGAGATCTT CATCAGCCAG AAGGACCTAG TTGCCATCGT CCCCCTTGCT 
ATGGACACTG AACTCCTGAA CACAGCCATC CTCACGGGGA AGACAGTGGC CATGCCTGTC 
AGGGTGGTGT CGGTGGAGGA GAATAGCACC CTGAGGGACA TCTCAGAGTT GGTGGAGTGC 
AAGGCCACAG ATGAGAATGT CATCAAGGTC TCAGACCACT GTGACTATGT CTTTGTCAAT 
GGTAAAGAGA TCAAGGGCAA GGTGGACTCT GTGGTGAACT TCACTTACCA GCACCTGAGT 
GCACCGCTGC ATGTCACTGT GTGGGTGCCA CGGCTTCCCC TGCAGATCGA GGTCTCTGAC 
ACAGAACTCA GCCAGGTTAA GGGCTGGAGA GTCCCCATCG TAGCCAGCAA GAGGCCCACT 
CGAGACAGTG AGGAGGAGGA AGAGGAAGAA CAGAGAGGCC GGGGTTGTAC CCTGCAGTTC 
CAGCATGCCA CAGTGCGAGT CCTCACCCAA TTTGTATCAG AGGGTGCTGG GCCCTGGGGC 
CAGCTGAGCC ACCTTCTCAG TCCAGACTGG CAGTTTGACA TCACCCACCT GGTGGCTGAC 
TTTATGAAGC TGGAGTCCCC ACACATAGCC ACCCTGCAGG ACAGCAGGGT CTTGGTTGGG 
CGGGAAGTCG GAATGACCAC CATCCAGGTG TTGTCTCCCC TGTCTGACTC CATCTTGGCC 
GAGAAGACAG TAACTGTGCT GGATGACAAA GTATCTGTGA CAGACTTAGC TGTCCAGGTG 
GTGGCTGGGC TGTCTGTCAC CCTACACCCC ATCTCAGAGA ACAACAAGGG TACCTCAGCT 
GTGGCCATGG CAGAGGAGCT GCTGCGTGCC CCAAAAAAGG AAGCTATAAT CAGCACATGG 
CTCCAGTTCA GTGATGGCTC AGTGACACCC CTGGATATCT ACGACTCCAA GGACTTCTCC 
TTGACTGCCA TCTCTTTGGA TGAGGCTGTT GTGTCCATCC CCCAACCCCT CTCGCCTTGG 
TGGCCCACCA TGGTAGCTGA AGGAGAAGGC CAGGGCCCAC TGCTCCGGGT CGATATGTCC 
ATTGCCGAAG CCTGTCAGAA ATCCAAGCGC AAGAGTGTGC TGGCTGTTGG CATTGGCCAT 
GTGGGGGTCA AGTTTGGATG GGATGATGCC GACTCCAGCC AGACTGGAGG AAAGGATGAG 
GAGGAGATCA AGAACCACGC CAGTGACCGT CGACAGAAGA TTCAGGACCT GGAACGCCCA 
GGCCAGGATG AACTATACCA TGGCAACTTT CCTGGGGACC GTGAAGAAGG AGTGCTGAGT 
GCTACCACCA CTACCAAGTC CCTGCTGGAT AACAACGTGG GGAAGAGTGG CAGGCGGGAT 
GGGGCTAGGC TACACAGCAT ACCCATTGAC TTCACCAATT TCCCGGCCCA TGTGGACCTC 
CCCAAGGCCA AGACTGGGGG CACACTGGAG GAGAATGGGC TCATGCAGAC AGCCCATGGC 
CTGAGTGACC TAGAGATTGG GATGTATGCC CTCCTAGGTG TCTTCTGCCT GGCCATCCTT 
GTCTTTCTCA TTAACTGCGC CACCTTTGCC TTCAAGTACA GGCACAAACA GGTGCCTCTG 
GAAGGCCAGG CATCCATGAC CCACTCTCAT GACTGGGTCT GGCTGGGCAA TGAGGCGGAG 
CTCTTGGAGA ACATTGGGGA CCTGTCCCCA CCCCAGGACG AGCACACGAC CATCATAGAC 
CGAGGGCTGG GGGGCTGTGA GGAGAACAAC CACTTACTTC TCAATGGTGG CTCCCAAAAG 
CCCACGCAGA GCCAGGTCCA CAGGCCACCA GGCTCCGGGG GACGGCAGAC CAGGGAGCCC 
AGGCAGGAGC CTGCAAACTC ACCCACCTCC AAGATGAAGA AGGTCAAGTT TGCCACATTC 
ACCATCCCAC CTGAGGAAAG CTGCCCCACG GTGAACTCCA TCCTCAGTGG GGAAGATGAT 
ATCAAGTGGG TTTGTCAAGA CCTGGATGTG GGCGCACCCA AGGAACTCAG AACCTACCTG 
GAGAAATTCC AAGACAGTGT GTAG

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

RefSeq	XP_021018919.1
CDS	102..3425
Translation	MDGVTAATMRSEGAAPRRAARYGALSLVLATLLGQVTESRGVMDNIQRFSSLPPYLPVSFHVLRAETAFFLKEANPDPLRNASLQSRVESFFIYKAQQPPVLNVSYGPYSAEKVIPLDLMLNPNFLGPTSKFPFDWRLKAYILQEKVYLSHPKVQVLFHIVGRDWDDQKDEKLPCLRVFAFRDSREVRGSCRLGGALGLCVAQLEMLPGWFSPPAVVSGRRRPAEQPEGNLVELYYAVQPGGERGDCTGGDTRKDNAIRPGKDGQEGRTSHLQKIGTVSLYRAQDSTQLSELRLDGNVVIWLPSQPVKQGDIVTASVTIANNSTVDHFILRAKVKKGVNILTAQTSEPRQWDVRQEVGNGGKHTTTSVACQRLGPGARNRSSNLFSEVMQMNFEIASFSSLSGTQPITWQVEYPRKGTTDIAVSEIFISQKDLVAIVPLAMDTELLNTAILTGKTVAMPVRVVSVEENSTLRDISELVECKATDENVIKVSDHCDYVFVNGKEIKGKVDSVVNFTYQHLSAPLHVTVWVPRLPLQIEVSDTELSQVKGWRVPIVASKRPTRDSEEEEEEEQRGRGCTLQFQHATVRVLTQFVSEGAGPWGQLSHLLSPDWQFDITHLVADFMKLESPHIATLQDSRVLVGREVGMTTIQVLSPLSDSILAEKTVTVLDDKVSVTDLAVQVVAGLSVTLHPISENNKGTSAVAMAEELLRAPKKEAIISTWLQFSDGSVTPLDIYDSKDFSLTAISLDEAVVSIPQPLSPWWPTMVAEGEGQGPLLRVDMSIAEACQKSKRKSVLAVGIGHVGVKFGWDDADSSQTGGKDEEEIKNHASDRRQKIQDLERPGQDELYHGNFPGDREEGVLSATTTTKSLLDNNVGKSGRRDGARLHSIPIDFTNFPAHVDLPKAKTGGTLEENGLMQTAHGLSDLEIGMYALLGVFCLAILVFLINCATFAFKYRHKQVPLEGQASMTHSHDWVWLGNEAELLENIGDLSPPQDEHTTIIDRGLGGCEENNHLLLNGGSQKPTQSQVHRPPGSGGRQTREPRQEPANSPTSKMKKVKFATFTIPPEESCPTVNSILSGEDDIKWVCQDLDVGAPKELRTYLEKFQDSV

Target ORF information:

RefSeq Version	XM_021163260.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli transmembrane protein 132C (Tmem132c), mRNA.

Target ORF information:

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

XM_021163260.1

ORF Insert Sequence:

ATGGATGGCG TGACAGCGGC CACGATGCGC TCCGAGGGCG CGGCCCCGAG GCGGGCGGCG 
CGGTACGGGG CGCTGAGCCT GGTCCTAGCC ACGCTGCTGG GCCAAGTGAC AGAAAGCCGA 
GGGGTCATGG ATAATATACA GAGATTCTCT TCATTGCCGC CGTACCTGCC CGTGAGCTTC 
CACGTCCTCA GAGCCGAGAC TGCATTCTTC CTAAAGGAGG CCAACCCCGA CCCACTGCGG 
AATGCCAGCC TGCAGTCCAG GGTGGAGTCT TTCTTCATCT ACAAGGCCCA GCAGCCCCCG 
GTATTAAACG TCAGCTATGG GCCTTACTCT GCAGAAAAGG TCATCCCTCT GGACTTGATG 
TTGAACCCCA ACTTTTTAGG CCCAACCAGT AAGTTTCCCT TTGACTGGAG ACTGAAGGCC 
TACATCCTCC AAGAGAAAGT CTACCTGAGC CATCCCAAAG TACAGGTGCT CTTCCACATT 
GTGGGCCGAG ACTGGGATGA CCAAAAGGAC GAGAAACTGC CCTGCCTGCG GGTCTTTGCC 
TTCAGAGACA GCCGGGAGGT TCGAGGCAGC TGCCGCTTGG GTGGAGCCCT GGGACTGTGC 
GTGGCCCAGC TGGAGATGCT GCCTGGCTGG TTCAGTCCCC CAGCGGTTGT ATCTGGGCGC 
AGGAGGCCAG CAGAGCAGCC AGAGGGGAAT CTTGTGGAAC TGTATTATGC TGTACAGCCA 
GGGGGTGAGC GTGGTGACTG CACTGGAGGT GACACCAGGA AGGACAATGC TATTCGTCCA 
GGAAAGGATG GACAGGAGGG CAGGACATCC CACCTACAGA AGATTGGCAC CGTTAGCCTT 
TACCGCGCCC AGGACAGCAC CCAGCTCAGC GAACTGCGCC TGGATGGCAA TGTGGTCATC 
TGGCTGCCCT CCCAGCCTGT CAAGCAGGGA GACATAGTCA CCGCATCTGT CACCATCGCC 
AATAACTCTA CTGTGGACCA TTTCATCCTA AGAGCCAAGG TGAAGAAGGG GGTGAACATT 
CTGACCGCGC AGACCAGCGA GCCTCGGCAG TGGGATGTGA GGCAAGAGGT GGGCAACGGA 
GGGAAGCACA CCACCACCTC GGTGGCCTGC CAGCGCCTGG GCCCTGGGGC ACGCAATAGG 
AGCAGCAATT TATTCAGCGA GGTCATGCAG ATGAATTTTG AAATCGCCAG CTTCAGCAGC 
CTCTCGGGGA CACAGCCTAT CACATGGCAG GTGGAGTACC CGAGGAAGGG GACCACGGAC 
ATTGCTGTGT CGGAGATCTT CATCAGCCAG AAGGACCTAG TTGCCATCGT CCCCCTTGCT 
ATGGACACTG AACTCCTGAA CACAGCCATC CTCACGGGGA AGACAGTGGC CATGCCTGTC 
AGGGTGGTGT CGGTGGAGGA GAATAGCACC CTGAGGGACA TCTCAGAGTT GGTGGAGTGC 
AAGGCCACAG ATGAGAATGT CATCAAGGTC TCAGACCACT GTGACTATGT CTTTGTCAAT 
GGTAAAGAGA TCAAGGGCAA GGTGGACTCT GTGGTGAACT TCACTTACCA GCACCTGAGT 
GCACCGCTGC ATGTCACTGT GTGGGTGCCA CGGCTTCCCC TGCAGATCGA GGTCTCTGAC 
ACAGAACTCA GCCAGGTTAA GGGCTGGAGA GTCCCCATCG TAGCCAGCAA GAGGCCCACT 
CGAGACAGTG AGGAGGAGGA AGAGGAAGAA CAGAGAGGCC GGGGTTGTAC CCTGCAGTTC 
CAGCATGCCA CAGTGCGAGT CCTCACCCAA TTTGTATCAG AGGGTGCTGG GCCCTGGGGC 
CAGCTGAGCC ACCTTCTCAG TCCAGACTGG CAGTTTGACA TCACCCACCT GGTGGCTGAC 
TTTATGAAGC TGGAGTCCCC ACACATAGCC ACCCTGCAGG ACAGCAGGGT CTTGGTTGGG 
CGGGAAGTCG GAATGACCAC CATCCAGGTG TTGTCTCCCC TGTCTGACTC CATCTTGGCC 
GAGAAGACAG TAACTGTGCT GGATGACAAA GTATCTGTGA CAGACTTAGC TGTCCAGGTG 
GTGGCTGGGC TGTCTGTCAC CCTACACCCC ATCTCAGAGA ACAACAAGGG TACCTCAGCT 
GTGGCCATGG CAGAGGAGCT GCTGCGTGCC CCAAAAAAGG AAGCTATAAT CAGCACATGG 
CTCCAGTTCA GTGATGGCTC AGTGACACCC CTGGATATCT ACGACTCCAA GGACTTCTCC 
TTGACTGCCA TCTCTTTGGA TGAGGCTGTT GTGTCCATCC CCCAACCCCT CTCGCCTTGG 
TGGCCCACCA TGGTAGCTGA AGGAGAAGGC CAGGGCCCAC TGCTCCGGGT CGATATGTCC 
ATTGCCGAAG CCTGTCAGAA ATCCAAGCGC AAGAGTGTGC TGGCTGTTGG CATTGGCCAT 
GTGGGGGTCA AGTTTGGATG GGATGATGCC GACTCCAGCC AGACTGGAGG AAAGGATGAG 
GAGGAGATCA AGAACCACGC CAGTGACCGT CGACAGAAGA TTCAGGACCT GGAACGCCCA 
GGCCAGGATG AACTATACCA TGGCAACTTT CCTGGGGACC GTGAAGAAGG AGTGCTGAGT 
GCTACCACCA CTACCAAGTC CCTGCTGGAT AACAACGTGG GGAAGAGTGG CAGGCGGGAT 
GGGGCTAGGC TACACAGCAT ACCCATTGAC TTCACCAATT TCCCGGCCCA TGTGGACCTC 
CCCAAGGCCA AGACTGGGGG CACACTGGAG GAGAATGGGC TCATGCAGAC AGCCCATGGC 
CTGAGTGACC TAGAGATTGG GATGTATGCC CTCCTAGGTG TCTTCTGCCT GGCCATCCTT 
GTCTTTCTCA TTAACTGCGC CACCTTTGCC TTCAAGTACA GGCACAAACA GGTGCCTCTG 
GAAGGCCAGG CATCCATGAC CCACTCTCAT GACTGGGTCT GGCTGGGCAA TGAGGCGGAG 
CTCTTGGAGA ACATTGGGGA CCTGTCCCCA CCCCAGGACG AGCACACGAC CATCATAGAC 
CGAGGGCTGG GGGGCTGTGA GGAGAACAAC CACTTACTTC TCAATGGTGG CTCCCAAAAG 
CCCACGCAGA GCCAGGTCCA CAGGCCACCA GGCTCCGGGG GACGGCAGAC CAGGGAGCCC 
AGGCAGGAGC CTGCAAACTC ACCCACCTCC AAGATGAAGA AGGTCAAGTT TGCCACATTC 
ACCATCCCAC CTGAGGAAAG CTGCCCCACG GTGAACTCCA TCCTCAGTGG GGAAGATGAT 
ATCAAGTGGG TTTGTCAAGA CCTGGATGTG GGCGCACCCA AGGAACTCAG AACCTACCTG 
GAGAAATTCC AAGACAGTGT GTAG