Ppargc1b cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Ppargc1b
Entrez Gene ID	110284544
Full Name	PPARG coactivator 1 beta
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_029472067.1	XP_029327927.1	peroxisome proliferator-activated receptor gamma coactivator 1-beta
XM_021150315.1	XP_021005974.1	peroxisome proliferator-activated receptor gamma coactivator 1-beta

Pathways from BioSystems
Gene Ontology

The following Ppargc1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ppargc1b 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
OMv70748	XM_029472067.1 Latest version!	Mus caroli PPARG coactivator 1 beta (Ppargc1b), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMv35560	XM_021150315.1 Latest version!	Mus caroli PPARG coactivator 1 beta (Ppargc1b), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

Ppargc1b ( XM_029472067.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029327927.1 Mus caroli PPARG coactivator 1 beta (Ppargc1b), mRNA.

Price & Availability↑

CloneID	OMv70748
Clone ID Related Accession (Same CDS sequence)	XM_029472067.1
Accession Version	XM_029472067.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3051bp) 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	peroxisome proliferator-activated receptor gamma coactivator 1-beta
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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##

ATGGCGGGGA ACGACTGCGG CGCGCTGCTG GATGAAGAGC TCTCGTCCTT CTTCCTCAAC 
TATCTCTCTG ACACGCAGGG TGGGGACTCT GGAGAGGAAC AGCTGTGTGC TGACTTGCCA 
GAGCTTGACC TCTCCCAGCT GGACGCCAGT GACTTTGACT CAGCCACGTG CTTTGGGGAG 
CTGCAGTGGT GCCCGGAGAC CTCAGAGACA GAACCCAGCC AGTACAGCCC CGATGACTCC 
GAGCTCTTCC AGATTGACAG TGAGAATGAA GCTCTCTTGG CTGCGCTTAC GAAGACCCTG 
GATGACATCC CCGAAGACGA TGTGGGGCTG GCTGCCTTCC CAGAACTGGA TGAAGGCGAC 
ACAGCATCCT GCACCCCAGC CTCACCTGCT CCCTTATCGG CACCCCCCAG CCCCACCCTG 
GAGAGGCTTC TGTCCCCAGC GTCTGACGTG GACGAGCTTT CACTGCTACA GAAGCTCCTC 
CTGGCCACAT CCTCCCCAAC AGCAAGCTCT GACGCTCTGA AGGACGGGGC CACCTGGTCC 
CAGACCAGCC TCAGTTCCAG AAGTCAGCGG CCTTGTGTCA AGGTGGATGG CACCCAGGAC 
AAGAAGACCC CCACACTGCG GGCTCAGAGC CGGCCTTGTA CAGAACTGCA TAAGCACCTC 
ACTTCGGTGC TGCCCTGTCC CAGAGTGAAA GCCTGCTCCC CAACTCCACA CCCGAGCCCT 
CAGCTCCTCT CCAAGGAGGA GGAGGAGGAG GAGGAGGTGG GGGAGGATTG CCCAAGCCCT 
TGGCCGACTC CAGCCTCTCC CCAAGACTCC CTAGCACAGG ACATGGCCAG CTCCGACAGT 
GCCCAGGCTC CCGAGGAGGA TGTGAGGGCC ATGGTACAGC TCATTCGCTA TATGCATACC 
TACTGCCTGC CTCAGAGGAA GCTGCCCCAA CAGGCCCCAG AGCCAATCCC CCAGTCCTGC 
AGCAGCCTCT CCAGGCAGGT TCAACCCCGA TCCCGGCATC CCCCCAAAGC CTTCTGGACT 
GAGTTCTCTA TCCTAAGGGA ACTTCTGGCC CAAGATATCC TCTGTGATGT TAGCAAGCCC 
TACCGCCTGG CCGTACCTGT CTATGCTTCC CTCACACCTC AGTCCAGGCC CAGGCCCCCC 
AAGGACAGTC AGGCCTCCCC TGCCCACTCT GCCATGGCAG AAGAGGTGAG AATCACTGCT 
TCCCCCAAGA GCACCGGGCC TAGACCCAGC CTGCGTCCTC TGAGGCTGGA GGTGAAACGG 
GACGTTAACA AGCCTACAAG GCAAAAGCGG GAGGAAGATG AGGAGGAGGA GGAAGAAGAA 
GAGGAAGAGG AAGAAGAAAA AGAAGAGGAA GAAGAGGAGT GGGGCAGGAA GAGACCAGGT 
CGTGGCCTGC CATGGACCAA ACTAGGGAGG AAGATGGACA GCTCTGTGTG CCCTGTGCGG 
CGCTCCAGGA GACTGAATCC AGAGCTGGGC CCCTGGCTGA CATTCACTGA TGAGCCCTTA 
GGTGCTCTGC CCTCGATGTG CCTGGATACA GAGACCCACA ACCTGGAGGA AGACCTGGGC 
AGCCTCACAG ACAGTAGTCA AGGCCGGCAG CTCCCCCAGG GATCCCAGAT CCCCGCCCTG 
GAAAGCCCCT GTGAGAGTGG GTGCGGGGAC ACAGATGAAG ATCCAAGCTG CCCACAGCCC 
CCTTCCAGAG ACTCCTCCAG GTGCCTCATG CTGGCCTTGT CACAAAGCGA CTCTCTTGGC 
AAGAAGAGCT TTGAGGAGTC CCTGACGGTG GAGCTTTGCG GCACGGCAGG ACTCACGCCA 
CCCACCACAC CTCCATACAA ACCCATGGAG GAGGACCCCT TCAAGCCAGA CACCAAGCCC 
AGCCCAGGCC AAGACACAGC TCCCAGCCTT CCCTCCCCCG AGGCTCTTCC GCTCACAGCT 
ACCCCAGGAG CTTCCCACAA GCTGCCCAAG AGGCACCCAG AGCGAAGTGA GCTCCTGTCC 
CATTTGCAGC ATGCCACAAC CCAGCCAGTC TCACAGGCTG GCCAGAAGCG CCCCTTCTCC 
TGCTCCTTTG GAGACCACGA CTACTGCCAG GTGCTCAGGC CAGAGGCTGC CCTGCAGAGG 
AAGGTGCTGC GGTCCTGGGA GCCAATTGGG GTCCACCTTG AAGACTTGGC CCAGCAGGGT 
GCCCCTCTGC CAATGGAAAC AAAGGCCCCT AGGAGGGAGG CGGACCAGAA CTGTGACCCT 
ACCCCCAAGG ACAGCATGCA GCTAAGAGAC CATGAGATCC GTGCCAGCCT CACAAAGCAC 
TTTGGGCTGC TGGAGACTGC TCTGGAGGAT GAAGACCTGG CGTCCTGTAA AAGCCCGGAG 
TATGACACCG TATTTGAGGA CAGCAGCAGC AGCAGTGGCG AGAGTAGCTT CCTACTTGAG 
GAGGAGGAGG AAGAGGAGGA GGGAGGGGAA GAGGACGATG AAGGAGAGGA CTCAGGGGTC 
AGCCCTCCCT GCTCTGACCA CTGCCCCTAC CAGAGCCCAC CTAGTAAGGC CAGTCGGCAG 
CTCTGTTCCC GAAGCCGCTC CAGTTCCGGC TCCTCATCCT GCAGCTCCTG GTCACCAGCC 
ACCCGGAAGA ACTTCAGACG TGAGAGCAGA GGGCCCTGTT CAGATGGAAC CCCAAGCGTC 
CGGCATGCCA GGAAGCGGCG GGAAAAGGCC ATCGGCGAAG GCCGTGTGGT ATACATTCGA 
AATCTCTCCA GTGACATGAG CTCTCGGGAA CTGAAGAAGC GCTTTGAGGT GTTCGGTGAG 
ATTGTAGAGT GTCAGGTGCT GACGAGAAGT AAAAGAGGCC AGAAGCACGG TTTTATCACC 
TTCCGGTGTT CGGAGCACGC TGCCCTGTCC GTGAGGAACG GCGCCACCCT GAGAAAGCGC 
AATGAGCCCT CCTTCCACCT GAGCTATGGA GGGCTCCGGC ACTTCCGTTG GCCCAGATAC 
ACTGACTATG ATCCCACATC TGAGGAGTCC CTTCCCTCAT CTGGGAAAAG CAAGTACGAA 
GCCATGGATT TTGACAGCTT ACTGAAAGAG GCCCAGCAGA GCCTGCATTG A

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

RefSeq	XP_029327927.1
CDS	59..3109
Translation	MAGNDCGALLDEELSSFFLNYLSDTQGGDSGEEQLCADLPELDLSQLDASDFDSATCFGELQWCPETSETEPSQYSPDDSELFQIDSENEALLAALTKTLDDIPEDDVGLAAFPELDEGDTASCTPASPAPLSAPPSPTLERLLSPASDVDELSLLQKLLLATSSPTASSDALKDGATWSQTSLSSRSQRPCVKVDGTQDKKTPTLRAQSRPCTELHKHLTSVLPCPRVKACSPTPHPSPQLLSKEEEEEEEVGEDCPSPWPTPASPQDSLAQDMASSDSAQAPEEDVRAMVQLIRYMHTYCLPQRKLPQQAPEPIPQSCSSLSRQVQPRSRHPPKAFWTEFSILRELLAQDILCDVSKPYRLAVPVYASLTPQSRPRPPKDSQASPAHSAMAEEVRITASPKSTGPRPSLRPLRLEVKRDVNKPTRQKREEDEEEEEEEEEEEEEKEEEEEEWGRKRPGRGLPWTKLGRKMDSSVCPVRRSRRLNPELGPWLTFTDEPLGALPSMCLDTETHNLEEDLGSLTDSSQGRQLPQGSQIPALESPCESGCGDTDEDPSCPQPPSRDSSRCLMLALSQSDSLGKKSFEESLTVELCGTAGLTPPTTPPYKPMEEDPFKPDTKPSPGQDTAPSLPSPEALPLTATPGASHKLPKRHPERSELLSHLQHATTQPVSQAGQKRPFSCSFGDHDYCQVLRPEAALQRKVLRSWEPIGVHLEDLAQQGAPLPMETKAPRREADQNCDPTPKDSMQLRDHEIRASLTKHFGLLETALEDEDLASCKSPEYDTVFEDSSSSSGESSFLLEEEEEEEEGGEEDDEGEDSGVSPPCSDHCPYQSPPSKASRQLCSRSRSSSGSSSCSSWSPATRKNFRRESRGPCSDGTPSVRHARKRREKAIGEGRVVYIRNLSSDMSSRELKKRFEVFGEIVECQVLTRSKRGQKHGFITFRCSEHAALSVRNGATLRKRNEPSFHLSYGGLRHFRWPRYTDYDPTSEESLPSSGKSKYEAMDFDSLLKEAQQSLH

Target ORF information:

RefSeq Version	XM_029472067.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli PPARG coactivator 1 beta (Ppargc1b), mRNA.

Target ORF information:

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

XM_029472067.1

ORF Insert Sequence:

ATGGCGGGGA ACGACTGCGG CGCGCTGCTG GATGAAGAGC TCTCGTCCTT CTTCCTCAAC 
TATCTCTCTG ACACGCAGGG TGGGGACTCT GGAGAGGAAC AGCTGTGTGC TGACTTGCCA 
GAGCTTGACC TCTCCCAGCT GGACGCCAGT GACTTTGACT CAGCCACGTG CTTTGGGGAG 
CTGCAGTGGT GCCCGGAGAC CTCAGAGACA GAACCCAGCC AGTACAGCCC CGATGACTCC 
GAGCTCTTCC AGATTGACAG TGAGAATGAA GCTCTCTTGG CTGCGCTTAC GAAGACCCTG 
GATGACATCC CCGAAGACGA TGTGGGGCTG GCTGCCTTCC CAGAACTGGA TGAAGGCGAC 
ACAGCATCCT GCACCCCAGC CTCACCTGCT CCCTTATCGG CACCCCCCAG CCCCACCCTG 
GAGAGGCTTC TGTCCCCAGC GTCTGACGTG GACGAGCTTT CACTGCTACA GAAGCTCCTC 
CTGGCCACAT CCTCCCCAAC AGCAAGCTCT GACGCTCTGA AGGACGGGGC CACCTGGTCC 
CAGACCAGCC TCAGTTCCAG AAGTCAGCGG CCTTGTGTCA AGGTGGATGG CACCCAGGAC 
AAGAAGACCC CCACACTGCG GGCTCAGAGC CGGCCTTGTA CAGAACTGCA TAAGCACCTC 
ACTTCGGTGC TGCCCTGTCC CAGAGTGAAA GCCTGCTCCC CAACTCCACA CCCGAGCCCT 
CAGCTCCTCT CCAAGGAGGA GGAGGAGGAG GAGGAGGTGG GGGAGGATTG CCCAAGCCCT 
TGGCCGACTC CAGCCTCTCC CCAAGACTCC CTAGCACAGG ACATGGCCAG CTCCGACAGT 
GCCCAGGCTC CCGAGGAGGA TGTGAGGGCC ATGGTACAGC TCATTCGCTA TATGCATACC 
TACTGCCTGC CTCAGAGGAA GCTGCCCCAA CAGGCCCCAG AGCCAATCCC CCAGTCCTGC 
AGCAGCCTCT CCAGGCAGGT TCAACCCCGA TCCCGGCATC CCCCCAAAGC CTTCTGGACT 
GAGTTCTCTA TCCTAAGGGA ACTTCTGGCC CAAGATATCC TCTGTGATGT TAGCAAGCCC 
TACCGCCTGG CCGTACCTGT CTATGCTTCC CTCACACCTC AGTCCAGGCC CAGGCCCCCC 
AAGGACAGTC AGGCCTCCCC TGCCCACTCT GCCATGGCAG AAGAGGTGAG AATCACTGCT 
TCCCCCAAGA GCACCGGGCC TAGACCCAGC CTGCGTCCTC TGAGGCTGGA GGTGAAACGG 
GACGTTAACA AGCCTACAAG GCAAAAGCGG GAGGAAGATG AGGAGGAGGA GGAAGAAGAA 
GAGGAAGAGG AAGAAGAAAA AGAAGAGGAA GAAGAGGAGT GGGGCAGGAA GAGACCAGGT 
CGTGGCCTGC CATGGACCAA ACTAGGGAGG AAGATGGACA GCTCTGTGTG CCCTGTGCGG 
CGCTCCAGGA GACTGAATCC AGAGCTGGGC CCCTGGCTGA CATTCACTGA TGAGCCCTTA 
GGTGCTCTGC CCTCGATGTG CCTGGATACA GAGACCCACA ACCTGGAGGA AGACCTGGGC 
AGCCTCACAG ACAGTAGTCA AGGCCGGCAG CTCCCCCAGG GATCCCAGAT CCCCGCCCTG 
GAAAGCCCCT GTGAGAGTGG GTGCGGGGAC ACAGATGAAG ATCCAAGCTG CCCACAGCCC 
CCTTCCAGAG ACTCCTCCAG GTGCCTCATG CTGGCCTTGT CACAAAGCGA CTCTCTTGGC 
AAGAAGAGCT TTGAGGAGTC CCTGACGGTG GAGCTTTGCG GCACGGCAGG ACTCACGCCA 
CCCACCACAC CTCCATACAA ACCCATGGAG GAGGACCCCT TCAAGCCAGA CACCAAGCCC 
AGCCCAGGCC AAGACACAGC TCCCAGCCTT CCCTCCCCCG AGGCTCTTCC GCTCACAGCT 
ACCCCAGGAG CTTCCCACAA GCTGCCCAAG AGGCACCCAG AGCGAAGTGA GCTCCTGTCC 
CATTTGCAGC ATGCCACAAC CCAGCCAGTC TCACAGGCTG GCCAGAAGCG CCCCTTCTCC 
TGCTCCTTTG GAGACCACGA CTACTGCCAG GTGCTCAGGC CAGAGGCTGC CCTGCAGAGG 
AAGGTGCTGC GGTCCTGGGA GCCAATTGGG GTCCACCTTG AAGACTTGGC CCAGCAGGGT 
GCCCCTCTGC CAATGGAAAC AAAGGCCCCT AGGAGGGAGG CGGACCAGAA CTGTGACCCT 
ACCCCCAAGG ACAGCATGCA GCTAAGAGAC CATGAGATCC GTGCCAGCCT CACAAAGCAC 
TTTGGGCTGC TGGAGACTGC TCTGGAGGAT GAAGACCTGG CGTCCTGTAA AAGCCCGGAG 
TATGACACCG TATTTGAGGA CAGCAGCAGC AGCAGTGGCG AGAGTAGCTT CCTACTTGAG 
GAGGAGGAGG AAGAGGAGGA GGGAGGGGAA GAGGACGATG AAGGAGAGGA CTCAGGGGTC 
AGCCCTCCCT GCTCTGACCA CTGCCCCTAC CAGAGCCCAC CTAGTAAGGC CAGTCGGCAG 
CTCTGTTCCC GAAGCCGCTC CAGTTCCGGC TCCTCATCCT GCAGCTCCTG GTCACCAGCC 
ACCCGGAAGA ACTTCAGACG TGAGAGCAGA GGGCCCTGTT CAGATGGAAC CCCAAGCGTC 
CGGCATGCCA GGAAGCGGCG GGAAAAGGCC ATCGGCGAAG GCCGTGTGGT ATACATTCGA 
AATCTCTCCA GTGACATGAG CTCTCGGGAA CTGAAGAAGC GCTTTGAGGT GTTCGGTGAG 
ATTGTAGAGT GTCAGGTGCT GACGAGAAGT AAAAGAGGCC AGAAGCACGG TTTTATCACC 
TTCCGGTGTT CGGAGCACGC TGCCCTGTCC GTGAGGAACG GCGCCACCCT GAGAAAGCGC 
AATGAGCCCT CCTTCCACCT GAGCTATGGA GGGCTCCGGC ACTTCCGTTG GCCCAGATAC 
ACTGACTATG ATCCCACATC TGAGGAGTCC CTTCCCTCAT CTGGGAAAAG CAAGTACGAA 
GCCATGGATT TTGACAGCTT ACTGAAAGAG GCCCAGCAGA GCCTGCATTG A

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

Ppargc1b ( XM_021150315.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021005974.1 Mus caroli PPARG coactivator 1 beta (Ppargc1b), mRNA.

Price & Availability↑

CloneID	OMv35560
Clone ID Related Accession (Same CDS sequence)	XM_021150315.1
Accession Version	XM_021150315.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3003bp) 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	peroxisome proliferator-activated receptor gamma coactivator 1-beta
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGGCATTT ATGGGCATTT TGTGAAGGAG GGTGGGGACT CTGGAGAGGA ACAGCTGTGT 
GCTGACTTGC CAGAGCTTGA CCTCTCCCAG CTGGACGCCA GTGACTTTGA CTCAGCCACG 
TGCTTTGGGG AGCTGCAGTG GTGCCCGGAG ACCTCAGAGA CAGAACCCAG CCAGTACAGC 
CCCGATGACT CCGAGCTCTT CCAGATTGAC AGTGAGAATG AAGCTCTCTT GGCTGCGCTT 
ACGAAGACCC TGGATGACAT CCCCGAAGAC GATGTGGGGC TGGCTGCCTT CCCAGAACTG 
GATGAAGGCG ACACAGCATC CTGCACCCCA GCCTCACCTG CTCCCTTATC GGCACCCCCC 
AGCCCCACCC TGGAGAGGCT TCTGTCCCCA GCGTCTGACG TGGACGAGCT TTCACTGCTA 
CAGAAGCTCC TCCTGGCCAC ATCCTCCCCA ACAGCAAGCT CTGACGCTCT GAAGGACGGG 
GCCACCTGGT CCCAGACCAG CCTCAGTTCC AGAAGTCAGC GGCCTTGTGT CAAGGTGGAT 
GGCACCCAGG ACAAGAAGAC CCCCACACTG CGGGCTCAGA GCCGGCCTTG TACAGAACTG 
CATAAGCACC TCACTTCGGT GCTGCCCTGT CCCAGAGTGA AAGCCTGCTC CCCAACTCCA 
CACCCGAGCC CTCAGCTCCT CTCCAAGGAG GAGGAGGAGG AGGAGGAGGT GGGGGAGGAT 
TGCCCAAGCC CTTGGCCGAC TCCAGCCTCT CCCCAAGACT CCCTAGCACA GGACATGGCC 
AGCTCCGACA GTGCCCAGGC TCCCGAGGAG GATGTGAGGG CCATGGTACA GCTCATTCGC 
TATATGCATA CCTACTGCCT GCCTCAGAGG AAGCTGCCCC AACAGGCCCC AGAGCCAATC 
CCCCAGTCCT GCAGCAGCCT CTCCAGGCAG GTTCAACCCC GATCCCGGCA TCCCCCCAAA 
GCCTTCTGGA CTGAGTTCTC TATCCTAAGG GAACTTCTGG CCCAAGATAT CCTCTGTGAT 
GTTAGCAAGC CCTACCGCCT GGCCGTACCT GTCTATGCTT CCCTCACACC TCAGTCCAGG 
CCCAGGCCCC CCAAGGACAG TCAGGCCTCC CCTGCCCACT CTGCCATGGC AGAAGAGGTG 
AGAATCACTG CTTCCCCCAA GAGCACCGGG CCTAGACCCA GCCTGCGTCC TCTGAGGCTG 
GAGGTGAAAC GGGACGTTAA CAAGCCTACA AGGCAAAAGC GGGAGGAAGA TGAGGAGGAG 
GAGGAAGAAG AAGAGGAAGA GGAAGAAGAA AAAGAAGAGG AAGAAGAGGA GTGGGGCAGG 
AAGAGACCAG GTCGTGGCCT GCCATGGACC AAACTAGGGA GGAAGATGGA CAGCTCTGTG 
TGCCCTGTGC GGCGCTCCAG GAGACTGAAT CCAGAGCTGG GCCCCTGGCT GACATTCACT 
GATGAGCCCT TAGGTGCTCT GCCCTCGATG TGCCTGGATA CAGAGACCCA CAACCTGGAG 
GAAGACCTGG GCAGCCTCAC AGACAGTAGT CAAGGCCGGC AGCTCCCCCA GGGATCCCAG 
ATCCCCGCCC TGGAAAGCCC CTGTGAGAGT GGGTGCGGGG ACACAGATGA AGATCCAAGC 
TGCCCACAGC CCCCTTCCAG AGACTCCTCC AGGTGCCTCA TGCTGGCCTT GTCACAAAGC 
GACTCTCTTG GCAAGAAGAG CTTTGAGGAG TCCCTGACGG TGGAGCTTTG CGGCACGGCA 
GGACTCACGC CACCCACCAC ACCTCCATAC AAACCCATGG AGGAGGACCC CTTCAAGCCA 
GACACCAAGC CCAGCCCAGG CCAAGACACA GCTCCCAGCC TTCCCTCCCC CGAGGCTCTT 
CCGCTCACAG CTACCCCAGG AGCTTCCCAC AAGCTGCCCA AGAGGCACCC AGAGCGAAGT 
GAGCTCCTGT CCCATTTGCA GCATGCCACA ACCCAGCCAG TCTCACAGGC TGGCCAGAAG 
CGCCCCTTCT CCTGCTCCTT TGGAGACCAC GACTACTGCC AGGTGCTCAG GCCAGAGGCT 
GCCCTGCAGA GGAAGGTGCT GCGGTCCTGG GAGCCAATTG GGGTCCACCT TGAAGACTTG 
GCCCAGCAGG GTGCCCCTCT GCCAATGGAA ACAAAGGCCC CTAGGAGGGA GGCGGACCAG 
AACTGTGACC CTACCCCCAA GGACAGCATG CAGCTAAGAG ACCATGAGAT CCGTGCCAGC 
CTCACAAAGC ACTTTGGGCT GCTGGAGACT GCTCTGGAGG ATGAAGACCT GGCGTCCTGT 
AAAAGCCCGG AGTATGACAC CGTATTTGAG GACAGCAGCA GCAGCAGTGG CGAGAGTAGC 
TTCCTACTTG AGGAGGAGGA GGAAGAGGAG GAGGGAGGGG AAGAGGACGA TGAAGGAGAG 
GACTCAGGGG TCAGCCCTCC CTGCTCTGAC CACTGCCCCT ACCAGAGCCC ACCTAGTAAG 
GCCAGTCGGC AGCTCTGTTC CCGAAGCCGC TCCAGTTCCG GCTCCTCATC CTGCAGCTCC 
TGGTCACCAG CCACCCGGAA GAACTTCAGA CGTGAGAGCA GAGGGCCCTG TTCAGATGGA 
ACCCCAAGCG TCCGGCATGC CAGGAAGCGG CGGGAAAAGG CCATCGGCGA AGGCCGTGTG 
GTATACATTC GAAATCTCTC CAGTGACATG AGCTCTCGGG AACTGAAGAA GCGCTTTGAG 
GTGTTCGGTG AGATTGTAGA GTGTCAGGTG CTGACGAGAA GTAAAAGAGG CCAGAAGCAC 
GGTTTTATCA CCTTCCGGTG TTCGGAGCAC GCTGCCCTGT CCGTGAGGAA CGGCGCCACC 
CTGAGAAAGC GCAATGAGCC CTCCTTCCAC CTGAGCTATG GAGGGCTCCG GCACTTCCGT 
TGGCCCAGAT ACACTGACTA TGATCCCACA TCTGAGGAGT CCCTTCCCTC ATCTGGGAAA 
AGCAAGTACG AAGCCATGGA TTTTGACAGC TTACTGAAAG AGGCCCAGCA GAGCCTGCAT 
TGA

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

RefSeq	XP_021005974.1
CDS	1..3003
Translation	MGIYGHFVKEGGDSGEEQLCADLPELDLSQLDASDFDSATCFGELQWCPETSETEPSQYSPDDSELFQIDSENEALLAALTKTLDDIPEDDVGLAAFPELDEGDTASCTPASPAPLSAPPSPTLERLLSPASDVDELSLLQKLLLATSSPTASSDALKDGATWSQTSLSSRSQRPCVKVDGTQDKKTPTLRAQSRPCTELHKHLTSVLPCPRVKACSPTPHPSPQLLSKEEEEEEEVGEDCPSPWPTPASPQDSLAQDMASSDSAQAPEEDVRAMVQLIRYMHTYCLPQRKLPQQAPEPIPQSCSSLSRQVQPRSRHPPKAFWTEFSILRELLAQDILCDVSKPYRLAVPVYASLTPQSRPRPPKDSQASPAHSAMAEEVRITASPKSTGPRPSLRPLRLEVKRDVNKPTRQKREEDEEEEEEEEEEEEEKEEEEEEWGRKRPGRGLPWTKLGRKMDSSVCPVRRSRRLNPELGPWLTFTDEPLGALPSMCLDTETHNLEEDLGSLTDSSQGRQLPQGSQIPALESPCESGCGDTDEDPSCPQPPSRDSSRCLMLALSQSDSLGKKSFEESLTVELCGTAGLTPPTTPPYKPMEEDPFKPDTKPSPGQDTAPSLPSPEALPLTATPGASHKLPKRHPERSELLSHLQHATTQPVSQAGQKRPFSCSFGDHDYCQVLRPEAALQRKVLRSWEPIGVHLEDLAQQGAPLPMETKAPRREADQNCDPTPKDSMQLRDHEIRASLTKHFGLLETALEDEDLASCKSPEYDTVFEDSSSSSGESSFLLEEEEEEEEGGEEDDEGEDSGVSPPCSDHCPYQSPPSKASRQLCSRSRSSSGSSSCSSWSPATRKNFRRESRGPCSDGTPSVRHARKRREKAIGEGRVVYIRNLSSDMSSRELKKRFEVFGEIVECQVLTRSKRGQKHGFITFRCSEHAALSVRNGATLRKRNEPSFHLSYGGLRHFRWPRYTDYDPTSEESLPSSGKSKYEAMDFDSLLKEAQQSLH

Target ORF information:

RefSeq Version	XM_021150315.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli PPARG coactivator 1 beta (Ppargc1b), mRNA.

Target ORF information:

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

XM_021150315.1

ORF Insert Sequence:

ATGGGCATTT ATGGGCATTT TGTGAAGGAG GGTGGGGACT CTGGAGAGGA ACAGCTGTGT 
GCTGACTTGC CAGAGCTTGA CCTCTCCCAG CTGGACGCCA GTGACTTTGA CTCAGCCACG 
TGCTTTGGGG AGCTGCAGTG GTGCCCGGAG ACCTCAGAGA CAGAACCCAG CCAGTACAGC 
CCCGATGACT CCGAGCTCTT CCAGATTGAC AGTGAGAATG AAGCTCTCTT GGCTGCGCTT 
ACGAAGACCC TGGATGACAT CCCCGAAGAC GATGTGGGGC TGGCTGCCTT CCCAGAACTG 
GATGAAGGCG ACACAGCATC CTGCACCCCA GCCTCACCTG CTCCCTTATC GGCACCCCCC 
AGCCCCACCC TGGAGAGGCT TCTGTCCCCA GCGTCTGACG TGGACGAGCT TTCACTGCTA 
CAGAAGCTCC TCCTGGCCAC ATCCTCCCCA ACAGCAAGCT CTGACGCTCT GAAGGACGGG 
GCCACCTGGT CCCAGACCAG CCTCAGTTCC AGAAGTCAGC GGCCTTGTGT CAAGGTGGAT 
GGCACCCAGG ACAAGAAGAC CCCCACACTG CGGGCTCAGA GCCGGCCTTG TACAGAACTG 
CATAAGCACC TCACTTCGGT GCTGCCCTGT CCCAGAGTGA AAGCCTGCTC CCCAACTCCA 
CACCCGAGCC CTCAGCTCCT CTCCAAGGAG GAGGAGGAGG AGGAGGAGGT GGGGGAGGAT 
TGCCCAAGCC CTTGGCCGAC TCCAGCCTCT CCCCAAGACT CCCTAGCACA GGACATGGCC 
AGCTCCGACA GTGCCCAGGC TCCCGAGGAG GATGTGAGGG CCATGGTACA GCTCATTCGC 
TATATGCATA CCTACTGCCT GCCTCAGAGG AAGCTGCCCC AACAGGCCCC AGAGCCAATC 
CCCCAGTCCT GCAGCAGCCT CTCCAGGCAG GTTCAACCCC GATCCCGGCA TCCCCCCAAA 
GCCTTCTGGA CTGAGTTCTC TATCCTAAGG GAACTTCTGG CCCAAGATAT CCTCTGTGAT 
GTTAGCAAGC CCTACCGCCT GGCCGTACCT GTCTATGCTT CCCTCACACC TCAGTCCAGG 
CCCAGGCCCC CCAAGGACAG TCAGGCCTCC CCTGCCCACT CTGCCATGGC AGAAGAGGTG 
AGAATCACTG CTTCCCCCAA GAGCACCGGG CCTAGACCCA GCCTGCGTCC TCTGAGGCTG 
GAGGTGAAAC GGGACGTTAA CAAGCCTACA AGGCAAAAGC GGGAGGAAGA TGAGGAGGAG 
GAGGAAGAAG AAGAGGAAGA GGAAGAAGAA AAAGAAGAGG AAGAAGAGGA GTGGGGCAGG 
AAGAGACCAG GTCGTGGCCT GCCATGGACC AAACTAGGGA GGAAGATGGA CAGCTCTGTG 
TGCCCTGTGC GGCGCTCCAG GAGACTGAAT CCAGAGCTGG GCCCCTGGCT GACATTCACT 
GATGAGCCCT TAGGTGCTCT GCCCTCGATG TGCCTGGATA CAGAGACCCA CAACCTGGAG 
GAAGACCTGG GCAGCCTCAC AGACAGTAGT CAAGGCCGGC AGCTCCCCCA GGGATCCCAG 
ATCCCCGCCC TGGAAAGCCC CTGTGAGAGT GGGTGCGGGG ACACAGATGA AGATCCAAGC 
TGCCCACAGC CCCCTTCCAG AGACTCCTCC AGGTGCCTCA TGCTGGCCTT GTCACAAAGC 
GACTCTCTTG GCAAGAAGAG CTTTGAGGAG TCCCTGACGG TGGAGCTTTG CGGCACGGCA 
GGACTCACGC CACCCACCAC ACCTCCATAC AAACCCATGG AGGAGGACCC CTTCAAGCCA 
GACACCAAGC CCAGCCCAGG CCAAGACACA GCTCCCAGCC TTCCCTCCCC CGAGGCTCTT 
CCGCTCACAG CTACCCCAGG AGCTTCCCAC AAGCTGCCCA AGAGGCACCC AGAGCGAAGT 
GAGCTCCTGT CCCATTTGCA GCATGCCACA ACCCAGCCAG TCTCACAGGC TGGCCAGAAG 
CGCCCCTTCT CCTGCTCCTT TGGAGACCAC GACTACTGCC AGGTGCTCAG GCCAGAGGCT 
GCCCTGCAGA GGAAGGTGCT GCGGTCCTGG GAGCCAATTG GGGTCCACCT TGAAGACTTG 
GCCCAGCAGG GTGCCCCTCT GCCAATGGAA ACAAAGGCCC CTAGGAGGGA GGCGGACCAG 
AACTGTGACC CTACCCCCAA GGACAGCATG CAGCTAAGAG ACCATGAGAT CCGTGCCAGC 
CTCACAAAGC ACTTTGGGCT GCTGGAGACT GCTCTGGAGG ATGAAGACCT GGCGTCCTGT 
AAAAGCCCGG AGTATGACAC CGTATTTGAG GACAGCAGCA GCAGCAGTGG CGAGAGTAGC 
TTCCTACTTG AGGAGGAGGA GGAAGAGGAG GAGGGAGGGG AAGAGGACGA TGAAGGAGAG 
GACTCAGGGG TCAGCCCTCC CTGCTCTGAC CACTGCCCCT ACCAGAGCCC ACCTAGTAAG 
GCCAGTCGGC AGCTCTGTTC CCGAAGCCGC TCCAGTTCCG GCTCCTCATC CTGCAGCTCC 
TGGTCACCAG CCACCCGGAA GAACTTCAGA CGTGAGAGCA GAGGGCCCTG TTCAGATGGA 
ACCCCAAGCG TCCGGCATGC CAGGAAGCGG CGGGAAAAGG CCATCGGCGA AGGCCGTGTG 
GTATACATTC GAAATCTCTC CAGTGACATG AGCTCTCGGG AACTGAAGAA GCGCTTTGAG 
GTGTTCGGTG AGATTGTAGA GTGTCAGGTG CTGACGAGAA GTAAAAGAGG CCAGAAGCAC 
GGTTTTATCA CCTTCCGGTG TTCGGAGCAC GCTGCCCTGT CCGTGAGGAA CGGCGCCACC 
CTGAGAAAGC GCAATGAGCC CTCCTTCCAC CTGAGCTATG GAGGGCTCCG GCACTTCCGT 
TGGCCCAGAT ACACTGACTA TGATCCCACA TCTGAGGAGT CCCTTCCCTC ATCTGGGAAA 
AGCAAGTACG AAGCCATGGA TTTTGACAGC TTACTGAAAG AGGCCCAGCA GAGCCTGCAT 
TGA