Prob1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Prob1
Entrez Gene ID	110284865
Full Name	proline rich basic protein 1
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021150810.1	XP_021006469.1	proline-rich basic protein 1
XM_021150810.2	XP_021006469.2	proline-rich basic protein 1

Pathways from BioSystems
Gene Ontology

The following Prob1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Prob1 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
OMv70733	XM_021150810.2 Latest version!	Mus caroli proline rich basic protein 1 (Prob1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMv35946	XM_021150810.1 Latest version!	Mus caroli proline rich basic protein 1 (Prob1), 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)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

Prob1 ( XM_021150810.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006469.2 Mus caroli proline rich basic protein 1 (Prob1), mRNA.

Price & Availability↑

CloneID	OMv70733
Clone ID Related Accession (Same CDS sequence)	XM_021150810.2
Accession Version	XM_021150810.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3237bp) 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	proline-rich basic protein 1
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. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021150810.1. ##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##

ATGGGGTCTT CACCCCTAAA AGCCCACAGC TTAGGTTTCT CTGCTGCCAA GGCCGCTAGC 
TCAGGCGTTG ACGCTGGCGC TTTAAGACGC TTTGACCCCG CGGCATCCAG GCGGGGCGGG 
GACAGTGCAG GAGCCACCAG CAGCGGCACT GCGCGGGAGG TAGTGCTAGG TGTCCTGCCC 
ACCATGCTGA CTGCGCTCGC CCCGCTAGCC CTTCCTGGGC TCTCAAGGCG GCTGCCTGCC 
CCAGCGGGGC GTCAGGACTC GTCCGGTTCG TCCGGCTCCT ACCACACAGC TCCGGGTTCT 
CCGGAGCCCC CGGACGTTGG GCCGGACACA GAAGGCCAGG GGACTTGGCT CTGGGTGGCT 
CCTGGGTGGG GGGCGGGCGC GCAGCCTGTC CTGTCCGTCA GCGCCCAGAA TAGCCGCCAG 
CAGCACGGCT CCGGCTCGGG TTTCCCACGA GGCCCGGGCT CCGGCCCGCT GCCGCCCCGG 
CCCCAGCTGC GCATGCTGCC GTCGGGGGAG ATGGAAGTCA TCTTCGGCGC GGGGCCTCTG 
TTCAACCGCT CCGACGCGGA GGATCTGCAG GAGCAACAGC TCATGGCGCC TACCTTCAGC 
AGTCCCCAGC TGCCCGATCC AGCGTCTCCT GCCTCAGTCT CGTCGCAGCC GCAGGTCCCC 
GACGGGGGCT CTCGCTGGGC CACCTACCTG GAGCTGCCGC CCCGCGAGCC GAGTCCTGCC 
GTCTCAGGCC AGTACGAGTG TGTGGAGGTA GCCCTGGAGG AGCGCACCGC GCCCGTTAGA 
CCCCGCACTG TGCCGAAACG TCAGATCGAG CTGCGCCCGC GGCCTCGGAG TCCCTCGCAG 
GACAGTCGCG CGCCGCGTCC CCGACTGCTC CTGCGCACGG GCTCCCTGGA CGAGTCTCTG 
AGCCGCTTGC AGGCCGCCGC GGGCATCGTG CAGACGGCGC TGGCTAGAAA ACTAGGCTCT 
GCGGTCCCAG CCCCCAGCAA CGTCACTTTT AAGTCTACCG CCAAGCCAGA ATCCACGACG 
AACTCTCAGG AGACGGCAGG CAGCACTCGT GTGCTCCTGG AAGAGGCTAA GTCTCGGCCG 
CCCCGCGCGC ACGATAATTC CTCCTCTGCC AGAGTCCCGC GGCCTTGGCC TAGCCTCCGA 
GAGCGAGCGA TTCGGCGGGA CAAGCCGGCT CCCGGGACCG AGCCTCTGGG TCCAGTTAGT 
TCCAGCATCT TTCTGCAATC AGAGGAGAAA CCTCATCAGG CTTACAAACA GGAATCCAAG 
ACCCAGTTTC CCCGTGAGAC TCCCGATCGA ACCGTGCCGA GAGCACGGAG TCCTCCTTTT 
CATTCTAGAG GTTCCCGGGT GGTTCCCAGT AGGGTTGTGA GGCCGAGGAG CCCCTCTCCT 
CCGCAGCAGG CTCCAAACGG GGCCGTGCGG GGTCCTCGCT GCCCGTCTCC CCAGAACCCC 
CCACAACCTT CTAAGATTGT TTGGAGAACG AGTAGCCCGG CCTTCCCTGG CGGCACATCC 
TCTGCGTGGG AAAATCGGAA TGCCTCCGTC GAGGAAGTAG TCAGCAGAAG GACCCCTTCC 
CCACCACCAC TTCCCCAATG GACTCAGGGT GTCGCTAGAG TTGGGAACCC ATGTCCTGAA 
GCTCCTCTTG TGTGGAAGGT TCCGAATTCG AGAGGCGGAG ATGCAGTAGG GCTGAGTAGG 
GACTCGTTGC CAGCCCTGCT CCCGCGAGAA GCACCTCATC CTATTGAAAC GGGTACCCAA 
TCGCCCGGAG AGACTTGGAG TCCTGTTGTG CAGGGTGCAT CGACAGCACT GCATCAGGAA 
GCTATGAACG GTCTAACCCA GGAGCTGGAG CCGCCTACAC CATCAGCACC CGCGACTCCA 
GAGCTCACAG AGGCTCTGTG TCTGCTCTCA CTGGAAAATG CGGGTATCGC CATCAGAGGC 
GGTCAGCGGT CTCCAGATGT GGATACACCG GAACAGCCCC GAAGTCACCT CACAAGCACT 
CTGGACGACG ATGTGTGCCC GGAAGCCGTG GGCTCGGGAG AAGCGGCTTC TGAACGCCCG 
CGAGTGACCA TTCCGCGGCC GCGAGACGTG CGCAAGATGG TTAAGACTAC TTATGCGCCA 
AGCTTCCCTG CAGGGATCCC AGGCTCCGGG CTTCCCGCGC CTCCTGCGGA CACCTGCGGG 
GAGGACGGTG ATGCATCCAA AACTCACAAG CTCCCCGCAC TTGAGTCGCC CGCCCCGGCT 
CATTACACTT CCATTTTTCT CAAGGACTTT CTGCCTGTGG TACCTCATCC CTACGAGTCA 
CCAGAGCCTT CACTCCATGC AACCCCTAAG GATGCCTCCC AGTCCAGCGG GGTCCCGAGG 
CGGCGGGCAG AGAACAGCAC CGCGAAGCCT TTCGCTCGGA GTGAGATCCG CTTGCCTGGC 
GCTCTAGCTT TCGGCCAGCG GCGGGAGAAA ACCCCGACTG TCCAAAGACG CGGTCCTGGA 
GGAGAAAACC CGGATGCTGA GGCCCAGTGC CTGGTCCCGA ACCCTGAGGG TCGGACCAGC 
CCTTTAGGAG GCGCTCGCAC CTCAACCCAG TGTTCCCCTT TAGAGTCGAC AGGGACCCGA 
CCACCTCGCC CCGGCTCCCC GCAGGCGTGT CCAAACTCGA GCCTTAGGGC AGCGCCCGAA 
TTGGAGACAC CGCTTGTGAC TCCAGCAACT GCGGTCCAGG CGCCCCGACT TCCCGATCCT 
CCGGCGACGG CAGCCAGAGC CGCTGCACCC TTCCCGCGAG CTGCTTCTGC GCCTCCCACC 
GACAGGCTTC CCCCTGCATC TTCCCAGGGG CGGAGGCCTC CGGGAGCCGC GCCCGCGGGG 
AAGGTCCTCT TAGACCCGGA GAGCGGCCGG TACTACTTTG TGGAGGCGCC GAGGCAGCCG 
AGGCTGCGAC TACTTTTCGA TCCCGAGAGC GGGCAGTACG TGGAAGTACT GCTGCCACCC 
TCGCCCTCTC CCTCCCGGCA GCCACGCCAG CCCTATGCCC CGCTGGCCCT AGGGCCAGGC 
CTCTACCCGC CCGCCTATGG GCCTATCTCT GGTCCATCAC TGTCGCCGCT GTCCCCCAAC 
CTGCCGGCCC TTGGTAGTCT CCAGCTACCT TGGGCTTCTG AGGCTGGACC CCTGGAGGGA 
ATGTATTACA TGCCCTTGAG CGGGACCCCT AGTCCAGCAC CACCAATGCT CTTCTGTGCC 
CCACCCTCCA GTTCTGGTCC CATCCAGTCA GGCAAGGGTT CTGTGTTTCC TTTGTGA

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

RefSeq	XP_021006469.2
CDS	1383..4619
Translation	MGSSPLKAHSLGFSAAKAASSGVDAGALRRFDPAASRRGGDSAGATSSGTAREVVLGVLPTMLTALAPLALPGLSRRLPAPAGRQDSSGSSGSYHTAPGSPEPPDVGPDTEGQGTWLWVAPGWGAGAQPVLSVSAQNSRQQHGSGSGFPRGPGSGPLPPRPQLRMLPSGEMEVIFGAGPLFNRSDAEDLQEQQLMAPTFSSPQLPDPASPASVSSQPQVPDGGSRWATYLELPPREPSPAVSGQYECVEVALEERTAPVRPRTVPKRQIELRPRPRSPSQDSRAPRPRLLLRTGSLDESLSRLQAAAGIVQTALARKLGSAVPAPSNVTFKSTAKPESTTNSQETAGSTRVLLEEAKSRPPRAHDNSSSARVPRPWPSLRERAIRRDKPAPGTEPLGPVSSSIFLQSEEKPHQAYKQESKTQFPRETPDRTVPRARSPPFHSRGSRVVPSRVVRPRSPSPPQQAPNGAVRGPRCPSPQNPPQPSKIVWRTSSPAFPGGTSSAWENRNASVEEVVSRRTPSPPPLPQWTQGVARVGNPCPEAPLVWKVPNSRGGDAVGLSRDSLPALLPREAPHPIETGTQSPGETWSPVVQGASTALHQEAMNGLTQELEPPTPSAPATPELTEALCLLSLENAGIAIRGGQRSPDVDTPEQPRSHLTSTLDDDVCPEAVGSGEAASERPRVTIPRPRDVRKMVKTTYAPSFPAGIPGSGLPAPPADTCGEDGDASKTHKLPALESPAPAHYTSIFLKDFLPVVPHPYESPEPSLHATPKDASQSSGVPRRRAENSTAKPFARSEIRLPGALAFGQRREKTPTVQRRGPGGENPDAEAQCLVPNPEGRTSPLGGARTSTQCSPLESTGTRPPRPGSPQACPNSSLRAAPELETPLVTPATAVQAPRLPDPPATAARAAAPFPRAASAPPTDRLPPASSQGRRPPGAAPAGKVLLDPESGRYYFVEAPRQPRLRLLFDPESGQYVEVLLPPSPSPSRQPRQPYAPLALGPGLYPPAYGPISGPSLSPLSPNLPALGSLQLPWASEAGPLEGMYYMPLSGTPSPAPPMLFCAPPSSSGPIQSGKGSVFPL

Target ORF information:

RefSeq Version	XM_021150810.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli proline rich basic protein 1 (Prob1), mRNA.

Target ORF information:

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

XM_021150810.2

ORF Insert Sequence:

ATGGGGTCTT CACCCCTAAA AGCCCACAGC TTAGGTTTCT CTGCTGCCAA GGCCGCTAGC 
TCAGGCGTTG ACGCTGGCGC TTTAAGACGC TTTGACCCCG CGGCATCCAG GCGGGGCGGG 
GACAGTGCAG GAGCCACCAG CAGCGGCACT GCGCGGGAGG TAGTGCTAGG TGTCCTGCCC 
ACCATGCTGA CTGCGCTCGC CCCGCTAGCC CTTCCTGGGC TCTCAAGGCG GCTGCCTGCC 
CCAGCGGGGC GTCAGGACTC GTCCGGTTCG TCCGGCTCCT ACCACACAGC TCCGGGTTCT 
CCGGAGCCCC CGGACGTTGG GCCGGACACA GAAGGCCAGG GGACTTGGCT CTGGGTGGCT 
CCTGGGTGGG GGGCGGGCGC GCAGCCTGTC CTGTCCGTCA GCGCCCAGAA TAGCCGCCAG 
CAGCACGGCT CCGGCTCGGG TTTCCCACGA GGCCCGGGCT CCGGCCCGCT GCCGCCCCGG 
CCCCAGCTGC GCATGCTGCC GTCGGGGGAG ATGGAAGTCA TCTTCGGCGC GGGGCCTCTG 
TTCAACCGCT CCGACGCGGA GGATCTGCAG GAGCAACAGC TCATGGCGCC TACCTTCAGC 
AGTCCCCAGC TGCCCGATCC AGCGTCTCCT GCCTCAGTCT CGTCGCAGCC GCAGGTCCCC 
GACGGGGGCT CTCGCTGGGC CACCTACCTG GAGCTGCCGC CCCGCGAGCC GAGTCCTGCC 
GTCTCAGGCC AGTACGAGTG TGTGGAGGTA GCCCTGGAGG AGCGCACCGC GCCCGTTAGA 
CCCCGCACTG TGCCGAAACG TCAGATCGAG CTGCGCCCGC GGCCTCGGAG TCCCTCGCAG 
GACAGTCGCG CGCCGCGTCC CCGACTGCTC CTGCGCACGG GCTCCCTGGA CGAGTCTCTG 
AGCCGCTTGC AGGCCGCCGC GGGCATCGTG CAGACGGCGC TGGCTAGAAA ACTAGGCTCT 
GCGGTCCCAG CCCCCAGCAA CGTCACTTTT AAGTCTACCG CCAAGCCAGA ATCCACGACG 
AACTCTCAGG AGACGGCAGG CAGCACTCGT GTGCTCCTGG AAGAGGCTAA GTCTCGGCCG 
CCCCGCGCGC ACGATAATTC CTCCTCTGCC AGAGTCCCGC GGCCTTGGCC TAGCCTCCGA 
GAGCGAGCGA TTCGGCGGGA CAAGCCGGCT CCCGGGACCG AGCCTCTGGG TCCAGTTAGT 
TCCAGCATCT TTCTGCAATC AGAGGAGAAA CCTCATCAGG CTTACAAACA GGAATCCAAG 
ACCCAGTTTC CCCGTGAGAC TCCCGATCGA ACCGTGCCGA GAGCACGGAG TCCTCCTTTT 
CATTCTAGAG GTTCCCGGGT GGTTCCCAGT AGGGTTGTGA GGCCGAGGAG CCCCTCTCCT 
CCGCAGCAGG CTCCAAACGG GGCCGTGCGG GGTCCTCGCT GCCCGTCTCC CCAGAACCCC 
CCACAACCTT CTAAGATTGT TTGGAGAACG AGTAGCCCGG CCTTCCCTGG CGGCACATCC 
TCTGCGTGGG AAAATCGGAA TGCCTCCGTC GAGGAAGTAG TCAGCAGAAG GACCCCTTCC 
CCACCACCAC TTCCCCAATG GACTCAGGGT GTCGCTAGAG TTGGGAACCC ATGTCCTGAA 
GCTCCTCTTG TGTGGAAGGT TCCGAATTCG AGAGGCGGAG ATGCAGTAGG GCTGAGTAGG 
GACTCGTTGC CAGCCCTGCT CCCGCGAGAA GCACCTCATC CTATTGAAAC GGGTACCCAA 
TCGCCCGGAG AGACTTGGAG TCCTGTTGTG CAGGGTGCAT CGACAGCACT GCATCAGGAA 
GCTATGAACG GTCTAACCCA GGAGCTGGAG CCGCCTACAC CATCAGCACC CGCGACTCCA 
GAGCTCACAG AGGCTCTGTG TCTGCTCTCA CTGGAAAATG CGGGTATCGC CATCAGAGGC 
GGTCAGCGGT CTCCAGATGT GGATACACCG GAACAGCCCC GAAGTCACCT CACAAGCACT 
CTGGACGACG ATGTGTGCCC GGAAGCCGTG GGCTCGGGAG AAGCGGCTTC TGAACGCCCG 
CGAGTGACCA TTCCGCGGCC GCGAGACGTG CGCAAGATGG TTAAGACTAC TTATGCGCCA 
AGCTTCCCTG CAGGGATCCC AGGCTCCGGG CTTCCCGCGC CTCCTGCGGA CACCTGCGGG 
GAGGACGGTG ATGCATCCAA AACTCACAAG CTCCCCGCAC TTGAGTCGCC CGCCCCGGCT 
CATTACACTT CCATTTTTCT CAAGGACTTT CTGCCTGTGG TACCTCATCC CTACGAGTCA 
CCAGAGCCTT CACTCCATGC AACCCCTAAG GATGCCTCCC AGTCCAGCGG GGTCCCGAGG 
CGGCGGGCAG AGAACAGCAC CGCGAAGCCT TTCGCTCGGA GTGAGATCCG CTTGCCTGGC 
GCTCTAGCTT TCGGCCAGCG GCGGGAGAAA ACCCCGACTG TCCAAAGACG CGGTCCTGGA 
GGAGAAAACC CGGATGCTGA GGCCCAGTGC CTGGTCCCGA ACCCTGAGGG TCGGACCAGC 
CCTTTAGGAG GCGCTCGCAC CTCAACCCAG TGTTCCCCTT TAGAGTCGAC AGGGACCCGA 
CCACCTCGCC CCGGCTCCCC GCAGGCGTGT CCAAACTCGA GCCTTAGGGC AGCGCCCGAA 
TTGGAGACAC CGCTTGTGAC TCCAGCAACT GCGGTCCAGG CGCCCCGACT TCCCGATCCT 
CCGGCGACGG CAGCCAGAGC CGCTGCACCC TTCCCGCGAG CTGCTTCTGC GCCTCCCACC 
GACAGGCTTC CCCCTGCATC TTCCCAGGGG CGGAGGCCTC CGGGAGCCGC GCCCGCGGGG 
AAGGTCCTCT TAGACCCGGA GAGCGGCCGG TACTACTTTG TGGAGGCGCC GAGGCAGCCG 
AGGCTGCGAC TACTTTTCGA TCCCGAGAGC GGGCAGTACG TGGAAGTACT GCTGCCACCC 
TCGCCCTCTC CCTCCCGGCA GCCACGCCAG CCCTATGCCC CGCTGGCCCT AGGGCCAGGC 
CTCTACCCGC CCGCCTATGG GCCTATCTCT GGTCCATCAC TGTCGCCGCT GTCCCCCAAC 
CTGCCGGCCC TTGGTAGTCT CCAGCTACCT TGGGCTTCTG AGGCTGGACC CCTGGAGGGA 
ATGTATTACA TGCCCTTGAG CGGGACCCCT AGTCCAGCAC CACCAATGCT CTTCTGTGCC 
CCACCCTCCA GTTCTGGTCC CATCCAGTCA GGCAAGGGTT CTGTGTTTCC TTTGTGA

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

Prob1 ( XM_021150810.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006469.1 Mus caroli proline rich basic protein 1 (Prob1), mRNA.

Price & Availability↑

CloneID	OMv35946
Clone ID Related Accession (Same CDS sequence)	XM_021150810.1
Accession Version	XM_021150810.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3054bp) 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	proline-rich basic protein 1
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. 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##

ATGCTGACTG CGCTCGCCCC GCTAGCCCTT CCTGGGCTCT CAAGGCGGCT GCCTGCCCCA 
GCGGGGCGTC AGGACTCGTC CGGTTCGTCC GGCTCCTACC ACACAGCTCC GGGTTCTCCG 
GAGCCCCCGG ACGTTGGGCC GGACACAGAA GGCCAGGGGA CTTGGCTCTG GGTGGCTCCT 
GGGTGGGGGG CGGGCGCGCA GCCTGTCCTG TCCGTCAGCG CCCAGAATAG CCGCCAGCAG 
CACGGCTCCG GCTCGGGTTT CCCACGAGGC CCGGGCTCCG GCCCGCTGCC GCCCCGGCCC 
CAGCTGCGCA TGCTGCCGTC GGGGGAGATG GAAGTCATCT TCGGCGCGGG GCCTCTGTTC 
AACCGCTCCG ACGCGGAGGA TCTGCAGGAG CAACAGCTCA TGGCGCCTAC CTTCAGCAGT 
CCCCAGCTGC CCGATCCAGC GTCTCCTGCC TCAGTCTCGT CGCAGCCGCA GGTCCCCGAC 
GGGGGCTCTC GCTGGGCCAC CTACCTGGAG CTGCCGCCCC GCGAGCCGAG TCCTGCCGTC 
TCAGGCCAGT ACGAGTGTGT GGAGGTAGCC CTGGAGGAGC GCACCGCGCC CGTTAGACCC 
CGCACTGTGC CGAAACGTCA GATCGAGCTG CGCCCGCGGC CTCGGAGTCC CTCGCAGGAC 
AGTCGCGCGC CGCGTCCCCG ACTGCTCCTG CGCACGGGCT CCCTGGACGA GTCTCTGAGC 
CGCTTGCAGG CCGCCGCGGG CATCGTGCAG ACGGCGCTGG CTAGAAAACT AGGCTCTGCG 
GTCCCAGCCC CCAGCAACGT CACTTTTAAG TCTACCGCCA AGCCAGAATC CACGACGAAC 
TCTCAGGAGA CGGCAGGCAG CACTCGTGTG CTCCTGGAAG AGGCTAAGTC TCGGCCGCCC 
CGCGCGCACG ATAATTCCTC CTCTGCCAGA GTCCCGCGGC CTTGGCCTAG CCTCCGAGAG 
CGAGCGATTC GGCGGGACAA GCCGGCTCCC GGGACCGAGC CTCTGGGTCC AGTTAGTTCC 
AGCATCTTTC TGCAATCAGA GGAGAAACCT CATCAGGCTT ACAAACAGGA ATCCAAGACC 
CAGTTTCCCC GTGAGACTCC CGATCGAACC GTGCCGAGAG CACGGAGTCC TCCTTTTCAT 
TCTAGAGGTT CCCGGGTGGT TCCCAGTAGG GTTGTGAGGC CGAGGAGCCC CTCTCCTCCG 
CAGCAGGCTC CAAACGGGGC CGTGCGGGGT CCTCGCTGCC CGTCTCCCCA GAACCCCCCA 
CAACCTTCTA AGATTGTTTG GAGAACGAGT AGCCCGGCCT TCCCTGGCGG CACATCCTCT 
GCGTGGGAAA ATCGGAATGC CTCCGTCGAG GAAGTAGTCA GCAGAAGGAC CCCTTCCCCA 
CCACCACTTC CCCAATGGAC TCAGGGTGTC GCTAGAGTTG GGAACCCATG TCCTGAAGCT 
CCTCTTGTGT GGAAGGTTCC GAATTCGAGA GGCGGAGATG CAGTAGGGCT GAGTAGGGAC 
TCGTTGCCAG CCCTGCTCCC GCGAGAAGCA CCTCATCCTA TTGAAACGGG TACCCAATCG 
CCCGGAGAGA CTTGGAGTCC TGTTGTGCAG GGTGCATCGA CAGCACTGCA TCAGGAAGCT 
ATGAACGGTC TAACCCAGGA GCTGGAGCCG CCTACACCAT CAGCACCCGC GACTCCAGAG 
CTCACAGAGG CTCTGTGTCT GCTCTCACTG GAAAATGCGG GTATCGCCAT CAGAGGCGGT 
CAGCGGTCTC CAGATGTGGA TACACCGGAA CAGCCCCGAA GTCACCTCAC AAGCACTCTG 
GACGACGATG TGTGCCCGGA AGCCGTGGGC TCGGGAGAAG CGGCTTCTGA ACGCCCGCGA 
GTGACCATTC CGCGGCCGCG AGACGTGCGC AAGATGGTTA AGACTACTTA TGCGCCAAGC 
TTCCCTGCAG GGATCCCAGG CTCCGGGCTT CCCGCGCCTC CTGCGGACAC CTGCGGGGAG 
GACGGTGATG CATCCAAAAC TCACAAGCTC CCCGCACTTG AGTCGCCCGC CCCGGCTCAT 
TACACTTCCA TTTTTCTCAA GGACTTTCTG CCTGTGGTAC CTCATCCCTA CGAGTCACCA 
GAGCCTTCAC TCCATGCAAC CCCTAAGGAT GCCTCCCAGT CCAGCGGGGT CCCGAGGCGG 
CGGGCAGAGA ACAGCACCGC GAAGCCTTTC GCTCGGAGTG AGATCCGCTT GCCTGGCGCT 
CTAGCTTTCG GCCAGCGGCG GGAGAAAACC CCGACTGTCC AAAGACGCGG TCCTGGAGGA 
GAAAACCCGG ATGCTGAGGC CCAGTGCCTG GTCCCGAACC CTGAGGGTCG GACCAGCCCT 
TTAGGAGGCG CTCGCACCTC AACCCAGTGT TCCCCTTTAG AGTCGACAGG GACCCGACCA 
CCTCGCCCCG GCTCCCCGCA GGCGTGTCCA AACTCGAGCC TTAGGGCAGC GCCCGAATTG 
GAGACACCGC TTGTGACTCC AGCAACTGCG GTCCAGGCGC CCCGACTTCC CGATCCTCCG 
GCGACGGCAG CCAGAGCCGC TGCACCCTTC CCGCGAGCTG CTTCTGCGCC TCCCACCGAC 
AGGCTTCCCC CTGCATCTTC CCAGGGGCGG AGGCCTCCGG GAGCCGCGCC CGCGGGGAAG 
GTCCTCTTAG ACCCGGAGAG CGGCCGGTAC TACTTTGTGG AGGCGCCGAG GCAGCCGAGG 
CTGCGACTAC TTTTCGATCC CGAGAGCGGG CAGTACGTGG AAGTACTGCT GCCACCCTCG 
CCCTCTCCCT CCCGGCAGCC ACGCCAGCCC TATGCCCCGC TGGCCCTAGG GCCAGGCCTC 
TACCCGCCCG CCTATGGGCC TATCTCTGGT CCATCACTGT CGCCGCTGTC CCCCAACCTG 
CCGGCCCTTG GTAGTCTCCA GCTACCTTGG GCTTCTGAGG CTGGACCCCT GGAGGGAATG 
TATTACATGC CCTTGAGCGG GACCCCTAGT CCAGCACCAC CAATGCTCTT CTGTGCCCCA 
CCCTCCAGTT CTGGTCCCAT CCAGTCAGGC AAGGGTTCTG TGTTTCCTTT GTGA

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

RefSeq	XP_021006469.1
CDS	1..3054
Translation	MLTALAPLALPGLSRRLPAPAGRQDSSGSSGSYHTAPGSPEPPDVGPDTEGQGTWLWVAPGWGAGAQPVLSVSAQNSRQQHGSGSGFPRGPGSGPLPPRPQLRMLPSGEMEVIFGAGPLFNRSDAEDLQEQQLMAPTFSSPQLPDPASPASVSSQPQVPDGGSRWATYLELPPREPSPAVSGQYECVEVALEERTAPVRPRTVPKRQIELRPRPRSPSQDSRAPRPRLLLRTGSLDESLSRLQAAAGIVQTALARKLGSAVPAPSNVTFKSTAKPESTTNSQETAGSTRVLLEEAKSRPPRAHDNSSSARVPRPWPSLRERAIRRDKPAPGTEPLGPVSSSIFLQSEEKPHQAYKQESKTQFPRETPDRTVPRARSPPFHSRGSRVVPSRVVRPRSPSPPQQAPNGAVRGPRCPSPQNPPQPSKIVWRTSSPAFPGGTSSAWENRNASVEEVVSRRTPSPPPLPQWTQGVARVGNPCPEAPLVWKVPNSRGGDAVGLSRDSLPALLPREAPHPIETGTQSPGETWSPVVQGASTALHQEAMNGLTQELEPPTPSAPATPELTEALCLLSLENAGIAIRGGQRSPDVDTPEQPRSHLTSTLDDDVCPEAVGSGEAASERPRVTIPRPRDVRKMVKTTYAPSFPAGIPGSGLPAPPADTCGEDGDASKTHKLPALESPAPAHYTSIFLKDFLPVVPHPYESPEPSLHATPKDASQSSGVPRRRAENSTAKPFARSEIRLPGALAFGQRREKTPTVQRRGPGGENPDAEAQCLVPNPEGRTSPLGGARTSTQCSPLESTGTRPPRPGSPQACPNSSLRAAPELETPLVTPATAVQAPRLPDPPATAARAAAPFPRAASAPPTDRLPPASSQGRRPPGAAPAGKVLLDPESGRYYFVEAPRQPRLRLLFDPESGQYVEVLLPPSPSPSRQPRQPYAPLALGPGLYPPAYGPISGPSLSPLSPNLPALGSLQLPWASEAGPLEGMYYMPLSGTPSPAPPMLFCAPPSSSGPIQSGKGSVFPL

Target ORF information:

RefSeq Version	XM_021150810.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli proline rich basic protein 1 (Prob1), mRNA.

Target ORF information:

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

XM_021150810.1

ORF Insert Sequence:

ATGCTGACTG CGCTCGCCCC GCTAGCCCTT CCTGGGCTCT CAAGGCGGCT GCCTGCCCCA 
GCGGGGCGTC AGGACTCGTC CGGTTCGTCC GGCTCCTACC ACACAGCTCC GGGTTCTCCG 
GAGCCCCCGG ACGTTGGGCC GGACACAGAA GGCCAGGGGA CTTGGCTCTG GGTGGCTCCT 
GGGTGGGGGG CGGGCGCGCA GCCTGTCCTG TCCGTCAGCG CCCAGAATAG CCGCCAGCAG 
CACGGCTCCG GCTCGGGTTT CCCACGAGGC CCGGGCTCCG GCCCGCTGCC GCCCCGGCCC 
CAGCTGCGCA TGCTGCCGTC GGGGGAGATG GAAGTCATCT TCGGCGCGGG GCCTCTGTTC 
AACCGCTCCG ACGCGGAGGA TCTGCAGGAG CAACAGCTCA TGGCGCCTAC CTTCAGCAGT 
CCCCAGCTGC CCGATCCAGC GTCTCCTGCC TCAGTCTCGT CGCAGCCGCA GGTCCCCGAC 
GGGGGCTCTC GCTGGGCCAC CTACCTGGAG CTGCCGCCCC GCGAGCCGAG TCCTGCCGTC 
TCAGGCCAGT ACGAGTGTGT GGAGGTAGCC CTGGAGGAGC GCACCGCGCC CGTTAGACCC 
CGCACTGTGC CGAAACGTCA GATCGAGCTG CGCCCGCGGC CTCGGAGTCC CTCGCAGGAC 
AGTCGCGCGC CGCGTCCCCG ACTGCTCCTG CGCACGGGCT CCCTGGACGA GTCTCTGAGC 
CGCTTGCAGG CCGCCGCGGG CATCGTGCAG ACGGCGCTGG CTAGAAAACT AGGCTCTGCG 
GTCCCAGCCC CCAGCAACGT CACTTTTAAG TCTACCGCCA AGCCAGAATC CACGACGAAC 
TCTCAGGAGA CGGCAGGCAG CACTCGTGTG CTCCTGGAAG AGGCTAAGTC TCGGCCGCCC 
CGCGCGCACG ATAATTCCTC CTCTGCCAGA GTCCCGCGGC CTTGGCCTAG CCTCCGAGAG 
CGAGCGATTC GGCGGGACAA GCCGGCTCCC GGGACCGAGC CTCTGGGTCC AGTTAGTTCC 
AGCATCTTTC TGCAATCAGA GGAGAAACCT CATCAGGCTT ACAAACAGGA ATCCAAGACC 
CAGTTTCCCC GTGAGACTCC CGATCGAACC GTGCCGAGAG CACGGAGTCC TCCTTTTCAT 
TCTAGAGGTT CCCGGGTGGT TCCCAGTAGG GTTGTGAGGC CGAGGAGCCC CTCTCCTCCG 
CAGCAGGCTC CAAACGGGGC CGTGCGGGGT CCTCGCTGCC CGTCTCCCCA GAACCCCCCA 
CAACCTTCTA AGATTGTTTG GAGAACGAGT AGCCCGGCCT TCCCTGGCGG CACATCCTCT 
GCGTGGGAAA ATCGGAATGC CTCCGTCGAG GAAGTAGTCA GCAGAAGGAC CCCTTCCCCA 
CCACCACTTC CCCAATGGAC TCAGGGTGTC GCTAGAGTTG GGAACCCATG TCCTGAAGCT 
CCTCTTGTGT GGAAGGTTCC GAATTCGAGA GGCGGAGATG CAGTAGGGCT GAGTAGGGAC 
TCGTTGCCAG CCCTGCTCCC GCGAGAAGCA CCTCATCCTA TTGAAACGGG TACCCAATCG 
CCCGGAGAGA CTTGGAGTCC TGTTGTGCAG GGTGCATCGA CAGCACTGCA TCAGGAAGCT 
ATGAACGGTC TAACCCAGGA GCTGGAGCCG CCTACACCAT CAGCACCCGC GACTCCAGAG 
CTCACAGAGG CTCTGTGTCT GCTCTCACTG GAAAATGCGG GTATCGCCAT CAGAGGCGGT 
CAGCGGTCTC CAGATGTGGA TACACCGGAA CAGCCCCGAA GTCACCTCAC AAGCACTCTG 
GACGACGATG TGTGCCCGGA AGCCGTGGGC TCGGGAGAAG CGGCTTCTGA ACGCCCGCGA 
GTGACCATTC CGCGGCCGCG AGACGTGCGC AAGATGGTTA AGACTACTTA TGCGCCAAGC 
TTCCCTGCAG GGATCCCAGG CTCCGGGCTT CCCGCGCCTC CTGCGGACAC CTGCGGGGAG 
GACGGTGATG CATCCAAAAC TCACAAGCTC CCCGCACTTG AGTCGCCCGC CCCGGCTCAT 
TACACTTCCA TTTTTCTCAA GGACTTTCTG CCTGTGGTAC CTCATCCCTA CGAGTCACCA 
GAGCCTTCAC TCCATGCAAC CCCTAAGGAT GCCTCCCAGT CCAGCGGGGT CCCGAGGCGG 
CGGGCAGAGA ACAGCACCGC GAAGCCTTTC GCTCGGAGTG AGATCCGCTT GCCTGGCGCT 
CTAGCTTTCG GCCAGCGGCG GGAGAAAACC CCGACTGTCC AAAGACGCGG TCCTGGAGGA 
GAAAACCCGG ATGCTGAGGC CCAGTGCCTG GTCCCGAACC CTGAGGGTCG GACCAGCCCT 
TTAGGAGGCG CTCGCACCTC AACCCAGTGT TCCCCTTTAG AGTCGACAGG GACCCGACCA 
CCTCGCCCCG GCTCCCCGCA GGCGTGTCCA AACTCGAGCC TTAGGGCAGC GCCCGAATTG 
GAGACACCGC TTGTGACTCC AGCAACTGCG GTCCAGGCGC CCCGACTTCC CGATCCTCCG 
GCGACGGCAG CCAGAGCCGC TGCACCCTTC CCGCGAGCTG CTTCTGCGCC TCCCACCGAC 
AGGCTTCCCC CTGCATCTTC CCAGGGGCGG AGGCCTCCGG GAGCCGCGCC CGCGGGGAAG 
GTCCTCTTAG ACCCGGAGAG CGGCCGGTAC TACTTTGTGG AGGCGCCGAG GCAGCCGAGG 
CTGCGACTAC TTTTCGATCC CGAGAGCGGG CAGTACGTGG AAGTACTGCT GCCACCCTCG 
CCCTCTCCCT CCCGGCAGCC ACGCCAGCCC TATGCCCCGC TGGCCCTAGG GCCAGGCCTC 
TACCCGCCCG CCTATGGGCC TATCTCTGGT CCATCACTGT CGCCGCTGTC CCCCAACCTG 
CCGGCCCTTG GTAGTCTCCA GCTACCTTGG GCTTCTGAGG CTGGACCCCT GGAGGGAATG 
TATTACATGC CCTTGAGCGG GACCCCTAGT CCAGCACCAC CAATGCTCTT CTGTGCCCCA 
CCCTCCAGTT CTGGTCCCAT CCAGTCAGGC AAGGGTTCTG TGTTTCCTTT GTGA