Fyb1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Fyb1
Entrez Gene ID	110310521
Full Name	FYN binding protein 1
Synonyms	Fyb
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021183550.1	XP_021039209.1	FYN-binding protein
XM_029470073.1	XP_029325933.1	FYN-binding protein 1 isoform X2
XM_029470072.1	XP_029325932.1	FYN-binding protein 1 isoform X1
XM_029470074.1	XP_029325934.1	FYN-binding protein 1 isoform X3

Pathways from BioSystems
Gene Ontology

The following Fyb1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Fyb1 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)
OMv32191	XM_021183550.1 Latest version!	Mus caroli FYN binding protein (Fyb), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
OMv32191	XM_029470074.1 Latest version!	Mus caroli FYN binding protein 1 (Fyb1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
OMv69601	XM_029470072.1 Latest version!	Mus caroli FYN binding protein 1 (Fyb1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OMv69602	XM_029470073.1 Latest version!	Mus caroli FYN binding protein 1 (Fyb1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00

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
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*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)

Fyb1 ( XM_021183550.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021039209.1 Mus caroli FYN binding protein (Fyb), mRNA.

Price & Availability↑

CloneID	OMv32191
Clone ID Related Accession (Same CDS sequence)	XM_021183550.1 , XM_029470074.1
Accession Version	XM_021183550.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2460bp) 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	FYN-binding protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) 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##

ATGGCGAAGT TCAACACCGG GAGTAACCCG ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC 
TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT GGAATACAAT CAAGAAAGAA TTTATTTGAC 
AACCAAGGAA ATGCCAGCCC GCCCGCAGGA CCCAGCAGCA TGCCTAAATT TGGGACCACA 
AAACCACCCT TGGCAGTGAA ACCTACCTAC GAGGAGAAGC CTGAGAAGGA GCCTAAACCC 
CCGTTTTTAA AACCTACTGG AGTGAGCCCA AGATTTGGAA CACAGCCAAA CTCAGTTTCT 
AGAGACCCTG AGGTCAAAGT GGGGTTCCTG AAACCTGTAA GCCCCAAACC CACCGGCTTG 
ACCAAAGAAG ATTCCAAACC TGTGGTTTTA CGGCCACCTG GGAATAAGCT TCACAATTTG 
AACCAAGAGT CTGACTTAAA GACGCCAGGA CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA 
GAAAACGAAC TGAAGCCAGG GTTCTCAAAG GTGGCTGGAG CTAAGAGCAA GTTCATGCCA 
GCGGCACAAG ATACTGACTC CAAACCCCGA TTTCCCAGAC ACACCTTTGG CCAGAAGCCA 
TCCCTAAGTA CAGAGGACTC CCAGGAAGAG AACACTTCTA AGAACGTGCC TGTCCAGAAA 
GGATCCCCAG TGCAGTTGGG AGCCAAGTCC AAGGGCGCCC CTTTCAAACT AGCTAAGGAA 
GACCCCGAGG GTAAAGACCA TGGAGCACCA AGTTCACCCT TTGCTGGAGT GGTTCTGAAA 
CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC TCCAAAAACT TTGAAGAAAA AAAAGAAGAT 
AGGAAAACAG ACCTTGCAAA GAACATCTTT CTGAACAAAC TGAATCAGGA AGAGCCGGCC 
AGATTCCCTA AGGCCCCTTC CAAGCTGACA GCGGGGACAC CGTGGGGCCA AAGTCAGGAG 
AAAGAAGGAG ACAAGAATTC TGCAACCCCG AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC 
TTGGGCCCAC CTCCACCCAA GCCCAACAGA CCACCCAATG TTGACCTGAC CAGATTCCGA 
AAGGCTGACT CTGCAAACAG TGCCACCAAA AGCCAGACAC CTTACTCGAC AACTTCGCTG 
CCACCACCTC CGCCTACACA TCCAGCCAGC CAGCCACCTC TGCCAGCGTC TCACCCCGCG 
CACCCGCCAG TCCCCAGCCT CCCCCCTAGA AACATCAAGC CTCCTCTTGA CCTGAAACAT 
CCTATAAATG AAGAAAATCA AGATGGTGTC ATGCACTCTG ATGGTACTGG AAATCTAGAA 
GAGGAACAAG AGAGTGAAGG AGAAACATAC GAAGACATAG ACTCATCTAA GGAAAGAGAC 
AAGAAACGGG AAAAAGAAGA AAAGAAGAGG TTGGAACTAG AACGGAAGGA GCAGAAGGAG 
AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG AAATTCAAGC TCACAGGCCC CATTCAAGTC 
ATCCACCATG CAAAAGCCTG CTTCGATGTC AAAGGAGGAA AGAACGAGCT GAGCTTCAAA 
CAAGGAGAGG ACATTGAGAT TATCCGCATC ACAGACAACC CAGAAGGAAA ATGGCTGGGC 
AGGACTGCAA GGGGGTCATA TGGTTATATT AAAACAACTG CCGTGGAGAT TGACTATGAT 
TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT GCTGTCCCAC CAAGACTTGT TGAAGATGAC 
CAGGAGGTCT ATGATGATGT GGCTGAGCAG GATGCCCCTA ACAGCCACGG TCAGAGCGGA 
AGTGGAGGGA TGTTCCCCCC GCCACCAACA GACGACGAGA TCTATGATGG AATAGAAGAG 
GAAGACGATG ATGATGGATC CGTGCCGCAG GTTGACGAGA AGACTAACGC ATGGTCCTGG 
GGGATTTTGA AGATGTTAAA GGGAAAAGAT GACAGAAAGA AAAGCATTCG AGAGAAACCT 
AAAGTCTCTG AATCAGACAA TAATGAAGGT TCATCTCTCC CTTCTCAGCA TAAGCAACTG 
GATGTGGGAG AAGAAGTTTA CGATGATGTG GATGCCTCAG ACTTCCCTCC TCCACCTGCA 
GAGATGAGTC AAGGAATGAG TGTTGGAAGG GCAAAAATGG AAGAGAAAGA TCCCAAGAAG 
CTAAAAAAGC AAGAAAAGGA AGAAAAAGAC CTCAGGAAAA AATTTAAGTA CGACGGTGAA 
ATTCGAGTTC TATATTCAAC TAAAGTTGCA TCCTCCTTAA CCTCTAAAAA GTGGGGAGCG 
AGAGATCTGC AGATAAAACC TGGGGAGTCA CTCGAAGTTA TACAAAGCAC AGATGACACC 
AAAGTTCTCT GCAGGAATGA AGAGGGCAAA TATGGTTATG TCCTTCGGAG TTACCTGGTG 
GACAATGATG GAGAAATCTA TGACGACATC GCTGATGGTT GCATCTATGA CAATGACTAG

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

RefSeq	XP_021039209.1
CDS	51..2510
Translation	MAKFNTGSNPTEEAAASSRPFKVAGQSSPSGIQSRKNLFDNQGNASPPAGPSSMPKFGTTKPPLAVKPTYEEKPEKEPKPPFLKPTGVSPRFGTQPNSVSRDPEVKVGFLKPVSPKPTGLTKEDSKPVVLRPPGNKLHNLNQESDLKTPGPKPGPAPPVPENELKPGFSKVAGAKSKFMPAAQDTDSKPRFPRHTFGQKPSLSTEDSQEENTSKNVPVQKGSPVQLGAKSKGAPFKLAKEDPEGKDHGAPSSPFAGVVLKPAASRGSPGLSKNFEEKKEDRKTDLAKNIFLNKLNQEEPARFPKAPSKLTAGTPWGQSQEKEGDKNSATPKQKALPPLSVLGPPPPKPNRPPNVDLTRFRKADSANSATKSQTPYSTTSLPPPPPTHPASQPPLPASHPAHPPVPSLPPRNIKPPLDLKHPINEENQDGVMHSDGTGNLEEEQESEGETYEDIDSSKERDKKREKEEKKRLELERKEQKEREKKEQELKKKFKLTGPIQVIHHAKACFDVKGGKNELSFKQGEDIEIIRITDNPEGKWLGRTARGSYGYIKTTAVEIDYDSLKRKKNSLNAVPPRLVEDDQEVYDDVAEQDAPNSHGQSGSGGMFPPPPTDDEIYDGIEEEDDDDGSVPQVDEKTNAWSWGILKMLKGKDDRKKSIREKPKVSESDNNEGSSLPSQHKQLDVGEEVYDDVDASDFPPPPAEMSQGMSVGRAKMEEKDPKKLKKQEKEEKDLRKKFKYDGEIRVLYSTKVASSLTSKKWGARDLQIKPGESLEVIQSTDDTKVLCRNEEGKYGYVLRSYLVDNDGEIYDDIADGCIYDND

Target ORF information:

RefSeq Version	XM_021183550.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli FYN binding protein (Fyb), mRNA.

Target ORF information:

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

XM_021183550.1

ORF Insert Sequence:

ATGGCGAAGT TCAACACCGG GAGTAACCCG ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC 
TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT GGAATACAAT CAAGAAAGAA TTTATTTGAC 
AACCAAGGAA ATGCCAGCCC GCCCGCAGGA CCCAGCAGCA TGCCTAAATT TGGGACCACA 
AAACCACCCT TGGCAGTGAA ACCTACCTAC GAGGAGAAGC CTGAGAAGGA GCCTAAACCC 
CCGTTTTTAA AACCTACTGG AGTGAGCCCA AGATTTGGAA CACAGCCAAA CTCAGTTTCT 
AGAGACCCTG AGGTCAAAGT GGGGTTCCTG AAACCTGTAA GCCCCAAACC CACCGGCTTG 
ACCAAAGAAG ATTCCAAACC TGTGGTTTTA CGGCCACCTG GGAATAAGCT TCACAATTTG 
AACCAAGAGT CTGACTTAAA GACGCCAGGA CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA 
GAAAACGAAC TGAAGCCAGG GTTCTCAAAG GTGGCTGGAG CTAAGAGCAA GTTCATGCCA 
GCGGCACAAG ATACTGACTC CAAACCCCGA TTTCCCAGAC ACACCTTTGG CCAGAAGCCA 
TCCCTAAGTA CAGAGGACTC CCAGGAAGAG AACACTTCTA AGAACGTGCC TGTCCAGAAA 
GGATCCCCAG TGCAGTTGGG AGCCAAGTCC AAGGGCGCCC CTTTCAAACT AGCTAAGGAA 
GACCCCGAGG GTAAAGACCA TGGAGCACCA AGTTCACCCT TTGCTGGAGT GGTTCTGAAA 
CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC TCCAAAAACT TTGAAGAAAA AAAAGAAGAT 
AGGAAAACAG ACCTTGCAAA GAACATCTTT CTGAACAAAC TGAATCAGGA AGAGCCGGCC 
AGATTCCCTA AGGCCCCTTC CAAGCTGACA GCGGGGACAC CGTGGGGCCA AAGTCAGGAG 
AAAGAAGGAG ACAAGAATTC TGCAACCCCG AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC 
TTGGGCCCAC CTCCACCCAA GCCCAACAGA CCACCCAATG TTGACCTGAC CAGATTCCGA 
AAGGCTGACT CTGCAAACAG TGCCACCAAA AGCCAGACAC CTTACTCGAC AACTTCGCTG 
CCACCACCTC CGCCTACACA TCCAGCCAGC CAGCCACCTC TGCCAGCGTC TCACCCCGCG 
CACCCGCCAG TCCCCAGCCT CCCCCCTAGA AACATCAAGC CTCCTCTTGA CCTGAAACAT 
CCTATAAATG AAGAAAATCA AGATGGTGTC ATGCACTCTG ATGGTACTGG AAATCTAGAA 
GAGGAACAAG AGAGTGAAGG AGAAACATAC GAAGACATAG ACTCATCTAA GGAAAGAGAC 
AAGAAACGGG AAAAAGAAGA AAAGAAGAGG TTGGAACTAG AACGGAAGGA GCAGAAGGAG 
AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG AAATTCAAGC TCACAGGCCC CATTCAAGTC 
ATCCACCATG CAAAAGCCTG CTTCGATGTC AAAGGAGGAA AGAACGAGCT GAGCTTCAAA 
CAAGGAGAGG ACATTGAGAT TATCCGCATC ACAGACAACC CAGAAGGAAA ATGGCTGGGC 
AGGACTGCAA GGGGGTCATA TGGTTATATT AAAACAACTG CCGTGGAGAT TGACTATGAT 
TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT GCTGTCCCAC CAAGACTTGT TGAAGATGAC 
CAGGAGGTCT ATGATGATGT GGCTGAGCAG GATGCCCCTA ACAGCCACGG TCAGAGCGGA 
AGTGGAGGGA TGTTCCCCCC GCCACCAACA GACGACGAGA TCTATGATGG AATAGAAGAG 
GAAGACGATG ATGATGGATC CGTGCCGCAG GTTGACGAGA AGACTAACGC ATGGTCCTGG 
GGGATTTTGA AGATGTTAAA GGGAAAAGAT GACAGAAAGA AAAGCATTCG AGAGAAACCT 
AAAGTCTCTG AATCAGACAA TAATGAAGGT TCATCTCTCC CTTCTCAGCA TAAGCAACTG 
GATGTGGGAG AAGAAGTTTA CGATGATGTG GATGCCTCAG ACTTCCCTCC TCCACCTGCA 
GAGATGAGTC AAGGAATGAG TGTTGGAAGG GCAAAAATGG AAGAGAAAGA TCCCAAGAAG 
CTAAAAAAGC AAGAAAAGGA AGAAAAAGAC CTCAGGAAAA AATTTAAGTA CGACGGTGAA 
ATTCGAGTTC TATATTCAAC TAAAGTTGCA TCCTCCTTAA CCTCTAAAAA GTGGGGAGCG 
AGAGATCTGC AGATAAAACC TGGGGAGTCA CTCGAAGTTA TACAAAGCAC AGATGACACC 
AAAGTTCTCT GCAGGAATGA AGAGGGCAAA TATGGTTATG TCCTTCGGAG TTACCTGGTG 
GACAATGATG GAGAAATCTA TGACGACATC GCTGATGGTT GCATCTATGA CAATGACTAG

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

Fyb1 ( XM_029470074.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029325934.1 Mus caroli FYN binding protein 1 (Fyb1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OMv32191
Clone ID Related Accession (Same CDS sequence)	XM_021183550.1 , XM_029470074.1
Accession Version	XM_029470074.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2460bp) 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	FYN-binding protein 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) 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##

ATGGCGAAGT TCAACACCGG GAGTAACCCG ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC 
TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT GGAATACAAT CAAGAAAGAA TTTATTTGAC 
AACCAAGGAA ATGCCAGCCC GCCCGCAGGA CCCAGCAGCA TGCCTAAATT TGGGACCACA 
AAACCACCCT TGGCAGTGAA ACCTACCTAC GAGGAGAAGC CTGAGAAGGA GCCTAAACCC 
CCGTTTTTAA AACCTACTGG AGTGAGCCCA AGATTTGGAA CACAGCCAAA CTCAGTTTCT 
AGAGACCCTG AGGTCAAAGT GGGGTTCCTG AAACCTGTAA GCCCCAAACC CACCGGCTTG 
ACCAAAGAAG ATTCCAAACC TGTGGTTTTA CGGCCACCTG GGAATAAGCT TCACAATTTG 
AACCAAGAGT CTGACTTAAA GACGCCAGGA CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA 
GAAAACGAAC TGAAGCCAGG GTTCTCAAAG GTGGCTGGAG CTAAGAGCAA GTTCATGCCA 
GCGGCACAAG ATACTGACTC CAAACCCCGA TTTCCCAGAC ACACCTTTGG CCAGAAGCCA 
TCCCTAAGTA CAGAGGACTC CCAGGAAGAG AACACTTCTA AGAACGTGCC TGTCCAGAAA 
GGATCCCCAG TGCAGTTGGG AGCCAAGTCC AAGGGCGCCC CTTTCAAACT AGCTAAGGAA 
GACCCCGAGG GTAAAGACCA TGGAGCACCA AGTTCACCCT TTGCTGGAGT GGTTCTGAAA 
CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC TCCAAAAACT TTGAAGAAAA AAAAGAAGAT 
AGGAAAACAG ACCTTGCAAA GAACATCTTT CTGAACAAAC TGAATCAGGA AGAGCCGGCC 
AGATTCCCTA AGGCCCCTTC CAAGCTGACA GCGGGGACAC CGTGGGGCCA AAGTCAGGAG 
AAAGAAGGAG ACAAGAATTC TGCAACCCCG AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC 
TTGGGCCCAC CTCCACCCAA GCCCAACAGA CCACCCAATG TTGACCTGAC CAGATTCCGA 
AAGGCTGACT CTGCAAACAG TGCCACCAAA AGCCAGACAC CTTACTCGAC AACTTCGCTG 
CCACCACCTC CGCCTACACA TCCAGCCAGC CAGCCACCTC TGCCAGCGTC TCACCCCGCG 
CACCCGCCAG TCCCCAGCCT CCCCCCTAGA AACATCAAGC CTCCTCTTGA CCTGAAACAT 
CCTATAAATG AAGAAAATCA AGATGGTGTC ATGCACTCTG ATGGTACTGG AAATCTAGAA 
GAGGAACAAG AGAGTGAAGG AGAAACATAC GAAGACATAG ACTCATCTAA GGAAAGAGAC 
AAGAAACGGG AAAAAGAAGA AAAGAAGAGG TTGGAACTAG AACGGAAGGA GCAGAAGGAG 
AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG AAATTCAAGC TCACAGGCCC CATTCAAGTC 
ATCCACCATG CAAAAGCCTG CTTCGATGTC AAAGGAGGAA AGAACGAGCT GAGCTTCAAA 
CAAGGAGAGG ACATTGAGAT TATCCGCATC ACAGACAACC CAGAAGGAAA ATGGCTGGGC 
AGGACTGCAA GGGGGTCATA TGGTTATATT AAAACAACTG CCGTGGAGAT TGACTATGAT 
TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT GCTGTCCCAC CAAGACTTGT TGAAGATGAC 
CAGGAGGTCT ATGATGATGT GGCTGAGCAG GATGCCCCTA ACAGCCACGG TCAGAGCGGA 
AGTGGAGGGA TGTTCCCCCC GCCACCAACA GACGACGAGA TCTATGATGG AATAGAAGAG 
GAAGACGATG ATGATGGATC CGTGCCGCAG GTTGACGAGA AGACTAACGC ATGGTCCTGG 
GGGATTTTGA AGATGTTAAA GGGAAAAGAT GACAGAAAGA AAAGCATTCG AGAGAAACCT 
AAAGTCTCTG AATCAGACAA TAATGAAGGT TCATCTCTCC CTTCTCAGCA TAAGCAACTG 
GATGTGGGAG AAGAAGTTTA CGATGATGTG GATGCCTCAG ACTTCCCTCC TCCACCTGCA 
GAGATGAGTC AAGGAATGAG TGTTGGAAGG GCAAAAATGG AAGAGAAAGA TCCCAAGAAG 
CTAAAAAAGC AAGAAAAGGA AGAAAAAGAC CTCAGGAAAA AATTTAAGTA CGACGGTGAA 
ATTCGAGTTC TATATTCAAC TAAAGTTGCA TCCTCCTTAA CCTCTAAAAA GTGGGGAGCG 
AGAGATCTGC AGATAAAACC TGGGGAGTCA CTCGAAGTTA TACAAAGCAC AGATGACACC 
AAAGTTCTCT GCAGGAATGA AGAGGGCAAA TATGGTTATG TCCTTCGGAG TTACCTGGTG 
GACAATGATG GAGAAATCTA TGACGACATC GCTGATGGTT GCATCTATGA CAATGACTAG

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

RefSeq	XP_029325934.1
CDS	223..2682
Translation	MAKFNTGSNPTEEAAASSRPFKVAGQSSPSGIQSRKNLFDNQGNASPPAGPSSMPKFGTTKPPLAVKPTYEEKPEKEPKPPFLKPTGVSPRFGTQPNSVSRDPEVKVGFLKPVSPKPTGLTKEDSKPVVLRPPGNKLHNLNQESDLKTPGPKPGPAPPVPENELKPGFSKVAGAKSKFMPAAQDTDSKPRFPRHTFGQKPSLSTEDSQEENTSKNVPVQKGSPVQLGAKSKGAPFKLAKEDPEGKDHGAPSSPFAGVVLKPAASRGSPGLSKNFEEKKEDRKTDLAKNIFLNKLNQEEPARFPKAPSKLTAGTPWGQSQEKEGDKNSATPKQKALPPLSVLGPPPPKPNRPPNVDLTRFRKADSANSATKSQTPYSTTSLPPPPPTHPASQPPLPASHPAHPPVPSLPPRNIKPPLDLKHPINEENQDGVMHSDGTGNLEEEQESEGETYEDIDSSKERDKKREKEEKKRLELERKEQKEREKKEQELKKKFKLTGPIQVIHHAKACFDVKGGKNELSFKQGEDIEIIRITDNPEGKWLGRTARGSYGYIKTTAVEIDYDSLKRKKNSLNAVPPRLVEDDQEVYDDVAEQDAPNSHGQSGSGGMFPPPPTDDEIYDGIEEEDDDDGSVPQVDEKTNAWSWGILKMLKGKDDRKKSIREKPKVSESDNNEGSSLPSQHKQLDVGEEVYDDVDASDFPPPPAEMSQGMSVGRAKMEEKDPKKLKKQEKEEKDLRKKFKYDGEIRVLYSTKVASSLTSKKWGARDLQIKPGESLEVIQSTDDTKVLCRNEEGKYGYVLRSYLVDNDGEIYDDIADGCIYDND

Target ORF information:

RefSeq Version	XM_029470074.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli FYN binding protein 1 (Fyb1), transcript variant X3, mRNA.

Target ORF information:

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

XM_029470074.1

ORF Insert Sequence:

ATGGCGAAGT TCAACACCGG GAGTAACCCG ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC 
TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT GGAATACAAT CAAGAAAGAA TTTATTTGAC 
AACCAAGGAA ATGCCAGCCC GCCCGCAGGA CCCAGCAGCA TGCCTAAATT TGGGACCACA 
AAACCACCCT TGGCAGTGAA ACCTACCTAC GAGGAGAAGC CTGAGAAGGA GCCTAAACCC 
CCGTTTTTAA AACCTACTGG AGTGAGCCCA AGATTTGGAA CACAGCCAAA CTCAGTTTCT 
AGAGACCCTG AGGTCAAAGT GGGGTTCCTG AAACCTGTAA GCCCCAAACC CACCGGCTTG 
ACCAAAGAAG ATTCCAAACC TGTGGTTTTA CGGCCACCTG GGAATAAGCT TCACAATTTG 
AACCAAGAGT CTGACTTAAA GACGCCAGGA CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA 
GAAAACGAAC TGAAGCCAGG GTTCTCAAAG GTGGCTGGAG CTAAGAGCAA GTTCATGCCA 
GCGGCACAAG ATACTGACTC CAAACCCCGA TTTCCCAGAC ACACCTTTGG CCAGAAGCCA 
TCCCTAAGTA CAGAGGACTC CCAGGAAGAG AACACTTCTA AGAACGTGCC TGTCCAGAAA 
GGATCCCCAG TGCAGTTGGG AGCCAAGTCC AAGGGCGCCC CTTTCAAACT AGCTAAGGAA 
GACCCCGAGG GTAAAGACCA TGGAGCACCA AGTTCACCCT TTGCTGGAGT GGTTCTGAAA 
CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC TCCAAAAACT TTGAAGAAAA AAAAGAAGAT 
AGGAAAACAG ACCTTGCAAA GAACATCTTT CTGAACAAAC TGAATCAGGA AGAGCCGGCC 
AGATTCCCTA AGGCCCCTTC CAAGCTGACA GCGGGGACAC CGTGGGGCCA AAGTCAGGAG 
AAAGAAGGAG ACAAGAATTC TGCAACCCCG AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC 
TTGGGCCCAC CTCCACCCAA GCCCAACAGA CCACCCAATG TTGACCTGAC CAGATTCCGA 
AAGGCTGACT CTGCAAACAG TGCCACCAAA AGCCAGACAC CTTACTCGAC AACTTCGCTG 
CCACCACCTC CGCCTACACA TCCAGCCAGC CAGCCACCTC TGCCAGCGTC TCACCCCGCG 
CACCCGCCAG TCCCCAGCCT CCCCCCTAGA AACATCAAGC CTCCTCTTGA CCTGAAACAT 
CCTATAAATG AAGAAAATCA AGATGGTGTC ATGCACTCTG ATGGTACTGG AAATCTAGAA 
GAGGAACAAG AGAGTGAAGG AGAAACATAC GAAGACATAG ACTCATCTAA GGAAAGAGAC 
AAGAAACGGG AAAAAGAAGA AAAGAAGAGG TTGGAACTAG AACGGAAGGA GCAGAAGGAG 
AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG AAATTCAAGC TCACAGGCCC CATTCAAGTC 
ATCCACCATG CAAAAGCCTG CTTCGATGTC AAAGGAGGAA AGAACGAGCT GAGCTTCAAA 
CAAGGAGAGG ACATTGAGAT TATCCGCATC ACAGACAACC CAGAAGGAAA ATGGCTGGGC 
AGGACTGCAA GGGGGTCATA TGGTTATATT AAAACAACTG CCGTGGAGAT TGACTATGAT 
TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT GCTGTCCCAC CAAGACTTGT TGAAGATGAC 
CAGGAGGTCT ATGATGATGT GGCTGAGCAG GATGCCCCTA ACAGCCACGG TCAGAGCGGA 
AGTGGAGGGA TGTTCCCCCC GCCACCAACA GACGACGAGA TCTATGATGG AATAGAAGAG 
GAAGACGATG ATGATGGATC CGTGCCGCAG GTTGACGAGA AGACTAACGC ATGGTCCTGG 
GGGATTTTGA AGATGTTAAA GGGAAAAGAT GACAGAAAGA AAAGCATTCG AGAGAAACCT 
AAAGTCTCTG AATCAGACAA TAATGAAGGT TCATCTCTCC CTTCTCAGCA TAAGCAACTG 
GATGTGGGAG AAGAAGTTTA CGATGATGTG GATGCCTCAG ACTTCCCTCC TCCACCTGCA 
GAGATGAGTC AAGGAATGAG TGTTGGAAGG GCAAAAATGG AAGAGAAAGA TCCCAAGAAG 
CTAAAAAAGC AAGAAAAGGA AGAAAAAGAC CTCAGGAAAA AATTTAAGTA CGACGGTGAA 
ATTCGAGTTC TATATTCAAC TAAAGTTGCA TCCTCCTTAA CCTCTAAAAA GTGGGGAGCG 
AGAGATCTGC AGATAAAACC TGGGGAGTCA CTCGAAGTTA TACAAAGCAC AGATGACACC 
AAAGTTCTCT GCAGGAATGA AGAGGGCAAA TATGGTTATG TCCTTCGGAG TTACCTGGTG 
GACAATGATG GAGAAATCTA TGACGACATC GCTGATGGTT GCATCTATGA CAATGACTAG

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

Fyb1 ( XM_029470072.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029325932.1 Mus caroli FYN binding protein 1 (Fyb1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMv69601
Clone ID Related Accession (Same CDS sequence)	XM_029470072.1
Accession Version	XM_029470072.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2490bp) 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	FYN-binding protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) 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##

ATGGATGGAA AAACAGATGT AAAATCCCTC ATGGCGAAGT TCAACACCGG GAGTAACCCG 
ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT 
GGAATACAAT CAAGAAAGAA TTTATTTGAC AACCAAGGAA ATGCCAGCCC GCCCGCAGGA 
CCCAGCAGCA TGCCTAAATT TGGGACCACA AAACCACCCT TGGCAGTGAA ACCTACCTAC 
GAGGAGAAGC CTGAGAAGGA GCCTAAACCC CCGTTTTTAA AACCTACTGG AGTGAGCCCA 
AGATTTGGAA CACAGCCAAA CTCAGTTTCT AGAGACCCTG AGGTCAAAGT GGGGTTCCTG 
AAACCTGTAA GCCCCAAACC CACCGGCTTG ACCAAAGAAG ATTCCAAACC TGTGGTTTTA 
CGGCCACCTG GGAATAAGCT TCACAATTTG AACCAAGAGT CTGACTTAAA GACGCCAGGA 
CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA GAAAACGAAC TGAAGCCAGG GTTCTCAAAG 
GTGGCTGGAG CTAAGAGCAA GTTCATGCCA GCGGCACAAG ATACTGACTC CAAACCCCGA 
TTTCCCAGAC ACACCTTTGG CCAGAAGCCA TCCCTAAGTA CAGAGGACTC CCAGGAAGAG 
AACACTTCTA AGAACGTGCC TGTCCAGAAA GGATCCCCAG TGCAGTTGGG AGCCAAGTCC 
AAGGGCGCCC CTTTCAAACT AGCTAAGGAA GACCCCGAGG GTAAAGACCA TGGAGCACCA 
AGTTCACCCT TTGCTGGAGT GGTTCTGAAA CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC 
TCCAAAAACT TTGAAGAAAA AAAAGAAGAT AGGAAAACAG ACCTTGCAAA GAACATCTTT 
CTGAACAAAC TGAATCAGGA AGAGCCGGCC AGATTCCCTA AGGCCCCTTC CAAGCTGACA 
GCGGGGACAC CGTGGGGCCA AAGTCAGGAG AAAGAAGGAG ACAAGAATTC TGCAACCCCG 
AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC TTGGGCCCAC CTCCACCCAA GCCCAACAGA 
CCACCCAATG TTGACCTGAC CAGATTCCGA AAGGCTGACT CTGCAAACAG TGCCACCAAA 
AGCCAGACAC CTTACTCGAC AACTTCGCTG CCACCACCTC CGCCTACACA TCCAGCCAGC 
CAGCCACCTC TGCCAGCGTC TCACCCCGCG CACCCGCCAG TCCCCAGCCT CCCCCCTAGA 
AACATCAAGC CTCCTCTTGA CCTGAAACAT CCTATAAATG AAGAAAATCA AGATGGTGTC 
ATGCACTCTG ATGGTACTGG AAATCTAGAA GAGGAACAAG AGAGTGAAGG AGAAACATAC 
GAAGACATAG ACTCATCTAA GGAAAGAGAC AAGAAACGGG AAAAAGAAGA AAAGAAGAGG 
TTGGAACTAG AACGGAAGGA GCAGAAGGAG AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG 
AAATTCAAGC TCACAGGCCC CATTCAAGTC ATCCACCATG CAAAAGCCTG CTTCGATGTC 
AAAGGAGGAA AGAACGAGCT GAGCTTCAAA CAAGGAGAGG ACATTGAGAT TATCCGCATC 
ACAGACAACC CAGAAGGAAA ATGGCTGGGC AGGACTGCAA GGGGGTCATA TGGTTATATT 
AAAACAACTG CCGTGGAGAT TGACTATGAT TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT 
GCTGTCCCAC CAAGACTTGT TGAAGATGAC CAGGAGGTCT ATGATGATGT GGCTGAGCAG 
GATGCCCCTA ACAGCCACGG TCAGAGCGGA AGTGGAGGGA TGTTCCCCCC GCCACCAACA 
GACGACGAGA TCTATGATGG AATAGAAGAG GAAGACGATG ATGATGGATC CGTGCCGCAG 
GTTGACGAGA AGACTAACGC ATGGTCCTGG GGGATTTTGA AGATGTTAAA GGGAAAAGAT 
GACAGAAAGA AAAGCATTCG AGAGAAACCT AAAGTCTCTG AATCAGACAA TAATGAAGGT 
TCATCTCTCC CTTCTCAGCA TAAGCAACTG GATGTGGGAG AAGAAGTTTA CGATGATGTG 
GATGCCTCAG ACTTCCCTCC TCCACCTGCA GAGATGAGTC AAGGAATGAG TGTTGGAAGG 
GCAAAAATGG AAGAGAAAGA TCCCAAGAAG CTAAAAAAGC AAGAAAAGGA AGAAAAAGAC 
CTCAGGAAAA AATTTAAGTA CGACGGTGAA ATTCGAGTTC TATATTCAAC TAAAGTTGCA 
TCCTCCTTAA CCTCTAAAAA GTGGGGAGCG AGAGATCTGC AGATAAAACC TGGGGAGTCA 
CTCGAAGTTA TACAAAGCAC AGATGACACC AAAGTTCTCT GCAGGAATGA AGAGGGCAAA 
TATGGTTATG TCCTTCGGAG TTACCTGGTG GACAATGATG GAGAAATCTA TGACGACATC 
GCTGATGGTT GCATCTATGA CAATGACTAG

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

RefSeq	XP_029325932.1
CDS	57..2546
Translation	MDGKTDVKSLMAKFNTGSNPTEEAAASSRPFKVAGQSSPSGIQSRKNLFDNQGNASPPAGPSSMPKFGTTKPPLAVKPTYEEKPEKEPKPPFLKPTGVSPRFGTQPNSVSRDPEVKVGFLKPVSPKPTGLTKEDSKPVVLRPPGNKLHNLNQESDLKTPGPKPGPAPPVPENELKPGFSKVAGAKSKFMPAAQDTDSKPRFPRHTFGQKPSLSTEDSQEENTSKNVPVQKGSPVQLGAKSKGAPFKLAKEDPEGKDHGAPSSPFAGVVLKPAASRGSPGLSKNFEEKKEDRKTDLAKNIFLNKLNQEEPARFPKAPSKLTAGTPWGQSQEKEGDKNSATPKQKALPPLSVLGPPPPKPNRPPNVDLTRFRKADSANSATKSQTPYSTTSLPPPPPTHPASQPPLPASHPAHPPVPSLPPRNIKPPLDLKHPINEENQDGVMHSDGTGNLEEEQESEGETYEDIDSSKERDKKREKEEKKRLELERKEQKEREKKEQELKKKFKLTGPIQVIHHAKACFDVKGGKNELSFKQGEDIEIIRITDNPEGKWLGRTARGSYGYIKTTAVEIDYDSLKRKKNSLNAVPPRLVEDDQEVYDDVAEQDAPNSHGQSGSGGMFPPPPTDDEIYDGIEEEDDDDGSVPQVDEKTNAWSWGILKMLKGKDDRKKSIREKPKVSESDNNEGSSLPSQHKQLDVGEEVYDDVDASDFPPPPAEMSQGMSVGRAKMEEKDPKKLKKQEKEEKDLRKKFKYDGEIRVLYSTKVASSLTSKKWGARDLQIKPGESLEVIQSTDDTKVLCRNEEGKYGYVLRSYLVDNDGEIYDDIADGCIYDND

Target ORF information:

RefSeq Version	XM_029470072.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli FYN binding protein 1 (Fyb1), transcript variant X1, mRNA.

Target ORF information:

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

XM_029470072.1

ORF Insert Sequence:

ATGGATGGAA AAACAGATGT AAAATCCCTC ATGGCGAAGT TCAACACCGG GAGTAACCCG 
ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT 
GGAATACAAT CAAGAAAGAA TTTATTTGAC AACCAAGGAA ATGCCAGCCC GCCCGCAGGA 
CCCAGCAGCA TGCCTAAATT TGGGACCACA AAACCACCCT TGGCAGTGAA ACCTACCTAC 
GAGGAGAAGC CTGAGAAGGA GCCTAAACCC CCGTTTTTAA AACCTACTGG AGTGAGCCCA 
AGATTTGGAA CACAGCCAAA CTCAGTTTCT AGAGACCCTG AGGTCAAAGT GGGGTTCCTG 
AAACCTGTAA GCCCCAAACC CACCGGCTTG ACCAAAGAAG ATTCCAAACC TGTGGTTTTA 
CGGCCACCTG GGAATAAGCT TCACAATTTG AACCAAGAGT CTGACTTAAA GACGCCAGGA 
CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA GAAAACGAAC TGAAGCCAGG GTTCTCAAAG 
GTGGCTGGAG CTAAGAGCAA GTTCATGCCA GCGGCACAAG ATACTGACTC CAAACCCCGA 
TTTCCCAGAC ACACCTTTGG CCAGAAGCCA TCCCTAAGTA CAGAGGACTC CCAGGAAGAG 
AACACTTCTA AGAACGTGCC TGTCCAGAAA GGATCCCCAG TGCAGTTGGG AGCCAAGTCC 
AAGGGCGCCC CTTTCAAACT AGCTAAGGAA GACCCCGAGG GTAAAGACCA TGGAGCACCA 
AGTTCACCCT TTGCTGGAGT GGTTCTGAAA CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC 
TCCAAAAACT TTGAAGAAAA AAAAGAAGAT AGGAAAACAG ACCTTGCAAA GAACATCTTT 
CTGAACAAAC TGAATCAGGA AGAGCCGGCC AGATTCCCTA AGGCCCCTTC CAAGCTGACA 
GCGGGGACAC CGTGGGGCCA AAGTCAGGAG AAAGAAGGAG ACAAGAATTC TGCAACCCCG 
AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC TTGGGCCCAC CTCCACCCAA GCCCAACAGA 
CCACCCAATG TTGACCTGAC CAGATTCCGA AAGGCTGACT CTGCAAACAG TGCCACCAAA 
AGCCAGACAC CTTACTCGAC AACTTCGCTG CCACCACCTC CGCCTACACA TCCAGCCAGC 
CAGCCACCTC TGCCAGCGTC TCACCCCGCG CACCCGCCAG TCCCCAGCCT CCCCCCTAGA 
AACATCAAGC CTCCTCTTGA CCTGAAACAT CCTATAAATG AAGAAAATCA AGATGGTGTC 
ATGCACTCTG ATGGTACTGG AAATCTAGAA GAGGAACAAG AGAGTGAAGG AGAAACATAC 
GAAGACATAG ACTCATCTAA GGAAAGAGAC AAGAAACGGG AAAAAGAAGA AAAGAAGAGG 
TTGGAACTAG AACGGAAGGA GCAGAAGGAG AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG 
AAATTCAAGC TCACAGGCCC CATTCAAGTC ATCCACCATG CAAAAGCCTG CTTCGATGTC 
AAAGGAGGAA AGAACGAGCT GAGCTTCAAA CAAGGAGAGG ACATTGAGAT TATCCGCATC 
ACAGACAACC CAGAAGGAAA ATGGCTGGGC AGGACTGCAA GGGGGTCATA TGGTTATATT 
AAAACAACTG CCGTGGAGAT TGACTATGAT TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT 
GCTGTCCCAC CAAGACTTGT TGAAGATGAC CAGGAGGTCT ATGATGATGT GGCTGAGCAG 
GATGCCCCTA ACAGCCACGG TCAGAGCGGA AGTGGAGGGA TGTTCCCCCC GCCACCAACA 
GACGACGAGA TCTATGATGG AATAGAAGAG GAAGACGATG ATGATGGATC CGTGCCGCAG 
GTTGACGAGA AGACTAACGC ATGGTCCTGG GGGATTTTGA AGATGTTAAA GGGAAAAGAT 
GACAGAAAGA AAAGCATTCG AGAGAAACCT AAAGTCTCTG AATCAGACAA TAATGAAGGT 
TCATCTCTCC CTTCTCAGCA TAAGCAACTG GATGTGGGAG AAGAAGTTTA CGATGATGTG 
GATGCCTCAG ACTTCCCTCC TCCACCTGCA GAGATGAGTC AAGGAATGAG TGTTGGAAGG 
GCAAAAATGG AAGAGAAAGA TCCCAAGAAG CTAAAAAAGC AAGAAAAGGA AGAAAAAGAC 
CTCAGGAAAA AATTTAAGTA CGACGGTGAA ATTCGAGTTC TATATTCAAC TAAAGTTGCA 
TCCTCCTTAA CCTCTAAAAA GTGGGGAGCG AGAGATCTGC AGATAAAACC TGGGGAGTCA 
CTCGAAGTTA TACAAAGCAC AGATGACACC AAAGTTCTCT GCAGGAATGA AGAGGGCAAA 
TATGGTTATG TCCTTCGGAG TTACCTGGTG GACAATGATG GAGAAATCTA TGACGACATC 
GCTGATGGTT GCATCTATGA CAATGACTAG

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

Fyb1 ( XM_029470073.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029325933.1 Mus caroli FYN binding protein 1 (Fyb1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMv69602
Clone ID Related Accession (Same CDS sequence)	XM_029470073.1
Accession Version	XM_029470073.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2352bp) 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	FYN-binding protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) 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##

ATGGATGGAA AAACAGATGT AAAATCCCTC ATGGCGAAGT TCAACACCGG GAGTAACCCG 
ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT 
GGAATACAAT CAAGAAAGAA TTTATTTGAC AACCAAGGAA ATGCCAGCCC GCCCGCAGGA 
CCCAGCAGCA TGCCTAAATT TGGGACCACA AAACCACCCT TGGCAGTGAA ACCTACCTAC 
GAGGAGAAGC CTGAGAAGGA GCCTAAACCC CCGTTTTTAA AACCTACTGG AGTGAGCCCA 
AGATTTGGAA CACAGCCAAA CTCAGTTTCT AGAGACCCTG AGGTCAAAGT GGGGTTCCTG 
AAACCTGTAA GCCCCAAACC CACCGGCTTG ACCAAAGAAG ATTCCAAACC TGTGGTTTTA 
CGGCCACCTG GGAATAAGCT TCACAATTTG AACCAAGAGT CTGACTTAAA GACGCCAGGA 
CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA GAAAACGAAC TGAAGCCAGG GTTCTCAAAG 
GTGGCTGGAG CTAAGAGCAA GTTCATGCCA GCGGCACAAG ATACTGACTC CAAACCCCGA 
TTTCCCAGAC ACACCTTTGG CCAGAAGCCA TCCCTAAGTA CAGAGGACTC CCAGGAAGAG 
AACACTTCTA AGAACGTGCC TGTCCAGAAA GGATCCCCAG TGCAGTTGGG AGCCAAGTCC 
AAGGGCGCCC CTTTCAAACT AGCTAAGGAA GACCCCGAGG GTAAAGACCA TGGAGCACCA 
AGTTCACCCT TTGCTGGAGT GGTTCTGAAA CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC 
TCCAAAAACT TTGAAGAAAA AAAAGAAGAT AGGAAAACAG ACCTTGCAAA GAACATCTTT 
CTGAACAAAC TGAATCAGGA AGAGCCGGCC AGATTCCCTA AGGCCCCTTC CAAGCTGACA 
GCGGGGACAC CGTGGGGCCA AAGTCAGGAG AAAGAAGGAG ACAAGAATTC TGCAACCCCG 
AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC TTGGGCCCAC CTCCACCCAA GCCCAACAGA 
CCACCCAATG TTGACCTGAC CAGATTCCGA AAGGCTGACT CTGCAAACAG TGCCACCAAA 
AGCCAGACAC CTTACTCGAC AACTTCGCTG CCACCACCTC CGCCTACACA TCCAGCCAGC 
CAGCCACCTC TGCCAGCGTC TCACCCCGCG CACCCGCCAG TCCCCAGCCT CCCCCCTAGA 
AACATCAAGC CTCCTCTTGA CCTGAAACAT CCTATAAATG AAGAAAATCA AGATGGTGTC 
ATGCACTCTG ATGGTACTGG AAATCTAGAA GAGGAACAAG AGAGTGAAGG AGAAACATAC 
GAAGACATAG ACTCATCTAA GGAAAGAGAC AAGAAACGGG AAAAAGAAGA AAAGAAGAGG 
TTGGAACTAG AACGGAAGGA GCAGAAGGAG AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG 
AAATTCAAGC TCACAGGCCC CATTCAAGTC ATCCACCATG CAAAAGCCTG CTTCGATGTC 
AAAGGAGGAA AGAACGAGCT GAGCTTCAAA CAAGGAGAGG ACATTGAGAT TATCCGCATC 
ACAGACAACC CAGAAGGAAA ATGGCTGGGC AGGACTGCAA GGGGGTCATA TGGTTATATT 
AAAACAACTG CCGTGGAGAT TGACTATGAT TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT 
GCTGTCCCAC CAAGACTTGT TGAAGATGAC CAGGAGGTCT ATGATGATGT GGCTGAGCAG 
GATGCCCCTA ACAGCCACGG TCAGAGCGGA AGTGGAGGGA TGTTCCCCCC GCCACCAACA 
GACGACGAGA TCTATGATGG AATAGAAGAG GAAGACGATG ATGATGGTCT CCCTTCTCAG 
CATAAGCAAC TGGATGTGGG AGAAGAAGTT TACGATGATG TGGATGCCTC AGACTTCCCT 
CCTCCACCTG CAGAGATGAG TCAAGGAATG AGTGTTGGAA GGGCAAAAAT GGAAGAGAAA 
GATCCCAAGA AGCTAAAAAA GCAAGAAAAG GAAGAAAAAG ACCTCAGGAA AAAATTTAAG 
TACGACGGTG AAATTCGAGT TCTATATTCA ACTAAAGTTG CATCCTCCTT AACCTCTAAA 
AAGTGGGGAG CGAGAGATCT GCAGATAAAA CCTGGGGAGT CACTCGAAGT TATACAAAGC 
ACAGATGACA CCAAAGTTCT CTGCAGGAAT GAAGAGGGCA AATATGGTTA TGTCCTTCGG 
AGTTACCTGG TGGACAATGA TGGAGAAATC TATGACGACA TCGCTGATGG TTGCATCTAT 
GACAATGACT AG

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

RefSeq	XP_029325933.1
CDS	57..2408
Translation	MDGKTDVKSLMAKFNTGSNPTEEAAASSRPFKVAGQSSPSGIQSRKNLFDNQGNASPPAGPSSMPKFGTTKPPLAVKPTYEEKPEKEPKPPFLKPTGVSPRFGTQPNSVSRDPEVKVGFLKPVSPKPTGLTKEDSKPVVLRPPGNKLHNLNQESDLKTPGPKPGPAPPVPENELKPGFSKVAGAKSKFMPAAQDTDSKPRFPRHTFGQKPSLSTEDSQEENTSKNVPVQKGSPVQLGAKSKGAPFKLAKEDPEGKDHGAPSSPFAGVVLKPAASRGSPGLSKNFEEKKEDRKTDLAKNIFLNKLNQEEPARFPKAPSKLTAGTPWGQSQEKEGDKNSATPKQKALPPLSVLGPPPPKPNRPPNVDLTRFRKADSANSATKSQTPYSTTSLPPPPPTHPASQPPLPASHPAHPPVPSLPPRNIKPPLDLKHPINEENQDGVMHSDGTGNLEEEQESEGETYEDIDSSKERDKKREKEEKKRLELERKEQKEREKKEQELKKKFKLTGPIQVIHHAKACFDVKGGKNELSFKQGEDIEIIRITDNPEGKWLGRTARGSYGYIKTTAVEIDYDSLKRKKNSLNAVPPRLVEDDQEVYDDVAEQDAPNSHGQSGSGGMFPPPPTDDEIYDGIEEEDDDDGLPSQHKQLDVGEEVYDDVDASDFPPPPAEMSQGMSVGRAKMEEKDPKKLKKQEKEEKDLRKKFKYDGEIRVLYSTKVASSLTSKKWGARDLQIKPGESLEVIQSTDDTKVLCRNEEGKYGYVLRSYLVDNDGEIYDDIADGCIYDND

Target ORF information:

RefSeq Version	XM_029470073.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli FYN binding protein 1 (Fyb1), transcript variant X2, mRNA.

Target ORF information:

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

XM_029470073.1

ORF Insert Sequence:

ATGGATGGAA AAACAGATGT AAAATCCCTC ATGGCGAAGT TCAACACCGG GAGTAACCCG 
ACAGAGGAGG CCGCCGCCAG CAGCAGGCCC TTCAAAGTTG CAGGTCAAAG CTCGCCTTCT 
GGAATACAAT CAAGAAAGAA TTTATTTGAC AACCAAGGAA ATGCCAGCCC GCCCGCAGGA 
CCCAGCAGCA TGCCTAAATT TGGGACCACA AAACCACCCT TGGCAGTGAA ACCTACCTAC 
GAGGAGAAGC CTGAGAAGGA GCCTAAACCC CCGTTTTTAA AACCTACTGG AGTGAGCCCA 
AGATTTGGAA CACAGCCAAA CTCAGTTTCT AGAGACCCTG AGGTCAAAGT GGGGTTCCTG 
AAACCTGTAA GCCCCAAACC CACCGGCTTG ACCAAAGAAG ATTCCAAACC TGTGGTTTTA 
CGGCCACCTG GGAATAAGCT TCACAATTTG AACCAAGAGT CTGACTTAAA GACGCCAGGA 
CCGAAGCCAG GGCCTGCTCC CCCAGTCCCA GAAAACGAAC TGAAGCCAGG GTTCTCAAAG 
GTGGCTGGAG CTAAGAGCAA GTTCATGCCA GCGGCACAAG ATACTGACTC CAAACCCCGA 
TTTCCCAGAC ACACCTTTGG CCAGAAGCCA TCCCTAAGTA CAGAGGACTC CCAGGAAGAG 
AACACTTCTA AGAACGTGCC TGTCCAGAAA GGATCCCCAG TGCAGTTGGG AGCCAAGTCC 
AAGGGCGCCC CTTTCAAACT AGCTAAGGAA GACCCCGAGG GTAAAGACCA TGGAGCACCA 
AGTTCACCCT TTGCTGGAGT GGTTCTGAAA CCTGCTGCGA GCAGAGGGAG CCCGGGTCTC 
TCCAAAAACT TTGAAGAAAA AAAAGAAGAT AGGAAAACAG ACCTTGCAAA GAACATCTTT 
CTGAACAAAC TGAATCAGGA AGAGCCGGCC AGATTCCCTA AGGCCCCTTC CAAGCTGACA 
GCGGGGACAC CGTGGGGCCA AAGTCAGGAG AAAGAAGGAG ACAAGAATTC TGCAACCCCG 
AAGCAGAAGG CCCTGCCTCC CCTGTCCGTC TTGGGCCCAC CTCCACCCAA GCCCAACAGA 
CCACCCAATG TTGACCTGAC CAGATTCCGA AAGGCTGACT CTGCAAACAG TGCCACCAAA 
AGCCAGACAC CTTACTCGAC AACTTCGCTG CCACCACCTC CGCCTACACA TCCAGCCAGC 
CAGCCACCTC TGCCAGCGTC TCACCCCGCG CACCCGCCAG TCCCCAGCCT CCCCCCTAGA 
AACATCAAGC CTCCTCTTGA CCTGAAACAT CCTATAAATG AAGAAAATCA AGATGGTGTC 
ATGCACTCTG ATGGTACTGG AAATCTAGAA GAGGAACAAG AGAGTGAAGG AGAAACATAC 
GAAGACATAG ACTCATCTAA GGAAAGAGAC AAGAAACGGG AAAAAGAAGA AAAGAAGAGG 
TTGGAACTAG AACGGAAGGA GCAGAAGGAG AGAGAGAAGA AAGAGCAAGA ACTGAAGAAG 
AAATTCAAGC TCACAGGCCC CATTCAAGTC ATCCACCATG CAAAAGCCTG CTTCGATGTC 
AAAGGAGGAA AGAACGAGCT GAGCTTCAAA CAAGGAGAGG ACATTGAGAT TATCCGCATC 
ACAGACAACC CAGAAGGAAA ATGGCTGGGC AGGACTGCAA GGGGGTCATA TGGTTATATT 
AAAACAACTG CCGTGGAGAT TGACTATGAT TCGCTGAAAC GGAAGAAGAA CTCCCTCAAT 
GCTGTCCCAC CAAGACTTGT TGAAGATGAC CAGGAGGTCT ATGATGATGT GGCTGAGCAG 
GATGCCCCTA ACAGCCACGG TCAGAGCGGA AGTGGAGGGA TGTTCCCCCC GCCACCAACA 
GACGACGAGA TCTATGATGG AATAGAAGAG GAAGACGATG ATGATGGTCT CCCTTCTCAG 
CATAAGCAAC TGGATGTGGG AGAAGAAGTT TACGATGATG TGGATGCCTC AGACTTCCCT 
CCTCCACCTG CAGAGATGAG TCAAGGAATG AGTGTTGGAA GGGCAAAAAT GGAAGAGAAA 
GATCCCAAGA AGCTAAAAAA GCAAGAAAAG GAAGAAAAAG ACCTCAGGAA AAAATTTAAG 
TACGACGGTG AAATTCGAGT TCTATATTCA ACTAAAGTTG CATCCTCCTT AACCTCTAAA 
AAGTGGGGAG CGAGAGATCT GCAGATAAAA CCTGGGGAGT CACTCGAAGT TATACAAAGC 
ACAGATGACA CCAAAGTTCT CTGCAGGAAT GAAGAGGGCA AATATGGTTA TGTCCTTCGG 
AGTTACCTGG TGGACAATGA TGGAGAAATC TATGACGACA TCGCTGATGG TTGCATCTAT 
GACAATGACT AG

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

PubMed

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Fyb1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム