Arhgap45 cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Arhgap45
Entrez Gene ID	103737343
Full Name	Rho GTPase activating protein 45
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008837184.2	XP_008835406.1	minor histocompatibility protein HA-1 isoform X1
XM_017799168.1	XP_017654657.1	minor histocompatibility protein HA-1 isoform X2
XM_008837184.3	XP_008835406.1	rho GTPase-activating protein 45 isoform X1
XM_017799168.2	XP_017654657.1	rho GTPase-activating protein 45 isoform X2

Pathways from BioSystems
Gene Ontology

The following Arhgap45 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgap45 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)
ONa20576	XM_008837184.3 Latest version!	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
ONa20577	XM_017799168.2 Latest version!	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
View Old Accession Versions >>
ONa20576	XM_008837184.2	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
ONa20577	XM_017799168.1	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
Hide Old Accession Versions >>

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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)

Arhgap45 ( XM_008837184.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008835406.1 Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ONa20576
Clone ID Related Accession (Same CDS sequence)	XM_008837184.2 , XM_008837184.3
Accession Version	XM_008837184.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3390bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-08-10
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	minor histocompatibility protein HA-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008341457.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008837184.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGAT GGAAAATGAA GTTGGGGGCA GGCTGGCACC AACTGGTCAC 
CAGCCCTCTT CACTGCTGCA GTACGGGTCA TCCCCCCAGT GTGCTGACAT GGCTGAGGGT 
GCAGCCTTTG CTCTGCAGGA GGAGGCAGAG GATGGAAGTC AAGAATACCG AGTGGTGTCC 
AATGACTCGG ACTCAGAGCT GGAGGAGGCG TCAGACCCCC TGTTATCGTC AGATGCCAGC 
GCACTGCAGC GGCTCAGTTT CCTAGAGGCT GAGGCTGGCC AGGATGAAGG TCCCCAGAGC 
CGCAGCAGCA GCCAGGAGCA GCTGGGAGAG GATGGGGACC TAGGCCAGCA GCTCTGCACC 
TTCAACACCA ACCAGTCCAA CAGCACAGTG CAGGCCCCAC TGTCCACCAT GCAGCTGCGT 
GGTGGACAGA TTGCAGGTGG AACTGATTGA

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

RefSeq	XP_008835406.1
CDS	46..3435
Translation	MFSRKKRELMKTPSISKKNRAGSPSPQPSSGELPKKEGTEATFLGASLEPPATSLATGTKATGTLKRPTSLSRHASAAGFPLSGAATWTLGRGYRSPLTAASPAEQTNEGLFPDGVEDISALLADVARFAEGLEKLKDCVLHDELLEARRPLAHECLGEALRVMRQVISKYPLLNTVETLTAAGTLIAKVKAFHYECNNQSDKREFEKALETIAVSFSCTVSEFLLGEVDSSTLLAVPPGDPSQSMENLYGPGSEGPPPSVEECEEDCLPPEEVDMLLQRCEGGVDAALQYAKNMSKYMKDLISYLEKRTTLEMEFAKGLQKVVHNCRQSVTHEPHMPLLSIYSLALEQDLEFGHGMVQAAGTLQTQTFMQPLTQRRMEHERRRKEIKESWHRAQRKLQEAEANLRKAKQGYVQRCEDLNKARYQVAKAEEEQQSAGPGAGGAASKTLDKRRRLEEETKNKAEEAMATYRTCVADAKTQKQELEDTKVTALRQIQEVIRQSDQTIKSATISYYQLMHMQTAPLPVHFQMLCESSKLYDPGQQYASHVRQLQRGEEPDVRYDFEPHVSANAWSPIMRARKSSFNVGDTGGTEAAGSPPNEDGAPEGVPFKEQRGGRGHQVHKSWPISISDTEGGLDASSGDFKKFDRTSSSGTMSSSEELVDQETDAVATAFESADLNGMDPGLTVAVPSGPFRHVGLSKAARTHRLRKLRSPAKCRECNSYVYFQGAECEECCLACHKKCLETLAIQCGHKKLQGRLQLFGQDFSQAAQGAPDGVPFIVKKCVCEIERRALHTKGIYRVNGVKTRVEKLCQAFENGKELVELSQASPHDISNVLKLYLRQLPEPLISFRLYHELVGLAKDSLKAEAEAKAASRGRQNGSESEAAALAMVGRLRELMQDLPAENRATLQHLLRHLRRIIEVEQDNKMTPGNLGIVFGPTLLRPRPTEATVSLSSLVDYPHQARVIETLIVHYGLIFEEELEEVPGGQMENEVGGRLAPTGHQPSSLLQYGSSPQCADMAEGAAFALQEEAEDGSQEYRVVSNDSDSELEEASDPLLSSDASALQRLSFLEAEAGQDEGPQSRSSSQEQLGEDGDLGQQLCTFNTNQSNSTVQAPLSTMQLRGGQIAGGTD

Target ORF information:

RefSeq Version	XM_008837184.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.

Target ORF information:

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

XM_008837184.2

ORF Insert Sequence:

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGAT GGAAAATGAA GTTGGGGGCA GGCTGGCACC AACTGGTCAC 
CAGCCCTCTT CACTGCTGCA GTACGGGTCA TCCCCCCAGT GTGCTGACAT GGCTGAGGGT 
GCAGCCTTTG CTCTGCAGGA GGAGGCAGAG GATGGAAGTC AAGAATACCG AGTGGTGTCC 
AATGACTCGG ACTCAGAGCT GGAGGAGGCG TCAGACCCCC TGTTATCGTC AGATGCCAGC 
GCACTGCAGC GGCTCAGTTT CCTAGAGGCT GAGGCTGGCC AGGATGAAGG TCCCCAGAGC 
CGCAGCAGCA GCCAGGAGCA GCTGGGAGAG GATGGGGACC TAGGCCAGCA GCTCTGCACC 
TTCAACACCA ACCAGTCCAA CAGCACAGTG CAGGCCCCAC TGTCCACCAT GCAGCTGCGT 
GGTGGACAGA TTGCAGGTGG AACTGATTGA

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

Arhgap45 ( XM_008837184.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008835406.1 Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ONa20576
Clone ID Related Accession (Same CDS sequence)	XM_008837184.2 , XM_008837184.3
Accession Version	XM_008837184.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3390bp) 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	2019-06-23
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	rho GTPase-activating protein 45 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008341457.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008837184.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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##

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGAT GGAAAATGAA GTTGGGGGCA GGCTGGCACC AACTGGTCAC 
CAGCCCTCTT CACTGCTGCA GTACGGGTCA TCCCCCCAGT GTGCTGACAT GGCTGAGGGT 
GCAGCCTTTG CTCTGCAGGA GGAGGCAGAG GATGGAAGTC AAGAATACCG AGTGGTGTCC 
AATGACTCGG ACTCAGAGCT GGAGGAGGCG TCAGACCCCC TGTTATCGTC AGATGCCAGC 
GCACTGCAGC GGCTCAGTTT CCTAGAGGCT GAGGCTGGCC AGGATGAAGG TCCCCAGAGC 
CGCAGCAGCA GCCAGGAGCA GCTGGGAGAG GATGGGGACC TAGGCCAGCA GCTCTGCACC 
TTCAACACCA ACCAGTCCAA CAGCACAGTG CAGGCCCCAC TGTCCACCAT GCAGCTGCGT 
GGTGGACAGA TTGCAGGTGG AACTGATTGA

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

RefSeq	XP_008835406.1
CDS	70..3459
Translation	MFSRKKRELMKTPSISKKNRAGSPSPQPSSGELPKKEGTEATFLGASLEPPATSLATGTKATGTLKRPTSLSRHASAAGFPLSGAATWTLGRGYRSPLTAASPAEQTNEGLFPDGVEDISALLADVARFAEGLEKLKDCVLHDELLEARRPLAHECLGEALRVMRQVISKYPLLNTVETLTAAGTLIAKVKAFHYECNNQSDKREFEKALETIAVSFSCTVSEFLLGEVDSSTLLAVPPGDPSQSMENLYGPGSEGPPPSVEECEEDCLPPEEVDMLLQRCEGGVDAALQYAKNMSKYMKDLISYLEKRTTLEMEFAKGLQKVVHNCRQSVTHEPHMPLLSIYSLALEQDLEFGHGMVQAAGTLQTQTFMQPLTQRRMEHERRRKEIKESWHRAQRKLQEAEANLRKAKQGYVQRCEDLNKARYQVAKAEEEQQSAGPGAGGAASKTLDKRRRLEEETKNKAEEAMATYRTCVADAKTQKQELEDTKVTALRQIQEVIRQSDQTIKSATISYYQLMHMQTAPLPVHFQMLCESSKLYDPGQQYASHVRQLQRGEEPDVRYDFEPHVSANAWSPIMRARKSSFNVGDTGGTEAAGSPPNEDGAPEGVPFKEQRGGRGHQVHKSWPISISDTEGGLDASSGDFKKFDRTSSSGTMSSSEELVDQETDAVATAFESADLNGMDPGLTVAVPSGPFRHVGLSKAARTHRLRKLRSPAKCRECNSYVYFQGAECEECCLACHKKCLETLAIQCGHKKLQGRLQLFGQDFSQAAQGAPDGVPFIVKKCVCEIERRALHTKGIYRVNGVKTRVEKLCQAFENGKELVELSQASPHDISNVLKLYLRQLPEPLISFRLYHELVGLAKDSLKAEAEAKAASRGRQNGSESEAAALAMVGRLRELMQDLPAENRATLQHLLRHLRRIIEVEQDNKMTPGNLGIVFGPTLLRPRPTEATVSLSSLVDYPHQARVIETLIVHYGLIFEEELEEVPGGQMENEVGGRLAPTGHQPSSLLQYGSSPQCADMAEGAAFALQEEAEDGSQEYRVVSNDSDSELEEASDPLLSSDASALQRLSFLEAEAGQDEGPQSRSSSQEQLGEDGDLGQQLCTFNTNQSNSTVQAPLSTMQLRGGQIAGGTD

Target ORF information:

RefSeq Version	XM_008837184.3
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X1, mRNA.

Target ORF information:

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

XM_008837184.3

ORF Insert Sequence:

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGAT GGAAAATGAA GTTGGGGGCA GGCTGGCACC AACTGGTCAC 
CAGCCCTCTT CACTGCTGCA GTACGGGTCA TCCCCCCAGT GTGCTGACAT GGCTGAGGGT 
GCAGCCTTTG CTCTGCAGGA GGAGGCAGAG GATGGAAGTC AAGAATACCG AGTGGTGTCC 
AATGACTCGG ACTCAGAGCT GGAGGAGGCG TCAGACCCCC TGTTATCGTC AGATGCCAGC 
GCACTGCAGC GGCTCAGTTT CCTAGAGGCT GAGGCTGGCC AGGATGAAGG TCCCCAGAGC 
CGCAGCAGCA GCCAGGAGCA GCTGGGAGAG GATGGGGACC TAGGCCAGCA GCTCTGCACC 
TTCAACACCA ACCAGTCCAA CAGCACAGTG CAGGCCCCAC TGTCCACCAT GCAGCTGCGT 
GGTGGACAGA TTGCAGGTGG AACTGATTGA

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

Arhgap45 ( XM_017799168.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017654657.1 Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ONa20577
Clone ID Related Accession (Same CDS sequence)	XM_017799168.1 , XM_017799168.2
Accession Version	XM_017799168.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3327bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-08-10
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	minor histocompatibility protein HA-1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008341457.1) 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 :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGTA CGGGTCATCC CCCCAGTGTG CTGACATGGC TGAGGGTGCA 
GCCTTTGCTC TGCAGGAGGA GGCAGAGGAT GGAAGTCAAG AATACCGAGT GGTGTCCAAT 
GACTCGGACT CAGAGCTGGA GGAGGCGTCA GACCCCCTGT TATCGTCAGA TGCCAGCGCA 
CTGCAGCGGC TCAGTTTCCT AGAGGCTGAG GCTGGCCAGG ATGAAGGTCC CCAGAGCCGC 
AGCAGCAGCC AGGAGCAGCT GGGAGAGGAT GGGGACCTAG GCCAGCAGCT CTGCACCTTC 
AACACCAACC AGTCCAACAG CACAGTGCAG GCCCCACTGT CCACCATGCA GCTGCGTGGT 
GGACAGATTG CAGGTGGAAC TGATTGA

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

RefSeq	XP_017654657.1
CDS	46..3372
Translation	MFSRKKRELMKTPSISKKNRAGSPSPQPSSGELPKKEGTEATFLGASLEPPATSLATGTKATGTLKRPTSLSRHASAAGFPLSGAATWTLGRGYRSPLTAASPAEQTNEGLFPDGVEDISALLADVARFAEGLEKLKDCVLHDELLEARRPLAHECLGEALRVMRQVISKYPLLNTVETLTAAGTLIAKVKAFHYECNNQSDKREFEKALETIAVSFSCTVSEFLLGEVDSSTLLAVPPGDPSQSMENLYGPGSEGPPPSVEECEEDCLPPEEVDMLLQRCEGGVDAALQYAKNMSKYMKDLISYLEKRTTLEMEFAKGLQKVVHNCRQSVTHEPHMPLLSIYSLALEQDLEFGHGMVQAAGTLQTQTFMQPLTQRRMEHERRRKEIKESWHRAQRKLQEAEANLRKAKQGYVQRCEDLNKARYQVAKAEEEQQSAGPGAGGAASKTLDKRRRLEEETKNKAEEAMATYRTCVADAKTQKQELEDTKVTALRQIQEVIRQSDQTIKSATISYYQLMHMQTAPLPVHFQMLCESSKLYDPGQQYASHVRQLQRGEEPDVRYDFEPHVSANAWSPIMRARKSSFNVGDTGGTEAAGSPPNEDGAPEGVPFKEQRGGRGHQVHKSWPISISDTEGGLDASSGDFKKFDRTSSSGTMSSSEELVDQETDAVATAFESADLNGMDPGLTVAVPSGPFRHVGLSKAARTHRLRKLRSPAKCRECNSYVYFQGAECEECCLACHKKCLETLAIQCGHKKLQGRLQLFGQDFSQAAQGAPDGVPFIVKKCVCEIERRALHTKGIYRVNGVKTRVEKLCQAFENGKELVELSQASPHDISNVLKLYLRQLPEPLISFRLYHELVGLAKDSLKAEAEAKAASRGRQNGSESEAAALAMVGRLRELMQDLPAENRATLQHLLRHLRRIIEVEQDNKMTPGNLGIVFGPTLLRPRPTEATVSLSSLVDYPHQARVIETLIVHYGLIFEEELEEVPGGQYGSSPQCADMAEGAAFALQEEAEDGSQEYRVVSNDSDSELEEASDPLLSSDASALQRLSFLEAEAGQDEGPQSRSSSQEQLGEDGDLGQQLCTFNTNQSNSTVQAPLSTMQLRGGQIAGGTD

Target ORF information:

RefSeq Version	XM_017799168.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X2, mRNA.

Target ORF information:

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

XM_017799168.1

ORF Insert Sequence:

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGTA CGGGTCATCC CCCCAGTGTG CTGACATGGC TGAGGGTGCA 
GCCTTTGCTC TGCAGGAGGA GGCAGAGGAT GGAAGTCAAG AATACCGAGT GGTGTCCAAT 
GACTCGGACT CAGAGCTGGA GGAGGCGTCA GACCCCCTGT TATCGTCAGA TGCCAGCGCA 
CTGCAGCGGC TCAGTTTCCT AGAGGCTGAG GCTGGCCAGG ATGAAGGTCC CCAGAGCCGC 
AGCAGCAGCC AGGAGCAGCT GGGAGAGGAT GGGGACCTAG GCCAGCAGCT CTGCACCTTC 
AACACCAACC AGTCCAACAG CACAGTGCAG GCCCCACTGT CCACCATGCA GCTGCGTGGT 
GGACAGATTG CAGGTGGAAC TGATTGA

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

Arhgap45 ( XM_017799168.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017654657.1 Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ONa20577
Clone ID Related Accession (Same CDS sequence)	XM_017799168.1 , XM_017799168.2
Accession Version	XM_017799168.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3327bp) 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	2019-06-23
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	rho GTPase-activating protein 45 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008341457.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_017799168.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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##

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGTA CGGGTCATCC CCCCAGTGTG CTGACATGGC TGAGGGTGCA 
GCCTTTGCTC TGCAGGAGGA GGCAGAGGAT GGAAGTCAAG AATACCGAGT GGTGTCCAAT 
GACTCGGACT CAGAGCTGGA GGAGGCGTCA GACCCCCTGT TATCGTCAGA TGCCAGCGCA 
CTGCAGCGGC TCAGTTTCCT AGAGGCTGAG GCTGGCCAGG ATGAAGGTCC CCAGAGCCGC 
AGCAGCAGCC AGGAGCAGCT GGGAGAGGAT GGGGACCTAG GCCAGCAGCT CTGCACCTTC 
AACACCAACC AGTCCAACAG CACAGTGCAG GCCCCACTGT CCACCATGCA GCTGCGTGGT 
GGACAGATTG CAGGTGGAAC TGATTGA

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

RefSeq	XP_017654657.1
CDS	70..3396
Translation	MFSRKKRELMKTPSISKKNRAGSPSPQPSSGELPKKEGTEATFLGASLEPPATSLATGTKATGTLKRPTSLSRHASAAGFPLSGAATWTLGRGYRSPLTAASPAEQTNEGLFPDGVEDISALLADVARFAEGLEKLKDCVLHDELLEARRPLAHECLGEALRVMRQVISKYPLLNTVETLTAAGTLIAKVKAFHYECNNQSDKREFEKALETIAVSFSCTVSEFLLGEVDSSTLLAVPPGDPSQSMENLYGPGSEGPPPSVEECEEDCLPPEEVDMLLQRCEGGVDAALQYAKNMSKYMKDLISYLEKRTTLEMEFAKGLQKVVHNCRQSVTHEPHMPLLSIYSLALEQDLEFGHGMVQAAGTLQTQTFMQPLTQRRMEHERRRKEIKESWHRAQRKLQEAEANLRKAKQGYVQRCEDLNKARYQVAKAEEEQQSAGPGAGGAASKTLDKRRRLEEETKNKAEEAMATYRTCVADAKTQKQELEDTKVTALRQIQEVIRQSDQTIKSATISYYQLMHMQTAPLPVHFQMLCESSKLYDPGQQYASHVRQLQRGEEPDVRYDFEPHVSANAWSPIMRARKSSFNVGDTGGTEAAGSPPNEDGAPEGVPFKEQRGGRGHQVHKSWPISISDTEGGLDASSGDFKKFDRTSSSGTMSSSEELVDQETDAVATAFESADLNGMDPGLTVAVPSGPFRHVGLSKAARTHRLRKLRSPAKCRECNSYVYFQGAECEECCLACHKKCLETLAIQCGHKKLQGRLQLFGQDFSQAAQGAPDGVPFIVKKCVCEIERRALHTKGIYRVNGVKTRVEKLCQAFENGKELVELSQASPHDISNVLKLYLRQLPEPLISFRLYHELVGLAKDSLKAEAEAKAASRGRQNGSESEAAALAMVGRLRELMQDLPAENRATLQHLLRHLRRIIEVEQDNKMTPGNLGIVFGPTLLRPRPTEATVSLSSLVDYPHQARVIETLIVHYGLIFEEELEEVPGGQYGSSPQCADMAEGAAFALQEEAEDGSQEYRVVSNDSDSELEEASDPLLSSDASALQRLSFLEAEAGQDEGPQSRSSSQEQLGEDGDLGQQLCTFNTNQSNSTVQAPLSTMQLRGGQIAGGTD

Target ORF information:

RefSeq Version	XM_017799168.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili Rho GTPase activating protein 45 (Arhgap45), transcript variant X2, mRNA.

Target ORF information:

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

XM_017799168.2

ORF Insert Sequence:

ATGTTCTCTA GGAAAAAACG AGAGTTGATG AAAACCCCTT CTATCTCCAA AAAGAACCGG 
GCAGGAAGCC CCAGCCCGCA GCCCTCCTCA GGGGAGCTGC CCAAAAAAGA AGGGACAGAA 
GCCACGTTCT TGGGAGCAAG CCTCGAGCCA CCAGCCACGT CCCTGGCCAC AGGCACCAAG 
GCCACAGGCA CCCTCAAAAG GCCCACCAGT CTGAGCCGCC ATGCCAGCGC GGCTGGCTTC 
CCACTCTCGG GTGCTGCCAC CTGGACCCTA GGCCGGGGCT ACCGAAGTCC CCTGACAGCA 
GCCAGCCCCG CAGAGCAGAC CAATGAGGGA CTTTTCCCCG ATGGTGTGGA GGACATCTCG 
GCCCTGCTGG CTGATGTGGC TCGCTTCGCA GAGGGCTTGG AAAAACTGAA GGACTGCGTG 
TTGCACGATG AGCTCCTGGA GGCCCGCCGG CCACTGGCCC ACGAGTGCCT GGGTGAGGCC 
CTGCGGGTCA TGCGCCAGGT CATCTCCAAG TACCCGCTGC TGAACACTGT GGAGACCCTC 
ACGGCTGCAG GCACCCTCAT TGCCAAGGTC AAAGCCTTTC ACTATGAGTG CAACAATCAG 
TCTGACAAGA GGGAGTTCGA GAAGGCGCTG GAGACCATTG CTGTATCATT CAGCTGCACG 
GTGTCAGAAT TCCTCTTGGG TGAGGTGGAC AGCAGCACCT TACTAGCCGT GCCTCCCGGG 
GACCCCAGCC AGTCTATGGA GAACCTGTAT GGACCCGGGA GTGAGGGCCC CCCGCCCAGC 
GTGGAAGAGT GTGAGGAAGA CTGTCTGCCC CCGGAAGAGG TGGACATGCT TCTTCAACGC 
TGCGAGGGGG GCGTGGACGC CGCGCTGCAG TACGCCAAGA ACATGTCTAA ATACATGAAG 
GACCTCATCA GCTACCTGGA GAAGCGGACC ACACTGGAAA TGGAATTCGC CAAAGGGTTG 
CAGAAAGTGG TTCATAACTG CAGACAGAGC GTCACACACG AGCCTCACAT GCCCCTCCTG 
TCCATCTATT CTCTGGCTCT GGAACAAGAT TTAGAGTTCG GCCATGGCAT GGTACAGGCG 
GCAGGCACGT TGCAAACACA GACCTTCATG CAGCCGCTGA CCCAGCGAAG GATGGAGCAT 
GAACGGCGCA GGAAAGAGAT CAAGGAATCG TGGCACCGTG CCCAGAGGAA ACTGCAAGAG 
GCAGAGGCCA ACCTGCGCAA GGCCAAGCAG GGCTATGTGC AACGCTGTGA GGACCTTAAC 
AAGGCAAGGT ACCAGGTGGC CAAGGCGGAG GAAGAGCAGC AGAGCGCTGG GCCAGGGGCT 
GGAGGGGCCG CTTCCAAGAC GCTGGACAAG AGGCGGAGGC TGGAGGAGGA GACCAAGAAC 
AAGGCCGAGG AGGCCATGGC CACCTATCGC ACATGCGTGG CAGATGCGAA GACACAGAAG 
CAGGAGCTGG AGGACACGAA GGTGACAGCG CTGCGGCAGA TCCAGGAGGT GATCCGACAG 
AGCGACCAGA CCATCAAGTC GGCCACCATC TCCTACTACC AGCTGATGCA CATGCAGACT 
GCACCGCTGC CGGTGCACTT CCAGATGCTG TGCGAGAGCA GCAAGCTGTA CGACCCCGGC 
CAGCAATACG CATCGCACGT GCGCCAGTTG CAGCGTGGTG AGGAGCCAGA CGTGCGCTAT 
GACTTCGAGC CTCATGTCTC CGCCAACGCC TGGTCCCCCA TCATGCGTGC ACGGAAGAGC 
AGCTTCAACG TTGGGGACAC GGGGGGCACA GAGGCTGCTG GCAGTCCTCC CAACGAAGAT 
GGTGCCCCAG AGGGGGTGCC CTTCAAGGAG CAACGGGGTG GACGGGGTCA CCAGGTACAT 
AAGTCCTGGC CTATCTCCAT CTCAGACACC GAGGGCGGCC TGGATGCCAG CTCAGGGGAC 
TTTAAGAAAT TTGATCGCAC TTCGTCCAGT GGGACCATGT CGTCCAGTGA GGAGCTGGTG 
GACCAGGAAA CAGACGCAGT GGCCACCGCT TTTGAGTCAG CTGACCTCAA TGGTATGGAC 
CCTGGGTTAA CGGTGGCTGT TCCCAGCGGG CCCTTCCGCC ATGTGGGACT GTCCAAGGCC 
GCCCGCACAC ACCGGCTTAG GAAGCTGCGC TCACCGGCCA AGTGCAGAGA ATGTAACAGC 
TATGTGTATT TCCAGGGCGC AGAGTGTGAG GAGTGCTGCC TGGCATGTCA CAAGAAATGT 
CTGGAGACTT TGGCCATCCA GTGCGGCCAC AAGAAGCTGC AGGGCCGCCT GCAGCTGTTT 
GGACAGGACT TCAGCCAGGC AGCCCAAGGC GCTCCCGACG GCGTGCCCTT CATAGTCAAG 
AAATGTGTCT GTGAGATCGA GCGCAGGGCA CTGCACACCA AGGGCATCTA CCGGGTCAAT 
GGAGTGAAGA CACGGGTGGA GAAGTTGTGC CAGGCCTTCG AGAATGGCAA GGAGCTGGTG 
GAGCTGTCCC AGGCGTCACC ACATGACATC AGCAACGTCC TGAAGCTATA CCTGCGGCAG 
CTGCCTGAGC CCCTCATCTC CTTCCGCCTG TACCATGAGC TGGTGGGACT GGCCAAGGAC 
AGTCTGAAGG CCGAGGCGGA GGCCAAAGCT GCATCCCGGG GTCGGCAGAA TGGGTCAGAG 
AGCGAGGCTG CAGCTTTGGC CATGGTGGGC CGCCTGCGTG AGCTGATGCA AGACCTGCCG 
GCTGAGAACC GGGCCACCCT GCAGCACCTA CTGAGACATC TGCGAAGGAT TATAGAGGTA 
GAGCAAGACA ACAAGATGAC CCCCGGGAAT CTGGGCATCG TGTTCGGGCC GACGCTGCTC 
CGGCCCAGGC CCACCGAGGC CACTGTATCC CTTTCCTCCC TGGTGGACTA CCCACACCAA 
GCCCGAGTCA TCGAGACCCT CATAGTCCAC TATGGCCTGA TCTTTGAGGA GGAGCTGGAG 
GAAGTTCCTG GGGGCCAGTA CGGGTCATCC CCCCAGTGTG CTGACATGGC TGAGGGTGCA 
GCCTTTGCTC TGCAGGAGGA GGCAGAGGAT GGAAGTCAAG AATACCGAGT GGTGTCCAAT 
GACTCGGACT CAGAGCTGGA GGAGGCGTCA GACCCCCTGT TATCGTCAGA TGCCAGCGCA 
CTGCAGCGGC TCAGTTTCCT AGAGGCTGAG GCTGGCCAGG ATGAAGGTCC CCAGAGCCGC 
AGCAGCAGCC AGGAGCAGCT GGGAGAGGAT GGGGACCTAG GCCAGCAGCT CTGCACCTTC 
AACACCAACC AGTCCAACAG CACAGTGCAG GCCCCACTGT CCACCATGCA GCTGCGTGGT 
GGACAGATTG CAGGTGGAAC TGATTGA

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

PubMed

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オンライン注文

Arhgap45 cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

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