Prag1 cDNA ORF clone, Mus pahari(shrew mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Prag1
Entrez Gene ID	110336721
Full Name	PEAK1 related, kinase-activating pseudokinase 1
Gene Type	protein-coding
Organism	Mus pahari(shrew mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021219437.1	XP_021075096.1	tyrosine-protein kinase SgK223
XM_021219437.2	XP_021075096.1	inactive tyrosine-protein kinase PRAG1

Pathways from BioSystems
Gene Ontology

The following Prag1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Prag1 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)
OMv58372	XM_021219437.2 Latest version!	Mus pahari PEAK1 related, kinase-activating pseudokinase 1 (Prag1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
View Old Accession Versions >>
OMv58372	XM_021219437.1	Mus pahari PEAK1 related kinase activating pseudokinase 1 (Prag1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

Reference Sequences (Refseq)

Prag1 ( XM_021219437.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021075096.1 Mus pahari PEAK1 related kinase activating pseudokinase 1 (Prag1), mRNA.

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CloneID	OMv58372
Clone ID Related Accession (Same CDS sequence)	XM_021219437.1 , XM_021219437.2
Accession Version	XM_021219437.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4131bp) 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	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	tyrosine-protein kinase SgK223
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034608.1) 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 pahari 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##

ATGTCTGCGT GCAGCGACTT TGTGGAGCAC ATCTGGAAAC CCGGGTCTTG CAAGAACTGC 
TTCTGCTTGC GGAGTGACCA TCAGCCAACA GCTGGCCATC CCAAGGCTAG AGCCAACAGC 
CTACCCGCTG GAACTCGCCT GCCTGCCAGG CCTGAGAATT GCCGCCTAGA CGACGAAGGC 
GTGAATGGCT TGGCCTACTC AAAGCCCACC ATTGCTGTAA AGCCCACCAT GATGACTTCT 
GAGACCTCCG ACTTGTGGAC TGAGGCCAAC CTGAGTGCTG AAGTCCCGAA GGTCAACTGG 
AGAAGAACCC CAGGCAAGCT CCTGCTCCCG AAACAGGAAG ATGAGCCAAT AGTTTACCTA 
GGCAGCTTCA GGGGACTGCA GAAGCCTGCA GGCCCTCTTG CCTGCACAGA TGGCAACTCT 
CGTTGTCCCC CAGCCTATAC CATGGTCGGA CTGCATAACC TGGAGACCCG AGTGGATAGG 
AACACGGCCT TTCAACCAGT GAGTTTCCAG GAAGAGAAGG CTGGGAGGGG AGAGCTGCCC 
TCGGCTCACG AGAGCTTTCG CCAGAAGCTA GCTGCCTTTG CAGGGATGAC ATCCAGCTGC 
CCCAAGGGCC CCAGGCCCTG CACTTCTCCA CAGCCCCTGC AGGAATCCCT GCCCTCGGAG 
GATGACAGTG ACCAAAGGTG CTCACCCTCA GGAGACAGCG AAGGTGGGGA GTACTGTTCC 
ATTCTGGACT GTTGTCCAGA ACCCAAAGAT ACTGTGCATA GCACCGAGGG CTCTGGCAGA 
CGTGGAGGGG ACTGCTCGCC CACGTACAGG GAGCAGGGAC CACATACAAG ACCAACAGAA 
GAGGAAAAGC AGGGGCTGAA CTTCCCCAGA GAGTGTTGTG GCCAGGGATC CACAGCGAAC 
CCGCCCCGCC TGGGCCCCAA GAAGCCATCC CTTAACTCCG AGGCCGCCAG CTCTTCCGAT 
GGAATGTCCT GTGGCAGCAG CCGCAGCGGG GCCAGCAGCC CCTTCGCTCC CCACCTTGAG 
AATGACTACT GTTCTCTTGT GAAGGAACCA GCCACCGGGA AACAGCAGGA CTCCAGCTGC 
CACTTCCTCG CCTCTGGCAA ATGTGTGGGT CAAGCTGTGG AACTCCAGCC TCCTGCCCTT 
CCTAGGGACG CTGTGCAGCC TGAACCCATC TACGCCGAAA GTGCCAAGAG GAAGAAGGCA 
GCTCCAGGGC CTCCGAGGCC CGAGCCTAAG AAAGAGCAGG TCGCAGCTAG CCATAGCCAG 
GGCCAAGTAT GGACAGGTGA TTCCTGGGTT CAGAAGACGC CCCCTAGCTG GAGCCAGGAC 
AGGGAAGGCG CAAACCCTGC TCCTCAGGTG GCAACCACCA TCACTGTCAT CGCTGCTCAT 
CCAGAAGAGG ACCACAGGAC TATTTATCTG AGCAGCCCTG ACTCTGCCGT GGGGGTGCAG 
TGGCCACGTG GGCCTTCGAA CCAGGACTTA CAAGCCAGTG AAGAGGAGCC TTTGGTTGTG 
CAGGGGCTAA CGTCAAGGGA GAGCCATCCA CATGTTGTGA CTGAAAACAC GTCCAAAGAG 
AAGCCTGCCA TTCCCCCCAA ACTATCCAAA AGTAGCCCTG GAGGGTCCCC AGTGTCCCCC 
GCAGCTCCCC CTCTGACTGA CCACAGCGAC GGGAACACCG GTGGCAGCAG CGTCGGACAG 
CTTTTGTCTA GAGTCCCTGC TAACCTAACG TCTTCCTGCC ACACCAATGG TGTTGCCACT 
GGCGGTGACC CTGCCAAGTG TCCCCCACCA GCCACCTCCT CTTCAGTCTT GGACCAGAGG 
CGGCCAAGAT ACCAGACTGG TGCTTGGAGC CGCCAGTGCC GGATAGAGGA GGAGGAGGAG 
GTGGGGCAGG AGTTGTTGAG TCAAAGTTGG GGGAGAGAGT TGGAAAATGG TACGGTCGAC 
CATTCAAACG CCTCTACCTG GCACCGTCTC CATCCCATCG ATGGCTCCTC TGGGCAGAAC 
AGCAAAACTA ACTCTGGGAT GAGCAAATCG GCTTCCTTTG CGTTTGAGTT CCCAAAGGAC 
AGAGGCAGAT TGGAGGCATT CTCACCCCCT CCCCCACCTC CAAAGTCAAG GCACCTGTTA 
AAAATGAACA AGAGCAGCTC TGACTTGGAA AAAGTGAGCC AGAGCTCTGC AGAAAGCCTC 
AGCCCGTCCT TCAGAGGGGC CCATGTCAGC TTCACCACGG GCTCCACAGA TAGCCTAGCC 
TCGGACTCCA GGCCCTGCAG TGATGGAGGT CCATCATATG AACCCTCCCA CTCACCCACC 
ATCAGCGGGA AAAAGCTCTT CGCTCCTGTC CCTTTTCCGT CAGGCTCCAC AGAGGATGTG 
TCCCCTGGTG GTGGTCCTGC GCAGCCTCCT CCTCTGCCCC AGAAAAAGAT AGTGAGCCGT 
GCCGCCTCTT CCCCCGACGG CTTCTTCTGG ACCCAAGGTT CCCCTAAGCC ACGGACGGCA 
AGTCCCAAGC TGAACCTAAG CCACTCAGAA ACCAATGTTT GTGCCCATGA CGAGCCTCCT 
TTTAACTCTT CCTTGAACTC TGGAAACCGT TCCCACCATG TCTTCTCCTC TTCTGAGCCT 
TTGGAGAAAG CTTTCAAAGG CAACGCTCCC TGGGCCCCAG CTCTGGGGCT GGCAAACAGC 
AAAGGCGGCT GTGGGAGCCC CGGTCTCCAG TGCAGAGCGG CCACCTCCAC GTCGTCATCC 
CAGCTCAGTG TGTCTAGCCA GGCCTCCTCC AGCAGCACCC AACTTCAGCT GCACAGCCTG 
CTGAGTAGCA TCAGCAGCAA GGAGGGTACC TATGCCAAGC TTGGGGGCCT CTACACACAG 
TCCCTGGCCC GCCTAGTCAC CAAGTGTGAA GACCTCTTCA TGGGTGGCCA GAAAAAGGAA 
CTACGCTTCA ATGAGAATAA CTGGTCACTC TTCAAGCTGA CATGTAACAA GCCTTGCTGT 
GACTCGGGGG ATGCAATTTA CTACTGCGCC ACCTGCTCTG AGGACCCAGG CAGCATCTAT 
GCCGTGAAAA TATGCAAAAC CCCAGAACCC AAATCAGCCT CATACTGCAG CCCGTCTGTG 
CCGGTGCACT TCAACATCCA GCAAGACTGC GGCCACTTTG TGGCCTCTGT GCCCTCCAGC 
ATGCTTGCCT CCCCCTCCCC TGACACATCC AGCAAAGACA CCGCACCTGC TGCATCCCCT 
CAGCACCCTG CCCAGGAGCA GGACTGTGTG GTGGTCATCA CCCGGGAGGT ACCGCACCAG 
ACTGCTTCGG ACTTTGTGCG GGACTCCATG GTCAGCCACC GGACGGAGCC TGAGGTTTAC 
GAGCGCCGGG TGTGCTTCCT GCTTCTGCAG CTCTGCAACG GGCTGGAGCA CCTGAAGGAA 
CACGGGATCA TCCACCGGGA CCTGTGTCTG GAGAACCTGC TGCTGGCGCA CTGTAACCCT 
CAGAGCTCCC CCGGGCCCTC TGCCACTCCT ACCGTGCCCA CCGCCACATC CAGGTGCCCT 
TCTGCCGCGC CCGCAGCCAC CACTGCCTGC CAGGGAGGGC CCGGTGAGAA GCACCTGCCC 
AGGCTCATCA TCAGCAACTT CCTGAAGGCC AAGCAGAAGC CAGGAGGCAC CACCAACCTG 
CAACAGAAGA AGAGCCAGGC CCGGCTGGCT CCTGAGATCG TGTCTGCTTC CCAGTACCGC 
AAGTTTGATG AGTTCCAGAC GGGCATCCTC ATCTATGAGC TGCTCCACCA GCCCAACCCA 
TTCGAGGTGC GAGCCCAGCT ACGGGAGCGC GACTACCGGC GGGAGGACTT ACCCCCGCTG 
CCCACACTGT CCCTCTACTC TCCTGGCCTG CAGCAGCTTG CCCATCTATT GCTTGAGGCT 
GATCCCATCA AGCGCATCCG CATAGGTGAA GCTAAGCGGG TGCTGCAGTG CTTGCTGTGG 
GGGCCACGGC GGGAGCTGGT GGAGCAGCCG TGCACCTCGG AGGAGGTACT ATGTAACACT 
CTGCACAATT GGATCGACAT GAAGCGAGCC CTGATGATGA TGAAGTTTGC TGAGAAGGCG 
GTGGACCGAA GGCGGGGTGT GGAACTGGAG GACTGGTTAT GCTGCCAGTA CTTGGCCTCG 
GCAGAGCCAG CGGCCCTCTT GCAGTCCTTG AAGCTCCTGC AACTTCTCTG A

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

RefSeq	XP_021075096.1
CDS	288..4418
Translation	MSACSDFVEHIWKPGSCKNCFCLRSDHQPTAGHPKARANSLPAGTRLPARPENCRLDDEGVNGLAYSKPTIAVKPTMMTSETSDLWTEANLSAEVPKVNWRRTPGKLLLPKQEDEPIVYLGSFRGLQKPAGPLACTDGNSRCPPAYTMVGLHNLETRVDRNTAFQPVSFQEEKAGRGELPSAHESFRQKLAAFAGMTSSCPKGPRPCTSPQPLQESLPSEDDSDQRCSPSGDSEGGEYCSILDCCPEPKDTVHSTEGSGRRGGDCSPTYREQGPHTRPTEEEKQGLNFPRECCGQGSTANPPRLGPKKPSLNSEAASSSDGMSCGSSRSGASSPFAPHLENDYCSLVKEPATGKQQDSSCHFLASGKCVGQAVELQPPALPRDAVQPEPIYAESAKRKKAAPGPPRPEPKKEQVAASHSQGQVWTGDSWVQKTPPSWSQDREGANPAPQVATTITVIAAHPEEDHRTIYLSSPDSAVGVQWPRGPSNQDLQASEEEPLVVQGLTSRESHPHVVTENTSKEKPAIPPKLSKSSPGGSPVSPAAPPLTDHSDGNTGGSSVGQLLSRVPANLTSSCHTNGVATGGDPAKCPPPATSSSVLDQRRPRYQTGAWSRQCRIEEEEEVGQELLSQSWGRELENGTVDHSNASTWHRLHPIDGSSGQNSKTNSGMSKSASFAFEFPKDRGRLEAFSPPPPPPKSRHLLKMNKSSSDLEKVSQSSAESLSPSFRGAHVSFTTGSTDSLASDSRPCSDGGPSYEPSHSPTISGKKLFAPVPFPSGSTEDVSPGGGPAQPPPLPQKKIVSRAASSPDGFFWTQGSPKPRTASPKLNLSHSETNVCAHDEPPFNSSLNSGNRSHHVFSSSEPLEKAFKGNAPWAPALGLANSKGGCGSPGLQCRAATSTSSSQLSVSSQASSSSTQLQLHSLLSSISSKEGTYAKLGGLYTQSLARLVTKCEDLFMGGQKKELRFNENNWSLFKLTCNKPCCDSGDAIYYCATCSEDPGSIYAVKICKTPEPKSASYCSPSVPVHFNIQQDCGHFVASVPSSMLASPSPDTSSKDTAPAASPQHPAQEQDCVVVITREVPHQTASDFVRDSMVSHRTEPEVYERRVCFLLLQLCNGLEHLKEHGIIHRDLCLENLLLAHCNPQSSPGPSATPTVPTATSRCPSAAPAATTACQGGPGEKHLPRLIISNFLKAKQKPGGTTNLQQKKSQARLAPEIVSASQYRKFDEFQTGILIYELLHQPNPFEVRAQLRERDYRREDLPPLPTLSLYSPGLQQLAHLLLEADPIKRIRIGEAKRVLQCLLWGPRRELVEQPCTSEEVLCNTLHNWIDMKRALMMMKFAEKAVDRRRGVELEDWLCCQYLASAEPAALLQSLKLLQLL

Target ORF information:

RefSeq Version	XM_021219437.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari PEAK1 related kinase activating pseudokinase 1 (Prag1), mRNA.

Target ORF information:

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

XM_021219437.1

ORF Insert Sequence:

ATGTCTGCGT GCAGCGACTT TGTGGAGCAC ATCTGGAAAC CCGGGTCTTG CAAGAACTGC 
TTCTGCTTGC GGAGTGACCA TCAGCCAACA GCTGGCCATC CCAAGGCTAG AGCCAACAGC 
CTACCCGCTG GAACTCGCCT GCCTGCCAGG CCTGAGAATT GCCGCCTAGA CGACGAAGGC 
GTGAATGGCT TGGCCTACTC AAAGCCCACC ATTGCTGTAA AGCCCACCAT GATGACTTCT 
GAGACCTCCG ACTTGTGGAC TGAGGCCAAC CTGAGTGCTG AAGTCCCGAA GGTCAACTGG 
AGAAGAACCC CAGGCAAGCT CCTGCTCCCG AAACAGGAAG ATGAGCCAAT AGTTTACCTA 
GGCAGCTTCA GGGGACTGCA GAAGCCTGCA GGCCCTCTTG CCTGCACAGA TGGCAACTCT 
CGTTGTCCCC CAGCCTATAC CATGGTCGGA CTGCATAACC TGGAGACCCG AGTGGATAGG 
AACACGGCCT TTCAACCAGT GAGTTTCCAG GAAGAGAAGG CTGGGAGGGG AGAGCTGCCC 
TCGGCTCACG AGAGCTTTCG CCAGAAGCTA GCTGCCTTTG CAGGGATGAC ATCCAGCTGC 
CCCAAGGGCC CCAGGCCCTG CACTTCTCCA CAGCCCCTGC AGGAATCCCT GCCCTCGGAG 
GATGACAGTG ACCAAAGGTG CTCACCCTCA GGAGACAGCG AAGGTGGGGA GTACTGTTCC 
ATTCTGGACT GTTGTCCAGA ACCCAAAGAT ACTGTGCATA GCACCGAGGG CTCTGGCAGA 
CGTGGAGGGG ACTGCTCGCC CACGTACAGG GAGCAGGGAC CACATACAAG ACCAACAGAA 
GAGGAAAAGC AGGGGCTGAA CTTCCCCAGA GAGTGTTGTG GCCAGGGATC CACAGCGAAC 
CCGCCCCGCC TGGGCCCCAA GAAGCCATCC CTTAACTCCG AGGCCGCCAG CTCTTCCGAT 
GGAATGTCCT GTGGCAGCAG CCGCAGCGGG GCCAGCAGCC CCTTCGCTCC CCACCTTGAG 
AATGACTACT GTTCTCTTGT GAAGGAACCA GCCACCGGGA AACAGCAGGA CTCCAGCTGC 
CACTTCCTCG CCTCTGGCAA ATGTGTGGGT CAAGCTGTGG AACTCCAGCC TCCTGCCCTT 
CCTAGGGACG CTGTGCAGCC TGAACCCATC TACGCCGAAA GTGCCAAGAG GAAGAAGGCA 
GCTCCAGGGC CTCCGAGGCC CGAGCCTAAG AAAGAGCAGG TCGCAGCTAG CCATAGCCAG 
GGCCAAGTAT GGACAGGTGA TTCCTGGGTT CAGAAGACGC CCCCTAGCTG GAGCCAGGAC 
AGGGAAGGCG CAAACCCTGC TCCTCAGGTG GCAACCACCA TCACTGTCAT CGCTGCTCAT 
CCAGAAGAGG ACCACAGGAC TATTTATCTG AGCAGCCCTG ACTCTGCCGT GGGGGTGCAG 
TGGCCACGTG GGCCTTCGAA CCAGGACTTA CAAGCCAGTG AAGAGGAGCC TTTGGTTGTG 
CAGGGGCTAA CGTCAAGGGA GAGCCATCCA CATGTTGTGA CTGAAAACAC GTCCAAAGAG 
AAGCCTGCCA TTCCCCCCAA ACTATCCAAA AGTAGCCCTG GAGGGTCCCC AGTGTCCCCC 
GCAGCTCCCC CTCTGACTGA CCACAGCGAC GGGAACACCG GTGGCAGCAG CGTCGGACAG 
CTTTTGTCTA GAGTCCCTGC TAACCTAACG TCTTCCTGCC ACACCAATGG TGTTGCCACT 
GGCGGTGACC CTGCCAAGTG TCCCCCACCA GCCACCTCCT CTTCAGTCTT GGACCAGAGG 
CGGCCAAGAT ACCAGACTGG TGCTTGGAGC CGCCAGTGCC GGATAGAGGA GGAGGAGGAG 
GTGGGGCAGG AGTTGTTGAG TCAAAGTTGG GGGAGAGAGT TGGAAAATGG TACGGTCGAC 
CATTCAAACG CCTCTACCTG GCACCGTCTC CATCCCATCG ATGGCTCCTC TGGGCAGAAC 
AGCAAAACTA ACTCTGGGAT GAGCAAATCG GCTTCCTTTG CGTTTGAGTT CCCAAAGGAC 
AGAGGCAGAT TGGAGGCATT CTCACCCCCT CCCCCACCTC CAAAGTCAAG GCACCTGTTA 
AAAATGAACA AGAGCAGCTC TGACTTGGAA AAAGTGAGCC AGAGCTCTGC AGAAAGCCTC 
AGCCCGTCCT TCAGAGGGGC CCATGTCAGC TTCACCACGG GCTCCACAGA TAGCCTAGCC 
TCGGACTCCA GGCCCTGCAG TGATGGAGGT CCATCATATG AACCCTCCCA CTCACCCACC 
ATCAGCGGGA AAAAGCTCTT CGCTCCTGTC CCTTTTCCGT CAGGCTCCAC AGAGGATGTG 
TCCCCTGGTG GTGGTCCTGC GCAGCCTCCT CCTCTGCCCC AGAAAAAGAT AGTGAGCCGT 
GCCGCCTCTT CCCCCGACGG CTTCTTCTGG ACCCAAGGTT CCCCTAAGCC ACGGACGGCA 
AGTCCCAAGC TGAACCTAAG CCACTCAGAA ACCAATGTTT GTGCCCATGA CGAGCCTCCT 
TTTAACTCTT CCTTGAACTC TGGAAACCGT TCCCACCATG TCTTCTCCTC TTCTGAGCCT 
TTGGAGAAAG CTTTCAAAGG CAACGCTCCC TGGGCCCCAG CTCTGGGGCT GGCAAACAGC 
AAAGGCGGCT GTGGGAGCCC CGGTCTCCAG TGCAGAGCGG CCACCTCCAC GTCGTCATCC 
CAGCTCAGTG TGTCTAGCCA GGCCTCCTCC AGCAGCACCC AACTTCAGCT GCACAGCCTG 
CTGAGTAGCA TCAGCAGCAA GGAGGGTACC TATGCCAAGC TTGGGGGCCT CTACACACAG 
TCCCTGGCCC GCCTAGTCAC CAAGTGTGAA GACCTCTTCA TGGGTGGCCA GAAAAAGGAA 
CTACGCTTCA ATGAGAATAA CTGGTCACTC TTCAAGCTGA CATGTAACAA GCCTTGCTGT 
GACTCGGGGG ATGCAATTTA CTACTGCGCC ACCTGCTCTG AGGACCCAGG CAGCATCTAT 
GCCGTGAAAA TATGCAAAAC CCCAGAACCC AAATCAGCCT CATACTGCAG CCCGTCTGTG 
CCGGTGCACT TCAACATCCA GCAAGACTGC GGCCACTTTG TGGCCTCTGT GCCCTCCAGC 
ATGCTTGCCT CCCCCTCCCC TGACACATCC AGCAAAGACA CCGCACCTGC TGCATCCCCT 
CAGCACCCTG CCCAGGAGCA GGACTGTGTG GTGGTCATCA CCCGGGAGGT ACCGCACCAG 
ACTGCTTCGG ACTTTGTGCG GGACTCCATG GTCAGCCACC GGACGGAGCC TGAGGTTTAC 
GAGCGCCGGG TGTGCTTCCT GCTTCTGCAG CTCTGCAACG GGCTGGAGCA CCTGAAGGAA 
CACGGGATCA TCCACCGGGA CCTGTGTCTG GAGAACCTGC TGCTGGCGCA CTGTAACCCT 
CAGAGCTCCC CCGGGCCCTC TGCCACTCCT ACCGTGCCCA CCGCCACATC CAGGTGCCCT 
TCTGCCGCGC CCGCAGCCAC CACTGCCTGC CAGGGAGGGC CCGGTGAGAA GCACCTGCCC 
AGGCTCATCA TCAGCAACTT CCTGAAGGCC AAGCAGAAGC CAGGAGGCAC CACCAACCTG 
CAACAGAAGA AGAGCCAGGC CCGGCTGGCT CCTGAGATCG TGTCTGCTTC CCAGTACCGC 
AAGTTTGATG AGTTCCAGAC GGGCATCCTC ATCTATGAGC TGCTCCACCA GCCCAACCCA 
TTCGAGGTGC GAGCCCAGCT ACGGGAGCGC GACTACCGGC GGGAGGACTT ACCCCCGCTG 
CCCACACTGT CCCTCTACTC TCCTGGCCTG CAGCAGCTTG CCCATCTATT GCTTGAGGCT 
GATCCCATCA AGCGCATCCG CATAGGTGAA GCTAAGCGGG TGCTGCAGTG CTTGCTGTGG 
GGGCCACGGC GGGAGCTGGT GGAGCAGCCG TGCACCTCGG AGGAGGTACT ATGTAACACT 
CTGCACAATT GGATCGACAT GAAGCGAGCC CTGATGATGA TGAAGTTTGC TGAGAAGGCG 
GTGGACCGAA GGCGGGGTGT GGAACTGGAG GACTGGTTAT GCTGCCAGTA CTTGGCCTCG 
GCAGAGCCAG CGGCCCTCTT GCAGTCCTTG AAGCTCCTGC AACTTCTCTG A

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

Prag1 ( XM_021219437.2 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021075096.1 Mus pahari PEAK1 related, kinase-activating pseudokinase 1 (Prag1), mRNA.

Price & Availability↑

CloneID	OMv58372
Clone ID Related Accession (Same CDS sequence)	XM_021219437.1 , XM_021219437.2
Accession Version	XM_021219437.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4131bp) 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	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	inactive tyrosine-protein kinase PRAG1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034608.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 18, 2019 this sequence version replaced XM_021219437.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari 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##

ATGTCTGCGT GCAGCGACTT TGTGGAGCAC ATCTGGAAAC CCGGGTCTTG CAAGAACTGC 
TTCTGCTTGC GGAGTGACCA TCAGCCAACA GCTGGCCATC CCAAGGCTAG AGCCAACAGC 
CTACCCGCTG GAACTCGCCT GCCTGCCAGG CCTGAGAATT GCCGCCTAGA CGACGAAGGC 
GTGAATGGCT TGGCCTACTC AAAGCCCACC ATTGCTGTAA AGCCCACCAT GATGACTTCT 
GAGACCTCCG ACTTGTGGAC TGAGGCCAAC CTGAGTGCTG AAGTCCCGAA GGTCAACTGG 
AGAAGAACCC CAGGCAAGCT CCTGCTCCCG AAACAGGAAG ATGAGCCAAT AGTTTACCTA 
GGCAGCTTCA GGGGACTGCA GAAGCCTGCA GGCCCTCTTG CCTGCACAGA TGGCAACTCT 
CGTTGTCCCC CAGCCTATAC CATGGTCGGA CTGCATAACC TGGAGACCCG AGTGGATAGG 
AACACGGCCT TTCAACCAGT GAGTTTCCAG GAAGAGAAGG CTGGGAGGGG AGAGCTGCCC 
TCGGCTCACG AGAGCTTTCG CCAGAAGCTA GCTGCCTTTG CAGGGATGAC ATCCAGCTGC 
CCCAAGGGCC CCAGGCCCTG CACTTCTCCA CAGCCCCTGC AGGAATCCCT GCCCTCGGAG 
GATGACAGTG ACCAAAGGTG CTCACCCTCA GGAGACAGCG AAGGTGGGGA GTACTGTTCC 
ATTCTGGACT GTTGTCCAGA ACCCAAAGAT ACTGTGCATA GCACCGAGGG CTCTGGCAGA 
CGTGGAGGGG ACTGCTCGCC CACGTACAGG GAGCAGGGAC CACATACAAG ACCAACAGAA 
GAGGAAAAGC AGGGGCTGAA CTTCCCCAGA GAGTGTTGTG GCCAGGGATC CACAGCGAAC 
CCGCCCCGCC TGGGCCCCAA GAAGCCATCC CTTAACTCCG AGGCCGCCAG CTCTTCCGAT 
GGAATGTCCT GTGGCAGCAG CCGCAGCGGG GCCAGCAGCC CCTTCGCTCC CCACCTTGAG 
AATGACTACT GTTCTCTTGT GAAGGAACCA GCCACCGGGA AACAGCAGGA CTCCAGCTGC 
CACTTCCTCG CCTCTGGCAA ATGTGTGGGT CAAGCTGTGG AACTCCAGCC TCCTGCCCTT 
CCTAGGGACG CTGTGCAGCC TGAACCCATC TACGCCGAAA GTGCCAAGAG GAAGAAGGCA 
GCTCCAGGGC CTCCGAGGCC CGAGCCTAAG AAAGAGCAGG TCGCAGCTAG CCATAGCCAG 
GGCCAAGTAT GGACAGGTGA TTCCTGGGTT CAGAAGACGC CCCCTAGCTG GAGCCAGGAC 
AGGGAAGGCG CAAACCCTGC TCCTCAGGTG GCAACCACCA TCACTGTCAT CGCTGCTCAT 
CCAGAAGAGG ACCACAGGAC TATTTATCTG AGCAGCCCTG ACTCTGCCGT GGGGGTGCAG 
TGGCCACGTG GGCCTTCGAA CCAGGACTTA CAAGCCAGTG AAGAGGAGCC TTTGGTTGTG 
CAGGGGCTAA CGTCAAGGGA GAGCCATCCA CATGTTGTGA CTGAAAACAC GTCCAAAGAG 
AAGCCTGCCA TTCCCCCCAA ACTATCCAAA AGTAGCCCTG GAGGGTCCCC AGTGTCCCCC 
GCAGCTCCCC CTCTGACTGA CCACAGCGAC GGGAACACCG GTGGCAGCAG CGTCGGACAG 
CTTTTGTCTA GAGTCCCTGC TAACCTAACG TCTTCCTGCC ACACCAATGG TGTTGCCACT 
GGCGGTGACC CTGCCAAGTG TCCCCCACCA GCCACCTCCT CTTCAGTCTT GGACCAGAGG 
CGGCCAAGAT ACCAGACTGG TGCTTGGAGC CGCCAGTGCC GGATAGAGGA GGAGGAGGAG 
GTGGGGCAGG AGTTGTTGAG TCAAAGTTGG GGGAGAGAGT TGGAAAATGG TACGGTCGAC 
CATTCAAACG CCTCTACCTG GCACCGTCTC CATCCCATCG ATGGCTCCTC TGGGCAGAAC 
AGCAAAACTA ACTCTGGGAT GAGCAAATCG GCTTCCTTTG CGTTTGAGTT CCCAAAGGAC 
AGAGGCAGAT TGGAGGCATT CTCACCCCCT CCCCCACCTC CAAAGTCAAG GCACCTGTTA 
AAAATGAACA AGAGCAGCTC TGACTTGGAA AAAGTGAGCC AGAGCTCTGC AGAAAGCCTC 
AGCCCGTCCT TCAGAGGGGC CCATGTCAGC TTCACCACGG GCTCCACAGA TAGCCTAGCC 
TCGGACTCCA GGCCCTGCAG TGATGGAGGT CCATCATATG AACCCTCCCA CTCACCCACC 
ATCAGCGGGA AAAAGCTCTT CGCTCCTGTC CCTTTTCCGT CAGGCTCCAC AGAGGATGTG 
TCCCCTGGTG GTGGTCCTGC GCAGCCTCCT CCTCTGCCCC AGAAAAAGAT AGTGAGCCGT 
GCCGCCTCTT CCCCCGACGG CTTCTTCTGG ACCCAAGGTT CCCCTAAGCC ACGGACGGCA 
AGTCCCAAGC TGAACCTAAG CCACTCAGAA ACCAATGTTT GTGCCCATGA CGAGCCTCCT 
TTTAACTCTT CCTTGAACTC TGGAAACCGT TCCCACCATG TCTTCTCCTC TTCTGAGCCT 
TTGGAGAAAG CTTTCAAAGG CAACGCTCCC TGGGCCCCAG CTCTGGGGCT GGCAAACAGC 
AAAGGCGGCT GTGGGAGCCC CGGTCTCCAG TGCAGAGCGG CCACCTCCAC GTCGTCATCC 
CAGCTCAGTG TGTCTAGCCA GGCCTCCTCC AGCAGCACCC AACTTCAGCT GCACAGCCTG 
CTGAGTAGCA TCAGCAGCAA GGAGGGTACC TATGCCAAGC TTGGGGGCCT CTACACACAG 
TCCCTGGCCC GCCTAGTCAC CAAGTGTGAA GACCTCTTCA TGGGTGGCCA GAAAAAGGAA 
CTACGCTTCA ATGAGAATAA CTGGTCACTC TTCAAGCTGA CATGTAACAA GCCTTGCTGT 
GACTCGGGGG ATGCAATTTA CTACTGCGCC ACCTGCTCTG AGGACCCAGG CAGCATCTAT 
GCCGTGAAAA TATGCAAAAC CCCAGAACCC AAATCAGCCT CATACTGCAG CCCGTCTGTG 
CCGGTGCACT TCAACATCCA GCAAGACTGC GGCCACTTTG TGGCCTCTGT GCCCTCCAGC 
ATGCTTGCCT CCCCCTCCCC TGACACATCC AGCAAAGACA CCGCACCTGC TGCATCCCCT 
CAGCACCCTG CCCAGGAGCA GGACTGTGTG GTGGTCATCA CCCGGGAGGT ACCGCACCAG 
ACTGCTTCGG ACTTTGTGCG GGACTCCATG GTCAGCCACC GGACGGAGCC TGAGGTTTAC 
GAGCGCCGGG TGTGCTTCCT GCTTCTGCAG CTCTGCAACG GGCTGGAGCA CCTGAAGGAA 
CACGGGATCA TCCACCGGGA CCTGTGTCTG GAGAACCTGC TGCTGGCGCA CTGTAACCCT 
CAGAGCTCCC CCGGGCCCTC TGCCACTCCT ACCGTGCCCA CCGCCACATC CAGGTGCCCT 
TCTGCCGCGC CCGCAGCCAC CACTGCCTGC CAGGGAGGGC CCGGTGAGAA GCACCTGCCC 
AGGCTCATCA TCAGCAACTT CCTGAAGGCC AAGCAGAAGC CAGGAGGCAC CACCAACCTG 
CAACAGAAGA AGAGCCAGGC CCGGCTGGCT CCTGAGATCG TGTCTGCTTC CCAGTACCGC 
AAGTTTGATG AGTTCCAGAC GGGCATCCTC ATCTATGAGC TGCTCCACCA GCCCAACCCA 
TTCGAGGTGC GAGCCCAGCT ACGGGAGCGC GACTACCGGC GGGAGGACTT ACCCCCGCTG 
CCCACACTGT CCCTCTACTC TCCTGGCCTG CAGCAGCTTG CCCATCTATT GCTTGAGGCT 
GATCCCATCA AGCGCATCCG CATAGGTGAA GCTAAGCGGG TGCTGCAGTG CTTGCTGTGG 
GGGCCACGGC GGGAGCTGGT GGAGCAGCCG TGCACCTCGG AGGAGGTACT ATGTAACACT 
CTGCACAATT GGATCGACAT GAAGCGAGCC CTGATGATGA TGAAGTTTGC TGAGAAGGCG 
GTGGACCGAA GGCGGGGTGT GGAACTGGAG GACTGGTTAT GCTGCCAGTA CTTGGCCTCG 
GCAGAGCCAG CGGCCCTCTT GCAGTCCTTG AAGCTCCTGC AACTTCTCTG A

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

RefSeq	XP_021075096.1
CDS	288..4418
Translation	MSACSDFVEHIWKPGSCKNCFCLRSDHQPTAGHPKARANSLPAGTRLPARPENCRLDDEGVNGLAYSKPTIAVKPTMMTSETSDLWTEANLSAEVPKVNWRRTPGKLLLPKQEDEPIVYLGSFRGLQKPAGPLACTDGNSRCPPAYTMVGLHNLETRVDRNTAFQPVSFQEEKAGRGELPSAHESFRQKLAAFAGMTSSCPKGPRPCTSPQPLQESLPSEDDSDQRCSPSGDSEGGEYCSILDCCPEPKDTVHSTEGSGRRGGDCSPTYREQGPHTRPTEEEKQGLNFPRECCGQGSTANPPRLGPKKPSLNSEAASSSDGMSCGSSRSGASSPFAPHLENDYCSLVKEPATGKQQDSSCHFLASGKCVGQAVELQPPALPRDAVQPEPIYAESAKRKKAAPGPPRPEPKKEQVAASHSQGQVWTGDSWVQKTPPSWSQDREGANPAPQVATTITVIAAHPEEDHRTIYLSSPDSAVGVQWPRGPSNQDLQASEEEPLVVQGLTSRESHPHVVTENTSKEKPAIPPKLSKSSPGGSPVSPAAPPLTDHSDGNTGGSSVGQLLSRVPANLTSSCHTNGVATGGDPAKCPPPATSSSVLDQRRPRYQTGAWSRQCRIEEEEEVGQELLSQSWGRELENGTVDHSNASTWHRLHPIDGSSGQNSKTNSGMSKSASFAFEFPKDRGRLEAFSPPPPPPKSRHLLKMNKSSSDLEKVSQSSAESLSPSFRGAHVSFTTGSTDSLASDSRPCSDGGPSYEPSHSPTISGKKLFAPVPFPSGSTEDVSPGGGPAQPPPLPQKKIVSRAASSPDGFFWTQGSPKPRTASPKLNLSHSETNVCAHDEPPFNSSLNSGNRSHHVFSSSEPLEKAFKGNAPWAPALGLANSKGGCGSPGLQCRAATSTSSSQLSVSSQASSSSTQLQLHSLLSSISSKEGTYAKLGGLYTQSLARLVTKCEDLFMGGQKKELRFNENNWSLFKLTCNKPCCDSGDAIYYCATCSEDPGSIYAVKICKTPEPKSASYCSPSVPVHFNIQQDCGHFVASVPSSMLASPSPDTSSKDTAPAASPQHPAQEQDCVVVITREVPHQTASDFVRDSMVSHRTEPEVYERRVCFLLLQLCNGLEHLKEHGIIHRDLCLENLLLAHCNPQSSPGPSATPTVPTATSRCPSAAPAATTACQGGPGEKHLPRLIISNFLKAKQKPGGTTNLQQKKSQARLAPEIVSASQYRKFDEFQTGILIYELLHQPNPFEVRAQLRERDYRREDLPPLPTLSLYSPGLQQLAHLLLEADPIKRIRIGEAKRVLQCLLWGPRRELVEQPCTSEEVLCNTLHNWIDMKRALMMMKFAEKAVDRRRGVELEDWLCCQYLASAEPAALLQSLKLLQLL

Target ORF information:

RefSeq Version	XM_021219437.2
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari PEAK1 related, kinase-activating pseudokinase 1 (Prag1), mRNA.

Target ORF information:

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

XM_021219437.2

ORF Insert Sequence:

ATGTCTGCGT GCAGCGACTT TGTGGAGCAC ATCTGGAAAC CCGGGTCTTG CAAGAACTGC 
TTCTGCTTGC GGAGTGACCA TCAGCCAACA GCTGGCCATC CCAAGGCTAG AGCCAACAGC 
CTACCCGCTG GAACTCGCCT GCCTGCCAGG CCTGAGAATT GCCGCCTAGA CGACGAAGGC 
GTGAATGGCT TGGCCTACTC AAAGCCCACC ATTGCTGTAA AGCCCACCAT GATGACTTCT 
GAGACCTCCG ACTTGTGGAC TGAGGCCAAC CTGAGTGCTG AAGTCCCGAA GGTCAACTGG 
AGAAGAACCC CAGGCAAGCT CCTGCTCCCG AAACAGGAAG ATGAGCCAAT AGTTTACCTA 
GGCAGCTTCA GGGGACTGCA GAAGCCTGCA GGCCCTCTTG CCTGCACAGA TGGCAACTCT 
CGTTGTCCCC CAGCCTATAC CATGGTCGGA CTGCATAACC TGGAGACCCG AGTGGATAGG 
AACACGGCCT TTCAACCAGT GAGTTTCCAG GAAGAGAAGG CTGGGAGGGG AGAGCTGCCC 
TCGGCTCACG AGAGCTTTCG CCAGAAGCTA GCTGCCTTTG CAGGGATGAC ATCCAGCTGC 
CCCAAGGGCC CCAGGCCCTG CACTTCTCCA CAGCCCCTGC AGGAATCCCT GCCCTCGGAG 
GATGACAGTG ACCAAAGGTG CTCACCCTCA GGAGACAGCG AAGGTGGGGA GTACTGTTCC 
ATTCTGGACT GTTGTCCAGA ACCCAAAGAT ACTGTGCATA GCACCGAGGG CTCTGGCAGA 
CGTGGAGGGG ACTGCTCGCC CACGTACAGG GAGCAGGGAC CACATACAAG ACCAACAGAA 
GAGGAAAAGC AGGGGCTGAA CTTCCCCAGA GAGTGTTGTG GCCAGGGATC CACAGCGAAC 
CCGCCCCGCC TGGGCCCCAA GAAGCCATCC CTTAACTCCG AGGCCGCCAG CTCTTCCGAT 
GGAATGTCCT GTGGCAGCAG CCGCAGCGGG GCCAGCAGCC CCTTCGCTCC CCACCTTGAG 
AATGACTACT GTTCTCTTGT GAAGGAACCA GCCACCGGGA AACAGCAGGA CTCCAGCTGC 
CACTTCCTCG CCTCTGGCAA ATGTGTGGGT CAAGCTGTGG AACTCCAGCC TCCTGCCCTT 
CCTAGGGACG CTGTGCAGCC TGAACCCATC TACGCCGAAA GTGCCAAGAG GAAGAAGGCA 
GCTCCAGGGC CTCCGAGGCC CGAGCCTAAG AAAGAGCAGG TCGCAGCTAG CCATAGCCAG 
GGCCAAGTAT GGACAGGTGA TTCCTGGGTT CAGAAGACGC CCCCTAGCTG GAGCCAGGAC 
AGGGAAGGCG CAAACCCTGC TCCTCAGGTG GCAACCACCA TCACTGTCAT CGCTGCTCAT 
CCAGAAGAGG ACCACAGGAC TATTTATCTG AGCAGCCCTG ACTCTGCCGT GGGGGTGCAG 
TGGCCACGTG GGCCTTCGAA CCAGGACTTA CAAGCCAGTG AAGAGGAGCC TTTGGTTGTG 
CAGGGGCTAA CGTCAAGGGA GAGCCATCCA CATGTTGTGA CTGAAAACAC GTCCAAAGAG 
AAGCCTGCCA TTCCCCCCAA ACTATCCAAA AGTAGCCCTG GAGGGTCCCC AGTGTCCCCC 
GCAGCTCCCC CTCTGACTGA CCACAGCGAC GGGAACACCG GTGGCAGCAG CGTCGGACAG 
CTTTTGTCTA GAGTCCCTGC TAACCTAACG TCTTCCTGCC ACACCAATGG TGTTGCCACT 
GGCGGTGACC CTGCCAAGTG TCCCCCACCA GCCACCTCCT CTTCAGTCTT GGACCAGAGG 
CGGCCAAGAT ACCAGACTGG TGCTTGGAGC CGCCAGTGCC GGATAGAGGA GGAGGAGGAG 
GTGGGGCAGG AGTTGTTGAG TCAAAGTTGG GGGAGAGAGT TGGAAAATGG TACGGTCGAC 
CATTCAAACG CCTCTACCTG GCACCGTCTC CATCCCATCG ATGGCTCCTC TGGGCAGAAC 
AGCAAAACTA ACTCTGGGAT GAGCAAATCG GCTTCCTTTG CGTTTGAGTT CCCAAAGGAC 
AGAGGCAGAT TGGAGGCATT CTCACCCCCT CCCCCACCTC CAAAGTCAAG GCACCTGTTA 
AAAATGAACA AGAGCAGCTC TGACTTGGAA AAAGTGAGCC AGAGCTCTGC AGAAAGCCTC 
AGCCCGTCCT TCAGAGGGGC CCATGTCAGC TTCACCACGG GCTCCACAGA TAGCCTAGCC 
TCGGACTCCA GGCCCTGCAG TGATGGAGGT CCATCATATG AACCCTCCCA CTCACCCACC 
ATCAGCGGGA AAAAGCTCTT CGCTCCTGTC CCTTTTCCGT CAGGCTCCAC AGAGGATGTG 
TCCCCTGGTG GTGGTCCTGC GCAGCCTCCT CCTCTGCCCC AGAAAAAGAT AGTGAGCCGT 
GCCGCCTCTT CCCCCGACGG CTTCTTCTGG ACCCAAGGTT CCCCTAAGCC ACGGACGGCA 
AGTCCCAAGC TGAACCTAAG CCACTCAGAA ACCAATGTTT GTGCCCATGA CGAGCCTCCT 
TTTAACTCTT CCTTGAACTC TGGAAACCGT TCCCACCATG TCTTCTCCTC TTCTGAGCCT 
TTGGAGAAAG CTTTCAAAGG CAACGCTCCC TGGGCCCCAG CTCTGGGGCT GGCAAACAGC 
AAAGGCGGCT GTGGGAGCCC CGGTCTCCAG TGCAGAGCGG CCACCTCCAC GTCGTCATCC 
CAGCTCAGTG TGTCTAGCCA GGCCTCCTCC AGCAGCACCC AACTTCAGCT GCACAGCCTG 
CTGAGTAGCA TCAGCAGCAA GGAGGGTACC TATGCCAAGC TTGGGGGCCT CTACACACAG 
TCCCTGGCCC GCCTAGTCAC CAAGTGTGAA GACCTCTTCA TGGGTGGCCA GAAAAAGGAA 
CTACGCTTCA ATGAGAATAA CTGGTCACTC TTCAAGCTGA CATGTAACAA GCCTTGCTGT 
GACTCGGGGG ATGCAATTTA CTACTGCGCC ACCTGCTCTG AGGACCCAGG CAGCATCTAT 
GCCGTGAAAA TATGCAAAAC CCCAGAACCC AAATCAGCCT CATACTGCAG CCCGTCTGTG 
CCGGTGCACT TCAACATCCA GCAAGACTGC GGCCACTTTG TGGCCTCTGT GCCCTCCAGC 
ATGCTTGCCT CCCCCTCCCC TGACACATCC AGCAAAGACA CCGCACCTGC TGCATCCCCT 
CAGCACCCTG CCCAGGAGCA GGACTGTGTG GTGGTCATCA CCCGGGAGGT ACCGCACCAG 
ACTGCTTCGG ACTTTGTGCG GGACTCCATG GTCAGCCACC GGACGGAGCC TGAGGTTTAC 
GAGCGCCGGG TGTGCTTCCT GCTTCTGCAG CTCTGCAACG GGCTGGAGCA CCTGAAGGAA 
CACGGGATCA TCCACCGGGA CCTGTGTCTG GAGAACCTGC TGCTGGCGCA CTGTAACCCT 
CAGAGCTCCC CCGGGCCCTC TGCCACTCCT ACCGTGCCCA CCGCCACATC CAGGTGCCCT 
TCTGCCGCGC CCGCAGCCAC CACTGCCTGC CAGGGAGGGC CCGGTGAGAA GCACCTGCCC 
AGGCTCATCA TCAGCAACTT CCTGAAGGCC AAGCAGAAGC CAGGAGGCAC CACCAACCTG 
CAACAGAAGA AGAGCCAGGC CCGGCTGGCT CCTGAGATCG TGTCTGCTTC CCAGTACCGC 
AAGTTTGATG AGTTCCAGAC GGGCATCCTC ATCTATGAGC TGCTCCACCA GCCCAACCCA 
TTCGAGGTGC GAGCCCAGCT ACGGGAGCGC GACTACCGGC GGGAGGACTT ACCCCCGCTG 
CCCACACTGT CCCTCTACTC TCCTGGCCTG CAGCAGCTTG CCCATCTATT GCTTGAGGCT 
GATCCCATCA AGCGCATCCG CATAGGTGAA GCTAAGCGGG TGCTGCAGTG CTTGCTGTGG 
GGGCCACGGC GGGAGCTGGT GGAGCAGCCG TGCACCTCGG AGGAGGTACT ATGTAACACT 
CTGCACAATT GGATCGACAT GAAGCGAGCC CTGATGATGA TGAAGTTTGC TGAGAAGGCG 
GTGGACCGAA GGCGGGGTGT GGAACTGGAG GACTGGTTAT GCTGCCAGTA CTTGGCCTCG 
GCAGAGCCAG CGGCCCTCTT GCAGTCCTTG AAGCTCCTGC AACTTCTCTG A