Tmprss9 cDNA ORF clone, Peromyscus maniculatus bairdii(prairie deer mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Tmprss9
Entrez Gene ID	102927617
Full Name	transmembrane serine protease 9
Gene Type	protein-coding
Organism	Peromyscus maniculatus bairdii(prairie deer mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015996834.1	XP_015852320.1	transmembrane protease serine 9

Pathways from BioSystems
Gene Ontology

The following Tmprss9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tmprss9 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OPe63819	XM_015996834.1 Latest version!	Peromyscus maniculatus bairdii transmembrane protease, serine 9 (Tmprss9), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00

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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)

Tmprss9 ( XM_015996834.1 ) cDNA ORF clone, Peromyscus maniculatus bairdii(prairie deer mouse) -> XP_015852320.1 Peromyscus maniculatus bairdii transmembrane protease, serine 9 (Tmprss9), mRNA.

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CloneID	OPe63819
Clone ID Related Accession (Same CDS sequence)	XM_015996834.1
Accession Version	XM_015996834.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3852bp) 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	2016-03-20
Organism	Peromyscus maniculatus bairdii(prairie deer mouse)
Product	transmembrane protease serine 9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006501136.1) 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 :: Peromyscus maniculatus bairdii Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 18% of CDS bases ##RefSeq-Attributes-END##

ATGGAGCCCG CGGCACCTGA CTTACATCTC GTGCCGGAGA CGGCAAAGGA TGTCCACGTC 
CCTGCTCCCG ACTCTGGCTG CTGCCGAACG GCGGTCACCG CGGTTGTGGC CATCAGTGTG 
GTCGTCCTCG TCCTGGGAGT CCTTCTGGGT AGGTGTCAGG AGGCAGGCTG GGTCCCCGGA 
GCAGGGGACA CTCGAAAGGG CATCTGGGTG TCCCGAGCAT CCGTCCAGAG CCAGCAGCCC 
ACACGGACGG GCCCCAAGTC GGAGAGTGTG CTGGGCGAGT GTGAGGTGGG TGTCAGTGTG 
AAGAGTGTGC TGGGCGAGTG TGAGGTGGGT GTCAGTGTGA AGAGTGTGCT GGGCGAGTGT 
GAGTGTGAAG AGTGTGAAGT GGGCGAGTGT GAGGTGGGTG TCAGTGTGGA GTGTGAAGTG 
GGCGAGTGTG AGGTGGGTGT CAGTGTGAAG AGTGTGCTGG GCGAGTGTGA GGTGGGTGTC 
AGTGTGGAGT GTGAAGTGGG TGAGTGTGAG GTGGGTGTCA GTGTGGAGTG TGAAGTGGGT 
GAGGAGGTGG GTGTCAGTGT GAAGAGTGTG CTGGGTGAGT GTGAGGTGGG TGTCAGTGTG 
AAGAGTGTGC TGGTGGCCGT GCCTGCCTCA CAGCGGTATC CTCTGCCCTT GTGCTCGGAT 
TCCGGCTTCT GGACAGTTGG CAAGGATTTC AAGACTGTTG GGACCCCGGG CTGGCCCTGG 
TGCTTCCTCT CTGAGCAGGG GGTGCACGTG GAGCACACGG CACGGCTCCA CGGGATCCGC 
TTCACCAGCG CGCTTCGGCA GGAGGCCTCC GACTACTACC GCCTGCTCAC AGCTGCTCTG 
CAGACGCTGT TTGTGAGCAG TTTCCGAAAA ACAGAGTTAG AATCGAGCTG CATGGGCTGC 
ACTGTGCTCA GTTACAGGGA CGGGAACTCC AGCGTGTTTG TGCATTTCCG GCTCCACTTC 
CTGCTGCGAG CGCTCCAGCC GCTGAGCCTG GACCAAGAGG AAGACATCTT GCAGAAAGGC 
CTCCAGGCAA GGCTGGGGGA ACATGGTCTT CCCCTGGCCG CCTACGGCAC CATCGTGTCA 
GTGGAGCTGA CAGGAAGGTG TGAAGGTCCG GTGACCGAGA GGGACTTAAA GTCAGGCCGC 
TGCCCCGAGA ACGCCTTCTC CTGTGCAAAC AGTCAGTGTG TGAGCAAAGA GAACCCCGAG 
TGTGACAACA GGATGGACTG CTCCGACGGG TCCGACGAGG CTCAGTGCGA CTGCGGCTGG 
CAGCCTGCCT GGATGTCAGC GGGCAGGATC GTGGGCGGCG TGGAGGCGGC GCCCGGGGAG 
TTCCCCTGGC AGGTCAGCCT TCGCGAGAAC CATGAGCACT TCTGCGGGGC CACCATCATC 
GGGGCCAGGT GGCTGGTGTC CGCCGCCCAC TGCTTCAACG AATTCCAGGA CCCCGCGCAG 
TGGGCGGCCC AGGCCGGCAG CGTGCACCTG AGCGGCTCGG AGGCCAGCGC CGTGCGCGCA 
CGCGTGCTCC GCATCTCCAA GCACCCGGCC TACGACGCGG ACACCGCGGA CTTCGATGTG 
GCGGTGCTGG AGCTGGCTCG CCCGCTGCCC TTCGGCCGCT ACGTGCAGCC CGCCTGTCTG 
CCCGCCGCCA CGCACGTCTT CCCGCCGCGC AGGAAGTGCC TGATCTCGGG CTGGGGCTAC 
CTGAAGGAGG ACTTCCTGGT CAAGCCTGAG GTCCTGCAGA AGGCCACGGT GGAGCTGCTG 
GAGCAGAGCC TGTGCGCCAG CCTGTACGGC CACTCGCTCA CCGACAGGAT GCTGTGCGCC 
GGGTACCTGG ACGGGAAGGT GGACTCGTGC CAGGGCGACT CGGGGGGACC CCTGGTCTGC 
GAGGAGCCTT CCGGGAGGTT CTTCCTGGCC GGCATTGTGA GCTGGGGCAT CGGCTGTGCG 
GAAGCGCGGC GGCCGGGCGT CTACACCCGC GTCACCCGGC TGCGGGACTG GATCCTGGAG 
GTGACGCGCG CGGCTGCCAC CGCGGCCCCC GCGCCCCTCG CCCCGGGCCC TCCCCGGCCC 
ACCAGCCCTG ACAGCTCGCT GCCCGGCACC TCGGCCAGAC CCACGGCGGC GCCCAGCACG 
GCACCGCCAC ACACCAGCAC GGCGGCCAAG CCACAAGAGT GTGGGGCTAG GCCTGCGATG 
GACAAGCCCA CTCGGATTGT GGGTGGGCTC GGCGCCGTGC CTGGGGAGGT GCCCTGGCAG 
GCCAGCCTGA AGGAAGGATC CAGACACTTC TGCGGAGCCA CCGTGGTGGG TGACCGCTGG 
CTGCTGTCCG CAGCTCACTG TTTCAACCAC ACCAAGGCAG AACAGGTGCA GGCCCACCTG 
GGCACCGCGT CCCTGCTGGG CGTCGGCGGG AGCCCCATCA AGCTGGGGCT GCGAAGGGTG 
GTTCTGCATC CCCGCTACAA CCCAGGCATC CTGGACTTTG ACGTGGCCTT GCTGGAGCTG 
GCCCGGCCGC TGCTCTTCAA TAAGTACATC CAGCCCATCT GTCTCCCCTT GGCCATCCAC 
AAGTTCCCTG TGGGCCGCAA GTGCATGATC TCAGGCTGGG GCAACACGCA GGAGGGAAAT 
GCCACCAAGC CCGACATCCT GCAGAAGGCG TCCGTGGGCA TCATAGAGCA GAAGATGTGT 
GGTGCCCTGT ACAATTTCTC CCTCACGGAC CGCATGCTCT GCGCCGGCTT CCTGGAGGGC 
AAGGTTGACT CCTGCCAGGG CGACTCTGGT GGCCCGCTGG CATGTGAGGA GACACCAGGT 
GTCTTCTACC TGGCGGGCAT CGTGAGCTGG GGCATCGGCT GCGCGCAGGC GAAGAAGCCG 
GGCGTTTATG CACGCGTCAC TCGGCTCAAG GACTGGATCC TGAAGGCCAT GTCCTCAGGC 
CCCGGCTCCA CGCTCCGCCC CCACACCTCC AGCACACGGC TTATCCCTAA CCAGCCCCCC 
AGAACCACGG CTGCTGGCCT CACTGCCCAA GAGGCCACCA CCAGACCGGC AACCCCCAGG 
GCCACCAGCA GGGTGACCGC TAGACCGCTC AACAGGACGC TGTCTGCCAG GAGCACCACC 
AGGGGACAGA CACCAGCCCC CAATGCCCCA GGCACCACCA CGCATCCCCA ACTGCCAGAC 
TGTGGCCTGG CGCCCCCGGG GGCGCTGACC CGGATCGTGG GTGGCAGCGC GGCCTCGCGT 
GGGGAGTGGC CCTGGCAGGT GAGCCTGTGG CTGCGGAGCC GAGAACACCG CTGCGGGGCC 
GTGCTGGTGG CCGAGAGGTG GCTGCTGTCC GCCGCGCACT GCTTCGACAT CTACGGGGAC 
CCTATGCAGT GGGCAGCCTT CCTGGGCACC CCGTTCCTGA GCGGCGCCGA GGGCCAGCTG 
GAGCGGGTGG CACGCATCTA CCGCCACCCG TTCTACAACC TCTACACGCT GGACTACGAC 
GTGGCGCTGC TGGAGCTGGC GGGTCCCGTG CGCCGCAGCC GCCTGGTGCG ACCCATCTGC 
CTGCCGGGGC CCGCGCGGCC CCCCGAAGGC GCGCGCTGCG TCATCACCGG CTGGGGCTCG 
CTGCGGGAGG GAGGCTCCAT GGCCCGGCAG CTGCAGAAGG CGGCCGTGCG CGTCCTCAGC 
GAGCAGACGT GTCGCCGCTT CTACCCGGTG CAGATCAGCA GCCGCATGCT GTGCGCGGGC 
TTCCCGCAGG GCGGCGTGGA CAGCTGCTCG GGTGACGCAG GGGGACCCCT GGCCTGCAGG 
GAGCCATCCG GCCAGTGGGT GCTAACTGGG GTCACCAGTT GGGGCTATGG CTGCGGCAGG 
CCGCACTTCC CAGGCGTCTA CACTCGCGTG GCCGCTGTGC TGGGATGGAT AGGCCAGAAC 
ATCCTGGAGT GA

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

RefSeq	XP_015852320.1
CDS	1..3852
Translation	MEPAAPDLHLVPETAKDVHVPAPDSGCCRTAVTAVVAISVVVLVLGVLLGRCQEAGWVPGAGDTRKGIWVSRASVQSQQPTRTGPKSESVLGECEVGVSVKSVLGECEVGVSVKSVLGECECEECEVGECEVGVSVECEVGECEVGVSVKSVLGECEVGVSVECEVGECEVGVSVECEVGEEVGVSVKSVLGECEVGVSVKSVLVAVPASQRYPLPLCSDSGFWTVGKDFKTVGTPGWPWCFLSEQGVHVEHTARLHGIRFTSALRQEASDYYRLLTAALQTLFVSSFRKTELESSCMGCTVLSYRDGNSSVFVHFRLHFLLRALQPLSLDQEEDILQKGLQARLGEHGLPLAAYGTIVSVELTGRCEGPVTERDLKSGRCPENAFSCANSQCVSKENPECDNRMDCSDGSDEAQCDCGWQPAWMSAGRIVGGVEAAPGEFPWQVSLRENHEHFCGATIIGARWLVSAAHCFNEFQDPAQWAAQAGSVHLSGSEASAVRARVLRISKHPAYDADTADFDVAVLELARPLPFGRYVQPACLPAATHVFPPRRKCLISGWGYLKEDFLVKPEVLQKATVELLEQSLCASLYGHSLTDRMLCAGYLDGKVDSCQGDSGGPLVCEEPSGRFFLAGIVSWGIGCAEARRPGVYTRVTRLRDWILEVTRAAATAAPAPLAPGPPRPTSPDSSLPGTSARPTAAPSTAPPHTSTAAKPQECGARPAMDKPTRIVGGLGAVPGEVPWQASLKEGSRHFCGATVVGDRWLLSAAHCFNHTKAEQVQAHLGTASLLGVGGSPIKLGLRRVVLHPRYNPGILDFDVALLELARPLLFNKYIQPICLPLAIHKFPVGRKCMISGWGNTQEGNATKPDILQKASVGIIEQKMCGALYNFSLTDRMLCAGFLEGKVDSCQGDSGGPLACEETPGVFYLAGIVSWGIGCAQAKKPGVYARVTRLKDWILKAMSSGPGSTLRPHTSSTRLIPNQPPRTTAAGLTAQEATTRPATPRATSRVTARPLNRTLSARSTTRGQTPAPNAPGTTTHPQLPDCGLAPPGALTRIVGGSAASRGEWPWQVSLWLRSREHRCGAVLVAERWLLSAAHCFDIYGDPMQWAAFLGTPFLSGAEGQLERVARIYRHPFYNLYTLDYDVALLELAGPVRRSRLVRPICLPGPARPPEGARCVITGWGSLREGGSMARQLQKAAVRVLSEQTCRRFYPVQISSRMLCAGFPQGGVDSCSGDAGGPLACREPSGQWVLTGVTSWGYGCGRPHFPGVYTRVAAVLGWIGQNILE

Target ORF information:

RefSeq Version	XM_015996834.1
Organism	Peromyscus maniculatus bairdii(prairie deer mouse)
Definition	Peromyscus maniculatus bairdii transmembrane protease, serine 9 (Tmprss9), mRNA.

Target ORF information:

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

XM_015996834.1

ORF Insert Sequence:

ATGGAGCCCG CGGCACCTGA CTTACATCTC GTGCCGGAGA CGGCAAAGGA TGTCCACGTC 
CCTGCTCCCG ACTCTGGCTG CTGCCGAACG GCGGTCACCG CGGTTGTGGC CATCAGTGTG 
GTCGTCCTCG TCCTGGGAGT CCTTCTGGGT AGGTGTCAGG AGGCAGGCTG GGTCCCCGGA 
GCAGGGGACA CTCGAAAGGG CATCTGGGTG TCCCGAGCAT CCGTCCAGAG CCAGCAGCCC 
ACACGGACGG GCCCCAAGTC GGAGAGTGTG CTGGGCGAGT GTGAGGTGGG TGTCAGTGTG 
AAGAGTGTGC TGGGCGAGTG TGAGGTGGGT GTCAGTGTGA AGAGTGTGCT GGGCGAGTGT 
GAGTGTGAAG AGTGTGAAGT GGGCGAGTGT GAGGTGGGTG TCAGTGTGGA GTGTGAAGTG 
GGCGAGTGTG AGGTGGGTGT CAGTGTGAAG AGTGTGCTGG GCGAGTGTGA GGTGGGTGTC 
AGTGTGGAGT GTGAAGTGGG TGAGTGTGAG GTGGGTGTCA GTGTGGAGTG TGAAGTGGGT 
GAGGAGGTGG GTGTCAGTGT GAAGAGTGTG CTGGGTGAGT GTGAGGTGGG TGTCAGTGTG 
AAGAGTGTGC TGGTGGCCGT GCCTGCCTCA CAGCGGTATC CTCTGCCCTT GTGCTCGGAT 
TCCGGCTTCT GGACAGTTGG CAAGGATTTC AAGACTGTTG GGACCCCGGG CTGGCCCTGG 
TGCTTCCTCT CTGAGCAGGG GGTGCACGTG GAGCACACGG CACGGCTCCA CGGGATCCGC 
TTCACCAGCG CGCTTCGGCA GGAGGCCTCC GACTACTACC GCCTGCTCAC AGCTGCTCTG 
CAGACGCTGT TTGTGAGCAG TTTCCGAAAA ACAGAGTTAG AATCGAGCTG CATGGGCTGC 
ACTGTGCTCA GTTACAGGGA CGGGAACTCC AGCGTGTTTG TGCATTTCCG GCTCCACTTC 
CTGCTGCGAG CGCTCCAGCC GCTGAGCCTG GACCAAGAGG AAGACATCTT GCAGAAAGGC 
CTCCAGGCAA GGCTGGGGGA ACATGGTCTT CCCCTGGCCG CCTACGGCAC CATCGTGTCA 
GTGGAGCTGA CAGGAAGGTG TGAAGGTCCG GTGACCGAGA GGGACTTAAA GTCAGGCCGC 
TGCCCCGAGA ACGCCTTCTC CTGTGCAAAC AGTCAGTGTG TGAGCAAAGA GAACCCCGAG 
TGTGACAACA GGATGGACTG CTCCGACGGG TCCGACGAGG CTCAGTGCGA CTGCGGCTGG 
CAGCCTGCCT GGATGTCAGC GGGCAGGATC GTGGGCGGCG TGGAGGCGGC GCCCGGGGAG 
TTCCCCTGGC AGGTCAGCCT TCGCGAGAAC CATGAGCACT TCTGCGGGGC CACCATCATC 
GGGGCCAGGT GGCTGGTGTC CGCCGCCCAC TGCTTCAACG AATTCCAGGA CCCCGCGCAG 
TGGGCGGCCC AGGCCGGCAG CGTGCACCTG AGCGGCTCGG AGGCCAGCGC CGTGCGCGCA 
CGCGTGCTCC GCATCTCCAA GCACCCGGCC TACGACGCGG ACACCGCGGA CTTCGATGTG 
GCGGTGCTGG AGCTGGCTCG CCCGCTGCCC TTCGGCCGCT ACGTGCAGCC CGCCTGTCTG 
CCCGCCGCCA CGCACGTCTT CCCGCCGCGC AGGAAGTGCC TGATCTCGGG CTGGGGCTAC 
CTGAAGGAGG ACTTCCTGGT CAAGCCTGAG GTCCTGCAGA AGGCCACGGT GGAGCTGCTG 
GAGCAGAGCC TGTGCGCCAG CCTGTACGGC CACTCGCTCA CCGACAGGAT GCTGTGCGCC 
GGGTACCTGG ACGGGAAGGT GGACTCGTGC CAGGGCGACT CGGGGGGACC CCTGGTCTGC 
GAGGAGCCTT CCGGGAGGTT CTTCCTGGCC GGCATTGTGA GCTGGGGCAT CGGCTGTGCG 
GAAGCGCGGC GGCCGGGCGT CTACACCCGC GTCACCCGGC TGCGGGACTG GATCCTGGAG 
GTGACGCGCG CGGCTGCCAC CGCGGCCCCC GCGCCCCTCG CCCCGGGCCC TCCCCGGCCC 
ACCAGCCCTG ACAGCTCGCT GCCCGGCACC TCGGCCAGAC CCACGGCGGC GCCCAGCACG 
GCACCGCCAC ACACCAGCAC GGCGGCCAAG CCACAAGAGT GTGGGGCTAG GCCTGCGATG 
GACAAGCCCA CTCGGATTGT GGGTGGGCTC GGCGCCGTGC CTGGGGAGGT GCCCTGGCAG 
GCCAGCCTGA AGGAAGGATC CAGACACTTC TGCGGAGCCA CCGTGGTGGG TGACCGCTGG 
CTGCTGTCCG CAGCTCACTG TTTCAACCAC ACCAAGGCAG AACAGGTGCA GGCCCACCTG 
GGCACCGCGT CCCTGCTGGG CGTCGGCGGG AGCCCCATCA AGCTGGGGCT GCGAAGGGTG 
GTTCTGCATC CCCGCTACAA CCCAGGCATC CTGGACTTTG ACGTGGCCTT GCTGGAGCTG 
GCCCGGCCGC TGCTCTTCAA TAAGTACATC CAGCCCATCT GTCTCCCCTT GGCCATCCAC 
AAGTTCCCTG TGGGCCGCAA GTGCATGATC TCAGGCTGGG GCAACACGCA GGAGGGAAAT 
GCCACCAAGC CCGACATCCT GCAGAAGGCG TCCGTGGGCA TCATAGAGCA GAAGATGTGT 
GGTGCCCTGT ACAATTTCTC CCTCACGGAC CGCATGCTCT GCGCCGGCTT CCTGGAGGGC 
AAGGTTGACT CCTGCCAGGG CGACTCTGGT GGCCCGCTGG CATGTGAGGA GACACCAGGT 
GTCTTCTACC TGGCGGGCAT CGTGAGCTGG GGCATCGGCT GCGCGCAGGC GAAGAAGCCG 
GGCGTTTATG CACGCGTCAC TCGGCTCAAG GACTGGATCC TGAAGGCCAT GTCCTCAGGC 
CCCGGCTCCA CGCTCCGCCC CCACACCTCC AGCACACGGC TTATCCCTAA CCAGCCCCCC 
AGAACCACGG CTGCTGGCCT CACTGCCCAA GAGGCCACCA CCAGACCGGC AACCCCCAGG 
GCCACCAGCA GGGTGACCGC TAGACCGCTC AACAGGACGC TGTCTGCCAG GAGCACCACC 
AGGGGACAGA CACCAGCCCC CAATGCCCCA GGCACCACCA CGCATCCCCA ACTGCCAGAC 
TGTGGCCTGG CGCCCCCGGG GGCGCTGACC CGGATCGTGG GTGGCAGCGC GGCCTCGCGT 
GGGGAGTGGC CCTGGCAGGT GAGCCTGTGG CTGCGGAGCC GAGAACACCG CTGCGGGGCC 
GTGCTGGTGG CCGAGAGGTG GCTGCTGTCC GCCGCGCACT GCTTCGACAT CTACGGGGAC 
CCTATGCAGT GGGCAGCCTT CCTGGGCACC CCGTTCCTGA GCGGCGCCGA GGGCCAGCTG 
GAGCGGGTGG CACGCATCTA CCGCCACCCG TTCTACAACC TCTACACGCT GGACTACGAC 
GTGGCGCTGC TGGAGCTGGC GGGTCCCGTG CGCCGCAGCC GCCTGGTGCG ACCCATCTGC 
CTGCCGGGGC CCGCGCGGCC CCCCGAAGGC GCGCGCTGCG TCATCACCGG CTGGGGCTCG 
CTGCGGGAGG GAGGCTCCAT GGCCCGGCAG CTGCAGAAGG CGGCCGTGCG CGTCCTCAGC 
GAGCAGACGT GTCGCCGCTT CTACCCGGTG CAGATCAGCA GCCGCATGCT GTGCGCGGGC 
TTCCCGCAGG GCGGCGTGGA CAGCTGCTCG GGTGACGCAG GGGGACCCCT GGCCTGCAGG 
GAGCCATCCG GCCAGTGGGT GCTAACTGGG GTCACCAGTT GGGGCTATGG CTGCGGCAGG 
CCGCACTTCC CAGGCGTCTA CACTCGCGTG GCCGCTGTGC TGGGATGGAT AGGCCAGAAC 
ATCCTGGAGT GA