MAP3K1 cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	MAP3K1
Entrez Gene ID	105819135
Full Name	mitogen-activated protein kinase kinase kinase 1
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012655318.1	XP_012510772.1	mitogen-activated protein kinase kinase kinase 1

Pathways from BioSystems
Gene Ontology

The following MAP3K1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAP3K1 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
OPr112567	XM_012655318.1 Latest version!	Propithecus coquereli mitogen-activated protein kinase kinase kinase 1, E3 ubiquitin protein ligase (MAP3K1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

MAP3K1 ( XM_012655318.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012510772.1 Propithecus coquereli mitogen-activated protein kinase kinase kinase 1, E3 ubiquitin protein ligase (MAP3K1), mRNA.

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CloneID	OPr112567
Clone ID Related Accession (Same CDS sequence)	XM_012655318.1
Accession Version	XM_012655318.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4917bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	mitogen-activated protein kinase kinase kinase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012150507.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGCCGC CGAGGCTCCT CCTTTCGCCG GTGCGACTGG GACTACCTGG CGGCGCCGCG 
GGTGCAGCGC GCAGAGTGCG GAGCGCCCCT GCGCCGGCCA CCTCCGAGCC CACCTCGGCC 
GCCCGCGCGC GGGCAGAGCG GACAGTGCAC TCCCTCCCAC CTGCGGCCGC CGCCGCCGCT 
GGCCCGCCCT CCACCTCTGC CTCTGCCTCC GCCTCCGCCG CGGGCCGGAC CCCACGCGCC 
CGCCCGTGGG TCCAGGCCGG GCGCCCGGCG GGCCGCGGTC ACGCAGTTGG CGCAGGAGGC 
CTACGCCGGC GGCGCAGCGC CCGCCCCCTG CGCTCTCCCC GCCCCCTCCC TCCCTCGCTG 
GGGCCGAGCG AATGTAGCCC GCGAGAGAAA ATGGCGGCGG CGGCGGGGAA TCGCGCCTCG 
TCGTCGGGAT TCCCGGGCGC CCGGGCTGCG AGCCCCGAGG CAGGCGGCGG CGGAGGGGCC 
CTTAAGGCGA GCAGCGCGCC CGCAGCGGCC GCGGGGCTGC TGCGGGAGGC GGGCAGCGGG 
GGCCGCGATC GGGCGGACTG GCGGCGGCGG CAGCTGCGCA AAGTGCGGAG TGTGGAGCTG 
GACCAGCTGC CCGAGCCTCC GCTCTTCCTC GCCGCTTCGC CGCCGTCCTC CTCTACTTCC 
CCGTCACCGG AGCCCGCGGA CTCGGCGGCG GGCGGGTGCA GCTTCCAGCC TGTGGCGGTG 
CCGCCGCCCC ACGGAGCTGC GAGCCGCGGC GGCGCCCACC CTACCGAGCC AGTGGTCGTG 
CGGGACAGCG GCGCCTCGAG TCCCGCAGGG GCCGAGCCCG GGGAGAAGCG GGCGCCCGCC 
GCCGAGCCGA CTCCTGCAGC GTCCCCCTCC GGTCGCGAGA TGGAGAATAA AGAAACTCTC 
AAAGGGTTGC ACAAAATGGA CGATCGCCCA GAGGAACGAA TGATCAGGGA GAAACTGAAG 
GCGACCTGCA TGCCAGCCTG GAAGCATGAG TGGTTGGAAA GGAGAAATAG GCGAGGCCCT 
GTGGTGGTAA AACCAATCCC TATTAAAGGA GATGGATCTG AAATGAATAA CTTGGCAGCT 
GAGTGTCTGG GGGAGGGCCA GGCGAGCACC ACTTCACCAG CCCCCAAAGG CCGACGCAGT 
CCTTCTCCTG GCAGCTCCCC ATCAGGTCGC ACGGTGAAAT CAGAATCTCC GGGAGTAAGG 
AGGAAACGAG TTTCCCCAGT GCCTTTTCAG AGTGGCAGAA TCACACCACC CCGAAGAGCC 
CCGTCACCAG ATGGCTTCTC ACCATACAGC CCTGAGGAAA CAAACCGCCG TGTGAACAAA 
GTGATGCGGG CCAGGCTGTA TCTACTACAG CAAATAGGAC CCAACTCTTT CCTGATTGGA 
GGAGACAGCC CAGACAATAA ATACCGGGTG TTTATAGGGC CTCAGAACTG TAGCTGTGGG 
CGTGGAACAT TTTGTATTCA TCTGCTATTT GTTATGCTCC GGGTGTTTCA ACTAGAACCT 
TCAGACCCAA TGTTATGGAG AAAAACTTTA AAGAATTTTG AGGTTGAGAG TTTGTTCCAG 
AAATATCACA GTAGGCGTAG CTCAAGGATC AAAGCTCCAT CTCGTAACAC CATCCAGAAG 
TTTGTTTCAC GCATGTCAAA TTCTCATACA TTGTCGTCAT CTAGTACTTC TACATCTAGT 
TCAGAAAACA GCATAAAAGA TGAAGAGGAA CAGATGTGTC CTATTTGCTT ATTGGGCATG 
CTTGATGAAG AAAGTCTCAC AGTGTGTGAA GACGGCTGCA GGAACAAGCT GCACCACCAC 
TGCATGTCAA TTTGGGCAGA AGAATGTAGA AGAAATAGAG AGCCTTTAAT ATGTCCCCTT 
TGTAGGTCTA AGTGGAGATC CCATGATTTC TACAGCCATG AGTTGTCAAG CCCTGTGGAT 
TCCCCGTCTT CCCTGAGAGC TGCACAGCAG CAAACTGTAC AGCAGCAGCC TGTGGCTGGA 
CCACAAAGAA GGAGTCAAGA GAGCAATTTT AACCTTACTC ATTATGGAAC TCAGCAAATC 
CCTCCTGCTT ACAAAGATTT AGCTGAACCA TGGATTCAGG TGTTTGGAAT GGAACTCGTT 
GGCTGCTTAT TTTCTAGAAA CTGGAATGTA AGAGAGATGG CCCTCAGGCG TCTTTCCCAC 
GATGTTAGTG GGGCCCTGCT GTTGGCGAAT GGGGAGAGCA CTGGAAATTC TGGGGGCAGC 
GGTGGAAGCA GTCCGAGCGC TGGAGCTGCC AGTGGGTCTT CCCAGACCAG TGTCTCAGGA 
GACGTGGTGG AGGCGTGCTG CAGCGTTTTG TCAATGGTCT GTGCCGACCC TGTCTACAAA 
GTGTACGTTG CTGCTTTAAA AACATTGAGA GCCATGCTGG TGTATACTCC TTGCCACAGT 
TTGGCAGAAA GAATCAGACT TCAGAGACTT CTCCGGCCAG TTGTAGACAC CATCCTAGTC 
AAGTGTGCAG ATGCCAATAG CCGCACAAGT CAGCTGTCCA TATCAACACT GTTGGAGTTG 
TGCAAAGGCC AAGCAGGAGA GTTGGCAGTT GGAAGAGAAA TACTAAAAGC TGGCTCCATT 
GGTATTGGTG GTGTTGATTA TGTCTTAAAT TGTATTCTTG GAAACCAAAC TGAATCAAAC 
AACTGGCAAG AGCTCCTGGG CCGCCTTTGT CTTATAGATA GACTATTGTT GGAGTTTCCT 
GCTGAATTTT ATCCTCATAT TGTCAGTACT GATGTTTCAC AAGCTGAGCC TGTTGAAATC 
AGGTATAAGA AGCTGCTGTC CCTCTTGACC TTTGCTTTGC AGTCCATAGA TAATTCCCAC 
TCAATGGTTG GTAAACTTTC CCGAAGGATC TATTTGAGTT CTGCACGAAT GGTTACCACA 
GTACCCCATG TGTTTTCAAA ACTGTTAGAA ATGCTGAGCG TTTCCAGTTC CACTCACTTC 
ACCAGGATGC GTCGCCGTTT GATGGCTATT GCGGATGAGG TGGAAATCGC CGAGGCCATC 
CAGCTGGGCA TAGAAGACAC TTTGGGTGGT CGACAGGACA GCTTTTTGCA GGCGTCTGTC 
CCTAACAGCT GTCCAGAAAC CACAGAGAAC GGTTCTCTTG AGCACACAGT CCATTTAGAG 
AAAACTGGAA AAGGATTATG TGCTACAAAA TTGAGTGCCA GTTCAGAGGA CATTTCTGAC 
AGACTGGCCA GCATTTCAGT AGGACTTCCT AGTTTAGCAG CAACAACAGA GCAACCAAAG 
CCAATGGTTC AAACAAAAGG CAGGCCCCAC AGTCAGTGTT TGAACTCCTC TCCCTTATCT 
CATCATTCCC AGTTAATATT CCCAGCCAAG TCAGCCTCTT GTACAGCGGC CCCACCTTTG 
CCAGCCAGCA CTGTAACAGA TGTGTCTAAA CATAGACCTC AGGGATTCGT TCCCTGCAAA 
ATACCTTCTG CATCTCCTCA AACACAGCGC AAGTTTTCTC TACAGTTCCA GAGAAACTGT 
CCTGAAAACA AAGACTCGGG TAAACTTTCT CCAATCTTTA CTCAGTCAAG ACCCCTGCCC 
TCCAGTAATA TACACAGGCC AAAGCCATCT CGACCTACCC CAGGCAGTAC AAGTAAACAG 
GGAGATGCCT CAAAAAACAG CATGACACTT GATCTGAACA GTACCAAATG TGATGACAGC 
TTTGGCAGTA GCAATAGTAG TAGTAATGCT ATTATACCCA GTGACGAGAC AGTGTTCACC 
CCGGTAGAGG AGAAATGCAG ATTAGATGTC AATACGGAGC TCAACTCCAG TATTGAGGAC 
CTTCTTGAAG CATCCATGCC TTCAAGTGAT ACAACGGTAA CTTTTAAGTC AGAAGTTGCT 
GTCCTCTCTC CTGAAAAGGC TGAAAATGAT GATACCTACA AAGATGATGT GAATCACAAT 
CAGAAGTGTA AAGAAAAGAT GGAAGCTGAA GAGGAAGAAG CTTTAGCAAT TGCCATGGCA 
ATGTCAGCGT CTCAGGATGC CCTCCCCGTA GTCCCTCAGC TGCAGGTTGA GAATGGAGAA 
GATATCATCA TCATTCAACA GGATACACCA GAGACTCTCC CAGGACATAC CAAAGCAAAA 
CAACCTTACA GAGAAGACAC GGAATGGCTG AAAGGTCAGC AGATAGGCCT TGGAGCATTT 
TCTTCTTGTT ATCAGGCTCA AGATGTGGGA ACTGGAACAT TAATGGCTGT TAAACAGGTG 
ACATATGTCA GAAACACATC TTCTGAACAA GAAGAAGTGG TGGAAGCATT GAGAGAAGAG 
ATAAGAATGA TGAGCCATCT GAATCATCCG AACATCATTA GGATGTTGGG AGCCACGTGT 
GAGAAGAGCA ATTATAATCT CTTCATTGAG TGGATGGCAG GGGGATCTGT GGCCCATTTG 
CTGAGTAAAT ATGGAGCCTT CAAAGAATCA GTAGTTATTA ACTATACTGA ACAATTACTT 
CGTGGCCTTT CATATCTCCA TGAAAACCAG ATCATTCACA GAGATGTCAA AGGTGCCAAT 
TTGCTAATTG ACAGCACAGG TCAGAGACTA AGAATTGCAG ATTTTGGAGC TGCCGCCAGG 
TTGGCGTCAA AAGGAACTGG TGCAGGAGAG TTTCAGGGCC AGTTATTGGG GACAATTGCG 
TTTATGGCAC CTGAGGTACT AAGAGGTCAA CAGTATGGTA GGAGCTGTGA CGTGTGGAGT 
GTTGGCTGTG CCATTATAGA AATGGCTTGT GCAAAACCAC CTTGGAATGC AGAAAAACAC 
TCCAATCATC TTGCTTTGAT ATTTAAGATT GCTAGTGCAA CTACTGCTCC ATCAATCCCT 
TCACATCTGT CTCCCGGTCT ACGAGATGTG GCTCTGCGTT GTTTAGAACT TCAACCTCAG 
GACAGACCTC CGTCAAGAGA GCTACTGAAG CATCCAGTCT TCCGTACCAC ATGGTAG

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

RefSeq	XP_012510772.1
CDS	103..5019
Translation	MLPPRLLLSPVRLGLPGGAAGAARRVRSAPAPATSEPTSAARARAERTVHSLPPAAAAAAGPPSTSASASASAAGRTPRARPWVQAGRPAGRGHAVGAGGLRRRRSARPLRSPRPLPPSLGPSECSPREKMAAAAGNRASSSGFPGARAASPEAGGGGGALKASSAPAAAAGLLREAGSGGRDRADWRRRQLRKVRSVELDQLPEPPLFLAASPPSSSTSPSPEPADSAAGGCSFQPVAVPPPHGAASRGGAHPTEPVVVRDSGASSPAGAEPGEKRAPAAEPTPAASPSGREMENKETLKGLHKMDDRPEERMIREKLKATCMPAWKHEWLERRNRRGPVVVKPIPIKGDGSEMNNLAAECLGEGQASTTSPAPKGRRSPSPGSSPSGRTVKSESPGVRRKRVSPVPFQSGRITPPRRAPSPDGFSPYSPEETNRRVNKVMRARLYLLQQIGPNSFLIGGDSPDNKYRVFIGPQNCSCGRGTFCIHLLFVMLRVFQLEPSDPMLWRKTLKNFEVESLFQKYHSRRSSRIKAPSRNTIQKFVSRMSNSHTLSSSSTSTSSSENSIKDEEEQMCPICLLGMLDEESLTVCEDGCRNKLHHHCMSIWAEECRRNREPLICPLCRSKWRSHDFYSHELSSPVDSPSSLRAAQQQTVQQQPVAGPQRRSQESNFNLTHYGTQQIPPAYKDLAEPWIQVFGMELVGCLFSRNWNVREMALRRLSHDVSGALLLANGESTGNSGGSGGSSPSAGAASGSSQTSVSGDVVEACCSVLSMVCADPVYKVYVAALKTLRAMLVYTPCHSLAERIRLQRLLRPVVDTILVKCADANSRTSQLSISTLLELCKGQAGELAVGREILKAGSIGIGGVDYVLNCILGNQTESNNWQELLGRLCLIDRLLLEFPAEFYPHIVSTDVSQAEPVEIRYKKLLSLLTFALQSIDNSHSMVGKLSRRIYLSSARMVTTVPHVFSKLLEMLSVSSSTHFTRMRRRLMAIADEVEIAEAIQLGIEDTLGGRQDSFLQASVPNSCPETTENGSLEHTVHLEKTGKGLCATKLSASSEDISDRLASISVGLPSLAATTEQPKPMVQTKGRPHSQCLNSSPLSHHSQLIFPAKSASCTAAPPLPASTVTDVSKHRPQGFVPCKIPSASPQTQRKFSLQFQRNCPENKDSGKLSPIFTQSRPLPSSNIHRPKPSRPTPGSTSKQGDASKNSMTLDLNSTKCDDSFGSSNSSSNAIIPSDETVFTPVEEKCRLDVNTELNSSIEDLLEASMPSSDTTVTFKSEVAVLSPEKAENDDTYKDDVNHNQKCKEKMEAEEEEALAIAMAMSASQDALPVVPQLQVENGEDIIIIQQDTPETLPGHTKAKQPYREDTEWLKGQQIGLGAFSSCYQAQDVGTGTLMAVKQVTYVRNTSSEQEEVVEALREEIRMMSHLNHPNIIRMLGATCEKSNYNLFIEWMAGGSVAHLLSKYGAFKESVVINYTEQLLRGLSYLHENQIIHRDVKGANLLIDSTGQRLRIADFGAAARLASKGTGAGEFQGQLLGTIAFMAPEVLRGQQYGRSCDVWSVGCAIIEMACAKPPWNAEKHSNHLALIFKIASATTAPSIPSHLSPGLRDVALRCLELQPQDRPPSRELLKHPVFRTTW

Target ORF information:

RefSeq Version	XM_012655318.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli mitogen-activated protein kinase kinase kinase 1, E3 ubiquitin protein ligase (MAP3K1), mRNA.

Target ORF information:

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

XM_012655318.1

ORF Insert Sequence:

ATGCTGCCGC CGAGGCTCCT CCTTTCGCCG GTGCGACTGG GACTACCTGG CGGCGCCGCG 
GGTGCAGCGC GCAGAGTGCG GAGCGCCCCT GCGCCGGCCA CCTCCGAGCC CACCTCGGCC 
GCCCGCGCGC GGGCAGAGCG GACAGTGCAC TCCCTCCCAC CTGCGGCCGC CGCCGCCGCT 
GGCCCGCCCT CCACCTCTGC CTCTGCCTCC GCCTCCGCCG CGGGCCGGAC CCCACGCGCC 
CGCCCGTGGG TCCAGGCCGG GCGCCCGGCG GGCCGCGGTC ACGCAGTTGG CGCAGGAGGC 
CTACGCCGGC GGCGCAGCGC CCGCCCCCTG CGCTCTCCCC GCCCCCTCCC TCCCTCGCTG 
GGGCCGAGCG AATGTAGCCC GCGAGAGAAA ATGGCGGCGG CGGCGGGGAA TCGCGCCTCG 
TCGTCGGGAT TCCCGGGCGC CCGGGCTGCG AGCCCCGAGG CAGGCGGCGG CGGAGGGGCC 
CTTAAGGCGA GCAGCGCGCC CGCAGCGGCC GCGGGGCTGC TGCGGGAGGC GGGCAGCGGG 
GGCCGCGATC GGGCGGACTG GCGGCGGCGG CAGCTGCGCA AAGTGCGGAG TGTGGAGCTG 
GACCAGCTGC CCGAGCCTCC GCTCTTCCTC GCCGCTTCGC CGCCGTCCTC CTCTACTTCC 
CCGTCACCGG AGCCCGCGGA CTCGGCGGCG GGCGGGTGCA GCTTCCAGCC TGTGGCGGTG 
CCGCCGCCCC ACGGAGCTGC GAGCCGCGGC GGCGCCCACC CTACCGAGCC AGTGGTCGTG 
CGGGACAGCG GCGCCTCGAG TCCCGCAGGG GCCGAGCCCG GGGAGAAGCG GGCGCCCGCC 
GCCGAGCCGA CTCCTGCAGC GTCCCCCTCC GGTCGCGAGA TGGAGAATAA AGAAACTCTC 
AAAGGGTTGC ACAAAATGGA CGATCGCCCA GAGGAACGAA TGATCAGGGA GAAACTGAAG 
GCGACCTGCA TGCCAGCCTG GAAGCATGAG TGGTTGGAAA GGAGAAATAG GCGAGGCCCT 
GTGGTGGTAA AACCAATCCC TATTAAAGGA GATGGATCTG AAATGAATAA CTTGGCAGCT 
GAGTGTCTGG GGGAGGGCCA GGCGAGCACC ACTTCACCAG CCCCCAAAGG CCGACGCAGT 
CCTTCTCCTG GCAGCTCCCC ATCAGGTCGC ACGGTGAAAT CAGAATCTCC GGGAGTAAGG 
AGGAAACGAG TTTCCCCAGT GCCTTTTCAG AGTGGCAGAA TCACACCACC CCGAAGAGCC 
CCGTCACCAG ATGGCTTCTC ACCATACAGC CCTGAGGAAA CAAACCGCCG TGTGAACAAA 
GTGATGCGGG CCAGGCTGTA TCTACTACAG CAAATAGGAC CCAACTCTTT CCTGATTGGA 
GGAGACAGCC CAGACAATAA ATACCGGGTG TTTATAGGGC CTCAGAACTG TAGCTGTGGG 
CGTGGAACAT TTTGTATTCA TCTGCTATTT GTTATGCTCC GGGTGTTTCA ACTAGAACCT 
TCAGACCCAA TGTTATGGAG AAAAACTTTA AAGAATTTTG AGGTTGAGAG TTTGTTCCAG 
AAATATCACA GTAGGCGTAG CTCAAGGATC AAAGCTCCAT CTCGTAACAC CATCCAGAAG 
TTTGTTTCAC GCATGTCAAA TTCTCATACA TTGTCGTCAT CTAGTACTTC TACATCTAGT 
TCAGAAAACA GCATAAAAGA TGAAGAGGAA CAGATGTGTC CTATTTGCTT ATTGGGCATG 
CTTGATGAAG AAAGTCTCAC AGTGTGTGAA GACGGCTGCA GGAACAAGCT GCACCACCAC 
TGCATGTCAA TTTGGGCAGA AGAATGTAGA AGAAATAGAG AGCCTTTAAT ATGTCCCCTT 
TGTAGGTCTA AGTGGAGATC CCATGATTTC TACAGCCATG AGTTGTCAAG CCCTGTGGAT 
TCCCCGTCTT CCCTGAGAGC TGCACAGCAG CAAACTGTAC AGCAGCAGCC TGTGGCTGGA 
CCACAAAGAA GGAGTCAAGA GAGCAATTTT AACCTTACTC ATTATGGAAC TCAGCAAATC 
CCTCCTGCTT ACAAAGATTT AGCTGAACCA TGGATTCAGG TGTTTGGAAT GGAACTCGTT 
GGCTGCTTAT TTTCTAGAAA CTGGAATGTA AGAGAGATGG CCCTCAGGCG TCTTTCCCAC 
GATGTTAGTG GGGCCCTGCT GTTGGCGAAT GGGGAGAGCA CTGGAAATTC TGGGGGCAGC 
GGTGGAAGCA GTCCGAGCGC TGGAGCTGCC AGTGGGTCTT CCCAGACCAG TGTCTCAGGA 
GACGTGGTGG AGGCGTGCTG CAGCGTTTTG TCAATGGTCT GTGCCGACCC TGTCTACAAA 
GTGTACGTTG CTGCTTTAAA AACATTGAGA GCCATGCTGG TGTATACTCC TTGCCACAGT 
TTGGCAGAAA GAATCAGACT TCAGAGACTT CTCCGGCCAG TTGTAGACAC CATCCTAGTC 
AAGTGTGCAG ATGCCAATAG CCGCACAAGT CAGCTGTCCA TATCAACACT GTTGGAGTTG 
TGCAAAGGCC AAGCAGGAGA GTTGGCAGTT GGAAGAGAAA TACTAAAAGC TGGCTCCATT 
GGTATTGGTG GTGTTGATTA TGTCTTAAAT TGTATTCTTG GAAACCAAAC TGAATCAAAC 
AACTGGCAAG AGCTCCTGGG CCGCCTTTGT CTTATAGATA GACTATTGTT GGAGTTTCCT 
GCTGAATTTT ATCCTCATAT TGTCAGTACT GATGTTTCAC AAGCTGAGCC TGTTGAAATC 
AGGTATAAGA AGCTGCTGTC CCTCTTGACC TTTGCTTTGC AGTCCATAGA TAATTCCCAC 
TCAATGGTTG GTAAACTTTC CCGAAGGATC TATTTGAGTT CTGCACGAAT GGTTACCACA 
GTACCCCATG TGTTTTCAAA ACTGTTAGAA ATGCTGAGCG TTTCCAGTTC CACTCACTTC 
ACCAGGATGC GTCGCCGTTT GATGGCTATT GCGGATGAGG TGGAAATCGC CGAGGCCATC 
CAGCTGGGCA TAGAAGACAC TTTGGGTGGT CGACAGGACA GCTTTTTGCA GGCGTCTGTC 
CCTAACAGCT GTCCAGAAAC CACAGAGAAC GGTTCTCTTG AGCACACAGT CCATTTAGAG 
AAAACTGGAA AAGGATTATG TGCTACAAAA TTGAGTGCCA GTTCAGAGGA CATTTCTGAC 
AGACTGGCCA GCATTTCAGT AGGACTTCCT AGTTTAGCAG CAACAACAGA GCAACCAAAG 
CCAATGGTTC AAACAAAAGG CAGGCCCCAC AGTCAGTGTT TGAACTCCTC TCCCTTATCT 
CATCATTCCC AGTTAATATT CCCAGCCAAG TCAGCCTCTT GTACAGCGGC CCCACCTTTG 
CCAGCCAGCA CTGTAACAGA TGTGTCTAAA CATAGACCTC AGGGATTCGT TCCCTGCAAA 
ATACCTTCTG CATCTCCTCA AACACAGCGC AAGTTTTCTC TACAGTTCCA GAGAAACTGT 
CCTGAAAACA AAGACTCGGG TAAACTTTCT CCAATCTTTA CTCAGTCAAG ACCCCTGCCC 
TCCAGTAATA TACACAGGCC AAAGCCATCT CGACCTACCC CAGGCAGTAC AAGTAAACAG 
GGAGATGCCT CAAAAAACAG CATGACACTT GATCTGAACA GTACCAAATG TGATGACAGC 
TTTGGCAGTA GCAATAGTAG TAGTAATGCT ATTATACCCA GTGACGAGAC AGTGTTCACC 
CCGGTAGAGG AGAAATGCAG ATTAGATGTC AATACGGAGC TCAACTCCAG TATTGAGGAC 
CTTCTTGAAG CATCCATGCC TTCAAGTGAT ACAACGGTAA CTTTTAAGTC AGAAGTTGCT 
GTCCTCTCTC CTGAAAAGGC TGAAAATGAT GATACCTACA AAGATGATGT GAATCACAAT 
CAGAAGTGTA AAGAAAAGAT GGAAGCTGAA GAGGAAGAAG CTTTAGCAAT TGCCATGGCA 
ATGTCAGCGT CTCAGGATGC CCTCCCCGTA GTCCCTCAGC TGCAGGTTGA GAATGGAGAA 
GATATCATCA TCATTCAACA GGATACACCA GAGACTCTCC CAGGACATAC CAAAGCAAAA 
CAACCTTACA GAGAAGACAC GGAATGGCTG AAAGGTCAGC AGATAGGCCT TGGAGCATTT 
TCTTCTTGTT ATCAGGCTCA AGATGTGGGA ACTGGAACAT TAATGGCTGT TAAACAGGTG 
ACATATGTCA GAAACACATC TTCTGAACAA GAAGAAGTGG TGGAAGCATT GAGAGAAGAG 
ATAAGAATGA TGAGCCATCT GAATCATCCG AACATCATTA GGATGTTGGG AGCCACGTGT 
GAGAAGAGCA ATTATAATCT CTTCATTGAG TGGATGGCAG GGGGATCTGT GGCCCATTTG 
CTGAGTAAAT ATGGAGCCTT CAAAGAATCA GTAGTTATTA ACTATACTGA ACAATTACTT 
CGTGGCCTTT CATATCTCCA TGAAAACCAG ATCATTCACA GAGATGTCAA AGGTGCCAAT 
TTGCTAATTG ACAGCACAGG TCAGAGACTA AGAATTGCAG ATTTTGGAGC TGCCGCCAGG 
TTGGCGTCAA AAGGAACTGG TGCAGGAGAG TTTCAGGGCC AGTTATTGGG GACAATTGCG 
TTTATGGCAC CTGAGGTACT AAGAGGTCAA CAGTATGGTA GGAGCTGTGA CGTGTGGAGT 
GTTGGCTGTG CCATTATAGA AATGGCTTGT GCAAAACCAC CTTGGAATGC AGAAAAACAC 
TCCAATCATC TTGCTTTGAT ATTTAAGATT GCTAGTGCAA CTACTGCTCC ATCAATCCCT 
TCACATCTGT CTCCCGGTCT ACGAGATGTG GCTCTGCGTT GTTTAGAACT TCAACCTCAG 
GACAGACCTC CGTCAAGAGA GCTACTGAAG CATCCAGTCT TCCGTACCAC ATGGTAG