Phlpp1 cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Phlpp1
Entrez Gene ID	98432
Full Name	PH domain and leucine rich repeat protein phosphatase 1
Synonyms	AI836256,Phlpp,Plekhe1,SCOP,mKIAA0606
General protein information	Preferred Names PH domain and leucine rich repeat protein phosphatase 1 Names PH domain leucine-rich repeat-containing protein phosphatase 1 PH domain-containing family E member 1 pleckstrin homology domain containing, family E (with leucine rich repeats) member 1 pleckstrin homology domain-containing family E member 1 suprachiasmatic nucleus circadian oscillatory protein
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 1 Map Location: 1\|1 E2.1

mRNA and Protein(s)

mRNA	Protein	Name
NM_133821.3	NP_598582.3	PH domain leucine-rich repeat-containing protein phosphatase 1

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	PHLPP1	XP_523952.2
Rattus norvegicus (Norway rat)	Phlpp1	NP_067689.1
Mus musculus (house mouse)	Phlpp1	NP_598582.3
Canis lupus familiaris (dog)	PHLPP1	XP_005615724.1
Bos taurus (cattle)	PHLPP1	XP_002707832.2
Xenopus tropicalis (tropical clawed frog)	LOC100497530	XP_004915365.1
Homo sapiens (human)	PHLPP1	NP_919431.2
	PHLPP1	XP_001094216.1
Gallus gallus (chicken)	PHLPP1	XP_418990.4

Gene Ontology

The following Phlpp1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Phlpp1 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
OMu19647	NM_133821.3 Latest version!	Mus musculus PH domain and leucine rich repeat protein phosphatase 1 (Phlpp1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$1238.30 $1769.00

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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)

Phlpp1 ( NM_133821.3 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_598582.3 Mus musculus PH domain and leucine rich repeat protein phosphatase 1 (Phlpp1), mRNA.

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CloneID	OMu19647
Clone ID Related Accession (Same CDS sequence)	NM_133821.3
Accession Version	NM_133821.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5064bp) 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	2019-10-28
Organism	Mus musculus(house mouse)
Product	PH domain leucine-rich repeat-containing protein phosphatase 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC124710.4, BC059254.1, CN525246.1 and CF535385.1. On Sep 9, 2009 this sequence version replaced NM_133821.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB093251.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN00849374, SAMN00849375 [ECO:0000348] ##Evidence-Data-END##

ATGGAGCCCG CCGCTGCAGC CCCGGCACAG CGACTCGCGG ACCCCACGGG TGAGGACCAA 
GCCCTGGCGG CGGCGGCGGC CGAGGGCGGC CGGTGTCCGG ATCCCGCGCT GAGCGCGGCG 
GCCCCGAGCG GCGGGAACGG CGGCGCGGCG CGAGAGGAGG CCCCCTGCGA GGCGCCGCCG 
GGGCCGCTGC CCGGCCGCGC CGGAGGCACC GGGCGCAGGC GGCGGCGGGG AGCTCCCCAG 
CCCGCGGCCG GTGGGGCCGC TCCGGTGCCC GCGGCCGGCG GCGGCGCCAA CTCGCTGCTG 
CTGAAGAGAG GGCGGCTGAA GAGGAATCTG TCGGCCGCCG CCGCCGCCTC GTCGTCCTCG 
TCGCCGTCCT CGGCGTCTTC GGCCGCTGGC GGCCTCCCGG CGTCCTGCTC GGCCTCGGCG 
TCGCTGTGCA CCCGGAGCCT GGACAGGAAG ACGCTGCTCC TGAAGCACCG GCAGCTGCTT 
CAGCTGCAGC CGTCGGACAG GGACTGGGTG AGGCACCAGC TCCAGCGGGG CTGTGTGCAC 
GTCTTTGACC GCCACATGGC CTCGTCCTAC CTGCGCCCAG TGCTCTGCAC GCTGGACACC 
ACGGCCGCCG AGGTGGCGGC CCGGCTTCTG CAGCTGGGCC ACAAAGGCGG CGGGGTGGTG 
AAGGTGCTGG GCTACGGGCC GCCTCCCGCC GCCGCCCCTG CCGCCAGCGA TCAGACCCTG 
GACGGAGAGC ACGGAAGGGA CGTGGAGCCA CCGCCCTCGA GCGGCACTGT TGGTGCTGTC 
CGGGGCCCTG CGCGCGCGCC TCCCGCCGAT CTGCCGCTGC CCGGGGGCGC CTGGACGCGC 
TGTGCACCCC GCATCAGCCC CGCGCCTTCG GACTCCAGCC CCGGAGAGCT GTTCGCGGGC 
GGCCCCGGGT CCCCTCCCCG CGCCCCGCGC CCGGCCTCTG ACACCGAGAG CTTCAGCCTG 
AGCCCCAGCG CCGAGAGCGT GTCAGACCGG CTGGACCCCT ACAGCAGCGG CGGCGGCGGC 
TCCTCGTCGT CGTCGGAGGA GTTAGAGGCT GATCCGGCCA TGCCCCACCG CCCCGGCCGC 
CCCGCGCAGC CTCGGCCGCC TTCCCCGAAG ACCTCGGCTT TACTGCAGCC GAAAGCCCCG 
ACGGGCGTAG ACAGCACTGG CGTGATAGCG GGCGAGGGTC CCGGAGACGA TAAGGCGATG 
GCAGCCGCAG CTCCGGACGT TCCTCTGTCG ACTTCGGGGA GGATACGGGA GACCGTGCAA 
AAGACATCTC CGCCCTCCCT GTATGTACAG CTCCATGGAG AGACTACCCG GCGCCTGGAG 
GCGGACGAGA AGCCATTGCA GATCCAAAAT GACTACCTCT TCCAACTGGG ATTTGGGGAG 
CTGTGGAGGG TGCAGGAGGA AGGCATGGAC TCAGAGATTG GCTGTCTCAT TCGATTCTAT 
GCAGGAAAGC CTCATAGCAC TGGGAGCTCT GAGCGGATTC AGCTCTCCGG AATGTACAAT 
GTCCGAAAAG GCAAAATGCA GTTGCCAGTG AACCGATGGA CAAGACGACA GGTCATTCTG 
TGCGGGACGT GCTTGATAGT GTCGTCCGTG AAAGACAGCG TGAGTGGGAA GATGCATGTC 
CTGCCCCTCA TTGGTGGAAA AGTGGAGGAA GTGAAAAAGC ACCAGCACTG TTTAGCGTTC 
AGCTCTTCGG GGCCTCAAAG CCAGACTTAC TACATCTGCT TTGATACTTT CACGGAGTAC 
TTACGGTGGC TGCGGCAAGT CTCCAAGGTT GCATCACAGC GTATAAGCTC AGTAGACCTC 
TCCTGTTGTA GCCTTGAACA TCTGCCTGCC AACCTCTTTT ACAGCCAAGA CCTTACTCAT 
CTCAACTTAA AACAGAACTT CCTAAGGCAA ACCCCCACCC TCCCAGCTGC CAGAGGACTT 
GGTGAACTGC AAAGGTTCAC CAAATTGAAG AGCCTTAACC TTTCCAATAA CCACCTAGGA 
GCCTTTCCGT CAGCAGTCTG CAGCATTCCA ACCCTAGCAG AGCTGAATGT ATCTTGCAAT 
GCCCTGCGAG AAGTCCCAGC AGCTGTTGGA GATATGCAGA ACTTGCAGAC GTTTCTGCTG 
GATGGAAATT TTCTCCAGTC CCTTCCTGCT GAACTGGAGA GCATGCACCA GCTCAGCTAT 
CTGGGTCTTT CCTTTAATGA ATTCACTGAC ATTCCAGAGG TATTGGAGAA GCTGACTGCT 
GTGGATAAGC TGTGTATGGC TGGGAACTGT GTGGAGACCC TCAGACTACA GGCCTTAAGA 
AGAATGCCTC ATATTAAACA TGTGGACCTA AGACTGAACA TACTCAGAAA GCTTATGGCA 
GATGAGGTGG ACTTTGTGCA ACATGTCACT CAGCTTGACC TGCGAGACAA TAAGCTTGGT 
GATCTAGATG CTATGATCTT CAACAACATA GAAGTTCTGC ACTGTGAGAG GAATCAGCTG 
GTGACATTGA ACGTTTGTGG CTATTTCCTA AAGGCACTCT ATGCTTCTTC TAATGAACTT 
GCTCAACTTG ATGTCTACCC AGTTCCGAAT TATCTCTCTT ACATGGATGT CTCAAGAAAC 
TGCCTAGAAA GTGTGCCTGA GTGGGTATGT GAAAGCCGGA AATTAGAAGT TTTGGATATT 
GGCCATAATC AAATATGTGA ACTTCCTGCC CGCCTGTTTT GTAATAGTAG TCTCCGGAAA 
TTGCTAGCAG GACACAACCG GTTGGCAAGG CTTCCTGAAA GGCTGGAGAG AACTTCTGTG 
GAGGTCTTGG ATGTCCAGCA CAACCAGATC ACTGAGCTCC CACCAAACCT CCTCATGAAG 
GCTGACAGCC TGAGATTCCT GAATGCATCT GCAAACAAAC TGGAAACCCT GCCTCCAGCC 
ACACTTTCTG AGGAGACGAG CAGTATATTA CAGGAGTTGT ACCTGACAAA CAACTGCCTC 
ACGGATAAGT GTGTGCCCTT GTTAACAGGG CACCCCCGTC TGAAGATCCT ACACATGGCC 
TATAACCGGC TTCAGAGCTT CCCGGCAAGT AAAATGGCAA AACTGGAGGA ACTTGAAGAA 
ATTGATATCA GTGGGAATAA GCTGAAAGCC ATCCCCACAA CAATCATGAA CTGCAGACGC 
ATGCACACCG TGATTGCTCA CTCCAATTGT ATCGAAGTCT TTCCTGAAGT TATGCAGCTC 
CCAGAAGTCA AGTGTGTAGA TCTGAGCTGT AATGAGCTGA GTGAAATCAC GTTACCAGAA 
AACCTGCCAC CTAAGCTGCA GGAGCTAGAC CTGACTGGAA ATCCACGCCT TGCCCTGGAC 
CACAAAAGCC TGGAGCTGCT CAATAACATT CGCTGCTTCA AGATTGACCA GCCGTCAGCA 
GGAGATGCAT CAGGAGCCCC AGCAGTATGG AGTCATGGTT ACACTGAAGC ATCGGGAGTA 
AAAAACAAGC TGTGTGTCGC AGCCCTGTCT GTAAATAACT TCCGTGACAA CCGAGAGGCC 
CTCTATGGTG TGTTTGATGG AGACCGGAAT GTGGAGGTGC CCTACCTTCT CCAGTGCACC 
ATGAGTGACA TTTTGGCTGA AGAGCTTCAG AAAACGAAAA ATGAAGAAGA ATACATGGTC 
AATACATTCA TAGTCATGCA AAGGAAACTG GGAACTGCTG GGCAGAAACT TGGTGGTGCT 
GCTGTCCTCT GCCACATCAA GCCTGACCCT GTGGACCTGG GAGGATCCTT TACCCTGACC 
TCTGCTAATG TTGGCAAGTG CCAAACGGTT CTCTGTCGAA ATGGGAAGCC ACTGTCTCTG 
TCCAGGTCAT ACATCATGAG CTGTGAAGAA GAGCGGAAGA GGATTAAGCA GCACAAAGCC 
ATCATCACTG AGGATGGCAA GGTCAATGGA GTGACAGAGT CCACGCGCAT CCTGGGCTAC 
ACCTTCCTCC ATCCCAGTGT GGTGCCTCGC CCCCATGTGC AGTCGGTGCT TCTGACTCCA 
CAGGATGAGT TTTTCATCCT GGGCAGCAAA GGGCTGTGGG ACAGCCTATC CATTGACGAG 
GCTGTGGAAG CTGTACGCAA TGTGCCAGAT GCTCTGGCTG CTGCTAAGAA GCTCTGCACC 
CTGGCTCAGA GCTATGGCTG CCATGACAGC ATCAGTGCTG TGGTGGTACA GCTAAGTGTC 
ACCGAAGACA GCTTCTGCTG CTGTGAGCTC AGTGCTGGAG GGAGCATGCC ACCACCCAGC 
CCCGGAATCT TCCCACCATC CGTCAACATG GTCATCAAGG ACCGACCCTC AGATGGGCTG 
GGTGTGCCAT CCTCCAGCAG TGGCATGGCA TCTGAGATCA GCAGTGAACT GTCTACCTCC 
GAGATGAGTA GTGAGGTGGG CTCCACAGCC TCTGATGAGC CCCCGTCTGG AGTCCTGAAT 
GAGAGCAGCC CTGCCTACCC CAACGAGCAG CGCTGCATGC TCCACCCTGT CTGCCTGTCT 
AACTCCTTCC AACGTCAGCT GTCCAGCGCT ACTTTCTCCA GCGCGTTCTC TGACAACGGC 
CTTGACAGTG ACGATGAAGA ACCCATTGAG GGGGTGTTCA GCAACGGCAG CCGGGTTGAG 
GTGGAAGTAG ACATCCACTG CAGCAGGGCC AAGGAAAAGG AGAGACAGCA GCACCTACTT 
CAGGTGCCAG CTGAGGCCAG TGATGAGGGC ATTGTCATCA GTGCCAATGA GGATGAGTCA 
GGTCTGTCCA AGAAGGCAGA CTTTTCTGCT GTGGGAACCA TTGGACGACG CAGGGCTAAT 
GGCTCTGTAG CTCCCCAGGA AAGGAGCCAT AATGTGATAG AGGTTGCTGC AGATGCGCCT 
CTCCGGAAGC CAGGAGGCTA TTTTGCAGCC CCTGCTCAGC CAGATCCAGA TGATCAGTTT 
ATCATCCCCC CAGAGCTGGA AGAGGAAGTC AAAGAAATCA TGAAACATCA CCAGGAGCAG 
CAGCAGCAGC AGCAGCAGCA GCAGCTGCCA CCACCACCCC AGCCGCCACA GCCACAGCCA 
CAGCCACAGC CACAGCCACA GCCACAGCCA CAGCGGCACT TCCAAATGGA TCACCTGCCA 
GACTGTTACG ATACACCGCT ATGA

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

RefSeq	NP_598582.3
CDS	136..5199
Translation	MEPAAAAPAQRLADPTGEDQALAAAAAEGGRCPDPALSAAAPSGGNGGAAREEAPCEAPPGPLPGRAGGTGRRRRRGAPQPAAGGAAPVPAAGGGANSLLLKRGRLKRNLSAAAAASSSSSPSSASSAAGGLPASCSASASLCTRSLDRKTLLLKHRQLLQLQPSDRDWVRHQLQRGCVHVFDRHMASSYLRPVLCTLDTTAAEVAARLLQLGHKGGGVVKVLGYGPPPAAAPAASDQTLDGEHGRDVEPPPSSGTVGAVRGPARAPPADLPLPGGAWTRCAPRISPAPSDSSPGELFAGGPGSPPRAPRPASDTESFSLSPSAESVSDRLDPYSSGGGGSSSSSEELEADPAMPHRPGRPAQPRPPSPKTSALLQPKAPTGVDSTGVIAGEGPGDDKAMAAAAPDVPLSTSGRIRETVQKTSPPSLYVQLHGETTRRLEADEKPLQIQNDYLFQLGFGELWRVQEEGMDSEIGCLIRFYAGKPHSTGSSERIQLSGMYNVRKGKMQLPVNRWTRRQVILCGTCLIVSSVKDSVSGKMHVLPLIGGKVEEVKKHQHCLAFSSSGPQSQTYYICFDTFTEYLRWLRQVSKVASQRISSVDLSCCSLEHLPANLFYSQDLTHLNLKQNFLRQTPTLPAARGLGELQRFTKLKSLNLSNNHLGAFPSAVCSIPTLAELNVSCNALREVPAAVGDMQNLQTFLLDGNFLQSLPAELESMHQLSYLGLSFNEFTDIPEVLEKLTAVDKLCMAGNCVETLRLQALRRMPHIKHVDLRLNILRKLMADEVDFVQHVTQLDLRDNKLGDLDAMIFNNIEVLHCERNQLVTLNVCGYFLKALYASSNELAQLDVYPVPNYLSYMDVSRNCLESVPEWVCESRKLEVLDIGHNQICELPARLFCNSSLRKLLAGHNRLARLPERLERTSVEVLDVQHNQITELPPNLLMKADSLRFLNASANKLETLPPATLSEETSSILQELYLTNNCLTDKCVPLLTGHPRLKILHMAYNRLQSFPASKMAKLEELEEIDISGNKLKAIPTTIMNCRRMHTVIAHSNCIEVFPEVMQLPEVKCVDLSCNELSEITLPENLPPKLQELDLTGNPRLALDHKSLELLNNIRCFKIDQPSAGDASGAPAVWSHGYTEASGVKNKLCVAALSVNNFRDNREALYGVFDGDRNVEVPYLLQCTMSDILAEELQKTKNEEEYMVNTFIVMQRKLGTAGQKLGGAAVLCHIKPDPVDLGGSFTLTSANVGKCQTVLCRNGKPLSLSRSYIMSCEEERKRIKQHKAIITEDGKVNGVTESTRILGYTFLHPSVVPRPHVQSVLLTPQDEFFILGSKGLWDSLSIDEAVEAVRNVPDALAAAKKLCTLAQSYGCHDSISAVVVQLSVTEDSFCCCELSAGGSMPPPSPGIFPPSVNMVIKDRPSDGLGVPSSSSGMASEISSELSTSEMSSEVGSTASDEPPSGVLNESSPAYPNEQRCMLHPVCLSNSFQRQLSSATFSSAFSDNGLDSDDEEPIEGVFSNGSRVEVEVDIHCSRAKEKERQQHLLQVPAEASDEGIVISANEDESGLSKKADFSAVGTIGRRRANGSVAPQERSHNVIEVAADAPLRKPGGYFAAPAQPDPDDQFIIPPELEEEVKEIMKHHQEQQQQQQQQQLPPPPQPPQPQPQPQPQPQPQPQRHFQMDHLPDCYDTPL

Target ORF information:

RefSeq Version	NM_133821.3
Organism	Mus musculus(house mouse)
Definition	Mus musculus PH domain and leucine rich repeat protein phosphatase 1 (Phlpp1), mRNA.

Target ORF information:

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

NM_133821.3

ORF Insert Sequence:

ATGGAGCCCG CCGCTGCAGC CCCGGCACAG CGACTCGCGG ACCCCACGGG TGAGGACCAA 
GCCCTGGCGG CGGCGGCGGC CGAGGGCGGC CGGTGTCCGG ATCCCGCGCT GAGCGCGGCG 
GCCCCGAGCG GCGGGAACGG CGGCGCGGCG CGAGAGGAGG CCCCCTGCGA GGCGCCGCCG 
GGGCCGCTGC CCGGCCGCGC CGGAGGCACC GGGCGCAGGC GGCGGCGGGG AGCTCCCCAG 
CCCGCGGCCG GTGGGGCCGC TCCGGTGCCC GCGGCCGGCG GCGGCGCCAA CTCGCTGCTG 
CTGAAGAGAG GGCGGCTGAA GAGGAATCTG TCGGCCGCCG CCGCCGCCTC GTCGTCCTCG 
TCGCCGTCCT CGGCGTCTTC GGCCGCTGGC GGCCTCCCGG CGTCCTGCTC GGCCTCGGCG 
TCGCTGTGCA CCCGGAGCCT GGACAGGAAG ACGCTGCTCC TGAAGCACCG GCAGCTGCTT 
CAGCTGCAGC CGTCGGACAG GGACTGGGTG AGGCACCAGC TCCAGCGGGG CTGTGTGCAC 
GTCTTTGACC GCCACATGGC CTCGTCCTAC CTGCGCCCAG TGCTCTGCAC GCTGGACACC 
ACGGCCGCCG AGGTGGCGGC CCGGCTTCTG CAGCTGGGCC ACAAAGGCGG CGGGGTGGTG 
AAGGTGCTGG GCTACGGGCC GCCTCCCGCC GCCGCCCCTG CCGCCAGCGA TCAGACCCTG 
GACGGAGAGC ACGGAAGGGA CGTGGAGCCA CCGCCCTCGA GCGGCACTGT TGGTGCTGTC 
CGGGGCCCTG CGCGCGCGCC TCCCGCCGAT CTGCCGCTGC CCGGGGGCGC CTGGACGCGC 
TGTGCACCCC GCATCAGCCC CGCGCCTTCG GACTCCAGCC CCGGAGAGCT GTTCGCGGGC 
GGCCCCGGGT CCCCTCCCCG CGCCCCGCGC CCGGCCTCTG ACACCGAGAG CTTCAGCCTG 
AGCCCCAGCG CCGAGAGCGT GTCAGACCGG CTGGACCCCT ACAGCAGCGG CGGCGGCGGC 
TCCTCGTCGT CGTCGGAGGA GTTAGAGGCT GATCCGGCCA TGCCCCACCG CCCCGGCCGC 
CCCGCGCAGC CTCGGCCGCC TTCCCCGAAG ACCTCGGCTT TACTGCAGCC GAAAGCCCCG 
ACGGGCGTAG ACAGCACTGG CGTGATAGCG GGCGAGGGTC CCGGAGACGA TAAGGCGATG 
GCAGCCGCAG CTCCGGACGT TCCTCTGTCG ACTTCGGGGA GGATACGGGA GACCGTGCAA 
AAGACATCTC CGCCCTCCCT GTATGTACAG CTCCATGGAG AGACTACCCG GCGCCTGGAG 
GCGGACGAGA AGCCATTGCA GATCCAAAAT GACTACCTCT TCCAACTGGG ATTTGGGGAG 
CTGTGGAGGG TGCAGGAGGA AGGCATGGAC TCAGAGATTG GCTGTCTCAT TCGATTCTAT 
GCAGGAAAGC CTCATAGCAC TGGGAGCTCT GAGCGGATTC AGCTCTCCGG AATGTACAAT 
GTCCGAAAAG GCAAAATGCA GTTGCCAGTG AACCGATGGA CAAGACGACA GGTCATTCTG 
TGCGGGACGT GCTTGATAGT GTCGTCCGTG AAAGACAGCG TGAGTGGGAA GATGCATGTC 
CTGCCCCTCA TTGGTGGAAA AGTGGAGGAA GTGAAAAAGC ACCAGCACTG TTTAGCGTTC 
AGCTCTTCGG GGCCTCAAAG CCAGACTTAC TACATCTGCT TTGATACTTT CACGGAGTAC 
TTACGGTGGC TGCGGCAAGT CTCCAAGGTT GCATCACAGC GTATAAGCTC AGTAGACCTC 
TCCTGTTGTA GCCTTGAACA TCTGCCTGCC AACCTCTTTT ACAGCCAAGA CCTTACTCAT 
CTCAACTTAA AACAGAACTT CCTAAGGCAA ACCCCCACCC TCCCAGCTGC CAGAGGACTT 
GGTGAACTGC AAAGGTTCAC CAAATTGAAG AGCCTTAACC TTTCCAATAA CCACCTAGGA 
GCCTTTCCGT CAGCAGTCTG CAGCATTCCA ACCCTAGCAG AGCTGAATGT ATCTTGCAAT 
GCCCTGCGAG AAGTCCCAGC AGCTGTTGGA GATATGCAGA ACTTGCAGAC GTTTCTGCTG 
GATGGAAATT TTCTCCAGTC CCTTCCTGCT GAACTGGAGA GCATGCACCA GCTCAGCTAT 
CTGGGTCTTT CCTTTAATGA ATTCACTGAC ATTCCAGAGG TATTGGAGAA GCTGACTGCT 
GTGGATAAGC TGTGTATGGC TGGGAACTGT GTGGAGACCC TCAGACTACA GGCCTTAAGA 
AGAATGCCTC ATATTAAACA TGTGGACCTA AGACTGAACA TACTCAGAAA GCTTATGGCA 
GATGAGGTGG ACTTTGTGCA ACATGTCACT CAGCTTGACC TGCGAGACAA TAAGCTTGGT 
GATCTAGATG CTATGATCTT CAACAACATA GAAGTTCTGC ACTGTGAGAG GAATCAGCTG 
GTGACATTGA ACGTTTGTGG CTATTTCCTA AAGGCACTCT ATGCTTCTTC TAATGAACTT 
GCTCAACTTG ATGTCTACCC AGTTCCGAAT TATCTCTCTT ACATGGATGT CTCAAGAAAC 
TGCCTAGAAA GTGTGCCTGA GTGGGTATGT GAAAGCCGGA AATTAGAAGT TTTGGATATT 
GGCCATAATC AAATATGTGA ACTTCCTGCC CGCCTGTTTT GTAATAGTAG TCTCCGGAAA 
TTGCTAGCAG GACACAACCG GTTGGCAAGG CTTCCTGAAA GGCTGGAGAG AACTTCTGTG 
GAGGTCTTGG ATGTCCAGCA CAACCAGATC ACTGAGCTCC CACCAAACCT CCTCATGAAG 
GCTGACAGCC TGAGATTCCT GAATGCATCT GCAAACAAAC TGGAAACCCT GCCTCCAGCC 
ACACTTTCTG AGGAGACGAG CAGTATATTA CAGGAGTTGT ACCTGACAAA CAACTGCCTC 
ACGGATAAGT GTGTGCCCTT GTTAACAGGG CACCCCCGTC TGAAGATCCT ACACATGGCC 
TATAACCGGC TTCAGAGCTT CCCGGCAAGT AAAATGGCAA AACTGGAGGA ACTTGAAGAA 
ATTGATATCA GTGGGAATAA GCTGAAAGCC ATCCCCACAA CAATCATGAA CTGCAGACGC 
ATGCACACCG TGATTGCTCA CTCCAATTGT ATCGAAGTCT TTCCTGAAGT TATGCAGCTC 
CCAGAAGTCA AGTGTGTAGA TCTGAGCTGT AATGAGCTGA GTGAAATCAC GTTACCAGAA 
AACCTGCCAC CTAAGCTGCA GGAGCTAGAC CTGACTGGAA ATCCACGCCT TGCCCTGGAC 
CACAAAAGCC TGGAGCTGCT CAATAACATT CGCTGCTTCA AGATTGACCA GCCGTCAGCA 
GGAGATGCAT CAGGAGCCCC AGCAGTATGG AGTCATGGTT ACACTGAAGC ATCGGGAGTA 
AAAAACAAGC TGTGTGTCGC AGCCCTGTCT GTAAATAACT TCCGTGACAA CCGAGAGGCC 
CTCTATGGTG TGTTTGATGG AGACCGGAAT GTGGAGGTGC CCTACCTTCT CCAGTGCACC 
ATGAGTGACA TTTTGGCTGA AGAGCTTCAG AAAACGAAAA ATGAAGAAGA ATACATGGTC 
AATACATTCA TAGTCATGCA AAGGAAACTG GGAACTGCTG GGCAGAAACT TGGTGGTGCT 
GCTGTCCTCT GCCACATCAA GCCTGACCCT GTGGACCTGG GAGGATCCTT TACCCTGACC 
TCTGCTAATG TTGGCAAGTG CCAAACGGTT CTCTGTCGAA ATGGGAAGCC ACTGTCTCTG 
TCCAGGTCAT ACATCATGAG CTGTGAAGAA GAGCGGAAGA GGATTAAGCA GCACAAAGCC 
ATCATCACTG AGGATGGCAA GGTCAATGGA GTGACAGAGT CCACGCGCAT CCTGGGCTAC 
ACCTTCCTCC ATCCCAGTGT GGTGCCTCGC CCCCATGTGC AGTCGGTGCT TCTGACTCCA 
CAGGATGAGT TTTTCATCCT GGGCAGCAAA GGGCTGTGGG ACAGCCTATC CATTGACGAG 
GCTGTGGAAG CTGTACGCAA TGTGCCAGAT GCTCTGGCTG CTGCTAAGAA GCTCTGCACC 
CTGGCTCAGA GCTATGGCTG CCATGACAGC ATCAGTGCTG TGGTGGTACA GCTAAGTGTC 
ACCGAAGACA GCTTCTGCTG CTGTGAGCTC AGTGCTGGAG GGAGCATGCC ACCACCCAGC 
CCCGGAATCT TCCCACCATC CGTCAACATG GTCATCAAGG ACCGACCCTC AGATGGGCTG 
GGTGTGCCAT CCTCCAGCAG TGGCATGGCA TCTGAGATCA GCAGTGAACT GTCTACCTCC 
GAGATGAGTA GTGAGGTGGG CTCCACAGCC TCTGATGAGC CCCCGTCTGG AGTCCTGAAT 
GAGAGCAGCC CTGCCTACCC CAACGAGCAG CGCTGCATGC TCCACCCTGT CTGCCTGTCT 
AACTCCTTCC AACGTCAGCT GTCCAGCGCT ACTTTCTCCA GCGCGTTCTC TGACAACGGC 
CTTGACAGTG ACGATGAAGA ACCCATTGAG GGGGTGTTCA GCAACGGCAG CCGGGTTGAG 
GTGGAAGTAG ACATCCACTG CAGCAGGGCC AAGGAAAAGG AGAGACAGCA GCACCTACTT 
CAGGTGCCAG CTGAGGCCAG TGATGAGGGC ATTGTCATCA GTGCCAATGA GGATGAGTCA 
GGTCTGTCCA AGAAGGCAGA CTTTTCTGCT GTGGGAACCA TTGGACGACG CAGGGCTAAT 
GGCTCTGTAG CTCCCCAGGA AAGGAGCCAT AATGTGATAG AGGTTGCTGC AGATGCGCCT 
CTCCGGAAGC CAGGAGGCTA TTTTGCAGCC CCTGCTCAGC CAGATCCAGA TGATCAGTTT 
ATCATCCCCC CAGAGCTGGA AGAGGAAGTC AAAGAAATCA TGAAACATCA CCAGGAGCAG 
CAGCAGCAGC AGCAGCAGCA GCAGCTGCCA CCACCACCCC AGCCGCCACA GCCACAGCCA 
CAGCCACAGC CACAGCCACA GCCACAGCCA CAGCGGCACT TCCAAATGGA TCACCTGCCA 
GACTGTTACG ATACACCGCT ATGA