LOC106129326 cDNA ORF clone, Amyelois transitella

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106129326
Entrez Gene ID	106129326
Full Name	uncharacterized LOC106129326
Gene Type	protein-coding
Organism	Amyelois transitella

mRNA and Protein(s)

mRNA	Protein	Name
XM_013327853.1	XP_013183307.1	uncharacterized protein LOC106129326

Pathways from BioSystems
Gene Ontology

The following LOC106129326 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106129326 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
OAm58747	XM_013327853.1 Latest version!	Amyelois transitella uncharacterized LOC106129326 (LOC106129326), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

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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)

LOC106129326 ( XM_013327853.1 ) cDNA ORF clone, Amyelois transitella -> XP_013183307.1 Amyelois transitella uncharacterized LOC106129326 (LOC106129326), mRNA.

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CloneID	OAm58747
Clone ID Related Accession (Same CDS sequence)	XM_013327853.1
Accession Version	XM_013327853.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4857bp) 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	2015-08-05
Organism	Amyelois transitella
Product	uncharacterized protein LOC106129326
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535357.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 73% of CDS bases ##RefSeq-Attributes-END##

ATGACTCCTT TTATTCTGAT CACTATCTTC TTGGTCGCTA CCAATTATGG GGCTTCCATG 
GAAGAGATCC AGCAAAAGAG CCCTAACTGT GCTGCCCGGT ATGGGTTCTC TCCGGTGGAG 
GGAAGCTGCG ACTCCTACAT CGAGTGTATG GATTTCCAAC CGAAGCACTT GCAATGTCCC 
GACGGGCTTC ACTACGACCC TGAAGTAGTA TGGCCTGCAT ACCCTTGTGG ATACCCATCG 
GAAGTTGTTT GCCAGGGACG CGGTTCTCCT CAGCCAGCTA AAGCAACAGC TGAATGCCCG 
CACCAATACG GCTTCTTCCC GTCCCCGAAG GCTTCCTCCA GCGAATGTGG ATTCTACCAC 
AGATGTGTGG AAGGCAAGGC ACTAGAGATG CAGTGCCCAC CCGGACTGGC TTTCAACCCT 
GAGACCGCCC GCTGTGATTG GCCTGACCTA GTGGCTTCTT GTAACGCTGA TGAATTCTTA 
GGATTCAAAT GTCCAGCTGG TCCTTTAGAC GAGAACAATA AGCCTTTGGA TACTGTTATC 
AACTACAAGT ACGAAGGAAA CTGCTTCGCG TTCTACTCGT GCATCCACGG CAACGCTCGC 
CTGCTGACCT GCGACCCTGG GTTCGGGTTC GACCCCAGCT CTGGCAGCTG CAAACCATCA 
GACAAAATCA ACTGCGAGAA TCCGAGGCGT CCCGCAAGTA AAACCTCCAA AATGGTCAAA 
GCACTAGAAA TATACAATGA CGGCCGGGAT ATGGAGCAAT CTTGGTATAG AGACTGGAGA 
AAACCGGTTA CAATACACCC AGCTAAAAAC AACCAAAGAA CACTTTTGAG TACACCACCC 
CCATTATCAA TTAATGAGGA GCCTTCAACA ACAAGAATGC CCGAACATAG TATACTAGAA 
ATTACTAATT CTTCAATAGA CAAGCCAGGA AAACTTTATG AAATGGAAGA ACTGCATAGC 
AGCTCTATAA GTCCTATTCA GACCCTTATT GAGATACCAT CTTCAACAAC TCCAACAATA 
CTAACCACGA CAGAAGAACT TCTTGTTGAA ACAAAGCCTA GTCATCGTAT GTTCAACTTT 
GGAGTTCAAG AAGCTTCCCA AAAACCTACA GATCTCGCCA AAGAATCAAC AAGTGCTGTA 
TCTTGGAATC CTGAAAGAAT TTCAGAATTC CAACTACCTT CTAGTTCGCA AGAGTTACCA 
GCAATAATTA AATCACAGGA ACCAGTGCTA GAAACAAAGC CTGTCATACA TCATACTTTC 
ACATTTGAAT CCAGCCACCT TTCTTATCCA GAAGTCGAGC TAAGTAAAAC TACACCCAGT 
AAACTCTACT GGTTTCCTGA AATCATTGCA AAAACAGAAC CGCCCTCAAT GCTCACAACA 
GAAATTTCTT TGTCTGGAAT AAAACCTGAT TCCAAATCTG TCGATTTTGG AGCACCCCCA 
CCTTCTTACA GAGAAATGGA ACTACCCAAA ACATCATCTA GTAAAATATC TTGGGTTCCA 
GAAATCATAG TTAAATCTAA AACATCTATC GATCTAGCAA TTTCATCTAC TATATCTCCA 
ACAGAAAAAC CTATACTCGA AATGGAATCA ACACAAAACA CTTTAAATTT TAAACCAACA 
CAGGTCGAGT TCAACACGGA AAGAGAACAA CCCAAAGAAA CCACGTCTTT AACTTCTTCT 
GATATTGTTG TTGAATCTTT AACTTTGCAA ACTTCTCCAG ATATGTTCAA AGAGGGACAA 
TCACCTACCC TAGGAGTCAG CCAAGTCATT TCGTACATGA ATTCAGAAAT CCCACCAAGT 
CCAAGAACAT CCAATCCTGA AATTATAACA GAATCTATGA CAACAATACC TGACTTAAAT 
AAAGAAAGAA CACAGCCTGC TTTTGAAACG GAGCTCAAAT ATCGCACTTT CAACTTCGGG 
TCAATTTCAC CTGATTTCAC AACATCTATC ACTCACCCAA CTGAATTAGT ATCTGAACAA 
GAATCCTACC ATACTGAAAC TTTGGCTATT ACAGAAATTC CTCGAAATAC TGAATTACAT 
ACACTAGAGT CCAAAATACC TGCATCGATC CTTAGTGATA AAAATGGTAA GTATGCCACG 
GAGATTGAAT TTGGAGCTCC ACCAACGCTA ATTGAAAATT CACCCGGTTT TATAGTATAC 
AGATTAGAAC AACCTCTATT ACCGCAAAAT CTCGTTAATA ATTTCGTATC TTCGGCTCAT 
CCACAAGAAT TCAAATGTCA AGCGAAAAAT GGATACTACG AGGTAGTGAG CAACTGTGAC 
AAGTTCGTCG AATGCAAGGA TAATGTTCTA AAATTATATC AGTGCTCTAA CAATCTTCAC 
TTTAACCGTA AAGCAGTTTG GCCAGCAGAT CCTTGCGATG AACCATCGTT AGCATATTGT 
AAGATCGAAG AAATACAACT AGCATCAAAA ATCGAACACG AACCTGAACC AAAACTCTCA 
GCTAATTTTA TCTCAAGTCA TTTTGACTTC CTCTGCCCAG AAAACACTGG ATATTATAAA 
CATAACAGTG ATTGCGAAGA ATTTATCAAA TGCGAGGAAT CTATAGCATC ATTGTATAAA 
TGTTCATCTG GGCTCCAATT CAATCACGAT GCCACATGGG GTCAAGACCC ATGTGCCGAT 
GAAAAAATTA TTCGCTGTTA TTCTCCAGTA TTACAACCTC GATCAGAACC AAATTTTTCA 
GCAGATTTAA TAACAAGACA AATTGCAAAT TATGAGTGTA CATCTTCTGA GGGATACTTC 
AAACTTGGGA AGGATTGTGA CATGTTCATC AAATGTGAAA AATCCTCACC GTCTGCATAC 
AAATGCTGGC AAGGACTCCA GTTCAACGTA AACGCAACTC GGGACGTAGA CCCGTGTGCT 
AGTAAAGAAA TTATTGGCTG TGTTGTTGCT GATGTTGAAT CAAATAAAGA GCCAGTGTCA 
AAATTCTCAG CTATCGCGTT GTCTAAGATC ATTTACGACT TTACCTGCCC TGCAAACAAT 
GGATATTTTG AATCCAAAAA TGAGTGCGAG GAATTCATTA AGTGTGAGAA TGCAGTCGCC 
TCACTGTACA AGTGCTTGCC TGGTTTGCGA TTCAACCGCA ACTATTCTTG GGGAGAGGAC 
CCGTGCGAGA CTGAAGCAAT CGTTACCTGC AAACCAGTCG TCCTAGAAGG CAAACCTTTG 
GCACCCAAGT TCTCAGCTAC TATGGAATCG AGTAGAGTCA TCGATTTCAG CTGCCCGGCT 
AACAATGGGT ATTTTGAAAC TAAAAATGAA TGCGAGAAAT TCATCAAATG CGAGAATGCG 
GTTGCATCCC TGTACAAGTG CTTGCCTGGA CTGCAATTCA ACCGCCGCTC GTCTTTGGAA 
GAGGACCCGT GTGACAGTGA AACAATTATT GGCTGCAAAC CAGTCATTTT AGAACCCAAA 
CCAATGCCGC CCAAGTTCTC AGCTACCGTC GAAACTAGTG TAGTCATCGA TTTCAGCTGC 
CCGGCTAACA ACGGATACTT CGAGACTAAA AATGAATGCG AGAAATTCAT CAAATGCGAC 
AATGCTGTTG CAGCTCTGTA CAAATGTTTA CCTGGCCTGC AATTTAACCG CCGCTCGTCT 
TTGGGAGAAG ACCCGTGCGA GAGTGAAGAA AATATTGGCT GCAAACCAGT CATTTTAGAA 
CCCAAACCAA TGCCGCCCAA GTTCTCAGCT GCCGTCGAAA CTAGTGTAGT CATCGATTTC 
AGCTGCCCGG CTAACAATGG ATACTTTGAG TCTAAAAATG AATGCGAGAA ATTCATCAAA 
TGCGAGAATT TTATGGCAAC ATCGTACAAA TGCTGGTCTG GTCTTCAATT CAACCCTCAA 
GCCTCCTGGG GGCAGGATCC TTGTGCCAGT GCATCGGCTG TGGGTTGCAA AGCTGTCGAC 
ATACCATCTA CTTCTACGCC TAAACAGAAT TTCTCAGCAA TCCTCATATC CAGTCCTCAT 
ATGGACTACA GATGTGAAGT GTCTCGTGGA TACTTTAGTA TTGAAAACAA CTGCGAAAGA 
TTTATCGAAT GCGAGATGTT CGTGCCATCA TTGTACATGT GTCCAAATGG ACAGCAATTT 
AACACAAGAG CTCGATTTGG TGAAGAGCCT TGCGCAAGTG CGTCGATAGT GCAGTGTGAA 
GTCAAAACTA CTACACCCTC AGTGGTCGAA ACTGCCATGA CTACTACCAC TTCTGTACAA 
GTCCTGTCAT ACACATTGAT CTTGAAAAAT GTGCTTGGTT ATACTTGTGC TGCTGCTACT 
GGATATTACA ACGTAAAAGA TGAATGCGAT CAATTTATTG CGTGCAAGAA TTATATTCCA 
TCGTTGTACA GATGCAATTC TGGTCTTCAC TTCAACCAGA ACGTGATGCG AGACGCGGAT 
CCATGTGCTC AACCATCGGT AGCACGTTGT GAAAAATATC TCAAGAGGCC ACTAGGAGTT 
ATAGAAAACG ATGATACCCA AGACGGCTTC CAGTGTATGG AGAGAGATGG CATATTCCCG 
TTCGACACAT TGGAATGCAG TAAATATATA ATGTGTGAAA AGGGCATGGC CACAGTGATG 
CCTTGCCCGC CAGGACTGGT GTTTAACCCT GAGCTTGAAA CATGTGATTG GCCTGTAAAT 
GTACCAACAT GCAACCCGGA ATTATTCCAA GGGTTCTCGT GCCCCGCTCC TGAAAATGAC 
GAATATGGCA GTATTTCGGA TAAAATTACT ACATTCAAAT ATGAAGAAAG TTGCACACAA 
TATATCGCTT GTCAACACGG ACACCCTCGA CTACTCAGTT GCGACAAAGG ACTGTCCTTC 
AGCGAAGAAA TTCAGGCTTG CGTTAGTACC GAAAATGTTC TAAGATGCAG AAACTGA

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

RefSeq	XP_013183307.1
CDS	1..4857
Translation	MTPFILITIFLVATNYGASMEEIQQKSPNCAARYGFSPVEGSCDSYIECMDFQPKHLQCPDGLHYDPEVVWPAYPCGYPSEVVCQGRGSPQPAKATAECPHQYGFFPSPKASSSECGFYHRCVEGKALEMQCPPGLAFNPETARCDWPDLVASCNADEFLGFKCPAGPLDENNKPLDTVINYKYEGNCFAFYSCIHGNARLLTCDPGFGFDPSSGSCKPSDKINCENPRRPASKTSKMVKALEIYNDGRDMEQSWYRDWRKPVTIHPAKNNQRTLLSTPPPLSINEEPSTTRMPEHSILEITNSSIDKPGKLYEMEELHSSSISPIQTLIEIPSSTTPTILTTTEELLVETKPSHRMFNFGVQEASQKPTDLAKESTSAVSWNPERISEFQLPSSSQELPAIIKSQEPVLETKPVIHHTFTFESSHLSYPEVELSKTTPSKLYWFPEIIAKTEPPSMLTTEISLSGIKPDSKSVDFGAPPPSYREMELPKTSSSKISWVPEIIVKSKTSIDLAISSTISPTEKPILEMESTQNTLNFKPTQVEFNTEREQPKETTSLTSSDIVVESLTLQTSPDMFKEGQSPTLGVSQVISYMNSEIPPSPRTSNPEIITESMTTIPDLNKERTQPAFETELKYRTFNFGSISPDFTTSITHPTELVSEQESYHTETLAITEIPRNTELHTLESKIPASILSDKNGKYATEIEFGAPPTLIENSPGFIVYRLEQPLLPQNLVNNFVSSAHPQEFKCQAKNGYYEVVSNCDKFVECKDNVLKLYQCSNNLHFNRKAVWPADPCDEPSLAYCKIEEIQLASKIEHEPEPKLSANFISSHFDFLCPENTGYYKHNSDCEEFIKCEESIASLYKCSSGLQFNHDATWGQDPCADEKIIRCYSPVLQPRSEPNFSADLITRQIANYECTSSEGYFKLGKDCDMFIKCEKSSPSAYKCWQGLQFNVNATRDVDPCASKEIIGCVVADVESNKEPVSKFSAIALSKIIYDFTCPANNGYFESKNECEEFIKCENAVASLYKCLPGLRFNRNYSWGEDPCETEAIVTCKPVVLEGKPLAPKFSATMESSRVIDFSCPANNGYFETKNECEKFIKCENAVASLYKCLPGLQFNRRSSLEEDPCDSETIIGCKPVILEPKPMPPKFSATVETSVVIDFSCPANNGYFETKNECEKFIKCDNAVAALYKCLPGLQFNRRSSLGEDPCESEENIGCKPVILEPKPMPPKFSAAVETSVVIDFSCPANNGYFESKNECEKFIKCENFMATSYKCWSGLQFNPQASWGQDPCASASAVGCKAVDIPSTSTPKQNFSAILISSPHMDYRCEVSRGYFSIENNCERFIECEMFVPSLYMCPNGQQFNTRARFGEEPCASASIVQCEVKTTTPSVVETAMTTTTSVQVLSYTLILKNVLGYTCAAATGYYNVKDECDQFIACKNYIPSLYRCNSGLHFNQNVMRDADPCAQPSVARCEKYLKRPLGVIENDDTQDGFQCMERDGIFPFDTLECSKYIMCEKGMATVMPCPPGLVFNPELETCDWPVNVPTCNPELFQGFSCPAPENDEYGSISDKITTFKYEESCTQYIACQHGHPRLLSCDKGLSFSEEIQACVSTENVLRCRN

Target ORF information:

RefSeq Version	XM_013327853.1
Organism	Amyelois transitella
Definition	Amyelois transitella uncharacterized LOC106129326 (LOC106129326), mRNA.

Target ORF information:

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

XM_013327853.1

ORF Insert Sequence:

ATGACTCCTT TTATTCTGAT CACTATCTTC TTGGTCGCTA CCAATTATGG GGCTTCCATG 
GAAGAGATCC AGCAAAAGAG CCCTAACTGT GCTGCCCGGT ATGGGTTCTC TCCGGTGGAG 
GGAAGCTGCG ACTCCTACAT CGAGTGTATG GATTTCCAAC CGAAGCACTT GCAATGTCCC 
GACGGGCTTC ACTACGACCC TGAAGTAGTA TGGCCTGCAT ACCCTTGTGG ATACCCATCG 
GAAGTTGTTT GCCAGGGACG CGGTTCTCCT CAGCCAGCTA AAGCAACAGC TGAATGCCCG 
CACCAATACG GCTTCTTCCC GTCCCCGAAG GCTTCCTCCA GCGAATGTGG ATTCTACCAC 
AGATGTGTGG AAGGCAAGGC ACTAGAGATG CAGTGCCCAC CCGGACTGGC TTTCAACCCT 
GAGACCGCCC GCTGTGATTG GCCTGACCTA GTGGCTTCTT GTAACGCTGA TGAATTCTTA 
GGATTCAAAT GTCCAGCTGG TCCTTTAGAC GAGAACAATA AGCCTTTGGA TACTGTTATC 
AACTACAAGT ACGAAGGAAA CTGCTTCGCG TTCTACTCGT GCATCCACGG CAACGCTCGC 
CTGCTGACCT GCGACCCTGG GTTCGGGTTC GACCCCAGCT CTGGCAGCTG CAAACCATCA 
GACAAAATCA ACTGCGAGAA TCCGAGGCGT CCCGCAAGTA AAACCTCCAA AATGGTCAAA 
GCACTAGAAA TATACAATGA CGGCCGGGAT ATGGAGCAAT CTTGGTATAG AGACTGGAGA 
AAACCGGTTA CAATACACCC AGCTAAAAAC AACCAAAGAA CACTTTTGAG TACACCACCC 
CCATTATCAA TTAATGAGGA GCCTTCAACA ACAAGAATGC CCGAACATAG TATACTAGAA 
ATTACTAATT CTTCAATAGA CAAGCCAGGA AAACTTTATG AAATGGAAGA ACTGCATAGC 
AGCTCTATAA GTCCTATTCA GACCCTTATT GAGATACCAT CTTCAACAAC TCCAACAATA 
CTAACCACGA CAGAAGAACT TCTTGTTGAA ACAAAGCCTA GTCATCGTAT GTTCAACTTT 
GGAGTTCAAG AAGCTTCCCA AAAACCTACA GATCTCGCCA AAGAATCAAC AAGTGCTGTA 
TCTTGGAATC CTGAAAGAAT TTCAGAATTC CAACTACCTT CTAGTTCGCA AGAGTTACCA 
GCAATAATTA AATCACAGGA ACCAGTGCTA GAAACAAAGC CTGTCATACA TCATACTTTC 
ACATTTGAAT CCAGCCACCT TTCTTATCCA GAAGTCGAGC TAAGTAAAAC TACACCCAGT 
AAACTCTACT GGTTTCCTGA AATCATTGCA AAAACAGAAC CGCCCTCAAT GCTCACAACA 
GAAATTTCTT TGTCTGGAAT AAAACCTGAT TCCAAATCTG TCGATTTTGG AGCACCCCCA 
CCTTCTTACA GAGAAATGGA ACTACCCAAA ACATCATCTA GTAAAATATC TTGGGTTCCA 
GAAATCATAG TTAAATCTAA AACATCTATC GATCTAGCAA TTTCATCTAC TATATCTCCA 
ACAGAAAAAC CTATACTCGA AATGGAATCA ACACAAAACA CTTTAAATTT TAAACCAACA 
CAGGTCGAGT TCAACACGGA AAGAGAACAA CCCAAAGAAA CCACGTCTTT AACTTCTTCT 
GATATTGTTG TTGAATCTTT AACTTTGCAA ACTTCTCCAG ATATGTTCAA AGAGGGACAA 
TCACCTACCC TAGGAGTCAG CCAAGTCATT TCGTACATGA ATTCAGAAAT CCCACCAAGT 
CCAAGAACAT CCAATCCTGA AATTATAACA GAATCTATGA CAACAATACC TGACTTAAAT 
AAAGAAAGAA CACAGCCTGC TTTTGAAACG GAGCTCAAAT ATCGCACTTT CAACTTCGGG 
TCAATTTCAC CTGATTTCAC AACATCTATC ACTCACCCAA CTGAATTAGT ATCTGAACAA 
GAATCCTACC ATACTGAAAC TTTGGCTATT ACAGAAATTC CTCGAAATAC TGAATTACAT 
ACACTAGAGT CCAAAATACC TGCATCGATC CTTAGTGATA AAAATGGTAA GTATGCCACG 
GAGATTGAAT TTGGAGCTCC ACCAACGCTA ATTGAAAATT CACCCGGTTT TATAGTATAC 
AGATTAGAAC AACCTCTATT ACCGCAAAAT CTCGTTAATA ATTTCGTATC TTCGGCTCAT 
CCACAAGAAT TCAAATGTCA AGCGAAAAAT GGATACTACG AGGTAGTGAG CAACTGTGAC 
AAGTTCGTCG AATGCAAGGA TAATGTTCTA AAATTATATC AGTGCTCTAA CAATCTTCAC 
TTTAACCGTA AAGCAGTTTG GCCAGCAGAT CCTTGCGATG AACCATCGTT AGCATATTGT 
AAGATCGAAG AAATACAACT AGCATCAAAA ATCGAACACG AACCTGAACC AAAACTCTCA 
GCTAATTTTA TCTCAAGTCA TTTTGACTTC CTCTGCCCAG AAAACACTGG ATATTATAAA 
CATAACAGTG ATTGCGAAGA ATTTATCAAA TGCGAGGAAT CTATAGCATC ATTGTATAAA 
TGTTCATCTG GGCTCCAATT CAATCACGAT GCCACATGGG GTCAAGACCC ATGTGCCGAT 
GAAAAAATTA TTCGCTGTTA TTCTCCAGTA TTACAACCTC GATCAGAACC AAATTTTTCA 
GCAGATTTAA TAACAAGACA AATTGCAAAT TATGAGTGTA CATCTTCTGA GGGATACTTC 
AAACTTGGGA AGGATTGTGA CATGTTCATC AAATGTGAAA AATCCTCACC GTCTGCATAC 
AAATGCTGGC AAGGACTCCA GTTCAACGTA AACGCAACTC GGGACGTAGA CCCGTGTGCT 
AGTAAAGAAA TTATTGGCTG TGTTGTTGCT GATGTTGAAT CAAATAAAGA GCCAGTGTCA 
AAATTCTCAG CTATCGCGTT GTCTAAGATC ATTTACGACT TTACCTGCCC TGCAAACAAT 
GGATATTTTG AATCCAAAAA TGAGTGCGAG GAATTCATTA AGTGTGAGAA TGCAGTCGCC 
TCACTGTACA AGTGCTTGCC TGGTTTGCGA TTCAACCGCA ACTATTCTTG GGGAGAGGAC 
CCGTGCGAGA CTGAAGCAAT CGTTACCTGC AAACCAGTCG TCCTAGAAGG CAAACCTTTG 
GCACCCAAGT TCTCAGCTAC TATGGAATCG AGTAGAGTCA TCGATTTCAG CTGCCCGGCT 
AACAATGGGT ATTTTGAAAC TAAAAATGAA TGCGAGAAAT TCATCAAATG CGAGAATGCG 
GTTGCATCCC TGTACAAGTG CTTGCCTGGA CTGCAATTCA ACCGCCGCTC GTCTTTGGAA 
GAGGACCCGT GTGACAGTGA AACAATTATT GGCTGCAAAC CAGTCATTTT AGAACCCAAA 
CCAATGCCGC CCAAGTTCTC AGCTACCGTC GAAACTAGTG TAGTCATCGA TTTCAGCTGC 
CCGGCTAACA ACGGATACTT CGAGACTAAA AATGAATGCG AGAAATTCAT CAAATGCGAC 
AATGCTGTTG CAGCTCTGTA CAAATGTTTA CCTGGCCTGC AATTTAACCG CCGCTCGTCT 
TTGGGAGAAG ACCCGTGCGA GAGTGAAGAA AATATTGGCT GCAAACCAGT CATTTTAGAA 
CCCAAACCAA TGCCGCCCAA GTTCTCAGCT GCCGTCGAAA CTAGTGTAGT CATCGATTTC 
AGCTGCCCGG CTAACAATGG ATACTTTGAG TCTAAAAATG AATGCGAGAA ATTCATCAAA 
TGCGAGAATT TTATGGCAAC ATCGTACAAA TGCTGGTCTG GTCTTCAATT CAACCCTCAA 
GCCTCCTGGG GGCAGGATCC TTGTGCCAGT GCATCGGCTG TGGGTTGCAA AGCTGTCGAC 
ATACCATCTA CTTCTACGCC TAAACAGAAT TTCTCAGCAA TCCTCATATC CAGTCCTCAT 
ATGGACTACA GATGTGAAGT GTCTCGTGGA TACTTTAGTA TTGAAAACAA CTGCGAAAGA 
TTTATCGAAT GCGAGATGTT CGTGCCATCA TTGTACATGT GTCCAAATGG ACAGCAATTT 
AACACAAGAG CTCGATTTGG TGAAGAGCCT TGCGCAAGTG CGTCGATAGT GCAGTGTGAA 
GTCAAAACTA CTACACCCTC AGTGGTCGAA ACTGCCATGA CTACTACCAC TTCTGTACAA 
GTCCTGTCAT ACACATTGAT CTTGAAAAAT GTGCTTGGTT ATACTTGTGC TGCTGCTACT 
GGATATTACA ACGTAAAAGA TGAATGCGAT CAATTTATTG CGTGCAAGAA TTATATTCCA 
TCGTTGTACA GATGCAATTC TGGTCTTCAC TTCAACCAGA ACGTGATGCG AGACGCGGAT 
CCATGTGCTC AACCATCGGT AGCACGTTGT GAAAAATATC TCAAGAGGCC ACTAGGAGTT 
ATAGAAAACG ATGATACCCA AGACGGCTTC CAGTGTATGG AGAGAGATGG CATATTCCCG 
TTCGACACAT TGGAATGCAG TAAATATATA ATGTGTGAAA AGGGCATGGC CACAGTGATG 
CCTTGCCCGC CAGGACTGGT GTTTAACCCT GAGCTTGAAA CATGTGATTG GCCTGTAAAT 
GTACCAACAT GCAACCCGGA ATTATTCCAA GGGTTCTCGT GCCCCGCTCC TGAAAATGAC 
GAATATGGCA GTATTTCGGA TAAAATTACT ACATTCAAAT ATGAAGAAAG TTGCACACAA 
TATATCGCTT GTCAACACGG ACACCCTCGA CTACTCAGTT GCGACAAAGG ACTGTCCTTC 
AGCGAAGAAA TTCAGGCTTG CGTTAGTACC GAAAATGTTC TAAGATGCAG AAACTGA