LOC105385310 cDNA ORF clone, Plutella xylostella(diamondback moth)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC105385310
Entrez Gene ID	105385310
Full Name	uncharacterized LOC105385310
Gene Type	protein-coding
Organism	Plutella xylostella(diamondback moth)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011555672.1	XP_011553974.1	uncharacterized protein LOC105385310

Pathways from BioSystems
Gene Ontology

The following LOC105385310 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105385310 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
OPl52290	XM_011555672.1 Latest version!	Plutella xylostella uncharacterized LOC105385310 (LOC105385310), 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)

LOC105385310 ( XM_011555672.1 ) cDNA ORF clone, Plutella xylostella(diamondback moth) -> XP_011553974.1 Plutella xylostella uncharacterized LOC105385310 (LOC105385310), mRNA.

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CloneID	OPl52290
Clone ID Related Accession (Same CDS sequence)	XM_011555672.1
Accession Version	XM_011555672.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4071bp) 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	2015-03-12
Organism	Plutella xylostella(diamondback moth)
Product	uncharacterized protein LOC105385310
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011952131.1) 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 :: Plutella xylostella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 83% of CDS bases ##RefSeq-Attributes-END##

ATGGAGCGCA CCATGCTAGG CATCTCACTA GTGGACCGTA TCCCGAACAA TGACACATTG 
TCCCGTCTGA GCTCCGAGCT GGCGAGTCCC GCTGAACAAT TGACTGAAGA CGTGGTGAAG 
GCTGACCAGG AGATACAAGT CAGGATATCT CAAGCGTGTG AGACAGAGAC AGACTGCGAG 
AGCCACCGCG AGGGAGCGAG ACAGCTGTAT GAGAAGAGCT TGAACCTGAG CGAGAGGGAC 
TCCGAGATAT GTCTCAGCAC AGCCAGTCTA TCCCAAGCGT GCGCAGCCCA CGAATCAGCC 
TCGGTAGCGC TGTGCGGGGC CCTACTGGCC GCGGACCGCG CGCTCGAGAC ATACGACGTG 
TTGCTGGCGC TGGCCGAGAG CGAACCCGGG ACCGCTGAGC GCGAGTCAGC CGAGCTAGTA 
GCCAGGCAAC TGCTGGCCAA GCTGCGGGCG GAGCCCTGCG GCGCCGTCGG GGAGCCGCTG 
CTGTCCCCCG GGCCCTGGCT GCTGCACCGA CACCAGGTGC ACCCCCTAGA GCCGTGGACG 
GCGGAGAGCG AGCGCGCGCT GCGACAACAC GCGGCGCGGC TCAAGAGCGA CTCCGCGGCG 
ATACGGGCCA CGGCGCCCGC GCCCGCCATG TTCACGCTAC ACGTCATAAA TATGGAGGCG 
GTCCTAGCTA AACAGAAGGA GCTGATCGCG GACATCACGA AGGACTCCAC GACTACGAAA 
CTGCGAGTCG TCTTCAACGC TTCCAATAAA ACATCCTCAG GTTACAGTGT CAATGACCTC 
ATGGAGTGCG GACCTAAATT GCAAACAGAC ATTCAGGGAT TACTGTTACG CTGGCGAGTG 
CATAAATACG TCCTCACAGC AGATTGTGAG AAAATGTACC GGATGGTTTT ACTTGACGAA 
CAAGATCAAC AGCTGCAGAA GATAATCTGG CGCGAGAATC CACAGAAGGC CATAAAGGAA 
TATCACCTCT GTACTTTAAC CTATGGGATG AAGGCCAGCC CATATTTGGC CATCAGAACC 
CTACAGCAGC TCGCTAAGGA TGACATGGAA AAGTACCCCC TCGCCGCTAA GATAATACTG 
CATGATAAGG ATTTATATGT GGACGACTTA CTAACTGGCA GTAACACCAT AGAACAAGCG 
CAAATGATTC AGCAAGAATT GATCCAGCTG TTGCGAGGCG GAGGATTTAA CCTGAGGAAA 
TGGTCCAGCA ATAGTCCATC ACTTCTAAAG GACCTGTCGG TAGATCAACT CAACGCAACC 
ACCATTGATT TTAAAAATGC AGACTCAACT AAAGCCCTAG GATTACAATG GAACGCAGCC 
TCTGACACTT TCACGTTTAA ATACGACTAC GCGTCCATTG AAATGACAAA ACCGCTCACA 
AAGCGACGAT TGCTATCTGT TATATCCAAG GTGTTCGACC CGCTTGGATG GCTAGCTCCG 
ATTTCAATAA AAACCAAACT ATTATTTCAG TCTGTGTGGG CTAGTGGGAT TGAATGGGAT 
GACACAGTAG AACCAAAGGT CCAGCCGGAA TGGAGTTTAT TGAGAGAGGA CTTACTTAAT 
CTTGACAAAT TCAGCATCCA AAGATGGATT GGTGACACCA ACACACCTTG TGACATACAT 
GCTTTCTGTG ATGCATCGGA GAAGGCATTT GCATGTGTGA TTTACCTAAA GTCGAAAGAC 
GAGCAAGGAA AAACAACCGT TAAACTTATC GCAGCAAAGA CCAAATTAGC GCCACTCAAG 
AAACCGATCA CATTACCAAG GCTGGAGTTA TGTGGCGCGC TTTTATTAAT AAAATTGCTG 
ACAAAGATAA AAGAAGCGTT ACCAAACACT GACATACCCG TCTACGGATG GTGTGATTCT 
AAGGTGGTGT TAGGTTGGCT GCAAGGTGAA CCTACACGAT GGAAGACCTT CATAGCAAAC 
AGAGTGAAGG AAATAACTGA CATTTTGCCA TCAACAAACT GGAGGTATGT AAAGTCCGCT 
GAAAACGCCG CGGACTGTGC GACTCGAGGC CTCACTCCAT CGCAGCTAGC AGAACATCCG 
TTGTGGTGGG AAGGACCTAC GTGGCTCAAA GATGACACTC CTCCATCTGA CATAAAAATT 
TACAGTCCTC AAATTGAGTT GAAAACTAAT AAATTATGCA ACGTAGTACA GACAACAGCT 
CCGTTGATTC TAGAACTACT GAATAAATAC AGTTCAATAA TAGTCATCGT TCGAATCATA 
TGTAGAATAT CACGTTTCAT AACAAACACA CGGAAGAAAG GTCATGGTAC GCAATCATCA 
TATTTGACAA CGGGCGAAAT AGAAGCCGCA TACATCAGCA TTATAAAGGC CGTGCAAGCA 
TATTATTACG AGCAGGACTT ATCGCGATTA CATCGTAAGG AAACAGTGAG TAGTAAAAGT 
AGCTTGTTGG GACTAAACCC GTTCCTTGAC AAAAACGGCA TCATGAGAGT GGGAGGTAGA 
TTGCACAGAT CGAACTTGAC AGATGTCCAT AAACACCCTG TCATCATTCC TCACGATTCA 
AAACTGACAA CCCTTCTTAT GGATCAAGCA CACAGAGCCA CATTACACGG TGGTCCCAAG 
TTGACACTAG GATTTTTAAG GAATCGTTGG TGGGTAATAG GAGGCACCCG AGCCGTCAAG 
AAATACATTC GGACGTGCGT TAAGTGCCGC CGATTTGACA ACACCAAGCA AGACCAGCTC 
ATGGCTAACT TACCAGAGCC GAGAATCACT CCCTCAAGAC CTTTCACGCA TACAGCGGTG 
GACTTCACTG GACATGTCGA GCTGAAGGTC AACAAAGGAC GAGGCGTAAA AACCACCAAG 
GGATACATCG CTGTATTCGT ATGCCTGGCT ACAAAGGCTG TGCATTTGGA ACTTGTGTCT 
GACTTGAGCT CCGCCGCGTT CCTAGCGGCA TTCAAAAGAA TGTGTTCCCG AAGATCATCC 
CCTAAACATC TGTACAGCGA CAACGCGACA AACTTTGTAG GAGCCGCCCG ATCACTCAGA 
CAAGAACACA AACAAGCACT ACAACACTAT ATTGACAATG CCCTTTTGAC TGACATCGCA 
GAATTAGGAG TCACGTGGCA CTTCAATGCG CCAGCGTGGC CTAGTGGCAA CGGACTAGCT 
GAAGCTGCTG TCCGTAGTAT GAAGCACCAT CTAAAGAGAG TACTGGGGGA ACAAAAATTG 
ACATTCGAGG AATTTACAAC TCTTCTGACC CAAATCGAGG CGTGCCTCAA CTCCAGACCC 
CTGTACGCAC TCACTGAAGA TGCTGATGAC ATTGACATTT TAACCCCAGG CCATTTCTTA 
GTTGGAGGGC CAATCCTGAC AACAGTAGCT CCTGAAACTG ACGTAAGTTG CCTAAAGACA 
CGGTGGCAAC TAACAGAAAG GATGCATCGT GACTTCTGGA AAAGATGGTC ACAAGACTAC 
CTTCATCATC TGCAAACAAG AAGCAAGTGG ACGCGACCAA AGAAAAATGT GACCATCAAT 
GACATAGTCC TTATCAAAGA GGACAACATG CCACCGTCCA AATGGGCCCT CGGGAAGGTA 
TCAGATCTCC ATCCTGGACC AGATGGACTC GTGCGCGTTG TGACTGTGAA GACAAAAGGA 
GGGGTATTCA TGAAGAGACC TATCGTGAAA CTAGTGTTCT TACCCATCAA TCACGAACCT 
GCACCTGACA CTGCGATGCT AAGTCCAAAG CAGAACGACC CTCTCCCTGT TCAACAAACC 
ACGCGCCCGC AACTAGATAG AACGCTGAGA CAACACGCGG CGCGGCTCAA GAGCGACTCC 
GCGGCGATAC GGGCCACGGC GCCCGCGCCC GCCATGTTCA CGCTACACGA AGACGACGAG 
GAGGTCCCCG CGTCGGCGCC GCCCGTCAGC ATGGTGGACA TGGAGCACGC CGTCATGATG 
CAGGAGGTGC TAGTGGCCCG CGAAGAGCGA GCGGCGGCGC TGGAGGCCCT GTCGCTGGAG 
CGAGCACGAG TGAAAACCCT CGTGCGACAG GCGACCCCGG TGCACAGGAG ACGGGAGCCC 
CGCGACAGAG AAGAGAAACA CTGGCTCGAT GCCTCCGAGA CAGACCTATG A

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

RefSeq	XP_011553974.1
CDS	1..4071
Translation	MERTMLGISLVDRIPNNDTLSRLSSELASPAEQLTEDVVKADQEIQVRISQACETETDCESHREGARQLYEKSLNLSERDSEICLSTASLSQACAAHESASVALCGALLAADRALETYDVLLALAESEPGTAERESAELVARQLLAKLRAEPCGAVGEPLLSPGPWLLHRHQVHPLEPWTAESERALRQHAARLKSDSAAIRATAPAPAMFTLHVINMEAVLAKQKELIADITKDSTTTKLRVVFNASNKTSSGYSVNDLMECGPKLQTDIQGLLLRWRVHKYVLTADCEKMYRMVLLDEQDQQLQKIIWRENPQKAIKEYHLCTLTYGMKASPYLAIRTLQQLAKDDMEKYPLAAKIILHDKDLYVDDLLTGSNTIEQAQMIQQELIQLLRGGGFNLRKWSSNSPSLLKDLSVDQLNATTIDFKNADSTKALGLQWNAASDTFTFKYDYASIEMTKPLTKRRLLSVISKVFDPLGWLAPISIKTKLLFQSVWASGIEWDDTVEPKVQPEWSLLREDLLNLDKFSIQRWIGDTNTPCDIHAFCDASEKAFACVIYLKSKDEQGKTTVKLIAAKTKLAPLKKPITLPRLELCGALLLIKLLTKIKEALPNTDIPVYGWCDSKVVLGWLQGEPTRWKTFIANRVKEITDILPSTNWRYVKSAENAADCATRGLTPSQLAEHPLWWEGPTWLKDDTPPSDIKIYSPQIELKTNKLCNVVQTTAPLILELLNKYSSIIVIVRIICRISRFITNTRKKGHGTQSSYLTTGEIEAAYISIIKAVQAYYYEQDLSRLHRKETVSSKSSLLGLNPFLDKNGIMRVGGRLHRSNLTDVHKHPVIIPHDSKLTTLLMDQAHRATLHGGPKLTLGFLRNRWWVIGGTRAVKKYIRTCVKCRRFDNTKQDQLMANLPEPRITPSRPFTHTAVDFTGHVELKVNKGRGVKTTKGYIAVFVCLATKAVHLELVSDLSSAAFLAAFKRMCSRRSSPKHLYSDNATNFVGAARSLRQEHKQALQHYIDNALLTDIAELGVTWHFNAPAWPSGNGLAEAAVRSMKHHLKRVLGEQKLTFEEFTTLLTQIEACLNSRPLYALTEDADDIDILTPGHFLVGGPILTTVAPETDVSCLKTRWQLTERMHRDFWKRWSQDYLHHLQTRSKWTRPKKNVTINDIVLIKEDNMPPSKWALGKVSDLHPGPDGLVRVVTVKTKGGVFMKRPIVKLVFLPINHEPAPDTAMLSPKQNDPLPVQQTTRPQLDRTLRQHAARLKSDSAAIRATAPAPAMFTLHEDDEEVPASAPPVSMVDMEHAVMMQEVLVAREERAAALEALSLERARVKTLVRQATPVHRRREPRDREEKHWLDASETDL

Target ORF information:

RefSeq Version	XM_011555672.1
Organism	Plutella xylostella(diamondback moth)
Definition	Plutella xylostella uncharacterized LOC105385310 (LOC105385310), mRNA.

Target ORF information:

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

XM_011555672.1

ORF Insert Sequence:

ATGGAGCGCA CCATGCTAGG CATCTCACTA GTGGACCGTA TCCCGAACAA TGACACATTG 
TCCCGTCTGA GCTCCGAGCT GGCGAGTCCC GCTGAACAAT TGACTGAAGA CGTGGTGAAG 
GCTGACCAGG AGATACAAGT CAGGATATCT CAAGCGTGTG AGACAGAGAC AGACTGCGAG 
AGCCACCGCG AGGGAGCGAG ACAGCTGTAT GAGAAGAGCT TGAACCTGAG CGAGAGGGAC 
TCCGAGATAT GTCTCAGCAC AGCCAGTCTA TCCCAAGCGT GCGCAGCCCA CGAATCAGCC 
TCGGTAGCGC TGTGCGGGGC CCTACTGGCC GCGGACCGCG CGCTCGAGAC ATACGACGTG 
TTGCTGGCGC TGGCCGAGAG CGAACCCGGG ACCGCTGAGC GCGAGTCAGC CGAGCTAGTA 
GCCAGGCAAC TGCTGGCCAA GCTGCGGGCG GAGCCCTGCG GCGCCGTCGG GGAGCCGCTG 
CTGTCCCCCG GGCCCTGGCT GCTGCACCGA CACCAGGTGC ACCCCCTAGA GCCGTGGACG 
GCGGAGAGCG AGCGCGCGCT GCGACAACAC GCGGCGCGGC TCAAGAGCGA CTCCGCGGCG 
ATACGGGCCA CGGCGCCCGC GCCCGCCATG TTCACGCTAC ACGTCATAAA TATGGAGGCG 
GTCCTAGCTA AACAGAAGGA GCTGATCGCG GACATCACGA AGGACTCCAC GACTACGAAA 
CTGCGAGTCG TCTTCAACGC TTCCAATAAA ACATCCTCAG GTTACAGTGT CAATGACCTC 
ATGGAGTGCG GACCTAAATT GCAAACAGAC ATTCAGGGAT TACTGTTACG CTGGCGAGTG 
CATAAATACG TCCTCACAGC AGATTGTGAG AAAATGTACC GGATGGTTTT ACTTGACGAA 
CAAGATCAAC AGCTGCAGAA GATAATCTGG CGCGAGAATC CACAGAAGGC CATAAAGGAA 
TATCACCTCT GTACTTTAAC CTATGGGATG AAGGCCAGCC CATATTTGGC CATCAGAACC 
CTACAGCAGC TCGCTAAGGA TGACATGGAA AAGTACCCCC TCGCCGCTAA GATAATACTG 
CATGATAAGG ATTTATATGT GGACGACTTA CTAACTGGCA GTAACACCAT AGAACAAGCG 
CAAATGATTC AGCAAGAATT GATCCAGCTG TTGCGAGGCG GAGGATTTAA CCTGAGGAAA 
TGGTCCAGCA ATAGTCCATC ACTTCTAAAG GACCTGTCGG TAGATCAACT CAACGCAACC 
ACCATTGATT TTAAAAATGC AGACTCAACT AAAGCCCTAG GATTACAATG GAACGCAGCC 
TCTGACACTT TCACGTTTAA ATACGACTAC GCGTCCATTG AAATGACAAA ACCGCTCACA 
AAGCGACGAT TGCTATCTGT TATATCCAAG GTGTTCGACC CGCTTGGATG GCTAGCTCCG 
ATTTCAATAA AAACCAAACT ATTATTTCAG TCTGTGTGGG CTAGTGGGAT TGAATGGGAT 
GACACAGTAG AACCAAAGGT CCAGCCGGAA TGGAGTTTAT TGAGAGAGGA CTTACTTAAT 
CTTGACAAAT TCAGCATCCA AAGATGGATT GGTGACACCA ACACACCTTG TGACATACAT 
GCTTTCTGTG ATGCATCGGA GAAGGCATTT GCATGTGTGA TTTACCTAAA GTCGAAAGAC 
GAGCAAGGAA AAACAACCGT TAAACTTATC GCAGCAAAGA CCAAATTAGC GCCACTCAAG 
AAACCGATCA CATTACCAAG GCTGGAGTTA TGTGGCGCGC TTTTATTAAT AAAATTGCTG 
ACAAAGATAA AAGAAGCGTT ACCAAACACT GACATACCCG TCTACGGATG GTGTGATTCT 
AAGGTGGTGT TAGGTTGGCT GCAAGGTGAA CCTACACGAT GGAAGACCTT CATAGCAAAC 
AGAGTGAAGG AAATAACTGA CATTTTGCCA TCAACAAACT GGAGGTATGT AAAGTCCGCT 
GAAAACGCCG CGGACTGTGC GACTCGAGGC CTCACTCCAT CGCAGCTAGC AGAACATCCG 
TTGTGGTGGG AAGGACCTAC GTGGCTCAAA GATGACACTC CTCCATCTGA CATAAAAATT 
TACAGTCCTC AAATTGAGTT GAAAACTAAT AAATTATGCA ACGTAGTACA GACAACAGCT 
CCGTTGATTC TAGAACTACT GAATAAATAC AGTTCAATAA TAGTCATCGT TCGAATCATA 
TGTAGAATAT CACGTTTCAT AACAAACACA CGGAAGAAAG GTCATGGTAC GCAATCATCA 
TATTTGACAA CGGGCGAAAT AGAAGCCGCA TACATCAGCA TTATAAAGGC CGTGCAAGCA 
TATTATTACG AGCAGGACTT ATCGCGATTA CATCGTAAGG AAACAGTGAG TAGTAAAAGT 
AGCTTGTTGG GACTAAACCC GTTCCTTGAC AAAAACGGCA TCATGAGAGT GGGAGGTAGA 
TTGCACAGAT CGAACTTGAC AGATGTCCAT AAACACCCTG TCATCATTCC TCACGATTCA 
AAACTGACAA CCCTTCTTAT GGATCAAGCA CACAGAGCCA CATTACACGG TGGTCCCAAG 
TTGACACTAG GATTTTTAAG GAATCGTTGG TGGGTAATAG GAGGCACCCG AGCCGTCAAG 
AAATACATTC GGACGTGCGT TAAGTGCCGC CGATTTGACA ACACCAAGCA AGACCAGCTC 
ATGGCTAACT TACCAGAGCC GAGAATCACT CCCTCAAGAC CTTTCACGCA TACAGCGGTG 
GACTTCACTG GACATGTCGA GCTGAAGGTC AACAAAGGAC GAGGCGTAAA AACCACCAAG 
GGATACATCG CTGTATTCGT ATGCCTGGCT ACAAAGGCTG TGCATTTGGA ACTTGTGTCT 
GACTTGAGCT CCGCCGCGTT CCTAGCGGCA TTCAAAAGAA TGTGTTCCCG AAGATCATCC 
CCTAAACATC TGTACAGCGA CAACGCGACA AACTTTGTAG GAGCCGCCCG ATCACTCAGA 
CAAGAACACA AACAAGCACT ACAACACTAT ATTGACAATG CCCTTTTGAC TGACATCGCA 
GAATTAGGAG TCACGTGGCA CTTCAATGCG CCAGCGTGGC CTAGTGGCAA CGGACTAGCT 
GAAGCTGCTG TCCGTAGTAT GAAGCACCAT CTAAAGAGAG TACTGGGGGA ACAAAAATTG 
ACATTCGAGG AATTTACAAC TCTTCTGACC CAAATCGAGG CGTGCCTCAA CTCCAGACCC 
CTGTACGCAC TCACTGAAGA TGCTGATGAC ATTGACATTT TAACCCCAGG CCATTTCTTA 
GTTGGAGGGC CAATCCTGAC AACAGTAGCT CCTGAAACTG ACGTAAGTTG CCTAAAGACA 
CGGTGGCAAC TAACAGAAAG GATGCATCGT GACTTCTGGA AAAGATGGTC ACAAGACTAC 
CTTCATCATC TGCAAACAAG AAGCAAGTGG ACGCGACCAA AGAAAAATGT GACCATCAAT 
GACATAGTCC TTATCAAAGA GGACAACATG CCACCGTCCA AATGGGCCCT CGGGAAGGTA 
TCAGATCTCC ATCCTGGACC AGATGGACTC GTGCGCGTTG TGACTGTGAA GACAAAAGGA 
GGGGTATTCA TGAAGAGACC TATCGTGAAA CTAGTGTTCT TACCCATCAA TCACGAACCT 
GCACCTGACA CTGCGATGCT AAGTCCAAAG CAGAACGACC CTCTCCCTGT TCAACAAACC 
ACGCGCCCGC AACTAGATAG AACGCTGAGA CAACACGCGG CGCGGCTCAA GAGCGACTCC 
GCGGCGATAC GGGCCACGGC GCCCGCGCCC GCCATGTTCA CGCTACACGA AGACGACGAG 
GAGGTCCCCG CGTCGGCGCC GCCCGTCAGC ATGGTGGACA TGGAGCACGC CGTCATGATG 
CAGGAGGTGC TAGTGGCCCG CGAAGAGCGA GCGGCGGCGC TGGAGGCCCT GTCGCTGGAG 
CGAGCACGAG TGAAAACCCT CGTGCGACAG GCGACCCCGG TGCACAGGAG ACGGGAGCCC 
CGCGACAGAG AAGAGAAACA CTGGCTCGAT GCCTCCGAGA CAGACCTATG A