LOC106136509 cDNA ORF clone, Amyelois transitella

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106136509
Entrez Gene ID	106136509
Full Name	gamma-aminobutyric acid type B receptor subunit 2
Gene Type	protein-coding
Organism	Amyelois transitella

mRNA and Protein(s)

mRNA	Protein	Name
XM_013337077.1	XP_013192531.1	gamma-aminobutyric acid type B receptor subunit 2

Pathways from BioSystems
Gene Ontology

The following LOC106136509 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106136509 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
OAm66104	XM_013337077.1 Latest version!	Amyelois transitella gamma-aminobutyric acid type B receptor subunit 2 (LOC106136509), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

LOC106136509 ( XM_013337077.1 ) cDNA ORF clone, Amyelois transitella -> XP_013192531.1 Amyelois transitella gamma-aminobutyric acid type B receptor subunit 2 (LOC106136509), mRNA.

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CloneID	OAm66104
Clone ID Related Accession (Same CDS sequence)	XM_013337077.1
Accession Version	XM_013337077.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4251bp) 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	gamma-aminobutyric acid type B receptor subunit 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535514.1) 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 :: 40% of CDS bases ##RefSeq-Attributes-END##

ATGCTGCCGA TCTTCCTCCT AACCCTGGCC GGTGTCAGCC AGGCCGTGCC CCAGAAGCCG 
AACCTGGACG CCATCCTCAA CCGAAGAACT GATGTCTACA TAGCTGGGTT TTTTCCCTTC 
GGCAAGGGCG TGGAGAACTC AAACACTGCC TTCACGATGC TGCCGATCTT CCTCCTAACC 
CTGGCCGGTG TCAGCCAGGC CGTGCCCCAG AAGCCGAACC TGGACGCCAT CCTCAACCGA 
AGAACTGATG TCTACATAGC TGGGTTTTTT CCCTTCGGCA AGGGCGTGGA GAACTCAAAC 
ACTGGTCGAG GCGTGATGCC GAGCGTGAAG CTGGCGCTGG ACCACGTCAA CGAGCACGAC 
TCCGTGCTGA GGAACTACCG GCTGCACATG TGGTGGAACG ATACTGAGTG CAATGCAGCT 
GTTGGCGTGA AGTCTTTCTT CGATATGATG CACAGTGGCC CTCACAAGCT GATGCTGTTT 
GGAGCAGCTT GCACTCACGT CACGGATCCT ATAGCCAAGG CTTCCAAACA CTGGCATCTG 
ACGCAGCTTT CATACGCAGA CACCCACCCG ATGTTCACCA AGGAAGCGTT CCCGAACTTC 
TTCCGAATCG TGCCTTCAGA GAATGCCTTC AATGTGCCCA GGATTAGGTT ACTGCAGCAC 
TTCAACTGGA CCAGGGTCGG CACCATCTAC CAGAACGAAC CAAGATATGC CTTGGCGCAC 
AACCGGCTCC TGGCTGATTT GGACTCCAAT GGGTTCCTAA TAGAAGAGAC CCAGAGCTTT 
GCGACAGAAG TTAGGACCGC TCTCTCCAAG CTGAAGGAGA AGGACGTCAG GATCATCCTG 
GGTAACTTCA ATGAGACCTG GGCTATGAAG ATCTTCTGCG AAGCTTACAA ATTGGAGATG 
TACGGAAGAG CTTACACCTG GCTTCTTCTG GGGACGTACA GCAACAAATG GTGGTTGCGC 
CGCGCCCCGT GCTCCAAACG AGACCTCACC ACGGCCCTCG ATACCACAAT TCTGACTGAT 
TTACTACCAC TTTCCACAAC TGGTGAAACT ACTGTATCAG GAATTTCCGC AAAAGATTAC 
CAAGTTGAAT ATGATCGAAG AAGAGGCACG GAATACTCAA GATTTCATGG ATATACATAT 
GATGGTATTT GGGCAATGGC CTTAGCTATA CAAACGGTTG CTCAACGGGT GAAATTGAAA 
CACAAGGAGA AAACAGTGCA GGATTTCCGT TATAGAGACA AAGAATGGGA ACAACTGTTC 
CTAGATGCAC TGAGCAATGT TACCTTTGAA GGAGTAACGG GTCCAGTACG TTTCTACGAC 
AACGAGCGTA AAGCATCGAT CCTACTCAAG CAGTTCCAGG GAGATGAAGT AGGAGAAGTG 
AAAGTGGGCG AATACTGCGC GGAAAGAGAT CACCTAGACC TTGTCAGTTG GGAACCATTT 
AAATGGATTG GAAAGAATCC GCCAAAAGAT CGCACACTGA GACTCATTGA GCATACGCAA 
GTTAACATCA CGATCTACTC AGTGCTAGTA TCTTGTTCAG TTCTTGGCAT CCTGCTAGCC 
ACGGGCTTCT TAGCGATGAA CATACATTAC AGAAACCAAA GGTATATAAA AATGTCGTCA 
CCACATTTGA ATAACCTGAT CATCGTGGGC TGTATGCTCA CTTACTTGAG TGTTATTTTC 
CTCGGTCTAG ACTCCAGCCT TAGCAGCATA GCTGCCTTCC CGTATATTTG TACTGCCAGA 
GCGTGGTTGC TGATGGCTGG ATTCAGCTTG GCCTTTGGAG CCATGTTCTC AAAAACCTGG 
CGAGTTCATT CCATCTTTAC AGATGTCAAA TTAAATAAGA AGGTGATCAA AGATTACCAG 
CTATTCATGG TTGTTGGGGT CCTACTATGT GTAGATTTAG CCATAATGAC AACGTGGCAA 
ATATCAGACC CATTCTACAG AGCCACAAAG CAAATGGAAC CTTACCCACA CCCTTCGAGT 
GAAGATATAG TTATAGTGCA AGAAAACGAA TATTGTCAGT CGGAAAGAAT GACTATATTT 
ATTGGTATTA TTTACGCCTA CAAAGGCCTA CTCTTGGTTT TCGGAGCTTT CCTCGCCTGG 
GAGACAAGAC ACGTATCAAT ACCAGCCCTA AATGACTCAA AACACATTGG CCTATCAGTT 
TACAACGTCC TTATCATGTG TATCATGGGA GCCGCTATTG CATTGGTCCT GTCTGATCAC 
AAAGATGCGC TTTTTGTCCT GATTGCTATA TTTATTATAT TCTGTACTAC AGCTACGTTA 
TGTCTCGTTT TTGTGCCTAA GCTTCTAGAA CTTCGCCGTA ATGGTCAACC TGGCTCAGCA 
CCGACCAGGA TCCGTGCTAC CCTCCGGCCG GCCTCAACTC ATGAATGTCG GTCACCAGGG 
CCAGAACTTG AAAGGCGGCT TAAAGAACTA CGACAATACA ATACCAGATA CAGAAGGACG 
CTTCAAGCCA AAGAGAATGA GATACAGATG CTTCTGAGCA AGTTGGGAAG TGACGCTGGT 
TCAGAATCCT CGACGCGAGA CTCCAAATCT CCTGCCATGC AACGGACCAG ATTGCCGGTT 
CCTAGAGAAA ACATCAGCCA TCCTGAGACT AGCGACATAA CATCGGTGTG TAGTCTCAGC 
GCATCAGCCG GTGCAGAAGC GGAATATATC AACCTTCAGA ATCAGCAAGC CAGTGAAATA 
ATAAAGCCAT CAGCGCCGCC GGAACCTCTC AAAGAAGTTC CCAAGGAATC GAAGAAGGAG 
CAGACGAAAA ATGTTTCCTT CAAGAACCAT CTGGACTACA CCAGTCCACC GTCTTCTAAA 
GCTGTGCCTG AAAAGGACCA ACTGGCCAAA CTTCCTTATG GATGGTCCGC AGAGGAACCT 
TCAGAGCCAA CAATGAAACC ATCGGCTAAA ATTTCTGAGT CTGCCAAAGC CGATGCCAAG 
ACTACGCCTG CATTGAAACA AAGTGACATG ACTATTAAAC CCATACCTTC AAAAGTACAA 
GAATCTATGT ATACTAAAGC AACACCGCCT AAAGTAAATA AGACGCCAGA ATTCCAAAAG 
AAGACTGTCA AGACCTCAGA TTCCATTTCC ACTAAGACGA CACCGTCTCG TGAACACAAG 
GAGCACAAAA CGGGAGCAAG GGGCCACCGC CGGATGTCCA GCGTGAGTCA GGGGGTGTTG 
CTGACTGAGC TGATGCACGT GTCGATAGAC CAGGATGACG TGGAACCCCC GCCTGGGATG 
GAGAGGAAAG TCATAGGTCA AGAAAGAGAC CCTCCCCCGC CAGTTACTAA GACTAAGCAA 
GAAATAGAAG ATATTTTAGA CATCGATCAA GATTATTCAT CAATAGAAAG AAGAAAGTCT 
TGTCAAAGAA GAGACTCTGA AAAAAGAAAG AAGGAGTTTA TTGTTGTGCA AAGTGACTTA 
TGGGACACGA ACACATTCCA ATACACGTGT CAGAAATCGC CTCCAGCCAC AACAAAACAT 
GCAAGCTCTC CGCATGATGG TCATCATCAT TCTCCGATGC AGAGAAGTGT ATCGGAGAAG 
AGTCGGCAGC AGTCATCTCC CCACCACCAC CGAGACCCTG ACGCAATGAC AGTAGAAAGA 
AGAGCCTCTA ATGCCTCCAT TAATTATGCT GGCACAAGAG GTGGAACTCC AGAAGGTTAT 
CGGGAAGCAG AAACCCTCAG AATGACGGAT AGATTAGCTA AAGTAAAACC CTACCAAGAA 
GACAAAACAG AAAAACCAGA CACCAAAACT CGAAGACACG AAGACATACG GAAGCCTATT 
CAAGAACCTC ACGAACCGAA CTGGCGGCCT GACCCTGACA CTATCAGAGT ATCCAAAGGT 
CAGGACTCTC CCGCCAAGCG GCTGAGGCAA GAGGCTGAGC CGCTGAAGAG AGCGAAGGGG 
GTCGGAGACT CTCCGAGACT GACGCAAGCC CATCAAACCA CACCGAGGCC GGATCATCAT 
AAAAGTAGCC CTAATGTAGC GTCAAGACAT AAATCAGGTT CACCAAACAA GCGAGAAGAC 
CGCAAATCGG CGTCCTACAG CCGCAGCGAC TCCAAACGCC AAGAATCCGT GGAACAGAGA 
AAGATGTACA CCGCCAGCTC TGAATCGGAA CTCTTCGAAT GCGCCATCTT GCCCATCTTC 
CATAAACTAC TTACTGAACG TCACAAAAGC CAACCGCATG GCCTCAACCT TAGTTACGGA 
GTTAGCTGCC CTAATATATC GATAAAATGC GATATTGTTG AGTATTTGTA G

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

RefSeq	XP_013192531.1
CDS	1..4251
Translation	MLPIFLLTLAGVSQAVPQKPNLDAILNRRTDVYIAGFFPFGKGVENSNTAFTMLPIFLLTLAGVSQAVPQKPNLDAILNRRTDVYIAGFFPFGKGVENSNTGRGVMPSVKLALDHVNEHDSVLRNYRLHMWWNDTECNAAVGVKSFFDMMHSGPHKLMLFGAACTHVTDPIAKASKHWHLTQLSYADTHPMFTKEAFPNFFRIVPSENAFNVPRIRLLQHFNWTRVGTIYQNEPRYALAHNRLLADLDSNGFLIEETQSFATEVRTALSKLKEKDVRIILGNFNETWAMKIFCEAYKLEMYGRAYTWLLLGTYSNKWWLRRAPCSKRDLTTALDTTILTDLLPLSTTGETTVSGISAKDYQVEYDRRRGTEYSRFHGYTYDGIWAMALAIQTVAQRVKLKHKEKTVQDFRYRDKEWEQLFLDALSNVTFEGVTGPVRFYDNERKASILLKQFQGDEVGEVKVGEYCAERDHLDLVSWEPFKWIGKNPPKDRTLRLIEHTQVNITIYSVLVSCSVLGILLATGFLAMNIHYRNQRYIKMSSPHLNNLIIVGCMLTYLSVIFLGLDSSLSSIAAFPYICTARAWLLMAGFSLAFGAMFSKTWRVHSIFTDVKLNKKVIKDYQLFMVVGVLLCVDLAIMTTWQISDPFYRATKQMEPYPHPSSEDIVIVQENEYCQSERMTIFIGIIYAYKGLLLVFGAFLAWETRHVSIPALNDSKHIGLSVYNVLIMCIMGAAIALVLSDHKDALFVLIAIFIIFCTTATLCLVFVPKLLELRRNGQPGSAPTRIRATLRPASTHECRSPGPELERRLKELRQYNTRYRRTLQAKENEIQMLLSKLGSDAGSESSTRDSKSPAMQRTRLPVPRENISHPETSDITSVCSLSASAGAEAEYINLQNQQASEIIKPSAPPEPLKEVPKESKKEQTKNVSFKNHLDYTSPPSSKAVPEKDQLAKLPYGWSAEEPSEPTMKPSAKISESAKADAKTTPALKQSDMTIKPIPSKVQESMYTKATPPKVNKTPEFQKKTVKTSDSISTKTTPSREHKEHKTGARGHRRMSSVSQGVLLTELMHVSIDQDDVEPPPGMERKVIGQERDPPPPVTKTKQEIEDILDIDQDYSSIERRKSCQRRDSEKRKKEFIVVQSDLWDTNTFQYTCQKSPPATTKHASSPHDGHHHSPMQRSVSEKSRQQSSPHHHRDPDAMTVERRASNASINYAGTRGGTPEGYREAETLRMTDRLAKVKPYQEDKTEKPDTKTRRHEDIRKPIQEPHEPNWRPDPDTIRVSKGQDSPAKRLRQEAEPLKRAKGVGDSPRLTQAHQTTPRPDHHKSSPNVASRHKSGSPNKREDRKSASYSRSDSKRQESVEQRKMYTASSESELFECAILPIFHKLLTERHKSQPHGLNLSYGVSCPNISIKCDIVEYL

Target ORF information:

RefSeq Version	XM_013337077.1
Organism	Amyelois transitella
Definition	Amyelois transitella gamma-aminobutyric acid type B receptor subunit 2 (LOC106136509), mRNA.

Target ORF information:

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

XM_013337077.1

ORF Insert Sequence:

ATGCTGCCGA TCTTCCTCCT AACCCTGGCC GGTGTCAGCC AGGCCGTGCC CCAGAAGCCG 
AACCTGGACG CCATCCTCAA CCGAAGAACT GATGTCTACA TAGCTGGGTT TTTTCCCTTC 
GGCAAGGGCG TGGAGAACTC AAACACTGCC TTCACGATGC TGCCGATCTT CCTCCTAACC 
CTGGCCGGTG TCAGCCAGGC CGTGCCCCAG AAGCCGAACC TGGACGCCAT CCTCAACCGA 
AGAACTGATG TCTACATAGC TGGGTTTTTT CCCTTCGGCA AGGGCGTGGA GAACTCAAAC 
ACTGGTCGAG GCGTGATGCC GAGCGTGAAG CTGGCGCTGG ACCACGTCAA CGAGCACGAC 
TCCGTGCTGA GGAACTACCG GCTGCACATG TGGTGGAACG ATACTGAGTG CAATGCAGCT 
GTTGGCGTGA AGTCTTTCTT CGATATGATG CACAGTGGCC CTCACAAGCT GATGCTGTTT 
GGAGCAGCTT GCACTCACGT CACGGATCCT ATAGCCAAGG CTTCCAAACA CTGGCATCTG 
ACGCAGCTTT CATACGCAGA CACCCACCCG ATGTTCACCA AGGAAGCGTT CCCGAACTTC 
TTCCGAATCG TGCCTTCAGA GAATGCCTTC AATGTGCCCA GGATTAGGTT ACTGCAGCAC 
TTCAACTGGA CCAGGGTCGG CACCATCTAC CAGAACGAAC CAAGATATGC CTTGGCGCAC 
AACCGGCTCC TGGCTGATTT GGACTCCAAT GGGTTCCTAA TAGAAGAGAC CCAGAGCTTT 
GCGACAGAAG TTAGGACCGC TCTCTCCAAG CTGAAGGAGA AGGACGTCAG GATCATCCTG 
GGTAACTTCA ATGAGACCTG GGCTATGAAG ATCTTCTGCG AAGCTTACAA ATTGGAGATG 
TACGGAAGAG CTTACACCTG GCTTCTTCTG GGGACGTACA GCAACAAATG GTGGTTGCGC 
CGCGCCCCGT GCTCCAAACG AGACCTCACC ACGGCCCTCG ATACCACAAT TCTGACTGAT 
TTACTACCAC TTTCCACAAC TGGTGAAACT ACTGTATCAG GAATTTCCGC AAAAGATTAC 
CAAGTTGAAT ATGATCGAAG AAGAGGCACG GAATACTCAA GATTTCATGG ATATACATAT 
GATGGTATTT GGGCAATGGC CTTAGCTATA CAAACGGTTG CTCAACGGGT GAAATTGAAA 
CACAAGGAGA AAACAGTGCA GGATTTCCGT TATAGAGACA AAGAATGGGA ACAACTGTTC 
CTAGATGCAC TGAGCAATGT TACCTTTGAA GGAGTAACGG GTCCAGTACG TTTCTACGAC 
AACGAGCGTA AAGCATCGAT CCTACTCAAG CAGTTCCAGG GAGATGAAGT AGGAGAAGTG 
AAAGTGGGCG AATACTGCGC GGAAAGAGAT CACCTAGACC TTGTCAGTTG GGAACCATTT 
AAATGGATTG GAAAGAATCC GCCAAAAGAT CGCACACTGA GACTCATTGA GCATACGCAA 
GTTAACATCA CGATCTACTC AGTGCTAGTA TCTTGTTCAG TTCTTGGCAT CCTGCTAGCC 
ACGGGCTTCT TAGCGATGAA CATACATTAC AGAAACCAAA GGTATATAAA AATGTCGTCA 
CCACATTTGA ATAACCTGAT CATCGTGGGC TGTATGCTCA CTTACTTGAG TGTTATTTTC 
CTCGGTCTAG ACTCCAGCCT TAGCAGCATA GCTGCCTTCC CGTATATTTG TACTGCCAGA 
GCGTGGTTGC TGATGGCTGG ATTCAGCTTG GCCTTTGGAG CCATGTTCTC AAAAACCTGG 
CGAGTTCATT CCATCTTTAC AGATGTCAAA TTAAATAAGA AGGTGATCAA AGATTACCAG 
CTATTCATGG TTGTTGGGGT CCTACTATGT GTAGATTTAG CCATAATGAC AACGTGGCAA 
ATATCAGACC CATTCTACAG AGCCACAAAG CAAATGGAAC CTTACCCACA CCCTTCGAGT 
GAAGATATAG TTATAGTGCA AGAAAACGAA TATTGTCAGT CGGAAAGAAT GACTATATTT 
ATTGGTATTA TTTACGCCTA CAAAGGCCTA CTCTTGGTTT TCGGAGCTTT CCTCGCCTGG 
GAGACAAGAC ACGTATCAAT ACCAGCCCTA AATGACTCAA AACACATTGG CCTATCAGTT 
TACAACGTCC TTATCATGTG TATCATGGGA GCCGCTATTG CATTGGTCCT GTCTGATCAC 
AAAGATGCGC TTTTTGTCCT GATTGCTATA TTTATTATAT TCTGTACTAC AGCTACGTTA 
TGTCTCGTTT TTGTGCCTAA GCTTCTAGAA CTTCGCCGTA ATGGTCAACC TGGCTCAGCA 
CCGACCAGGA TCCGTGCTAC CCTCCGGCCG GCCTCAACTC ATGAATGTCG GTCACCAGGG 
CCAGAACTTG AAAGGCGGCT TAAAGAACTA CGACAATACA ATACCAGATA CAGAAGGACG 
CTTCAAGCCA AAGAGAATGA GATACAGATG CTTCTGAGCA AGTTGGGAAG TGACGCTGGT 
TCAGAATCCT CGACGCGAGA CTCCAAATCT CCTGCCATGC AACGGACCAG ATTGCCGGTT 
CCTAGAGAAA ACATCAGCCA TCCTGAGACT AGCGACATAA CATCGGTGTG TAGTCTCAGC 
GCATCAGCCG GTGCAGAAGC GGAATATATC AACCTTCAGA ATCAGCAAGC CAGTGAAATA 
ATAAAGCCAT CAGCGCCGCC GGAACCTCTC AAAGAAGTTC CCAAGGAATC GAAGAAGGAG 
CAGACGAAAA ATGTTTCCTT CAAGAACCAT CTGGACTACA CCAGTCCACC GTCTTCTAAA 
GCTGTGCCTG AAAAGGACCA ACTGGCCAAA CTTCCTTATG GATGGTCCGC AGAGGAACCT 
TCAGAGCCAA CAATGAAACC ATCGGCTAAA ATTTCTGAGT CTGCCAAAGC CGATGCCAAG 
ACTACGCCTG CATTGAAACA AAGTGACATG ACTATTAAAC CCATACCTTC AAAAGTACAA 
GAATCTATGT ATACTAAAGC AACACCGCCT AAAGTAAATA AGACGCCAGA ATTCCAAAAG 
AAGACTGTCA AGACCTCAGA TTCCATTTCC ACTAAGACGA CACCGTCTCG TGAACACAAG 
GAGCACAAAA CGGGAGCAAG GGGCCACCGC CGGATGTCCA GCGTGAGTCA GGGGGTGTTG 
CTGACTGAGC TGATGCACGT GTCGATAGAC CAGGATGACG TGGAACCCCC GCCTGGGATG 
GAGAGGAAAG TCATAGGTCA AGAAAGAGAC CCTCCCCCGC CAGTTACTAA GACTAAGCAA 
GAAATAGAAG ATATTTTAGA CATCGATCAA GATTATTCAT CAATAGAAAG AAGAAAGTCT 
TGTCAAAGAA GAGACTCTGA AAAAAGAAAG AAGGAGTTTA TTGTTGTGCA AAGTGACTTA 
TGGGACACGA ACACATTCCA ATACACGTGT CAGAAATCGC CTCCAGCCAC AACAAAACAT 
GCAAGCTCTC CGCATGATGG TCATCATCAT TCTCCGATGC AGAGAAGTGT ATCGGAGAAG 
AGTCGGCAGC AGTCATCTCC CCACCACCAC CGAGACCCTG ACGCAATGAC AGTAGAAAGA 
AGAGCCTCTA ATGCCTCCAT TAATTATGCT GGCACAAGAG GTGGAACTCC AGAAGGTTAT 
CGGGAAGCAG AAACCCTCAG AATGACGGAT AGATTAGCTA AAGTAAAACC CTACCAAGAA 
GACAAAACAG AAAAACCAGA CACCAAAACT CGAAGACACG AAGACATACG GAAGCCTATT 
CAAGAACCTC ACGAACCGAA CTGGCGGCCT GACCCTGACA CTATCAGAGT ATCCAAAGGT 
CAGGACTCTC CCGCCAAGCG GCTGAGGCAA GAGGCTGAGC CGCTGAAGAG AGCGAAGGGG 
GTCGGAGACT CTCCGAGACT GACGCAAGCC CATCAAACCA CACCGAGGCC GGATCATCAT 
AAAAGTAGCC CTAATGTAGC GTCAAGACAT AAATCAGGTT CACCAAACAA GCGAGAAGAC 
CGCAAATCGG CGTCCTACAG CCGCAGCGAC TCCAAACGCC AAGAATCCGT GGAACAGAGA 
AAGATGTACA CCGCCAGCTC TGAATCGGAA CTCTTCGAAT GCGCCATCTT GCCCATCTTC 
CATAAACTAC TTACTGAACG TCACAAAAGC CAACCGCATG GCCTCAACCT TAGTTACGGA 
GTTAGCTGCC CTAATATATC GATAAAATGC GATATTGTTG AGTATTTGTA G