LOC104457220 cDNA ORF clone, Eucalyptus grandis

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC104457220
Entrez Gene ID	104457220
Full Name	histone-lysine N-methyltransferase SUVR5
Gene Type	protein-coding
Organism	Eucalyptus grandis

mRNA and Protein(s)

mRNA	Protein	Name
XM_010072156.2	XP_010070458.1	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase SUVR5

Pathways from BioSystems
Gene Ontology

The following LOC104457220 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC104457220 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
OEu42721	XM_010072156.2 Latest version!	Eucalyptus grandis histone-lysine N-methyltransferase SUVR5 (LOC104457220), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$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)

LOC104457220 ( XM_010072156.2 ) cDNA ORF clone, Eucalyptus grandis -> XP_010070458.1 Eucalyptus grandis histone-lysine N-methyltransferase SUVR5 (LOC104457220), mRNA.

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CloneID	OEu42721
Clone ID Related Accession (Same CDS sequence)	XM_010072156.2
Accession Version	XM_010072156.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4548bp) 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	2016-10-24
Organism	Eucalyptus grandis
Product	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase SUVR5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010092445.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Oct 25, 2016 this sequence version replaced XM_010072156.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Eucalyptus grandis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGAGTGGC TCTCTCGTAC AAAACAATAT GCTGGAAAAA CAGATTGCTC CCAACAGATT 
TCAGAGACAA ATGCTGTCCA TGATGGAGAA TCTGTACACC TTGAATCTGA GAAACGAGTT 
CAAACTTCAG ATAGCAGAGT AGATACTGTA TTCTTTACTG TGGATGGGAA AGGAAATGAT 
GTACAAGTTG ATGGTGAAGA AGCAGTCCAC CATACACGTG ATCTTGAGGA CCAGTTGGGT 
GGAGCTTCAC ATTCTGATTG CTCAATGGAT GACCCAAAAG CATCTAGTGG TTCTCTTGAT 
TTTGAAGAAA GTAACATAAA TGAACAGACC TATTGCACCG AATCTTTATT GGCATCTGAG 
AATTCTCAAA TAATCGTGGA TACTATTGAA AGTGAACTGC CAAGCAATAA CAGGGATGGA 
GAATCATCAG TTTCTGAGCC TAAGTGGCTA GAGGGAGATG AATCTTTAGC ATTATGGGTG 
AAGTGGAGAG GTAAGTGGCA GGCAGGGATA AAATGCGAAA GGGCTGACTG GCCATTATCA 
ACTTTGAAAG CAAAGCCAAC TCATGAGAGG AAGAAGTACT TTGTCATATT TTTCCCACAC 
ACAAGAAATT ATTCATGGGC AGATATGCTT CTCGTTCGTC CTATTTATGA ATTTCCAGAG 
CCCATTGCTC ATAGGACACA TAAAGCTGGA ATAAAAACAG TCAAAGATTT GACAGTTGCA 
CGCCGTTTTA TAATGCGGAA GCTAGCTGTT GGCATGTTAA ATATTGTCGA TCAGTTGCAC 
CTACAGGCCT TGATAGAGGC TGCAAGGGAT GTACTTGTCT GGAAGGAGTT TGCTACGGAA 
GCATCTCATT GCACTGGCTA TACCGATCTT GGAAGGATGC TCTTGAAGCT GCACACTATG 
ATATTGCAGC GCTACATAAG TTCTGAATGG CTACAGCAAG CATTTACTAG TTGGGAACAG 
AGGTGTCAGA AGGCAGACAG CGCTGAAACT ATTGAATTGT TGACGGAGGA ATTGTTTGAT 
TCTGTCTTGT GGAAGGAGGT AAACTCCTTG GAGGCTCCAA TGCAGCCCCT GCTGAATTCT 
CAGTGGAGAA CCTGGAAGCA TGATGTTACG AAACTGTTCT CAACGTCTCA TCCTGAATTT 
ACTGGTGCAA ACATTGACAG CCGAGAGAAT GGTGATCCCA TAGTCCCCAA TCTCCAGATG 
AATAGGAAGA GGCCCAAACT TGAAGTTCGT CGTGCAGATG TGCATACTTC TCAGATAGAA 
AGCAAAGGAT CTGATGAGGC TGCAACTGTC GAGATTGATT CTGAATTTTT CAACTCTCGA 
GACACTGTAA ATGGTTCTGC TTTAATGTCT GAACCTCGTC AGCATGAACC TCCAGGTATA 
GGTGGCGAAG CGATGGCTTC ACCAGGTAGT GTGGCTGAAT GGGACAAAAT TGTTGTGGAG 
GGAAAACATG GTGACTCAAT CCAAGCCAAC AATATTGGAT TGAATCTTGC AAAACCTGTG 
GAAACGACAC CTGTAAACGA AACGGTCAGT AAAAAGGCCT TATTTACTGG TGGTAAGAGT 
CGGCAGTGTG TAGCTTTTAT TGAATCCAAA GGAAGGCAAT GCGTTAGGTC AGCCAACGAA 
GGTGATGTTT ACTGCTGTGT GCATTTGGCC TCTCGGTTTT TGGGAAGTTC CGCTAGAGCA 
GAAAGGACGC CTCCTGCTGA AACACCGCCC TGTCAAGGTA CCACAGTATT AGGCACAAAA 
TGCAAGCACC GTTCTCTTCC GGGCTCCACA TTCTGTAAGA AGCACAGGCC TCAAACTGAC 
CATACTAAAA GCTCAGTTGT GTCAGAAAAT TCACACAAGA GAAAGCATGA AGAGAGTATC 
TGGAGGTCAG AAAATGTGCA TTCTAAAGGT GTGGAAGCAG GGAGAGTTCA AAGTCTGGTC 
CGAGCTGATC CTGTCACAGT TTCACTGTCA ACAGTTAAAG GCTTTGGTGA GATGCCAGAG 
CATTCTGGTA GAAATTTAAA TGGCATGGAG GTGGCCCCCC ACTGTATTGG CTTGTTATCG 
CCTGATAAGA CTGAGCAATG CATGGATAAT CCAAGTCGTT ATTCGTTGTA CTGTGACAAG 
CACCTTCCGA GCTGGCTTAA ACGAGCGAGG AATGGTAAGA GTAGGATAAT TTCAAAAGAA 
GTGTTTTTAG AGCTTTTAGA AGATTGCTCC TCTGAGGAAC AAAAGATCCA TTTACATCAG 
GCGTGTGAGC TATTCTTTAG GCTGTTTAAA AGCATTTTGT CTCTTCGGAA CCCAGTTCCC 
ATGGAAGTGC AGCTCCAGTG GGCCCTATCT GAAGCTTCCA AAGATCTTCG TGTCGGGGAA 
TTTCTCATGA AGTTGGTCTG CTCTGAAAAA GAAAGACTAA CGAGAATTTG GGGCTGCGGT 
GCCACTGAAG ATGGACAAGA TATTCTGCCG GAAATGGAAG AAGAGGCTAT GTTACCGTTG 
ACAGATGATG GTAGCAACAA CGACGAAAAG GTGATCAAGT GCAAGATTTG CTCGGAAGAA 
TTTGTCAGTG ATCAAGTCCT TGGTAGCCAT TGGATGGACA GACATAAGAA GGAAGCACAG 
TGGCTGTTTA GAGGCTATGC TTGTGCCATT TGCCTTGATT CTTATACCAA CAAGAAGGTT 
TTAGAAACAC ATGTGCAGGA GAGACACCAT GTGCAATTTG TGGAGCAGTG CAAACTTCTT 
CAGTGTATTC CTTGTGGAAG CCATTTTGGA AACGTGGAAG AGCTATGGTC ACATGTTCTC 
TCTGTTCACC CTTCAGAATT CAGATCGTCA AAGGTTGCTC GAAAACCTAA TCCCTCAGCA 
GTGGAGGATT TACCTTTGAA ACCTGAGCCT GCAAACTTAG CCCCTATAGA CAATAACACT 
GTAAAAGCAA GTGGTGTGCG AAAGTTCGTT TGCAGGTTCT GCGGGTTAAA ATTTAATTTG 
CTTCCAGATC TCGGCCGTCA TCATCAAGCT GCTCATATGG GGCCAAGTTT AGCCAGTTCT 
CGGCCTTCAA AGAAAGGTGT ACGTTACTAT GCTTATCAGA TGAAATCGGG GAGACTTAGT 
CGCCCAAGAT TTAAAAAAGC TTTGGGTGCG GCATCTTATA GGATCAGAAA TAGGGCTAGC 
TTGAAAAAGC GTATCCAGGC GTCGAAATCA CTTAGCTCCA TGGTAACAAA TTTGCAGCCT 
CATGTGACAG AAGTAGCCAG ATATACCAGG TTGGCAGAAT CTGAATGCTC AAGAATTGCA 
CAAGTGCTGT TCTCTCATAT TCAGAAAACT AAATGTCGGC CAAGCAATTT GGATGTTTTA 
TCTATTGCTC GCTCTGCTTG CTGCAAATAC AGCATTAAAG CCTCATTTGA ACAGATGTAT 
GGAGTATTGC CTGAACGCTT TTACTTGAAG GCAGCCAAAC TATGCAGTGA GAACAATATT 
CACGTTAGCT GGCACTTAGA TGATTTTGTT TGTCCTAATG GATGTAAACC AGAGGAAGAT 
CCCCGTGTGT TGTCTCCATT GATCCCTCTT TCAAAGGGTA ATGTCGATCA TAGTTCTCAA 
CATTTAGCAG AGCATCTGGA TGACGAGTGG GAAGTGGATG AGAGCCACTA TGTCATTGAC 
TCGCAACAGT TAAAATCTAG GACACCGCAA AATGCCATTG TCTTGTGTGA AGACATAAGC 
TTTGGGCGTG AATCAGTTCC AATAGCTTGT GTGGTGGATG AATGGCTTTT GGATTCTCTT 
GATGTTGTTG GAGCTGAAGG CCAAAATGCC ATATGTTCCA TGCCTTGGGA GAGCTTTACT 
TATGTTACGA AGCCAGTAGT TGACCAATCT GCTGCCTTTG AAACAGAGAG TTTGCAATTT 
GGGTGTACTT GCAAGAATTT TTCATGCAGA CAAGAAGCAT GTGATCATGT ATACCTTTTT 
GATAATGACA ATGAAGATGC AAAAGACATT TATGGAAGGT CCATGCATGG AAGATTCCCC 
TATGATGAGT TTGGTCGCAT CATACTGGAG GAGAGCTACC TTGTATATGA GTGCAATCGC 
ATGTGCCACT GCAGCAAGAC TTGTCACAAT AGAGTTTTGC AGAGAGGAGT TCGGCTAAAA 
TTGGAAGTCT TCAGAACAGA GAAAAAGGGT TGGGCAGTCC GGGCAGGTGA AGCAATCTCG 
CGAGGCACAT TTGTATGCGA GCATATTGGG GAAGTTTTAG ACGACTTAGA GGCGGATAAT 
CGGCGGAAGA GGTATGATGG CAAAGAAGGT GGCAGTTATC TCTTTGACAT TAATTCCCAT 
TTTAAGGATA TGAGCAGATT AACCGAAGAA GAGGTCAAGT ATGTGATTGA TGCAACGAAG 
TATGGAAATG TTTCTCGCTT CATAAATCAC AGCTGTTCGC CTAATCTATT GAATCATCGA 
GTTCTCGTGG AAAGCATGGA AAGCCATCGT GCACATATCG GGTTTTATGC AAGCCGAGAC 
ATAGCTTCAG GTGAGGAATT AACCTACGAC TATCATTATG AAGTTCTTCC TGGAGAGGGT 
GCTCCTTGCC ACTGTGAAGC ATCCAACTGC CGCGGCCGTC TATACTGA

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

RefSeq	XP_010070458.1
CDS	870..5417
Translation	MEWLSRTKQYAGKTDCSQQISETNAVHDGESVHLESEKRVQTSDSRVDTVFFTVDGKGNDVQVDGEEAVHHTRDLEDQLGGASHSDCSMDDPKASSGSLDFEESNINEQTYCTESLLASENSQIIVDTIESELPSNNRDGESSVSEPKWLEGDESLALWVKWRGKWQAGIKCERADWPLSTLKAKPTHERKKYFVIFFPHTRNYSWADMLLVRPIYEFPEPIAHRTHKAGIKTVKDLTVARRFIMRKLAVGMLNIVDQLHLQALIEAARDVLVWKEFATEASHCTGYTDLGRMLLKLHTMILQRYISSEWLQQAFTSWEQRCQKADSAETIELLTEELFDSVLWKEVNSLEAPMQPLLNSQWRTWKHDVTKLFSTSHPEFTGANIDSRENGDPIVPNLQMNRKRPKLEVRRADVHTSQIESKGSDEAATVEIDSEFFNSRDTVNGSALMSEPRQHEPPGIGGEAMASPGSVAEWDKIVVEGKHGDSIQANNIGLNLAKPVETTPVNETVSKKALFTGGKSRQCVAFIESKGRQCVRSANEGDVYCCVHLASRFLGSSARAERTPPAETPPCQGTTVLGTKCKHRSLPGSTFCKKHRPQTDHTKSSVVSENSHKRKHEESIWRSENVHSKGVEAGRVQSLVRADPVTVSLSTVKGFGEMPEHSGRNLNGMEVAPHCIGLLSPDKTEQCMDNPSRYSLYCDKHLPSWLKRARNGKSRIISKEVFLELLEDCSSEEQKIHLHQACELFFRLFKSILSLRNPVPMEVQLQWALSEASKDLRVGEFLMKLVCSEKERLTRIWGCGATEDGQDILPEMEEEAMLPLTDDGSNNDEKVIKCKICSEEFVSDQVLGSHWMDRHKKEAQWLFRGYACAICLDSYTNKKVLETHVQERHHVQFVEQCKLLQCIPCGSHFGNVEELWSHVLSVHPSEFRSSKVARKPNPSAVEDLPLKPEPANLAPIDNNTVKASGVRKFVCRFCGLKFNLLPDLGRHHQAAHMGPSLASSRPSKKGVRYYAYQMKSGRLSRPRFKKALGAASYRIRNRASLKKRIQASKSLSSMVTNLQPHVTEVARYTRLAESECSRIAQVLFSHIQKTKCRPSNLDVLSIARSACCKYSIKASFEQMYGVLPERFYLKAAKLCSENNIHVSWHLDDFVCPNGCKPEEDPRVLSPLIPLSKGNVDHSSQHLAEHLDDEWEVDESHYVIDSQQLKSRTPQNAIVLCEDISFGRESVPIACVVDEWLLDSLDVVGAEGQNAICSMPWESFTYVTKPVVDQSAAFETESLQFGCTCKNFSCRQEACDHVYLFDNDNEDAKDIYGRSMHGRFPYDEFGRIILEESYLVYECNRMCHCSKTCHNRVLQRGVRLKLEVFRTEKKGWAVRAGEAISRGTFVCEHIGEVLDDLEADNRRKRYDGKEGGSYLFDINSHFKDMSRLTEEEVKYVIDATKYGNVSRFINHSCSPNLLNHRVLVESMESHRAHIGFYASRDIASGEELTYDYHYEVLPGEGAPCHCEASNCRGRLY

Target ORF information:

RefSeq Version	XM_010072156.2
Organism	Eucalyptus grandis
Definition	Eucalyptus grandis histone-lysine N-methyltransferase SUVR5 (LOC104457220), mRNA.

Target ORF information:

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

XM_010072156.2

ORF Insert Sequence:

ATGGAGTGGC TCTCTCGTAC AAAACAATAT GCTGGAAAAA CAGATTGCTC CCAACAGATT 
TCAGAGACAA ATGCTGTCCA TGATGGAGAA TCTGTACACC TTGAATCTGA GAAACGAGTT 
CAAACTTCAG ATAGCAGAGT AGATACTGTA TTCTTTACTG TGGATGGGAA AGGAAATGAT 
GTACAAGTTG ATGGTGAAGA AGCAGTCCAC CATACACGTG ATCTTGAGGA CCAGTTGGGT 
GGAGCTTCAC ATTCTGATTG CTCAATGGAT GACCCAAAAG CATCTAGTGG TTCTCTTGAT 
TTTGAAGAAA GTAACATAAA TGAACAGACC TATTGCACCG AATCTTTATT GGCATCTGAG 
AATTCTCAAA TAATCGTGGA TACTATTGAA AGTGAACTGC CAAGCAATAA CAGGGATGGA 
GAATCATCAG TTTCTGAGCC TAAGTGGCTA GAGGGAGATG AATCTTTAGC ATTATGGGTG 
AAGTGGAGAG GTAAGTGGCA GGCAGGGATA AAATGCGAAA GGGCTGACTG GCCATTATCA 
ACTTTGAAAG CAAAGCCAAC TCATGAGAGG AAGAAGTACT TTGTCATATT TTTCCCACAC 
ACAAGAAATT ATTCATGGGC AGATATGCTT CTCGTTCGTC CTATTTATGA ATTTCCAGAG 
CCCATTGCTC ATAGGACACA TAAAGCTGGA ATAAAAACAG TCAAAGATTT GACAGTTGCA 
CGCCGTTTTA TAATGCGGAA GCTAGCTGTT GGCATGTTAA ATATTGTCGA TCAGTTGCAC 
CTACAGGCCT TGATAGAGGC TGCAAGGGAT GTACTTGTCT GGAAGGAGTT TGCTACGGAA 
GCATCTCATT GCACTGGCTA TACCGATCTT GGAAGGATGC TCTTGAAGCT GCACACTATG 
ATATTGCAGC GCTACATAAG TTCTGAATGG CTACAGCAAG CATTTACTAG TTGGGAACAG 
AGGTGTCAGA AGGCAGACAG CGCTGAAACT ATTGAATTGT TGACGGAGGA ATTGTTTGAT 
TCTGTCTTGT GGAAGGAGGT AAACTCCTTG GAGGCTCCAA TGCAGCCCCT GCTGAATTCT 
CAGTGGAGAA CCTGGAAGCA TGATGTTACG AAACTGTTCT CAACGTCTCA TCCTGAATTT 
ACTGGTGCAA ACATTGACAG CCGAGAGAAT GGTGATCCCA TAGTCCCCAA TCTCCAGATG 
AATAGGAAGA GGCCCAAACT TGAAGTTCGT CGTGCAGATG TGCATACTTC TCAGATAGAA 
AGCAAAGGAT CTGATGAGGC TGCAACTGTC GAGATTGATT CTGAATTTTT CAACTCTCGA 
GACACTGTAA ATGGTTCTGC TTTAATGTCT GAACCTCGTC AGCATGAACC TCCAGGTATA 
GGTGGCGAAG CGATGGCTTC ACCAGGTAGT GTGGCTGAAT GGGACAAAAT TGTTGTGGAG 
GGAAAACATG GTGACTCAAT CCAAGCCAAC AATATTGGAT TGAATCTTGC AAAACCTGTG 
GAAACGACAC CTGTAAACGA AACGGTCAGT AAAAAGGCCT TATTTACTGG TGGTAAGAGT 
CGGCAGTGTG TAGCTTTTAT TGAATCCAAA GGAAGGCAAT GCGTTAGGTC AGCCAACGAA 
GGTGATGTTT ACTGCTGTGT GCATTTGGCC TCTCGGTTTT TGGGAAGTTC CGCTAGAGCA 
GAAAGGACGC CTCCTGCTGA AACACCGCCC TGTCAAGGTA CCACAGTATT AGGCACAAAA 
TGCAAGCACC GTTCTCTTCC GGGCTCCACA TTCTGTAAGA AGCACAGGCC TCAAACTGAC 
CATACTAAAA GCTCAGTTGT GTCAGAAAAT TCACACAAGA GAAAGCATGA AGAGAGTATC 
TGGAGGTCAG AAAATGTGCA TTCTAAAGGT GTGGAAGCAG GGAGAGTTCA AAGTCTGGTC 
CGAGCTGATC CTGTCACAGT TTCACTGTCA ACAGTTAAAG GCTTTGGTGA GATGCCAGAG 
CATTCTGGTA GAAATTTAAA TGGCATGGAG GTGGCCCCCC ACTGTATTGG CTTGTTATCG 
CCTGATAAGA CTGAGCAATG CATGGATAAT CCAAGTCGTT ATTCGTTGTA CTGTGACAAG 
CACCTTCCGA GCTGGCTTAA ACGAGCGAGG AATGGTAAGA GTAGGATAAT TTCAAAAGAA 
GTGTTTTTAG AGCTTTTAGA AGATTGCTCC TCTGAGGAAC AAAAGATCCA TTTACATCAG 
GCGTGTGAGC TATTCTTTAG GCTGTTTAAA AGCATTTTGT CTCTTCGGAA CCCAGTTCCC 
ATGGAAGTGC AGCTCCAGTG GGCCCTATCT GAAGCTTCCA AAGATCTTCG TGTCGGGGAA 
TTTCTCATGA AGTTGGTCTG CTCTGAAAAA GAAAGACTAA CGAGAATTTG GGGCTGCGGT 
GCCACTGAAG ATGGACAAGA TATTCTGCCG GAAATGGAAG AAGAGGCTAT GTTACCGTTG 
ACAGATGATG GTAGCAACAA CGACGAAAAG GTGATCAAGT GCAAGATTTG CTCGGAAGAA 
TTTGTCAGTG ATCAAGTCCT TGGTAGCCAT TGGATGGACA GACATAAGAA GGAAGCACAG 
TGGCTGTTTA GAGGCTATGC TTGTGCCATT TGCCTTGATT CTTATACCAA CAAGAAGGTT 
TTAGAAACAC ATGTGCAGGA GAGACACCAT GTGCAATTTG TGGAGCAGTG CAAACTTCTT 
CAGTGTATTC CTTGTGGAAG CCATTTTGGA AACGTGGAAG AGCTATGGTC ACATGTTCTC 
TCTGTTCACC CTTCAGAATT CAGATCGTCA AAGGTTGCTC GAAAACCTAA TCCCTCAGCA 
GTGGAGGATT TACCTTTGAA ACCTGAGCCT GCAAACTTAG CCCCTATAGA CAATAACACT 
GTAAAAGCAA GTGGTGTGCG AAAGTTCGTT TGCAGGTTCT GCGGGTTAAA ATTTAATTTG 
CTTCCAGATC TCGGCCGTCA TCATCAAGCT GCTCATATGG GGCCAAGTTT AGCCAGTTCT 
CGGCCTTCAA AGAAAGGTGT ACGTTACTAT GCTTATCAGA TGAAATCGGG GAGACTTAGT 
CGCCCAAGAT TTAAAAAAGC TTTGGGTGCG GCATCTTATA GGATCAGAAA TAGGGCTAGC 
TTGAAAAAGC GTATCCAGGC GTCGAAATCA CTTAGCTCCA TGGTAACAAA TTTGCAGCCT 
CATGTGACAG AAGTAGCCAG ATATACCAGG TTGGCAGAAT CTGAATGCTC AAGAATTGCA 
CAAGTGCTGT TCTCTCATAT TCAGAAAACT AAATGTCGGC CAAGCAATTT GGATGTTTTA 
TCTATTGCTC GCTCTGCTTG CTGCAAATAC AGCATTAAAG CCTCATTTGA ACAGATGTAT 
GGAGTATTGC CTGAACGCTT TTACTTGAAG GCAGCCAAAC TATGCAGTGA GAACAATATT 
CACGTTAGCT GGCACTTAGA TGATTTTGTT TGTCCTAATG GATGTAAACC AGAGGAAGAT 
CCCCGTGTGT TGTCTCCATT GATCCCTCTT TCAAAGGGTA ATGTCGATCA TAGTTCTCAA 
CATTTAGCAG AGCATCTGGA TGACGAGTGG GAAGTGGATG AGAGCCACTA TGTCATTGAC 
TCGCAACAGT TAAAATCTAG GACACCGCAA AATGCCATTG TCTTGTGTGA AGACATAAGC 
TTTGGGCGTG AATCAGTTCC AATAGCTTGT GTGGTGGATG AATGGCTTTT GGATTCTCTT 
GATGTTGTTG GAGCTGAAGG CCAAAATGCC ATATGTTCCA TGCCTTGGGA GAGCTTTACT 
TATGTTACGA AGCCAGTAGT TGACCAATCT GCTGCCTTTG AAACAGAGAG TTTGCAATTT 
GGGTGTACTT GCAAGAATTT TTCATGCAGA CAAGAAGCAT GTGATCATGT ATACCTTTTT 
GATAATGACA ATGAAGATGC AAAAGACATT TATGGAAGGT CCATGCATGG AAGATTCCCC 
TATGATGAGT TTGGTCGCAT CATACTGGAG GAGAGCTACC TTGTATATGA GTGCAATCGC 
ATGTGCCACT GCAGCAAGAC TTGTCACAAT AGAGTTTTGC AGAGAGGAGT TCGGCTAAAA 
TTGGAAGTCT TCAGAACAGA GAAAAAGGGT TGGGCAGTCC GGGCAGGTGA AGCAATCTCG 
CGAGGCACAT TTGTATGCGA GCATATTGGG GAAGTTTTAG ACGACTTAGA GGCGGATAAT 
CGGCGGAAGA GGTATGATGG CAAAGAAGGT GGCAGTTATC TCTTTGACAT TAATTCCCAT 
TTTAAGGATA TGAGCAGATT AACCGAAGAA GAGGTCAAGT ATGTGATTGA TGCAACGAAG 
TATGGAAATG TTTCTCGCTT CATAAATCAC AGCTGTTCGC CTAATCTATT GAATCATCGA 
GTTCTCGTGG AAAGCATGGA AAGCCATCGT GCACATATCG GGTTTTATGC AAGCCGAGAC 
ATAGCTTCAG GTGAGGAATT AACCTACGAC TATCATTATG AAGTTCTTCC TGGAGAGGGT 
GCTCCTTGCC ACTGTGAAGC ATCCAACTGC CGCGGCCGTC TATACTGA