DDX60 cDNA ORF clone, Galeopterus variegatus(Sunda flying lemur)

Gene
Clones
gRNAs

Summary

Gene Symbol	DDX60
Entrez Gene ID	103601928
Full Name	DExD/H-box helicase 60
Gene Type	protein-coding
Organism	Galeopterus variegatus(Sunda flying lemur)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008586335.1	XP_008584557.1	probable ATP-dependent RNA helicase DDX60

Pathways from BioSystems
Gene Ontology

The following DDX60 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DDX60 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
OGa112718	XM_008586335.1 Latest version!	Galeopterus variegatus DEAD (Asp-Glu-Ala-Asp) box polypeptide 60 (DDX60), 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)

DDX60 ( XM_008586335.1 ) cDNA ORF clone, Galeopterus variegatus(Sunda flying lemur) -> XP_008584557.1 Galeopterus variegatus DEAD (Asp-Glu-Ala-Asp) box polypeptide 60 (DDX60), mRNA.

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CloneID	OGa112718
Clone ID Related Accession (Same CDS sequence)	XM_008586335.1
Accession Version	XM_008586335.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4863bp) 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	2014-07-21
Organism	Galeopterus variegatus(Sunda flying lemur)
Product	probable ATP-dependent RNA helicase DDX60
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007730052.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Galeopterus variegatus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTCACAGT TAATTTTGAG TGAAATGCCA AAAGCTGAAT ATTCCAGTAT ATTCAATGAT 
TTTGTTGAAT CTGAATTTTT TGTGATTGAT GGAGATTCAT TACTTATCAC ACATATATGT 
GAGAAATCTT TAAAGCCGGG GCAGAATCTC CACTTCTTCT ATCTGATTGA ACACTATTTT 
GTGGATATTA TTAGTAAAGG AGGACAGTTT GCCATAGTTT TTTTCAAGGA TGCAGAGGAT 
GCATATTTCA GCTTCCCTGA ACTTCTTTCT TTGAGAACTG CTTTAATCCT TCATCTTCAG 
AATAATACTA CCATTGATGT TCGAACTGAA TTTTCTGGAT GCTTATCAAA GGAGTGGAAA 
ATTTTCTTGG AAGAGAGTTG CCCATATTTC CTGATAGTTG CAGATGAAGG CCTTAACAAT 
CTACAAACAC AACTTTTTAG CTCTTTAATC ATTCAGTCTT GGGCAATGAA GGTCAATGTT 
GTGCTTTTCT CAGGGCAAGC ATCTAATATT CTTCGACTTT ATGCATACTT TTTGCCAAGC 
ATGAACAGAA ACCAGATATT TTTCAAGGAG AATAAAAACA AGATTGAAGA TGCTTATAAA 
ACCCTGCTTA AACAGTTGAA TAACTGTAGA GTTTCTGCAA TATCATCTCT TTTTAGAAAT 
TTAAAATGGG AAAATATGAT GGAAGAGGCA TATGAGACTA TATCGCTGCT GAAGCAACTC 
TGGCCAGAAG GATCTGACAT TCGGCGTGTC CTTTGTGTTA CTTCATGCTC ATTGTCTTTA 
AGAATATACC ATAACTTTTT AGAAAACAGA AAGAAGACCA CCTCTAACCA GAAAAGTAAC 
GTCAAGCAGA CGGGAAGTAA TTGCTTAACC CTGCAGGAGA TGGAAGACTT ATGTAAACTG 
CATTGTCTCA GTGTGGTTTT TCTACTCCAC CTACCTCTTT CTCAAAGAGC GTGTACTAGA 
GTCATCACTT CTCACTGGAT TGAGAACATT CAGACTTCAT TAAAAATGAA AAGGTGGTGT 
GAATATTTCA TCCTAAGTAA TATAAACATT TTTGAATTTT GGAATATGAA TTTAACTCAC 
CTGCCTGACT TAAGTGATGA GCCTTTACTG AAGAATATTG CTTTTTACTA TGAAAACGAA 
ACTGTACAAG GGCTGCATTT GGATTTGGGA AAAGTCATTA TGGAGGATTA TGAACATCTC 
TGGGATACTG TATCAAAGTT AGTCAGAAAG TTTGATGTTG GAAAGCCATT TCCTTTGAGA 
ACAACAAAAC TTCATTTTCT TGGAAATAAT CCATCACCAA TCAGAGACAG CTCCAAGAAA 
AAGATGCCTA ATTTGGGTTT TATTCCAGTG TCATCTAACG TGGTTGATAA GTTCGCTGGA 
GACATTTTGA AAGATTTGCC TTTCCTAAAG AGCAACGATC CTATTGTTAC TTCACTGATT 
AAACAAAAGG AATTTGATGA ACTGGTGCAC TGGCATTCTC ACAAACCCCT TAGTGATCAT 
TACGACAGGA CAAAGTGTCA ATTTGATGAA AAATCCAGAG ACCCTCGTGT TCTTAGAGCT 
GTGCAAAAGT ATCATGTTTT TCAACGATAT TATGGGAATT CATTAGAATC AGTGTCTTCC 
AAAATCATCG TGACTCAAGC TATTAATCCA AAGAAGGATT TAAGTGGACC CAAGAGCAAA 
AAGTCTCATG TAGCAAAAAT AGGTGAAACC ACAAAGGATT TAGGTATAGC TGTTCAAATG 
ATGAAAAGGA TCCATTCCTT GATGGAAAAA TACCCAGAAC TTTTGCAAGA AGCAGATCGG 
CATCTCATAG TCAGATGCCT TAAGTATTTA GGATTTGATG AGTTGGCAAG TTCCTTATAT 
CCAACCCAGG ATGCAGGAGA TGACATAAAG AAGAAGAAAA AGAATAAATA TTCAATTGGC 
ATTGGACCAG CTAGGTTTCA ACTACAATAC ATGGGCCATT ATTTGATACG AGATGAGAGA 
AAAGATCCAG ATCCCAGGGT CCAGGACTTT ATTCCTGACA CATGGCAGCG AGAGCTCCTC 
GACGTCGTGG ATAATTATGA GTCAGCAGTG ATCGTTGCCC CAACGTCCTC AGGCAAAACC 
TATGCTTCCT ACTACTGCAT GGAGAAAGTG CTGACGGAGA GCGATGAAGG GGTGGTTGTG 
TATGTTGCAC CCACAAAGGC TCTTGTTAAT CAAGTGGCAG CAACTGTTCA GAATCGTTTT 
ACCAAAAATC TGCCAGGTGG TGAAGCTCTA TGTGGTGTTT TTACAAGGGA CTATCGTCAT 
TATGCCCTAA ACTGTCAGGT GCTTATTACA GTGCCTGCCT GCTTTGAAAT TCTGCTGCTA 
GCTCCTCATC GCCAACACTG GGTAAAAAGG ATCAGATATG TTATATTTGA TGAGGTCCAT 
TGTCTGGGTG GAGAAATTGG AGCAGAAATC TGGGAGCACA TCCTTGTCAT GATCCGATGT 
CCCTTTTTGG CTCTTTCGGC TACCATAAGT AACCCTGAAC ATCTCACTGA GTGGCTACAA 
TCAGTGAAAC AGTACTGGAG ACAAGAAAAC AATAGAATGG AAAAAAATAT TGCTTCTAAG 
AGAAATGCTG GCTATCATGC CAGTGTTCCC AAAGACTACT TGCAATTAAA ACAATCATAT 
AAAGTTAGAC TTGTGCTCTA TGGAGAGAGG TACAATGATT TAGAGAAGCA TATATGTTCA 
GTAAGACATG GTGACATTCA TTTCGATCAT TTTCACCCAT GTGCTGCACT AACGACAGAC 
CATATTGAAA AATACGGATT CCCTTCTGAT CTTACTCTTT CACCTCGAGA AAGCATCCAG 
CTTTATGATA CCATGTTTCA AACCTGGGAA AGTTGGCCCC GGGCCCAGGA ACTGTGTCCA 
GAGAACTTCA TTCATTTTAA GAATAAATTA GTAATTAAAA AGATGGATGC CAGAAAATAT 
GAAGAGAGCT TAAAGGAAGA ATTAACAAGA TGGACTAAAG AAGGCAATGT ACAGGAGGTT 
AAAATGGTAC TGGAAAATCT TAGTCCTGAT TTGGATTTTA GTTCAGAAAA TATGGTAAAA 
ATGTTTCCAC TTTTCGTTGA AAAGCTAAGA AAAATGAAGA AGTTACCTGC ACTATTTTTT 
TTATTCAAAC TAAGAGATGT AGAAGAAAGA GCTAAAAGTG TGAGCACTTT CCTGGAAGAA 
AAGCAGGAGA GAAAAAGGCC TCCCAAAGCT GATAAAGCAG CCCATGACAT GGCGAACAAA 
CTTCGGAAAG TTAAAAAGTC CATGGACAAA CAAAAGATAA TAGATGAAAG AAGCCAGAAA 
AAAACCAGAA AAATGGACCA AAGCCTAATA CATGAAGCTG AACATGATAA TCTACTGAAG 
AGTCTAGAGA AAAACCTGGA AATCCCTCAG GACTGCACAC ATGCTGATCA AAAAGTGATA 
GATGCTGAGA CTTTGCAGAT GGTGTTTGAT CGAGTAAAAT TTCAAAGAAA AGGTGCAGAA 
CTGAAAGCTT TGGCAGAAAG GGGTATTGGA TACCATCACA GATCTATGAG CTTCAAAGAA 
AAACAATTAG TTGAAATTCT CTTTAGAAAA GGATTTATCA GGGTGGTGAC AGCTACTGGG 
ACACTTGCTT TAGGAGTCAA CATGCCTTGT AAATCTGTAG TTTTTGCTCA AAACTCAGTC 
TATCTGGATG CTTTAAATTA CAGACAGATG TCTGGTCGTG CTGGAAGACG AGGTCAAGAC 
CTGTTGGGAG ATGTGTATTT CTTTGATATT CCATTGCCCA AAATAGGAAA ACTCATAAAA 
TCCAAGGTTC CTGAGCTGAG AGGACAGTTC CCTCTGAGCA TTTCCCTGGT CCTGCGACTC 
ATGCTGCTGG CCTCCAAAGG AGATGACCCA GAGGATGCCA CGGCAAAGGT GCTGTCAGTG 
CTAAAGCATT CATTGCTGTC CTTCAAACGC CCCAGAACCA TGCACATGTT AAAACTTTAC 
TTCTTGTTTA CTCTGCAGTT CCTGGTGAAG GAGGGCTATT TAGATCAAGA AGCCAATCCT 
ATGGGGTTTG CTGGACTTGT ATCACATTTG CATTACCATG AACCTTCTAA TCTTGTTTTT 
GTCAGTTTTC TTGTAAAAGG CCTTTTTCAC AATCTTTGTC AGCCAACCAG TAAAGGTTCA 
AAACATTTTT CTCAAGATGT TATGGAAAAG TTGGTGTTAG TATTGGCACA TCTCTTTGGA 
AGGAAACATT TTCCATCAAA GTTCCAAGAT GCTAACCTCA AGTTTTATCA ATCAAAGGTG 
TTCCTTGATG ATCTCCCGGA GGATTTCAGT GATGCTTTAC ATGAGTATAA CATGGCAGTT 
ACAAAGGATT TTGCCTCTTT CCTACTCATT GTTTCCAAAC TGGCTGATAT GAAACAGGAA 
TATCAACTCC CTTTATCAAA AATCAATTTC ACAGGTAATG AGTGTAAAGA CTCCCAGCTT 
GTGTCTCACT TGATGAACTG CAAGGAAGGA AGAGTAGCTG TTTCACCATT TGTTTGTCTC 
TCTGGGAACT CTGACTGTGA TCTGCTTCAA CCAGACACTC CAAACCATGT CATTCTACGT 
ACAATTGGTA TTGATCACAC TCAAGCTCCT GTGCTGCAGT CACAGAAATT TGATAGCCGT 
GGAAGAAGAT TATCACTTAA TGCTTATGCG CTTGATTTCT ACAAACACGG TTCATTGATA 
GGATTAGTCC AGGATAACAA GATGAATGAA GGAGAAGCTT ACCTTTTGTT GAAAGATTTT 
GCACTCACCA TTGAAGCTAT CAGTGTTTCC TTGCGTGAAC TATGTGAAGA TGAAGGTGAC 
AATGTTGTCT TAGCATTTGA ACAACTGAGT AAAACCTTTA TGGGAAAACT TGAAAAAGTC 
TAA

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

RefSeq	XP_008584557.1
CDS	1..4863
Translation	MSQLILSEMPKAEYSSIFNDFVESEFFVIDGDSLLITHICEKSLKPGQNLHFFYLIEHYFVDIISKGGQFAIVFFKDAEDAYFSFPELLSLRTALILHLQNNTTIDVRTEFSGCLSKEWKIFLEESCPYFLIVADEGLNNLQTQLFSSLIIQSWAMKVNVVLFSGQASNILRLYAYFLPSMNRNQIFFKENKNKIEDAYKTLLKQLNNCRVSAISSLFRNLKWENMMEEAYETISLLKQLWPEGSDIRRVLCVTSCSLSLRIYHNFLENRKKTTSNQKSNVKQTGSNCLTLQEMEDLCKLHCLSVVFLLHLPLSQRACTRVITSHWIENIQTSLKMKRWCEYFILSNINIFEFWNMNLTHLPDLSDEPLLKNIAFYYENETVQGLHLDLGKVIMEDYEHLWDTVSKLVRKFDVGKPFPLRTTKLHFLGNNPSPIRDSSKKKMPNLGFIPVSSNVVDKFAGDILKDLPFLKSNDPIVTSLIKQKEFDELVHWHSHKPLSDHYDRTKCQFDEKSRDPRVLRAVQKYHVFQRYYGNSLESVSSKIIVTQAINPKKDLSGPKSKKSHVAKIGETTKDLGIAVQMMKRIHSLMEKYPELLQEADRHLIVRCLKYLGFDELASSLYPTQDAGDDIKKKKKNKYSIGIGPARFQLQYMGHYLIRDERKDPDPRVQDFIPDTWQRELLDVVDNYESAVIVAPTSSGKTYASYYCMEKVLTESDEGVVVYVAPTKALVNQVAATVQNRFTKNLPGGEALCGVFTRDYRHYALNCQVLITVPACFEILLLAPHRQHWVKRIRYVIFDEVHCLGGEIGAEIWEHILVMIRCPFLALSATISNPEHLTEWLQSVKQYWRQENNRMEKNIASKRNAGYHASVPKDYLQLKQSYKVRLVLYGERYNDLEKHICSVRHGDIHFDHFHPCAALTTDHIEKYGFPSDLTLSPRESIQLYDTMFQTWESWPRAQELCPENFIHFKNKLVIKKMDARKYEESLKEELTRWTKEGNVQEVKMVLENLSPDLDFSSENMVKMFPLFVEKLRKMKKLPALFFLFKLRDVEERAKSVSTFLEEKQERKRPPKADKAAHDMANKLRKVKKSMDKQKIIDERSQKKTRKMDQSLIHEAEHDNLLKSLEKNLEIPQDCTHADQKVIDAETLQMVFDRVKFQRKGAELKALAERGIGYHHRSMSFKEKQLVEILFRKGFIRVVTATGTLALGVNMPCKSVVFAQNSVYLDALNYRQMSGRAGRRGQDLLGDVYFFDIPLPKIGKLIKSKVPELRGQFPLSISLVLRLMLLASKGDDPEDATAKVLSVLKHSLLSFKRPRTMHMLKLYFLFTLQFLVKEGYLDQEANPMGFAGLVSHLHYHEPSNLVFVSFLVKGLFHNLCQPTSKGSKHFSQDVMEKLVLVLAHLFGRKHFPSKFQDANLKFYQSKVFLDDLPEDFSDALHEYNMAVTKDFASFLLIVSKLADMKQEYQLPLSKINFTGNECKDSQLVSHLMNCKEGRVAVSPFVCLSGNSDCDLLQPDTPNHVILRTIGIDHTQAPVLQSQKFDSRGRRLSLNAYALDFYKHGSLIGLVQDNKMNEGEAYLLLKDFALTIEAISVSLRELCEDEGDNVVLAFEQLSKTFMGKLEKV

Target ORF information:

RefSeq Version	XM_008586335.1
Organism	Galeopterus variegatus(Sunda flying lemur)
Definition	Galeopterus variegatus DEAD (Asp-Glu-Ala-Asp) box polypeptide 60 (DDX60), mRNA.

Target ORF information:

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

XM_008586335.1

ORF Insert Sequence:

ATGTCACAGT TAATTTTGAG TGAAATGCCA AAAGCTGAAT ATTCCAGTAT ATTCAATGAT 
TTTGTTGAAT CTGAATTTTT TGTGATTGAT GGAGATTCAT TACTTATCAC ACATATATGT 
GAGAAATCTT TAAAGCCGGG GCAGAATCTC CACTTCTTCT ATCTGATTGA ACACTATTTT 
GTGGATATTA TTAGTAAAGG AGGACAGTTT GCCATAGTTT TTTTCAAGGA TGCAGAGGAT 
GCATATTTCA GCTTCCCTGA ACTTCTTTCT TTGAGAACTG CTTTAATCCT TCATCTTCAG 
AATAATACTA CCATTGATGT TCGAACTGAA TTTTCTGGAT GCTTATCAAA GGAGTGGAAA 
ATTTTCTTGG AAGAGAGTTG CCCATATTTC CTGATAGTTG CAGATGAAGG CCTTAACAAT 
CTACAAACAC AACTTTTTAG CTCTTTAATC ATTCAGTCTT GGGCAATGAA GGTCAATGTT 
GTGCTTTTCT CAGGGCAAGC ATCTAATATT CTTCGACTTT ATGCATACTT TTTGCCAAGC 
ATGAACAGAA ACCAGATATT TTTCAAGGAG AATAAAAACA AGATTGAAGA TGCTTATAAA 
ACCCTGCTTA AACAGTTGAA TAACTGTAGA GTTTCTGCAA TATCATCTCT TTTTAGAAAT 
TTAAAATGGG AAAATATGAT GGAAGAGGCA TATGAGACTA TATCGCTGCT GAAGCAACTC 
TGGCCAGAAG GATCTGACAT TCGGCGTGTC CTTTGTGTTA CTTCATGCTC ATTGTCTTTA 
AGAATATACC ATAACTTTTT AGAAAACAGA AAGAAGACCA CCTCTAACCA GAAAAGTAAC 
GTCAAGCAGA CGGGAAGTAA TTGCTTAACC CTGCAGGAGA TGGAAGACTT ATGTAAACTG 
CATTGTCTCA GTGTGGTTTT TCTACTCCAC CTACCTCTTT CTCAAAGAGC GTGTACTAGA 
GTCATCACTT CTCACTGGAT TGAGAACATT CAGACTTCAT TAAAAATGAA AAGGTGGTGT 
GAATATTTCA TCCTAAGTAA TATAAACATT TTTGAATTTT GGAATATGAA TTTAACTCAC 
CTGCCTGACT TAAGTGATGA GCCTTTACTG AAGAATATTG CTTTTTACTA TGAAAACGAA 
ACTGTACAAG GGCTGCATTT GGATTTGGGA AAAGTCATTA TGGAGGATTA TGAACATCTC 
TGGGATACTG TATCAAAGTT AGTCAGAAAG TTTGATGTTG GAAAGCCATT TCCTTTGAGA 
ACAACAAAAC TTCATTTTCT TGGAAATAAT CCATCACCAA TCAGAGACAG CTCCAAGAAA 
AAGATGCCTA ATTTGGGTTT TATTCCAGTG TCATCTAACG TGGTTGATAA GTTCGCTGGA 
GACATTTTGA AAGATTTGCC TTTCCTAAAG AGCAACGATC CTATTGTTAC TTCACTGATT 
AAACAAAAGG AATTTGATGA ACTGGTGCAC TGGCATTCTC ACAAACCCCT TAGTGATCAT 
TACGACAGGA CAAAGTGTCA ATTTGATGAA AAATCCAGAG ACCCTCGTGT TCTTAGAGCT 
GTGCAAAAGT ATCATGTTTT TCAACGATAT TATGGGAATT CATTAGAATC AGTGTCTTCC 
AAAATCATCG TGACTCAAGC TATTAATCCA AAGAAGGATT TAAGTGGACC CAAGAGCAAA 
AAGTCTCATG TAGCAAAAAT AGGTGAAACC ACAAAGGATT TAGGTATAGC TGTTCAAATG 
ATGAAAAGGA TCCATTCCTT GATGGAAAAA TACCCAGAAC TTTTGCAAGA AGCAGATCGG 
CATCTCATAG TCAGATGCCT TAAGTATTTA GGATTTGATG AGTTGGCAAG TTCCTTATAT 
CCAACCCAGG ATGCAGGAGA TGACATAAAG AAGAAGAAAA AGAATAAATA TTCAATTGGC 
ATTGGACCAG CTAGGTTTCA ACTACAATAC ATGGGCCATT ATTTGATACG AGATGAGAGA 
AAAGATCCAG ATCCCAGGGT CCAGGACTTT ATTCCTGACA CATGGCAGCG AGAGCTCCTC 
GACGTCGTGG ATAATTATGA GTCAGCAGTG ATCGTTGCCC CAACGTCCTC AGGCAAAACC 
TATGCTTCCT ACTACTGCAT GGAGAAAGTG CTGACGGAGA GCGATGAAGG GGTGGTTGTG 
TATGTTGCAC CCACAAAGGC TCTTGTTAAT CAAGTGGCAG CAACTGTTCA GAATCGTTTT 
ACCAAAAATC TGCCAGGTGG TGAAGCTCTA TGTGGTGTTT TTACAAGGGA CTATCGTCAT 
TATGCCCTAA ACTGTCAGGT GCTTATTACA GTGCCTGCCT GCTTTGAAAT TCTGCTGCTA 
GCTCCTCATC GCCAACACTG GGTAAAAAGG ATCAGATATG TTATATTTGA TGAGGTCCAT 
TGTCTGGGTG GAGAAATTGG AGCAGAAATC TGGGAGCACA TCCTTGTCAT GATCCGATGT 
CCCTTTTTGG CTCTTTCGGC TACCATAAGT AACCCTGAAC ATCTCACTGA GTGGCTACAA 
TCAGTGAAAC AGTACTGGAG ACAAGAAAAC AATAGAATGG AAAAAAATAT TGCTTCTAAG 
AGAAATGCTG GCTATCATGC CAGTGTTCCC AAAGACTACT TGCAATTAAA ACAATCATAT 
AAAGTTAGAC TTGTGCTCTA TGGAGAGAGG TACAATGATT TAGAGAAGCA TATATGTTCA 
GTAAGACATG GTGACATTCA TTTCGATCAT TTTCACCCAT GTGCTGCACT AACGACAGAC 
CATATTGAAA AATACGGATT CCCTTCTGAT CTTACTCTTT CACCTCGAGA AAGCATCCAG 
CTTTATGATA CCATGTTTCA AACCTGGGAA AGTTGGCCCC GGGCCCAGGA ACTGTGTCCA 
GAGAACTTCA TTCATTTTAA GAATAAATTA GTAATTAAAA AGATGGATGC CAGAAAATAT 
GAAGAGAGCT TAAAGGAAGA ATTAACAAGA TGGACTAAAG AAGGCAATGT ACAGGAGGTT 
AAAATGGTAC TGGAAAATCT TAGTCCTGAT TTGGATTTTA GTTCAGAAAA TATGGTAAAA 
ATGTTTCCAC TTTTCGTTGA AAAGCTAAGA AAAATGAAGA AGTTACCTGC ACTATTTTTT 
TTATTCAAAC TAAGAGATGT AGAAGAAAGA GCTAAAAGTG TGAGCACTTT CCTGGAAGAA 
AAGCAGGAGA GAAAAAGGCC TCCCAAAGCT GATAAAGCAG CCCATGACAT GGCGAACAAA 
CTTCGGAAAG TTAAAAAGTC CATGGACAAA CAAAAGATAA TAGATGAAAG AAGCCAGAAA 
AAAACCAGAA AAATGGACCA AAGCCTAATA CATGAAGCTG AACATGATAA TCTACTGAAG 
AGTCTAGAGA AAAACCTGGA AATCCCTCAG GACTGCACAC ATGCTGATCA AAAAGTGATA 
GATGCTGAGA CTTTGCAGAT GGTGTTTGAT CGAGTAAAAT TTCAAAGAAA AGGTGCAGAA 
CTGAAAGCTT TGGCAGAAAG GGGTATTGGA TACCATCACA GATCTATGAG CTTCAAAGAA 
AAACAATTAG TTGAAATTCT CTTTAGAAAA GGATTTATCA GGGTGGTGAC AGCTACTGGG 
ACACTTGCTT TAGGAGTCAA CATGCCTTGT AAATCTGTAG TTTTTGCTCA AAACTCAGTC 
TATCTGGATG CTTTAAATTA CAGACAGATG TCTGGTCGTG CTGGAAGACG AGGTCAAGAC 
CTGTTGGGAG ATGTGTATTT CTTTGATATT CCATTGCCCA AAATAGGAAA ACTCATAAAA 
TCCAAGGTTC CTGAGCTGAG AGGACAGTTC CCTCTGAGCA TTTCCCTGGT CCTGCGACTC 
ATGCTGCTGG CCTCCAAAGG AGATGACCCA GAGGATGCCA CGGCAAAGGT GCTGTCAGTG 
CTAAAGCATT CATTGCTGTC CTTCAAACGC CCCAGAACCA TGCACATGTT AAAACTTTAC 
TTCTTGTTTA CTCTGCAGTT CCTGGTGAAG GAGGGCTATT TAGATCAAGA AGCCAATCCT 
ATGGGGTTTG CTGGACTTGT ATCACATTTG CATTACCATG AACCTTCTAA TCTTGTTTTT 
GTCAGTTTTC TTGTAAAAGG CCTTTTTCAC AATCTTTGTC AGCCAACCAG TAAAGGTTCA 
AAACATTTTT CTCAAGATGT TATGGAAAAG TTGGTGTTAG TATTGGCACA TCTCTTTGGA 
AGGAAACATT TTCCATCAAA GTTCCAAGAT GCTAACCTCA AGTTTTATCA ATCAAAGGTG 
TTCCTTGATG ATCTCCCGGA GGATTTCAGT GATGCTTTAC ATGAGTATAA CATGGCAGTT 
ACAAAGGATT TTGCCTCTTT CCTACTCATT GTTTCCAAAC TGGCTGATAT GAAACAGGAA 
TATCAACTCC CTTTATCAAA AATCAATTTC ACAGGTAATG AGTGTAAAGA CTCCCAGCTT 
GTGTCTCACT TGATGAACTG CAAGGAAGGA AGAGTAGCTG TTTCACCATT TGTTTGTCTC 
TCTGGGAACT CTGACTGTGA TCTGCTTCAA CCAGACACTC CAAACCATGT CATTCTACGT 
ACAATTGGTA TTGATCACAC TCAAGCTCCT GTGCTGCAGT CACAGAAATT TGATAGCCGT 
GGAAGAAGAT TATCACTTAA TGCTTATGCG CTTGATTTCT ACAAACACGG TTCATTGATA 
GGATTAGTCC AGGATAACAA GATGAATGAA GGAGAAGCTT ACCTTTTGTT GAAAGATTTT 
GCACTCACCA TTGAAGCTAT CAGTGTTTCC TTGCGTGAAC TATGTGAAGA TGAAGGTGAC 
AATGTTGTCT TAGCATTTGA ACAACTGAGT AAAACCTTTA TGGGAAAACT TGAAAAAGTC 
TAA