LOC104891869 cDNA ORF clone, Beta vulgaris subsp. vulgaris

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC104891869
Entrez Gene ID	104891869
Full Name	uncharacterized LOC104891869
Gene Type	protein-coding
Organism	Beta vulgaris subsp. vulgaris

mRNA and Protein(s)

mRNA	Protein	Name
XM_019248795.1	XP_019104340.1	uncharacterized protein LOC104891869

Pathways from BioSystems
Gene Ontology

The following LOC104891869 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC104891869 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
OBe32578	XM_019248795.1 Latest version!	Beta vulgaris subsp. vulgaris uncharacterized LOC104891869 (LOC104891869), 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)

LOC104891869 ( XM_019248795.1 ) cDNA ORF clone, Beta vulgaris subsp. vulgaris -> XP_019104340.1 Beta vulgaris subsp. vulgaris uncharacterized LOC104891869 (LOC104891869), mRNA.

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CloneID	OBe32578
Clone ID Related Accession (Same CDS sequence)	XM_019248795.1
Accession Version	XM_019248795.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4527bp) 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	2016-11-28
Organism	Beta vulgaris subsp. vulgaris
Product	uncharacterized protein LOC104891869
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_025815.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Beta vulgaris subsp. vulgaris 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## ab initio :: 29% of CDS bases ##RefSeq-Attributes-END##

ATGGCGACGA TTGAGAAGCT ATTAGTGCAA ATCTTCGATC GAAAAAGGCA GATTATCGAG 
CAATTGAAGC ACCAGAAACA ATTGTACGAA CAAAATCTTC TTTCCAAGCT CTTAATTCAA 
GGCATTCCTC CTCCTCCTTG GCTCCTCAAC TCCGATTTTC AATCTTCAAC CTCAGATCTC 
ACTGGTCTAA ACAAGGAAGA GCTCATATCG GGATTATTGC TTCCAAGACC TGGACCATTT 
CCCTCTTATC CTAGCGGTCC TTGCTTTTTA TATGATAAGC CAATTATAAA AGCAGCTAAC 
AGTGCTATAC AAGATGAAAC GTGTGCTGTA AACTGTGCCT CTAGCAATGG TATTGATGAA 
AATGAGCCTG GTGTTGCTCC TCTATGTCAT GCTGATGGCT CAGAAGATAT GGTTGACACT 
GTCCCTCCAT CTAATCTTGA CGGCACTGAA AATATGGCTG GCATCATTTC TCCGTATCAT 
GTTGATGGCA GTATGGGATT TAATTATGTC CCTGTGTCAC CTGATGACCA GACTGAGACG 
AGGCTCTCAA TTTCTCATAA ACAAGAGCAG TCACTAGCAA GAATACCAGA TGAAACTTGT 
GCTTTAAACT GTGCTTCTAG CAGTGGTATT GATGAAGATG AGCGTGGTGT CGCTCCTCTA 
TGTCATGCTG ATGGCACTGC AGATGTGGTT GACGCTGTCT CTCCATCTCA TCTTGACGGC 
GCTGGAAATA TGGCTGGCAT CCGTTCTCCG TATCATGTTG ATGGCAGTAT GGGATTCAAT 
TATATCCCTG TGTCACCTGA AGACCAGACT GACACGAGGC TCTCAAATAT TCATAAACAA 
GAGCAGTCAC TATCAAGAAT ACCAGATGAA ACTTGTGATG TAAACTGTGC CTCTAGCAGT 
GGCATTTATG AAGATGAGCC TGGTGTCGCT CCTCTATGTC ATGCTGATGG CACTGCTAAT 
ATGATTGACG CTGTCCCTCC ATCTCATCTT GACAGCACTG GGAATATGGC TGGCATCATT 
TTGCCTTCTC ATGTTGATGG CAGTATGGGG TTCAATTATG TCACCATGTC ATCAGAAGAC 
CAGACTGACA CAAGGCTCTC AAATTCTCAA AAACAAGAGA AGTCGCTAGC AAGGATACCA 
GATGAAACTT GTGCTGTAAC TGCCTCTAGC AGTGATATTG ATGAAGATGA GCCTGGTGTC 
GCTCCTCTAT GTCATGCTGA TGACACTGAA GATATGGTTG ATGCTGTCCC TCCATCTCAT 
CTTGACGGCA CTGAAAATAT GGCTGGCATC ATTTCTCCTT CTCATGCTGA TGGCAGTATG 
GGATTCAATT ATAGGCAGTC ACTAGCAAGA ATACCAGATG AAACTTGTGC TTTAAACTGT 
GCCTCTAGCA GTGGTATTGA TGAAGATGAG CCCGGTGTCG CTCCTCTATG TCATGCTGAT 
GGCACTGAAG ATATGGCTGA CACTGTCCTT CCATCTCATC TTGACGGCTC TGAAAATATG 
GCTGGCATCA TTTCTCCGTC TCATGTTGAT GGCAGCATGG GATTTAATTA TGTCCCTATG 
TCACCTGAAG ACCAGACTGA CACGAGTCTC TCAAATTCTC ATAAACAAGA GCAGTCATTA 
GCAAGGATAC AGAGGTCCAG ATCCCGTCAA AAGGCACTGG AGTTTCGGAG TAGTGGAAAA 
GCAAGTGCTC AAAGCCGTTT TGGGATGGAA AATGATGTTG GTAGTTCTTC TGGCGGCCAA 
ATATCTAAAA ATCATTCATG TTTATCTGGA CAGGTTGAAA TTAGCTTAGG GAGAAATGTC 
ATGTCCAGCA CATGTGAACA ACAATTATTA AAATCTGATG TTTCAGATGT GAATGAAATT 
TTAATCCCAG AGCCATTAGA TTCTTTGGCC GAGGATGGAG AAGTGAAGAC AAATTTACCA 
ACTGCTGTTT TTTGCAGCGG AAGGGTGTCT GACATATTGG TGAATGACCA AAAACTGGTC 
TATGAGAATA CTGCAGGAAA CATTATGGAT ACTGTGATGG CTGTGGATCA ATGTAAATCT 
CCTCAGAGGA CGGATGGGTT TAAATATTCC ATTGTTTCCC CACTCGTGGA GTATATGAAT 
CTATCTGAAG CCGATCAAAC TATACAAGAG TTTGACGGTT CTGTTACAGG TGAGAATACA 
GTTGATGCAC AAAATGCTGG AGATAGCATC TTGGAAAATA CCAGCTTGCC TGAACTAATT 
TGCAATTCTG AATCCTTGAG CACTCCTGTA TCACCGTTTC CTACTGCCTG CAAATTGTAC 
TTAGCACCAA AAATGTACTC CTCAATACCT AACGGGCTTC TAGAAAACAT CGAACTACAA 
AGCAAGCCGC TATTCAGTGG AAGGGCTTTA CAGAGGAAGT CTCATTCTGA TATCTTACGA 
TTATCAAAAT CTGATGTTTC AGATGTGAAT CAAAGTTTAA TCCCAGAGCC ATCAGCTTCT 
TTAGCTGAGG ATGGAAAAGT GAAGAAAAAT TCACAAAGTG CTGTTTTTTG CAGTGGTAGG 
GTGTCTGACT TATTGGTGAA TGACCTAAAA GTGGTCGACA AGAATACTGC AGGAAAGGTC 
ATGGATCCTG TGATGGCTGT GGATCGATGT AAATCTCCTG AGGGAGTGGA TGGGTTCAAA 
TATTCCATTG GTTCCCCACT CATGGAGTAT ATGAATGTAG CTGAAGCAGA TCAAACTAGA 
CCAGAGTTTG AGGGTTTTGT TATAGGTGAG AATACAGTTG ATGCACAAAA TTCTGGAGAT 
AACATATTGG ACAAGACCAG CTTGCCTGAG CTTATATGCA ATTCTGCATC CTTGAAAACT 
CCTGTATCTC CCTTTCATAC TGCCTGCAAA TTGTACTTAG CACCAGGTAT GTACTCCTCA 
ATTCCTAACG GGCTTCTGGA AAACATTGAC CCACGAAGCA ACCTGCTATA CAGTGAAAGG 
GCTTTACTGA GGAAGTCTCA TTCCGATCTC TTTTCTTTCT CTGGTAATCA ACATGGATGG 
GATATCAGGA AACCTTTTCT GTCACCGGTG GGGAATGGTT TTGAAGGTAT CACATCAAAA 
TCTGGTGGTT CAGATAAGCT AGTTAGTAGT AATCTGGAGC TTACTTGCTT CCCCATTCTG 
GAGGATCCTG AAAGCAGCGA GGAAGATTTA GATGATGCTG TTGACAATTG TGTGAAAATG 
ACAGATCTGA GTATGAAAAA TAGTGCCGGC AGGGAACCAC CTTTTGATAT CAATGTGCAG 
AAGTTGAGCT GTATGGCTCT AGATCATGCA GTTGAGAATG GTAGTTTAGA ATCTGTGGGT 
GAAGATAAGA TAGCCTGTTC AAGTACAAGA AATAGTGGCA ACAAAGAACC GCTTGGTGAT 
ATTTCTATGC CATATAAAAG CTCTTTAGCT CCAGATCACG TAGTTGAGTG TAGTTTAGGA 
CCTATAAGCA CCGACGGCAA CATCCATGAG ATGCATAATG ACAGTAAGAA GAGTGGCATG 
GCTCAGAGGA AAAGCAGGCG GACAAGGTTG GGGAAGGAAA ACGAGAAGTA CTCAGTTGGT 
GCTAACAGCA GCAAGAAGCA CACCAAAACA CAGAGCAGCA GGTTCAGCAA ACCCAAATTA 
TCGGGAAAAT CAAGTTTAAG AAGCAGAGGG CAAAGTCTGT CAGAGAAGGA ACAGAAGCTA 
AGTAACATTG TGTCTAACAT GAAATCCTTC CTGCCACTTG TTCAACAAAA GCAAGCAGCT 
GCAGTCATCC CTGAGAAGAG AGACGTCAAA GTCAAGGCTC TCCAAGCTGC AGAGGCTGCC 
AAACGTGCTG CTGAAAAGAG AGAAAATGAA CGCAACCAGA AGAAAGAGGC AATGAAGCTT 
GAACGAGCTA GAGTGGAGCA AGAAAATATG AAGGAGCTGG AAAGGAAGAA AAAAATGAAA 
GAGGAAGAAA GAAAGAAAAG AGAGGCTGAA AATGCAGCCA AGAAGAGGCA GAGAGAAGAA 
GAAGAAAAGA AAGAAAAGGA AAGGAAAAGA AGGCGTGTTG AAGAGGCACG GTTACAGCAC 
AAGCAAGCTG AGCAAAAACT TCAGGATTGG AGAGAGGAAT CAAGATGTGT AGCAGAGGAT 
AAAAATGCGC ATCCAATAAA GGACTCTAAT TCAGGGCAGC CAGTGAATGA TTCAGTTGTG 
TTAGGGGATC ATATAATGGA AGATGATGGT GTACATGCAA CCTTAAATAA TCACCATATG 
TCAATGGAAT CCTCTGCCAT TGGAAAGTTA GGCACCGCTG ACATGGCTGA GAGTTCAACA 
CCTAATGTTG ATAAAAATGT CAAGCTAGCC GACCGATCCA GCATTGAACA GTCATATGAT 
ATCTCGCCAT ACCATTGTTC AGATGATGAA GAGGAAGAAG AAGATGAAGT TCCAAACAAG 
AAGTTTATAC CGACCTGGGC CAGTAAAACC TCAGTGGCAT TGGCTTTATC ATCTTTGCAA 
CACTTGGATC CAGATGTGAT ATTTCCGCCT GGAAGCTTTT GCAGTTTAGA TGAAGCTCTT 
CTGCCTCGAA GATTACCACA AAAATAA

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

RefSeq	XP_019104340.1
CDS	1..4527
Translation	MATIEKLLVQIFDRKRQIIEQLKHQKQLYEQNLLSKLLIQGIPPPPWLLNSDFQSSTSDLTGLNKEELISGLLLPRPGPFPSYPSGPCFLYDKPIIKAANSAIQDETCAVNCASSNGIDENEPGVAPLCHADGSEDMVDTVPPSNLDGTENMAGIISPYHVDGSMGFNYVPVSPDDQTETRLSISHKQEQSLARIPDETCALNCASSSGIDEDERGVAPLCHADGTADVVDAVSPSHLDGAGNMAGIRSPYHVDGSMGFNYIPVSPEDQTDTRLSNIHKQEQSLSRIPDETCDVNCASSSGIYEDEPGVAPLCHADGTANMIDAVPPSHLDSTGNMAGIILPSHVDGSMGFNYVTMSSEDQTDTRLSNSQKQEKSLARIPDETCAVTASSSDIDEDEPGVAPLCHADDTEDMVDAVPPSHLDGTENMAGIISPSHADGSMGFNYRQSLARIPDETCALNCASSSGIDEDEPGVAPLCHADGTEDMADTVLPSHLDGSENMAGIISPSHVDGSMGFNYVPMSPEDQTDTSLSNSHKQEQSLARIQRSRSRQKALEFRSSGKASAQSRFGMENDVGSSSGGQISKNHSCLSGQVEISLGRNVMSSTCEQQLLKSDVSDVNEILIPEPLDSLAEDGEVKTNLPTAVFCSGRVSDILVNDQKLVYENTAGNIMDTVMAVDQCKSPQRTDGFKYSIVSPLVEYMNLSEADQTIQEFDGSVTGENTVDAQNAGDSILENTSLPELICNSESLSTPVSPFPTACKLYLAPKMYSSIPNGLLENIELQSKPLFSGRALQRKSHSDILRLSKSDVSDVNQSLIPEPSASLAEDGKVKKNSQSAVFCSGRVSDLLVNDLKVVDKNTAGKVMDPVMAVDRCKSPEGVDGFKYSIGSPLMEYMNVAEADQTRPEFEGFVIGENTVDAQNSGDNILDKTSLPELICNSASLKTPVSPFHTACKLYLAPGMYSSIPNGLLENIDPRSNLLYSERALLRKSHSDLFSFSGNQHGWDIRKPFLSPVGNGFEGITSKSGGSDKLVSSNLELTCFPILEDPESSEEDLDDAVDNCVKMTDLSMKNSAGREPPFDINVQKLSCMALDHAVENGSLESVGEDKIACSSTRNSGNKEPLGDISMPYKSSLAPDHVVECSLGPISTDGNIHEMHNDSKKSGMAQRKSRRTRLGKENEKYSVGANSSKKHTKTQSSRFSKPKLSGKSSLRSRGQSLSEKEQKLSNIVSNMKSFLPLVQQKQAAAVIPEKRDVKVKALQAAEAAKRAAEKRENERNQKKEAMKLERARVEQENMKELERKKKMKEEERKKREAENAAKKRQREEEEKKEKERKRRRVEEARLQHKQAEQKLQDWREESRCVAEDKNAHPIKDSNSGQPVNDSVVLGDHIMEDDGVHATLNNHHMSMESSAIGKLGTADMAESSTPNVDKNVKLADRSSIEQSYDISPYHCSDDEEEEEDEVPNKKFIPTWASKTSVALALSSLQHLDPDVIFPPGSFCSLDEALLPRRLPQK

Target ORF information:

RefSeq Version	XM_019248795.1
Organism	Beta vulgaris subsp. vulgaris
Definition	Beta vulgaris subsp. vulgaris uncharacterized LOC104891869 (LOC104891869), mRNA.

Target ORF information:

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

XM_019248795.1

ORF Insert Sequence:

ATGGCGACGA TTGAGAAGCT ATTAGTGCAA ATCTTCGATC GAAAAAGGCA GATTATCGAG 
CAATTGAAGC ACCAGAAACA ATTGTACGAA CAAAATCTTC TTTCCAAGCT CTTAATTCAA 
GGCATTCCTC CTCCTCCTTG GCTCCTCAAC TCCGATTTTC AATCTTCAAC CTCAGATCTC 
ACTGGTCTAA ACAAGGAAGA GCTCATATCG GGATTATTGC TTCCAAGACC TGGACCATTT 
CCCTCTTATC CTAGCGGTCC TTGCTTTTTA TATGATAAGC CAATTATAAA AGCAGCTAAC 
AGTGCTATAC AAGATGAAAC GTGTGCTGTA AACTGTGCCT CTAGCAATGG TATTGATGAA 
AATGAGCCTG GTGTTGCTCC TCTATGTCAT GCTGATGGCT CAGAAGATAT GGTTGACACT 
GTCCCTCCAT CTAATCTTGA CGGCACTGAA AATATGGCTG GCATCATTTC TCCGTATCAT 
GTTGATGGCA GTATGGGATT TAATTATGTC CCTGTGTCAC CTGATGACCA GACTGAGACG 
AGGCTCTCAA TTTCTCATAA ACAAGAGCAG TCACTAGCAA GAATACCAGA TGAAACTTGT 
GCTTTAAACT GTGCTTCTAG CAGTGGTATT GATGAAGATG AGCGTGGTGT CGCTCCTCTA 
TGTCATGCTG ATGGCACTGC AGATGTGGTT GACGCTGTCT CTCCATCTCA TCTTGACGGC 
GCTGGAAATA TGGCTGGCAT CCGTTCTCCG TATCATGTTG ATGGCAGTAT GGGATTCAAT 
TATATCCCTG TGTCACCTGA AGACCAGACT GACACGAGGC TCTCAAATAT TCATAAACAA 
GAGCAGTCAC TATCAAGAAT ACCAGATGAA ACTTGTGATG TAAACTGTGC CTCTAGCAGT 
GGCATTTATG AAGATGAGCC TGGTGTCGCT CCTCTATGTC ATGCTGATGG CACTGCTAAT 
ATGATTGACG CTGTCCCTCC ATCTCATCTT GACAGCACTG GGAATATGGC TGGCATCATT 
TTGCCTTCTC ATGTTGATGG CAGTATGGGG TTCAATTATG TCACCATGTC ATCAGAAGAC 
CAGACTGACA CAAGGCTCTC AAATTCTCAA AAACAAGAGA AGTCGCTAGC AAGGATACCA 
GATGAAACTT GTGCTGTAAC TGCCTCTAGC AGTGATATTG ATGAAGATGA GCCTGGTGTC 
GCTCCTCTAT GTCATGCTGA TGACACTGAA GATATGGTTG ATGCTGTCCC TCCATCTCAT 
CTTGACGGCA CTGAAAATAT GGCTGGCATC ATTTCTCCTT CTCATGCTGA TGGCAGTATG 
GGATTCAATT ATAGGCAGTC ACTAGCAAGA ATACCAGATG AAACTTGTGC TTTAAACTGT 
GCCTCTAGCA GTGGTATTGA TGAAGATGAG CCCGGTGTCG CTCCTCTATG TCATGCTGAT 
GGCACTGAAG ATATGGCTGA CACTGTCCTT CCATCTCATC TTGACGGCTC TGAAAATATG 
GCTGGCATCA TTTCTCCGTC TCATGTTGAT GGCAGCATGG GATTTAATTA TGTCCCTATG 
TCACCTGAAG ACCAGACTGA CACGAGTCTC TCAAATTCTC ATAAACAAGA GCAGTCATTA 
GCAAGGATAC AGAGGTCCAG ATCCCGTCAA AAGGCACTGG AGTTTCGGAG TAGTGGAAAA 
GCAAGTGCTC AAAGCCGTTT TGGGATGGAA AATGATGTTG GTAGTTCTTC TGGCGGCCAA 
ATATCTAAAA ATCATTCATG TTTATCTGGA CAGGTTGAAA TTAGCTTAGG GAGAAATGTC 
ATGTCCAGCA CATGTGAACA ACAATTATTA AAATCTGATG TTTCAGATGT GAATGAAATT 
TTAATCCCAG AGCCATTAGA TTCTTTGGCC GAGGATGGAG AAGTGAAGAC AAATTTACCA 
ACTGCTGTTT TTTGCAGCGG AAGGGTGTCT GACATATTGG TGAATGACCA AAAACTGGTC 
TATGAGAATA CTGCAGGAAA CATTATGGAT ACTGTGATGG CTGTGGATCA ATGTAAATCT 
CCTCAGAGGA CGGATGGGTT TAAATATTCC ATTGTTTCCC CACTCGTGGA GTATATGAAT 
CTATCTGAAG CCGATCAAAC TATACAAGAG TTTGACGGTT CTGTTACAGG TGAGAATACA 
GTTGATGCAC AAAATGCTGG AGATAGCATC TTGGAAAATA CCAGCTTGCC TGAACTAATT 
TGCAATTCTG AATCCTTGAG CACTCCTGTA TCACCGTTTC CTACTGCCTG CAAATTGTAC 
TTAGCACCAA AAATGTACTC CTCAATACCT AACGGGCTTC TAGAAAACAT CGAACTACAA 
AGCAAGCCGC TATTCAGTGG AAGGGCTTTA CAGAGGAAGT CTCATTCTGA TATCTTACGA 
TTATCAAAAT CTGATGTTTC AGATGTGAAT CAAAGTTTAA TCCCAGAGCC ATCAGCTTCT 
TTAGCTGAGG ATGGAAAAGT GAAGAAAAAT TCACAAAGTG CTGTTTTTTG CAGTGGTAGG 
GTGTCTGACT TATTGGTGAA TGACCTAAAA GTGGTCGACA AGAATACTGC AGGAAAGGTC 
ATGGATCCTG TGATGGCTGT GGATCGATGT AAATCTCCTG AGGGAGTGGA TGGGTTCAAA 
TATTCCATTG GTTCCCCACT CATGGAGTAT ATGAATGTAG CTGAAGCAGA TCAAACTAGA 
CCAGAGTTTG AGGGTTTTGT TATAGGTGAG AATACAGTTG ATGCACAAAA TTCTGGAGAT 
AACATATTGG ACAAGACCAG CTTGCCTGAG CTTATATGCA ATTCTGCATC CTTGAAAACT 
CCTGTATCTC CCTTTCATAC TGCCTGCAAA TTGTACTTAG CACCAGGTAT GTACTCCTCA 
ATTCCTAACG GGCTTCTGGA AAACATTGAC CCACGAAGCA ACCTGCTATA CAGTGAAAGG 
GCTTTACTGA GGAAGTCTCA TTCCGATCTC TTTTCTTTCT CTGGTAATCA ACATGGATGG 
GATATCAGGA AACCTTTTCT GTCACCGGTG GGGAATGGTT TTGAAGGTAT CACATCAAAA 
TCTGGTGGTT CAGATAAGCT AGTTAGTAGT AATCTGGAGC TTACTTGCTT CCCCATTCTG 
GAGGATCCTG AAAGCAGCGA GGAAGATTTA GATGATGCTG TTGACAATTG TGTGAAAATG 
ACAGATCTGA GTATGAAAAA TAGTGCCGGC AGGGAACCAC CTTTTGATAT CAATGTGCAG 
AAGTTGAGCT GTATGGCTCT AGATCATGCA GTTGAGAATG GTAGTTTAGA ATCTGTGGGT 
GAAGATAAGA TAGCCTGTTC AAGTACAAGA AATAGTGGCA ACAAAGAACC GCTTGGTGAT 
ATTTCTATGC CATATAAAAG CTCTTTAGCT CCAGATCACG TAGTTGAGTG TAGTTTAGGA 
CCTATAAGCA CCGACGGCAA CATCCATGAG ATGCATAATG ACAGTAAGAA GAGTGGCATG 
GCTCAGAGGA AAAGCAGGCG GACAAGGTTG GGGAAGGAAA ACGAGAAGTA CTCAGTTGGT 
GCTAACAGCA GCAAGAAGCA CACCAAAACA CAGAGCAGCA GGTTCAGCAA ACCCAAATTA 
TCGGGAAAAT CAAGTTTAAG AAGCAGAGGG CAAAGTCTGT CAGAGAAGGA ACAGAAGCTA 
AGTAACATTG TGTCTAACAT GAAATCCTTC CTGCCACTTG TTCAACAAAA GCAAGCAGCT 
GCAGTCATCC CTGAGAAGAG AGACGTCAAA GTCAAGGCTC TCCAAGCTGC AGAGGCTGCC 
AAACGTGCTG CTGAAAAGAG AGAAAATGAA CGCAACCAGA AGAAAGAGGC AATGAAGCTT 
GAACGAGCTA GAGTGGAGCA AGAAAATATG AAGGAGCTGG AAAGGAAGAA AAAAATGAAA 
GAGGAAGAAA GAAAGAAAAG AGAGGCTGAA AATGCAGCCA AGAAGAGGCA GAGAGAAGAA 
GAAGAAAAGA AAGAAAAGGA AAGGAAAAGA AGGCGTGTTG AAGAGGCACG GTTACAGCAC 
AAGCAAGCTG AGCAAAAACT TCAGGATTGG AGAGAGGAAT CAAGATGTGT AGCAGAGGAT 
AAAAATGCGC ATCCAATAAA GGACTCTAAT TCAGGGCAGC CAGTGAATGA TTCAGTTGTG 
TTAGGGGATC ATATAATGGA AGATGATGGT GTACATGCAA CCTTAAATAA TCACCATATG 
TCAATGGAAT CCTCTGCCAT TGGAAAGTTA GGCACCGCTG ACATGGCTGA GAGTTCAACA 
CCTAATGTTG ATAAAAATGT CAAGCTAGCC GACCGATCCA GCATTGAACA GTCATATGAT 
ATCTCGCCAT ACCATTGTTC AGATGATGAA GAGGAAGAAG AAGATGAAGT TCCAAACAAG 
AAGTTTATAC CGACCTGGGC CAGTAAAACC TCAGTGGCAT TGGCTTTATC ATCTTTGCAA 
CACTTGGATC CAGATGTGAT ATTTCCGCCT GGAAGCTTTT GCAGTTTAGA TGAAGCTCTT 
CTGCCTCGAA GATTACCACA AAAATAA