LOC104904383 cDNA ORF clone, Beta vulgaris subsp. vulgaris

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC104904383
Entrez Gene ID	104904383
Full Name	translocase of chloroplast 159, chloroplastic
Gene Type	protein-coding
Organism	Beta vulgaris subsp. vulgaris

mRNA and Protein(s)

mRNA	Protein	Name
XM_010692612.2	XP_010690914.1	translocase of chloroplast 159, chloroplastic

Pathways from BioSystems
Gene Ontology

The following LOC104904383 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC104904383 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
OBe46975	XM_010692612.2 Latest version!	Beta vulgaris subsp. vulgaris translocase of chloroplast 159, chloroplastic (LOC104904383), 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)

LOC104904383 ( XM_010692612.2 ) cDNA ORF clone, Beta vulgaris subsp. vulgaris -> XP_010690914.1 Beta vulgaris subsp. vulgaris translocase of chloroplast 159, chloroplastic (LOC104904383), mRNA.

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CloneID	OBe46975
Clone ID Related Accession (Same CDS sequence)	XM_010692612.2
Accession Version	XM_010692612.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4707bp) 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	translocase of chloroplast 159, chloroplastic
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_025820.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 29, 2016 this sequence version replaced XM_010692612.1. ##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##

ATGGAGTCAA AATCTCAGGT GGAAACGACG TCGCTTCTTG CCCGACAACC CTCAGGTATT 
CGAGCTCTTC CTTCTCATGA TGATGATGAT GATGTTGATG AATTTGTTAT AGAATCAGTT 
GCCGAAAACA ATAATTCTCC TGAAAAAATG AGTGAAAACG ATGAAATTAA TAAGAATTCT 
ACTACTAGTA GCAGTAATGG CAGCAGTAAT GGTAGTATTA GTAGTAGTTT TACTAGTAGT 
GGTGGTAATA ATGGGAGTTA TGTGAATGGT GAGGAGGAGT TTGAGACTCC TATGGCTGGC 
CCAGATGATG GAACCCTAGA AAAATTAGGT GAGGTGGGTG TAATTGATGA ACCTGCATCT 
GGGTCTTCGT TGGTTTCGCC GGGTGTGAGG GGCCGGAAGG CGGGTTTGCC GGTAGCGAAG 
GTGTCGGATG ATGGGGATGA TGAAGAAAAT GAGGTGGGTA GCGGAGAGGA GGATAGTGGT 
GAAGTTGTGG ATGAGATGGA TAGGTCATAT GCTGCTGAAA AGGCTCCTAG AGTTAGGGTT 
TTGGGTGAGG AGGGAGAGAA TGAGGACGAG GTTTTTGAGG AGGTGAACGA AGAAACGAGT 
GTTTTGAGTG GTGAGGGGGT TATAGAGAAG AGGGGAGGTG AGTCTGTGGA GGGTAAGGGT 
GTTGGTGTTG ATGACGGTGT AGGTTCCAAA AAGGAAGAGA ATGCTTCTCT AGATTCCGGA 
AATGCTGCTT CTGGTGGTGT TGAGTTGGTT GATGAGGGAG ATGCTGTTGT GGACTCCATA 
AAGGTGGATG CTGGCGAAGC TGTAAGGTCA GGAGTTGCTG TTGTTGGGGT CGAAGAGGAA 
AGCAAGCCTT CAAAAATTGA ATCTTTCGAG GAGCTGAAAA CAGAAAAAAT AGGTGAATTG 
GGTAATGAGG GTGCTGAAAA GGAGAGAGAG GGTGAGTCTT TGGAGGCTAA GGGGGTCGAT 
GGTGATGATA GTGTGGGTTC TAAATTTGAA GATAAGACTT CCTTGGATAC CACGAAAGTT 
GACTCTCGTA GTATTGAGTT GGTTAATGAG GGGGATGCTG TTGTGGACTC CATAAACGTG 
GATGCTGGTG AAGTTGTGAG GTCAGGGGTT GCTGTTGTTG TAATAGAAGA GGAAAGGCAG 
GATTCAGATG TTGAATCAAT GGACAATATC ACTGAGGATA GAGAAGAAAA AGTGGATTCT 
GAGGTTAAAG TAGGGGAGGA AATCTCTGTT GTTGAAGAAC CCACTTCAGT AGATCCTGTA 
TCTGTTGAAG GTACTGCGGT GAAGGTAACT GATGAGGGGG ATTCTAGATT GGAATTGAAA 
CATGATGCTG TGGAGGCTTA TAGGTCTGGA GCTATTATAG TTGGGGAGAT AGAAGACACG 
AAAGGCTCAG AAAATACAGG AATTGAGGTT GGAGATACTG TTGTTGAAGA ATCTGCGTCT 
ATGAAAGAAG ATTTTGTCTC CGAAGAAACG GCTGAAGGAG ACTCTAAATC TGTAAAATCT 
GATGAGGTAA AGGTTACAGG TGAAGGAGAC TCTAAATCTA CAAATTCTAA TGAGGCAATG 
GTAACTGGTG AAGGAGACTT TAAATCTGTA AATTCTGATG AGGCAAAGGT TACGGGTGAA 
GGAGCCTCTA AATCTGTAAA ATTTGATGAG CCAAAGATTA CGGGTGAAGG GGATTCTGTT 
GTTGATGGGA TGATTATTGA TGCTGTTGAG GCTGTAAGAT CTGGAGTAGC TGTTGTGGGG 
GATTCTAGAG CAGTGGAAAC GGAAATGGAA GTCAAGGATG TCGCAGCACG TGTTAGTGAA 
AACGTGACGT TGGCTAATGA GTTGGCGCCA CAGGTTTGTG CTAACACATC CGAGGTTGGT 
GAACAGCACA AAGAGGCACT TCCAAGAGAA GTAGAAACAC CTGCACTAGT AGAGATTGCT 
GAGCAACTGA ACACAGAGGG GACTGAGTCC GAAGTTGATG AATCATCCAA GCAGCGCGAG 
TCTGTTCACG AGGTACAATC TGTTTCTGGT GGGGATCAAG ACAAGGTTCA GCATGCAGAA 
GTGGATAATG CTGCATCTGA TAAGATTGAT GCTAAAACTT TGAGCTCAGA TAAGGGACAG 
GAAGCTGAGG AGAGGTTTCA TGTACCACAA GAGGAGCATG ATGATGGAGG CTCTTATGCC 
TCTGATGGTG AAGATGAATC TGTGTTCTTT AAGAATAAAG TATCTTCCAG AGATTTTATG 
GAAGAGTTGG CATCTGGTGA TCGTTCCGAG ATTATTGATG GCCAGATTGT CACAGACTCA 
GAGGAAGAAG CTGATTCTGA TGAGGAAGGG GAGGGTAGAG AATTGATTGA TTCTGCTGCA 
TTAGCTGCTC TTTTGAAAGC GGCAACTAGT GGTGGCTCAG ATTCTGGCCC TATCACTATA 
ACATCTCAAG ATGGGTCTCG CCTTTTCTCT GTTGAGCGTC CTGCTGGTCT AGGAACATCA 
CTTCGTTCTG TGAGACCTGC GTCAAGCTCA AGCAACTCCA GCATCTTTGC TCCACCAAGT 
GTTGCTGCTC CATCTGAGGA GAGCCTAAGT GACGAAGACA AAAAGAAGCT GCAGAATATA 
CATGAGTTGA GGGTGAAATT CTTGAGGCTT GTTCAAAGAC TTCGCCAGAC AGCAGATCAA 
TCTGTATCAG CACAAGTTCT CTATAAACTA GGAATTCTTG CAGGTAGGTC AGCACTTCCG 
TCCTTCACTC TTGATAATGC GAAACAGACA GCTATGCGGC TTGAGGCTGA GGAGAAAGAT 
GATTTAGACT TTTCCTTGAA CATCCTGGTT CTTGGCAAAA CTGGTGTTGG CAAGAGTGCC 
ACCATCAATT CTATATTTGG TGAAGATAAG GTCAAAATTA ATGCATTTGA ACCTGAAACC 
ACTTCTGTTA ATGAGGTTTG TGGAATCGTG GACGGCGTCA AGCTAAGGGT CATTGATGCA 
CCTGGTCTTA AATCATCTGC AATGGATCAA GGCTTCAACC GTAAAGTCTT AGCCTCGGTC 
GCGAAGCTCA CCAAAAGATA CCCTCCAGAT CTCACGCTTT ATGTGGATCG GTTGGATTCA 
CAAACAAGAG ATCTAAATGA TCTACCTATG TTGAGGACAA TTACCAACTC TCTTGGGACT 
TCAATCTGGC GGAGTGTCAT TCTCACTCTC ACTCATGCTG CTTGTGCACC TCCAGATGGT 
CCATCTGGTG TTCCATTGGG TTACGAGGTG TTCGTGGGGC AGCGTAGCCA TATTATTCAG 
CAGTCCATTG GTCAAGCGGT TGGTGATTTG CGTTTTATGA ATCTAGGCAT GATGAATCCT 
GTCTCCCTTG TGGAGAACCA CCCTGCTTGT CGTAAGAACC GAGAAGGCGA GAAGGTACTT 
CCTAATGGCC AGGCTTGGAG ACCACAGTTA TTGTTGCTGT GCTACTCTTT AAAAATCTTG 
GCTGACGCAA GTTTGGCCTC AAAGCCTCAA GAACCTGTAG ATCCCAGGAA ACTTTTTGGT 
TTCCGTGTTC GTTCCCCTCC TCTCCCATAC TTGTTATCTT CATTGCTGCA ACCTCGTACT 
CACCCCAAAC TTTCAGCTGA TCAGGGTGGT GACAATGGTG ATTCTGATGT TGACTTGGAC 
GACTTGTCCG ATTCTGATCA GGAAGAAGAA GACGAGTATG ATCAACTCCC ACCATTTAAG 
CCTTTGAGGA AAATTCAGAT TGCTAAGCTT AGCAAGGAAC AGAGAAAGGC ATATTTTGAG 
GAATATGATT ATCGAGTGAA GCTTCTTCAG AAGAAGCAGT GGAGAGAGGA GCTCAAGAGA 
ATGAGGGAAA TGAAGAATGG GAAGAATAGT ATGGATGACT CCAGTGAGAT GCCAGAAGAT 
TATGATGCTG AGAATGGATC CCCAGCTGCT GTACCCGTGC CATTGCCTGA CATGGTTTTG 
CCGCCATCAT TTGACAGCGA CACTCCAGCT TACCGATATC GGTTCTTGGA ACCAACATCA 
CAATTCTTGG CTCGGCCAGT TTTGGACACC CATGGTTGGG ACCATGATTG TGGGTATGAT 
GGTGTCAATG TTGAGCAGAA TCTTGGAATT GCGGGACGCT TCCCTGCAGC AGTTACAGTC 
CAGGTGACAA AAGATAAGAA AGACTTCAAC ATCCATTTGG ATTCTGCAGT TTCGGCGAAG 
CATGGAGAAA ATGGTTCTAG CTTAGTTGGC TTTGATGTTC AAACTATTGG TAAGCAGCTT 
GCTTACATTG TGAGAGGAGA AAGCAAATTC AAAAACTTGA AGAAGAACAA GACAGCTGCG 
GGAGTATCTG TTACCTTTTT GGGGGAGAAT GTGGCCACAG GAGTGAAGCT TGAAGATCAA 
ATTGCTTTAG GCAAGAGGCT GGTTTTGGTG GGGAGCACAG GAACTGTTCG CTCTCAAAAG 
GATGCTGCTT ATGGAGCTAA TTTGGAAGTG CGTCTCAGAG AGGCAGATTA TCCTATTGGC 
CAAGATCAGT CCTCGTTTGT GCTATCATTG ATGAAATGGA GAGGGGACTT GGCAATCGGA 
GGTAACCTTC AGTCGCAAAT TTCTGTTGGC CGGGGTTCGA AGATGGCTGT TCGTGTTGCC 
CTGAACAACA AACAGAGTGG GCAGATCACA GTGAGGACAA GCAGCTCTGA TCATCTTGCT 
CTTGCGTATG CTGGTCTCAT GCCAATTGCT CTTGCCCTTT ATCAAAAATT GAGGCCGAAT 
GTCACTGAGA ATTACTCTAT CTACTAA

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

RefSeq	XP_010690914.1
CDS	209..4915
Translation	MESKSQVETTSLLARQPSGIRALPSHDDDDDVDEFVIESVAENNNSPEKMSENDEINKNSTTSSSNGSSNGSISSSFTSSGGNNGSYVNGEEEFETPMAGPDDGTLEKLGEVGVIDEPASGSSLVSPGVRGRKAGLPVAKVSDDGDDEENEVGSGEEDSGEVVDEMDRSYAAEKAPRVRVLGEEGENEDEVFEEVNEETSVLSGEGVIEKRGGESVEGKGVGVDDGVGSKKEENASLDSGNAASGGVELVDEGDAVVDSIKVDAGEAVRSGVAVVGVEEESKPSKIESFEELKTEKIGELGNEGAEKEREGESLEAKGVDGDDSVGSKFEDKTSLDTTKVDSRSIELVNEGDAVVDSINVDAGEVVRSGVAVVVIEEERQDSDVESMDNITEDREEKVDSEVKVGEEISVVEEPTSVDPVSVEGTAVKVTDEGDSRLELKHDAVEAYRSGAIIVGEIEDTKGSENTGIEVGDTVVEESASMKEDFVSEETAEGDSKSVKSDEVKVTGEGDSKSTNSNEAMVTGEGDFKSVNSDEAKVTGEGASKSVKFDEPKITGEGDSVVDGMIIDAVEAVRSGVAVVGDSRAVETEMEVKDVAARVSENVTLANELAPQVCANTSEVGEQHKEALPREVETPALVEIAEQLNTEGTESEVDESSKQRESVHEVQSVSGGDQDKVQHAEVDNAASDKIDAKTLSSDKGQEAEERFHVPQEEHDDGGSYASDGEDESVFFKNKVSSRDFMEELASGDRSEIIDGQIVTDSEEEADSDEEGEGRELIDSAALAALLKAATSGGSDSGPITITSQDGSRLFSVERPAGLGTSLRSVRPASSSSNSSIFAPPSVAAPSEESLSDEDKKKLQNIHELRVKFLRLVQRLRQTADQSVSAQVLYKLGILAGRSALPSFTLDNAKQTAMRLEAEEKDDLDFSLNILVLGKTGVGKSATINSIFGEDKVKINAFEPETTSVNEVCGIVDGVKLRVIDAPGLKSSAMDQGFNRKVLASVAKLTKRYPPDLTLYVDRLDSQTRDLNDLPMLRTITNSLGTSIWRSVILTLTHAACAPPDGPSGVPLGYEVFVGQRSHIIQQSIGQAVGDLRFMNLGMMNPVSLVENHPACRKNREGEKVLPNGQAWRPQLLLLCYSLKILADASLASKPQEPVDPRKLFGFRVRSPPLPYLLSSLLQPRTHPKLSADQGGDNGDSDVDLDDLSDSDQEEEDEYDQLPPFKPLRKIQIAKLSKEQRKAYFEEYDYRVKLLQKKQWREELKRMREMKNGKNSMDDSSEMPEDYDAENGSPAAVPVPLPDMVLPPSFDSDTPAYRYRFLEPTSQFLARPVLDTHGWDHDCGYDGVNVEQNLGIAGRFPAAVTVQVTKDKKDFNIHLDSAVSAKHGENGSSLVGFDVQTIGKQLAYIVRGESKFKNLKKNKTAAGVSVTFLGENVATGVKLEDQIALGKRLVLVGSTGTVRSQKDAAYGANLEVRLREADYPIGQDQSSFVLSLMKWRGDLAIGGNLQSQISVGRGSKMAVRVALNNKQSGQITVRTSSSDHLALAYAGLMPIALALYQKLRPNVTENYSIY

Target ORF information:

RefSeq Version	XM_010692612.2
Organism	Beta vulgaris subsp. vulgaris
Definition	Beta vulgaris subsp. vulgaris translocase of chloroplast 159, chloroplastic (LOC104904383), mRNA.

Target ORF information:

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

XM_010692612.2

ORF Insert Sequence:

ATGGAGTCAA AATCTCAGGT GGAAACGACG TCGCTTCTTG CCCGACAACC CTCAGGTATT 
CGAGCTCTTC CTTCTCATGA TGATGATGAT GATGTTGATG AATTTGTTAT AGAATCAGTT 
GCCGAAAACA ATAATTCTCC TGAAAAAATG AGTGAAAACG ATGAAATTAA TAAGAATTCT 
ACTACTAGTA GCAGTAATGG CAGCAGTAAT GGTAGTATTA GTAGTAGTTT TACTAGTAGT 
GGTGGTAATA ATGGGAGTTA TGTGAATGGT GAGGAGGAGT TTGAGACTCC TATGGCTGGC 
CCAGATGATG GAACCCTAGA AAAATTAGGT GAGGTGGGTG TAATTGATGA ACCTGCATCT 
GGGTCTTCGT TGGTTTCGCC GGGTGTGAGG GGCCGGAAGG CGGGTTTGCC GGTAGCGAAG 
GTGTCGGATG ATGGGGATGA TGAAGAAAAT GAGGTGGGTA GCGGAGAGGA GGATAGTGGT 
GAAGTTGTGG ATGAGATGGA TAGGTCATAT GCTGCTGAAA AGGCTCCTAG AGTTAGGGTT 
TTGGGTGAGG AGGGAGAGAA TGAGGACGAG GTTTTTGAGG AGGTGAACGA AGAAACGAGT 
GTTTTGAGTG GTGAGGGGGT TATAGAGAAG AGGGGAGGTG AGTCTGTGGA GGGTAAGGGT 
GTTGGTGTTG ATGACGGTGT AGGTTCCAAA AAGGAAGAGA ATGCTTCTCT AGATTCCGGA 
AATGCTGCTT CTGGTGGTGT TGAGTTGGTT GATGAGGGAG ATGCTGTTGT GGACTCCATA 
AAGGTGGATG CTGGCGAAGC TGTAAGGTCA GGAGTTGCTG TTGTTGGGGT CGAAGAGGAA 
AGCAAGCCTT CAAAAATTGA ATCTTTCGAG GAGCTGAAAA CAGAAAAAAT AGGTGAATTG 
GGTAATGAGG GTGCTGAAAA GGAGAGAGAG GGTGAGTCTT TGGAGGCTAA GGGGGTCGAT 
GGTGATGATA GTGTGGGTTC TAAATTTGAA GATAAGACTT CCTTGGATAC CACGAAAGTT 
GACTCTCGTA GTATTGAGTT GGTTAATGAG GGGGATGCTG TTGTGGACTC CATAAACGTG 
GATGCTGGTG AAGTTGTGAG GTCAGGGGTT GCTGTTGTTG TAATAGAAGA GGAAAGGCAG 
GATTCAGATG TTGAATCAAT GGACAATATC ACTGAGGATA GAGAAGAAAA AGTGGATTCT 
GAGGTTAAAG TAGGGGAGGA AATCTCTGTT GTTGAAGAAC CCACTTCAGT AGATCCTGTA 
TCTGTTGAAG GTACTGCGGT GAAGGTAACT GATGAGGGGG ATTCTAGATT GGAATTGAAA 
CATGATGCTG TGGAGGCTTA TAGGTCTGGA GCTATTATAG TTGGGGAGAT AGAAGACACG 
AAAGGCTCAG AAAATACAGG AATTGAGGTT GGAGATACTG TTGTTGAAGA ATCTGCGTCT 
ATGAAAGAAG ATTTTGTCTC CGAAGAAACG GCTGAAGGAG ACTCTAAATC TGTAAAATCT 
GATGAGGTAA AGGTTACAGG TGAAGGAGAC TCTAAATCTA CAAATTCTAA TGAGGCAATG 
GTAACTGGTG AAGGAGACTT TAAATCTGTA AATTCTGATG AGGCAAAGGT TACGGGTGAA 
GGAGCCTCTA AATCTGTAAA ATTTGATGAG CCAAAGATTA CGGGTGAAGG GGATTCTGTT 
GTTGATGGGA TGATTATTGA TGCTGTTGAG GCTGTAAGAT CTGGAGTAGC TGTTGTGGGG 
GATTCTAGAG CAGTGGAAAC GGAAATGGAA GTCAAGGATG TCGCAGCACG TGTTAGTGAA 
AACGTGACGT TGGCTAATGA GTTGGCGCCA CAGGTTTGTG CTAACACATC CGAGGTTGGT 
GAACAGCACA AAGAGGCACT TCCAAGAGAA GTAGAAACAC CTGCACTAGT AGAGATTGCT 
GAGCAACTGA ACACAGAGGG GACTGAGTCC GAAGTTGATG AATCATCCAA GCAGCGCGAG 
TCTGTTCACG AGGTACAATC TGTTTCTGGT GGGGATCAAG ACAAGGTTCA GCATGCAGAA 
GTGGATAATG CTGCATCTGA TAAGATTGAT GCTAAAACTT TGAGCTCAGA TAAGGGACAG 
GAAGCTGAGG AGAGGTTTCA TGTACCACAA GAGGAGCATG ATGATGGAGG CTCTTATGCC 
TCTGATGGTG AAGATGAATC TGTGTTCTTT AAGAATAAAG TATCTTCCAG AGATTTTATG 
GAAGAGTTGG CATCTGGTGA TCGTTCCGAG ATTATTGATG GCCAGATTGT CACAGACTCA 
GAGGAAGAAG CTGATTCTGA TGAGGAAGGG GAGGGTAGAG AATTGATTGA TTCTGCTGCA 
TTAGCTGCTC TTTTGAAAGC GGCAACTAGT GGTGGCTCAG ATTCTGGCCC TATCACTATA 
ACATCTCAAG ATGGGTCTCG CCTTTTCTCT GTTGAGCGTC CTGCTGGTCT AGGAACATCA 
CTTCGTTCTG TGAGACCTGC GTCAAGCTCA AGCAACTCCA GCATCTTTGC TCCACCAAGT 
GTTGCTGCTC CATCTGAGGA GAGCCTAAGT GACGAAGACA AAAAGAAGCT GCAGAATATA 
CATGAGTTGA GGGTGAAATT CTTGAGGCTT GTTCAAAGAC TTCGCCAGAC AGCAGATCAA 
TCTGTATCAG CACAAGTTCT CTATAAACTA GGAATTCTTG CAGGTAGGTC AGCACTTCCG 
TCCTTCACTC TTGATAATGC GAAACAGACA GCTATGCGGC TTGAGGCTGA GGAGAAAGAT 
GATTTAGACT TTTCCTTGAA CATCCTGGTT CTTGGCAAAA CTGGTGTTGG CAAGAGTGCC 
ACCATCAATT CTATATTTGG TGAAGATAAG GTCAAAATTA ATGCATTTGA ACCTGAAACC 
ACTTCTGTTA ATGAGGTTTG TGGAATCGTG GACGGCGTCA AGCTAAGGGT CATTGATGCA 
CCTGGTCTTA AATCATCTGC AATGGATCAA GGCTTCAACC GTAAAGTCTT AGCCTCGGTC 
GCGAAGCTCA CCAAAAGATA CCCTCCAGAT CTCACGCTTT ATGTGGATCG GTTGGATTCA 
CAAACAAGAG ATCTAAATGA TCTACCTATG TTGAGGACAA TTACCAACTC TCTTGGGACT 
TCAATCTGGC GGAGTGTCAT TCTCACTCTC ACTCATGCTG CTTGTGCACC TCCAGATGGT 
CCATCTGGTG TTCCATTGGG TTACGAGGTG TTCGTGGGGC AGCGTAGCCA TATTATTCAG 
CAGTCCATTG GTCAAGCGGT TGGTGATTTG CGTTTTATGA ATCTAGGCAT GATGAATCCT 
GTCTCCCTTG TGGAGAACCA CCCTGCTTGT CGTAAGAACC GAGAAGGCGA GAAGGTACTT 
CCTAATGGCC AGGCTTGGAG ACCACAGTTA TTGTTGCTGT GCTACTCTTT AAAAATCTTG 
GCTGACGCAA GTTTGGCCTC AAAGCCTCAA GAACCTGTAG ATCCCAGGAA ACTTTTTGGT 
TTCCGTGTTC GTTCCCCTCC TCTCCCATAC TTGTTATCTT CATTGCTGCA ACCTCGTACT 
CACCCCAAAC TTTCAGCTGA TCAGGGTGGT GACAATGGTG ATTCTGATGT TGACTTGGAC 
GACTTGTCCG ATTCTGATCA GGAAGAAGAA GACGAGTATG ATCAACTCCC ACCATTTAAG 
CCTTTGAGGA AAATTCAGAT TGCTAAGCTT AGCAAGGAAC AGAGAAAGGC ATATTTTGAG 
GAATATGATT ATCGAGTGAA GCTTCTTCAG AAGAAGCAGT GGAGAGAGGA GCTCAAGAGA 
ATGAGGGAAA TGAAGAATGG GAAGAATAGT ATGGATGACT CCAGTGAGAT GCCAGAAGAT 
TATGATGCTG AGAATGGATC CCCAGCTGCT GTACCCGTGC CATTGCCTGA CATGGTTTTG 
CCGCCATCAT TTGACAGCGA CACTCCAGCT TACCGATATC GGTTCTTGGA ACCAACATCA 
CAATTCTTGG CTCGGCCAGT TTTGGACACC CATGGTTGGG ACCATGATTG TGGGTATGAT 
GGTGTCAATG TTGAGCAGAA TCTTGGAATT GCGGGACGCT TCCCTGCAGC AGTTACAGTC 
CAGGTGACAA AAGATAAGAA AGACTTCAAC ATCCATTTGG ATTCTGCAGT TTCGGCGAAG 
CATGGAGAAA ATGGTTCTAG CTTAGTTGGC TTTGATGTTC AAACTATTGG TAAGCAGCTT 
GCTTACATTG TGAGAGGAGA AAGCAAATTC AAAAACTTGA AGAAGAACAA GACAGCTGCG 
GGAGTATCTG TTACCTTTTT GGGGGAGAAT GTGGCCACAG GAGTGAAGCT TGAAGATCAA 
ATTGCTTTAG GCAAGAGGCT GGTTTTGGTG GGGAGCACAG GAACTGTTCG CTCTCAAAAG 
GATGCTGCTT ATGGAGCTAA TTTGGAAGTG CGTCTCAGAG AGGCAGATTA TCCTATTGGC 
CAAGATCAGT CCTCGTTTGT GCTATCATTG ATGAAATGGA GAGGGGACTT GGCAATCGGA 
GGTAACCTTC AGTCGCAAAT TTCTGTTGGC CGGGGTTCGA AGATGGCTGT TCGTGTTGCC 
CTGAACAACA AACAGAGTGG GCAGATCACA GTGAGGACAA GCAGCTCTGA TCATCTTGCT 
CTTGCGTATG CTGGTCTCAT GCCAATTGCT CTTGCCCTTT ATCAAAAATT GAGGCCGAAT 
GTCACTGAGA ATTACTCTAT CTACTAA