LOC105790710 cDNA ORF clone, Gossypium raimondii

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC105790710
Entrez Gene ID	105790710
Full Name	uncharacterized LOC105790710
Gene Type	protein-coding
Organism	Gossypium raimondii

mRNA and Protein(s)

mRNA	Protein	Name
XM_012618452.1	XP_012473906.1	uncharacterized protein LOC105790710

Pathways from BioSystems
Gene Ontology

The following LOC105790710 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105790710 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
OGo163977	XM_012618452.1 Latest version!	Gossypium raimondii uncharacterized LOC105790710 (LOC105790710), 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)

LOC105790710 ( XM_012618452.1 ) cDNA ORF clone, Gossypium raimondii -> XP_012473906.1 Gossypium raimondii uncharacterized LOC105790710 (LOC105790710), mRNA.

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CloneID	OGo163977
Clone ID Related Accession (Same CDS sequence)	XM_012618452.1
Accession Version	XM_012618452.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4398bp) 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	2015-05-21
Organism	Gossypium raimondii
Product	uncharacterized protein LOC105790710
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012160871.1) 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 :: Gossypium raimondii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAGGGG GCTTCGAAAC TAGCTGTTTG CAGTTTAAAC CTGATGAAAG TGAGGTTTTG 
CCAAGGCAAG ACATTGTGGA AAATAAAGGG GATGATCTGA AGCTAATGGT TCTTGATTTA 
AACGAAGAGC CGTTAGTGTG TTCTTTGAAA GAGGTTGAAT TTGAGAAAAA AGAGGGATTG 
GTGGAGGTTA ATGAAGATGA TAAAGAAGAC AGTGTGAAGA AAAATGCCAA GGAGGAAGGC 
TTAAAAGGTG AAGTGCAGTT TTCTGGCAGG GTTTTAAGGT CGAGGTCTGC AGTCAAGAAT 
CTGAGTGTGA TTGAAGGTGA CAAGGTTGAT AAAACTGAGG ATGACAGTAG TTCTGAAATG 
AAAACAACTG AGGTGGTTAA GGAGGGGAAT GATCTGTCTC ATACTGAAGT GAATGATGTG 
CAGAGAAAGG TGGGTAAGAT GGGAAAGCGT AAGCGTGGGA GACCGCCCAA GTTGCTGGAT 
AAGGGGAATG ATCAGTCTCA GTGTGAAGTG AAGGATGTGC AGAGTAAGGT GGGTAAGATG 
GGAAAGCGTA AGCGTGGGAG ACCGCCCAAG TTGCTGGATA AGGGGAATGA TCAGTCTCAT 
AGTGAAGTGA AGGATGTGCA GAGTAAGGTG GGTAAGATGG GAAAACGCAA GCGTGGGAGA 
CCACCCAAGT TTCTGGTGAA GAATGGGTCT GAGAAGAAGA CACCTGAGCT GAAAGTACGA 
GAGAATGATT ACCCAGATGG TAAAGTGAGG AAGGAGCTCA AGCGCAAGCG TGGCAGACCA 
CCTAAGGTAC TAGGCAATGG TGGGTCTGTA AAGAAAGGAT TTACAATAAA AGCAGTGGAA 
AGTGATCATG TTGATGGGGA TGTAAGTAGG CAGTCAAAGC GTAAGCGTGG AAGACCAAGG 
AAGGTACCAG AGAATAGTGG ATTTGAGAAG AAAGGAATTA ATGTGAAAGC AGATCAGAGT 
AATCAGCTTG ATGGTGGTCG CGTTAAGAAG TCAAATCATA AACGTAGGCG TGGCAGACCA 
ATGAAGGGGC AGAAGAACGA GGGGGTTAAC AAGGAAACAG ATGAGATTAA AGCAAGAGAG 
AGTTACTCTG TTGAGACAAG GAAGGAAGCA AACCACAAGC ATGATGTACC ACCCAAGATG 
AATGTCAATG ATGGCTTTGA GATGAAACCT GTTGATGTGG AAATGGGAGA GGGCAATCAC 
TTTGATTGTG AGTTAAGGGA GGAGGTCAAT CGTAAGCGTG GGAGACCACC TAAAATGAAG 
GGCAGTGATA GGAGTGATCA ATGTAATAGC AAGGTAAAGG AAGGTATGAT CCGTAAGCGT 
GGAAGACCAC CCAAGCTGCA GGCTGGTAGT AAGGGTTTGA AGAGTAGGCT TATAGATGGG 
AGAAAAAAGT TGGGTGGGCT AAGAAGAGGC AGAAAAAAGT TGAGAGGGAG GTTAAAGTTT 
AACATTCCTA GTACTTCATT GTCAGAGAAG AAACTGATTG CAAAAGATTC AAATCTTAAG 
AGGTTTCTAT CTGCTAATAA GGATATATTT GATGATATGG AAAAGAATGA CGGCAAGGCT 
TCACTAATGG TAAGACCTAA GGCTCTAAAT GCGGAAGGCA GTGAAAACCA GGTAAAGAAA 
GCAAGGGCTG AAGGGGAATG GAGAAGGTCA GAAGCAAAAC AAGCTCTGAG AGATAGAATA 
GTGAATCTGC TGAAAGCAGC TGGTTGGAAA ATTGATTACA AGCCTAGGAA TAATAAAGAG 
TACAATGATG CAGTGTATGT TAATCCTGAA GGAAAGACTC ACTGGTCAGT TACCTTGGCC 
TACAGGGTGC TTAAAAGCTA TTATGAGAAT GGTGGTTGTG ACTCTAAAGT TGGTCCAAAT 
GATTTCATAT TTACTCCCAT TCCTGAAGAA GAACTTAGCA TCCTAAAAAG AGTAGTTCTA 
AAGAAAAGGG TTAGAAAAAA GATGCCAAAA GGGGAAGATG ATGATAAAGT GGATGATGGA 
CAAGTTCAAA ATAAAATGAA TAAACAAAAA AGGAAATGGA AAGACATTAA GAAAAAGAAA 
AAGAAAAAAC AGAAGGTGCT CAAAGAGAAG CTTCCACGTC ATGAAGAGGA AAACTCTGAT 
GGTACATTAC AAAGGGGTAC GCAAGTCTCA AGCAGGAAGC GTAAGCTACA GCAGACACAA 
AAGAGAAAGC GGTATGCTTT GCTGGTTCGT AACTCAATGG ATGGAGCTGA ATCCGATAAT 
AATGGCTATG TTCTATATGA TGGAAAGCGA ACTCTGCTTT CTTGGATGAT TGATTTGGGC 
ACTGTTCCAC AGAATGGGAA GGTGGAATAT TTGGTTCAAA GAAGAACTCG AACTCGTGAG 
AGTAAGGCTG GTAGGATAAC TAGGGATGGC ATCCAATGCA ACTGTTGTAG TGATGTCTTC 
ACCATTGCCG ATTTTGAAAC TCATGCAGGG GGCAAAATCT GTCAACCTTT TCTGAATATA 
TGTTTAGAAA CAGGAGTTCC CCTCTTGCAA TGCTTATTAG ATGCATGGAA CAAACGGCAG 
CAGTCTGAAT GTAGGGGCTT CCATTTTGTC GATTTTGGTG GTGAAGACCC AAATGATGAT 
ACCTGTGGTA TCTGTGGGGA TGGTGGTGAC TTGATCTGTT GTGATAGTTG CCCATCAACA 
TTCCATCAAA GTTGCTTAGA TATAGAAGCA TTTCCTTCAG GTAACTGGAA TTGTGTGTAC 
TGTACATGCA AATATTGTGG GATGGTTGGG AATACATATC AAAGGGCCAA AACTGAGGAT 
ATGAGTTCTA CAGTTCTAAC ATGCCATTCA TGTGAAGAAA AATATCATGA ACCATGTATT 
CAGCCAATGG ATGCTTTTGA TGATGATTCA AGTAGTGCGT TCTTTTGTGG GAAGAGATGC 
AAAGAGTTGT TTGAGAGACT TCAGATGCTA GTTGGGGTTA AACATGAACT GCAAGAAGGC 
TTCTCATGGA CTCTTGTTCA GCGCTTTGAT ATCACTTCAG ATGTTTGTCT TAATGAAGCA 
TATCAAAAGG TTGAATCAAA TTCAAAGCTA GCTGTTGCAT TATCTGTGAT GGATGAGTGC 
TTTTTGCCTC TTGTTGACCA CAGAAGTGGG ATCAATCTGA TTCATAATAT TGTCTATAAT 
TTTTGGTCAA ACTTCACTAG GCTAAACTAC AGTGGTTTTT ACACTGCAAT TCTAGAAAGG 
GGGGATGAGG TCATCTCTGC AGCTTCCATC AGGATCCATG GAAACCAGTT AGCTGAGATG 
CCTTTCATTG GCACCCGGTA TGCTTATAGG CGTCAAGGGA TGTGTCGCCG GCTTCTTTGC 
GCAATTGAAT CTGCCCTCAG ATCCCTGAAT GTTCAGAAAT TGGTCATACC TGCAGTCCCA 
GAACTCAGGG AAACATGGAC TTCTGTCTTT GGTTTCCAAC CACTAGAAAC TGCAAGCAAG 
CCGAAGATGA GGAGCATGAA TATACTGGTC TTTCCAGGTG TAGATATGTT AGAGAAACCA 
CTGCTGACAC ATGTTATGGA GGAGCAGATT ATGGGCAAGG CGTCCTATAA ATCTGTAGAG 
AGGTGTCCAG CTGTGTTTGA TTTGAATGTT TCTGCTGAGG ACCCTGAACC TGAAATAGAT 
GATAGAACTG ATGAACCTGC TGCTATTGAG TCTACAACAC TTCCCGATGG TACCTTAAAA 
TATACTTCTG ATATAATGGC TGAGACTGTC AATCTTCCAG AATCTGCTGC TGTTTCTTCC 
TCTTGCATTC CAGCACCTGA AGAAAGCAAT CTGGAATTTG ACTCTCAAAA TATATATTCA 
GAGGAGAAAG CTGATGACAG CATTGTTAAA CAGAACCTTG ATTCTGAGCA TGCTGGATCT 
GTCAAACACT CTGATCATAT CGTACATGCT GACAATGAAG TGGCAGTTCC TGTACAAGCG 
TCAAAGGATG CTGGTAAGGA TGTTCTTACT AATGGCTTTG ATGGTACAGT TCAGATGTCT 
GAGGATGTAA ATGACATCAA GCATCATGGA AATTCTAAAT TAGAGATGGT AGAATGTGTT 
TCTGATTTTG TTAAGACAGT CGTTCAGTCT GAAGAAGCAA AAATTTTTTA CTTTGTAAAG 
TCGATCTTTC AGTCTGAGGA AGAAAAAAAT TGCCATGCTA TTGGCAAAGA TGCGACCAAC 
CAAACTTCTC CATCAACTAG CCAAGGTGCT CAACATGCTC CCAATGGTCA TTACGATGTT 
GCATTCAACG ACAGTAAAAG TGGCCCTTCC AGACAGGGAG TCAAGATGGA AGCTTCTGGA 
GAAGTGTCAT CTACAATCGA TGTAAATTTC ATTACTTACG AGGTTTGCAG TGATACTTCG 
AAAAGAGAAA ATGTGCAGCA GTGCATGTGC AAGCCTGCAG AGGTTGTCTC AGCTGGTTCT 
GAGGTTTGCC ATGACTAA

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

RefSeq	XP_012473906.1
CDS	379..4776
Translation	MGGGFETSCLQFKPDESEVLPRQDIVENKGDDLKLMVLDLNEEPLVCSLKEVEFEKKEGLVEVNEDDKEDSVKKNAKEEGLKGEVQFSGRVLRSRSAVKNLSVIEGDKVDKTEDDSSSEMKTTEVVKEGNDLSHTEVNDVQRKVGKMGKRKRGRPPKLLDKGNDQSQCEVKDVQSKVGKMGKRKRGRPPKLLDKGNDQSHSEVKDVQSKVGKMGKRKRGRPPKFLVKNGSEKKTPELKVRENDYPDGKVRKELKRKRGRPPKVLGNGGSVKKGFTIKAVESDHVDGDVSRQSKRKRGRPRKVPENSGFEKKGINVKADQSNQLDGGRVKKSNHKRRRGRPMKGQKNEGVNKETDEIKARESYSVETRKEANHKHDVPPKMNVNDGFEMKPVDVEMGEGNHFDCELREEVNRKRGRPPKMKGSDRSDQCNSKVKEGMIRKRGRPPKLQAGSKGLKSRLIDGRKKLGGLRRGRKKLRGRLKFNIPSTSLSEKKLIAKDSNLKRFLSANKDIFDDMEKNDGKASLMVRPKALNAEGSENQVKKARAEGEWRRSEAKQALRDRIVNLLKAAGWKIDYKPRNNKEYNDAVYVNPEGKTHWSVTLAYRVLKSYYENGGCDSKVGPNDFIFTPIPEEELSILKRVVLKKRVRKKMPKGEDDDKVDDGQVQNKMNKQKRKWKDIKKKKKKKQKVLKEKLPRHEEENSDGTLQRGTQVSSRKRKLQQTQKRKRYALLVRNSMDGAESDNNGYVLYDGKRTLLSWMIDLGTVPQNGKVEYLVQRRTRTRESKAGRITRDGIQCNCCSDVFTIADFETHAGGKICQPFLNICLETGVPLLQCLLDAWNKRQQSECRGFHFVDFGGEDPNDDTCGICGDGGDLICCDSCPSTFHQSCLDIEAFPSGNWNCVYCTCKYCGMVGNTYQRAKTEDMSSTVLTCHSCEEKYHEPCIQPMDAFDDDSSSAFFCGKRCKELFERLQMLVGVKHELQEGFSWTLVQRFDITSDVCLNEAYQKVESNSKLAVALSVMDECFLPLVDHRSGINLIHNIVYNFWSNFTRLNYSGFYTAILERGDEVISAASIRIHGNQLAEMPFIGTRYAYRRQGMCRRLLCAIESALRSLNVQKLVIPAVPELRETWTSVFGFQPLETASKPKMRSMNILVFPGVDMLEKPLLTHVMEEQIMGKASYKSVERCPAVFDLNVSAEDPEPEIDDRTDEPAAIESTTLPDGTLKYTSDIMAETVNLPESAAVSSSCIPAPEESNLEFDSQNIYSEEKADDSIVKQNLDSEHAGSVKHSDHIVHADNEVAVPVQASKDAGKDVLTNGFDGTVQMSEDVNDIKHHGNSKLEMVECVSDFVKTVVQSEEAKIFYFVKSIFQSEEEKNCHAIGKDATNQTSPSTSQGAQHAPNGHYDVAFNDSKSGPSRQGVKMEASGEVSSTIDVNFITYEVCSDTSKRENVQQCMCKPAEVVSAGSEVCHD

Target ORF information:

RefSeq Version	XM_012618452.1
Organism	Gossypium raimondii
Definition	Gossypium raimondii uncharacterized LOC105790710 (LOC105790710), mRNA.

Target ORF information:

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

XM_012618452.1

ORF Insert Sequence:

ATGGGAGGGG GCTTCGAAAC TAGCTGTTTG CAGTTTAAAC CTGATGAAAG TGAGGTTTTG 
CCAAGGCAAG ACATTGTGGA AAATAAAGGG GATGATCTGA AGCTAATGGT TCTTGATTTA 
AACGAAGAGC CGTTAGTGTG TTCTTTGAAA GAGGTTGAAT TTGAGAAAAA AGAGGGATTG 
GTGGAGGTTA ATGAAGATGA TAAAGAAGAC AGTGTGAAGA AAAATGCCAA GGAGGAAGGC 
TTAAAAGGTG AAGTGCAGTT TTCTGGCAGG GTTTTAAGGT CGAGGTCTGC AGTCAAGAAT 
CTGAGTGTGA TTGAAGGTGA CAAGGTTGAT AAAACTGAGG ATGACAGTAG TTCTGAAATG 
AAAACAACTG AGGTGGTTAA GGAGGGGAAT GATCTGTCTC ATACTGAAGT GAATGATGTG 
CAGAGAAAGG TGGGTAAGAT GGGAAAGCGT AAGCGTGGGA GACCGCCCAA GTTGCTGGAT 
AAGGGGAATG ATCAGTCTCA GTGTGAAGTG AAGGATGTGC AGAGTAAGGT GGGTAAGATG 
GGAAAGCGTA AGCGTGGGAG ACCGCCCAAG TTGCTGGATA AGGGGAATGA TCAGTCTCAT 
AGTGAAGTGA AGGATGTGCA GAGTAAGGTG GGTAAGATGG GAAAACGCAA GCGTGGGAGA 
CCACCCAAGT TTCTGGTGAA GAATGGGTCT GAGAAGAAGA CACCTGAGCT GAAAGTACGA 
GAGAATGATT ACCCAGATGG TAAAGTGAGG AAGGAGCTCA AGCGCAAGCG TGGCAGACCA 
CCTAAGGTAC TAGGCAATGG TGGGTCTGTA AAGAAAGGAT TTACAATAAA AGCAGTGGAA 
AGTGATCATG TTGATGGGGA TGTAAGTAGG CAGTCAAAGC GTAAGCGTGG AAGACCAAGG 
AAGGTACCAG AGAATAGTGG ATTTGAGAAG AAAGGAATTA ATGTGAAAGC AGATCAGAGT 
AATCAGCTTG ATGGTGGTCG CGTTAAGAAG TCAAATCATA AACGTAGGCG TGGCAGACCA 
ATGAAGGGGC AGAAGAACGA GGGGGTTAAC AAGGAAACAG ATGAGATTAA AGCAAGAGAG 
AGTTACTCTG TTGAGACAAG GAAGGAAGCA AACCACAAGC ATGATGTACC ACCCAAGATG 
AATGTCAATG ATGGCTTTGA GATGAAACCT GTTGATGTGG AAATGGGAGA GGGCAATCAC 
TTTGATTGTG AGTTAAGGGA GGAGGTCAAT CGTAAGCGTG GGAGACCACC TAAAATGAAG 
GGCAGTGATA GGAGTGATCA ATGTAATAGC AAGGTAAAGG AAGGTATGAT CCGTAAGCGT 
GGAAGACCAC CCAAGCTGCA GGCTGGTAGT AAGGGTTTGA AGAGTAGGCT TATAGATGGG 
AGAAAAAAGT TGGGTGGGCT AAGAAGAGGC AGAAAAAAGT TGAGAGGGAG GTTAAAGTTT 
AACATTCCTA GTACTTCATT GTCAGAGAAG AAACTGATTG CAAAAGATTC AAATCTTAAG 
AGGTTTCTAT CTGCTAATAA GGATATATTT GATGATATGG AAAAGAATGA CGGCAAGGCT 
TCACTAATGG TAAGACCTAA GGCTCTAAAT GCGGAAGGCA GTGAAAACCA GGTAAAGAAA 
GCAAGGGCTG AAGGGGAATG GAGAAGGTCA GAAGCAAAAC AAGCTCTGAG AGATAGAATA 
GTGAATCTGC TGAAAGCAGC TGGTTGGAAA ATTGATTACA AGCCTAGGAA TAATAAAGAG 
TACAATGATG CAGTGTATGT TAATCCTGAA GGAAAGACTC ACTGGTCAGT TACCTTGGCC 
TACAGGGTGC TTAAAAGCTA TTATGAGAAT GGTGGTTGTG ACTCTAAAGT TGGTCCAAAT 
GATTTCATAT TTACTCCCAT TCCTGAAGAA GAACTTAGCA TCCTAAAAAG AGTAGTTCTA 
AAGAAAAGGG TTAGAAAAAA GATGCCAAAA GGGGAAGATG ATGATAAAGT GGATGATGGA 
CAAGTTCAAA ATAAAATGAA TAAACAAAAA AGGAAATGGA AAGACATTAA GAAAAAGAAA 
AAGAAAAAAC AGAAGGTGCT CAAAGAGAAG CTTCCACGTC ATGAAGAGGA AAACTCTGAT 
GGTACATTAC AAAGGGGTAC GCAAGTCTCA AGCAGGAAGC GTAAGCTACA GCAGACACAA 
AAGAGAAAGC GGTATGCTTT GCTGGTTCGT AACTCAATGG ATGGAGCTGA ATCCGATAAT 
AATGGCTATG TTCTATATGA TGGAAAGCGA ACTCTGCTTT CTTGGATGAT TGATTTGGGC 
ACTGTTCCAC AGAATGGGAA GGTGGAATAT TTGGTTCAAA GAAGAACTCG AACTCGTGAG 
AGTAAGGCTG GTAGGATAAC TAGGGATGGC ATCCAATGCA ACTGTTGTAG TGATGTCTTC 
ACCATTGCCG ATTTTGAAAC TCATGCAGGG GGCAAAATCT GTCAACCTTT TCTGAATATA 
TGTTTAGAAA CAGGAGTTCC CCTCTTGCAA TGCTTATTAG ATGCATGGAA CAAACGGCAG 
CAGTCTGAAT GTAGGGGCTT CCATTTTGTC GATTTTGGTG GTGAAGACCC AAATGATGAT 
ACCTGTGGTA TCTGTGGGGA TGGTGGTGAC TTGATCTGTT GTGATAGTTG CCCATCAACA 
TTCCATCAAA GTTGCTTAGA TATAGAAGCA TTTCCTTCAG GTAACTGGAA TTGTGTGTAC 
TGTACATGCA AATATTGTGG GATGGTTGGG AATACATATC AAAGGGCCAA AACTGAGGAT 
ATGAGTTCTA CAGTTCTAAC ATGCCATTCA TGTGAAGAAA AATATCATGA ACCATGTATT 
CAGCCAATGG ATGCTTTTGA TGATGATTCA AGTAGTGCGT TCTTTTGTGG GAAGAGATGC 
AAAGAGTTGT TTGAGAGACT TCAGATGCTA GTTGGGGTTA AACATGAACT GCAAGAAGGC 
TTCTCATGGA CTCTTGTTCA GCGCTTTGAT ATCACTTCAG ATGTTTGTCT TAATGAAGCA 
TATCAAAAGG TTGAATCAAA TTCAAAGCTA GCTGTTGCAT TATCTGTGAT GGATGAGTGC 
TTTTTGCCTC TTGTTGACCA CAGAAGTGGG ATCAATCTGA TTCATAATAT TGTCTATAAT 
TTTTGGTCAA ACTTCACTAG GCTAAACTAC AGTGGTTTTT ACACTGCAAT TCTAGAAAGG 
GGGGATGAGG TCATCTCTGC AGCTTCCATC AGGATCCATG GAAACCAGTT AGCTGAGATG 
CCTTTCATTG GCACCCGGTA TGCTTATAGG CGTCAAGGGA TGTGTCGCCG GCTTCTTTGC 
GCAATTGAAT CTGCCCTCAG ATCCCTGAAT GTTCAGAAAT TGGTCATACC TGCAGTCCCA 
GAACTCAGGG AAACATGGAC TTCTGTCTTT GGTTTCCAAC CACTAGAAAC TGCAAGCAAG 
CCGAAGATGA GGAGCATGAA TATACTGGTC TTTCCAGGTG TAGATATGTT AGAGAAACCA 
CTGCTGACAC ATGTTATGGA GGAGCAGATT ATGGGCAAGG CGTCCTATAA ATCTGTAGAG 
AGGTGTCCAG CTGTGTTTGA TTTGAATGTT TCTGCTGAGG ACCCTGAACC TGAAATAGAT 
GATAGAACTG ATGAACCTGC TGCTATTGAG TCTACAACAC TTCCCGATGG TACCTTAAAA 
TATACTTCTG ATATAATGGC TGAGACTGTC AATCTTCCAG AATCTGCTGC TGTTTCTTCC 
TCTTGCATTC CAGCACCTGA AGAAAGCAAT CTGGAATTTG ACTCTCAAAA TATATATTCA 
GAGGAGAAAG CTGATGACAG CATTGTTAAA CAGAACCTTG ATTCTGAGCA TGCTGGATCT 
GTCAAACACT CTGATCATAT CGTACATGCT GACAATGAAG TGGCAGTTCC TGTACAAGCG 
TCAAAGGATG CTGGTAAGGA TGTTCTTACT AATGGCTTTG ATGGTACAGT TCAGATGTCT 
GAGGATGTAA ATGACATCAA GCATCATGGA AATTCTAAAT TAGAGATGGT AGAATGTGTT 
TCTGATTTTG TTAAGACAGT CGTTCAGTCT GAAGAAGCAA AAATTTTTTA CTTTGTAAAG 
TCGATCTTTC AGTCTGAGGA AGAAAAAAAT TGCCATGCTA TTGGCAAAGA TGCGACCAAC 
CAAACTTCTC CATCAACTAG CCAAGGTGCT CAACATGCTC CCAATGGTCA TTACGATGTT 
GCATTCAACG ACAGTAAAAG TGGCCCTTCC AGACAGGGAG TCAAGATGGA AGCTTCTGGA 
GAAGTGTCAT CTACAATCGA TGTAAATTTC ATTACTTACG AGGTTTGCAG TGATACTTCG 
AAAAGAGAAA ATGTGCAGCA GTGCATGTGC AAGCCTGCAG AGGTTGTCTC AGCTGGTTCT 
GAGGTTTGCC ATGACTAA