XRN1 cDNA ORF clone, Colius striatus(speckled mousebird)

Gene
Clones
gRNAs

Summary

Gene Symbol	XRN1
Entrez Gene ID	104560144
Full Name	5'-3' exoribonuclease 1
Gene Type	protein-coding
Organism	Colius striatus(speckled mousebird)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010205381.1	XP_010203683.1	5'-3' exoribonuclease 1

Pathways from BioSystems
Gene Ontology

The following XRN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the XRN1 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
OCo163064	XM_010205381.1 Latest version!	Colius striatus 5'-3' exoribonuclease 1 (XRN1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

XRN1 ( XM_010205381.1 ) cDNA ORF clone, Colius striatus(speckled mousebird) -> XP_010203683.1 Colius striatus 5'-3' exoribonuclease 1 (XRN1), mRNA.

Price & Availability↑

CloneID	OCo163064
Clone ID Related Accession (Same CDS sequence)	XM_010205381.1
Accession Version	XM_010205381.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5214bp) 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	2014-11-06
Organism	Colius striatus(speckled mousebird)
Product	5'-3' exoribonuclease 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010702624.1) 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 :: Colius striatus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATGGCA TTATACATCA GTGTTCACAT CCAAATGATG ATGATGTTCA CTTCAGAATC 
TCAGAAGATA AGATTTTTGC TGATATTTTT CACTATTTGG AAGTACTGTT TCGCATTATT 
AAGCCAAGGA AGGTTTTCTT CATGGCAGTT GATGGAGTAG CACCAAGAGC AAAAATGAAT 
CAGCAGCGTG GGAGACGTTT TAGATCAGCA AAAGAGGCAG AGGATAAAAT TAAAAAAGCA 
TTAGAAAAGG GAGAAACTCT CCCTACAGAA GCCAGATTTG ACTCCAACTG TATTACACCA 
GGAACTGAAT TCATGGCCAG ACTGCATGAG CATCTTAAGT ATTTTGTAAA TATGAAGATT 
TCCACAGACA AATCCTGGCA AGGAGTAACA GTCTACCTAT CAGGCCACGA GACTCCAGGT 
GAAGGTGAAC ATAAAATTAT GGAGTTCATC AGATCAGAAA AAGCAAAGCC CCATCATGAT 
CCAAACACAA GACACTGTCT GTATGGCTTA GATGCTGACT TGATTATGCT GGGATTAACA 
AGTCATGAGG CACACTTCGC GCTCTTAAGA GAAGAAGTCA GATTTGGTGG TAAAAAATCT 
CAAAGAGCAT GTGCACCAGA GGAAACCACA TTTCATCTAC TGCACTTGTC ACTGATGAGA 
GAATATATTG ATTATGAATT TTCACCAGTA AAAGACAAGA TTTCTTTTGA ATATGATATT 
GAAAGGATAA TAGATGATTG GATCTTAATG GGTTTCCTTG TAGGAAATGA TTTTATTCCT 
CATCTACCTC ATTTACATAT TAATCACGAT GCATTGCCAC TGCTTTATAG AACATACATG 
GCTGTGTTGC CAGAACTGGG AGGTTACATA AATGAAAATG GACATCTGAA TTTAAAACGC 
TTTGAGAAAT ATCTCACAAG ATTGTCAGAT TTTGATCGTG AACACTTCAG TGAAGTCTTT 
GTAGACCTAA AATGGTTTGA AAGTAAAGTA GGCAATAAGT ACCTCAATGA GGCAGCTGGC 
ATTGCAGCAG AGGAAGCCAG GAAAAATAAA CAAAAGAAAC AAAAGGCTCA GGAAAATTCT 
ATATGTTTGG CTGCTTTAGA AAAAAATGAA GGTGAAGTGA CTCCTAAACC TGTGTTGGAA 
GATGAACCAG AAGATGATGA CCTGTTTGAA ACTGAGTTTA GGCAGTACAA AAGAACTTAC 
TACATGACTA AAATGGGTGT AGAAGTAGTA TCTGATGACT TCTTGGCTGA TCAAGCTGAA 
TGTTATGTCC AGGCAATACA ATGGATTTTG CATTATTATT ACCATGGAGT TCAATCATGG 
AGCTGGTATT ACCCTTACCA TTATGCACCT TATCTGTCAG ATATTCGCAA CATTGGTGAA 
CTCAAAATTG AATTTGAACT AGGAAAACCT TTCATGCCAT TTGAACAGCT ACTTGCTGTA 
CTTCCAGCAG CAAGCAAAGA TCTGCTACCT AAATGCTACC AGCATTTGAT GATTAGTCAA 
GACTCTCCTA TTATAGAGTA TTATCCACCA GATTTTAAAA CTGACCTAAA TGGAAAACAG 
CAAGAATGGG AAGCTGTAGT GTTAATCCCA TTTATTGATG AGAAACGACT GCTGCAGGCC 
ATGGAGACCT GTAATAAGTG CCTAAAAGAA GAGGAGAAAC GAAGAAATAC TCACAGTGCT 
TGCTTAATGT ACTGGCATGA CAAAGATGCA GAGTTCCAGT ACCTGTCACC ATGGCCAGAG 
AAATTCCCTG CAGTAGAAAG ATGTCATGCT AGGTATAAAA CAATACCTTT GGATGCTTGG 
CATGTAGAAA TAACCCACAA TAAGATAACT AAAATCAACA AGAGTGCATT ATATTTTTGT 
GGATTTCCTA CTTTAAAGCA CATAAAACAT AAGTTCTATC TTCGAAAAAG TGGTGTACAG 
GTGTTTCAGC AAAGCAGCCA TGGAGAGAAC ATGATGTTAG AAATCATAGC TGATGAGAAC 
TCAAAAGAAC AGGTGGTAGA AAATGTTGCC AGTTCAGTAC TTGGAAAGCG TGTTTTTGTT 
AACTGGCCTC ACCTTGAAGA AGCCAGAGTT GTTGCTGTGT CAGATGGAGA AACTAAGTTT 
TATTTGGAAG AACCACATGG CACACAGAAG GTTTACATGG GAAATACAGT GCCCCCAACT 
AAAGTGGCTT ATGTTGGAGA TAAGGAACAA AGCATATGGT TAAAAGAAAT TCAAAGCATT 
TCAGAGCACT ATCAGAGAAG AAAAGGAATA ATTATTCATG AAACATCAAT AGTTGTGTAT 
GCTCAGTTAC TGACTGGTAA TAGATACCAA CTAAACCAAA AAGGAGAAGT TTATTTGGAG 
AAGCAGTGGT CAAAACAAGT TCTTCCTTTC GTTTACCAAA CTGTTGTCAA GGATATCAAA 
GCCTTTGACT CTCGGTTTTC AAACATCAAA ACTTTGGATG ACTTATTTCC TCCTGGAAGT 
ACAGCCTTTA TGCTGGGATC GCCTTACTAC GGCTGCATGG GAGAAGTTCA AGATTCACGT 
GATGTGATCA CAGAAGGTAG AATTCGTGTA GTTTTCAATA TTCCATGTGA ACCTCAGCTT 
GATCCTTTAA TACAGAATCA GCATAAATAT TCTGTGAAAT ACAATCCTGC ATATGTTTTG 
GCCAGCCGTC TTGGAGTAAG TGGATATCTT GTCTCCAGAT TTACAGGGAG CATCTTCATT 
GGAAGAGGAT CAAAGAAAAA TCCTCATGGA GACCACAAAG CAAATGTGGG ACTAAACCTG 
AAGTTCAATA AGAAAAATGA AGAAGTTCCT GGCTATACTA AGAAAGTTGG TAATGAATGG 
ATGTATTCTT CTGCAGTAGA ACAACTACTT GCTGAGTATT TAGAAAGGGT CCCTGAACTA 
TTTAGTTATA TAGCCAAGAA TACCCAGGAA GATATCTTCT ATGAAGATGA CATTTGGCCT 
GGAGAGGATG AGAATGGAGC TGAGAAAGTT CAAGAAATTG TTGCCTGGTT GAAGGCACAT 
CCTGTATCTG CTTTGTCTCG CTCATCTTGT GACTTGCAAA TCTTGGATGC AGCCATTGTT 
GAGAAAATTG AAGAAGAAAT AGAGAAATGC AAGCAAAGAA AGAGCAACAA GAAGGTGCGA 
GTAACTGTGA AAACCCATTT ACTGTACAGA CCATTAGAAC AACAGAATGG GGTAGTTCCC 
GATCGAGATG CAGAGTATAA GCTGTTCGAC CGTGTTGTCA ATGTGAGAGA GAACTTTTCC 
GTTCCGGTTG GTCTTCGAGG TACCATCATA GGAATTAAAG GAGCCAGTAG AGAAACAGAT 
GTGCTCTTTG AAGTTTTGTT TGATGAAGAA TTCCTTGGAG GCCTAACTAT AAGGTGCTCA 
CCTGCCAGAG GTTATCGTCT GCCATCAAGT GCCTTAATTA ACCTGTCTCA TGGTAGTCGA 
TCAGAAATGG GAAATCAAAA ACTGACGGCC ATAGTGAAAC CTCAGCCAGC TGTGAATAAC 
TACAATTCAT ATGCATCCGA TCTGTCATCT GCGAGCTCAC AAAAAGTCCC TCTGGGAGGC 
CTCAACCATT CTCCTCGCTC CCTTTTTGTT CCTACTCAAC AACTGAATGG AAGACAGCTT 
TACAATCTCA GGGCTGAAAA TCAGGGCAAC TCTAATTCAC CCCAGAAAGG ATCATATCTC 
AGTGGCAATC AGAAAAATAA AGCACAGAGT AAGCAAGATG ATGAATTCTG TAGCATATGG 
CAATCACTGC AGAGTTCTGG GAAGTCTCAC CACATTCAGC AAAACACGCA TGAGAAGGAT 
GCAGTTCTAC CTCAGGAAGT CAAGCTGGGA ACTGGCAGCC AGTTCTATAA GCCAGGATTC 
AATGACAGCA GCTTTAAAGG TCAGCAAAGA AAACATGAGC CATATAAAAA ATTGAAAGAA 
GATTCCAAAG TTATGAGAGG TGAAAGTCAG CCACATGCTA AAATATCAAA CAAACAGAAT 
TTTGCAGGTG TGAATAAGTA CAATGTGAAA CTTTTGAAGA GAAATGAAAG TCCCAACATG 
TCTGTAACTC ATAAAGCTGC AGTTGATGGT CCCTGTATGG GTGGAAAGAA GGACAATGAA 
CTTGAAAGCC TTCTAGCTTC TTTGAAAGTT TCCAGAGAAA ATGAAGTGCA GACTTATTCC 
AAAGAAGCAA GAGCTACTAA TGAAGAACAT CTGTCACCAC AATCGTTTGC TATGAAAGGA 
ACACAGATGC TCAAAGAGAT TTTGAAGATA GATGGCTCTG ACCTGGAAAC AAGGAATGAC 
GTGAAATCCC AAGTTAATGA TACTCCTCCT CCCCTTAGTA GACAGGATTG CCATGAACCT 
GCCTTGCAAT ATAGACAACA AACAAAAAAA ATGGCTGCTC ATATGAACAA GCCTCACAGC 
ACTGGAGGCC CTCAGAACAC ACCAGCACTG GAAACTGGAG GCCACCCATT CGCTTGTCCA 
CAGCCTTCAC TGTCTACTGT TTCTGAACTG TCTCGTATTT GTTCTCTCGT TGGAATGTCA 
CAACCAGATT TCTCTTTCCT AAAGACACCA CAGACCATGA CAGTTTGTCA CATAAAATTG 
TCAAATGGTT TGTTGGTTCG TGGACCACAG TGTCACTCTG AAGCTGAAGC AAAGGAGAAA 
GCTGCACTTT TTGCTTTACA GCGTTTGAGC TCTATAGGAA TAAATTTCCC TTTGCCTCCA 
CCTCTGCCTC CACCAGTGTT TCCAAATTAT CAGCCACTGG GCGTTCCTGT ACCACCTGGC 
TCTATTCCTC CAGTATTTGC ACAACCCCCT GCTAATATAA TGCCTCCATC ACCACACATG 
TTTGGTCCAG TGTCCTGGGG AGCACCAGTG CCTAAACATT ATTATCCTGG CTCCTATCCA 
GGAAATATGT CTCTTGCGGG TACTTTACCA GTTGGTTCTC ACAACCAGTT TATACCTCTA 
CAGGTAACTA AAAAAAGGGC TGCTAGCAAG AAAAACTTTG AGCTCAAGGA GTTTCAGAAT 
TCCCCTCAAG CTGCACCACT AAAGAATGAA CAGCCAGTGT CTTCTGACCA CATTCAGCAA 
GATAATTCTT CAGCTCCTTT AAAATCTCCT CAAGCTGCTC AATCCACTGT TTCGTTTCAA 
GACAATGTGG CTACTCCAAG CGTTCCTCAT AATAAGTCAA CACCAAACAC TTCCAGCAAG 
CGAAAGCCAA GAAAGCTGGC TGTCAATTTT GGCGCACCAA AATCTTCAGA ATAA

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

RefSeq	XP_010203683.1
CDS	25..5238
Translation	MNGIIHQCSHPNDDDVHFRISEDKIFADIFHYLEVLFRIIKPRKVFFMAVDGVAPRAKMNQQRGRRFRSAKEAEDKIKKALEKGETLPTEARFDSNCITPGTEFMARLHEHLKYFVNMKISTDKSWQGVTVYLSGHETPGEGEHKIMEFIRSEKAKPHHDPNTRHCLYGLDADLIMLGLTSHEAHFALLREEVRFGGKKSQRACAPEETTFHLLHLSLMREYIDYEFSPVKDKISFEYDIERIIDDWILMGFLVGNDFIPHLPHLHINHDALPLLYRTYMAVLPELGGYINENGHLNLKRFEKYLTRLSDFDREHFSEVFVDLKWFESKVGNKYLNEAAGIAAEEARKNKQKKQKAQENSICLAALEKNEGEVTPKPVLEDEPEDDDLFETEFRQYKRTYYMTKMGVEVVSDDFLADQAECYVQAIQWILHYYYHGVQSWSWYYPYHYAPYLSDIRNIGELKIEFELGKPFMPFEQLLAVLPAASKDLLPKCYQHLMISQDSPIIEYYPPDFKTDLNGKQQEWEAVVLIPFIDEKRLLQAMETCNKCLKEEEKRRNTHSACLMYWHDKDAEFQYLSPWPEKFPAVERCHARYKTIPLDAWHVEITHNKITKINKSALYFCGFPTLKHIKHKFYLRKSGVQVFQQSSHGENMMLEIIADENSKEQVVENVASSVLGKRVFVNWPHLEEARVVAVSDGETKFYLEEPHGTQKVYMGNTVPPTKVAYVGDKEQSIWLKEIQSISEHYQRRKGIIIHETSIVVYAQLLTGNRYQLNQKGEVYLEKQWSKQVLPFVYQTVVKDIKAFDSRFSNIKTLDDLFPPGSTAFMLGSPYYGCMGEVQDSRDVITEGRIRVVFNIPCEPQLDPLIQNQHKYSVKYNPAYVLASRLGVSGYLVSRFTGSIFIGRGSKKNPHGDHKANVGLNLKFNKKNEEVPGYTKKVGNEWMYSSAVEQLLAEYLERVPELFSYIAKNTQEDIFYEDDIWPGEDENGAEKVQEIVAWLKAHPVSALSRSSCDLQILDAAIVEKIEEEIEKCKQRKSNKKVRVTVKTHLLYRPLEQQNGVVPDRDAEYKLFDRVVNVRENFSVPVGLRGTIIGIKGASRETDVLFEVLFDEEFLGGLTIRCSPARGYRLPSSALINLSHGSRSEMGNQKLTAIVKPQPAVNNYNSYASDLSSASSQKVPLGGLNHSPRSLFVPTQQLNGRQLYNLRAENQGNSNSPQKGSYLSGNQKNKAQSKQDDEFCSIWQSLQSSGKSHHIQQNTHEKDAVLPQEVKLGTGSQFYKPGFNDSSFKGQQRKHEPYKKLKEDSKVMRGESQPHAKISNKQNFAGVNKYNVKLLKRNESPNMSVTHKAAVDGPCMGGKKDNELESLLASLKVSRENEVQTYSKEARATNEEHLSPQSFAMKGTQMLKEILKIDGSDLETRNDVKSQVNDTPPPLSRQDCHEPALQYRQQTKKMAAHMNKPHSTGGPQNTPALETGGHPFACPQPSLSTVSELSRICSLVGMSQPDFSFLKTPQTMTVCHIKLSNGLLVRGPQCHSEAEAKEKAALFALQRLSSIGINFPLPPPLPPPVFPNYQPLGVPVPPGSIPPVFAQPPANIMPPSPHMFGPVSWGAPVPKHYYPGSYPGNMSLAGTLPVGSHNQFIPLQVTKKRAASKKNFELKEFQNSPQAAPLKNEQPVSSDHIQQDNSSAPLKSPQAAQSTVSFQDNVATPSVPHNKSTPNTSSKRKPRKLAVNFGAPKSSE

Target ORF information:

RefSeq Version	XM_010205381.1
Organism	Colius striatus(speckled mousebird)
Definition	Colius striatus 5'-3' exoribonuclease 1 (XRN1), mRNA.

Target ORF information:

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

XM_010205381.1

ORF Insert Sequence:

ATGAATGGCA TTATACATCA GTGTTCACAT CCAAATGATG ATGATGTTCA CTTCAGAATC 
TCAGAAGATA AGATTTTTGC TGATATTTTT CACTATTTGG AAGTACTGTT TCGCATTATT 
AAGCCAAGGA AGGTTTTCTT CATGGCAGTT GATGGAGTAG CACCAAGAGC AAAAATGAAT 
CAGCAGCGTG GGAGACGTTT TAGATCAGCA AAAGAGGCAG AGGATAAAAT TAAAAAAGCA 
TTAGAAAAGG GAGAAACTCT CCCTACAGAA GCCAGATTTG ACTCCAACTG TATTACACCA 
GGAACTGAAT TCATGGCCAG ACTGCATGAG CATCTTAAGT ATTTTGTAAA TATGAAGATT 
TCCACAGACA AATCCTGGCA AGGAGTAACA GTCTACCTAT CAGGCCACGA GACTCCAGGT 
GAAGGTGAAC ATAAAATTAT GGAGTTCATC AGATCAGAAA AAGCAAAGCC CCATCATGAT 
CCAAACACAA GACACTGTCT GTATGGCTTA GATGCTGACT TGATTATGCT GGGATTAACA 
AGTCATGAGG CACACTTCGC GCTCTTAAGA GAAGAAGTCA GATTTGGTGG TAAAAAATCT 
CAAAGAGCAT GTGCACCAGA GGAAACCACA TTTCATCTAC TGCACTTGTC ACTGATGAGA 
GAATATATTG ATTATGAATT TTCACCAGTA AAAGACAAGA TTTCTTTTGA ATATGATATT 
GAAAGGATAA TAGATGATTG GATCTTAATG GGTTTCCTTG TAGGAAATGA TTTTATTCCT 
CATCTACCTC ATTTACATAT TAATCACGAT GCATTGCCAC TGCTTTATAG AACATACATG 
GCTGTGTTGC CAGAACTGGG AGGTTACATA AATGAAAATG GACATCTGAA TTTAAAACGC 
TTTGAGAAAT ATCTCACAAG ATTGTCAGAT TTTGATCGTG AACACTTCAG TGAAGTCTTT 
GTAGACCTAA AATGGTTTGA AAGTAAAGTA GGCAATAAGT ACCTCAATGA GGCAGCTGGC 
ATTGCAGCAG AGGAAGCCAG GAAAAATAAA CAAAAGAAAC AAAAGGCTCA GGAAAATTCT 
ATATGTTTGG CTGCTTTAGA AAAAAATGAA GGTGAAGTGA CTCCTAAACC TGTGTTGGAA 
GATGAACCAG AAGATGATGA CCTGTTTGAA ACTGAGTTTA GGCAGTACAA AAGAACTTAC 
TACATGACTA AAATGGGTGT AGAAGTAGTA TCTGATGACT TCTTGGCTGA TCAAGCTGAA 
TGTTATGTCC AGGCAATACA ATGGATTTTG CATTATTATT ACCATGGAGT TCAATCATGG 
AGCTGGTATT ACCCTTACCA TTATGCACCT TATCTGTCAG ATATTCGCAA CATTGGTGAA 
CTCAAAATTG AATTTGAACT AGGAAAACCT TTCATGCCAT TTGAACAGCT ACTTGCTGTA 
CTTCCAGCAG CAAGCAAAGA TCTGCTACCT AAATGCTACC AGCATTTGAT GATTAGTCAA 
GACTCTCCTA TTATAGAGTA TTATCCACCA GATTTTAAAA CTGACCTAAA TGGAAAACAG 
CAAGAATGGG AAGCTGTAGT GTTAATCCCA TTTATTGATG AGAAACGACT GCTGCAGGCC 
ATGGAGACCT GTAATAAGTG CCTAAAAGAA GAGGAGAAAC GAAGAAATAC TCACAGTGCT 
TGCTTAATGT ACTGGCATGA CAAAGATGCA GAGTTCCAGT ACCTGTCACC ATGGCCAGAG 
AAATTCCCTG CAGTAGAAAG ATGTCATGCT AGGTATAAAA CAATACCTTT GGATGCTTGG 
CATGTAGAAA TAACCCACAA TAAGATAACT AAAATCAACA AGAGTGCATT ATATTTTTGT 
GGATTTCCTA CTTTAAAGCA CATAAAACAT AAGTTCTATC TTCGAAAAAG TGGTGTACAG 
GTGTTTCAGC AAAGCAGCCA TGGAGAGAAC ATGATGTTAG AAATCATAGC TGATGAGAAC 
TCAAAAGAAC AGGTGGTAGA AAATGTTGCC AGTTCAGTAC TTGGAAAGCG TGTTTTTGTT 
AACTGGCCTC ACCTTGAAGA AGCCAGAGTT GTTGCTGTGT CAGATGGAGA AACTAAGTTT 
TATTTGGAAG AACCACATGG CACACAGAAG GTTTACATGG GAAATACAGT GCCCCCAACT 
AAAGTGGCTT ATGTTGGAGA TAAGGAACAA AGCATATGGT TAAAAGAAAT TCAAAGCATT 
TCAGAGCACT ATCAGAGAAG AAAAGGAATA ATTATTCATG AAACATCAAT AGTTGTGTAT 
GCTCAGTTAC TGACTGGTAA TAGATACCAA CTAAACCAAA AAGGAGAAGT TTATTTGGAG 
AAGCAGTGGT CAAAACAAGT TCTTCCTTTC GTTTACCAAA CTGTTGTCAA GGATATCAAA 
GCCTTTGACT CTCGGTTTTC AAACATCAAA ACTTTGGATG ACTTATTTCC TCCTGGAAGT 
ACAGCCTTTA TGCTGGGATC GCCTTACTAC GGCTGCATGG GAGAAGTTCA AGATTCACGT 
GATGTGATCA CAGAAGGTAG AATTCGTGTA GTTTTCAATA TTCCATGTGA ACCTCAGCTT 
GATCCTTTAA TACAGAATCA GCATAAATAT TCTGTGAAAT ACAATCCTGC ATATGTTTTG 
GCCAGCCGTC TTGGAGTAAG TGGATATCTT GTCTCCAGAT TTACAGGGAG CATCTTCATT 
GGAAGAGGAT CAAAGAAAAA TCCTCATGGA GACCACAAAG CAAATGTGGG ACTAAACCTG 
AAGTTCAATA AGAAAAATGA AGAAGTTCCT GGCTATACTA AGAAAGTTGG TAATGAATGG 
ATGTATTCTT CTGCAGTAGA ACAACTACTT GCTGAGTATT TAGAAAGGGT CCCTGAACTA 
TTTAGTTATA TAGCCAAGAA TACCCAGGAA GATATCTTCT ATGAAGATGA CATTTGGCCT 
GGAGAGGATG AGAATGGAGC TGAGAAAGTT CAAGAAATTG TTGCCTGGTT GAAGGCACAT 
CCTGTATCTG CTTTGTCTCG CTCATCTTGT GACTTGCAAA TCTTGGATGC AGCCATTGTT 
GAGAAAATTG AAGAAGAAAT AGAGAAATGC AAGCAAAGAA AGAGCAACAA GAAGGTGCGA 
GTAACTGTGA AAACCCATTT ACTGTACAGA CCATTAGAAC AACAGAATGG GGTAGTTCCC 
GATCGAGATG CAGAGTATAA GCTGTTCGAC CGTGTTGTCA ATGTGAGAGA GAACTTTTCC 
GTTCCGGTTG GTCTTCGAGG TACCATCATA GGAATTAAAG GAGCCAGTAG AGAAACAGAT 
GTGCTCTTTG AAGTTTTGTT TGATGAAGAA TTCCTTGGAG GCCTAACTAT AAGGTGCTCA 
CCTGCCAGAG GTTATCGTCT GCCATCAAGT GCCTTAATTA ACCTGTCTCA TGGTAGTCGA 
TCAGAAATGG GAAATCAAAA ACTGACGGCC ATAGTGAAAC CTCAGCCAGC TGTGAATAAC 
TACAATTCAT ATGCATCCGA TCTGTCATCT GCGAGCTCAC AAAAAGTCCC TCTGGGAGGC 
CTCAACCATT CTCCTCGCTC CCTTTTTGTT CCTACTCAAC AACTGAATGG AAGACAGCTT 
TACAATCTCA GGGCTGAAAA TCAGGGCAAC TCTAATTCAC CCCAGAAAGG ATCATATCTC 
AGTGGCAATC AGAAAAATAA AGCACAGAGT AAGCAAGATG ATGAATTCTG TAGCATATGG 
CAATCACTGC AGAGTTCTGG GAAGTCTCAC CACATTCAGC AAAACACGCA TGAGAAGGAT 
GCAGTTCTAC CTCAGGAAGT CAAGCTGGGA ACTGGCAGCC AGTTCTATAA GCCAGGATTC 
AATGACAGCA GCTTTAAAGG TCAGCAAAGA AAACATGAGC CATATAAAAA ATTGAAAGAA 
GATTCCAAAG TTATGAGAGG TGAAAGTCAG CCACATGCTA AAATATCAAA CAAACAGAAT 
TTTGCAGGTG TGAATAAGTA CAATGTGAAA CTTTTGAAGA GAAATGAAAG TCCCAACATG 
TCTGTAACTC ATAAAGCTGC AGTTGATGGT CCCTGTATGG GTGGAAAGAA GGACAATGAA 
CTTGAAAGCC TTCTAGCTTC TTTGAAAGTT TCCAGAGAAA ATGAAGTGCA GACTTATTCC 
AAAGAAGCAA GAGCTACTAA TGAAGAACAT CTGTCACCAC AATCGTTTGC TATGAAAGGA 
ACACAGATGC TCAAAGAGAT TTTGAAGATA GATGGCTCTG ACCTGGAAAC AAGGAATGAC 
GTGAAATCCC AAGTTAATGA TACTCCTCCT CCCCTTAGTA GACAGGATTG CCATGAACCT 
GCCTTGCAAT ATAGACAACA AACAAAAAAA ATGGCTGCTC ATATGAACAA GCCTCACAGC 
ACTGGAGGCC CTCAGAACAC ACCAGCACTG GAAACTGGAG GCCACCCATT CGCTTGTCCA 
CAGCCTTCAC TGTCTACTGT TTCTGAACTG TCTCGTATTT GTTCTCTCGT TGGAATGTCA 
CAACCAGATT TCTCTTTCCT AAAGACACCA CAGACCATGA CAGTTTGTCA CATAAAATTG 
TCAAATGGTT TGTTGGTTCG TGGACCACAG TGTCACTCTG AAGCTGAAGC AAAGGAGAAA 
GCTGCACTTT TTGCTTTACA GCGTTTGAGC TCTATAGGAA TAAATTTCCC TTTGCCTCCA 
CCTCTGCCTC CACCAGTGTT TCCAAATTAT CAGCCACTGG GCGTTCCTGT ACCACCTGGC 
TCTATTCCTC CAGTATTTGC ACAACCCCCT GCTAATATAA TGCCTCCATC ACCACACATG 
TTTGGTCCAG TGTCCTGGGG AGCACCAGTG CCTAAACATT ATTATCCTGG CTCCTATCCA 
GGAAATATGT CTCTTGCGGG TACTTTACCA GTTGGTTCTC ACAACCAGTT TATACCTCTA 
CAGGTAACTA AAAAAAGGGC TGCTAGCAAG AAAAACTTTG AGCTCAAGGA GTTTCAGAAT 
TCCCCTCAAG CTGCACCACT AAAGAATGAA CAGCCAGTGT CTTCTGACCA CATTCAGCAA 
GATAATTCTT CAGCTCCTTT AAAATCTCCT CAAGCTGCTC AATCCACTGT TTCGTTTCAA 
GACAATGTGG CTACTCCAAG CGTTCCTCAT AATAAGTCAA CACCAAACAC TTCCAGCAAG 
CGAAAGCCAA GAAAGCTGGC TGTCAATTTT GGCGCACCAA AATCTTCAGA ATAA