LOC106596519 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106596519
Entrez Gene ID	106596519
Full Name	interferon-induced very large GTPase 1-like
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014187807.1	XP_014043282.1	interferon-induced very large GTPase 1-like

Pathways from BioSystems
Gene Ontology

The following LOC106596519 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106596519 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
OAt76765	XM_014187807.1 Latest version!	Salmo salar interferon-induced very large GTPase 1-like (LOC106596519), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

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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)

LOC106596519 ( XM_014187807.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014043282.1 Salmo salar interferon-induced very large GTPase 1-like (LOC106596519), mRNA.

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CloneID	OAt76765
Clone ID Related Accession (Same CDS sequence)	XM_014187807.1
Accession Version	XM_014187807.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5340bp) 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	2015-09-20
Organism	Salmo salar(Atlantic salmon)
Product	interferon-induced very large GTPase 1-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012360626.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGGGCT TGCAGAGTGC TGAGCCTACA CAGATATCAT TGGAAAATCA CATAAGTCAG 
CTAGTGTGTA AAACAGGAAT ACATGCGTTC CTCTTAATTT CAGCATTAGG TAATGTTTAT 
GAGCACAACA TGGTTGAGGA TTGGCTCCAA ACAATGCTTG GGGAAAGATC CCTTGCCTTT 
GCAATGACCG TCTTTACCCA TGAGAATGAG CCAGACACTG CGTTGGGTGA TCTGAACGAC 
AACAGTGATC TGAAGCATGT CACTGAAAAG TGTGGAGATA GGTATCACAC CTGCAAAAAG 
AGTATGGATG ATCCAGAAGA GATTATAACA TTACTTGAAA AGATAGATCT TATGGTCTCT 
GAAAACCAGC CATGTTGTTA CACTGGAGAA ATGTATGGTG AAGAGATGAG GCAGAAACAG 
CAACTGAAAG ATTTGGGCGA CAGATCACAA AGGAAGAAGA CAACTACTGT ACCAGGCAAC 
AATGCTGTTG GAAACAAGGA TGAGGGAGAA GAAATTAAAC TGGAGGGGAG TTTAAATGAA 
AAGATCATTG TGGAAAAACA ACAATCAGAG GTAGAAGAGC TCATGTGCAG ACTTCACCTT 
CAAGGCAAAT ATCAAAATAA GATGAAAACT GCAGACTTTC TGAACATTGG CTCTTCCGCT 
CAACATCAAC ACGGACCCCA AACAGAGAAC AAACTGGCTC ATACTTTCCT ACAAAGGTTG 
TTGATGCTGG ACTACAGAGC CAGGTACATT CCTGTAAGAG ATGAGAATAG TGAGATGCAT 
GACACAACTG ACAACAGAAA TGATAACGCA GAAACAGAAG AAAGTGCCTT TGATGCCCTT 
TTCAACAAGA ACACAGTCTC TGGTGATATA AAGAAGAACA CGCAAGTTCA CCCAATGGAT 
GTCCAAATGG CAGTGTTTCA CTGTTCAGAC AGTTTCCTTC AGCAGTTCAT GGTCACAAAG 
CTGTCCTTGT GTCAGTATGC CTTGCCTTTG CTTGTGCCAA ACCTCTTCAC CGAAGAGATT 
GAATTCCCTT TGTGGACATT TCGACAAATC AGAAAAACCT GGAAGTCCAC TAATGGCTCT 
AATATAGTCA CCAGCCAAAG TATGCCTATT TACAAGGCAG AAACACCAAT GGTGTCATTC 
TTTAGGTTTG GTTCTGTGTC CTCATCAAAA TCCCAGCTGA TGAACAACTT GATCAACCAA 
CGTCACAGCA CATTCTTCCA CAGACACTGT CCAGGAAGCA ATAAAACCTG CCTCCTAATG 
GATGGGGTGG TAGAGATTGC ATGGTATTGT CCTGCTGGGA AGCCCAATGA TATTTTCACT 
GACTGTGTTG CATTCTGTAA TCTCCATGGT GACGCCATAG AGAATGCAAT TCAACGTGAC 
ATACTGATTG AAAAAGCCTC TGTCAATGTT GTCCTTTTAC CAAGTCTTGG AAAAGGAGAC 
AAAAGTATGG CAATCGTGCA GGAGCTGTTC AAGTCTTCTA AACCTCTGAT ATGTCTGCTC 
ACTGAAGAGG ATTCTGTTGC GACTGAAATT AGAAAGGGAA AGTACAAAAT GGGTTTGAGA 
GACAGAAATC AGTCAGATGT TTCCGAGGAA CTAAAAGGGA TCATTAGAAA TAATTTGTCA 
ACACCATGTT GCTACTTCAA ACTTGAGGAC ATGGCAAAGT ACTCAGGGGT TAGAGTAGAT 
GAGGATGATG AAGATTGCCA AGTAGGGAAG ACTAATGCTC TGCAGATAAC GCATCTGCTT 
AAGGAAATGG AACTGTCCAA GATCAAAGAA ACATTTCTTC CATGTCAAGG AAGGCTGTGG 
CATGATTGGT GTCAAAGAAA TAAAGACCTT TATCGTCTCC AAGGGAATCT AGAGATGGAA 
AGAAGTAAAA TACAACATGA AATGATGCAA ATTCGACACC ATCAACATAA AGTTGCCTTT 
ACTGAACTCA TGCAGATGTT TATCACAAGT CTACGATCTC TGGGAGAAAA AGAAAAATCA 
TATTTCCTCA AGTGGGTAGG GATACTACTG GATGACCTGT CCTCGGATGA GCTCTCAGAC 
CTTCATCACA AGTATGATGA AAAGTGGTCC GAGGTCCTGG CTTTGAAAAA GAAGCATGAT 
AAATCAGAGC AACTGAAAAT GAGACAAACG GAGCTGGAAA AAATATCAGG AAAGCTGCAA 
GCAGCAACCT TTGGATTTGA GCACATTCTG AGGGAAATGG GACAGATCTA TGAAGCCCAT 
GCATCTGTGG CCAGGGAAAG GAAAGGAGAA AGTGAGGTGA CCGTGTCTTA CCTTCCAGAG 
CTCGCGGCAG AACTTATGAT ATCGGGACAC CCAATAGAAC TAATGGATGG TGACGCAGCT 
CATGTGCCAC TGACGTGGAT TCATGGGGTT TTAGATGAAG TTATCAAGAA ACTAGGAGAT 
CAGAGAGTCT TTGTTTTGTC CATTTTGGGA ATCCAGAGCA CTGGGAAATC TACAATGCTG 
AATGCAATGT TTGGACTGCA ATTCGCAGTA AGTGCTGGAA GGTGTACCAG AGGTGCTTTC 
ATGCAGCTGT TGAAAGTGAC CGAGGAGATG AAAGATGACT TTAGGTTTGA TTATGTTCTT 
GTTGTTGACA CTGAGGGACT TCGAGCTTTA GAGTTGGCAG GAAAGGAAAC AGTGCACCAT 
GACAATGAAC TTGCAACTTT TGTCATTGGT CTTGGAAACA TGACCTTGAT CAACATATTT 
GGAGAGAATC CTGCTGAGAT GCAAGACATC ATTCAGATAG CTGTTCAGGC CTTCATGAGA 
ATGAAGAAAG TTAGTCTGTC TCCAAGTTGT GTGTTTGTGC ACCAGAATGT TGGAGACATC 
ATGGCTGGAG AGAAAAACAT GGAGGGAAAG AGGCGCTTAC AGGACAAACT AGACGAGATA 
ACCCAGTTAG CTGCCAAAGA AGAGGACAGT AATGCAGAAT GTTTCAGTGA TGTTATTGCA 
TTTGACATAC AAAGAGATGT GAAATACTTT TCCCAGCTGT GGGAGGGCAG CCCACCCATG 
GCCCCACCAA ACCCATGCTA CAGTGAGGAT GTCCAGGAGC TAAGGAAAAC AATCCTCTCT 
AAAACATCAA AGTCTTTTGG CATGACATTA TCACAGCTCA AAAGCAGGAT CCAAGACCTT 
TGGAATGCAC TGCTGAACGA AAAGTTTGTG TTCAGCTTCA AAAACACACT AGAAATTGCA 
GTTTACAGAA AACTTGAGAT TCAGTATGGA AAATGGATCT GGGCTCTCAG GAGTGCCATG 
CTATGCATTG AAAATCAACT GCACAATCGA ATCGAAAATG GAAAACTTCA CAGGGTTGAG 
AGACATTACC TTGTTGAAGA AATGAGAAAG ACTCGTGAAG AAGTGGACAA ATCAATGGAA 
AAGTACTTTG ATGAACACAG AGATAAAGAA ATGTTGATTC AGTGGCGAGG GAGATTTCAA 
ACGAAAATGT GTGAGCTTCA TGATGAACTT GTGAAGGGAG CAAAAAGAAA GTTAGAGGAG 
GTTATTCATC AAAGGGATGC GCGCAAAAAG CTGGATGACA AGAAGACACA GTATGAAAAC 
AAGCTCTTCC AAAAGAGCAA AGAACTTGCC TCAAAACTGA AGGACAAGGC AAAGGATGAT 
AAACAACTTG AGAATGAATT CAATACTCTT TGGGGAGCAT GGGTTACTGA GTTGACGGAA 
GATACACCTC CCATAAAGGA CATAAACATA TCAGATGATG TGACTTGTAT CCTTAAAGAG 
AGCGGTAATG AATTGTCTCT TATACATGAC CGGAAAAGTT GTGGAATGTA CCCACAGATT 
TGTACCATGG GGAATTATTC TGACTATGTA ATTCGATCCA AGCACCAAGA TCAACAATCA 
AAAGCTGGTA AAAGGAAGCC AAGCAAAGTC CAATTGCAGA AAAATATTGT GAGTGGTGCT 
TTTAATAGAT TTTTGGGGGC CATTGTTCCA AGCAACATTC TAACATACAC AGATCAGGAA 
TTGATAAGAT CATTCATCAA TGATGTTGTC GAACAAAGCC AGAAGATAAT TGAGACAGAG 
CCCATAGAAA AGATGGGATA CAGTGACAGT TACTTGCAAG AAATAGTAAC GCATGTCAAA 
GAAAGCGTGA AGGAATTTGA ATCGAAGAAA AGAAAATATG CATTTAAAAG GGAGTTTACG 
GTGGATCTTT CACTTCATGT GTGTGAGCTA GCAGGAAGTA AGTTTGCAGA TTCCCATAGC 
AAATTCAGAT GCAACAATGA TGCCCACACT TACCTGGAGC AGAAGAGACC ACAGTACAAC 
AAGATTTTCA AGAGCTACTG CAAAGGATCC ACATCTGCAG CTGTGCTTGG TGAGTTAATT 
TGCAACACAC TGAAAGAATC AATTGTACAG GCGGTCTATG ACCAGACGGC CATTGACTTG 
GCTGGAGAAA TGCGATTAAG TCACCCACCA TTCAGTGGAA ACAGGTCTAA CATGGAGATA 
CACATCCTGA CATCACTGGC AGAGGAGGAA AACTTTGACA AGTGCATGAC CTACATTCAC 
AACCCAAGGA AACACTTTGA GAGATTTATT AGAGAGAATG TAGAGAAATA TATCCTCATA 
GAAAATAGGT CCAAAATCCT CACCATGATT GAAGGGAACA TAAAAGGTAA AGAGCAGCGT 
GTGAGCCATG CAGTGCATAC AGCAACAAAT ACAGTCAAAA ACAAGAATGG AGACACCAAC 
ATGTGGCTTA GAGAGCTTTC CAGTGCTCTA AAAGATGAGC TTAAATTTGC TGAAAAGCAT 
TTCAGTGATT TCTGTGACAT AACCAACTTT GACTTCCTCG AAGAAGAGGT AAGGGAAGGT 
CTTGCCAACA GAATCATGGA GATCAACAGA AGCCTCAGCA ACGTGTCACT CCTGGACATG 
AAGCAGTTCA GGGAGAGGCC AGATGAGATT CTGATCAAAC ATTTTTGTGA TTGCTGCTGG 
GTACAGTGTC CCTTCTGTAA AGCCATCTGT ACAAACTCCA TGGAGGGGCA CAAACCGAAG 
GATCACAATG TCCCTTTTCA TCGCCCTAAA GGAATCAATG GATGCCACTT CAAAAACACA 
GTAGAATTTT GGATAGATTT TTGTACAACT TCAGTAGCAA GTAATGGCCA GTTTTACCCC 
TCCCATGAAT CAGAGGATAT ATATCTTTTG AAAGAATACA GAAAAGCTGG CCCAAGATTT 
GCTGATTGGA GCATCACACC AGACCTCTCT GAACTTCCGT ACTGGAAGTG GTTTGTTTGT 
CGATTTCAAG AAGATCTGGA AAGGTATTAT GACAAAAAAT TCCAGGGCAG AGGTGAAATT 
CCAATTGAAT GGAGGAAGTT CACAAAACAG CAAGCTATTG AAAGCTTAAA GAAAATCTAA

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

RefSeq	XP_014043282.1
CDS	280..5619
Translation	MLGLQSAEPTQISLENHISQLVCKTGIHAFLLISALGNVYEHNMVEDWLQTMLGERSLAFAMTVFTHENEPDTALGDLNDNSDLKHVTEKCGDRYHTCKKSMDDPEEIITLLEKIDLMVSENQPCCYTGEMYGEEMRQKQQLKDLGDRSQRKKTTTVPGNNAVGNKDEGEEIKLEGSLNEKIIVEKQQSEVEELMCRLHLQGKYQNKMKTADFLNIGSSAQHQHGPQTENKLAHTFLQRLLMLDYRARYIPVRDENSEMHDTTDNRNDNAETEESAFDALFNKNTVSGDIKKNTQVHPMDVQMAVFHCSDSFLQQFMVTKLSLCQYALPLLVPNLFTEEIEFPLWTFRQIRKTWKSTNGSNIVTSQSMPIYKAETPMVSFFRFGSVSSSKSQLMNNLINQRHSTFFHRHCPGSNKTCLLMDGVVEIAWYCPAGKPNDIFTDCVAFCNLHGDAIENAIQRDILIEKASVNVVLLPSLGKGDKSMAIVQELFKSSKPLICLLTEEDSVATEIRKGKYKMGLRDRNQSDVSEELKGIIRNNLSTPCCYFKLEDMAKYSGVRVDEDDEDCQVGKTNALQITHLLKEMELSKIKETFLPCQGRLWHDWCQRNKDLYRLQGNLEMERSKIQHEMMQIRHHQHKVAFTELMQMFITSLRSLGEKEKSYFLKWVGILLDDLSSDELSDLHHKYDEKWSEVLALKKKHDKSEQLKMRQTELEKISGKLQAATFGFEHILREMGQIYEAHASVARERKGESEVTVSYLPELAAELMISGHPIELMDGDAAHVPLTWIHGVLDEVIKKLGDQRVFVLSILGIQSTGKSTMLNAMFGLQFAVSAGRCTRGAFMQLLKVTEEMKDDFRFDYVLVVDTEGLRALELAGKETVHHDNELATFVIGLGNMTLINIFGENPAEMQDIIQIAVQAFMRMKKVSLSPSCVFVHQNVGDIMAGEKNMEGKRRLQDKLDEITQLAAKEEDSNAECFSDVIAFDIQRDVKYFSQLWEGSPPMAPPNPCYSEDVQELRKTILSKTSKSFGMTLSQLKSRIQDLWNALLNEKFVFSFKNTLEIAVYRKLEIQYGKWIWALRSAMLCIENQLHNRIENGKLHRVERHYLVEEMRKTREEVDKSMEKYFDEHRDKEMLIQWRGRFQTKMCELHDELVKGAKRKLEEVIHQRDARKKLDDKKTQYENKLFQKSKELASKLKDKAKDDKQLENEFNTLWGAWVTELTEDTPPIKDINISDDVTCILKESGNELSLIHDRKSCGMYPQICTMGNYSDYVIRSKHQDQQSKAGKRKPSKVQLQKNIVSGAFNRFLGAIVPSNILTYTDQELIRSFINDVVEQSQKIIETEPIEKMGYSDSYLQEIVTHVKESVKEFESKKRKYAFKREFTVDLSLHVCELAGSKFADSHSKFRCNNDAHTYLEQKRPQYNKIFKSYCKGSTSAAVLGELICNTLKESIVQAVYDQTAIDLAGEMRLSHPPFSGNRSNMEIHILTSLAEEENFDKCMTYIHNPRKHFERFIRENVEKYILIENRSKILTMIEGNIKGKEQRVSHAVHTATNTVKNKNGDTNMWLRELSSALKDELKFAEKHFSDFCDITNFDFLEEEVREGLANRIMEINRSLSNVSLLDMKQFRERPDEILIKHFCDCCWVQCPFCKAICTNSMEGHKPKDHNVPFHRPKGINGCHFKNTVEFWIDFCTTSVASNGQFYPSHESEDIYLLKEYRKAGPRFADWSITPDLSELPYWKWFVCRFQEDLERYYDKKFQGRGEIPIEWRKFTKQQAIESLKKI

Target ORF information:

RefSeq Version	XM_014187807.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar interferon-induced very large GTPase 1-like (LOC106596519), mRNA.

Target ORF information:

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

XM_014187807.1

ORF Insert Sequence:

ATGCTGGGCT TGCAGAGTGC TGAGCCTACA CAGATATCAT TGGAAAATCA CATAAGTCAG 
CTAGTGTGTA AAACAGGAAT ACATGCGTTC CTCTTAATTT CAGCATTAGG TAATGTTTAT 
GAGCACAACA TGGTTGAGGA TTGGCTCCAA ACAATGCTTG GGGAAAGATC CCTTGCCTTT 
GCAATGACCG TCTTTACCCA TGAGAATGAG CCAGACACTG CGTTGGGTGA TCTGAACGAC 
AACAGTGATC TGAAGCATGT CACTGAAAAG TGTGGAGATA GGTATCACAC CTGCAAAAAG 
AGTATGGATG ATCCAGAAGA GATTATAACA TTACTTGAAA AGATAGATCT TATGGTCTCT 
GAAAACCAGC CATGTTGTTA CACTGGAGAA ATGTATGGTG AAGAGATGAG GCAGAAACAG 
CAACTGAAAG ATTTGGGCGA CAGATCACAA AGGAAGAAGA CAACTACTGT ACCAGGCAAC 
AATGCTGTTG GAAACAAGGA TGAGGGAGAA GAAATTAAAC TGGAGGGGAG TTTAAATGAA 
AAGATCATTG TGGAAAAACA ACAATCAGAG GTAGAAGAGC TCATGTGCAG ACTTCACCTT 
CAAGGCAAAT ATCAAAATAA GATGAAAACT GCAGACTTTC TGAACATTGG CTCTTCCGCT 
CAACATCAAC ACGGACCCCA AACAGAGAAC AAACTGGCTC ATACTTTCCT ACAAAGGTTG 
TTGATGCTGG ACTACAGAGC CAGGTACATT CCTGTAAGAG ATGAGAATAG TGAGATGCAT 
GACACAACTG ACAACAGAAA TGATAACGCA GAAACAGAAG AAAGTGCCTT TGATGCCCTT 
TTCAACAAGA ACACAGTCTC TGGTGATATA AAGAAGAACA CGCAAGTTCA CCCAATGGAT 
GTCCAAATGG CAGTGTTTCA CTGTTCAGAC AGTTTCCTTC AGCAGTTCAT GGTCACAAAG 
CTGTCCTTGT GTCAGTATGC CTTGCCTTTG CTTGTGCCAA ACCTCTTCAC CGAAGAGATT 
GAATTCCCTT TGTGGACATT TCGACAAATC AGAAAAACCT GGAAGTCCAC TAATGGCTCT 
AATATAGTCA CCAGCCAAAG TATGCCTATT TACAAGGCAG AAACACCAAT GGTGTCATTC 
TTTAGGTTTG GTTCTGTGTC CTCATCAAAA TCCCAGCTGA TGAACAACTT GATCAACCAA 
CGTCACAGCA CATTCTTCCA CAGACACTGT CCAGGAAGCA ATAAAACCTG CCTCCTAATG 
GATGGGGTGG TAGAGATTGC ATGGTATTGT CCTGCTGGGA AGCCCAATGA TATTTTCACT 
GACTGTGTTG CATTCTGTAA TCTCCATGGT GACGCCATAG AGAATGCAAT TCAACGTGAC 
ATACTGATTG AAAAAGCCTC TGTCAATGTT GTCCTTTTAC CAAGTCTTGG AAAAGGAGAC 
AAAAGTATGG CAATCGTGCA GGAGCTGTTC AAGTCTTCTA AACCTCTGAT ATGTCTGCTC 
ACTGAAGAGG ATTCTGTTGC GACTGAAATT AGAAAGGGAA AGTACAAAAT GGGTTTGAGA 
GACAGAAATC AGTCAGATGT TTCCGAGGAA CTAAAAGGGA TCATTAGAAA TAATTTGTCA 
ACACCATGTT GCTACTTCAA ACTTGAGGAC ATGGCAAAGT ACTCAGGGGT TAGAGTAGAT 
GAGGATGATG AAGATTGCCA AGTAGGGAAG ACTAATGCTC TGCAGATAAC GCATCTGCTT 
AAGGAAATGG AACTGTCCAA GATCAAAGAA ACATTTCTTC CATGTCAAGG AAGGCTGTGG 
CATGATTGGT GTCAAAGAAA TAAAGACCTT TATCGTCTCC AAGGGAATCT AGAGATGGAA 
AGAAGTAAAA TACAACATGA AATGATGCAA ATTCGACACC ATCAACATAA AGTTGCCTTT 
ACTGAACTCA TGCAGATGTT TATCACAAGT CTACGATCTC TGGGAGAAAA AGAAAAATCA 
TATTTCCTCA AGTGGGTAGG GATACTACTG GATGACCTGT CCTCGGATGA GCTCTCAGAC 
CTTCATCACA AGTATGATGA AAAGTGGTCC GAGGTCCTGG CTTTGAAAAA GAAGCATGAT 
AAATCAGAGC AACTGAAAAT GAGACAAACG GAGCTGGAAA AAATATCAGG AAAGCTGCAA 
GCAGCAACCT TTGGATTTGA GCACATTCTG AGGGAAATGG GACAGATCTA TGAAGCCCAT 
GCATCTGTGG CCAGGGAAAG GAAAGGAGAA AGTGAGGTGA CCGTGTCTTA CCTTCCAGAG 
CTCGCGGCAG AACTTATGAT ATCGGGACAC CCAATAGAAC TAATGGATGG TGACGCAGCT 
CATGTGCCAC TGACGTGGAT TCATGGGGTT TTAGATGAAG TTATCAAGAA ACTAGGAGAT 
CAGAGAGTCT TTGTTTTGTC CATTTTGGGA ATCCAGAGCA CTGGGAAATC TACAATGCTG 
AATGCAATGT TTGGACTGCA ATTCGCAGTA AGTGCTGGAA GGTGTACCAG AGGTGCTTTC 
ATGCAGCTGT TGAAAGTGAC CGAGGAGATG AAAGATGACT TTAGGTTTGA TTATGTTCTT 
GTTGTTGACA CTGAGGGACT TCGAGCTTTA GAGTTGGCAG GAAAGGAAAC AGTGCACCAT 
GACAATGAAC TTGCAACTTT TGTCATTGGT CTTGGAAACA TGACCTTGAT CAACATATTT 
GGAGAGAATC CTGCTGAGAT GCAAGACATC ATTCAGATAG CTGTTCAGGC CTTCATGAGA 
ATGAAGAAAG TTAGTCTGTC TCCAAGTTGT GTGTTTGTGC ACCAGAATGT TGGAGACATC 
ATGGCTGGAG AGAAAAACAT GGAGGGAAAG AGGCGCTTAC AGGACAAACT AGACGAGATA 
ACCCAGTTAG CTGCCAAAGA AGAGGACAGT AATGCAGAAT GTTTCAGTGA TGTTATTGCA 
TTTGACATAC AAAGAGATGT GAAATACTTT TCCCAGCTGT GGGAGGGCAG CCCACCCATG 
GCCCCACCAA ACCCATGCTA CAGTGAGGAT GTCCAGGAGC TAAGGAAAAC AATCCTCTCT 
AAAACATCAA AGTCTTTTGG CATGACATTA TCACAGCTCA AAAGCAGGAT CCAAGACCTT 
TGGAATGCAC TGCTGAACGA AAAGTTTGTG TTCAGCTTCA AAAACACACT AGAAATTGCA 
GTTTACAGAA AACTTGAGAT TCAGTATGGA AAATGGATCT GGGCTCTCAG GAGTGCCATG 
CTATGCATTG AAAATCAACT GCACAATCGA ATCGAAAATG GAAAACTTCA CAGGGTTGAG 
AGACATTACC TTGTTGAAGA AATGAGAAAG ACTCGTGAAG AAGTGGACAA ATCAATGGAA 
AAGTACTTTG ATGAACACAG AGATAAAGAA ATGTTGATTC AGTGGCGAGG GAGATTTCAA 
ACGAAAATGT GTGAGCTTCA TGATGAACTT GTGAAGGGAG CAAAAAGAAA GTTAGAGGAG 
GTTATTCATC AAAGGGATGC GCGCAAAAAG CTGGATGACA AGAAGACACA GTATGAAAAC 
AAGCTCTTCC AAAAGAGCAA AGAACTTGCC TCAAAACTGA AGGACAAGGC AAAGGATGAT 
AAACAACTTG AGAATGAATT CAATACTCTT TGGGGAGCAT GGGTTACTGA GTTGACGGAA 
GATACACCTC CCATAAAGGA CATAAACATA TCAGATGATG TGACTTGTAT CCTTAAAGAG 
AGCGGTAATG AATTGTCTCT TATACATGAC CGGAAAAGTT GTGGAATGTA CCCACAGATT 
TGTACCATGG GGAATTATTC TGACTATGTA ATTCGATCCA AGCACCAAGA TCAACAATCA 
AAAGCTGGTA AAAGGAAGCC AAGCAAAGTC CAATTGCAGA AAAATATTGT GAGTGGTGCT 
TTTAATAGAT TTTTGGGGGC CATTGTTCCA AGCAACATTC TAACATACAC AGATCAGGAA 
TTGATAAGAT CATTCATCAA TGATGTTGTC GAACAAAGCC AGAAGATAAT TGAGACAGAG 
CCCATAGAAA AGATGGGATA CAGTGACAGT TACTTGCAAG AAATAGTAAC GCATGTCAAA 
GAAAGCGTGA AGGAATTTGA ATCGAAGAAA AGAAAATATG CATTTAAAAG GGAGTTTACG 
GTGGATCTTT CACTTCATGT GTGTGAGCTA GCAGGAAGTA AGTTTGCAGA TTCCCATAGC 
AAATTCAGAT GCAACAATGA TGCCCACACT TACCTGGAGC AGAAGAGACC ACAGTACAAC 
AAGATTTTCA AGAGCTACTG CAAAGGATCC ACATCTGCAG CTGTGCTTGG TGAGTTAATT 
TGCAACACAC TGAAAGAATC AATTGTACAG GCGGTCTATG ACCAGACGGC CATTGACTTG 
GCTGGAGAAA TGCGATTAAG TCACCCACCA TTCAGTGGAA ACAGGTCTAA CATGGAGATA 
CACATCCTGA CATCACTGGC AGAGGAGGAA AACTTTGACA AGTGCATGAC CTACATTCAC 
AACCCAAGGA AACACTTTGA GAGATTTATT AGAGAGAATG TAGAGAAATA TATCCTCATA 
GAAAATAGGT CCAAAATCCT CACCATGATT GAAGGGAACA TAAAAGGTAA AGAGCAGCGT 
GTGAGCCATG CAGTGCATAC AGCAACAAAT ACAGTCAAAA ACAAGAATGG AGACACCAAC 
ATGTGGCTTA GAGAGCTTTC CAGTGCTCTA AAAGATGAGC TTAAATTTGC TGAAAAGCAT 
TTCAGTGATT TCTGTGACAT AACCAACTTT GACTTCCTCG AAGAAGAGGT AAGGGAAGGT 
CTTGCCAACA GAATCATGGA GATCAACAGA AGCCTCAGCA ACGTGTCACT CCTGGACATG 
AAGCAGTTCA GGGAGAGGCC AGATGAGATT CTGATCAAAC ATTTTTGTGA TTGCTGCTGG 
GTACAGTGTC CCTTCTGTAA AGCCATCTGT ACAAACTCCA TGGAGGGGCA CAAACCGAAG 
GATCACAATG TCCCTTTTCA TCGCCCTAAA GGAATCAATG GATGCCACTT CAAAAACACA 
GTAGAATTTT GGATAGATTT TTGTACAACT TCAGTAGCAA GTAATGGCCA GTTTTACCCC 
TCCCATGAAT CAGAGGATAT ATATCTTTTG AAAGAATACA GAAAAGCTGG CCCAAGATTT 
GCTGATTGGA GCATCACACC AGACCTCTCT GAACTTCCGT ACTGGAAGTG GTTTGTTTGT 
CGATTTCAAG AAGATCTGGA AAGGTATTAT GACAAAAAAT TCCAGGGCAG AGGTGAAATT 
CCAATTGAAT GGAGGAAGTT CACAAAACAG CAAGCTATTG AAAGCTTAAA GAAAATCTAA