LOC102208033 cDNA ORF clone, Pundamilia nyererei

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC102208033
Entrez Gene ID	102208033
Full Name	unconventional myosin-Vb-like
Gene Type	protein-coding
Organism	Pundamilia nyererei

mRNA and Protein(s)

mRNA	Protein	Name
XM_013909308.1	XP_013764762.1	unconventional myosin-Vb-like

Pathways from BioSystems
Gene Ontology

The following LOC102208033 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102208033 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
OPu58039	XM_013909308.1 Latest version!	Pundamilia nyererei unconventional myosin-Vb-like (LOC102208033), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

LOC102208033 ( XM_013909308.1 ) cDNA ORF clone, Pundamilia nyererei -> XP_013764762.1 Pundamilia nyererei unconventional myosin-Vb-like (LOC102208033), mRNA.

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CloneID	OPu58039
Clone ID Related Accession (Same CDS sequence)	XM_013909308.1
Accession Version	XM_013909308.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4980bp) 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	2015-08-30
Organism	Pundamilia nyererei
Product	unconventional myosin-Vb-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005187424.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pundamilia nyererei Annotation Release 101 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## ##RefSeq-Attributes-START## ab initio :: 21% of CDS bases ##RefSeq-Attributes-END##

ATGGCAACAC TGGAATTGTA CAGCAAGGGG GCAAATGTGT GGGTTCCTGA TCCAGATGCT 
GTCTGGGTTT CAGCCCAGCT TCTCCAGGAC TACAGGTCTG GAGAGAAGCA CCTGCTGCTA 
CAGCTCTCAA ATGGAAATGA GGTCCATTAC CCAGTGGGCT CTCCCTCTGA TCTTCCACCT 
TTGGGGAATC CCGACATACT GGAGGGCGAG AATGATCTAA CAGCTCTCAG CTTTCTCCAC 
GAGCCCGCTG TGCTGCATAA CCTCCGGGTT CGATTCCTGG ATTATAGCAG CATCTACACA 
TACTGTGGTA TTGTGTTAGT GGCCATAAAT CCATATGACC AACTTCCAAT ATACGGAGAG 
GAGGTGATAG ACGCTTACAG CGGTCAGGAC ATGGCTGACA TGGAACCACA CATCTTTTCT 
GTGGCTGAGG AGGCCTACCG CACTATGATC AGGGAGGAGA AGAACCAGTC TATCATCATC 
AGTGGGGAAT CTGGCTCTGG GAAAACTGTC TCTGCAAAGT TCACCATGAG ATATTTCGCT 
GTGGTTGGAG GAGCGGCACA GCAGACCAGT GTGGAGGAGA GAGTTTTGGC TTCCAACCCA 
ATCATGGAGT CCATTGGTAA TGCTAAAACT ACCCGAAATG ACAACAGCAG TCGTTTTGGG 
AAGTACATCG AGATTGGCTT TGGCAGAAAG GGGGACATCA TTGGGGCCAA TATGAGGACC 
TATCTGCTGG AGAAGTCACG GGTGGTCTTC CAGGCATCAA CAGAGAGGAA CTACCATATC 
TTCTATCAGC TGTGTGCATC CAGAGAGCTG CCTGAAATGA GGTCCCTCAA ACTGGATGCT 
CCTGAGAATT TCCGCTACAC TAACCAGGGA GGAGAGATGC AGATACCTGG TACTGATGAT 
TTGTCAGACC TGGAGCGCAC TCGCAATGCT TTCACCATTC TGGGTGTGCA GCCTGACCAA 
CAGATGGAAC TCTTCAGGAT CCTGTCAGCT GTGCTCCACC TGGGAAATGT CAACATTCAA 
GCCAGTGGGC GAAGCTCTGA CCGGGGTTAC ATTGATGCAG AGGACCGCTC TCTGGCTGTC 
TTCTCCAAGC TGCTTGGAGT TGAGGGATCT CAGATGGCTC ACTGGCTGTG CCATCGCAGA 
CTTGCTGTAG GAGGAGAGAT GCTGGTTAAA CCTATGACTG GCCAGCAGGC CGTAGAAGCC 
AGAGACGCAC TTGCTAAACA CATCTATGGT CAGCTGTTCG CGTGGACTGT CCAGAGGCTC 
AACTCAGCTC TGCGGGCCCA GCAAGGACGG ACCAAATCCT TTGTAGGGGT TTTAGATATC 
TATGGGTTTG AGACCTTTGA AAGGAACAGT TTTGAGCAGT TCTGCATAAA TTATGCAAAT 
GAAAAACTGC AGCAACAGTT CAACAGACAT GTGTTCCACT TGGAGCAGGA GGAGTACGTC 
CGTGAGGAGC TGGCATGGAG CCGGATTGAG TTCAGTGACA ATCAGCAGTG CATCGATCTA 
ATAGAGGGAC AGCTGGGCAT GTTTGATCTC TTGGATGAGG AGTGCAGGAT GCCTAAAGGT 
TCTGATGAAA GCTGGGTGCG CAAGCTGTAC GACCAGCACC TGAGCAGCAA GCCTCACCCT 
CACTTCAGGA AGCCTCGCAT GTCAAACAGC GCCTTCATCG TCCTGCACTT TGCTGACACG 
GTCCAATATG AATGCGATGG CTTTTTAGAT AAAAATCGAG ACACGGTCTT TGAAGAGCTC 
ATCAACATTT TGAAAGCAAG TCAGTCTGAG CTGGTCGCTG AGTTGTTCCA GCAGCAGAGA 
AATGCGTCTC CTGTGGCCAA TGGAAGCATT CGCTCAGGTA AACGAGCCAC CAGAGAACAC 
AAGCTGACAG TAAGCTTTCA GTTCCGTCAG TCCTTACAGA TGTTAATGGA AACTCTCAAC 
AGCACCACCC CTCACTACGT CCGCTGTATT AAACCCAATG ACCTCAAAGA GCCTTTTCTG 
TTTGACCCTA AGAGGACGGT CCAGCAGCTA AGAGCTTGTG GGGTGCTGGA GACCATCCGC 
ATCAGTGCAG CAGGTTATCC GTCCAGATGG ACGTATGAGG AGTTCTTCAG CAGGTATCGA 
ATTCTTCTTC GGGGGCCTCA GAGCCAGGAC CAGGCCCAGG CCTCGTGCAG ACAGGCCCTG 
CCTCAGCTCA TCCCAGATCC GGACCAGTAC TGCTTTGGAA AGACAAAAGT ATTTTTCCGG 
GCTGGTCAGG TGGCTCTTTT GGAGAGGTTG AGAGCTGAGA GACTGAAAGT GGCTGCTGTG 
ATCATCCAGA GTCAGGTTAG AGGATGGCTG GCACGGATCA GATACACCAG GATCCTCTGG 
GCTACTCTCA CCATACAGAG ATACAGCAGA GGGGCGCTGG CCAGACGACT GGCTTTGATC 
CTGCGCTACA CCAGGGCTGC CTTGGTGATC CAGAAGACTT ATCGTATGAT GGTGGTCAGG 
CAGCTATTTT TCATGATCCG ACACGCCACT GTCACAATCC AGGCATTCAC CAGGGGGATG 
CTGGAGCGCC GCAGATACAG ACTGCTGGTG GCAGAGAGGG CGGCCGTGCT GCTCCAGGCC 
ACGGTGCGTG GGTGGTTGGC GAGGCAAGCG TACAGGCGCG TACGTGCGGC GGTCGTGTTC 
ATGCAGTGCT GCATTCGCCG CAAGGCTGCC AGGAGACAGC TGCTGAAACT GAAGTCTGAG 
GCCCGCTCTG TGGAGAGATA CAGAGAGCTC AACAAAGGCA TGGAGGTCAA ACTGATGCAG 
CTGCAGTTGA AAGCAGACCA GGAGGCCAGG GAGAGCGCTG CTTTGAGAGA AACCCTAATG 
GTAGAGCGAG AGGCTTCCAG CGCCGAGCTG GCGGCTCTGA GGGCAACAAT ACAAAAACTA 
GAGAGCCAGT TACAGGAGAA GCCTCCGCCT GGGCCTGTTA TCAGCGAAAA GGAGGCAGAG 
GAGAGAAGAA GAGCTGAAGA GAAAGCTGCC CAGGAGATCC TCCAGCTTAA AGAAGAGCTG 
CAAGCACTAC AGAAAGAAAG GGATAGTTTT TGCAAAGAGA GAGACGATCT CTCGGCTTCC 
CTGCTGGAAC AAGAAGAAAA ACAAGAAGAG TGTGTGCATG AGGCTGTGTC TCAGGTGACC 
TCGGCTCTTC GGGCAGAGGT GGACGAGGAG AGGAGAAAGT ATCAGGGTCT CCTGAGAGAG 
TTCACCAGAC TGGAGCAGAG ATATGACAAC CTCAGGGAGA TGAGTCTGCT CACAGAGCGC 
ACCAAAGGCC ACAGAAGAAC CGACTCCACC CAGAGTCTGG AACCTCTCTC TCCCTCGACG 
CCGCTGTCCC CCCAGTCTCT CACCCCACTC TCCATATCAC CATTCCCATC TGCTGTTCCA 
TCCCCAGAGG AGGTCCGCAG GATCAGCGTG ACGTCCCCCT CTGCAGAGAA GAGAGTCTCA 
GTGTGGAACT CTGAAGCCTC AATGGAGCAG CTGATGGAGA AGATGGACGT GGCCAAAGAC 
CCATCGGTGA AGATGAAGGG AGAAGATCTG GCTCATGCTT ATGATGCTGT ACGAGTGGCA 
AACAAGTTTC TGGAGAGCCA GCTACGTAAC CAGTGCAGTC AGTGGGAGAA GGAACTGGAA 
ACTCTGAGGA GTCAGCTTGC CCAAGCGGTG TCTGTTTCTT CCTCTGCTGC ACAGAGACAG 
GATGTTCAGG AGCTGCTGGA AGCCCGAGAG CGTGAATGTG TGAGGCTGAG GAGAGAGCTG 
AAGGAACTGA GAAACACAGT CTCACTGAGG CGACTCCTGA CACAAGTTTT CCCATCAGCT 
TTGGCCACAG AGACTTCCTC TCCTGCCCAG TCGAAGCCAG CAGCAGTTAC TGGTTTACTG 
GAATGTAGAA AAAGAGACGA AACCAAACTG ATCAAGAATC TCGTCACAGA CATCCGTGTT 
GACAGCGCCC TGTCTTTGGC TCCCGGTCTG CCTGCCAGCG TGCTCTTCCT GTGTGTCCGC 
CAGGCCGACT GCAGCGGGGA CCAAGCTCGC GCTCGCTCTC TTTGTAGCGC TGCTGTCACT 
GCTATGAAGG CAGCTCTGAA GAAACATGTC AGTGACATAG ACATGGCTGC TCTGTGGTTG 
AAGAACATCT GTCTGTTCCA CGACTTGTTG ACCCAGCACT CCCCAAAGCA GACCCTCGAC 
TCAGACACAC TGGTTCCCCT GTCTGCTGAT ATGAATGACT TGATCCGCAC CCTGAGCGAC 
CTCTCTATCC AGGCCTATCA GCAGCTCCTT TCCATCACCG AGACCCGTCT ACAAAACATC 
ATAGTCCCTG CCCTGTTGGA GAGCGAAACC ATCCAAGGTC TATCAGGCTC AGCGGTGAAG 
CTGGCAGTGA GCAGGAAGCG GGCCGGCTCA GACCCCAGGA CTGTAGGAGG CGAGGCTCCC 
ACGATGGCGT CTGTGCTGAG GGAGCTCGGA GCCCTTCACA CCGCTCTGAC TCAACAAGCT 
CTGCCCAAGA CCCTGATGGA GCAAGCCTTT CACCAGCTCA CCTACCTCAT CTGTGCCTCT 
GCTTTTAACA GCCTGCTGCT GAGGAAGGAC ATGTGCAGCT GGAGTCGTGG CCTGCAAATA 
CGCTACAATG TGAGCGTCCT GGAGGAGTGG CTGCGGGGCC GCGGTTTACA GGCAGGGGGC 
GCTGTGGCCA CACTAGAGCC CCTCATCCAG GCAGTGCAGC TGCTGCAGGT GGGGAAAAAG 
ACCGAGGCGG ATGCTCAGGG GATCGTCCGG ACTTGCAGTG CCTTGTCCAG CCAGCAGATC 
GTGAAGATTC TGACTCTCTA CACCCCCCAC AGCGACCTGG ATGAAAGAGT CACTCTGAAT 
TTCATACGTT CTGTTCAGGG GCTTCTCAAA GGCCGCTCTA ACAGTCAGCC TTCACAGCTC 
CTAATGGATG TGAGGAGAGT GTTTCCTGTC ATATTCCTCT ACTCGCCTCC CCCCGTCCTC 
AGCGCAGAGC AGTTAGTCAT CCCAGACTCC CTCAAGATCT CCTTTCTGCG CAAAGCATAA

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

RefSeq	XP_013764762.1
CDS	1..4980
Translation	MATLELYSKGANVWVPDPDAVWVSAQLLQDYRSGEKHLLLQLSNGNEVHYPVGSPSDLPPLGNPDILEGENDLTALSFLHEPAVLHNLRVRFLDYSSIYTYCGIVLVAINPYDQLPIYGEEVIDAYSGQDMADMEPHIFSVAEEAYRTMIREEKNQSIIISGESGSGKTVSAKFTMRYFAVVGGAAQQTSVEERVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFGRKGDIIGANMRTYLLEKSRVVFQASTERNYHIFYQLCASRELPEMRSLKLDAPENFRYTNQGGEMQIPGTDDLSDLERTRNAFTILGVQPDQQMELFRILSAVLHLGNVNIQASGRSSDRGYIDAEDRSLAVFSKLLGVEGSQMAHWLCHRRLAVGGEMLVKPMTGQQAVEARDALAKHIYGQLFAWTVQRLNSALRAQQGRTKSFVGVLDIYGFETFERNSFEQFCINYANEKLQQQFNRHVFHLEQEEYVREELAWSRIEFSDNQQCIDLIEGQLGMFDLLDEECRMPKGSDESWVRKLYDQHLSSKPHPHFRKPRMSNSAFIVLHFADTVQYECDGFLDKNRDTVFEELINILKASQSELVAELFQQQRNASPVANGSIRSGKRATREHKLTVSFQFRQSLQMLMETLNSTTPHYVRCIKPNDLKEPFLFDPKRTVQQLRACGVLETIRISAAGYPSRWTYEEFFSRYRILLRGPQSQDQAQASCRQALPQLIPDPDQYCFGKTKVFFRAGQVALLERLRAERLKVAAVIIQSQVRGWLARIRYTRILWATLTIQRYSRGALARRLALILRYTRAALVIQKTYRMMVVRQLFFMIRHATVTIQAFTRGMLERRRYRLLVAERAAVLLQATVRGWLARQAYRRVRAAVVFMQCCIRRKAARRQLLKLKSEARSVERYRELNKGMEVKLMQLQLKADQEARESAALRETLMVEREASSAELAALRATIQKLESQLQEKPPPGPVISEKEAEERRRAEEKAAQEILQLKEELQALQKERDSFCKERDDLSASLLEQEEKQEECVHEAVSQVTSALRAEVDEERRKYQGLLREFTRLEQRYDNLREMSLLTERTKGHRRTDSTQSLEPLSPSTPLSPQSLTPLSISPFPSAVPSPEEVRRISVTSPSAEKRVSVWNSEASMEQLMEKMDVAKDPSVKMKGEDLAHAYDAVRVANKFLESQLRNQCSQWEKELETLRSQLAQAVSVSSSAAQRQDVQELLEARERECVRLRRELKELRNTVSLRRLLTQVFPSALATETSSPAQSKPAAVTGLLECRKRDETKLIKNLVTDIRVDSALSLAPGLPASVLFLCVRQADCSGDQARARSLCSAAVTAMKAALKKHVSDIDMAALWLKNICLFHDLLTQHSPKQTLDSDTLVPLSADMNDLIRTLSDLSIQAYQQLLSITETRLQNIIVPALLESETIQGLSGSAVKLAVSRKRAGSDPRTVGGEAPTMASVLRELGALHTALTQQALPKTLMEQAFHQLTYLICASAFNSLLLRKDMCSWSRGLQIRYNVSVLEEWLRGRGLQAGGAVATLEPLIQAVQLLQVGKKTEADAQGIVRTCSALSSQQIVKILTLYTPHSDLDERVTLNFIRSVQGLLKGRSNSQPSQLLMDVRRVFPVIFLYSPPPVLSAEQLVIPDSLKISFLRKA

Target ORF information:

RefSeq Version	XM_013909308.1
Organism	Pundamilia nyererei
Definition	Pundamilia nyererei unconventional myosin-Vb-like (LOC102208033), mRNA.

Target ORF information:

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

XM_013909308.1

ORF Insert Sequence:

ATGGCAACAC TGGAATTGTA CAGCAAGGGG GCAAATGTGT GGGTTCCTGA TCCAGATGCT 
GTCTGGGTTT CAGCCCAGCT TCTCCAGGAC TACAGGTCTG GAGAGAAGCA CCTGCTGCTA 
CAGCTCTCAA ATGGAAATGA GGTCCATTAC CCAGTGGGCT CTCCCTCTGA TCTTCCACCT 
TTGGGGAATC CCGACATACT GGAGGGCGAG AATGATCTAA CAGCTCTCAG CTTTCTCCAC 
GAGCCCGCTG TGCTGCATAA CCTCCGGGTT CGATTCCTGG ATTATAGCAG CATCTACACA 
TACTGTGGTA TTGTGTTAGT GGCCATAAAT CCATATGACC AACTTCCAAT ATACGGAGAG 
GAGGTGATAG ACGCTTACAG CGGTCAGGAC ATGGCTGACA TGGAACCACA CATCTTTTCT 
GTGGCTGAGG AGGCCTACCG CACTATGATC AGGGAGGAGA AGAACCAGTC TATCATCATC 
AGTGGGGAAT CTGGCTCTGG GAAAACTGTC TCTGCAAAGT TCACCATGAG ATATTTCGCT 
GTGGTTGGAG GAGCGGCACA GCAGACCAGT GTGGAGGAGA GAGTTTTGGC TTCCAACCCA 
ATCATGGAGT CCATTGGTAA TGCTAAAACT ACCCGAAATG ACAACAGCAG TCGTTTTGGG 
AAGTACATCG AGATTGGCTT TGGCAGAAAG GGGGACATCA TTGGGGCCAA TATGAGGACC 
TATCTGCTGG AGAAGTCACG GGTGGTCTTC CAGGCATCAA CAGAGAGGAA CTACCATATC 
TTCTATCAGC TGTGTGCATC CAGAGAGCTG CCTGAAATGA GGTCCCTCAA ACTGGATGCT 
CCTGAGAATT TCCGCTACAC TAACCAGGGA GGAGAGATGC AGATACCTGG TACTGATGAT 
TTGTCAGACC TGGAGCGCAC TCGCAATGCT TTCACCATTC TGGGTGTGCA GCCTGACCAA 
CAGATGGAAC TCTTCAGGAT CCTGTCAGCT GTGCTCCACC TGGGAAATGT CAACATTCAA 
GCCAGTGGGC GAAGCTCTGA CCGGGGTTAC ATTGATGCAG AGGACCGCTC TCTGGCTGTC 
TTCTCCAAGC TGCTTGGAGT TGAGGGATCT CAGATGGCTC ACTGGCTGTG CCATCGCAGA 
CTTGCTGTAG GAGGAGAGAT GCTGGTTAAA CCTATGACTG GCCAGCAGGC CGTAGAAGCC 
AGAGACGCAC TTGCTAAACA CATCTATGGT CAGCTGTTCG CGTGGACTGT CCAGAGGCTC 
AACTCAGCTC TGCGGGCCCA GCAAGGACGG ACCAAATCCT TTGTAGGGGT TTTAGATATC 
TATGGGTTTG AGACCTTTGA AAGGAACAGT TTTGAGCAGT TCTGCATAAA TTATGCAAAT 
GAAAAACTGC AGCAACAGTT CAACAGACAT GTGTTCCACT TGGAGCAGGA GGAGTACGTC 
CGTGAGGAGC TGGCATGGAG CCGGATTGAG TTCAGTGACA ATCAGCAGTG CATCGATCTA 
ATAGAGGGAC AGCTGGGCAT GTTTGATCTC TTGGATGAGG AGTGCAGGAT GCCTAAAGGT 
TCTGATGAAA GCTGGGTGCG CAAGCTGTAC GACCAGCACC TGAGCAGCAA GCCTCACCCT 
CACTTCAGGA AGCCTCGCAT GTCAAACAGC GCCTTCATCG TCCTGCACTT TGCTGACACG 
GTCCAATATG AATGCGATGG CTTTTTAGAT AAAAATCGAG ACACGGTCTT TGAAGAGCTC 
ATCAACATTT TGAAAGCAAG TCAGTCTGAG CTGGTCGCTG AGTTGTTCCA GCAGCAGAGA 
AATGCGTCTC CTGTGGCCAA TGGAAGCATT CGCTCAGGTA AACGAGCCAC CAGAGAACAC 
AAGCTGACAG TAAGCTTTCA GTTCCGTCAG TCCTTACAGA TGTTAATGGA AACTCTCAAC 
AGCACCACCC CTCACTACGT CCGCTGTATT AAACCCAATG ACCTCAAAGA GCCTTTTCTG 
TTTGACCCTA AGAGGACGGT CCAGCAGCTA AGAGCTTGTG GGGTGCTGGA GACCATCCGC 
ATCAGTGCAG CAGGTTATCC GTCCAGATGG ACGTATGAGG AGTTCTTCAG CAGGTATCGA 
ATTCTTCTTC GGGGGCCTCA GAGCCAGGAC CAGGCCCAGG CCTCGTGCAG ACAGGCCCTG 
CCTCAGCTCA TCCCAGATCC GGACCAGTAC TGCTTTGGAA AGACAAAAGT ATTTTTCCGG 
GCTGGTCAGG TGGCTCTTTT GGAGAGGTTG AGAGCTGAGA GACTGAAAGT GGCTGCTGTG 
ATCATCCAGA GTCAGGTTAG AGGATGGCTG GCACGGATCA GATACACCAG GATCCTCTGG 
GCTACTCTCA CCATACAGAG ATACAGCAGA GGGGCGCTGG CCAGACGACT GGCTTTGATC 
CTGCGCTACA CCAGGGCTGC CTTGGTGATC CAGAAGACTT ATCGTATGAT GGTGGTCAGG 
CAGCTATTTT TCATGATCCG ACACGCCACT GTCACAATCC AGGCATTCAC CAGGGGGATG 
CTGGAGCGCC GCAGATACAG ACTGCTGGTG GCAGAGAGGG CGGCCGTGCT GCTCCAGGCC 
ACGGTGCGTG GGTGGTTGGC GAGGCAAGCG TACAGGCGCG TACGTGCGGC GGTCGTGTTC 
ATGCAGTGCT GCATTCGCCG CAAGGCTGCC AGGAGACAGC TGCTGAAACT GAAGTCTGAG 
GCCCGCTCTG TGGAGAGATA CAGAGAGCTC AACAAAGGCA TGGAGGTCAA ACTGATGCAG 
CTGCAGTTGA AAGCAGACCA GGAGGCCAGG GAGAGCGCTG CTTTGAGAGA AACCCTAATG 
GTAGAGCGAG AGGCTTCCAG CGCCGAGCTG GCGGCTCTGA GGGCAACAAT ACAAAAACTA 
GAGAGCCAGT TACAGGAGAA GCCTCCGCCT GGGCCTGTTA TCAGCGAAAA GGAGGCAGAG 
GAGAGAAGAA GAGCTGAAGA GAAAGCTGCC CAGGAGATCC TCCAGCTTAA AGAAGAGCTG 
CAAGCACTAC AGAAAGAAAG GGATAGTTTT TGCAAAGAGA GAGACGATCT CTCGGCTTCC 
CTGCTGGAAC AAGAAGAAAA ACAAGAAGAG TGTGTGCATG AGGCTGTGTC TCAGGTGACC 
TCGGCTCTTC GGGCAGAGGT GGACGAGGAG AGGAGAAAGT ATCAGGGTCT CCTGAGAGAG 
TTCACCAGAC TGGAGCAGAG ATATGACAAC CTCAGGGAGA TGAGTCTGCT CACAGAGCGC 
ACCAAAGGCC ACAGAAGAAC CGACTCCACC CAGAGTCTGG AACCTCTCTC TCCCTCGACG 
CCGCTGTCCC CCCAGTCTCT CACCCCACTC TCCATATCAC CATTCCCATC TGCTGTTCCA 
TCCCCAGAGG AGGTCCGCAG GATCAGCGTG ACGTCCCCCT CTGCAGAGAA GAGAGTCTCA 
GTGTGGAACT CTGAAGCCTC AATGGAGCAG CTGATGGAGA AGATGGACGT GGCCAAAGAC 
CCATCGGTGA AGATGAAGGG AGAAGATCTG GCTCATGCTT ATGATGCTGT ACGAGTGGCA 
AACAAGTTTC TGGAGAGCCA GCTACGTAAC CAGTGCAGTC AGTGGGAGAA GGAACTGGAA 
ACTCTGAGGA GTCAGCTTGC CCAAGCGGTG TCTGTTTCTT CCTCTGCTGC ACAGAGACAG 
GATGTTCAGG AGCTGCTGGA AGCCCGAGAG CGTGAATGTG TGAGGCTGAG GAGAGAGCTG 
AAGGAACTGA GAAACACAGT CTCACTGAGG CGACTCCTGA CACAAGTTTT CCCATCAGCT 
TTGGCCACAG AGACTTCCTC TCCTGCCCAG TCGAAGCCAG CAGCAGTTAC TGGTTTACTG 
GAATGTAGAA AAAGAGACGA AACCAAACTG ATCAAGAATC TCGTCACAGA CATCCGTGTT 
GACAGCGCCC TGTCTTTGGC TCCCGGTCTG CCTGCCAGCG TGCTCTTCCT GTGTGTCCGC 
CAGGCCGACT GCAGCGGGGA CCAAGCTCGC GCTCGCTCTC TTTGTAGCGC TGCTGTCACT 
GCTATGAAGG CAGCTCTGAA GAAACATGTC AGTGACATAG ACATGGCTGC TCTGTGGTTG 
AAGAACATCT GTCTGTTCCA CGACTTGTTG ACCCAGCACT CCCCAAAGCA GACCCTCGAC 
TCAGACACAC TGGTTCCCCT GTCTGCTGAT ATGAATGACT TGATCCGCAC CCTGAGCGAC 
CTCTCTATCC AGGCCTATCA GCAGCTCCTT TCCATCACCG AGACCCGTCT ACAAAACATC 
ATAGTCCCTG CCCTGTTGGA GAGCGAAACC ATCCAAGGTC TATCAGGCTC AGCGGTGAAG 
CTGGCAGTGA GCAGGAAGCG GGCCGGCTCA GACCCCAGGA CTGTAGGAGG CGAGGCTCCC 
ACGATGGCGT CTGTGCTGAG GGAGCTCGGA GCCCTTCACA CCGCTCTGAC TCAACAAGCT 
CTGCCCAAGA CCCTGATGGA GCAAGCCTTT CACCAGCTCA CCTACCTCAT CTGTGCCTCT 
GCTTTTAACA GCCTGCTGCT GAGGAAGGAC ATGTGCAGCT GGAGTCGTGG CCTGCAAATA 
CGCTACAATG TGAGCGTCCT GGAGGAGTGG CTGCGGGGCC GCGGTTTACA GGCAGGGGGC 
GCTGTGGCCA CACTAGAGCC CCTCATCCAG GCAGTGCAGC TGCTGCAGGT GGGGAAAAAG 
ACCGAGGCGG ATGCTCAGGG GATCGTCCGG ACTTGCAGTG CCTTGTCCAG CCAGCAGATC 
GTGAAGATTC TGACTCTCTA CACCCCCCAC AGCGACCTGG ATGAAAGAGT CACTCTGAAT 
TTCATACGTT CTGTTCAGGG GCTTCTCAAA GGCCGCTCTA ACAGTCAGCC TTCACAGCTC 
CTAATGGATG TGAGGAGAGT GTTTCCTGTC ATATTCCTCT ACTCGCCTCC CCCCGTCCTC 
AGCGCAGAGC AGTTAGTCAT CCCAGACTCC CTCAAGATCT CCTTTCTGCG CAAAGCATAA