FGD5 cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew)

Gene
Clones
gRNAs

Summary

Gene Symbol	FGD5
Entrez Gene ID	102852889
Full Name	FYVE, RhoGEF and PH domain containing 5
Gene Type	protein-coding
Organism	Elephantulus edwardii(Cape elephant shrew)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006901054.1	XP_006901116.1	FYVE, RhoGEF and PH domain-containing protein 5

Pathways from BioSystems
Gene Ontology

The following FGD5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FGD5 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
OEl57130	XM_006901054.1 Latest version!	Elephantulus edwardii FYVE, RhoGEF and PH domain containing 5 (FGD5), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$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)

FGD5 ( XM_006901054.1 ) cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew) -> XP_006901116.1 Elephantulus edwardii FYVE, RhoGEF and PH domain containing 5 (FGD5), mRNA.

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CloneID	OEl57130
Clone ID Related Accession (Same CDS sequence)	XM_006901054.1
Accession Version	XM_006901054.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4389bp) 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	2014-02-17
Organism	Elephantulus edwardii(Cape elephant shrew)
Product	FYVE, RhoGEF and PH domain-containing protein 5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006400056.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Elephantulus edwardii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTCAGGG GTCCAAAGCC TCCCATTGCC CCCAAACCCA GGCTGGGTGC CCCCCATGAG 
TGGCGATCAA GTGTGTACAT GAACAACAAC TTAAACAAGT GCAGCAATGG GAGGCTGCTC 
TGTGGAGACA GGGATCTTTA CAAAGGGCAC AGGTCCAACC TGGAGTGCTC TGAGCCAGAG 
GCAGATGAGG ACTACATCGT GGCCCCCTGT GTGCTGCCGA GAGAGGATGA GCCTGGGGAT 
GGGGGTTGTG CAGAGAATGA AATGTTGACG CCTATGGACC ATCCTGTGGA AGAGGAGCAT 
GACGAGGAGG GAGGTGAGGC ATGTGATGTG GAGTCATGTG ATGTGGAGGA GACGGAAGCT 
GCAGAGGACA TGGCTGCCCT GAGTGGAGGG AATGATGGAG GGATGGACCA GCCTCCTGAT 
GATGCAGCTG AGGATGAGGA CTGTGAGGAA GGAGGGGAAC ATACTGCCGC ACAAAGGGAG 
GAAGTGGAGC AGGCAGAAGA ACACAGTACA TGTGACCCAG AGGACAGGGA ACCTTGGGAT 
GGAGAGGAGG CCTGCCCAAG AGACAGTGTC CTGACCCCCG TCCAACTAGA GGATCCAGCA 
GCCCCTGAGG AGACAGCCAC ATCCCTTGAA GTCCCCAAGG AAGTGGAAGA AGAGGACAGT 
GAGAATGGCT GTATCACAGC AGAACCAGGC ACCCTAGATG AGCAAGTGGA CTCCAGCAGT 
CCTGCTGAGG TGGACACTGA AGATGTCCTT AAGGACCCAC CTTCGAATGC TGAGCCAGCG 
CAGGAGGAAT TGGCCTCAGG TCTCCAAGAA GCAGACATGG CTGGAGAAAA CCAGGATGTC 
TCTGAGGAGA CATGTGGAGA TGCCACAGAG TGTGATGTTC AGGCCGATGA TGCTCATCCT 
GACCTAGATG AGAACACTGG CGAGGAGGAA GATGTGGCCG TTCAGGAGAT ACACACAGAT 
CCTCAAATAA GTGAGGGCCC CATGGAGGAC GATCCTGCAG AAGAGAGCTG CCAGATTATT 
CCTTTTGAGA ATGATTCTGT TGACAACTTT GTGCCGTCCT TGACAGGAAG TCCTTATGAG 
TTCTTTCCAA CAGAGAGCAC ATCTTTCTGT AGTGAAAGCT ACCCACCTAC TTCCAGGTCA 
GCAGAACGTT TAGAGTCAGA GGAAGACCCT GAGGCTAGGA CTGTGTGCAG CCAGCAAGAC 
CCCTCAGAGG GGGCTATCTG TAAAGAGCCC TCTGTTCCTG AGGTGGTGGT CCTGCCAGAG 
GATGATGCAG GCCAGGGTGC CATGGATGAC TCGCTCACCA GCCCCTATGT GATGGGCATC 
AGCCTTGCAT GCCAGGCTGG CTGGAGTGAG GCGCAGGCTG GACCTGATTC TCCAGAAGAA 
AGCTCTGATG TGGACGCCAG CCTGCTTCCC ACTGACAGGA AGAACCTTGC TGCAAGAGCC 
CGGCCTCACT CTGGCAAGGT AGCTGGCTAT GTCCCAGAAA CGGTCCCCGA AGAAACCGGA 
GCAGAATCCA GCTCCACAGC CTCTGGGAGT GGAAGCACCA TCGCAGAGGC CAGAAAAATG 
GGCTTATCAC TTGAGGGAAA GCCTCCAGAA GCTTCTGGGA GGGCCTTGCC AGCCAAACCC 
AGGGCCTTCA CTCTGTATCC GAGGTCATTC TCTGTGGAAG GCCGAGAGAT TCCATTTTCC 
CTGTTCCATG AGCCAGAAGG AACTGGGTTA GATGAGCATC GAATCAAAGG GAAGGAGGAC 
AACCTTTCTC TGCCTTGTGT GATTGGCTCT TCTGGAAGCT TCTCCCAAAG AAACCACCTC 
TCCTCCAGTG GCACATCCAC CCCGTCATCC GTGGTGGACA TCCCACCTCC TTTTGACCTG 
GCCTGCATCA CCAAGAAGCC TGTTACTAAG AGCTCACCTT CACTTCTGGT GGAGAGTGAC 
TCCCTGGATA AGTACCCCAA GAAGAAGAAG TCATCCTTTA AGCAGTTCCT GGCACTGACA 
TTCAAGAAGA AGACAGAGAG TAAAGTGCAT GTGGAGGTGA ATGTGTCCTC CTCCCGGTCC 
TCCTCAGAGT CCAGCTACCA CGGGCCTGCC CGACTCCTGG AGATGGACCG CAGGAGCCTT 
AGTAACTCAC CGCAGCTCAA GTCTCGGACC GGGAAGCTCC GGGCTTCTGA GTCTCCCTCC 
TCCCTCATCT TCTATAGAGA TGCCAAGAAG AGAGGCGTCC CCTTCAGCAG GACGGTGTCC 
AGAGTGGAGT CCTTCGAAGA CCGCTCCCGG CCTCCCTTCC TGCCATTGCC ACTGACCAAA 
CCACGGTCCA TCTCGTTCCC CAATGCAGAC ACGTCAGACT ATGAGAACAT TCCAGCTATG 
AATGCAGACT ATGAGAATAT CCAGATTCTG CCCCGGAGGC CTGCAAGGGC TGGGACTTTC 
ACAAAGCTCT TTGAAGATCA GAGCAGAGCC CTGTCCACGG CGAATGAAAA CGATGGCTAT 
GTGGACATGA GCAGCTTCAA TGCCTTTGAG AGCAAGCAGC CAAGTGTGGA CCAGGACGCG 
GAAAGCGCCT ACACAGAGCC CTACAAGGTC TGCCCCATCT CCACAGTAGC CCCTAAAGAG 
GACATCACGT CGGATGAAGA GCAGGGGAGC TCAGAGGAGG AGGAGAGTGC TCTAAGAGAC 
CCCAGCCTCA CCAACAAGGT GGAAGGACAG TCCAGAGCCC ATGTCATCGT GCAGGAACTA 
CTATCTTCAG AGAAAGTATA CTTGGAGATG CTCCAGCACT TACATCGGGA TTTCCACGGA 
GCTGTCATGA GAACCTTGGA TGAGATGGAC CAAGAAGGCA AGGACACGCT GTCCAGGGAG 
GCACTGCGGC TTGGTCTGAG CCACCTTCCG GCCATCCATG ACCTGCACCA GGGGATTCTG 
GAGGAGCTGG AGGAGAGGCT GGCACAGTGG GAGGGCCAGC AGAAGGTGGC TGACGTCTTC 
CTGGCTCGAG AGCTGGAGTT TGACCACCAT GCCGCTCACA TCTTACAGTT CGACAGGTAC 
CTGGGTCTGC TTGCTGAGAA CTGCCTCCAC GCTCCGCGGC TGGCAGCTGC TGTCCGCGAG 
TATGAGCAGA ATTCACAAGG AGGTGGCCAG AGTGTGAAGC ATCGAATGCT GAGGGTGGTC 
CAGCGCCTTT TCCAGTATCA AGTGCTCCTC ACAGACTATT TAAATAACCT TTGCCCGGAC 
TCGGCAGAGT ACGAGAACAC TCAGGGCGCA CTGACCCTCA TCTCCAAAGT CACAGACCGT 
GTCAATGACA GCATGGAGCA AGGGGAAAAT CTGCAGAAGC TGGTCCACAT CGAGCACAGC 
GTCCAGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG 
ATGAAAGTCA CAAGAAAAAA CAGACGCCCC CGGCACCTGT TTTTGATGAG TGATGTGCTT 
CTCTACACCT ACCCCCAGAA GGATGGCAAG TACCGGCTGA AGAGCACGTT GGCCGTGACC 
AGCATGAAGG TCAGCCGCCC TGTGATGGAA AAAGTGCCCT ACGCTCTAAG GATCGAGACT 
TCTGAGTCCT GCCTGACGTT ATCTGCAAGC TCCTGTGCAG AGAGGGATGA GTGGTACAGC 
TGCCTCAACA GAGCCCTTCC TGAGGACTAC AAGGCGCAGG CCCTGGCTGC ATTCCACCAC 
AGTATGGAGA TGCGGGAGCG ACTGGGGGTG AACCTAGGGG AGCGGCCCCC CACCCTGGTG 
CCTGTCACAC ACGTCATGAT GTGTATGAAC TGTGGCTGTG ACTTCTCCCT CACTCTGAGG 
CGCCATCACT GCCACGCCTG CGGCAAGATT GTGTGCCGCA ACTGTTCACG AAATAAGTAC 
CCTCTCAAGT ACCTCAAAGA CCGCATGGCC AAGGTCTGTG ATGGCTGCTA CGGGAAGCTG 
AAGAAGAGGG GCGGGGACAT CCCAGGCCTG ATGAAAGAGC GGCCTGTGAG CATGAGCTTC 
CCTCTGTCCT CACCCCGATT CTCAAGCAGT GCCTTCTCAT CCGTCTTCCA TAGCATCAAC 
TCCTCAACTT TCAAGAAACC GAAGAAGGTC CCTTCTGCGC TAGCCGAGGT GGCTGCTTCT 
GGAGAGGGCT GTGCCATCAG CGGCTATCTC AGCAGATATA AGAAGGGCAA GAGACACTGG 
AAGAAGCTCT GGTTTGTCAT CAAAGGCAAA GTTCTCTATA CCTACATGGC CAGCGAGGAC 
AAAGTGGCCA TGGAGAGTAT GCCTCTGCTG GGTTTCACCA TTGCTCCAGA GAAGGAAGAG 
GGCAGCAGTG AAGTAGGACC AATTTTTCAC CTTTACCACA AGAAAACTCT ATTTTATAGC 
TTCAAAGCAG AAGATACCAG TTCAGCTCGG AGATGGATTG AGGCCATGGA AGATGCCAGT 
GTGTTATAG

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

RefSeq	XP_006901116.1
CDS	1..4389
Translation	MLRGPKPPIAPKPRLGAPHEWRSSVYMNNNLNKCSNGRLLCGDRDLYKGHRSNLECSEPEADEDYIVAPCVLPREDEPGDGGCAENEMLTPMDHPVEEEHDEEGGEACDVESCDVEETEAAEDMAALSGGNDGGMDQPPDDAAEDEDCEEGGEHTAAQREEVEQAEEHSTCDPEDREPWDGEEACPRDSVLTPVQLEDPAAPEETATSLEVPKEVEEEDSENGCITAEPGTLDEQVDSSSPAEVDTEDVLKDPPSNAEPAQEELASGLQEADMAGENQDVSEETCGDATECDVQADDAHPDLDENTGEEEDVAVQEIHTDPQISEGPMEDDPAEESCQIIPFENDSVDNFVPSLTGSPYEFFPTESTSFCSESYPPTSRSAERLESEEDPEARTVCSQQDPSEGAICKEPSVPEVVVLPEDDAGQGAMDDSLTSPYVMGISLACQAGWSEAQAGPDSPEESSDVDASLLPTDRKNLAARARPHSGKVAGYVPETVPEETGAESSSTASGSGSTIAEARKMGLSLEGKPPEASGRALPAKPRAFTLYPRSFSVEGREIPFSLFHEPEGTGLDEHRIKGKEDNLSLPCVIGSSGSFSQRNHLSSSGTSTPSSVVDIPPPFDLACITKKPVTKSSPSLLVESDSLDKYPKKKKSSFKQFLALTFKKKTESKVHVEVNVSSSRSSSESSYHGPARLLEMDRRSLSNSPQLKSRTGKLRASESPSSLIFYRDAKKRGVPFSRTVSRVESFEDRSRPPFLPLPLTKPRSISFPNADTSDYENIPAMNADYENIQILPRRPARAGTFTKLFEDQSRALSTANENDGYVDMSSFNAFESKQPSVDQDAESAYTEPYKVCPISTVAPKEDITSDEEQGSSEEEESALRDPSLTNKVEGQSRAHVIVQELLSSEKVYLEMLQHLHRDFHGAVMRTLDEMDQEGKDTLSREALRLGLSHLPAIHDLHQGILEELEERLAQWEGQQKVADVFLARELEFDHHAAHILQFDRYLGLLAENCLHAPRLAAAVREYEQNSQGGGQSVKHRMLRVVQRLFQYQVLLTDYLNNLCPDSAEYENTQGALTLISKVTDRVNDSMEQGENLQKLVHIEHSVQGQGDLLQPGREFLKEGTLMKVTRKNRRPRHLFLMSDVLLYTYPQKDGKYRLKSTLAVTSMKVSRPVMEKVPYALRIETSESCLTLSASSCAERDEWYSCLNRALPEDYKAQALAAFHHSMEMRERLGVNLGERPPTLVPVTHVMMCMNCGCDFSLTLRRHHCHACGKIVCRNCSRNKYPLKYLKDRMAKVCDGCYGKLKKRGGDIPGLMKERPVSMSFPLSSPRFSSSAFSSVFHSINSSTFKKPKKVPSALAEVAASGEGCAISGYLSRYKKGKRHWKKLWFVIKGKVLYTYMASEDKVAMESMPLLGFTIAPEKEEGSSEVGPIFHLYHKKTLFYSFKAEDTSSARRWIEAMEDASVL

Target ORF information:

RefSeq Version	XM_006901054.1
Organism	Elephantulus edwardii(Cape elephant shrew)
Definition	Elephantulus edwardii FYVE, RhoGEF and PH domain containing 5 (FGD5), mRNA.

Target ORF information:

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

XM_006901054.1

ORF Insert Sequence:

ATGCTCAGGG GTCCAAAGCC TCCCATTGCC CCCAAACCCA GGCTGGGTGC CCCCCATGAG 
TGGCGATCAA GTGTGTACAT GAACAACAAC TTAAACAAGT GCAGCAATGG GAGGCTGCTC 
TGTGGAGACA GGGATCTTTA CAAAGGGCAC AGGTCCAACC TGGAGTGCTC TGAGCCAGAG 
GCAGATGAGG ACTACATCGT GGCCCCCTGT GTGCTGCCGA GAGAGGATGA GCCTGGGGAT 
GGGGGTTGTG CAGAGAATGA AATGTTGACG CCTATGGACC ATCCTGTGGA AGAGGAGCAT 
GACGAGGAGG GAGGTGAGGC ATGTGATGTG GAGTCATGTG ATGTGGAGGA GACGGAAGCT 
GCAGAGGACA TGGCTGCCCT GAGTGGAGGG AATGATGGAG GGATGGACCA GCCTCCTGAT 
GATGCAGCTG AGGATGAGGA CTGTGAGGAA GGAGGGGAAC ATACTGCCGC ACAAAGGGAG 
GAAGTGGAGC AGGCAGAAGA ACACAGTACA TGTGACCCAG AGGACAGGGA ACCTTGGGAT 
GGAGAGGAGG CCTGCCCAAG AGACAGTGTC CTGACCCCCG TCCAACTAGA GGATCCAGCA 
GCCCCTGAGG AGACAGCCAC ATCCCTTGAA GTCCCCAAGG AAGTGGAAGA AGAGGACAGT 
GAGAATGGCT GTATCACAGC AGAACCAGGC ACCCTAGATG AGCAAGTGGA CTCCAGCAGT 
CCTGCTGAGG TGGACACTGA AGATGTCCTT AAGGACCCAC CTTCGAATGC TGAGCCAGCG 
CAGGAGGAAT TGGCCTCAGG TCTCCAAGAA GCAGACATGG CTGGAGAAAA CCAGGATGTC 
TCTGAGGAGA CATGTGGAGA TGCCACAGAG TGTGATGTTC AGGCCGATGA TGCTCATCCT 
GACCTAGATG AGAACACTGG CGAGGAGGAA GATGTGGCCG TTCAGGAGAT ACACACAGAT 
CCTCAAATAA GTGAGGGCCC CATGGAGGAC GATCCTGCAG AAGAGAGCTG CCAGATTATT 
CCTTTTGAGA ATGATTCTGT TGACAACTTT GTGCCGTCCT TGACAGGAAG TCCTTATGAG 
TTCTTTCCAA CAGAGAGCAC ATCTTTCTGT AGTGAAAGCT ACCCACCTAC TTCCAGGTCA 
GCAGAACGTT TAGAGTCAGA GGAAGACCCT GAGGCTAGGA CTGTGTGCAG CCAGCAAGAC 
CCCTCAGAGG GGGCTATCTG TAAAGAGCCC TCTGTTCCTG AGGTGGTGGT CCTGCCAGAG 
GATGATGCAG GCCAGGGTGC CATGGATGAC TCGCTCACCA GCCCCTATGT GATGGGCATC 
AGCCTTGCAT GCCAGGCTGG CTGGAGTGAG GCGCAGGCTG GACCTGATTC TCCAGAAGAA 
AGCTCTGATG TGGACGCCAG CCTGCTTCCC ACTGACAGGA AGAACCTTGC TGCAAGAGCC 
CGGCCTCACT CTGGCAAGGT AGCTGGCTAT GTCCCAGAAA CGGTCCCCGA AGAAACCGGA 
GCAGAATCCA GCTCCACAGC CTCTGGGAGT GGAAGCACCA TCGCAGAGGC CAGAAAAATG 
GGCTTATCAC TTGAGGGAAA GCCTCCAGAA GCTTCTGGGA GGGCCTTGCC AGCCAAACCC 
AGGGCCTTCA CTCTGTATCC GAGGTCATTC TCTGTGGAAG GCCGAGAGAT TCCATTTTCC 
CTGTTCCATG AGCCAGAAGG AACTGGGTTA GATGAGCATC GAATCAAAGG GAAGGAGGAC 
AACCTTTCTC TGCCTTGTGT GATTGGCTCT TCTGGAAGCT TCTCCCAAAG AAACCACCTC 
TCCTCCAGTG GCACATCCAC CCCGTCATCC GTGGTGGACA TCCCACCTCC TTTTGACCTG 
GCCTGCATCA CCAAGAAGCC TGTTACTAAG AGCTCACCTT CACTTCTGGT GGAGAGTGAC 
TCCCTGGATA AGTACCCCAA GAAGAAGAAG TCATCCTTTA AGCAGTTCCT GGCACTGACA 
TTCAAGAAGA AGACAGAGAG TAAAGTGCAT GTGGAGGTGA ATGTGTCCTC CTCCCGGTCC 
TCCTCAGAGT CCAGCTACCA CGGGCCTGCC CGACTCCTGG AGATGGACCG CAGGAGCCTT 
AGTAACTCAC CGCAGCTCAA GTCTCGGACC GGGAAGCTCC GGGCTTCTGA GTCTCCCTCC 
TCCCTCATCT TCTATAGAGA TGCCAAGAAG AGAGGCGTCC CCTTCAGCAG GACGGTGTCC 
AGAGTGGAGT CCTTCGAAGA CCGCTCCCGG CCTCCCTTCC TGCCATTGCC ACTGACCAAA 
CCACGGTCCA TCTCGTTCCC CAATGCAGAC ACGTCAGACT ATGAGAACAT TCCAGCTATG 
AATGCAGACT ATGAGAATAT CCAGATTCTG CCCCGGAGGC CTGCAAGGGC TGGGACTTTC 
ACAAAGCTCT TTGAAGATCA GAGCAGAGCC CTGTCCACGG CGAATGAAAA CGATGGCTAT 
GTGGACATGA GCAGCTTCAA TGCCTTTGAG AGCAAGCAGC CAAGTGTGGA CCAGGACGCG 
GAAAGCGCCT ACACAGAGCC CTACAAGGTC TGCCCCATCT CCACAGTAGC CCCTAAAGAG 
GACATCACGT CGGATGAAGA GCAGGGGAGC TCAGAGGAGG AGGAGAGTGC TCTAAGAGAC 
CCCAGCCTCA CCAACAAGGT GGAAGGACAG TCCAGAGCCC ATGTCATCGT GCAGGAACTA 
CTATCTTCAG AGAAAGTATA CTTGGAGATG CTCCAGCACT TACATCGGGA TTTCCACGGA 
GCTGTCATGA GAACCTTGGA TGAGATGGAC CAAGAAGGCA AGGACACGCT GTCCAGGGAG 
GCACTGCGGC TTGGTCTGAG CCACCTTCCG GCCATCCATG ACCTGCACCA GGGGATTCTG 
GAGGAGCTGG AGGAGAGGCT GGCACAGTGG GAGGGCCAGC AGAAGGTGGC TGACGTCTTC 
CTGGCTCGAG AGCTGGAGTT TGACCACCAT GCCGCTCACA TCTTACAGTT CGACAGGTAC 
CTGGGTCTGC TTGCTGAGAA CTGCCTCCAC GCTCCGCGGC TGGCAGCTGC TGTCCGCGAG 
TATGAGCAGA ATTCACAAGG AGGTGGCCAG AGTGTGAAGC ATCGAATGCT GAGGGTGGTC 
CAGCGCCTTT TCCAGTATCA AGTGCTCCTC ACAGACTATT TAAATAACCT TTGCCCGGAC 
TCGGCAGAGT ACGAGAACAC TCAGGGCGCA CTGACCCTCA TCTCCAAAGT CACAGACCGT 
GTCAATGACA GCATGGAGCA AGGGGAAAAT CTGCAGAAGC TGGTCCACAT CGAGCACAGC 
GTCCAGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG 
ATGAAAGTCA CAAGAAAAAA CAGACGCCCC CGGCACCTGT TTTTGATGAG TGATGTGCTT 
CTCTACACCT ACCCCCAGAA GGATGGCAAG TACCGGCTGA AGAGCACGTT GGCCGTGACC 
AGCATGAAGG TCAGCCGCCC TGTGATGGAA AAAGTGCCCT ACGCTCTAAG GATCGAGACT 
TCTGAGTCCT GCCTGACGTT ATCTGCAAGC TCCTGTGCAG AGAGGGATGA GTGGTACAGC 
TGCCTCAACA GAGCCCTTCC TGAGGACTAC AAGGCGCAGG CCCTGGCTGC ATTCCACCAC 
AGTATGGAGA TGCGGGAGCG ACTGGGGGTG AACCTAGGGG AGCGGCCCCC CACCCTGGTG 
CCTGTCACAC ACGTCATGAT GTGTATGAAC TGTGGCTGTG ACTTCTCCCT CACTCTGAGG 
CGCCATCACT GCCACGCCTG CGGCAAGATT GTGTGCCGCA ACTGTTCACG AAATAAGTAC 
CCTCTCAAGT ACCTCAAAGA CCGCATGGCC AAGGTCTGTG ATGGCTGCTA CGGGAAGCTG 
AAGAAGAGGG GCGGGGACAT CCCAGGCCTG ATGAAAGAGC GGCCTGTGAG CATGAGCTTC 
CCTCTGTCCT CACCCCGATT CTCAAGCAGT GCCTTCTCAT CCGTCTTCCA TAGCATCAAC 
TCCTCAACTT TCAAGAAACC GAAGAAGGTC CCTTCTGCGC TAGCCGAGGT GGCTGCTTCT 
GGAGAGGGCT GTGCCATCAG CGGCTATCTC AGCAGATATA AGAAGGGCAA GAGACACTGG 
AAGAAGCTCT GGTTTGTCAT CAAAGGCAAA GTTCTCTATA CCTACATGGC CAGCGAGGAC 
AAAGTGGCCA TGGAGAGTAT GCCTCTGCTG GGTTTCACCA TTGCTCCAGA GAAGGAAGAG 
GGCAGCAGTG AAGTAGGACC AATTTTTCAC CTTTACCACA AGAAAACTCT ATTTTATAGC 
TTCAAAGCAG AAGATACCAG TTCAGCTCGG AGATGGATTG AGGCCATGGA AGATGCCAGT 
GTGTTATAG