FMN2 cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew)

Gene
Clones
gRNAs

Summary

Gene Symbol	FMN2
Entrez Gene ID	102866062
Full Name	formin 2
Gene Type	protein-coding
Organism	Elephantulus edwardii(Cape elephant shrew)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006901560.1	XP_006901622.1	formin-2-like

Pathways from BioSystems
Gene Ontology

The following FMN2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FMN2 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
OEl57630	XM_006901560.1 Latest version!	Elephantulus edwardii formin 2 (FMN2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

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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)

FMN2 ( XM_006901560.1 ) cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew) -> XP_006901622.1 Elephantulus edwardii formin 2 (FMN2), mRNA.

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CloneID	OEl57630
Clone ID Related Accession (Same CDS sequence)	XM_006901560.1
Accession Version	XM_006901560.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4809bp) 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	formin-2-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006400081.1) 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##

ATGGGGAATC AAGAAGGGAA GCTCAAGAGG AGCGCCGGGG ATGCGTCGCA CGAAGGCGGC 
GGCGGCGGTG AGGATGCGCT CGGGCCCAGG GACGTGGATG GCACAAAGAA GGGGAGCGCA 
GGCAAGAGGA CGCCTGGCAA ACATGGCAAG GGCGCGGGGG GAAGCACGGA GCCTGGCAAG 
AAGAAGAGCA AGTCGGACTC CAGAGCCTCG GTCTTCTCCA ACCTGCGGAT CAGGAAGAAC 
CAGTCCAAGA CGAAGGGCTC TGGGGGCTCC CGCGAGGACG CTCTGGACGC GCAGGCCCTG 
CAGAGCGGGG AGCTGGACAG CGCTCACTCG CTAGTCACCA AGACCCCTGA TCTCAGCCTC 
TCGGCGGACG AGACGGGCCT TTCGGACACC GAGTGTGCGG ACCCTTTCCA GGTGACCCGT 
CCGCGGAGTC CTGGCCCCAC CGACGCTGGC ATTGGTGTCC AGGCGGCGGT CGTGGATTTG 
GAGACTGCTG CAGGGGCGCA GGATGGACAA AGGACCAGCT CGGGCTCGGA CACGGACATC 
TACAGCTTCC ACTCGGCCGC GGAGCAGGAA GATCTGCTGT CCGACATCCA GCAGGCGATC 
CGCCTGCAGC AGCAGCAGCT CCTGCAGGGC GCGGGGGATA CCGCAGCGCC CCCGGTTGCC 
TCCTCGCCGC CTGGGGCCTT CCTGGGCCTC GATCGGTTCC TGCTGGGGCC GAGCGGGGCT 
GGTGAAACCA CTGGCTGCCC AGCCCCCGAG CAGACTCTAC CCGCGCTCGT CCACCTCCCC 
GGGAGCCGGG GCACCGAGTC CCTGGGGGAT GAGCCTCCAC CGGCCCCCAC TGGCCGCTTG 
GACTCTGAAG CGCCCTCGGT TCCCGAGGCC CAGACCCCGG CCTTCGCCTT CCCCGGGCCC 
CGCGCGGCGG AGGGCGCGGC CGGAGCTGCG ACGCTGGAGG CCGAGGACAC CGAGGAGGAG 
GAGGAGGATG CCTTTGAGGA TGCTCCCCGA GGCTCCCCCG GAGAGGACTG GGGCCACGGG 
CTCCGGGAGG CCACGCCGAG GCCGGAGAAG GAGCCTGAGG AGAGGGCGAG TGGGCCCGTG 
ACACCCACCG CCGTCTCCCT CCCGGGAAGC CCGGCCCCGA GCCCGCGCTG CTTCAAGCCC 
TATCCGCTGG CCACCCCCTG CTACATCAAG ACCACCACCC GACAGCTCAG CTCGCCCAAC 
CACTCCCCGG CGCCGTCCCC AAGCCAGAGC CCCCGGATCC AGCGGCGCCC TGAACCCCCT 
CTGAGCCGAG GGCCCAGGTC TGCTCTCGCC AAGACGCAGC GCGCCGACGG GGGTCCGGGC 
TCCGGCCTCA GCCGTTCAGC GGACTGGACT GAGGAGCTGG ATTCCCGCGA GCCCGGAGTA 
GGCGGCTCCG CGGACCTGCT GGAGCGTAGG GCGGCCGCAG ACGGCGTGGC CCGGGGGTCC 
GCCGAGCTGC TCAGTAAGGT TGGGGCGCAG ACGGCTGTGG ACGGCTTCCA GAACGTATTC 
ACAGGGCGAA CTCTGCTGGA GAAGTTGTTC AGCCAGCAAG AGGATGCACC TCCAGAAGAA 
GCAGAGAAGT TCTGCTCCCG GATCATTGCC CTGGGTCTTC TGCTTCCTTT CAGTGACTGC 
TTCCGGGAAC CATGTCACCA GCACCCCCAG TCGAGTGCAG CTCCATTTGA TCAAGATCAG 
CTGTATACCT GGGCTGCAGT CAGCCAACCC ACACACTCCC TGGATTACAC AGAAGGGCAG 
TTTCCCAGGC GAACCTCATC TGTTTGGCCT CTTTCTAAAT CTTCTGATGA AGACCATAAA 
CCCAAGGATG CTGAAACAGA ATCTCCATTT GCTGTTTTGG GATCTCTGGG AAAATGTTCA 
GATGCTGTGG AGCCGGACGT TCCTGACGTG AAGTCTGAAG GCCAGGCGAC TGTGATTCAG 
CAGCTAGAGC AGACCATTGA GGATCTGAGG ACCAAAATTG CTGAGCTAGA GAAGCAGTAC 
CCTGCAGTGG ACATGGATGT GGCCATGGGC CGCCATGGGG ATGGAAATGG AGTCATGCTT 
GTAAAAGACA TCTGCCTCGA AGTTCTCAGG CCAGGAGAAA AGGATGCGCA ACATTCAAGG 
ATTTTAGAGG CAAAATCAAT ACAGACTTCT CCTACAGAAG AGGGCAGGTT TCCTGCTGCT 
CCTTTTGTGG ATGCACTGCC AGAGCATCTT GCACACCCAC CAGCGTCTGA GAGTATGGAG 
TTGGTCACCC CATCCTCAGC TTCTGGACCT CAGACAACAT TCTGCTCAGA GATTTCCTTG 
ATTGTGTCCC CAAAACTAAT AGCAGTGAAA CTTGACACAC CTCAGTGTGT GCTGAGTGCA 
CCACAGCCTC CGCCACCTGC ATCCCTTCCA TGGCCTGGCG CTCCAGGGCA GCCCGGGTCA 
CAGCCTTGCC AGCCCTCTCT TAGTACTGAC TTGGAAAGCA GCCATGATGA TGCTGCAAAC 
AGCTGTGGCA TCCCACCCAC ACCACCCCTG CCTTGTGTAG AGTCTTCCAG CTCCATGGTT 
GGCCTGGGCC CTGGGGTTCT GCCCCCTCCC CCTCCTCTAA CTATTGAGAG ACTGCCCACT 
CCTCCACCTC TGCCAGATGC CCACCTCGCC CTTTCTACAC CTCCCATTCC TCCACTGCCA 
GGTATAGGAG TACCTCCTCC CCCACCTCTG CCTGGTGTGG GCATACCCCC AGGCCCTCCT 
CTGCCTGGTG TGGGCATAAC TCCTCCCCCA CCTCTGCCTG GTGTGGGTAT ACCTCCTCCC 
CCACCTCTGC CTGGTGTGGG TATACCTCCT CCCCCACCTC TGCCTGGTGT GGGTATACCT 
CCTCCCCCAC CTCTGCCTGG TGTGGGGATA CCCCCAGCCC CTCCTCTGCC TGGTGTGGGT 
ATACCTCCTC CCCCACCTCT GCCTGGTGTG GGTATACCTC CTCCCCCACC TCTGCCTGGT 
GTGGGCATAC CTCCTCCCCC ACCTCTGCCT GGTGTGGGCA TACCNNNNNN NNNNNNNNNN 
NNNNNNNNNN NCATACCCCC ACCCCCCCCT CTGCCTGGTG TGGGTATACC TCCTCCCCCA 
CCTCTGCCTG GTGTGGGTAT ACCCCCACCT CCTCCTCTAC CTGGATTAGG TATACCCCCA 
CCCCCTCCTC TACCTAATAC GGACATACCC CCACCTCATC CTCCACTGCC TGGAGTGGAC 
ATACCCCTAG CCCCTCCTCT ACCTGGTGTG AGCATACCCC CGCCTCCTCC TCTACCTGGT 
GTGAGCATAC CCCGGCCTCC TCCTCTACCT GGTATGAGCA TACCCCCGCC TCCTCCTCTA 
CCTGGTGTGA GCATGCCCCC TCCTCCACCA CTTCCTGGGG TTGGGATTCC TCTTCCTGGC 
TCAAGCCCTC CTCCCCCACC TCAAGCTGGG AGTAGCACTT TACCAGCACC ACAAGTGTGT 
GGATTTCTTC CTCCTCCTTT GCCATCGGGC TTATTCGGAT TTGGAGTGGG TCAGGACAGA 
GGAAGCAGGA AGCAGCCAAT TGAGCCCTGC CGGCCGATGA AGCCCCTTTA CTGGACCAGA 
ATCCAGCTGC ATAGCAAAAG AGACTCAAGC CCTTCACTTA TTTGGGAAAA AATTGAAGAG 
CCATCCATAG ATTGCCATGA ATTTGAGGAA TTATTTTCTA AATCTGCTGT AAAGGAGAGG 
AAGAAACCTA TTTCTGACAC CATCACGAAG ACTAAAGCTA AACAAGTTGT TAAGTTATTA 
AGCAACAAAA GATCACAAGC AGTTGGAATA TTAATGTCTA GTCTCCATTT AGATATGAAA 
GACATACAGC ATGCTGTTGT GAACTTGGAC AATTCTGTGG TTGACCTAGA GACCCTTCAA 
GCTCTCTATG AAAATAGAGC ACAGTCAGAC GAGCTGGAGA AGATTGAAAA GCACAGTCGA 
TCATCCAAAG ACAAGGAAAA CGCCAAGTCT CTGGACAAAC CTGAACAGTT CCTTTATGAA 
CTATCCCTAA TCCCCAACTT CTCAGAGCGC GTCTTCTGCA TCTTGTTCCA GTCCACATTT 
ACAGAAAGCA TATGTTCCAT TCGTCGCAAA CTGGAATTAC TGCAGAAATT ATGTGAGACA 
CTGAAAAATG GCTCTGGAGT TATGAGTGTT TTGGGTTTGA TTCTTGCCTT TGGCAACTAC 
ATGAATGGTG GAAACAAGAC TCGGGGACAG GCAGATGGCT TTGGATTAGA CATTCTGCCA 
AAGCTTAAAG ATGTCAAAAG CATTGATAAT AGCAGAAGCC TTTTATCATA CATTGTTTCA 
TATTATCTTC GAAATTTTGA TGAGGATGCT GGAAAAGAAC AGTGTGTCTT TCCACTGCCA 
GAACCCCAAG ACCTTTTCCA GGCCTCACAG ATGAAGTTTG AAGATTTTCA AAAAGATCTG 
AGAAAATTAA AGAAAGACTT GAAAGTCTGT GAAGTTGAAG CAGGGAAAGT GTACCAGGTA 
TCCTCACAAG AACACATCCA ACCTTTCAAA GAAAACATGG AACAATTTAT TATTCAAGCT 
AAAATTGACC AAGAGAGAGA GGAGAATTCA CTGACAGAGA CTCATAAATG CTTTTTGGAG 
ACAACAGCCT ATTTCTTCAT GAAGCCAAAG ATTGGAGAGA AGGAAGTGTC CCCAAATGTT 
TTCTTCAGTA TCTGGCATGA ATTCAGCTCT GACTTCAAAG ACTTTTGGAA GAAAGAGAAC 
AAGCTCATTC TACAAGAGAG AGTAAAAGAA GCTGAGGAGG TATGCAGACA GAAAAAGGGG 
AAATCGCTCT ATAAGATAAA GCCACGGCAT GATTCGGGAA TTAAAGCAAA GATAAGCATG 
AAAACCTGA

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

RefSeq	XP_006901622.1
CDS	1..4809
Translation	MGNQEGKLKRSAGDASHEGGGGGEDALGPRDVDGTKKGSAGKRTPGKHGKGAGGSTEPGKKKSKSDSRASVFSNLRIRKNQSKTKGSGGSREDALDAQALQSGELDSAHSLVTKTPDLSLSADETGLSDTECADPFQVTRPRSPGPTDAGIGVQAAVVDLETAAGAQDGQRTSSGSDTDIYSFHSAAEQEDLLSDIQQAIRLQQQQLLQGAGDTAAPPVASSPPGAFLGLDRFLLGPSGAGETTGCPAPEQTLPALVHLPGSRGTESLGDEPPPAPTGRLDSEAPSVPEAQTPAFAFPGPRAAEGAAGAATLEAEDTEEEEEDAFEDAPRGSPGEDWGHGLREATPRPEKEPEERASGPVTPTAVSLPGSPAPSPRCFKPYPLATPCYIKTTTRQLSSPNHSPAPSPSQSPRIQRRPEPPLSRGPRSALAKTQRADGGPGSGLSRSADWTEELDSREPGVGGSADLLERRAAADGVARGSAELLSKVGAQTAVDGFQNVFTGRTLLEKLFSQQEDAPPEEAEKFCSRIIALGLLLPFSDCFREPCHQHPQSSAAPFDQDQLYTWAAVSQPTHSLDYTEGQFPRRTSSVWPLSKSSDEDHKPKDAETESPFAVLGSLGKCSDAVEPDVPDVKSEGQATVIQQLEQTIEDLRTKIAELEKQYPAVDMDVAMGRHGDGNGVMLVKDICLEVLRPGEKDAQHSRILEAKSIQTSPTEEGRFPAAPFVDALPEHLAHPPASESMELVTPSSASGPQTTFCSEISLIVSPKLIAVKLDTPQCVLSAPQPPPPASLPWPGAPGQPGSQPCQPSLSTDLESSHDDAANSCGIPPTPPLPCVESSSSMVGLGPGVLPPPPPLTIERLPTPPPLPDAHLALSTPPIPPLPGIGVPPPPPLPGVGIPPGPPLPGVGITPPPPLPGVGIPPPPPLPGVGIPPPPPLPGVGIPPPPPLPGVGIPPAPPLPGVGIPPPPPLPGVGIPPPPPLPGVGIPPPPPLPGVGInullnullnullnullnullnullnullnullnullnullIPPPPPLPGVGIPPPPPLPGVGIPPPPPLPGLGIPPPPPLPNTDIPPPHPPLPGVDIPLAPPLPGVSIPPPPPLPGVSIPRPPPLPGMSIPPPPPLPGVSMPPPPPLPGVGIPLPGSSPPPPPQAGSSTLPAPQVCGFLPPPLPSGLFGFGVGQDRGSRKQPIEPCRPMKPLYWTRIQLHSKRDSSPSLIWEKIEEPSIDCHEFEELFSKSAVKERKKPISDTITKTKAKQVVKLLSNKRSQAVGILMSSLHLDMKDIQHAVVNLDNSVVDLETLQALYENRAQSDELEKIEKHSRSSKDKENAKSLDKPEQFLYELSLIPNFSERVFCILFQSTFTESICSIRRKLELLQKLCETLKNGSGVMSVLGLILAFGNYMNGGNKTRGQADGFGLDILPKLKDVKSIDNSRSLLSYIVSYYLRNFDEDAGKEQCVFPLPEPQDLFQASQMKFEDFQKDLRKLKKDLKVCEVEAGKVYQVSSQEHIQPFKENMEQFIIQAKIDQEREENSLTETHKCFLETTAYFFMKPKIGEKEVSPNVFFSIWHEFSSDFKDFWKKENKLILQERVKEAEEVCRQKKGKSLYKIKPRHDSGIKAKISMKT

Target ORF information:

RefSeq Version	XM_006901560.1
Organism	Elephantulus edwardii(Cape elephant shrew)
Definition	Elephantulus edwardii formin 2 (FMN2), mRNA.

Target ORF information:

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

XM_006901560.1

ORF Insert Sequence:

ATGGGGAATC AAGAAGGGAA GCTCAAGAGG AGCGCCGGGG ATGCGTCGCA CGAAGGCGGC 
GGCGGCGGTG AGGATGCGCT CGGGCCCAGG GACGTGGATG GCACAAAGAA GGGGAGCGCA 
GGCAAGAGGA CGCCTGGCAA ACATGGCAAG GGCGCGGGGG GAAGCACGGA GCCTGGCAAG 
AAGAAGAGCA AGTCGGACTC CAGAGCCTCG GTCTTCTCCA ACCTGCGGAT CAGGAAGAAC 
CAGTCCAAGA CGAAGGGCTC TGGGGGCTCC CGCGAGGACG CTCTGGACGC GCAGGCCCTG 
CAGAGCGGGG AGCTGGACAG CGCTCACTCG CTAGTCACCA AGACCCCTGA TCTCAGCCTC 
TCGGCGGACG AGACGGGCCT TTCGGACACC GAGTGTGCGG ACCCTTTCCA GGTGACCCGT 
CCGCGGAGTC CTGGCCCCAC CGACGCTGGC ATTGGTGTCC AGGCGGCGGT CGTGGATTTG 
GAGACTGCTG CAGGGGCGCA GGATGGACAA AGGACCAGCT CGGGCTCGGA CACGGACATC 
TACAGCTTCC ACTCGGCCGC GGAGCAGGAA GATCTGCTGT CCGACATCCA GCAGGCGATC 
CGCCTGCAGC AGCAGCAGCT CCTGCAGGGC GCGGGGGATA CCGCAGCGCC CCCGGTTGCC 
TCCTCGCCGC CTGGGGCCTT CCTGGGCCTC GATCGGTTCC TGCTGGGGCC GAGCGGGGCT 
GGTGAAACCA CTGGCTGCCC AGCCCCCGAG CAGACTCTAC CCGCGCTCGT CCACCTCCCC 
GGGAGCCGGG GCACCGAGTC CCTGGGGGAT GAGCCTCCAC CGGCCCCCAC TGGCCGCTTG 
GACTCTGAAG CGCCCTCGGT TCCCGAGGCC CAGACCCCGG CCTTCGCCTT CCCCGGGCCC 
CGCGCGGCGG AGGGCGCGGC CGGAGCTGCG ACGCTGGAGG CCGAGGACAC CGAGGAGGAG 
GAGGAGGATG CCTTTGAGGA TGCTCCCCGA GGCTCCCCCG GAGAGGACTG GGGCCACGGG 
CTCCGGGAGG CCACGCCGAG GCCGGAGAAG GAGCCTGAGG AGAGGGCGAG TGGGCCCGTG 
ACACCCACCG CCGTCTCCCT CCCGGGAAGC CCGGCCCCGA GCCCGCGCTG CTTCAAGCCC 
TATCCGCTGG CCACCCCCTG CTACATCAAG ACCACCACCC GACAGCTCAG CTCGCCCAAC 
CACTCCCCGG CGCCGTCCCC AAGCCAGAGC CCCCGGATCC AGCGGCGCCC TGAACCCCCT 
CTGAGCCGAG GGCCCAGGTC TGCTCTCGCC AAGACGCAGC GCGCCGACGG GGGTCCGGGC 
TCCGGCCTCA GCCGTTCAGC GGACTGGACT GAGGAGCTGG ATTCCCGCGA GCCCGGAGTA 
GGCGGCTCCG CGGACCTGCT GGAGCGTAGG GCGGCCGCAG ACGGCGTGGC CCGGGGGTCC 
GCCGAGCTGC TCAGTAAGGT TGGGGCGCAG ACGGCTGTGG ACGGCTTCCA GAACGTATTC 
ACAGGGCGAA CTCTGCTGGA GAAGTTGTTC AGCCAGCAAG AGGATGCACC TCCAGAAGAA 
GCAGAGAAGT TCTGCTCCCG GATCATTGCC CTGGGTCTTC TGCTTCCTTT CAGTGACTGC 
TTCCGGGAAC CATGTCACCA GCACCCCCAG TCGAGTGCAG CTCCATTTGA TCAAGATCAG 
CTGTATACCT GGGCTGCAGT CAGCCAACCC ACACACTCCC TGGATTACAC AGAAGGGCAG 
TTTCCCAGGC GAACCTCATC TGTTTGGCCT CTTTCTAAAT CTTCTGATGA AGACCATAAA 
CCCAAGGATG CTGAAACAGA ATCTCCATTT GCTGTTTTGG GATCTCTGGG AAAATGTTCA 
GATGCTGTGG AGCCGGACGT TCCTGACGTG AAGTCTGAAG GCCAGGCGAC TGTGATTCAG 
CAGCTAGAGC AGACCATTGA GGATCTGAGG ACCAAAATTG CTGAGCTAGA GAAGCAGTAC 
CCTGCAGTGG ACATGGATGT GGCCATGGGC CGCCATGGGG ATGGAAATGG AGTCATGCTT 
GTAAAAGACA TCTGCCTCGA AGTTCTCAGG CCAGGAGAAA AGGATGCGCA ACATTCAAGG 
ATTTTAGAGG CAAAATCAAT ACAGACTTCT CCTACAGAAG AGGGCAGGTT TCCTGCTGCT 
CCTTTTGTGG ATGCACTGCC AGAGCATCTT GCACACCCAC CAGCGTCTGA GAGTATGGAG 
TTGGTCACCC CATCCTCAGC TTCTGGACCT CAGACAACAT TCTGCTCAGA GATTTCCTTG 
ATTGTGTCCC CAAAACTAAT AGCAGTGAAA CTTGACACAC CTCAGTGTGT GCTGAGTGCA 
CCACAGCCTC CGCCACCTGC ATCCCTTCCA TGGCCTGGCG CTCCAGGGCA GCCCGGGTCA 
CAGCCTTGCC AGCCCTCTCT TAGTACTGAC TTGGAAAGCA GCCATGATGA TGCTGCAAAC 
AGCTGTGGCA TCCCACCCAC ACCACCCCTG CCTTGTGTAG AGTCTTCCAG CTCCATGGTT 
GGCCTGGGCC CTGGGGTTCT GCCCCCTCCC CCTCCTCTAA CTATTGAGAG ACTGCCCACT 
CCTCCACCTC TGCCAGATGC CCACCTCGCC CTTTCTACAC CTCCCATTCC TCCACTGCCA 
GGTATAGGAG TACCTCCTCC CCCACCTCTG CCTGGTGTGG GCATACCCCC AGGCCCTCCT 
CTGCCTGGTG TGGGCATAAC TCCTCCCCCA CCTCTGCCTG GTGTGGGTAT ACCTCCTCCC 
CCACCTCTGC CTGGTGTGGG TATACCTCCT CCCCCACCTC TGCCTGGTGT GGGTATACCT 
CCTCCCCCAC CTCTGCCTGG TGTGGGGATA CCCCCAGCCC CTCCTCTGCC TGGTGTGGGT 
ATACCTCCTC CCCCACCTCT GCCTGGTGTG GGTATACCTC CTCCCCCACC TCTGCCTGGT 
GTGGGCATAC CTCCTCCCCC ACCTCTGCCT GGTGTGGGCA TACCNNNNNN NNNNNNNNNN 
NNNNNNNNNN NCATACCCCC ACCCCCCCCT CTGCCTGGTG TGGGTATACC TCCTCCCCCA 
CCTCTGCCTG GTGTGGGTAT ACCCCCACCT CCTCCTCTAC CTGGATTAGG TATACCCCCA 
CCCCCTCCTC TACCTAATAC GGACATACCC CCACCTCATC CTCCACTGCC TGGAGTGGAC 
ATACCCCTAG CCCCTCCTCT ACCTGGTGTG AGCATACCCC CGCCTCCTCC TCTACCTGGT 
GTGAGCATAC CCCGGCCTCC TCCTCTACCT GGTATGAGCA TACCCCCGCC TCCTCCTCTA 
CCTGGTGTGA GCATGCCCCC TCCTCCACCA CTTCCTGGGG TTGGGATTCC TCTTCCTGGC 
TCAAGCCCTC CTCCCCCACC TCAAGCTGGG AGTAGCACTT TACCAGCACC ACAAGTGTGT 
GGATTTCTTC CTCCTCCTTT GCCATCGGGC TTATTCGGAT TTGGAGTGGG TCAGGACAGA 
GGAAGCAGGA AGCAGCCAAT TGAGCCCTGC CGGCCGATGA AGCCCCTTTA CTGGACCAGA 
ATCCAGCTGC ATAGCAAAAG AGACTCAAGC CCTTCACTTA TTTGGGAAAA AATTGAAGAG 
CCATCCATAG ATTGCCATGA ATTTGAGGAA TTATTTTCTA AATCTGCTGT AAAGGAGAGG 
AAGAAACCTA TTTCTGACAC CATCACGAAG ACTAAAGCTA AACAAGTTGT TAAGTTATTA 
AGCAACAAAA GATCACAAGC AGTTGGAATA TTAATGTCTA GTCTCCATTT AGATATGAAA 
GACATACAGC ATGCTGTTGT GAACTTGGAC AATTCTGTGG TTGACCTAGA GACCCTTCAA 
GCTCTCTATG AAAATAGAGC ACAGTCAGAC GAGCTGGAGA AGATTGAAAA GCACAGTCGA 
TCATCCAAAG ACAAGGAAAA CGCCAAGTCT CTGGACAAAC CTGAACAGTT CCTTTATGAA 
CTATCCCTAA TCCCCAACTT CTCAGAGCGC GTCTTCTGCA TCTTGTTCCA GTCCACATTT 
ACAGAAAGCA TATGTTCCAT TCGTCGCAAA CTGGAATTAC TGCAGAAATT ATGTGAGACA 
CTGAAAAATG GCTCTGGAGT TATGAGTGTT TTGGGTTTGA TTCTTGCCTT TGGCAACTAC 
ATGAATGGTG GAAACAAGAC TCGGGGACAG GCAGATGGCT TTGGATTAGA CATTCTGCCA 
AAGCTTAAAG ATGTCAAAAG CATTGATAAT AGCAGAAGCC TTTTATCATA CATTGTTTCA 
TATTATCTTC GAAATTTTGA TGAGGATGCT GGAAAAGAAC AGTGTGTCTT TCCACTGCCA 
GAACCCCAAG ACCTTTTCCA GGCCTCACAG ATGAAGTTTG AAGATTTTCA AAAAGATCTG 
AGAAAATTAA AGAAAGACTT GAAAGTCTGT GAAGTTGAAG CAGGGAAAGT GTACCAGGTA 
TCCTCACAAG AACACATCCA ACCTTTCAAA GAAAACATGG AACAATTTAT TATTCAAGCT 
AAAATTGACC AAGAGAGAGA GGAGAATTCA CTGACAGAGA CTCATAAATG CTTTTTGGAG 
ACAACAGCCT ATTTCTTCAT GAAGCCAAAG ATTGGAGAGA AGGAAGTGTC CCCAAATGTT 
TTCTTCAGTA TCTGGCATGA ATTCAGCTCT GACTTCAAAG ACTTTTGGAA GAAAGAGAAC 
AAGCTCATTC TACAAGAGAG AGTAAAAGAA GCTGAGGAGG TATGCAGACA GAAAAAGGGG 
AAATCGCTCT ATAAGATAAA GCCACGGCAT GATTCGGGAA TTAAAGCAAA GATAAGCATG 
AAAACCTGA