EIF3A cDNA ORF clone, Microcebus murinus(gray mouse lemur)

Gene
Clones
gRNAs

Summary

Gene Symbol	EIF3A
Entrez Gene ID	105857042
Full Name	eukaryotic translation initiation factor 3 subunit A
Gene Type	protein-coding
Organism	Microcebus murinus(gray mouse lemur)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012739145.1	XP_012594599.1	LOW QUALITY PROTEIN: eukaryotic translation initiation factor 3 subunit A

Pathways from BioSystems
Gene Ontology

The following EIF3A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EIF3A 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
OMi63557	XM_012739145.1 Latest version!	Microcebus murinus eukaryotic translation initiation factor 3 subunit A (EIF3A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

EIF3A ( XM_012739145.1 ) cDNA ORF clone, Microcebus murinus(gray mouse lemur) -> XP_012594599.1 Microcebus murinus eukaryotic translation initiation factor 3 subunit A (EIF3A), mRNA.

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CloneID	OMi63557
Clone ID Related Accession (Same CDS sequence)	XM_012739145.1
Accession Version	XM_012739145.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4143bp) 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	2017-02-23
Organism	Microcebus murinus(gray mouse lemur)
Product	LOW QUALITY PROTEIN: eukaryotic translation initiation factor 3 subunit A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_033674.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Microcebus murinus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGCCGGCCT ATTTCCAGAG GCCGGAAAAT GCCCTCAAAC GCGCCAACGA ATTTCTTGAG 
GTTGGCAAAA AGCAACCTGC TCTGGATGTT CTTTATGATG TTATGAAAAG CAAGAAACAT 
AGAACATGGC AAAAGATACA TGAGCCAATT ATGTTGAAAT ACTTGGAACT TTGCGTGGAT 
CTTCGCAAGA GTCACTTGGC TAAGGAAGGA TTGTACCAGT ATAAGAACAT TTGTCAACAG 
GTGAACATCA AATCTCTAGA GGATGTCGTT AGGGCATATT TGAAACTGGC AGAGGAAAAA 
ACTGAAGCTG CTAAAGAAGA ATCTCAGCAG ATGGTCTTAG ACATCGAGGA TCTGGATAAT 
ATTCAAACTC CTGAGAGTGT TCTCCTAAGT GCTGTAAGTG GTGAAGACAC TCAGGATCGT 
ACTGACAGAT TACTTTTAAC TCCATGGGTT AAATTCCTGT GGGAATCATA TAGACAGTGT 
TTGGACCTTC TTCGAAACAA TTCTAGAGTA GAGCGCCTTT ACCATGATAT TGCCCAACAA 
GCTTTCAAAT TCTGCCTCCA ATACACCCGT AAGGCTGATT CGGAAGCTTG TGACAATNTG 
AGAATGCACT TAGCACAGAT TCAGCGCCAC CATAACCAAA GTACAGCAAT CAATCTTAAC 
AATCCAGAGA GCCAGTCCAT GCATTTGGAA ACCAGGCTTG TTCAGTTGGA CAGTGCTATT 
AGCATGGAAT TGTGGCAGGA AGCATTCAAA GCTGTGGAGG ATATTCATGG GCTGTTCTCC 
TTGTCTAAAA AACCACCTAA ACCTCAGTTG ATGGCAAATT ACTATAACAA AGTCTCAACC 
GTGTTTTGGA AATCTGGAAA TGCTCTTTTT CATGCATCTA CACTCCATCG TCTTTACCAT 
CTATCTCGAG AAATGAGAAA GAATCTTACA CAAGATGAGA TGCAAAGAAT GTCTACGAGA 
GTCCTTTTGG CCACTCTTTC CATCCCTATT ACCCCTGAGC GTACCGATAT TGCTCGACTT 
CTGGACATGG ATGGCATTAT AGTTGAGAAA CAACGTCGCC TTGCCACATT ATTAGGTCTT 
CAAGCCCCAC CGACACGAAT TGGCCTTATT AATGATATGG TCAGATTCAA TGTACTACAG 
TATGTTGTCC CAGAAGTGAA AGACCTCTAC AATTGGCTGG AAGTAGAATT TAACCCCCTA 
AAACTCTGTG AGAGAGTTAC AAAGGTTCTA AATTGGGTTA GGGAACAACC TGAAAAAGAA 
CCAGAATTGC AACAGTATGT GCCACAGCTG CAAAACAACA CCATACTCCG CCTTCTGCAA 
CAGGTGGCAC AAATTTATCA GAGCATTGAA TTTTCTCGTT TGACTTCTCT GGTTCCTTTT 
GTTGATGCTT TCCAACTGGA ACGGGCCATA GTAGATGCAG CCAGACACTG TGACCTGCAG 
GTTCGTATTG ACCACACTTC CCGGACCTTG AGTTTTGGAT CTGATTTGAA TTATGCTACT 
CGAGAAGATG CTCCAATTGG TCCACATTTG CAGAGCATGC CTTCAGAGCA GATAAGAAAT 
CAGCTGACAG CCATGTCCTC AGTGCTTGCA AAAGCACTTG AAGTCATTAA GCCAGCTCAT 
ATATTGCAAG AGAAAGAAGA ACAACATCAG TTGGCTGTTA CTGCATACCT TAAAAATTCA 
CGAAAAGAGC ATCAACGTAT CCTGGCTCGA CGTCAGACAA TCGAGGAAAG AAAAGAGCGG 
CTTGAGAGTT TAAATATTCA GCGTGAGAAA GAAGAATTGG AGCAGAGGGA AGCTGAACTC 
CAGAAAGTAC GGAAGGCTGA GGAAGAGAGG TTGCGCCAGG AGGCAAAGGA GAGAGAGAAG 
GAACGTATCT TACAGGAACA TGAACAAATC AAAAAGAAAA CTGTTCGTGA GCGTTTGGAA 
CAGATCAAGA AAACAGAACT GGGTGCCAAA GCATTCAAGG ATATCGACAT TGAAGACCTT 
GAAGAATTAG ATCCAGATTT CATCATGGCT AAACAAGTTG AACAGCTAGA GAAAGAAAAG 
AAGGAACTTC AGGAACGCCT AAAGAATCAA GAAAAGAAGA TTGACTATTT TGAAAGAGCT 
AAACGTTTGG AAGAAATTCC GTTGATAAAG AGTGCTTATG AGGAACAGAG AATTAAAGAC 
ATGGATCTGT GGGAACAACA GGAAGAAGAA AGAATTACTA CCATGCAGCT AGAACGTGAA 
AAGGCTCTTG AACATAAGAA CCGAATGTCA CGAATGCTTG AAGACAGAGA TTTATTTGTA 
ATGCGACTCA AAGCAGCACG GCAGTCTGTT TATGAGGAAA AACTTAAACA GTTTGAAGAG 
CGATTAGCAG AAGAAAGGCA TAATCGCTTA GAAGAACGGA AAAGGCAACG TAAAGAAGAA 
CGCAGAATAA CTTACTATAG AGAAAAAGAG GAGGAGGAAC AGAGGAGGGC AGAAGAACAA 
ATGCTAAAAG AGCGTGAAGA GAGAGAGCGT GCTGAGCGAG CAAAGCGGGA GGAAGAGCTA 
CGAGAATATC AGGAGCGTGT CAAGAAATTA GAAGAAGTAG AAAGAAAAAA ACGCCAGAGA 
GAGTTGGAAA TTGAAGAAAG AGAACGTCGT AGAGAGGAAG AGAGAAGACT TGGTGATGAT 
CCACTTTCTA GAAAGGACTC TCGTTGGGGA GATAGAGATT CAGAAAGCAC ATGGAGAAAA 
GGACCTGAAG CGGATTCTGA GTGGAGAAGA GGCCCACCAG AGAAGGAGTG GAGACGGGGA 
GAAGGACGGG ATGAGGAGAG GCCTCACAGA AGAGATGAAG AGCGACCACG GCGCTTGGGG 
GATGATGAAG ACAGAGAATC TTCTCTTAGA CCAGATGATG ATCGAATCCC CCGGCGTGGC 
ATGGATGATG ACAGAGGCCC TAGGCGTGGC ATGGATGATG ACAGAGGCCC TAGGCGTGCC 
ATAGATGATG ACAGAGGCCC TAGGCGTGCC ATAGATGATG ACAGAGGCCC TAGACGTGGT 
CCTGATGAAG ATCGATTTTC TCGCCGAGTG GCAGATGACG ACCGGCCTTC CTGGCGTAAT 
ACAGAGGACG ACAGGCCTCC CAGACGAATT GGTGATGAAG AGAGGGCTGG TTGGCGGCAT 
GCAGATGATG ACAGACCACC TAGACGGGGA CTGGATGAGG ACAGAGGAAG TTGGCGAACA 
GCTGATGAGG ACAGAGGACC CAGACGTGGG ATGGATGAGG ACCGGGGGCC GAGGCGAGGA 
GGAGGTGCTG ATGATGACCG ACCATCCTGG CGGAATACTG ATGATGACCG AGGGCCCCGG 
CGGGGCATGG ATGATGACCG GGGACCGAGG CGAGGCTTAG ATGATGATCG AGGACCTTGG 
AGGAATGCCG ACGATGATAG AATTTCCAGG CGTGGTGCAG ATGATGATAG GGGGCCTTGG 
AGAAACATGG ATGATGATCG GATCTCAAGA CGGGCAGATG ACGATCGCAT TCCTAGACGG 
GGTGATGAGT CAAGGCCTGG TCCCTGGAGA CCATTTGTCA AGCCAGGTGG ATGGAGAGAG 
AAAGAAAAAG CCAGAGAAGA GAGTTGGGGT CCACCCCGAG AATCAAGACC ATCGGAAGAC 
CGTGAATGGG ACAGAGAAAA AGAAAGGGAC AGAGACAATC AAGATCGTGA GGAGAATGAC 
AAGGAACCTG AGAGAGAAAG AGATAGGGAG AGAGATGGGG AGCGAGAAGA TCGCTTCAGA 
AGACCTAGGG ATGAAGGTGG CTGGAGGAGG GGACCAGCTG AAGAATCATC CAGCTGGAGA 
GATTCAGGTC GCCGGGATGA CAGGGATAGG GATGACCGTC GTCGTGAGAG AGATGATCGC 
CGTGATCTAA GACGAGATCT AAGAGATGAC AGAGATCGGA GAGGACCTCC TCTCAGATCA 
GAGCGTGAAG AAGTAAGTTC CTGGAGACGT GCCGATGACA GAAAAGATGA CCGGGCAGAA 
GAGCGGGATC CTCCTCGTCG TGTTCCTCCT CCAGCTCTTT CAAGAGATCG AGAAAGAGAC 
CGAGACCGAG AAAGAGAAGG TGAAAAGGAG AAGTCCTCAT GGAGAGCTGA GAAAGATAGG 
GAATCTCTTC GTCGTACTAA AAATGAGACT GATGAAGATG GATGGACCAC AGTACGACGT 
TAA

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

RefSeq	XP_012594599.1
CDS	197..4339
Translation	MPAYFQRPENALKRANEFLEVGKKQPALDVLYDVMKSKKHRTWQKIHEPIMLKYLELCVDLRKSHLAKEGLYQYKNICQQVNIKSLEDVVRAYLKLAEEKTEAAKEESQQMVLDIEDLDNIQTPESVLLSAVSGEDTQDRTDRLLLTPWVKFLWESYRQCLDLLRNNSRVERLYHDIAQQAFKFCLQYTRKADSEACDNnullRMHLAQIQRHHNQSTAINLNNPESQSMHLETRLVQLDSAISMELWQEAFKAVEDIHGLFSLSKKPPKPQLMANYYNKVSTVFWKSGNALFHASTLHRLYHLSREMRKNLTQDEMQRMSTRVLLATLSIPITPERTDIARLLDMDGIIVEKQRRLATLLGLQAPPTRIGLINDMVRFNVLQYVVPEVKDLYNWLEVEFNPLKLCERVTKVLNWVREQPEKEPELQQYVPQLQNNTILRLLQQVAQIYQSIEFSRLTSLVPFVDAFQLERAIVDAARHCDLQVRIDHTSRTLSFGSDLNYATREDAPIGPHLQSMPSEQIRNQLTAMSSVLAKALEVIKPAHILQEKEEQHQLAVTAYLKNSRKEHQRILARRQTIEERKERLESLNIQREKEELEQREAELQKVRKAEEERLRQEAKEREKERILQEHEQIKKKTVRERLEQIKKTELGAKAFKDIDIEDLEELDPDFIMAKQVEQLEKEKKELQERLKNQEKKIDYFERAKRLEEIPLIKSAYEEQRIKDMDLWEQQEEERITTMQLEREKALEHKNRMSRMLEDRDLFVMRLKAARQSVYEEKLKQFEERLAEERHNRLEERKRQRKEERRITYYREKEEEEQRRAEEQMLKEREERERAERAKREEELREYQERVKKLEEVERKKRQRELEIEERERRREEERRLGDDPLSRKDSRWGDRDSESTWRKGPEADSEWRRGPPEKEWRRGEGRDEERPHRRDEERPRRLGDDEDRESSLRPDDDRIPRRGMDDDRGPRRGMDDDRGPRRAIDDDRGPRRAIDDDRGPRRGPDEDRFSRRVADDDRPSWRNTEDDRPPRRIGDEERAGWRHADDDRPPRRGLDEDRGSWRTADEDRGPRRGMDEDRGPRRGGGADDDRPSWRNTDDDRGPRRGMDDDRGPRRGLDDDRGPWRNADDDRISRRGADDDRGPWRNMDDDRISRRADDDRIPRRGDESRPGPWRPFVKPGGWREKEKAREESWGPPRESRPSEDREWDREKERDRDNQDREENDKEPERERDRERDGEREDRFRRPRDEGGWRRGPAEESSSWRDSGRRDDRDRDDRRRERDDRRDLRRDLRDDRDRRGPPLRSEREEVSSWRRADDRKDDRAEERDPPRRVPPPALSRDRERDRDREREGEKEKSSWRAEKDRESLRRTKNETDEDGWTTVRR

Target ORF information:

RefSeq Version	XM_012739145.1
Organism	Microcebus murinus(gray mouse lemur)
Definition	Microcebus murinus eukaryotic translation initiation factor 3 subunit A (EIF3A), mRNA.

Target ORF information:

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

XM_012739145.1

ORF Insert Sequence:

ATGCCGGCCT ATTTCCAGAG GCCGGAAAAT GCCCTCAAAC GCGCCAACGA ATTTCTTGAG 
GTTGGCAAAA AGCAACCTGC TCTGGATGTT CTTTATGATG TTATGAAAAG CAAGAAACAT 
AGAACATGGC AAAAGATACA TGAGCCAATT ATGTTGAAAT ACTTGGAACT TTGCGTGGAT 
CTTCGCAAGA GTCACTTGGC TAAGGAAGGA TTGTACCAGT ATAAGAACAT TTGTCAACAG 
GTGAACATCA AATCTCTAGA GGATGTCGTT AGGGCATATT TGAAACTGGC AGAGGAAAAA 
ACTGAAGCTG CTAAAGAAGA ATCTCAGCAG ATGGTCTTAG ACATCGAGGA TCTGGATAAT 
ATTCAAACTC CTGAGAGTGT TCTCCTAAGT GCTGTAAGTG GTGAAGACAC TCAGGATCGT 
ACTGACAGAT TACTTTTAAC TCCATGGGTT AAATTCCTGT GGGAATCATA TAGACAGTGT 
TTGGACCTTC TTCGAAACAA TTCTAGAGTA GAGCGCCTTT ACCATGATAT TGCCCAACAA 
GCTTTCAAAT TCTGCCTCCA ATACACCCGT AAGGCTGATT CGGAAGCTTG TGACAATNTG 
AGAATGCACT TAGCACAGAT TCAGCGCCAC CATAACCAAA GTACAGCAAT CAATCTTAAC 
AATCCAGAGA GCCAGTCCAT GCATTTGGAA ACCAGGCTTG TTCAGTTGGA CAGTGCTATT 
AGCATGGAAT TGTGGCAGGA AGCATTCAAA GCTGTGGAGG ATATTCATGG GCTGTTCTCC 
TTGTCTAAAA AACCACCTAA ACCTCAGTTG ATGGCAAATT ACTATAACAA AGTCTCAACC 
GTGTTTTGGA AATCTGGAAA TGCTCTTTTT CATGCATCTA CACTCCATCG TCTTTACCAT 
CTATCTCGAG AAATGAGAAA GAATCTTACA CAAGATGAGA TGCAAAGAAT GTCTACGAGA 
GTCCTTTTGG CCACTCTTTC CATCCCTATT ACCCCTGAGC GTACCGATAT TGCTCGACTT 
CTGGACATGG ATGGCATTAT AGTTGAGAAA CAACGTCGCC TTGCCACATT ATTAGGTCTT 
CAAGCCCCAC CGACACGAAT TGGCCTTATT AATGATATGG TCAGATTCAA TGTACTACAG 
TATGTTGTCC CAGAAGTGAA AGACCTCTAC AATTGGCTGG AAGTAGAATT TAACCCCCTA 
AAACTCTGTG AGAGAGTTAC AAAGGTTCTA AATTGGGTTA GGGAACAACC TGAAAAAGAA 
CCAGAATTGC AACAGTATGT GCCACAGCTG CAAAACAACA CCATACTCCG CCTTCTGCAA 
CAGGTGGCAC AAATTTATCA GAGCATTGAA TTTTCTCGTT TGACTTCTCT GGTTCCTTTT 
GTTGATGCTT TCCAACTGGA ACGGGCCATA GTAGATGCAG CCAGACACTG TGACCTGCAG 
GTTCGTATTG ACCACACTTC CCGGACCTTG AGTTTTGGAT CTGATTTGAA TTATGCTACT 
CGAGAAGATG CTCCAATTGG TCCACATTTG CAGAGCATGC CTTCAGAGCA GATAAGAAAT 
CAGCTGACAG CCATGTCCTC AGTGCTTGCA AAAGCACTTG AAGTCATTAA GCCAGCTCAT 
ATATTGCAAG AGAAAGAAGA ACAACATCAG TTGGCTGTTA CTGCATACCT TAAAAATTCA 
CGAAAAGAGC ATCAACGTAT CCTGGCTCGA CGTCAGACAA TCGAGGAAAG AAAAGAGCGG 
CTTGAGAGTT TAAATATTCA GCGTGAGAAA GAAGAATTGG AGCAGAGGGA AGCTGAACTC 
CAGAAAGTAC GGAAGGCTGA GGAAGAGAGG TTGCGCCAGG AGGCAAAGGA GAGAGAGAAG 
GAACGTATCT TACAGGAACA TGAACAAATC AAAAAGAAAA CTGTTCGTGA GCGTTTGGAA 
CAGATCAAGA AAACAGAACT GGGTGCCAAA GCATTCAAGG ATATCGACAT TGAAGACCTT 
GAAGAATTAG ATCCAGATTT CATCATGGCT AAACAAGTTG AACAGCTAGA GAAAGAAAAG 
AAGGAACTTC AGGAACGCCT AAAGAATCAA GAAAAGAAGA TTGACTATTT TGAAAGAGCT 
AAACGTTTGG AAGAAATTCC GTTGATAAAG AGTGCTTATG AGGAACAGAG AATTAAAGAC 
ATGGATCTGT GGGAACAACA GGAAGAAGAA AGAATTACTA CCATGCAGCT AGAACGTGAA 
AAGGCTCTTG AACATAAGAA CCGAATGTCA CGAATGCTTG AAGACAGAGA TTTATTTGTA 
ATGCGACTCA AAGCAGCACG GCAGTCTGTT TATGAGGAAA AACTTAAACA GTTTGAAGAG 
CGATTAGCAG AAGAAAGGCA TAATCGCTTA GAAGAACGGA AAAGGCAACG TAAAGAAGAA 
CGCAGAATAA CTTACTATAG AGAAAAAGAG GAGGAGGAAC AGAGGAGGGC AGAAGAACAA 
ATGCTAAAAG AGCGTGAAGA GAGAGAGCGT GCTGAGCGAG CAAAGCGGGA GGAAGAGCTA 
CGAGAATATC AGGAGCGTGT CAAGAAATTA GAAGAAGTAG AAAGAAAAAA ACGCCAGAGA 
GAGTTGGAAA TTGAAGAAAG AGAACGTCGT AGAGAGGAAG AGAGAAGACT TGGTGATGAT 
CCACTTTCTA GAAAGGACTC TCGTTGGGGA GATAGAGATT CAGAAAGCAC ATGGAGAAAA 
GGACCTGAAG CGGATTCTGA GTGGAGAAGA GGCCCACCAG AGAAGGAGTG GAGACGGGGA 
GAAGGACGGG ATGAGGAGAG GCCTCACAGA AGAGATGAAG AGCGACCACG GCGCTTGGGG 
GATGATGAAG ACAGAGAATC TTCTCTTAGA CCAGATGATG ATCGAATCCC CCGGCGTGGC 
ATGGATGATG ACAGAGGCCC TAGGCGTGGC ATGGATGATG ACAGAGGCCC TAGGCGTGCC 
ATAGATGATG ACAGAGGCCC TAGGCGTGCC ATAGATGATG ACAGAGGCCC TAGACGTGGT 
CCTGATGAAG ATCGATTTTC TCGCCGAGTG GCAGATGACG ACCGGCCTTC CTGGCGTAAT 
ACAGAGGACG ACAGGCCTCC CAGACGAATT GGTGATGAAG AGAGGGCTGG TTGGCGGCAT 
GCAGATGATG ACAGACCACC TAGACGGGGA CTGGATGAGG ACAGAGGAAG TTGGCGAACA 
GCTGATGAGG ACAGAGGACC CAGACGTGGG ATGGATGAGG ACCGGGGGCC GAGGCGAGGA 
GGAGGTGCTG ATGATGACCG ACCATCCTGG CGGAATACTG ATGATGACCG AGGGCCCCGG 
CGGGGCATGG ATGATGACCG GGGACCGAGG CGAGGCTTAG ATGATGATCG AGGACCTTGG 
AGGAATGCCG ACGATGATAG AATTTCCAGG CGTGGTGCAG ATGATGATAG GGGGCCTTGG 
AGAAACATGG ATGATGATCG GATCTCAAGA CGGGCAGATG ACGATCGCAT TCCTAGACGG 
GGTGATGAGT CAAGGCCTGG TCCCTGGAGA CCATTTGTCA AGCCAGGTGG ATGGAGAGAG 
AAAGAAAAAG CCAGAGAAGA GAGTTGGGGT CCACCCCGAG AATCAAGACC ATCGGAAGAC 
CGTGAATGGG ACAGAGAAAA AGAAAGGGAC AGAGACAATC AAGATCGTGA GGAGAATGAC 
AAGGAACCTG AGAGAGAAAG AGATAGGGAG AGAGATGGGG AGCGAGAAGA TCGCTTCAGA 
AGACCTAGGG ATGAAGGTGG CTGGAGGAGG GGACCAGCTG AAGAATCATC CAGCTGGAGA 
GATTCAGGTC GCCGGGATGA CAGGGATAGG GATGACCGTC GTCGTGAGAG AGATGATCGC 
CGTGATCTAA GACGAGATCT AAGAGATGAC AGAGATCGGA GAGGACCTCC TCTCAGATCA 
GAGCGTGAAG AAGTAAGTTC CTGGAGACGT GCCGATGACA GAAAAGATGA CCGGGCAGAA 
GAGCGGGATC CTCCTCGTCG TGTTCCTCCT CCAGCTCTTT CAAGAGATCG AGAAAGAGAC 
CGAGACCGAG AAAGAGAAGG TGAAAAGGAG AAGTCCTCAT GGAGAGCTGA GAAAGATAGG 
GAATCTCTTC GTCGTACTAA AAATGAGACT GATGAAGATG GATGGACCAC AGTACGACGT 
TAA