Carmil3 cDNA ORF clone, Castor canadensis(American beaver)

Gene
Clones
gRNAs

Summary

Gene Symbol	Carmil3
Entrez Gene ID	109697871
Full Name	capping protein regulator and myosin 1 linker 3
Gene Type	protein-coding
Organism	Castor canadensis(American beaver)

mRNA and Protein(s)

mRNA	Protein	Name
XM_020181765.1	XP_020037354.1	LOW QUALITY PROTEIN: capping protein, Arp2/3 and myosin-I linker protein 3

Pathways from BioSystems
Gene Ontology

The following Carmil3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Carmil3 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
OCa296907	XM_020181765.1 Latest version!	Castor canadensis capping protein regulator and myosin 1 linker 3 (Carmil3), 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)

Carmil3 ( XM_020181765.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020037354.1 Castor canadensis capping protein regulator and myosin 1 linker 3 (Carmil3), mRNA.

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CloneID	OCa296907
Clone ID Related Accession (Same CDS sequence)	XM_020181765.1
Accession Version	XM_020181765.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4116bp) 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	2017-02-14
Organism	Castor canadensis(American beaver)
Product	LOW QUALITY PROTEIN: capping protein, Arp2/3 and myosin-I linker protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017872149.1) 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 :: Castor canadensis Annotation Release 100 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 2 indels ##RefSeq-Attributes-END##

ATGGCCAAAA CCGGCGTGGA GCTCACCCGC GAGCTGCAAG ATAGCATTCG GAGGTGCCTG 
AGCCAAGGGG CTGTGCTCCA ACAACATCGT GTGAAGCTGG AGACAAAACC CAAGAAGTTT 
GAAGACCGAG TACTAGCTCT GACCTCCTGG CGCCTCCATC TCTTCCCCCT TAAAGTCCCT 
GCCAAGGTGG AGAGCTCCTT CAATGTCTTG GAGATCCGTG CCTTCAACAC ACTCAGTCAG 
AACCAGATCC TGGTGGAGAC AGAGCGTGGC ATGGTGAGCA TGAGGCTGCC ATCAGCTGAG 
AGTGTGGACC AGGTGACACG ACATGTGAGC TCTGCCCTCT CCAAGGTCTG CCCTGGCCCT 
GGGTGTTTGA TCCGCCGTGG AAACGCAGAC ACCCCAGAGG GGCCCCGAGA TACATCCCCC 
AACTCTNGAA CTTCCACATC TACCACTCAC AGTGTGTGTG GTGGCTTCTC TGAGACTTAT 
GCGGCCCTGT GTGACTACAA TGGGCTACAC TGCCGTGAGG AGGTGCAATG GGATGTGGAC 
ACCATCTACC ATGCTGAGGA TAACCGCGAG TTCAATCTTT TGGATTTCAG CCACTTGGAG 
AGCCGAGACC TGGCCCTAAT GGTGGCAGCC CTAGCCTACA ACCAGTGGTT CACCAAACTC 
TACTGCAAAG ACCTGCGGCT GGGCTCAGAA GTGCTAGAAC AGGTGCTACA TACCTTGAGC 
AAGTCGGGGA GCCTTGAAGA GCTGGTGCTG GACAATGCCG GGCTTAAGAC GGACTTTGTC 
CAGAAGCTGG CCGGGGTGTT TGGGGAGAAC GGGAGCTGTG TGCTGCATGC CCTCACTCTG 
TCCCACAACC CCATCGAAGA CAAGGGTTTC CTCAGTCTAA GCCAGCAGCT CCTCTGCTTC 
CCCACTGGCC TCACCAAGCT GTGCTTGGCC AAGACTGCCA TTTCCCCTCG AGGGCTCCAG 
GCGCTGGGCC AGACCTTTGG GGCCAACCCA GCCTTTGCCA GCTCCCTTCG ATACCTGGAC 
CTGAGCAAGA ACCCTGGGCT GCTCGCCACA GACGAAGCCA GTGCCCTGTA CAGTTTCCTA 
GCCCAGCCCA ATGCCCTGGT GCACCTGGAC CTGTCAGCAA CTGATTGCAC CGTCGACTTG 
CTTCTGGGTG CCCTGCTTCA TGGCTGCTGC TCCCACCTCA CCTACCTCAA CCTGGCTCGC 
AACAGCTGTT CCCACAGGAA GGGCCGGGAG GCCCCACCAG CCTTCAAGCA GTTCTTCAGC 
AGCGCCTACA CATTGAGCCA TGTCAACCTG TCGTCCACGA GGCTGCCCCT GGAGGCCCTC 
AGGGCACTGC TTCAGGGCCT CTCCCTCAAC AGTCACCTCA GCGATCTGCA CCTGGACCTC 
AGCAGCTGTG AGCTCCGCTC AGCAGGAGCC CAGGCCTTGC AGGAGCAGCT GGGGGCTGTA 
ACCTGTGTGG GAAGCCTAGA CCTGTCCGAC AATGGATTCG ACTCAGACCT CCTGACACTG 
GTGCCTGCCC TTGGCAAGAA CAAGTCCCTC AAGCATCTAT TCCTGGGCAA GAACTTCAAC 
GTCAAGGCCA AGATCCTGGA GGAGATCCTC CACAAGCTGG TGCAAATGAT CCAGGAAGAG 
GACTGTTCCC TGCAGTCACT GTCAGTGGCA GACTCCCGGC TGAAGCTTCG CACCAGCATC 
CTCATCAATG CCTTGGGCAG CAACACCTGC CTGGCCAAGG TGGACCTGAG CGGCAATGGC 
ATGGAAGACA TCGGAGCCAA GATGCTGTCT AAAGCCCTGC AGATAAACTC CTCCCTCAGA 
ACTATCCTAT GGGATCGGAA CAATACATCT GCCCTGGGTT TCCTAGACAT CGCCAGGGCC 
CTGGAGAGCA ACCATACACT GCGCTTCATG TCCTTTCCCG TGAGTGACAT CTCCCAAGCC 
TACCGCAGTG CCCCCGAGCG CACCGAGGAC GTCTGGCAGA AGATCCAGTG GTGCCTGGTG 
AGGAACAACC ACTCCCAGAC ATGCCCCCAG GAGCAGGCTT TCAGGCTGCA GCAGGGCCTG 
GTGACCAGCA GCGCCGAGCA AATGCTGCAG CGGCTGTGTG GACGAGTGCA GGAGGAGGTG 
CGGGCCCTGA GGTTGTGCCC CTTAGAGCCT GTGCAGGATG AACTGCTCTA TGCCCGGGAT 
CTCATCAAGG ATGCCAAGAA CTCTAGGGCG CTGTTTCCTA GTCTCTATGA GCTGGGCCAC 
GTGCTGGCCA ATGATGGCCC TGTGCGGCAA AGGCTTGAGT CAGTAGCCAG TGAGGTGTCC 
AAAGCTGTGG ACAAGGAGCT GCAGGTGATC CTGGAGTCCA TGGTCAGCCT AACGCAGGAG 
TTATGCCCTG TGGCCATGCG GGTGGCTGAG GGGCACAACA AGATGCTGAG CAATGTGGCA 
GAGCGCGTCA CTGTGCCCCG GAACTTCATT CGAGGGGCGC TGCTGGAGCA GGCGGGACAG 
GACATTCAGA ACAAGCTGGA TGAGGTGAAG CTCTCAGTCG TTACCTACTT GACCAACTCC 
ATAGTGGACG AGATCCTACA GGAGCTTTAC CACTCCCACA AGAGCCTGGC TCGGCACCTG 
ACCCAGCTAA GAACACTATC AGATCCACCA GGGGGGCCAG GTCAAGGGCA GGATCTATCC 
TCCCGAGGCC GAGGCCGGAA CCATGACCAT GAGGAGACCA CAGATGATGA ACTCGGGACC 
AACATCGACA CCATGGCCAT CAAAAAGCAG AAACGCTGCC GCAAGATCCG GCCAGTGTCT 
GCCTTCATCA GTGGAAGCCC TCAGGACATG GAAAGCCAAC TGGGGAACCT GGGAATTCCC 
CCTGGCTGGT TCTCAGGATT TGGGGGCATG CAGCCCACAG CTGGTAGCTC CTGGGAAGGT 
CTTTCTGAGC TGCCCACTCA TGGCTATAAA CTACGGCATC AAACACAAGG AAGACCCCGG 
CCCCCCAGGA CCACCCCACC AGGACCTGGT CGGCCCAGTG TACCAGTACC TGGGCCTCGT 
CAGGAGAACG GGGTGGCCAC CCGCCTGGAT GAGGGACTAG AGGACTTCTT CAGCCGAAGG 
GTCATGGATG AAAGTTCCAG CTACCCCCGG ACTCTGAGGA CTGTTCGGCC AGGCCTTTCT 
GAGCCACCGC TGCCTCCACT CCAGAAGAAG AGGCGCCGAG GCCTATTTCA CTTTCGCCGG 
CCCCGGAGCT TCAAAGGGGA CAGGGGGCCA GGGTCCCCCA CTGCTGGACT CCTCCTTCCT 
CCACCCCCAC CCCCACCCCC AACTCAGGAG AGCCCTCCCA GTCCAGATCC CCCAAGTCTA 
GGCAATAATT CCTCTCCCTG CTGGAGCCCA GAGGAAGATA GCAGCCTCCT GCCTGGATTT 
GGAGTGGGCC GGGGTCCTTC TTTCCGCAGA AAGATGGGCA CTGAAGGGTC GGAGCCTGGG 
GAGGGGGGCC CAGCTCCAGG GACAGCACAG CAGCCAAGAA TACACGGTGT TGCCCTTCCT 
GGTTTGGGAA GAGCCAAGGG TTGGAGCTTC GACGGGAAAC GAGAGGGCAC CGGCCCAGAC 
CTGGAGGACA GCTCCCAGGC TTGGCAGAAA CGGCGTTCGT CAGATGATGC GGGACCTGGA 
GCCTGGAAGC CCCCACCACC ACCCCAAAGC ACCAAGCCAA GCTTCAGTGC CATGCGCCGA 
GCAGAGGCCA CATGGCACAT AGCTGAGGAG AGTGCTCCCA ACCACAGCTG CCAGAGCCCT 
AGCCCGGCCT TCCAAGATGG AGAGGAAGAA NGAGGGACCT TATCCACAGA GAGGACAGTT 
CCAGCTAGGA ATGCCAAGCT GCAGGATCCT CCTTTAGCTC CACGCCCCCC CAAGCCAGTG 
GCTGTGCCCA GGGGTCGCTG TCCCCCCCAA GTGCCAGGGG GCAAGGAGGA GGCTGAGGCT 
GGGGGTGCAG CCCTAGGAGT TAACAAGCCC CGGATGAGAC TGGGCTCACA ACAGGATCAA 
GAGGAGCCAG AAGTTCAAGG GCCACCTGAT CCAAGCCGCC GAACAGCCCC TCTGAAGCCC 
AAGAGGACAC GTCGGGCACA GTCCTGTGAC AAGCTGGAAC CTGATAGAAG ACGGCCCCCT 
GACCCTGCAG GAACCAGTGA GCCAGGAACA GACTGA

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

RefSeq	XP_020037354.1
CDS	1..4116
Translation	MAKTGVELTRELQDSIRRCLSQGAVLQQHRVKLETKPKKFEDRVLALTSWRLHLFPLKVPAKVESSFNVLEIRAFNTLSQNQILVETERGMVSMRLPSAESVDQVTRHVSSALSKVCPGPGCLIRRGNADTPEGPRDTSPNSnullTSTSTTHSVCGGFSETYAALCDYNGLHCREEVQWDVDTIYHAEDNREFNLLDFSHLESRDLALMVAALAYNQWFTKLYCKDLRLGSEVLEQVLHTLSKSGSLEELVLDNAGLKTDFVQKLAGVFGENGSCVLHALTLSHNPIEDKGFLSLSQQLLCFPTGLTKLCLAKTAISPRGLQALGQTFGANPAFASSLRYLDLSKNPGLLATDEASALYSFLAQPNALVHLDLSATDCTVDLLLGALLHGCCSHLTYLNLARNSCSHRKGREAPPAFKQFFSSAYTLSHVNLSSTRLPLEALRALLQGLSLNSHLSDLHLDLSSCELRSAGAQALQEQLGAVTCVGSLDLSDNGFDSDLLTLVPALGKNKSLKHLFLGKNFNVKAKILEEILHKLVQMIQEEDCSLQSLSVADSRLKLRTSILINALGSNTCLAKVDLSGNGMEDIGAKMLSKALQINSSLRTILWDRNNTSALGFLDIARALESNHTLRFMSFPVSDISQAYRSAPERTEDVWQKIQWCLVRNNHSQTCPQEQAFRLQQGLVTSSAEQMLQRLCGRVQEEVRALRLCPLEPVQDELLYARDLIKDAKNSRALFPSLYELGHVLANDGPVRQRLESVASEVSKAVDKELQVILESMVSLTQELCPVAMRVAEGHNKMLSNVAERVTVPRNFIRGALLEQAGQDIQNKLDEVKLSVVTYLTNSIVDEILQELYHSHKSLARHLTQLRTLSDPPGGPGQGQDLSSRGRGRNHDHEETTDDELGTNIDTMAIKKQKRCRKIRPVSAFISGSPQDMESQLGNLGIPPGWFSGFGGMQPTAGSSWEGLSELPTHGYKLRHQTQGRPRPPRTTPPGPGRPSVPVPGPRQENGVATRLDEGLEDFFSRRVMDESSSYPRTLRTVRPGLSEPPLPPLQKKRRRGLFHFRRPRSFKGDRGPGSPTAGLLLPPPPPPPPTQESPPSPDPPSLGNNSSPCWSPEEDSSLLPGFGVGRGPSFRRKMGTEGSEPGEGGPAPGTAQQPRIHGVALPGLGRAKGWSFDGKREGTGPDLEDSSQAWQKRRSSDDAGPGAWKPPPPPQSTKPSFSAMRRAEATWHIAEESAPNHSCQSPSPAFQDGEEEnullGTLSTERTVPARNAKLQDPPLAPRPPKPVAVPRGRCPPQVPGGKEEAEAGGAALGVNKPRMRLGSQQDQEEPEVQGPPDPSRRTAPLKPKRTRRAQSCDKLEPDRRRPPDPAGTSEPGTD

Target ORF information:

RefSeq Version	XM_020181765.1
Organism	Castor canadensis(American beaver)
Definition	Castor canadensis capping protein regulator and myosin 1 linker 3 (Carmil3), mRNA.

Target ORF information:

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

XM_020181765.1

ORF Insert Sequence:

ATGGCCAAAA CCGGCGTGGA GCTCACCCGC GAGCTGCAAG ATAGCATTCG GAGGTGCCTG 
AGCCAAGGGG CTGTGCTCCA ACAACATCGT GTGAAGCTGG AGACAAAACC CAAGAAGTTT 
GAAGACCGAG TACTAGCTCT GACCTCCTGG CGCCTCCATC TCTTCCCCCT TAAAGTCCCT 
GCCAAGGTGG AGAGCTCCTT CAATGTCTTG GAGATCCGTG CCTTCAACAC ACTCAGTCAG 
AACCAGATCC TGGTGGAGAC AGAGCGTGGC ATGGTGAGCA TGAGGCTGCC ATCAGCTGAG 
AGTGTGGACC AGGTGACACG ACATGTGAGC TCTGCCCTCT CCAAGGTCTG CCCTGGCCCT 
GGGTGTTTGA TCCGCCGTGG AAACGCAGAC ACCCCAGAGG GGCCCCGAGA TACATCCCCC 
AACTCTNGAA CTTCCACATC TACCACTCAC AGTGTGTGTG GTGGCTTCTC TGAGACTTAT 
GCGGCCCTGT GTGACTACAA TGGGCTACAC TGCCGTGAGG AGGTGCAATG GGATGTGGAC 
ACCATCTACC ATGCTGAGGA TAACCGCGAG TTCAATCTTT TGGATTTCAG CCACTTGGAG 
AGCCGAGACC TGGCCCTAAT GGTGGCAGCC CTAGCCTACA ACCAGTGGTT CACCAAACTC 
TACTGCAAAG ACCTGCGGCT GGGCTCAGAA GTGCTAGAAC AGGTGCTACA TACCTTGAGC 
AAGTCGGGGA GCCTTGAAGA GCTGGTGCTG GACAATGCCG GGCTTAAGAC GGACTTTGTC 
CAGAAGCTGG CCGGGGTGTT TGGGGAGAAC GGGAGCTGTG TGCTGCATGC CCTCACTCTG 
TCCCACAACC CCATCGAAGA CAAGGGTTTC CTCAGTCTAA GCCAGCAGCT CCTCTGCTTC 
CCCACTGGCC TCACCAAGCT GTGCTTGGCC AAGACTGCCA TTTCCCCTCG AGGGCTCCAG 
GCGCTGGGCC AGACCTTTGG GGCCAACCCA GCCTTTGCCA GCTCCCTTCG ATACCTGGAC 
CTGAGCAAGA ACCCTGGGCT GCTCGCCACA GACGAAGCCA GTGCCCTGTA CAGTTTCCTA 
GCCCAGCCCA ATGCCCTGGT GCACCTGGAC CTGTCAGCAA CTGATTGCAC CGTCGACTTG 
CTTCTGGGTG CCCTGCTTCA TGGCTGCTGC TCCCACCTCA CCTACCTCAA CCTGGCTCGC 
AACAGCTGTT CCCACAGGAA GGGCCGGGAG GCCCCACCAG CCTTCAAGCA GTTCTTCAGC 
AGCGCCTACA CATTGAGCCA TGTCAACCTG TCGTCCACGA GGCTGCCCCT GGAGGCCCTC 
AGGGCACTGC TTCAGGGCCT CTCCCTCAAC AGTCACCTCA GCGATCTGCA CCTGGACCTC 
AGCAGCTGTG AGCTCCGCTC AGCAGGAGCC CAGGCCTTGC AGGAGCAGCT GGGGGCTGTA 
ACCTGTGTGG GAAGCCTAGA CCTGTCCGAC AATGGATTCG ACTCAGACCT CCTGACACTG 
GTGCCTGCCC TTGGCAAGAA CAAGTCCCTC AAGCATCTAT TCCTGGGCAA GAACTTCAAC 
GTCAAGGCCA AGATCCTGGA GGAGATCCTC CACAAGCTGG TGCAAATGAT CCAGGAAGAG 
GACTGTTCCC TGCAGTCACT GTCAGTGGCA GACTCCCGGC TGAAGCTTCG CACCAGCATC 
CTCATCAATG CCTTGGGCAG CAACACCTGC CTGGCCAAGG TGGACCTGAG CGGCAATGGC 
ATGGAAGACA TCGGAGCCAA GATGCTGTCT AAAGCCCTGC AGATAAACTC CTCCCTCAGA 
ACTATCCTAT GGGATCGGAA CAATACATCT GCCCTGGGTT TCCTAGACAT CGCCAGGGCC 
CTGGAGAGCA ACCATACACT GCGCTTCATG TCCTTTCCCG TGAGTGACAT CTCCCAAGCC 
TACCGCAGTG CCCCCGAGCG CACCGAGGAC GTCTGGCAGA AGATCCAGTG GTGCCTGGTG 
AGGAACAACC ACTCCCAGAC ATGCCCCCAG GAGCAGGCTT TCAGGCTGCA GCAGGGCCTG 
GTGACCAGCA GCGCCGAGCA AATGCTGCAG CGGCTGTGTG GACGAGTGCA GGAGGAGGTG 
CGGGCCCTGA GGTTGTGCCC CTTAGAGCCT GTGCAGGATG AACTGCTCTA TGCCCGGGAT 
CTCATCAAGG ATGCCAAGAA CTCTAGGGCG CTGTTTCCTA GTCTCTATGA GCTGGGCCAC 
GTGCTGGCCA ATGATGGCCC TGTGCGGCAA AGGCTTGAGT CAGTAGCCAG TGAGGTGTCC 
AAAGCTGTGG ACAAGGAGCT GCAGGTGATC CTGGAGTCCA TGGTCAGCCT AACGCAGGAG 
TTATGCCCTG TGGCCATGCG GGTGGCTGAG GGGCACAACA AGATGCTGAG CAATGTGGCA 
GAGCGCGTCA CTGTGCCCCG GAACTTCATT CGAGGGGCGC TGCTGGAGCA GGCGGGACAG 
GACATTCAGA ACAAGCTGGA TGAGGTGAAG CTCTCAGTCG TTACCTACTT GACCAACTCC 
ATAGTGGACG AGATCCTACA GGAGCTTTAC CACTCCCACA AGAGCCTGGC TCGGCACCTG 
ACCCAGCTAA GAACACTATC AGATCCACCA GGGGGGCCAG GTCAAGGGCA GGATCTATCC 
TCCCGAGGCC GAGGCCGGAA CCATGACCAT GAGGAGACCA CAGATGATGA ACTCGGGACC 
AACATCGACA CCATGGCCAT CAAAAAGCAG AAACGCTGCC GCAAGATCCG GCCAGTGTCT 
GCCTTCATCA GTGGAAGCCC TCAGGACATG GAAAGCCAAC TGGGGAACCT GGGAATTCCC 
CCTGGCTGGT TCTCAGGATT TGGGGGCATG CAGCCCACAG CTGGTAGCTC CTGGGAAGGT 
CTTTCTGAGC TGCCCACTCA TGGCTATAAA CTACGGCATC AAACACAAGG AAGACCCCGG 
CCCCCCAGGA CCACCCCACC AGGACCTGGT CGGCCCAGTG TACCAGTACC TGGGCCTCGT 
CAGGAGAACG GGGTGGCCAC CCGCCTGGAT GAGGGACTAG AGGACTTCTT CAGCCGAAGG 
GTCATGGATG AAAGTTCCAG CTACCCCCGG ACTCTGAGGA CTGTTCGGCC AGGCCTTTCT 
GAGCCACCGC TGCCTCCACT CCAGAAGAAG AGGCGCCGAG GCCTATTTCA CTTTCGCCGG 
CCCCGGAGCT TCAAAGGGGA CAGGGGGCCA GGGTCCCCCA CTGCTGGACT CCTCCTTCCT 
CCACCCCCAC CCCCACCCCC AACTCAGGAG AGCCCTCCCA GTCCAGATCC CCCAAGTCTA 
GGCAATAATT CCTCTCCCTG CTGGAGCCCA GAGGAAGATA GCAGCCTCCT GCCTGGATTT 
GGAGTGGGCC GGGGTCCTTC TTTCCGCAGA AAGATGGGCA CTGAAGGGTC GGAGCCTGGG 
GAGGGGGGCC CAGCTCCAGG GACAGCACAG CAGCCAAGAA TACACGGTGT TGCCCTTCCT 
GGTTTGGGAA GAGCCAAGGG TTGGAGCTTC GACGGGAAAC GAGAGGGCAC CGGCCCAGAC 
CTGGAGGACA GCTCCCAGGC TTGGCAGAAA CGGCGTTCGT CAGATGATGC GGGACCTGGA 
GCCTGGAAGC CCCCACCACC ACCCCAAAGC ACCAAGCCAA GCTTCAGTGC CATGCGCCGA 
GCAGAGGCCA CATGGCACAT AGCTGAGGAG AGTGCTCCCA ACCACAGCTG CCAGAGCCCT 
AGCCCGGCCT TCCAAGATGG AGAGGAAGAA NGAGGGACCT TATCCACAGA GAGGACAGTT 
CCAGCTAGGA ATGCCAAGCT GCAGGATCCT CCTTTAGCTC CACGCCCCCC CAAGCCAGTG 
GCTGTGCCCA GGGGTCGCTG TCCCCCCCAA GTGCCAGGGG GCAAGGAGGA GGCTGAGGCT 
GGGGGTGCAG CCCTAGGAGT TAACAAGCCC CGGATGAGAC TGGGCTCACA ACAGGATCAA 
GAGGAGCCAG AAGTTCAAGG GCCACCTGAT CCAAGCCGCC GAACAGCCCC TCTGAAGCCC 
AAGAGGACAC GTCGGGCACA GTCCTGTGAC AAGCTGGAAC CTGATAGAAG ACGGCCCCCT 
GACCCTGCAG GAACCAGTGA GCCAGGAACA GACTGA