WDR62 cDNA ORF clone, Myotis brandtii(Brandt's bat)

Gene
Clones
gRNAs

Summary

Gene Symbol	WDR62
Entrez Gene ID	102263077
Full Name	WD repeat domain 62
Gene Type	protein-coding
Organism	Myotis brandtii(Brandt's bat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005862402.2	XP_005862464.1	LOW QUALITY PROTEIN: WD repeat-containing protein 62

Pathways from BioSystems
Gene Ontology

The following WDR62 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR62 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
OMy39928	XM_005862402.2 Latest version!	Myotis brandtii WD repeat domain 62 (WDR62), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$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)

WDR62 ( XM_005862402.2 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_005862464.1 Myotis brandtii WD repeat domain 62 (WDR62), mRNA.

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CloneID	OMy39928
Clone ID Related Accession (Same CDS sequence)	XM_005862402.2
Accession Version	XM_005862402.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4578bp) 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	2015-11-03
Organism	Myotis brandtii(Brandt's bat)
Product	LOW QUALITY PROTEIN: WD repeat-containing protein 62
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005356042.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2015 this sequence version replaced XM_005862402.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii 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## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGCGGCCT TGGGGCCCGG AGGCTACGCG CGGAACGATG CGCGGAGAGG CCAGTCCTCC 
CCGCCCCCCT CTCCAGCGCT CTGCCTCCGC CGGCGGATGC GACTCCCCAC GGCGCCAGAG 
GACACAGTGC AGAACCGGGT GTCACTGGAG AAGGTGCTTG GCATCACAGC CCAGAACAGC 
AGTGGCCTAA CCTGTGACCC CAGCACAGGC CACGTGGCCT ACCTAGCAGG CTGTGTGGTG 
GTGATTTTGG ACCCCAAGGA GAACAAGCAG CAGCACATTT TTAACACTGC CAGGAAGTCT 
CTGAGCTCTC TGGCCTTCTC CCCTGATGGG AAGTACATAG TGACGGGAGA GAACGGGCAC 
AGGCCTACTG TGCGAATCTG GGATGTGGAT GAGAAGAGTC AGGTGGCAGA GATGTTGGGC 
CACAAGTACG GCGTGGCCTG TGTGTCCTTC TCCCCAAATA TGAAGCACAT TGTGTCCATG 
GGCTATCAGC ACGACATGGT ACTCAACGTC TGGGACTGGA AGAAAGATAT TGTGGTGGCC 
TCCAACAAGG TATCATGCAG GGTCATCGCC CTCTCTTTCT CAGAGGACAG CAGCTATTTT 
GTTACTGTTG GTAACCGGCA TGTTAGGTTC TGGTTCTTGG AAGTCTCCAC TGAAGCAAAG 
GTGACGGGGA CAGTGCCCCT CATAGGGCGC TCAGGCATCC TGGGTGAGCT GCACAACAAT 
GTCTTCTGTG GTGTGGCTTG TGGCCGGGGC CAGATGGCAG GCAACACCTT CTGTGTGTCC 
TACTCGGGCC TCCTCTGCCA GTTCAACGAG AAGAGGGTGC TGGAGAAGTG GATCAATCTG 
AAGGTCTCCC TGTCTTCCTG CCTCTGTGTC AGCCAGGAGC TCATCTTCTG CGGTTGTACA 
GATGGGATAG TTCGCATCTT CCAGGCCCAC AACCTACATT ACCTCACCAA CCTGCCCAAG 
CCACACTACC TTGGGGTGGA TGTGGCCCAG GGCCTGGAGC CCAGCTTCCT CTTCTGCAGG 
AAGGCAGAAG CAGTCTATCC GGATACGGTG GCACTGACCT TTGACCCCAT CCACCAGTGG 
CTATCCTGTG TGTATAAGGA CCACAGCATC TATATCTGGG ATGTCAAAGA TATCAACAAA 
GTAGGCAAGG TGTGGTCAGA GCTCTTCCAC AGCTCCTACG TCTGGAATGT GGAGGTGTAT 
CCTGAGTTTG AAGATCAGAG AGCTTGTCTG CCAACTGGAT CTTTTCTGAC TTGTTCCTCA 
GACAACACCA TTCGCTTCTG GAACATAAAT AGCAGCCCTG ACTCTCCCTG GCAGAAAAAC 
ATCTTCAGTA ATACCCTACT GAAGGTAGTG TATGTAGAGA ATGACATCCA GCACCTTCAG 
GACATGTCAC ACTTCCCAGA CCGGGGTAGT GAGAATGGGA CACCTATGGA CGTGAAAGCC 
GGGGTACGAG TCATGCAAGT CAGTCCTGAT GGTCAACACT TGGCTTCAGG CGACCGAAGT 
GGAAATCTGA GGATCCATGA GCTGCATTTC ATGGATGAGC TGGTCAAGAT GGAAGCCCAT 
GATGCTGAGG TGCTATGCCT GGAGTACTCC AAGCCTGAGA CTGGGCTTAC CTTGCTTGCC 
TCGGCCAGTC GGGACCGACT GATCCATGTG CTGAACGTGG AGAAGAACTA CAACCTGGAG 
CAGACCCTGG ATGACCACTC CTCCTCCATC ACGGCCATCA AATTTGCAGG CAACAGAGAC 
ATCCAAATGA TCAGCTGTGG GGCCGATAAG AGCATCTACT TTCGCAGTGC CCAGCAGGGC 
TCCGATGGGC TTCACTTTGT CCGTACTCAC CATGTGGCAG AGAAGACCAC CTTGTATGAC 
ATGGATATTG ACATCACCCA GAAGTACGTG GCTGTGGCCT GCCAGGACCG CAATGTGAGA 
GTCTACAACA CCATGAATGG AAAGCAGAAG AAATGCTACA AGGGCTCCCA GGGCGATGAA 
GGGTCTCTGC TGAAGGTCCA CGTGGACCCC TCAGGCACCT TCCTAGCCAC AAGCTGCTCT 
GATAAAAGCA TCTCGGTGAT AGACTTTTAC TCGGGCGAGT GCATTGCCAA AATGTTTGGC 
CATTCTGAAA TTGTCACCGG CATGAAGTTC ACCTATGACT GTCGTCATTT GATTACAGTA 
TCTGGAGACA GCTGTGTGTT CATCTGGCAC CTGGGCCCAG AGATTACCAA CTGCATGAAG 
CAGCACTTGC TGGAAATTGA CCATCTGGAG CAGCAGCAGC AGCAGAATAC AAAGGATGGG 
AAATGGAGCA GCCACCCCAG GCAGGAGACA TATGCATCCA TGCCCGACAA GATTTGTTCC 
CTAAGATCTG GAGAGCAGAC AGAGGATGAG CTGGAAGAAG AGTGTGAACC TGAAGAATTA 
CTGAAGACAC CATCCAAAGA GAGCTTGGAT TCAGATCCTC AGTGCCTGCT GACCAACGGC 
AAGCTGCCAC TCTGGGCAAA GCGGCTGCTT GGAGATGATG ATATGGTGGA TGGCTCAGCC 
TTCTACACCA AGCACAGCTA CCAGCCACAT GGCCGCTGGG CAGAGCGGGC TGACCAGGAG 
CCCCTCAAGA CCATCCTGGA TGTCCGTGAC CTGGATTGCT ACTTTACCCC CTTGAAGTCC 
GACAGTCTGG AGGACTCCGT TCTGGATATA GTGAAGCCAC AGAGCCTGGC AGGCCTGCTG 
AGTGAGTCAG AGAGTCCCCA GGAAGATGGC TGTAGGAATC CTTCCTTCCT GCCTCTACAG 
AAGGAGTGCT CTGAAGCCAG AGAGGTCGTC AGCTCCCTGG AGGTAGAGGT GACCGTCCCA 
GGGACAGACA GCAAGTACGG CTCAGAAGAA GTGGAGAGGG AGCCTGGAGA CCAGCAAGGT 
GACTCCTATC TCAGGGTCTC CTCCATGGGC TCGAAGGATC AGAGCAAACT TGAGGATTCA 
GGGGATTCAG AAGCCTACTT GGAGTGTACC TTCACCACCA TCCATTCCTC CCCTCCACAG 
CTGGACTCAG ACCCTCAGTT TGACGTGACA GTGACCCCTA TACCAGCATG CCCAGGAACA 
GCAGAAGAGT TGTCTCGGCC TGAGCTGGCA GGCATATCCA ATGGCTCCCT GCCCCAGACC 
CCTGAGCAAG AGAGGTTTCT CCGCCATCAC TTTGAGACGC TTACTGACAC CCACCATGAG 
GAGCTCTTTC GCAGATCCCT AAGAGATGTG ACGGCCTCTG CGGATGAGGA CTTTTTTAAT 
CCCCGGCTGA GCATCTCAGC CCAGTTCCTC TCACGTCTCC AGAAGACATC CAGGCTCAAC 
CACACCTTCC CTTCCCCGCT GCACCTGCAC CTTGTGAAGT CCCCGGAGGT CAAACTCATA 
GACCTCCAGG GGAACCAGGC CAGAGCAGAA CCAGGTACTG GCTACACCTT CCCAGGGAGG 
ACCAATGTCC TCTCTGGGAG GAAAGCTAAG GAGTCGCTTG ACAACCTGGA GGCCTGGTGC 
CCACTGACCC CCTGCCTCAC AGGCNCCACT TCCTGTGTTC CCTCCTCCTC AGCACTGCCC 
ACAGATAGGA AGCCTCTGGC ACCCACAACC CTACCCACTC CAGGCCTCCA TACCCCCTCT 
ACCTGTTCTT ATATAGAGGC CACTGCCAGT TCCTGTGCCA AGATGTCACC CAGCATTTCC 
CTTGAGGACA GTGAGGACCC TGTTTTGGTT GACAAAGAGA GAGGGAGACC CCTCTGCAGG 
CCCTCATCCG TGGGGAAGCT GGCCTCCATG GACCAGGAGC TTCAGGCCAT CACCACCACA 
GCAGCAACCA GTTCTGACAG TGAGGGCCAA GAGCCTGCCC TGCCCTCCCA GGGCAACTAT 
GAAGCCCGGG ACAGCTTCAA GCAGACCCTG TCAGGCGTCT GCGACAGGCT CTTACTGCCC 
TCACCCCCAC AGGAGCCACC CACTACTTGT GTCTGGTCCC AGGAACCTGT GGCCACCCAG 
TCCGATGTCA CAGTCACAAC AGCTAGCTTC CCGGCTTCCA GCCCCGTAGA TATGAGCTCC 
CTGAGGCTCC ACAGCTCCAC CTTTCTCCCA AGGCTTCTGG CCGCTGAACC CCTCAACACC 
CCTGCACACC CCAACAGCCC CCCACTTCCA GAGGCCATGC CTGGCAGCAT CACCTCCCTC 
CTGGAGCTCA CCCCTGATGC ACTCAGTGTA CTCCGGGACA GCCCTGGACA CTGGGGAGAG 
CCTGGAGTGC CAGCCAGAGT CCTGTCCCCA GCTCCCCTTG AGGTGAGCAG TGTGGGGACC 
ATTGTGCACA AACTACAGAC TGCCTTCCAA GAAGCCCTGG ACCTTTACCA CCTGATGGTC 
TCCAGTGACC AGTTGAGTAC CAAGCAGCGG CAGGCACGGA CTGAGCTAGC CTCCACCTTC 
CTTTGGATCC ACAGCCAGTT AGAGACCAAC GACTGGCTGG TTGGGAATGA TGCGGCCCCA 
GCCCAGGCCC TCCCCAGCCC TGACCCCCCC TCCCCACCTA CATTGTGCCC CCTGGCCAGC 
CCAGATTTGC GTGCCCTGCT GGAACACTAC TCGGAGCTGC TGGTGCAGGC TGTGCGGAGG 
AAGGCACAGG GGGACTGA

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

RefSeq	XP_005862464.1
CDS	2611..7188
Translation	MAALGPGGYARNDARRGQSSPPPSPALCLRRRMRLPTAPEDTVQNRVSLEKVLGITAQNSSGLTCDPSTGHVAYLAGCVVVILDPKENKQQHIFNTARKSLSSLAFSPDGKYIVTGENGHRPTVRIWDVDEKSQVAEMLGHKYGVACVSFSPNMKHIVSMGYQHDMVLNVWDWKKDIVVASNKVSCRVIALSFSEDSSYFVTVGNRHVRFWFLEVSTEAKVTGTVPLIGRSGILGELHNNVFCGVACGRGQMAGNTFCVSYSGLLCQFNEKRVLEKWINLKVSLSSCLCVSQELIFCGCTDGIVRIFQAHNLHYLTNLPKPHYLGVDVAQGLEPSFLFCRKAEAVYPDTVALTFDPIHQWLSCVYKDHSIYIWDVKDINKVGKVWSELFHSSYVWNVEVYPEFEDQRACLPTGSFLTCSSDNTIRFWNINSSPDSPWQKNIFSNTLLKVVYVENDIQHLQDMSHFPDRGSENGTPMDVKAGVRVMQVSPDGQHLASGDRSGNLRIHELHFMDELVKMEAHDAEVLCLEYSKPETGLTLLASASRDRLIHVLNVEKNYNLEQTLDDHSSSITAIKFAGNRDIQMISCGADKSIYFRSAQQGSDGLHFVRTHHVAEKTTLYDMDIDITQKYVAVACQDRNVRVYNTMNGKQKKCYKGSQGDEGSLLKVHVDPSGTFLATSCSDKSISVIDFYSGECIAKMFGHSEIVTGMKFTYDCRHLITVSGDSCVFIWHLGPEITNCMKQHLLEIDHLEQQQQQNTKDGKWSSHPRQETYASMPDKICSLRSGEQTEDELEEECEPEELLKTPSKESLDSDPQCLLTNGKLPLWAKRLLGDDDMVDGSAFYTKHSYQPHGRWAERADQEPLKTILDVRDLDCYFTPLKSDSLEDSVLDIVKPQSLAGLLSESESPQEDGCRNPSFLPLQKECSEAREVVSSLEVEVTVPGTDSKYGSEEVEREPGDQQGDSYLRVSSMGSKDQSKLEDSGDSEAYLECTFTTIHSSPPQLDSDPQFDVTVTPIPACPGTAEELSRPELAGISNGSLPQTPEQERFLRHHFETLTDTHHEELFRRSLRDVTASADEDFFNPRLSISAQFLSRLQKTSRLNHTFPSPLHLHLVKSPEVKLIDLQGNQARAEPGTGYTFPGRTNVLSGRKAKESLDNLEAWCPLTPCLTGnullTSCVPSSSALPTDRKPLAPTTLPTPGLHTPSTCSYIEATASSCAKMSPSISLEDSEDPVLVDKERGRPLCRPSSVGKLASMDQELQAITTTAATSSDSEGQEPALPSQGNYEARDSFKQTLSGVCDRLLLPSPPQEPPTTCVWSQEPVATQSDVTVTTASFPASSPVDMSSLRLHSSTFLPRLLAAEPLNTPAHPNSPPLPEAMPGSITSLLELTPDALSVLRDSPGHWGEPGVPARVLSPAPLEVSSVGTIVHKLQTAFQEALDLYHLMVSSDQLSTKQRQARTELASTFLWIHSQLETNDWLVGNDAAPAQALPSPDPPSPPTLCPLASPDLRALLEHYSELLVQAVRRKAQGD

Target ORF information:

RefSeq Version	XM_005862402.2
Organism	Myotis brandtii(Brandt's bat)
Definition	Myotis brandtii WD repeat domain 62 (WDR62), mRNA.

Target ORF information:

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

XM_005862402.2

ORF Insert Sequence:

ATGGCGGCCT TGGGGCCCGG AGGCTACGCG CGGAACGATG CGCGGAGAGG CCAGTCCTCC 
CCGCCCCCCT CTCCAGCGCT CTGCCTCCGC CGGCGGATGC GACTCCCCAC GGCGCCAGAG 
GACACAGTGC AGAACCGGGT GTCACTGGAG AAGGTGCTTG GCATCACAGC CCAGAACAGC 
AGTGGCCTAA CCTGTGACCC CAGCACAGGC CACGTGGCCT ACCTAGCAGG CTGTGTGGTG 
GTGATTTTGG ACCCCAAGGA GAACAAGCAG CAGCACATTT TTAACACTGC CAGGAAGTCT 
CTGAGCTCTC TGGCCTTCTC CCCTGATGGG AAGTACATAG TGACGGGAGA GAACGGGCAC 
AGGCCTACTG TGCGAATCTG GGATGTGGAT GAGAAGAGTC AGGTGGCAGA GATGTTGGGC 
CACAAGTACG GCGTGGCCTG TGTGTCCTTC TCCCCAAATA TGAAGCACAT TGTGTCCATG 
GGCTATCAGC ACGACATGGT ACTCAACGTC TGGGACTGGA AGAAAGATAT TGTGGTGGCC 
TCCAACAAGG TATCATGCAG GGTCATCGCC CTCTCTTTCT CAGAGGACAG CAGCTATTTT 
GTTACTGTTG GTAACCGGCA TGTTAGGTTC TGGTTCTTGG AAGTCTCCAC TGAAGCAAAG 
GTGACGGGGA CAGTGCCCCT CATAGGGCGC TCAGGCATCC TGGGTGAGCT GCACAACAAT 
GTCTTCTGTG GTGTGGCTTG TGGCCGGGGC CAGATGGCAG GCAACACCTT CTGTGTGTCC 
TACTCGGGCC TCCTCTGCCA GTTCAACGAG AAGAGGGTGC TGGAGAAGTG GATCAATCTG 
AAGGTCTCCC TGTCTTCCTG CCTCTGTGTC AGCCAGGAGC TCATCTTCTG CGGTTGTACA 
GATGGGATAG TTCGCATCTT CCAGGCCCAC AACCTACATT ACCTCACCAA CCTGCCCAAG 
CCACACTACC TTGGGGTGGA TGTGGCCCAG GGCCTGGAGC CCAGCTTCCT CTTCTGCAGG 
AAGGCAGAAG CAGTCTATCC GGATACGGTG GCACTGACCT TTGACCCCAT CCACCAGTGG 
CTATCCTGTG TGTATAAGGA CCACAGCATC TATATCTGGG ATGTCAAAGA TATCAACAAA 
GTAGGCAAGG TGTGGTCAGA GCTCTTCCAC AGCTCCTACG TCTGGAATGT GGAGGTGTAT 
CCTGAGTTTG AAGATCAGAG AGCTTGTCTG CCAACTGGAT CTTTTCTGAC TTGTTCCTCA 
GACAACACCA TTCGCTTCTG GAACATAAAT AGCAGCCCTG ACTCTCCCTG GCAGAAAAAC 
ATCTTCAGTA ATACCCTACT GAAGGTAGTG TATGTAGAGA ATGACATCCA GCACCTTCAG 
GACATGTCAC ACTTCCCAGA CCGGGGTAGT GAGAATGGGA CACCTATGGA CGTGAAAGCC 
GGGGTACGAG TCATGCAAGT CAGTCCTGAT GGTCAACACT TGGCTTCAGG CGACCGAAGT 
GGAAATCTGA GGATCCATGA GCTGCATTTC ATGGATGAGC TGGTCAAGAT GGAAGCCCAT 
GATGCTGAGG TGCTATGCCT GGAGTACTCC AAGCCTGAGA CTGGGCTTAC CTTGCTTGCC 
TCGGCCAGTC GGGACCGACT GATCCATGTG CTGAACGTGG AGAAGAACTA CAACCTGGAG 
CAGACCCTGG ATGACCACTC CTCCTCCATC ACGGCCATCA AATTTGCAGG CAACAGAGAC 
ATCCAAATGA TCAGCTGTGG GGCCGATAAG AGCATCTACT TTCGCAGTGC CCAGCAGGGC 
TCCGATGGGC TTCACTTTGT CCGTACTCAC CATGTGGCAG AGAAGACCAC CTTGTATGAC 
ATGGATATTG ACATCACCCA GAAGTACGTG GCTGTGGCCT GCCAGGACCG CAATGTGAGA 
GTCTACAACA CCATGAATGG AAAGCAGAAG AAATGCTACA AGGGCTCCCA GGGCGATGAA 
GGGTCTCTGC TGAAGGTCCA CGTGGACCCC TCAGGCACCT TCCTAGCCAC AAGCTGCTCT 
GATAAAAGCA TCTCGGTGAT AGACTTTTAC TCGGGCGAGT GCATTGCCAA AATGTTTGGC 
CATTCTGAAA TTGTCACCGG CATGAAGTTC ACCTATGACT GTCGTCATTT GATTACAGTA 
TCTGGAGACA GCTGTGTGTT CATCTGGCAC CTGGGCCCAG AGATTACCAA CTGCATGAAG 
CAGCACTTGC TGGAAATTGA CCATCTGGAG CAGCAGCAGC AGCAGAATAC AAAGGATGGG 
AAATGGAGCA GCCACCCCAG GCAGGAGACA TATGCATCCA TGCCCGACAA GATTTGTTCC 
CTAAGATCTG GAGAGCAGAC AGAGGATGAG CTGGAAGAAG AGTGTGAACC TGAAGAATTA 
CTGAAGACAC CATCCAAAGA GAGCTTGGAT TCAGATCCTC AGTGCCTGCT GACCAACGGC 
AAGCTGCCAC TCTGGGCAAA GCGGCTGCTT GGAGATGATG ATATGGTGGA TGGCTCAGCC 
TTCTACACCA AGCACAGCTA CCAGCCACAT GGCCGCTGGG CAGAGCGGGC TGACCAGGAG 
CCCCTCAAGA CCATCCTGGA TGTCCGTGAC CTGGATTGCT ACTTTACCCC CTTGAAGTCC 
GACAGTCTGG AGGACTCCGT TCTGGATATA GTGAAGCCAC AGAGCCTGGC AGGCCTGCTG 
AGTGAGTCAG AGAGTCCCCA GGAAGATGGC TGTAGGAATC CTTCCTTCCT GCCTCTACAG 
AAGGAGTGCT CTGAAGCCAG AGAGGTCGTC AGCTCCCTGG AGGTAGAGGT GACCGTCCCA 
GGGACAGACA GCAAGTACGG CTCAGAAGAA GTGGAGAGGG AGCCTGGAGA CCAGCAAGGT 
GACTCCTATC TCAGGGTCTC CTCCATGGGC TCGAAGGATC AGAGCAAACT TGAGGATTCA 
GGGGATTCAG AAGCCTACTT GGAGTGTACC TTCACCACCA TCCATTCCTC CCCTCCACAG 
CTGGACTCAG ACCCTCAGTT TGACGTGACA GTGACCCCTA TACCAGCATG CCCAGGAACA 
GCAGAAGAGT TGTCTCGGCC TGAGCTGGCA GGCATATCCA ATGGCTCCCT GCCCCAGACC 
CCTGAGCAAG AGAGGTTTCT CCGCCATCAC TTTGAGACGC TTACTGACAC CCACCATGAG 
GAGCTCTTTC GCAGATCCCT AAGAGATGTG ACGGCCTCTG CGGATGAGGA CTTTTTTAAT 
CCCCGGCTGA GCATCTCAGC CCAGTTCCTC TCACGTCTCC AGAAGACATC CAGGCTCAAC 
CACACCTTCC CTTCCCCGCT GCACCTGCAC CTTGTGAAGT CCCCGGAGGT CAAACTCATA 
GACCTCCAGG GGAACCAGGC CAGAGCAGAA CCAGGTACTG GCTACACCTT CCCAGGGAGG 
ACCAATGTCC TCTCTGGGAG GAAAGCTAAG GAGTCGCTTG ACAACCTGGA GGCCTGGTGC 
CCACTGACCC CCTGCCTCAC AGGCNCCACT TCCTGTGTTC CCTCCTCCTC AGCACTGCCC 
ACAGATAGGA AGCCTCTGGC ACCCACAACC CTACCCACTC CAGGCCTCCA TACCCCCTCT 
ACCTGTTCTT ATATAGAGGC CACTGCCAGT TCCTGTGCCA AGATGTCACC CAGCATTTCC 
CTTGAGGACA GTGAGGACCC TGTTTTGGTT GACAAAGAGA GAGGGAGACC CCTCTGCAGG 
CCCTCATCCG TGGGGAAGCT GGCCTCCATG GACCAGGAGC TTCAGGCCAT CACCACCACA 
GCAGCAACCA GTTCTGACAG TGAGGGCCAA GAGCCTGCCC TGCCCTCCCA GGGCAACTAT 
GAAGCCCGGG ACAGCTTCAA GCAGACCCTG TCAGGCGTCT GCGACAGGCT CTTACTGCCC 
TCACCCCCAC AGGAGCCACC CACTACTTGT GTCTGGTCCC AGGAACCTGT GGCCACCCAG 
TCCGATGTCA CAGTCACAAC AGCTAGCTTC CCGGCTTCCA GCCCCGTAGA TATGAGCTCC 
CTGAGGCTCC ACAGCTCCAC CTTTCTCCCA AGGCTTCTGG CCGCTGAACC CCTCAACACC 
CCTGCACACC CCAACAGCCC CCCACTTCCA GAGGCCATGC CTGGCAGCAT CACCTCCCTC 
CTGGAGCTCA CCCCTGATGC ACTCAGTGTA CTCCGGGACA GCCCTGGACA CTGGGGAGAG 
CCTGGAGTGC CAGCCAGAGT CCTGTCCCCA GCTCCCCTTG AGGTGAGCAG TGTGGGGACC 
ATTGTGCACA AACTACAGAC TGCCTTCCAA GAAGCCCTGG ACCTTTACCA CCTGATGGTC 
TCCAGTGACC AGTTGAGTAC CAAGCAGCGG CAGGCACGGA CTGAGCTAGC CTCCACCTTC 
CTTTGGATCC ACAGCCAGTT AGAGACCAAC GACTGGCTGG TTGGGAATGA TGCGGCCCCA 
GCCCAGGCCC TCCCCAGCCC TGACCCCCCC TCCCCACCTA CATTGTGCCC CCTGGCCAGC 
CCAGATTTGC GTGCCCTGCT GGAACACTAC TCGGAGCTGC TGGTGCAGGC TGTGCGGAGG 
AAGGCACAGG GGGACTGA