ABCA9 cDNA ORF clone, Myotis brandtii(Brandt's bat)

Gene
Clones
gRNAs

Summary

Gene Symbol	ABCA9
Entrez Gene ID	102249596
Full Name	ATP binding cassette subfamily A member 9
Gene Type	protein-coding
Organism	Myotis brandtii(Brandt's bat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005861819.2	XP_005861881.1	LOW QUALITY PROTEIN: ATP-binding cassette sub-family A member 9

Pathways from BioSystems
Gene Ontology

The following ABCA9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ABCA9 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
OMy39321	XM_005861819.2 Latest version!	Myotis brandtii ATP-binding cassette, sub-family A (ABC1), member 9 (ABCA9), 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)

ABCA9 ( XM_005861819.2 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_005861881.1 Myotis brandtii ATP-binding cassette, sub-family A (ABC1), member 9 (ABCA9), mRNA.

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CloneID	OMy39321
Clone ID Related Accession (Same CDS sequence)	XM_005861819.2
Accession Version	XM_005861819.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4908bp) 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: ATP-binding cassette sub-family A member 9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005355708.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2015 this sequence version replaced XM_005861819.1. ##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##

ATGCTGGTCA GAATGAGCAA GAGGCACATC AGCGTGGGTC AGCAAACATG GGCCCTTCTC 
TGCAAGAATT TTCTTAAAAA ATGGAGGATG AAGAGAGAAA CCTTCTTGGA ATGGTTTTTC 
TCATTTCTCC TGGTGTTATT TGCATACCTG TTTTCTTCCA GTATACATTA CACTGATAAC 
TTTCCTCAAG TGCCTGCAAT ATATCTGGGG CGTGTAGATC ATTTTAATGA TTCTAATTAC 
GTTATTGCAT TTGCACCCAA ATCCAAAACT ACCCAGGAGA TCATGAGCAA AGTAGCATCA 
GTCCCATTTA TGAAAGGAAG GACAATCACG GGGTGGCCTG ATGAGGAAAG CATGAATGCA 
TTGAATTTAA ACTATTCTAT AGATGCAGTG AGAGTCATCT TTGATGATAA CTTCTCATAT 
CATTTAAAGT TTGTCTGGGG AGGTAGAATC CCCAAGATGA AGGAATACAG AGACCATTCA 
GCTCATTGTC AAACATCAAA TGAAAATGTT GCCTGTGAAG GTTCATTGTT CTGGAAAAAA 
GGCTTTATAG CTTTTCAAGC TGCCATTAAT GCTGCTATCA TAGAAATCAC AACAAATCAC 
TCGGTGATGG AAGAGCTCAT GTCAGTCACT GGTTTAAATA TGAAGATATT ACCCTTTGTT 
GCCCAAGCAG GGGTTGGGAC CGATATTTTC ATTTTCTTCT GCATTATTTC TTTTTCTACA 
TTCATCTACT ATGTATCAGT CAACGTTGCC AAAGAAAGAC AATACATTAA GTCATTGATG 
ACCATGATGG GACTTCAAGA GTTAGCATTC TGGCTCTCCT GGAGTGTGAT GTACGCTGGC 
TTCATCTTTA TTATGGCGAT TCTGGTGGCT CTTGTTGTAA AATCTACCCG TGTTGTCGTC 
CTCACTAGCT TTGTGGTGGT CTTCATGCTC ATTCTCCTCT ACGGCTTGTC TTTGATAACT 
TTAGCTTTCA TGATGAGCGT CCTGATAAAG AAACCATTCC TTACCGGCTT TGTCGTCTTT 
CTGCTCACGG TCGTTTGGGG GAGCCTGGGT TTCACGGCGT TGTATAGGCA TCTCCCTGCC 
TTTTTGGAAT GGACGTTGTG TCTTCTTAGC CCCTTTGCTT TCACTGTCGG GATGTCCCAG 
CTTATACATT TGGACTATGA TGTGAATGCT AACACCCATT TGGACTCTTC AAGCAACCCA 
AACCTAATAA TAGCTACTTG TTTCATGTTG GTTTTTGATA CTTTTCTCTA TTTGGCATTG 
ACATTATATT TTGGCAAAGT TTTGCCCACT GAACATGGAC GTCGACATTC TCCCTGGTTT 
TTCCTGAAAC CCTCTTTTTG GTTTCAACAC CGAAGAGCTG ACCACGTGGC CCTTGAGAAT 
GAAATAGATT CAGATTCTTC ATCCAATGAC TCTTTTGAAC CAGTGTCTCC AGAATTCCAT 
GGGAAAGAAG CCATCAGAAT AAAAAATCTT AAAAAGGAAT ATAAAAAAGG AAAGCATGAA 
AAAGTAGAAG CTTTGAAAGG TCTGGTATTT GACATATATG AAGGCCAGAT CACTGCACTC 
CTTGGTCACA GTGGAGCTGG GAAAACGACC CTGTTAAACA TACTCAGTGG ATTGTCGGAC 
CCAACATCAG GTTCGGTCAC CATCTACAAC CACTCACTTT CAGAAACGGC TGACTTGGAG 
ACTGTCAGCA TGCTCACTGG AGTCTGCCCG CAATCCAATG TGCAATTCGG CTTCCTGACA 
GTGAGGGAAA ACCTCAGGCT CTTTGCCAAA ATAAAAGGGA TCCAGCCGCA GGAAGTGGAA 
CGAGAGGTAC AACAAGTTTT ACAGGACTTG GAAATGGAAA ATATTCAAGA CATTCTTGCT 
CAAAATTTAA GCGGTGGACA AAAAAGGAAG CTAACTTTTG GAACTGCCAT TTTAGGAGAT 
CCTCAGATTT TGCTACTGGA TGAACCAACC GCTGGATCAG ATCCTCTCTC AAGGCACCGT 
GTGTGGAACC TTCTTAAAGA GAGGAAATCA AACAGAGTCA TCCTCTTCAG CACCCAGTTC 
ATGGATGAGG CTGACATCCT GGCTGACCGA AAGGTGTTTA TATCTAATGG GAAGCTGAGG 
TGTGCAGGCT CGTCTCTATT CCTGAAGAAG AAATGGGGCA TCGGCTACCA TTTAAGTTTG 
CATTTGAATG AAATGTGTGA TCCAGACAAT ATAACATCGC TTGTTAAACA GCACATCCCT 
GATGCCAAAT TAACAGCACA AAGTGAAGAA AAGCTTGTAT ATATTTTGCC CTTGGAAAGG 
ACAAACAAAT TCCCAGACCT TTACAGGGAT CTTGATAGAT GGTCTCACCA AGGCGTTGAG 
AATTACGGTG TTTCCATGAC AACTTTGAAT GAGGTGTTCT TGAAGCTAGA AGGAAAATCA 
GCTATTGATG AATCAGATAT TGGAATTTGG ACACAGTTAC AAAGTGATAG GACAAGAGAC 
ACAGGAGGCC TTGTTGAGCT GGAACAAGTT TTGTCTTCCT TTAATGAGAC AAAGAAAGCA 
GCCAGCGGCA TGGCTCTCTG GAGGCAGCAG ACCTGTGCAA TAGCCAAAGT TCGCTTCCTA 
AAGTTAAAGA ATGAAAAAAA AACTATGATG ACCATATTAC TGCTTTTGTG CATTAGCCTT 
TTCCCTCAGC TTTTGGAATA TCTATTCTAT GAGATATATT CGAAGAGTTA TTCTTGGGGA 
CTGTCTCCCA ATACGTACTT CCTCTCACCA GGACAACCGC CTCAAGCTCC TCTGACACAC 
TTACTGGTCA TCAATAAAAC AGGGTCGAGC ATTGAAAACT TTATACATTC ACTGAGGCAG 
CAGAACATAG CTTTGGAAGT GGATGCCTTT GGAATTCGAC GTGGTGCCAA CGAGCCATCA 
TACAACGGTG CTATCACGGT GTTAGGTGAT GACAAGCACC AGAGATTTTC AATAGCATGC 
AATACCAAAA GGCTGAATTG CTTCCCTGTC CTCATGGACA TCATTAGCAA TGGGCTACTT 
GGAGTTTTTA ATTCTTCAGA ACACATCCAG ACAGACAGAA GCACGTATTT TGAAGAGTCC 
ATGTCTGAGG AGTATGAGTC CATGAGCAAT CCCTTCTTCT GGATACCTGG GGCAGCCTGT 
TTTACTCCTT TCATTGCCAT GAGCAGCATC GGTGACTATA AAAAAAAAGC TCACTCCCAG 
CTCCGGATCT CAGGCCTCCA CCCTTCCGCT TACTGGCTTG GGCAGGCGTT GGTGGACGTC 
CCACTGTACT TCTTGATCCT CCTTGTGATG CAAATAATGG ATTACATTTT TAACCCAGAT 
GAACTGATAG TTATAATCCA AAACTTGTTA ATTCAGATCC TGTGTAGTAT TGGACATGTC 
ATGTCTCTTA TTTTCTTGAC TTATGTGATT TCATTCATTT TTCGCAATGG GAGGAAAAAT 
AGTGGCCTTT GGTCATTTTT CTTCTTAATT GTCACCATCT TCTTGATAGT TTTTATTGAA 
ATAACTAATT ATGGATTTCT AGGGCTGTTA ATCTGCACCA TATTGATCCC GCCTTTCACA 
CTGATTGGCT CTCTATTAAT TTTCTCGGAG GTTTCTCCTG ACTTGGTGGA ATATATAGGA 
GCTTCAGAGG AGTATCTGCT ATATCTGGCA TTGCTGATAC CTTACCTTCA ATCTTTCATT 
TTCCTTTTCA TTCTACGGTG TCTGGAAATG AACTTTAGGA AGAAATTGAT GAGAAAGGAT 
CCTATATTCA GAATTTCACC AAGAAGCAGT AAGTTTTTTC CAAACCCAGA GGAACCGGAA 
GGGGAGGATG AAGACGTTCA GATGGAAAGA ATGAGAACAG CGAATGCTGT GACGATCCCG 
GACTCTGATG AGGTGGAACT ACTAGCAATA GTCTTCATCA TATACTACTG TCTGTCAGAT 
AAACATAATG GGCAAAAGAA AAACTGCTTT GCCAAGAAGA AGAAGAAGAA AGTTGCCACA 
AGAAATGTCT CTTTCTGTGT TAAAAAAGGT GAAGTTATAG GTCTGTTAGG ACACAATGGA 
GCTGGTAAAA GTACAACTAT TAAGATGATA ACTGGAGACT CAACACCAAC CGCAGGAGAG 
GTGATTTTGA AAAGGAACAG CGGAGGGGAC GCCCTCAAGT TCCTGGGGTA CTGCCCTCAG 
CAGGAGAACC TGTGGCCCAA CCTGACAGTG AGGGAGCACC TGGACGTGTT CGCAGCTGTG 
AAAGGGCTGA GGAAAGCAGA CGCCGCCGTC GCCATCACAC GGTTGGTGGA GGCGCTCAAG 
CTGCAGGAGG AGNAGAAGCG CCCTGTGAAG GCCTTATCAG AGGGAATCAA GAGAAAGCTG 
TGCTTCGCGC TGAGCATCCT GGGAAACCCA TCGGTGGTGC TGCTGGACGA GCCGTCCACA 
GGCATGGACC CCGCGGGGCA GCAGCAGATG TGGCAGGCCA TCCGGGCCAC CTTTAGAAAC 
ACGGAGAGGG GCGCCCTCCT GACCACCCAT TACATGGCGG AGGCGGAGGC CGTGTGTGAC 
CGTGTGGCCA TCATGGTGTC CGGGAGGCTG AGGTGTATCG GTTCCATCCA GCACCTGAAG 
AGCAAATTTG GCAAGGATTA CCTGCTGGAG ATGAAGGTGA AGACCCTCGC CCACGTGGAG 
CCCCTGCACA GCGAAATCCT GAGGCTCTTC CCCCAGGCTG CTCGGCAGGA AAGGTACTCC 
TCCCTGATGG TCTATAAGTT GCCTGTTGAG GATGTGAGAC CTTTATTGCA GGCTTTCTTC 
AAATTAGAGA TCGTTAAACA GAGCTTCGAC CTGGAGGAGT ACAGCCTGTC ACAGTCCACC 
CTGGAGCAGG TCTTCCTGGA GCTCTCCAAG GAGCAGGAGC TGGAGGACTT TGATGAGGAA 
GTTGATCTCT CTGTGAGGTG GAAGCTCCTC CAGCAGGAAG AGCCCTAA

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

RefSeq	XP_005861881.1
CDS	548..5455
Translation	MLVRMSKRHISVGQQTWALLCKNFLKKWRMKRETFLEWFFSFLLVLFAYLFSSSIHYTDNFPQVPAIYLGRVDHFNDSNYVIAFAPKSKTTQEIMSKVASVPFMKGRTITGWPDEESMNALNLNYSIDAVRVIFDDNFSYHLKFVWGGRIPKMKEYRDHSAHCQTSNENVACEGSLFWKKGFIAFQAAINAAIIEITTNHSVMEELMSVTGLNMKILPFVAQAGVGTDIFIFFCIISFSTFIYYVSVNVAKERQYIKSLMTMMGLQELAFWLSWSVMYAGFIFIMAILVALVVKSTRVVVLTSFVVVFMLILLYGLSLITLAFMMSVLIKKPFLTGFVVFLLTVVWGSLGFTALYRHLPAFLEWTLCLLSPFAFTVGMSQLIHLDYDVNANTHLDSSSNPNLIIATCFMLVFDTFLYLALTLYFGKVLPTEHGRRHSPWFFLKPSFWFQHRRADHVALENEIDSDSSSNDSFEPVSPEFHGKEAIRIKNLKKEYKKGKHEKVEALKGLVFDIYEGQITALLGHSGAGKTTLLNILSGLSDPTSGSVTIYNHSLSETADLETVSMLTGVCPQSNVQFGFLTVRENLRLFAKIKGIQPQEVEREVQQVLQDLEMENIQDILAQNLSGGQKRKLTFGTAILGDPQILLLDEPTAGSDPLSRHRVWNLLKERKSNRVILFSTQFMDEADILADRKVFISNGKLRCAGSSLFLKKKWGIGYHLSLHLNEMCDPDNITSLVKQHIPDAKLTAQSEEKLVYILPLERTNKFPDLYRDLDRWSHQGVENYGVSMTTLNEVFLKLEGKSAIDESDIGIWTQLQSDRTRDTGGLVELEQVLSSFNETKKAASGMALWRQQTCAIAKVRFLKLKNEKKTMMTILLLLCISLFPQLLEYLFYEIYSKSYSWGLSPNTYFLSPGQPPQAPLTHLLVINKTGSSIENFIHSLRQQNIALEVDAFGIRRGANEPSYNGAITVLGDDKHQRFSIACNTKRLNCFPVLMDIISNGLLGVFNSSEHIQTDRSTYFEESMSEEYESMSNPFFWIPGAACFTPFIAMSSIGDYKKKAHSQLRISGLHPSAYWLGQALVDVPLYFLILLVMQIMDYIFNPDELIVIIQNLLIQILCSIGHVMSLIFLTYVISFIFRNGRKNSGLWSFFFLIVTIFLIVFIEITNYGFLGLLICTILIPPFTLIGSLLIFSEVSPDLVEYIGASEEYLLYLALLIPYLQSFIFLFILRCLEMNFRKKLMRKDPIFRISPRSSKFFPNPEEPEGEDEDVQMERMRTANAVTIPDSDEVELLAIVFIIYYCLSDKHNGQKKNCFAKKKKKKVATRNVSFCVKKGEVIGLLGHNGAGKSTTIKMITGDSTPTAGEVILKRNSGGDALKFLGYCPQQENLWPNLTVREHLDVFAAVKGLRKADAAVAITRLVEALKLQEEnullKRPVKALSEGIKRKLCFALSILGNPSVVLLDEPSTGMDPAGQQQMWQAIRATFRNTERGALLTTHYMAEAEAVCDRVAIMVSGRLRCIGSIQHLKSKFGKDYLLEMKVKTLAHVEPLHSEILRLFPQAARQERYSSLMVYKLPVEDVRPLLQAFFKLEIVKQSFDLEEYSLSQSTLEQVFLELSKEQELEDFDEEVDLSVRWKLLQQEEP

Target ORF information:

RefSeq Version	XM_005861819.2
Organism	Myotis brandtii(Brandt's bat)
Definition	Myotis brandtii ATP-binding cassette, sub-family A (ABC1), member 9 (ABCA9), mRNA.

Target ORF information:

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

XM_005861819.2

ORF Insert Sequence:

ATGCTGGTCA GAATGAGCAA GAGGCACATC AGCGTGGGTC AGCAAACATG GGCCCTTCTC 
TGCAAGAATT TTCTTAAAAA ATGGAGGATG AAGAGAGAAA CCTTCTTGGA ATGGTTTTTC 
TCATTTCTCC TGGTGTTATT TGCATACCTG TTTTCTTCCA GTATACATTA CACTGATAAC 
TTTCCTCAAG TGCCTGCAAT ATATCTGGGG CGTGTAGATC ATTTTAATGA TTCTAATTAC 
GTTATTGCAT TTGCACCCAA ATCCAAAACT ACCCAGGAGA TCATGAGCAA AGTAGCATCA 
GTCCCATTTA TGAAAGGAAG GACAATCACG GGGTGGCCTG ATGAGGAAAG CATGAATGCA 
TTGAATTTAA ACTATTCTAT AGATGCAGTG AGAGTCATCT TTGATGATAA CTTCTCATAT 
CATTTAAAGT TTGTCTGGGG AGGTAGAATC CCCAAGATGA AGGAATACAG AGACCATTCA 
GCTCATTGTC AAACATCAAA TGAAAATGTT GCCTGTGAAG GTTCATTGTT CTGGAAAAAA 
GGCTTTATAG CTTTTCAAGC TGCCATTAAT GCTGCTATCA TAGAAATCAC AACAAATCAC 
TCGGTGATGG AAGAGCTCAT GTCAGTCACT GGTTTAAATA TGAAGATATT ACCCTTTGTT 
GCCCAAGCAG GGGTTGGGAC CGATATTTTC ATTTTCTTCT GCATTATTTC TTTTTCTACA 
TTCATCTACT ATGTATCAGT CAACGTTGCC AAAGAAAGAC AATACATTAA GTCATTGATG 
ACCATGATGG GACTTCAAGA GTTAGCATTC TGGCTCTCCT GGAGTGTGAT GTACGCTGGC 
TTCATCTTTA TTATGGCGAT TCTGGTGGCT CTTGTTGTAA AATCTACCCG TGTTGTCGTC 
CTCACTAGCT TTGTGGTGGT CTTCATGCTC ATTCTCCTCT ACGGCTTGTC TTTGATAACT 
TTAGCTTTCA TGATGAGCGT CCTGATAAAG AAACCATTCC TTACCGGCTT TGTCGTCTTT 
CTGCTCACGG TCGTTTGGGG GAGCCTGGGT TTCACGGCGT TGTATAGGCA TCTCCCTGCC 
TTTTTGGAAT GGACGTTGTG TCTTCTTAGC CCCTTTGCTT TCACTGTCGG GATGTCCCAG 
CTTATACATT TGGACTATGA TGTGAATGCT AACACCCATT TGGACTCTTC AAGCAACCCA 
AACCTAATAA TAGCTACTTG TTTCATGTTG GTTTTTGATA CTTTTCTCTA TTTGGCATTG 
ACATTATATT TTGGCAAAGT TTTGCCCACT GAACATGGAC GTCGACATTC TCCCTGGTTT 
TTCCTGAAAC CCTCTTTTTG GTTTCAACAC CGAAGAGCTG ACCACGTGGC CCTTGAGAAT 
GAAATAGATT CAGATTCTTC ATCCAATGAC TCTTTTGAAC CAGTGTCTCC AGAATTCCAT 
GGGAAAGAAG CCATCAGAAT AAAAAATCTT AAAAAGGAAT ATAAAAAAGG AAAGCATGAA 
AAAGTAGAAG CTTTGAAAGG TCTGGTATTT GACATATATG AAGGCCAGAT CACTGCACTC 
CTTGGTCACA GTGGAGCTGG GAAAACGACC CTGTTAAACA TACTCAGTGG ATTGTCGGAC 
CCAACATCAG GTTCGGTCAC CATCTACAAC CACTCACTTT CAGAAACGGC TGACTTGGAG 
ACTGTCAGCA TGCTCACTGG AGTCTGCCCG CAATCCAATG TGCAATTCGG CTTCCTGACA 
GTGAGGGAAA ACCTCAGGCT CTTTGCCAAA ATAAAAGGGA TCCAGCCGCA GGAAGTGGAA 
CGAGAGGTAC AACAAGTTTT ACAGGACTTG GAAATGGAAA ATATTCAAGA CATTCTTGCT 
CAAAATTTAA GCGGTGGACA AAAAAGGAAG CTAACTTTTG GAACTGCCAT TTTAGGAGAT 
CCTCAGATTT TGCTACTGGA TGAACCAACC GCTGGATCAG ATCCTCTCTC AAGGCACCGT 
GTGTGGAACC TTCTTAAAGA GAGGAAATCA AACAGAGTCA TCCTCTTCAG CACCCAGTTC 
ATGGATGAGG CTGACATCCT GGCTGACCGA AAGGTGTTTA TATCTAATGG GAAGCTGAGG 
TGTGCAGGCT CGTCTCTATT CCTGAAGAAG AAATGGGGCA TCGGCTACCA TTTAAGTTTG 
CATTTGAATG AAATGTGTGA TCCAGACAAT ATAACATCGC TTGTTAAACA GCACATCCCT 
GATGCCAAAT TAACAGCACA AAGTGAAGAA AAGCTTGTAT ATATTTTGCC CTTGGAAAGG 
ACAAACAAAT TCCCAGACCT TTACAGGGAT CTTGATAGAT GGTCTCACCA AGGCGTTGAG 
AATTACGGTG TTTCCATGAC AACTTTGAAT GAGGTGTTCT TGAAGCTAGA AGGAAAATCA 
GCTATTGATG AATCAGATAT TGGAATTTGG ACACAGTTAC AAAGTGATAG GACAAGAGAC 
ACAGGAGGCC TTGTTGAGCT GGAACAAGTT TTGTCTTCCT TTAATGAGAC AAAGAAAGCA 
GCCAGCGGCA TGGCTCTCTG GAGGCAGCAG ACCTGTGCAA TAGCCAAAGT TCGCTTCCTA 
AAGTTAAAGA ATGAAAAAAA AACTATGATG ACCATATTAC TGCTTTTGTG CATTAGCCTT 
TTCCCTCAGC TTTTGGAATA TCTATTCTAT GAGATATATT CGAAGAGTTA TTCTTGGGGA 
CTGTCTCCCA ATACGTACTT CCTCTCACCA GGACAACCGC CTCAAGCTCC TCTGACACAC 
TTACTGGTCA TCAATAAAAC AGGGTCGAGC ATTGAAAACT TTATACATTC ACTGAGGCAG 
CAGAACATAG CTTTGGAAGT GGATGCCTTT GGAATTCGAC GTGGTGCCAA CGAGCCATCA 
TACAACGGTG CTATCACGGT GTTAGGTGAT GACAAGCACC AGAGATTTTC AATAGCATGC 
AATACCAAAA GGCTGAATTG CTTCCCTGTC CTCATGGACA TCATTAGCAA TGGGCTACTT 
GGAGTTTTTA ATTCTTCAGA ACACATCCAG ACAGACAGAA GCACGTATTT TGAAGAGTCC 
ATGTCTGAGG AGTATGAGTC CATGAGCAAT CCCTTCTTCT GGATACCTGG GGCAGCCTGT 
TTTACTCCTT TCATTGCCAT GAGCAGCATC GGTGACTATA AAAAAAAAGC TCACTCCCAG 
CTCCGGATCT CAGGCCTCCA CCCTTCCGCT TACTGGCTTG GGCAGGCGTT GGTGGACGTC 
CCACTGTACT TCTTGATCCT CCTTGTGATG CAAATAATGG ATTACATTTT TAACCCAGAT 
GAACTGATAG TTATAATCCA AAACTTGTTA ATTCAGATCC TGTGTAGTAT TGGACATGTC 
ATGTCTCTTA TTTTCTTGAC TTATGTGATT TCATTCATTT TTCGCAATGG GAGGAAAAAT 
AGTGGCCTTT GGTCATTTTT CTTCTTAATT GTCACCATCT TCTTGATAGT TTTTATTGAA 
ATAACTAATT ATGGATTTCT AGGGCTGTTA ATCTGCACCA TATTGATCCC GCCTTTCACA 
CTGATTGGCT CTCTATTAAT TTTCTCGGAG GTTTCTCCTG ACTTGGTGGA ATATATAGGA 
GCTTCAGAGG AGTATCTGCT ATATCTGGCA TTGCTGATAC CTTACCTTCA ATCTTTCATT 
TTCCTTTTCA TTCTACGGTG TCTGGAAATG AACTTTAGGA AGAAATTGAT GAGAAAGGAT 
CCTATATTCA GAATTTCACC AAGAAGCAGT AAGTTTTTTC CAAACCCAGA GGAACCGGAA 
GGGGAGGATG AAGACGTTCA GATGGAAAGA ATGAGAACAG CGAATGCTGT GACGATCCCG 
GACTCTGATG AGGTGGAACT ACTAGCAATA GTCTTCATCA TATACTACTG TCTGTCAGAT 
AAACATAATG GGCAAAAGAA AAACTGCTTT GCCAAGAAGA AGAAGAAGAA AGTTGCCACA 
AGAAATGTCT CTTTCTGTGT TAAAAAAGGT GAAGTTATAG GTCTGTTAGG ACACAATGGA 
GCTGGTAAAA GTACAACTAT TAAGATGATA ACTGGAGACT CAACACCAAC CGCAGGAGAG 
GTGATTTTGA AAAGGAACAG CGGAGGGGAC GCCCTCAAGT TCCTGGGGTA CTGCCCTCAG 
CAGGAGAACC TGTGGCCCAA CCTGACAGTG AGGGAGCACC TGGACGTGTT CGCAGCTGTG 
AAAGGGCTGA GGAAAGCAGA CGCCGCCGTC GCCATCACAC GGTTGGTGGA GGCGCTCAAG 
CTGCAGGAGG AGNAGAAGCG CCCTGTGAAG GCCTTATCAG AGGGAATCAA GAGAAAGCTG 
TGCTTCGCGC TGAGCATCCT GGGAAACCCA TCGGTGGTGC TGCTGGACGA GCCGTCCACA 
GGCATGGACC CCGCGGGGCA GCAGCAGATG TGGCAGGCCA TCCGGGCCAC CTTTAGAAAC 
ACGGAGAGGG GCGCCCTCCT GACCACCCAT TACATGGCGG AGGCGGAGGC CGTGTGTGAC 
CGTGTGGCCA TCATGGTGTC CGGGAGGCTG AGGTGTATCG GTTCCATCCA GCACCTGAAG 
AGCAAATTTG GCAAGGATTA CCTGCTGGAG ATGAAGGTGA AGACCCTCGC CCACGTGGAG 
CCCCTGCACA GCGAAATCCT GAGGCTCTTC CCCCAGGCTG CTCGGCAGGA AAGGTACTCC 
TCCCTGATGG TCTATAAGTT GCCTGTTGAG GATGTGAGAC CTTTATTGCA GGCTTTCTTC 
AAATTAGAGA TCGTTAAACA GAGCTTCGAC CTGGAGGAGT ACAGCCTGTC ACAGTCCACC 
CTGGAGCAGG TCTTCCTGGA GCTCTCCAAG GAGCAGGAGC TGGAGGACTT TGATGAGGAA 
GTTGATCTCT CTGTGAGGTG GAAGCTCCTC CAGCAGGAAG AGCCCTAA