NFAT5 cDNA ORF clone, Phalacrocorax carbo(great cormorant)

Gene
Clones
gRNAs

Summary

Gene Symbol	NFAT5
Entrez Gene ID	104047310
Full Name	nuclear factor of activated T cells 5
Gene Type	protein-coding
Organism	Phalacrocorax carbo(great cormorant)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009507603.1	XP_009505898.1	LOW QUALITY PROTEIN: nuclear factor of activated T-cells 5

Pathways from BioSystems
Gene Ontology

The following NFAT5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NFAT5 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
OPh215807	XM_009507603.1 Latest version!	Phalacrocorax carbo nuclear factor of activated T-cells 5, tonicity-responsive (NFAT5), 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)

NFAT5 ( XM_009507603.1 ) cDNA ORF clone, Phalacrocorax carbo(great cormorant) -> XP_009505898.1 Phalacrocorax carbo nuclear factor of activated T-cells 5, tonicity-responsive (NFAT5), mRNA.

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CloneID	OPh215807
Clone ID Related Accession (Same CDS sequence)	XM_009507603.1
Accession Version	XM_009507603.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4386bp) 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	2014-10-07
Organism	Phalacrocorax carbo(great cormorant)
Product	LOW QUALITY PROTEIN: nuclear factor of activated T-cells 5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009158494.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Phalacrocorax carbo Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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##

ATGAGCCAAA CAAGCGGTGG CGAGGCAGGT TCGCCGCCTC CAGCTGTAGT AGCTGCTGAT 
GCTTCTTCAG CTCCTTCCTC TTCCTCCATG GGCGGTGCTT GCAGCTCCTT TACCACCTCT 
TCCAGTCCTA CCATTTACTC TACCTCAGTC ACCGACAGCA AGGCTATGCA AGTGGAGAGC 
TGCTCCTCAG CCGTGGGGGT AAGTACCAGA GGGGTAAGTG AAAAGCAGTT AACCAGTAAC 
ACAGCCCAGC AGCAGCAGTC AACGCCGAAG AGACACACAG TCCTGTACAT CTCGCCACCA 
CCTGAGGACT TGCTGGACAA CAGTCGGATG TCCTGCCAGG ATGAGGGGTG TGGATTGGAG 
TCAGAACAGA GCTGCAGTAT GTGGATGGAG GATTCACCCT CCAACTTCAG TAACATGAGT 
ACCAGTTCCT ACAATGATAA CACTGAGGTG CCACGTAAAT CACGCAAACG AAATCCAAAG 
CAGAGGCCAG GGATCAAACG TCGAGATTGT GAAGAGTCCA ACATGGATAT ATTTGATGCC 
GACAGTGCCA AAGCGCCTCA CTATGTCCTT TCTCAGCTCA GCACGGACAG CAAAGGCAAC 
TCAAAAGCAG GAAATGGAGC ATCAGAGAAC CAGAAGGGAG CTGGAGGGAA GAAGACCCCA 
ATGTTGTGTG GTCAGTATCC GACCAAGAGT GAGGGGAAGG AGCTGAAGAT AGTGGTACAG 
CCGGAAACCC AGCACAGGGC TCGCTATCTG ACTGAAGGCA GCCGAGGCTC AGTGAAAGAC 
CGGACGCAAC AAGGTTTTCC AACTGTAAAG CTGGAAGGTC ACAACGAGCC AGTGGTGCTG 
CAGGTATTTG TGGGTAACGA CTCCGGTCGA GTGAAGCCGC ATGGGTTCTA CCAGGCCTGC 
AGAGTTACTG GGAGAAACAC TACTCCCTGT AAAGAAGTGG ATATAGAGGG GACGACTGTT 
ATTGAGGTCG GACTGGAGCC GAGCAACAAC ATGACACTTG CGGTTGATTG CGTGGGAATA 
CTGAAGCTGA GAAATGCTGA TGTTGAAGCT AGGATAGGGA TTGCTGGTTC CAAGAAAAAA 
AGCACACGCG CTAGGCTGGT ATTTCGTGTT AACATCAATC GCAAGGATGG CTCAACTTTG 
ACTCTTCAGA CACCTTCTTC CCCAATTTTG TGCACTCAAC CAGCAGGAGT TCCTGAGATC 
CTAAAGAAAA GTCTGCACAG TTGTTCAGTG AAGGGTGAAG AGGAAGTTTT TCTGATCGGC 
AAGAACTTTC TAAAGGGAAC AAAAGTGATT TTCCAAGAGA ACGTTTCTGA TGAGAATTCT 
TGGAAGGCAG AAGCTGAAAT AGACATGGAA TTATTTCATC AGAATCACCT TATTGTGAAG 
GTGCCGCCAT ATCATGACCA GCAAATAACC TCCGCTGTTT CTGTGGGAAT ATATGTGGTG 
ACCAATGCTG GAAGATCACA CGATGTGCAA CCATTTACGT ACACTCCAGA TACATCTGGT 
ACTCTGAATG TTAATGTGAA AAAGGAAATC TCCAGCCCAG CTCAGCATTG TTCCTTTGAA 
GAGGCTATAA AAGCAGTGAA GGCTACTGGG TGTAACCTGG AGAAGGTAAA CATGCTTCCT 
AGTGCCTTGA TAACTCCACT CATACCAAGC AGTATGATTA AGAAGGAAGA TGTGGCTCCA 
ATGGAAGTAA GTGCAGAAAA AAGATCTCCC CCGGTCTTCA AGGCTTCAAA TGTGGTTGGA 
CCAACTCAAC AAACATTGGA AAACAGTATG TCTGGCATAT CAACTTCTGC TTCCCATCTA 
CCTTCTGAAA ATGAAAACCA GCAACAAATA CAGCCGAAGG TGTATAATCC AGAGACACTA 
ACTACTATCC AAACGCAGGA CATTTCCCAG CCTGGTAGCT TTTCAGCAGT CTCTGCTCCG 
GCTCAGCTGC AGAACAGTGA TGCATTATTG CAGCAAGCTG CACAGTTCCA AACAAGAGAT 
TCCCAAACCA GGGAAGTCTT GCAATCAGAT GGCACGGTAG TCACTTTGTC ACAGTTAACT 
GATGCATCAC AACAGCAACA GTCTACGCTT TCAGAACCCG CACAGGCATT GCAGCAACAG 
ATTTCATCAA GTATTTTCTC GTCAGCCAGC GGCGTGAGTC AGTTACAGAA CACTATACAG 
CAACTGCAAG CTGGAAATTT TCCAACTAAC ACTGCCACTG GCAGCAATAG AAATGTTGAC 
TTGGTGCAAC AGGTATTGGA AGCTCAACAG CAGTTATCTT CTGTTTTATT TTCTGGTTCA 
GACAGCAGTG AGGATGTTCA AGATCAGCTA AACGCAGATA TCTTTCAGCA AGTTAGCCAG 
ATACAAAATA GCGTCAATTC TGGGATATTT TCCTCATCAG ACACAGCTGT CCATTCCAGA 
CCAGAAAACC TTTTGCCCGG TCGAGCTGAA AACGTTCACT CGCAGCCTGA AAATGCGTTG 
TCCAATCAAC AACAACAGCA GCAGCAGCAG CAGCAGGCGA TGGAGACTTC TGCAGCAATG 
GTGATAGGAA TCCAGCAAAA CATTTGCCAA GCTGCAACGC AGATGCAGTC TGATTTGTTC 
TCTTCAACAA CTTCAGGGAA CGGCGCCCTC CAACAGTCAC CTGTTTACCA GCAGGCTTCT 
CACATAATGA GTGGGTTGTC AACAAGCGAA GACATGCAAA TGCAGTGTGA ATTATTCTCT 
TCATCTCCTG GCGTTTCTGG AAGTGAAACT ACTCCTATTG CTCAGCAGCA GGTCTCCAAC 
AACGGACCTA CTATGTTTCC GGCATCAAAT TCTGCAGATG GAGAAGAAGC TTCAGGTCAG 
AGTAAACAGA TGCAAAGTAC TGTATTTCAG ACAATGGTTC AAATGCAGCA CAGTGGAGAA 
GGTCAATCTC AAGTTAATCT CTTTTCATCT ACCAAAACCA TGATGACTGT TCAGGCAAGT 
GGAACTCAAC AACAAGGAGG TGGTCTGTTC CAGCAGGGTG GAGAAATCAT GTCTATTCAG 
TCGGGAAGCT TTATGCAGCA GTCTCCACAT TCACAAGCTC AGCTTTTTCA CTCTCAGAAT 
CCTATTGGTG ATGCTCAAAA TATATCACAG GAAGCACAAG GCTCTATTTT TCACAGTCCA 
AATTCCATTG TCCACAACCA GACCAGTACT AATTCCTCAG ACCAACTGCA GCCTCCAATG 
TTCCACTCGC AGAACGCCAT GGGGGTATTA CAGAGCTCTT CAGTTCCTCA AGACCAGCAG 
TCTGCCAACA TGTTCCTTTC CCAGAGTTCA ATGAGCAACG CTGCAACTCA GGAAGAACAG 
ATGTCATTCT TTACAAGCCC AAATTCCATT TCTCCTCTGC AGACAGCAAC AAACACTGAA 
CAGCAGACTT CTTTCCAGCA GCAGACACAG ATATCTCATA TCCAGAGTTC TATGCTTCCC 
CAAGAACAGC CCCAGACTCA GCCTGCTCAG CAAGGTTTGT TTCAGTCTCA AGTGTCATTA 
GGCTCCATCC AGTCCAGCTC AATTCCCCAG AACCAACAAG GAGCTATCTT CCAGCCTCAG 
CATTCGATAG TTGCTATTCA GAGTAGCCCT CCATCTCAAG AGCAGCAGCA GCAGCAACAG 
CAGAACATGA TGTTCAGTAA TCAAAACGCA ATGAGTACAA TTGCCTCTCA AAAGCAGAAC 
ATGATTTTCA ATCCAAATCA AAACCCAGTT ACCAATCAGG AGCAGCAAGG CCAGTCCATT 
TTTCATCCAC AGACTAACAT GGCGCCGATG AACCAGGAGC AGCAGCCCAT GCAATTCCAG 
AGTCAGACTA CAGTGTCTTC TCTTCAGAAT CCTGGATCCA ACCAGGCTGA AGCACAGCAG 
CCAGCCATCT TCCATAACTC GCCCCAGATT CAGCTGGTCC AAGGCTCACC GAGTTCTCAA 
GAGCAACAAG TCACCCTCTT CATCTCTTCA GCTTCCATGT CTGCCTTGCA GAACAGCATG 
AGCCAGCAAG AGCTGCAGCC GTCTCCCATG TACTCTTCTC AAAAGNNAAT GCAAGGAACT 
GCTTCTCCTC CGCAGCAACA AGCTGCTTTA TTTCACAACA CAGCAGGAGG TGCTATCAAC 
CAGCTGCAGA GTTCTCCTGC TTCGTCTCAG CAAACATCGG GAATATTCCT CTTTGGCATT 
CAAAACAACT GTGGGCAGCT GCTAACTTCT GGACCAGCTA CGTTGCCGGA TGAGTTGATG 
GCTATAAGTC AGCCAGGTCA GCCGCAGAGC GAGGGACAAG CAGCAGTGCC AGCGCTGCTC 
TCCCAGCAGA TATCCGAGAC TTCTCCACTA CCCTCAGCTA TGGCAACCAA TCAGAATATT 
GAGAAAATAG ATGATCTGCT TGTGTCATTG CAAAACCAAG GGAACAATAT GGCTGGCTCG 
TTTTAA

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

RefSeq	XP_009505898.1
CDS	79..4464
Translation	MSQTSGGEAGSPPPAVVAADASSAPSSSSMGGACSSFTTSSSPTIYSTSVTDSKAMQVESCSSAVGVSTRGVSEKQLTSNTAQQQQSTPKRHTVLYISPPPEDLLDNSRMSCQDEGCGLESEQSCSMWMEDSPSNFSNMSTSSYNDNTEVPRKSRKRNPKQRPGIKRRDCEESNMDIFDADSAKAPHYVLSQLSTDSKGNSKAGNGASENQKGAGGKKTPMLCGQYPTKSEGKELKIVVQPETQHRARYLTEGSRGSVKDRTQQGFPTVKLEGHNEPVVLQVFVGNDSGRVKPHGFYQACRVTGRNTTPCKEVDIEGTTVIEVGLEPSNNMTLAVDCVGILKLRNADVEARIGIAGSKKKSTRARLVFRVNINRKDGSTLTLQTPSSPILCTQPAGVPEILKKSLHSCSVKGEEEVFLIGKNFLKGTKVIFQENVSDENSWKAEAEIDMELFHQNHLIVKVPPYHDQQITSAVSVGIYVVTNAGRSHDVQPFTYTPDTSGTLNVNVKKEISSPAQHCSFEEAIKAVKATGCNLEKVNMLPSALITPLIPSSMIKKEDVAPMEVSAEKRSPPVFKASNVVGPTQQTLENSMSGISTSASHLPSENENQQQIQPKVYNPETLTTIQTQDISQPGSFSAVSAPAQLQNSDALLQQAAQFQTRDSQTREVLQSDGTVVTLSQLTDASQQQQSTLSEPAQALQQQISSSIFSSASGVSQLQNTIQQLQAGNFPTNTATGSNRNVDLVQQVLEAQQQLSSVLFSGSDSSEDVQDQLNADIFQQVSQIQNSVNSGIFSSSDTAVHSRPENLLPGRAENVHSQPENALSNQQQQQQQQQQAMETSAAMVIGIQQNICQAATQMQSDLFSSTTSGNGALQQSPVYQQASHIMSGLSTSEDMQMQCELFSSSPGVSGSETTPIAQQQVSNNGPTMFPASNSADGEEASGQSKQMQSTVFQTMVQMQHSGEGQSQVNLFSSTKTMMTVQASGTQQQGGGLFQQGGEIMSIQSGSFMQQSPHSQAQLFHSQNPIGDAQNISQEAQGSIFHSPNSIVHNQTSTNSSDQLQPPMFHSQNAMGVLQSSSVPQDQQSANMFLSQSSMSNAATQEEQMSFFTSPNSISPLQTATNTEQQTSFQQQTQISHIQSSMLPQEQPQTQPAQQGLFQSQVSLGSIQSSSIPQNQQGAIFQPQHSIVAIQSSPPSQEQQQQQQQNMMFSNQNAMSTIASQKQNMIFNPNQNPVTNQEQQGQSIFHPQTNMAPMNQEQQPMQFQSQTTVSSLQNPGSNQAEAQQPAIFHNSPQIQLVQGSPSSQEQQVTLFISSASMSALQNSMSQQELQPSPMYSSQKnullMQGTASPPQQQAALFHNTAGGAINQLQSSPASSQQTSGIFLFGIQNNCGQLLTSGPATLPDELMAISQPGQPQSEGQAAVPALLSQQISETSPLPSAMATNQNIEKIDDLLVSLQNQGNNMAGSF

Target ORF information:

RefSeq Version	XM_009507603.1
Organism	Phalacrocorax carbo(great cormorant)
Definition	Phalacrocorax carbo nuclear factor of activated T-cells 5, tonicity-responsive (NFAT5), mRNA.

Target ORF information:

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

XM_009507603.1

ORF Insert Sequence:

ATGAGCCAAA CAAGCGGTGG CGAGGCAGGT TCGCCGCCTC CAGCTGTAGT AGCTGCTGAT 
GCTTCTTCAG CTCCTTCCTC TTCCTCCATG GGCGGTGCTT GCAGCTCCTT TACCACCTCT 
TCCAGTCCTA CCATTTACTC TACCTCAGTC ACCGACAGCA AGGCTATGCA AGTGGAGAGC 
TGCTCCTCAG CCGTGGGGGT AAGTACCAGA GGGGTAAGTG AAAAGCAGTT AACCAGTAAC 
ACAGCCCAGC AGCAGCAGTC AACGCCGAAG AGACACACAG TCCTGTACAT CTCGCCACCA 
CCTGAGGACT TGCTGGACAA CAGTCGGATG TCCTGCCAGG ATGAGGGGTG TGGATTGGAG 
TCAGAACAGA GCTGCAGTAT GTGGATGGAG GATTCACCCT CCAACTTCAG TAACATGAGT 
ACCAGTTCCT ACAATGATAA CACTGAGGTG CCACGTAAAT CACGCAAACG AAATCCAAAG 
CAGAGGCCAG GGATCAAACG TCGAGATTGT GAAGAGTCCA ACATGGATAT ATTTGATGCC 
GACAGTGCCA AAGCGCCTCA CTATGTCCTT TCTCAGCTCA GCACGGACAG CAAAGGCAAC 
TCAAAAGCAG GAAATGGAGC ATCAGAGAAC CAGAAGGGAG CTGGAGGGAA GAAGACCCCA 
ATGTTGTGTG GTCAGTATCC GACCAAGAGT GAGGGGAAGG AGCTGAAGAT AGTGGTACAG 
CCGGAAACCC AGCACAGGGC TCGCTATCTG ACTGAAGGCA GCCGAGGCTC AGTGAAAGAC 
CGGACGCAAC AAGGTTTTCC AACTGTAAAG CTGGAAGGTC ACAACGAGCC AGTGGTGCTG 
CAGGTATTTG TGGGTAACGA CTCCGGTCGA GTGAAGCCGC ATGGGTTCTA CCAGGCCTGC 
AGAGTTACTG GGAGAAACAC TACTCCCTGT AAAGAAGTGG ATATAGAGGG GACGACTGTT 
ATTGAGGTCG GACTGGAGCC GAGCAACAAC ATGACACTTG CGGTTGATTG CGTGGGAATA 
CTGAAGCTGA GAAATGCTGA TGTTGAAGCT AGGATAGGGA TTGCTGGTTC CAAGAAAAAA 
AGCACACGCG CTAGGCTGGT ATTTCGTGTT AACATCAATC GCAAGGATGG CTCAACTTTG 
ACTCTTCAGA CACCTTCTTC CCCAATTTTG TGCACTCAAC CAGCAGGAGT TCCTGAGATC 
CTAAAGAAAA GTCTGCACAG TTGTTCAGTG AAGGGTGAAG AGGAAGTTTT TCTGATCGGC 
AAGAACTTTC TAAAGGGAAC AAAAGTGATT TTCCAAGAGA ACGTTTCTGA TGAGAATTCT 
TGGAAGGCAG AAGCTGAAAT AGACATGGAA TTATTTCATC AGAATCACCT TATTGTGAAG 
GTGCCGCCAT ATCATGACCA GCAAATAACC TCCGCTGTTT CTGTGGGAAT ATATGTGGTG 
ACCAATGCTG GAAGATCACA CGATGTGCAA CCATTTACGT ACACTCCAGA TACATCTGGT 
ACTCTGAATG TTAATGTGAA AAAGGAAATC TCCAGCCCAG CTCAGCATTG TTCCTTTGAA 
GAGGCTATAA AAGCAGTGAA GGCTACTGGG TGTAACCTGG AGAAGGTAAA CATGCTTCCT 
AGTGCCTTGA TAACTCCACT CATACCAAGC AGTATGATTA AGAAGGAAGA TGTGGCTCCA 
ATGGAAGTAA GTGCAGAAAA AAGATCTCCC CCGGTCTTCA AGGCTTCAAA TGTGGTTGGA 
CCAACTCAAC AAACATTGGA AAACAGTATG TCTGGCATAT CAACTTCTGC TTCCCATCTA 
CCTTCTGAAA ATGAAAACCA GCAACAAATA CAGCCGAAGG TGTATAATCC AGAGACACTA 
ACTACTATCC AAACGCAGGA CATTTCCCAG CCTGGTAGCT TTTCAGCAGT CTCTGCTCCG 
GCTCAGCTGC AGAACAGTGA TGCATTATTG CAGCAAGCTG CACAGTTCCA AACAAGAGAT 
TCCCAAACCA GGGAAGTCTT GCAATCAGAT GGCACGGTAG TCACTTTGTC ACAGTTAACT 
GATGCATCAC AACAGCAACA GTCTACGCTT TCAGAACCCG CACAGGCATT GCAGCAACAG 
ATTTCATCAA GTATTTTCTC GTCAGCCAGC GGCGTGAGTC AGTTACAGAA CACTATACAG 
CAACTGCAAG CTGGAAATTT TCCAACTAAC ACTGCCACTG GCAGCAATAG AAATGTTGAC 
TTGGTGCAAC AGGTATTGGA AGCTCAACAG CAGTTATCTT CTGTTTTATT TTCTGGTTCA 
GACAGCAGTG AGGATGTTCA AGATCAGCTA AACGCAGATA TCTTTCAGCA AGTTAGCCAG 
ATACAAAATA GCGTCAATTC TGGGATATTT TCCTCATCAG ACACAGCTGT CCATTCCAGA 
CCAGAAAACC TTTTGCCCGG TCGAGCTGAA AACGTTCACT CGCAGCCTGA AAATGCGTTG 
TCCAATCAAC AACAACAGCA GCAGCAGCAG CAGCAGGCGA TGGAGACTTC TGCAGCAATG 
GTGATAGGAA TCCAGCAAAA CATTTGCCAA GCTGCAACGC AGATGCAGTC TGATTTGTTC 
TCTTCAACAA CTTCAGGGAA CGGCGCCCTC CAACAGTCAC CTGTTTACCA GCAGGCTTCT 
CACATAATGA GTGGGTTGTC AACAAGCGAA GACATGCAAA TGCAGTGTGA ATTATTCTCT 
TCATCTCCTG GCGTTTCTGG AAGTGAAACT ACTCCTATTG CTCAGCAGCA GGTCTCCAAC 
AACGGACCTA CTATGTTTCC GGCATCAAAT TCTGCAGATG GAGAAGAAGC TTCAGGTCAG 
AGTAAACAGA TGCAAAGTAC TGTATTTCAG ACAATGGTTC AAATGCAGCA CAGTGGAGAA 
GGTCAATCTC AAGTTAATCT CTTTTCATCT ACCAAAACCA TGATGACTGT TCAGGCAAGT 
GGAACTCAAC AACAAGGAGG TGGTCTGTTC CAGCAGGGTG GAGAAATCAT GTCTATTCAG 
TCGGGAAGCT TTATGCAGCA GTCTCCACAT TCACAAGCTC AGCTTTTTCA CTCTCAGAAT 
CCTATTGGTG ATGCTCAAAA TATATCACAG GAAGCACAAG GCTCTATTTT TCACAGTCCA 
AATTCCATTG TCCACAACCA GACCAGTACT AATTCCTCAG ACCAACTGCA GCCTCCAATG 
TTCCACTCGC AGAACGCCAT GGGGGTATTA CAGAGCTCTT CAGTTCCTCA AGACCAGCAG 
TCTGCCAACA TGTTCCTTTC CCAGAGTTCA ATGAGCAACG CTGCAACTCA GGAAGAACAG 
ATGTCATTCT TTACAAGCCC AAATTCCATT TCTCCTCTGC AGACAGCAAC AAACACTGAA 
CAGCAGACTT CTTTCCAGCA GCAGACACAG ATATCTCATA TCCAGAGTTC TATGCTTCCC 
CAAGAACAGC CCCAGACTCA GCCTGCTCAG CAAGGTTTGT TTCAGTCTCA AGTGTCATTA 
GGCTCCATCC AGTCCAGCTC AATTCCCCAG AACCAACAAG GAGCTATCTT CCAGCCTCAG 
CATTCGATAG TTGCTATTCA GAGTAGCCCT CCATCTCAAG AGCAGCAGCA GCAGCAACAG 
CAGAACATGA TGTTCAGTAA TCAAAACGCA ATGAGTACAA TTGCCTCTCA AAAGCAGAAC 
ATGATTTTCA ATCCAAATCA AAACCCAGTT ACCAATCAGG AGCAGCAAGG CCAGTCCATT 
TTTCATCCAC AGACTAACAT GGCGCCGATG AACCAGGAGC AGCAGCCCAT GCAATTCCAG 
AGTCAGACTA CAGTGTCTTC TCTTCAGAAT CCTGGATCCA ACCAGGCTGA AGCACAGCAG 
CCAGCCATCT TCCATAACTC GCCCCAGATT CAGCTGGTCC AAGGCTCACC GAGTTCTCAA 
GAGCAACAAG TCACCCTCTT CATCTCTTCA GCTTCCATGT CTGCCTTGCA GAACAGCATG 
AGCCAGCAAG AGCTGCAGCC GTCTCCCATG TACTCTTCTC AAAAGNNAAT GCAAGGAACT 
GCTTCTCCTC CGCAGCAACA AGCTGCTTTA TTTCACAACA CAGCAGGAGG TGCTATCAAC 
CAGCTGCAGA GTTCTCCTGC TTCGTCTCAG CAAACATCGG GAATATTCCT CTTTGGCATT 
CAAAACAACT GTGGGCAGCT GCTAACTTCT GGACCAGCTA CGTTGCCGGA TGAGTTGATG 
GCTATAAGTC AGCCAGGTCA GCCGCAGAGC GAGGGACAAG CAGCAGTGCC AGCGCTGCTC 
TCCCAGCAGA TATCCGAGAC TTCTCCACTA CCCTCAGCTA TGGCAACCAA TCAGAATATT 
GAGAAAATAG ATGATCTGCT TGTGTCATTG CAAAACCAAG GGAACAATAT GGCTGGCTCG 
TTTTAA