USP32 cDNA ORF clone, Cuculus canorus(common cuckoo)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP32
Entrez Gene ID	104064996
Full Name	ubiquitin specific peptidase 32
Gene Type	protein-coding
Organism	Cuculus canorus(common cuckoo)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009567418.1	XP_009565713.1	ubiquitin carboxyl-terminal hydrolase 32

Pathways from BioSystems
Gene Ontology

The following USP32 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP32 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
OCu50095	XM_009567418.1 Latest version!	Cuculus canorus ubiquitin specific peptidase 32 (USP32), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

USP32 ( XM_009567418.1 ) cDNA ORF clone, Cuculus canorus(common cuckoo) -> XP_009565713.1 Cuculus canorus ubiquitin specific peptidase 32 (USP32), mRNA.

Price & Availability↑

CloneID	OCu50095
Clone ID Related Accession (Same CDS sequence)	XM_009567418.1
Accession Version	XM_009567418.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4812bp) 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	2014-10-13
Organism	Cuculus canorus(common cuckoo)
Product	ubiquitin carboxyl-terminal hydrolase 32
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009246165.1) 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 :: Cuculus canorus 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## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTTCAGAC AGGTTTTTGC TGGCAATCAG ATTTTGATTG TGCAAGTTAC AGAAATAGAG 
CTAAAGCGAC TGAAAGATGC TTTCAAGAGA ACTTGTGGAC TCTCATATTA TATGACTCAA 
CAGTGCTTCA TCAGGGAAGT TCTCGGTGAT GGAGTCCCTC CAAAAGTTGC TGAGGTTATC 
TACTGTTCAT TTGGAGGAAT ATCCAAAGGG CTGCACTTCA ATAACCTGAT AGTTGGATTA 
GTTCTACTTA CAAGAGGCAA AGAGGAAGAG AAAACAAAAT ACATTTTCAG TCTCTTTTCT 
AATGAATCTG GGAGTTATGT TGTCCGTGAA GAAATGGAGA AGATGCTGCA TGTGGTTGAT 
GGGAAAGTCC CAGAGTCACT GAAGAAATGC TTCTCTGAGA GTGAAAAGGT AAACTATGAG 
AAGTTCAGGG CTTGGCTGCT GCACAACAAA GATGCTTTCA CGTTTTCCCG TTGGCTGCTG 
TCCGGAGGTG TGTATGTGAC ACTCACCGAT GACAGCGATA CCCCTACCTT CTATCAAACC 
CTGGCTGGAG TCACGCACTT GGAAGAATCT GACATCATTG ATCTCGAAAA ACGATACTGG 
CTGCTAAAAG CTCAATCAAG AACTGGACGT TTTGATTTAG AAACATTTGC CCCCTTAGTT 
TCCCCTCCTA TTCATCCATC TCTGAGTGAA GGTTTGTTTA ATGCTTTTGA TGAAAACCGA 
GACAATCACA TAGATTTTAA AGAAATTTCC TGTGGGCTCT CAGCATGTTG CAGGGGACCC 
TTGGCAGAAA GACAGAAGTT TTGCTTCAAG GTTTTTGACG TTGACCGGGA TGGTGTGTTG 
TCTCGCACTG AACTTAAGGA AATGGTGGTC GCACTTTTAG AGGTCTGGAA AGATAACCGT 
ACTGATAAAA TACCTGAATT GGAAATGAAT TTGTCTGAAA TTGTAGAAGA TATTTTGAAT 
ATGCACGATA CCACAAAGCT TGGACACCTC ACTCTAGAGG ACTACCAGAT ATGGAGTGTG 
AAGAGTGCAC TTGCCAATGA ATTTTTAAAT CTCCTTTTTC AGGTGTGTCA TATAGTTTTG 
GGGCTACGAC CTGCCACTCC AGAAGAGGAA GGACAGATCA TTAGAGGCTG GTTAGAAAGA 
GAAAGCAGAT ACGGCCTTCA GCCAGGGCAT AATTGGTTTC TTATTGCAAT GCCATGGTGG 
CAGCAGTGGA AGGAGTATGT CAAATATGAT GCAAACCCTG TTGTGATAGA GCCTTCATCT 
GTCTTGAGTG GAGGTAAGAA TTCACTCATA GCTGCTGCAG CCAATACTTC AGAACAGGGA 
GAAGACAAAA TGGGAGGTCT TAATTACTTC AGTACAACAG AAGAAAAGTT TTCAGATAAT 
ATTTCTACTG CATCAGAAGC GTCAGAGTCT ACTAGCAGCA ACAGTGCTTA CCCTGGCACG 
CCAGGGACTG ATGTATGTTT TGCTAGGCAG CATAATACTT CAGACAATAA TAACCAGTGT 
TTTCTTGGAA CCAACGGGAA TACTTTGCTA CAGCTTAATC CTCAGAAACC GGGAGCTATT 
GATAACCAAC CCCTAGTAAC GCAAGAACCA GTGAAGGCTG CATCATTAAC AATGGAAGGT 
GGAAGATTAA AGCGATCTCC ACAATTGATT GAAGGACAGG ACTACATAAT GGTACCAGAA 
CCTGTTTGGA GAGCACTTTA CCATTGGTAT GGAGCAAATC TGTCCTTGCC CAGGCCGGTG 
ATCAAAAACA GCAAAACAAA CGTGCCTGAA CTAGAGTTAT TTCCTCGCTA CCTGCTCTTC 
CTGAGACAGC AGCCTGCCAC TCGAACGCAG CAGTCAAACA TCTGGGTGAA TATGGGGAAT 
GTACCTTCAC CAAATGCTCC TTTAAAAAGA GTCCTGGCTT ACACCGGCTG TTTTAGTCGA 
ATGCAAACGA TTAAGGAGAT ACATGAATAT CTCTCCCAGA GGCTACGTAT AAAAGAAGAA 
GATATGCGCC TCTGGTTATA CAATAGCGAG AACTATCTTA CTCTGCTGGA TGATGAAGAT 
CACAGACTGG AGTACCTTAA AATCCAAGAT GAGCAGCATT TAGTAATAGA AGTTCGAAAC 
AAAGACATGA GCTGGCCAGA GGAAATGTCT TTTATAGCAA ACAGCAGTAA AATAGACAGA 
CATAAAGTTC CTACTGAAAA GGGGGCTACT GGATTAAGCA ATCTGGGTAA CACATGCTTC 
ATGAACTCCA GTATCCAGTG TGTCAGTAAT ACACAACCTC TAACGCGGTA TTTCATCTCA 
GGAAGACATC TTTATGAGCT TAACAGAACA AATCCAATAG GAATGAAAGG ACACATGGCC 
AAGTGCTATG GGGATTTGGT TCAGGAGTTA TGGAGTGGAA CTCAGAAGAA TATAGCACCT 
TTAAAGCTGC GGTGGACAAT AGCAAAATAT GCTCCAAGAT TTAATGGCTT TCAACAGCAA 
GACTCACAGG AGCTTCTGGC TTTTCTTTTG GATGGTCTCC ATGAGGATTT GAACAGAGTT 
CATGATAAGC CATATGTTGA ACTAAAAGAC AGCGATGGTC GACCAGACTG GGAAGTAGCA 
GCAGAGGCCT GGGAAAACCA TCTGAGAAGA AACAGATCCA TCGTCGTAGA TTTGTTTCAT 
GGGCAGCTGA AGTCACAAGT GAAATGTAAA ACTTGTGGAC ATATAAGTGT TAGGTTTGAC 
CCCTTTAATT TTTTGTCCTT GCCTTTGCCA ATGGATAGCT ACATGCACCT AGAAATTACA 
GTAATTAAAT TAGATGGTAC TACTCCTGTT CGATATGGCC TGAGATTGAA TATGGATGAA 
AAGTATACCG GTTTGAAAAA ACAGTTAAGT GAACTCTGTG GGCTAAAACC GGAACAGATT 
CTGCTTGCGG AGGTGCATAG CTCAAATATA AAGAACTTCC CTCAAGACAA CCAGAAAGTC 
CGGTTATCAG TGAGTGGGTT TTTGTGTGCA TTTGAAATCC CAATTCCAGG ATCCCCTACA 
TCAGCATCAA GTCCTGTGCA GACAGATGTC TCAACTGGGC CATCAGCTAA TGGAGCACCC 
AACATAATGA TGAATGGAGA CCTTCCTAAA CCAACCCTAA TTCCAAATGG AATGCCAAAT 
ACTGTAGTGC CATGTGGAAC AGAGCGCAAC TTTGCCAACT GGGCTCTCAA CGGTCATGTG 
CCCTTGCTTT CCGATAGTCC GTGTACAGGG TATATAATTG CAGTCCACAG AAAAATGATG 
CGGACAGAAT TATATTTTCT TTCATCTCAG AAGAATCGTC CTAGTCTTTT TGGAATGCCA 
CTAATTGTTC CTTGTACAGT TCATACACGT AAAAAAGACC TGTATGATGC CGTGTGGATT 
CAGGTTTCCA GGCTTGCTAG CCCTCTCCCG CCTCAGGAAG CTAGCAATCA CGCGCAGGAC 
TGTGACGATA GCATGGGATA TCAGTACCCA TTCACCCTAA GGGTGGTTCA GAAGGATGGA 
AATTCTTGTG CTTGGTGTCC ATGGTACAGA TTTTGCCGTG GCTGTAAAAT TGAGTGCACA 
GAAGACAGAG CTTCTGTTGG GAACGCTTAC ATTGCTGTAG ACTGGGATCC AACAGCACTC 
CATCTGCGCT ACCAGACATC GCAAGAACGG ATTGTAGAAG AACATGAAAG CGTTGAACAA 
AGTCGACGAG CTCAAGCAGA GCCCATCAAT CTGGATAGTT GTCTAAGAGC CTTCACCAGT 
GAGGAAGAAC TGGGGGAGGA TGAGATGTAC TACTGTTCCA AATGCAAGAC CCATTGTTTG 
GCCACCAAAA AACTGGATCT TTGGAGGCTT CCCCCTATTT TGATCATTCA CCTGAAAAGA 
TTTCAGTTTG TAAATGGCCG TTGGATAAAA TCTCAGAAAA TTGTTAAATT TCCCAGAGAA 
AATTTTGACC CAAGTGCCTT TTTGGTACAA AGGGATCCAA GTCATTTTCA GAGGAAGCAG 
CTAACTCTCC AGATCGAAAG CCTTCCTGAA CCACGGGCTT TCCAAGGGGA GTCTAGAAAA 
ACAGATCTGC AGATCACTTA CACACCCGGG GAAGGAGATG TACTGAACAG AAGTCCATCC 
TCCCTTAACA CTACTGTCTT GAATAATATC AAAGTNNNNN NNNNNNNNNN GAAGAGCGGA 
ACCAGCTGTC CTTCAAGTAA AAACAGTAGC CCTAACAGTA GCCCAAGGAC TTTAGGAAGA 
GGTAAAGGGC GTCTGCGGCT ACCACAGCTG GGTAAAAACA AACTGTCAAG TAGCAAAGAA 
AATTTGGATG CAAATAAAGA GAATGGTACT GACCAGGAAC AGAGATTTAC TTCTGATCAA 
GGTGATACTC TTACTAGAGG GCAGATTTTG AGTGGTAGCC AAAGTGAACT GTATACTGCT 
CAGGACAATG AGATAACTCT AGCCAACGGA TACATCTGTG AGCAGAATGC GTATAGTAAT 
GGCAGTATCA ATGGTCAAAT TGATAACCAC AGCGAGGACG ATATTACAGA TGACCAAAGA 
GATGAAGTAT GTGTTAACCC TATTTACAAC CTATATGCAA TTTCGTGCCA TTCAGGAATT 
ATGGGAGGGG GTCATTATGT CACTTACGCC AAAAACCCGA ACAACAAGTG GTACTGCTAC 
AATGACAGTA GCTGTAAGGA GCTGCATCCT GATGAAATCG ACACCGACTC TGCCTACATT 
CTTTTCTATG AGCAGCAGGG GGTAGACTAT GCACAATTTC TGCCAAAGAT AGACGGCAAA 
AAGATGGCAG ACACGAGCAG CATGGATGAA GATTTTGAGT CCGATTATAA GAAGTACTGT 
GTGTTACAGT AG

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

RefSeq	XP_009565713.1
CDS	1..4812
Translation	MFRQVFAGNQILIVQVTEIELKRLKDAFKRTCGLSYYMTQQCFIREVLGDGVPPKVAEVIYCSFGGISKGLHFNNLIVGLVLLTRGKEEEKTKYIFSLFSNESGSYVVREEMEKMLHVVDGKVPESLKKCFSESEKVNYEKFRAWLLHNKDAFTFSRWLLSGGVYVTLTDDSDTPTFYQTLAGVTHLEESDIIDLEKRYWLLKAQSRTGRFDLETFAPLVSPPIHPSLSEGLFNAFDENRDNHIDFKEISCGLSACCRGPLAERQKFCFKVFDVDRDGVLSRTELKEMVVALLEVWKDNRTDKIPELEMNLSEIVEDILNMHDTTKLGHLTLEDYQIWSVKSALANEFLNLLFQVCHIVLGLRPATPEEEGQIIRGWLERESRYGLQPGHNWFLIAMPWWQQWKEYVKYDANPVVIEPSSVLSGGKNSLIAAAANTSEQGEDKMGGLNYFSTTEEKFSDNISTASEASESTSSNSAYPGTPGTDVCFARQHNTSDNNNQCFLGTNGNTLLQLNPQKPGAIDNQPLVTQEPVKAASLTMEGGRLKRSPQLIEGQDYIMVPEPVWRALYHWYGANLSLPRPVIKNSKTNVPELELFPRYLLFLRQQPATRTQQSNIWVNMGNVPSPNAPLKRVLAYTGCFSRMQTIKEIHEYLSQRLRIKEEDMRLWLYNSENYLTLLDDEDHRLEYLKIQDEQHLVIEVRNKDMSWPEEMSFIANSSKIDRHKVPTEKGATGLSNLGNTCFMNSSIQCVSNTQPLTRYFISGRHLYELNRTNPIGMKGHMAKCYGDLVQELWSGTQKNIAPLKLRWTIAKYAPRFNGFQQQDSQELLAFLLDGLHEDLNRVHDKPYVELKDSDGRPDWEVAAEAWENHLRRNRSIVVDLFHGQLKSQVKCKTCGHISVRFDPFNFLSLPLPMDSYMHLEITVIKLDGTTPVRYGLRLNMDEKYTGLKKQLSELCGLKPEQILLAEVHSSNIKNFPQDNQKVRLSVSGFLCAFEIPIPGSPTSASSPVQTDVSTGPSANGAPNIMMNGDLPKPTLIPNGMPNTVVPCGTERNFANWALNGHVPLLSDSPCTGYIIAVHRKMMRTELYFLSSQKNRPSLFGMPLIVPCTVHTRKKDLYDAVWIQVSRLASPLPPQEASNHAQDCDDSMGYQYPFTLRVVQKDGNSCAWCPWYRFCRGCKIECTEDRASVGNAYIAVDWDPTALHLRYQTSQERIVEEHESVEQSRRAQAEPINLDSCLRAFTSEEELGEDEMYYCSKCKTHCLATKKLDLWRLPPILIIHLKRFQFVNGRWIKSQKIVKFPRENFDPSAFLVQRDPSHFQRKQLTLQIESLPEPRAFQGESRKTDLQITYTPGEGDVLNRSPSSLNTTVLNNIKnullnullnullnullnullnullKSGTSCPSSKNSSPNSSPRTLGRGKGRLRLPQLGKNKLSSSKENLDANKENGTDQEQRFTSDQGDTLTRGQILSGSQSELYTAQDNEITLANGYICEQNAYSNGSINGQIDNHSEDDITDDQRDEVCVNPIYNLYAISCHSGIMGGGHYVTYAKNPNNKWYCYNDSSCKELHPDEIDTDSAYILFYEQQGVDYAQFLPKIDGKKMADTSSMDEDFESDYKKYCVLQ

Target ORF information:

RefSeq Version	XM_009567418.1
Organism	Cuculus canorus(common cuckoo)
Definition	Cuculus canorus ubiquitin specific peptidase 32 (USP32), mRNA.

Target ORF information:

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

XM_009567418.1

ORF Insert Sequence:

ATGTTCAGAC AGGTTTTTGC TGGCAATCAG ATTTTGATTG TGCAAGTTAC AGAAATAGAG 
CTAAAGCGAC TGAAAGATGC TTTCAAGAGA ACTTGTGGAC TCTCATATTA TATGACTCAA 
CAGTGCTTCA TCAGGGAAGT TCTCGGTGAT GGAGTCCCTC CAAAAGTTGC TGAGGTTATC 
TACTGTTCAT TTGGAGGAAT ATCCAAAGGG CTGCACTTCA ATAACCTGAT AGTTGGATTA 
GTTCTACTTA CAAGAGGCAA AGAGGAAGAG AAAACAAAAT ACATTTTCAG TCTCTTTTCT 
AATGAATCTG GGAGTTATGT TGTCCGTGAA GAAATGGAGA AGATGCTGCA TGTGGTTGAT 
GGGAAAGTCC CAGAGTCACT GAAGAAATGC TTCTCTGAGA GTGAAAAGGT AAACTATGAG 
AAGTTCAGGG CTTGGCTGCT GCACAACAAA GATGCTTTCA CGTTTTCCCG TTGGCTGCTG 
TCCGGAGGTG TGTATGTGAC ACTCACCGAT GACAGCGATA CCCCTACCTT CTATCAAACC 
CTGGCTGGAG TCACGCACTT GGAAGAATCT GACATCATTG ATCTCGAAAA ACGATACTGG 
CTGCTAAAAG CTCAATCAAG AACTGGACGT TTTGATTTAG AAACATTTGC CCCCTTAGTT 
TCCCCTCCTA TTCATCCATC TCTGAGTGAA GGTTTGTTTA ATGCTTTTGA TGAAAACCGA 
GACAATCACA TAGATTTTAA AGAAATTTCC TGTGGGCTCT CAGCATGTTG CAGGGGACCC 
TTGGCAGAAA GACAGAAGTT TTGCTTCAAG GTTTTTGACG TTGACCGGGA TGGTGTGTTG 
TCTCGCACTG AACTTAAGGA AATGGTGGTC GCACTTTTAG AGGTCTGGAA AGATAACCGT 
ACTGATAAAA TACCTGAATT GGAAATGAAT TTGTCTGAAA TTGTAGAAGA TATTTTGAAT 
ATGCACGATA CCACAAAGCT TGGACACCTC ACTCTAGAGG ACTACCAGAT ATGGAGTGTG 
AAGAGTGCAC TTGCCAATGA ATTTTTAAAT CTCCTTTTTC AGGTGTGTCA TATAGTTTTG 
GGGCTACGAC CTGCCACTCC AGAAGAGGAA GGACAGATCA TTAGAGGCTG GTTAGAAAGA 
GAAAGCAGAT ACGGCCTTCA GCCAGGGCAT AATTGGTTTC TTATTGCAAT GCCATGGTGG 
CAGCAGTGGA AGGAGTATGT CAAATATGAT GCAAACCCTG TTGTGATAGA GCCTTCATCT 
GTCTTGAGTG GAGGTAAGAA TTCACTCATA GCTGCTGCAG CCAATACTTC AGAACAGGGA 
GAAGACAAAA TGGGAGGTCT TAATTACTTC AGTACAACAG AAGAAAAGTT TTCAGATAAT 
ATTTCTACTG CATCAGAAGC GTCAGAGTCT ACTAGCAGCA ACAGTGCTTA CCCTGGCACG 
CCAGGGACTG ATGTATGTTT TGCTAGGCAG CATAATACTT CAGACAATAA TAACCAGTGT 
TTTCTTGGAA CCAACGGGAA TACTTTGCTA CAGCTTAATC CTCAGAAACC GGGAGCTATT 
GATAACCAAC CCCTAGTAAC GCAAGAACCA GTGAAGGCTG CATCATTAAC AATGGAAGGT 
GGAAGATTAA AGCGATCTCC ACAATTGATT GAAGGACAGG ACTACATAAT GGTACCAGAA 
CCTGTTTGGA GAGCACTTTA CCATTGGTAT GGAGCAAATC TGTCCTTGCC CAGGCCGGTG 
ATCAAAAACA GCAAAACAAA CGTGCCTGAA CTAGAGTTAT TTCCTCGCTA CCTGCTCTTC 
CTGAGACAGC AGCCTGCCAC TCGAACGCAG CAGTCAAACA TCTGGGTGAA TATGGGGAAT 
GTACCTTCAC CAAATGCTCC TTTAAAAAGA GTCCTGGCTT ACACCGGCTG TTTTAGTCGA 
ATGCAAACGA TTAAGGAGAT ACATGAATAT CTCTCCCAGA GGCTACGTAT AAAAGAAGAA 
GATATGCGCC TCTGGTTATA CAATAGCGAG AACTATCTTA CTCTGCTGGA TGATGAAGAT 
CACAGACTGG AGTACCTTAA AATCCAAGAT GAGCAGCATT TAGTAATAGA AGTTCGAAAC 
AAAGACATGA GCTGGCCAGA GGAAATGTCT TTTATAGCAA ACAGCAGTAA AATAGACAGA 
CATAAAGTTC CTACTGAAAA GGGGGCTACT GGATTAAGCA ATCTGGGTAA CACATGCTTC 
ATGAACTCCA GTATCCAGTG TGTCAGTAAT ACACAACCTC TAACGCGGTA TTTCATCTCA 
GGAAGACATC TTTATGAGCT TAACAGAACA AATCCAATAG GAATGAAAGG ACACATGGCC 
AAGTGCTATG GGGATTTGGT TCAGGAGTTA TGGAGTGGAA CTCAGAAGAA TATAGCACCT 
TTAAAGCTGC GGTGGACAAT AGCAAAATAT GCTCCAAGAT TTAATGGCTT TCAACAGCAA 
GACTCACAGG AGCTTCTGGC TTTTCTTTTG GATGGTCTCC ATGAGGATTT GAACAGAGTT 
CATGATAAGC CATATGTTGA ACTAAAAGAC AGCGATGGTC GACCAGACTG GGAAGTAGCA 
GCAGAGGCCT GGGAAAACCA TCTGAGAAGA AACAGATCCA TCGTCGTAGA TTTGTTTCAT 
GGGCAGCTGA AGTCACAAGT GAAATGTAAA ACTTGTGGAC ATATAAGTGT TAGGTTTGAC 
CCCTTTAATT TTTTGTCCTT GCCTTTGCCA ATGGATAGCT ACATGCACCT AGAAATTACA 
GTAATTAAAT TAGATGGTAC TACTCCTGTT CGATATGGCC TGAGATTGAA TATGGATGAA 
AAGTATACCG GTTTGAAAAA ACAGTTAAGT GAACTCTGTG GGCTAAAACC GGAACAGATT 
CTGCTTGCGG AGGTGCATAG CTCAAATATA AAGAACTTCC CTCAAGACAA CCAGAAAGTC 
CGGTTATCAG TGAGTGGGTT TTTGTGTGCA TTTGAAATCC CAATTCCAGG ATCCCCTACA 
TCAGCATCAA GTCCTGTGCA GACAGATGTC TCAACTGGGC CATCAGCTAA TGGAGCACCC 
AACATAATGA TGAATGGAGA CCTTCCTAAA CCAACCCTAA TTCCAAATGG AATGCCAAAT 
ACTGTAGTGC CATGTGGAAC AGAGCGCAAC TTTGCCAACT GGGCTCTCAA CGGTCATGTG 
CCCTTGCTTT CCGATAGTCC GTGTACAGGG TATATAATTG CAGTCCACAG AAAAATGATG 
CGGACAGAAT TATATTTTCT TTCATCTCAG AAGAATCGTC CTAGTCTTTT TGGAATGCCA 
CTAATTGTTC CTTGTACAGT TCATACACGT AAAAAAGACC TGTATGATGC CGTGTGGATT 
CAGGTTTCCA GGCTTGCTAG CCCTCTCCCG CCTCAGGAAG CTAGCAATCA CGCGCAGGAC 
TGTGACGATA GCATGGGATA TCAGTACCCA TTCACCCTAA GGGTGGTTCA GAAGGATGGA 
AATTCTTGTG CTTGGTGTCC ATGGTACAGA TTTTGCCGTG GCTGTAAAAT TGAGTGCACA 
GAAGACAGAG CTTCTGTTGG GAACGCTTAC ATTGCTGTAG ACTGGGATCC AACAGCACTC 
CATCTGCGCT ACCAGACATC GCAAGAACGG ATTGTAGAAG AACATGAAAG CGTTGAACAA 
AGTCGACGAG CTCAAGCAGA GCCCATCAAT CTGGATAGTT GTCTAAGAGC CTTCACCAGT 
GAGGAAGAAC TGGGGGAGGA TGAGATGTAC TACTGTTCCA AATGCAAGAC CCATTGTTTG 
GCCACCAAAA AACTGGATCT TTGGAGGCTT CCCCCTATTT TGATCATTCA CCTGAAAAGA 
TTTCAGTTTG TAAATGGCCG TTGGATAAAA TCTCAGAAAA TTGTTAAATT TCCCAGAGAA 
AATTTTGACC CAAGTGCCTT TTTGGTACAA AGGGATCCAA GTCATTTTCA GAGGAAGCAG 
CTAACTCTCC AGATCGAAAG CCTTCCTGAA CCACGGGCTT TCCAAGGGGA GTCTAGAAAA 
ACAGATCTGC AGATCACTTA CACACCCGGG GAAGGAGATG TACTGAACAG AAGTCCATCC 
TCCCTTAACA CTACTGTCTT GAATAATATC AAAGTNNNNN NNNNNNNNNN GAAGAGCGGA 
ACCAGCTGTC CTTCAAGTAA AAACAGTAGC CCTAACAGTA GCCCAAGGAC TTTAGGAAGA 
GGTAAAGGGC GTCTGCGGCT ACCACAGCTG GGTAAAAACA AACTGTCAAG TAGCAAAGAA 
AATTTGGATG CAAATAAAGA GAATGGTACT GACCAGGAAC AGAGATTTAC TTCTGATCAA 
GGTGATACTC TTACTAGAGG GCAGATTTTG AGTGGTAGCC AAAGTGAACT GTATACTGCT 
CAGGACAATG AGATAACTCT AGCCAACGGA TACATCTGTG AGCAGAATGC GTATAGTAAT 
GGCAGTATCA ATGGTCAAAT TGATAACCAC AGCGAGGACG ATATTACAGA TGACCAAAGA 
GATGAAGTAT GTGTTAACCC TATTTACAAC CTATATGCAA TTTCGTGCCA TTCAGGAATT 
ATGGGAGGGG GTCATTATGT CACTTACGCC AAAAACCCGA ACAACAAGTG GTACTGCTAC 
AATGACAGTA GCTGTAAGGA GCTGCATCCT GATGAAATCG ACACCGACTC TGCCTACATT 
CTTTTCTATG AGCAGCAGGG GGTAGACTAT GCACAATTTC TGCCAAAGAT AGACGGCAAA 
AAGATGGCAG ACACGAGCAG CATGGATGAA GATTTTGAGT CCGATTATAA GAAGTACTGT 
GTGTTACAGT AG