LOC103803043 cDNA ORF clone, Acanthisitta chloris(rifleman)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC103803043
Entrez Gene ID	103803043
Full Name	collagen alpha-1(XVIII) chain-like
Gene Type	protein-coding
Organism	Acanthisitta chloris(rifleman)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009075577.1	XP_009073825.1	LOW QUALITY PROTEIN: collagen alpha-1(XVIII) chain-like

Pathways from BioSystems
Gene Ontology

The following LOC103803043 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC103803043 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
OAc119281	XM_009075577.1 Latest version!	Acanthisitta chloris collagen alpha-1(XVIII) chain-like (LOC103803043), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00

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)

LOC103803043 ( XM_009075577.1 ) cDNA ORF clone, Acanthisitta chloris(rifleman) -> XP_009073825.1 Acanthisitta chloris collagen alpha-1(XVIII) chain-like (LOC103803043), mRNA.

Price & Availability↑

CloneID	OAc119281
Clone ID Related Accession (Same CDS sequence)	XM_009075577.1
Accession Version	XM_009075577.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4371bp) 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	2014-09-04
Organism	Acanthisitta chloris(rifleman)
Product	LOW QUALITY PROTEIN: collagen alpha-1(XVIII) chain-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008675137.1) 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 :: Acanthisitta chloris 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 :: 13% of CDS bases frameshifts :: corrected 2 indels ##RefSeq-Attributes-END##

ATGAATGGGC ACCAGAGCCT CCGTTTGCCT AACCAGAGGG TGGATAACAG TGTGGATCCT 
CCTCTTTCTG ATAACTCCAG TCCTCTTGAG TTTGATTTAC TAACCGCCAC TGTGCGACTC 
TACGGTAGTA GCAGCACGGG GCTCGCATCC TTCTTTCCCG GACTGATGCT AACAGCTGGC 
AGTTGCCTGC CCATCCCGAC CCACCTGCCC TTCTGCAGTG TGCTGGGCAC CAGCCATGTC 
CGGTTACCAA ATTACCTCCG CCACGGCAGC GAGGAGGAAA TTCAGGCAGC TTTGCATGAG 
TGGGAGGGGC TACTTGAATC GCGGTGCCAT CGCTACCTGG AGTGGTTCCT CTGCTTGCTG 
CTGCTCCCTG GGTGTAGCAC CTCGGTCCCC GTAACCCCCC CACCGTGCCA AGGCTTCTGT 
GAGGCCGTCC GAGACCTGTG TTGGATGCAC TTGGCTGGGG GGCGCCTGCC TCTGCCTGTG 
CCTTGTGATG CTCTCCCTGA GGAGGATGAA GGGTATTCTT GTGTCTTTAT TAATGCTTCT 
GCAGGCTGTG TTCCACCACC AGCCACCCAG AACCTGAGCA CTGAGGTCAG CCTCCTGGAG 
CTGATCGGAG ACCCACCACC AGAGGAGATC CTCAAAATTT ATGGCCCTGA CAACAACCCT 
GGCTATGTCT TTGGTCCTAA TGCCAACACA GGCCAGGTGG CTCGGTACCA CCTGCCAAGC 
CCTTTCTACC GGGACTTCTC CCTCCTGTTC CACATCCAGC CCACCACCCC ACGGGCTGGG 
GTGCTCTTTG CTGTCACGGA CTCTTCACAG AGCATCATCT ATGTGGGCGT CAAGCTCTCA 
GAGCTGCGGG CGGGCAAGCA TCAGATCATC TTCTACTACA CAGAGCCGGG CTCACCGAGC 
TCATACCCAG CAGCCACCTT CACTGTGCCC ACCTTGCTCA ACCAGTGGAC ACGCTTTGCC 
ATCAGTGTGG AGGAGGATGA AGTCATCCTC TACCTGGACT GCGAGGAGCA TGAGCGGGTC 
CGGTTTGAGC GCTCCCCAGA TGAGATGGAG CTGGAAGATG GCTCTGGACT CTTTGTTGCT 
CAGGCTGGAG GGGCTGACCC AGATAAATAC CAGGGGGTGA TTGCTGATCT GAGGCTCGAA 
GGGGACCCAC GGGCGGCAGA GCGCCAGTGT GAGGAAGAGG AGGATGATGT GGAGGTCTCC 
GGTGATTTCG GCAGCGGGGC AGAAGGTGGA CATCATCCCT CCGGGAAGGT CGGGGGTGTC 
CCAGGACTGG TGGATGCTGT CCCTGTCACC TCTCCCCCCG TGGCAGGGGG CAATGGGCCA 
AGGAGCAGTG GGGGATCCCC GCAGCAAGCT GAGAGGACCA GAGCGGAGGA GACACTGCGA 
GTCTCCACGG GAGGCACCGG CCCCAAAGGC GAAAAGGGAG AGAAGGGCGA ACGTGGCTTG 
AAAGGGGATT CAGGGACTGG TGGTGTCGTG GGGACAGACA GTGTCAAGGG CCAAAAGGGG 
GAGAAAGGAG ACCTCGGCAT CAAGGGCAGT GCTGGATTTG GCTACCCTGG CTCTAAGGGC 
CAAAAAGGGG AACCAGGTGA CCCTGGCCCC CCTGGCACCC TCTCACGGCA CACTGATGGC 
ACAGTGGTGG AGCAGGTCAC TNNCCCAGGG CCCCCGGGCA AAGAGGGAGC CCCTGGAAGG 
GATGGCGAGC CTGGAGATCC TGGCGAGGAT GGCAAACCTG GTGATATGGG ACCTCAGGGG 
TTCCCTGGGA TGCCAGGAGA GCCAGGGCTG AAGGGGGAGA AGGGTGACCC AGGTATGGGA 
CCAAGGGGCC CCCCTGGACC ACCTGGCCCC CCAGGACCAC CGGGACCCTC CTCCAAGAAT 
GACAAGCTGA CCTTCATCGA CATGGAGGGC TCTGGCTTTG GCGGTGACCT GGAGACCCTG 
AGGGGTCCAC GAGGGCCACC TGGTCCCCCA GGGCCACCTG GAGTGCCTGG TTTGCCAGGA 
GAGCCAGGAC GGTTTGGAAT GAACCATACA GACCTGCCAG GACCACCGGG GCTACCAGGG 
AGAGATGGGA TGCCTGGACC CCCGGGGCCA GTGGGTCCTC AGGGTCCTCC TGGAAGAGAC 
GGGGAGGCTG GGCAGCCAGG GCCCAAAGGA GAGCGGGGCG ACGTGGGTGA CCTCGGCCTC 
CCTGGTGTAC CAGGACCCAA GGGCAACAAA GGAGAAATAG GACCAGCAGG ACCTCCAGGA 
GAAATGGGCT TAGCTGGCCT TCCCGGGCCC ATCGGACCCC GAGGGCAGCC AGGGCCCCCC 
GGGCCCCCGG GCCCGCCAGG CCCAGGCTAC GAGGCTGGAT TTGGTGACAT GGAAGGCTCA 
GGGCTGTCAT TCACCCCTGG ACCACCTGGA CCTGAAGGAC CACAGGGGAT GCCAGGACTG 
CCAGGAGTGA AGGGTGAGGT TGGCAGCCCT GGACAGCCAG GCTTGCCGGG ACCAAAGGGA 
GATGCTGGTG TGCCTGGCAT GGATGGACGC CCTGGCCTGG AGGGCTTCCC TGGACCGCAG 
GGACCCAAAG GTGACAAAGG CAGCCCCGGC GAGAAGGGAG AGCAAGGCCA AGACGGTGTG 
GGACTGCCTG GTCCCCCTGG TCCACCTGGT CCCCCTGGAC AGATCATTGC TGTCTCAAGT 
GAAGATAAAT CTTTGGTGGC TTTTCCTGGT CCAGCGGGCA GACCAGGCCA CGCTGGCTTC 
CCGGGTCCAG TGGGACCAAA AGGAGACCAG GGGTCAACTG GTCCCCAGGG CTCCCCGGGG 
CTGAAGGGGG AGAAGGGAGA GCCTGGTGTC ATCATCAGCC CTGATGGGAC TGTGGTCACT 
GCAAAGGTGA AAGGAGAAAA GGGGGAGCCA GGACTGCGGG GGCCAATGGG ACCATCGGGT 
CCTCAGGGAC AAGCAGGGAT GAAGGGAGAG ATCGGCTTTC CAGGCAGACC CGGACGTCCT 
GGCATGAACG GGCTGAAGGG TGAGAAGGGT GACCCCGCAG ATATGCGGGG CTTGCAGGGT 
CCTCCAGGGC CCCCTGGGCC GCCTGGGCCA CCTGGAAGCA TAGTCTACAA CAGTGGCAAT 
ACCTTCAGCG ACTCCAGCCA TCCTGCACTG CCAGGGTTCC CTGGTTTCCA CCAGTTCCCA 
GGACAAAAGG GAGAGAAAGG TGATGTGGGA CCCCCAGGAC CCCCCGGCCA CTTCCCTTGC 
GCCCCTAGTC ACTTTGGTGC CAACCTGCGG GGTGACAAGG GGGATGCAGG TCCCAAGGGT 
GAGAAGGGAG AGCCGGGCAC CACTCCACCC TACGGTCCCA GTGTCTCTGG GCTGCCAGGG 
CCTCCAGGGC CCCAGGGATA CCCCGGACTG CCGGGTCCCA AGGGAGACAG TATTGTTGGG 
CCACCGGGGC CTCCTGGACC TCAGGGCCCT CCTGGTATTG GATATGAGGG ACGGCAAGGC 
CCCCCTGGCC CTCCTGGCCC CCCTGGTCAA CCCTCCTTCC CAGGTCCCCA CAGACAAGAC 
CTCTCCGTCC GCCTGCGCGG GGGCTTCCGA CGGGTGCTGC TGGAGGAGCA CAACCTGATC 
CCCAGTTCGG CTCTGGACAA CGAGGTGTAT GACAAGCCAC CCACCATTCA CTATGCTGGC 
CCCCAACCCC GCGAGCCTTT GCACCCCCTC CGCAACCACG TCCCCCTGCC CACCGCCCGA 
CCCTGGCGCG GGGATGAGGT GGTAGCCAAC CAACACCACC TGCCTGAGCA ACCCCTGCTC 
CACCATCAGC ATGAGCTCCT CAACAGCTAC TACATCCACC GCCGGCCAGA TCCAGCCCCT 
GTGGCCGCAC ACGTTCACCA GGATTTCCAG CCTGCTCTTC ACCTGGTGGC TCTGAACGCC 
CCGCTGAGTG GCGGCATGCG TGGCATCCGG CGCCGATNNN NNNNNNNNNN NNNNNNNGGC 
GCCGATTTCC AGGGCTTCCA GCAAGCCCGG CAGGTCGGGC TGGCCGGCAC CTTCCGTGCC 
TTTCTGTCCT CCCGCTTGCA AGATCTCTAC AGCATTGTGC GCAGGGCCGA CCGCACCGCC 
ATCCCCATTG TAAACCTCCG GGATGAAGTG CTCTTCAATA ACTGGGAAGC CCTTTTCACG 
GGCAGTGGGG CCCCGCTGCG AGCTGGTGCC CGCATCCTCT CCTTTGACAG CCGGGATGTC 
CTGCGGGATG CAGGATGGCC ACAGAAGAGT GTCTGGCACG GCTCAGATGC CAGGGGCCGG 
CGTTTGCCCG AGAGCTACTG TGAGACGTGG CGGACGGAGG AGCGTGCCAG CACCGGTCAG 
GCTTCCTCAC TTGCCTCCGG AAAACTGCTG GAGCAGGCAG CCAGCAGCTG CCAGCAGGCC 
TTCATCGTCC TCTGCATCGA GAACAGCTTC ATGACCGCCG CCAAAAAGTG A

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

RefSeq	XP_009073825.1
CDS	1..4371
Translation	MNGHQSLRLPNQRVDNSVDPPLSDNSSPLEFDLLTATVRLYGSSSTGLASFFPGLMLTAGSCLPIPTHLPFCSVLGTSHVRLPNYLRHGSEEEIQAALHEWEGLLESRCHRYLEWFLCLLLLPGCSTSVPVTPPPCQGFCEAVRDLCWMHLAGGRLPLPVPCDALPEEDEGYSCVFINASAGCVPPPATQNLSTEVSLLELIGDPPPEEILKIYGPDNNPGYVFGPNANTGQVARYHLPSPFYRDFSLLFHIQPTTPRAGVLFAVTDSSQSIIYVGVKLSELRAGKHQIIFYYTEPGSPSSYPAATFTVPTLLNQWTRFAISVEEDEVILYLDCEEHERVRFERSPDEMELEDGSGLFVAQAGGADPDKYQGVIADLRLEGDPRAAERQCEEEEDDVEVSGDFGSGAEGGHHPSGKVGGVPGLVDAVPVTSPPVAGGNGPRSSGGSPQQAERTRAEETLRVSTGGTGPKGEKGEKGERGLKGDSGTGGVVGTDSVKGQKGEKGDLGIKGSAGFGYPGSKGQKGEPGDPGPPGTLSRHTDGTVVEQVTnullPGPPGKEGAPGRDGEPGDPGEDGKPGDMGPQGFPGMPGEPGLKGEKGDPGMGPRGPPGPPGPPGPPGPSSKNDKLTFIDMEGSGFGGDLETLRGPRGPPGPPGPPGVPGLPGEPGRFGMNHTDLPGPPGLPGRDGMPGPPGPVGPQGPPGRDGEAGQPGPKGERGDVGDLGLPGVPGPKGNKGEIGPAGPPGEMGLAGLPGPIGPRGQPGPPGPPGPPGPGYEAGFGDMEGSGLSFTPGPPGPEGPQGMPGLPGVKGEVGSPGQPGLPGPKGDAGVPGMDGRPGLEGFPGPQGPKGDKGSPGEKGEQGQDGVGLPGPPGPPGPPGQIIAVSSEDKSLVAFPGPAGRPGHAGFPGPVGPKGDQGSTGPQGSPGLKGEKGEPGVIISPDGTVVTAKVKGEKGEPGLRGPMGPSGPQGQAGMKGEIGFPGRPGRPGMNGLKGEKGDPADMRGLQGPPGPPGPPGPPGSIVYNSGNTFSDSSHPALPGFPGFHQFPGQKGEKGDVGPPGPPGHFPCAPSHFGANLRGDKGDAGPKGEKGEPGTTPPYGPSVSGLPGPPGPQGYPGLPGPKGDSIVGPPGPPGPQGPPGIGYEGRQGPPGPPGPPGQPSFPGPHRQDLSVRLRGGFRRVLLEEHNLIPSSALDNEVYDKPPTIHYAGPQPREPLHPLRNHVPLPTARPWRGDEVVANQHHLPEQPLLHHQHELLNSYYIHRRPDPAPVAAHVHQDFQPALHLVALNAPLSGGMRGIRRRnullnullnullnullnullnullnullGADFQGFQQARQVGLAGTFRAFLSSRLQDLYSIVRRADRTAIPIVNLRDEVLFNNWEALFTGSGAPLRAGARILSFDSRDVLRDAGWPQKSVWHGSDARGRRLPESYCETWRTEERASTGQASSLASGKLLEQAASSCQQAFIVLCIENSFMTAAKK

Target ORF information:

RefSeq Version	XM_009075577.1
Organism	Acanthisitta chloris(rifleman)
Definition	Acanthisitta chloris collagen alpha-1(XVIII) chain-like (LOC103803043), mRNA.

Target ORF information:

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

XM_009075577.1

ORF Insert Sequence:

ATGAATGGGC ACCAGAGCCT CCGTTTGCCT AACCAGAGGG TGGATAACAG TGTGGATCCT 
CCTCTTTCTG ATAACTCCAG TCCTCTTGAG TTTGATTTAC TAACCGCCAC TGTGCGACTC 
TACGGTAGTA GCAGCACGGG GCTCGCATCC TTCTTTCCCG GACTGATGCT AACAGCTGGC 
AGTTGCCTGC CCATCCCGAC CCACCTGCCC TTCTGCAGTG TGCTGGGCAC CAGCCATGTC 
CGGTTACCAA ATTACCTCCG CCACGGCAGC GAGGAGGAAA TTCAGGCAGC TTTGCATGAG 
TGGGAGGGGC TACTTGAATC GCGGTGCCAT CGCTACCTGG AGTGGTTCCT CTGCTTGCTG 
CTGCTCCCTG GGTGTAGCAC CTCGGTCCCC GTAACCCCCC CACCGTGCCA AGGCTTCTGT 
GAGGCCGTCC GAGACCTGTG TTGGATGCAC TTGGCTGGGG GGCGCCTGCC TCTGCCTGTG 
CCTTGTGATG CTCTCCCTGA GGAGGATGAA GGGTATTCTT GTGTCTTTAT TAATGCTTCT 
GCAGGCTGTG TTCCACCACC AGCCACCCAG AACCTGAGCA CTGAGGTCAG CCTCCTGGAG 
CTGATCGGAG ACCCACCACC AGAGGAGATC CTCAAAATTT ATGGCCCTGA CAACAACCCT 
GGCTATGTCT TTGGTCCTAA TGCCAACACA GGCCAGGTGG CTCGGTACCA CCTGCCAAGC 
CCTTTCTACC GGGACTTCTC CCTCCTGTTC CACATCCAGC CCACCACCCC ACGGGCTGGG 
GTGCTCTTTG CTGTCACGGA CTCTTCACAG AGCATCATCT ATGTGGGCGT CAAGCTCTCA 
GAGCTGCGGG CGGGCAAGCA TCAGATCATC TTCTACTACA CAGAGCCGGG CTCACCGAGC 
TCATACCCAG CAGCCACCTT CACTGTGCCC ACCTTGCTCA ACCAGTGGAC ACGCTTTGCC 
ATCAGTGTGG AGGAGGATGA AGTCATCCTC TACCTGGACT GCGAGGAGCA TGAGCGGGTC 
CGGTTTGAGC GCTCCCCAGA TGAGATGGAG CTGGAAGATG GCTCTGGACT CTTTGTTGCT 
CAGGCTGGAG GGGCTGACCC AGATAAATAC CAGGGGGTGA TTGCTGATCT GAGGCTCGAA 
GGGGACCCAC GGGCGGCAGA GCGCCAGTGT GAGGAAGAGG AGGATGATGT GGAGGTCTCC 
GGTGATTTCG GCAGCGGGGC AGAAGGTGGA CATCATCCCT CCGGGAAGGT CGGGGGTGTC 
CCAGGACTGG TGGATGCTGT CCCTGTCACC TCTCCCCCCG TGGCAGGGGG CAATGGGCCA 
AGGAGCAGTG GGGGATCCCC GCAGCAAGCT GAGAGGACCA GAGCGGAGGA GACACTGCGA 
GTCTCCACGG GAGGCACCGG CCCCAAAGGC GAAAAGGGAG AGAAGGGCGA ACGTGGCTTG 
AAAGGGGATT CAGGGACTGG TGGTGTCGTG GGGACAGACA GTGTCAAGGG CCAAAAGGGG 
GAGAAAGGAG ACCTCGGCAT CAAGGGCAGT GCTGGATTTG GCTACCCTGG CTCTAAGGGC 
CAAAAAGGGG AACCAGGTGA CCCTGGCCCC CCTGGCACCC TCTCACGGCA CACTGATGGC 
ACAGTGGTGG AGCAGGTCAC TNNCCCAGGG CCCCCGGGCA AAGAGGGAGC CCCTGGAAGG 
GATGGCGAGC CTGGAGATCC TGGCGAGGAT GGCAAACCTG GTGATATGGG ACCTCAGGGG 
TTCCCTGGGA TGCCAGGAGA GCCAGGGCTG AAGGGGGAGA AGGGTGACCC AGGTATGGGA 
CCAAGGGGCC CCCCTGGACC ACCTGGCCCC CCAGGACCAC CGGGACCCTC CTCCAAGAAT 
GACAAGCTGA CCTTCATCGA CATGGAGGGC TCTGGCTTTG GCGGTGACCT GGAGACCCTG 
AGGGGTCCAC GAGGGCCACC TGGTCCCCCA GGGCCACCTG GAGTGCCTGG TTTGCCAGGA 
GAGCCAGGAC GGTTTGGAAT GAACCATACA GACCTGCCAG GACCACCGGG GCTACCAGGG 
AGAGATGGGA TGCCTGGACC CCCGGGGCCA GTGGGTCCTC AGGGTCCTCC TGGAAGAGAC 
GGGGAGGCTG GGCAGCCAGG GCCCAAAGGA GAGCGGGGCG ACGTGGGTGA CCTCGGCCTC 
CCTGGTGTAC CAGGACCCAA GGGCAACAAA GGAGAAATAG GACCAGCAGG ACCTCCAGGA 
GAAATGGGCT TAGCTGGCCT TCCCGGGCCC ATCGGACCCC GAGGGCAGCC AGGGCCCCCC 
GGGCCCCCGG GCCCGCCAGG CCCAGGCTAC GAGGCTGGAT TTGGTGACAT GGAAGGCTCA 
GGGCTGTCAT TCACCCCTGG ACCACCTGGA CCTGAAGGAC CACAGGGGAT GCCAGGACTG 
CCAGGAGTGA AGGGTGAGGT TGGCAGCCCT GGACAGCCAG GCTTGCCGGG ACCAAAGGGA 
GATGCTGGTG TGCCTGGCAT GGATGGACGC CCTGGCCTGG AGGGCTTCCC TGGACCGCAG 
GGACCCAAAG GTGACAAAGG CAGCCCCGGC GAGAAGGGAG AGCAAGGCCA AGACGGTGTG 
GGACTGCCTG GTCCCCCTGG TCCACCTGGT CCCCCTGGAC AGATCATTGC TGTCTCAAGT 
GAAGATAAAT CTTTGGTGGC TTTTCCTGGT CCAGCGGGCA GACCAGGCCA CGCTGGCTTC 
CCGGGTCCAG TGGGACCAAA AGGAGACCAG GGGTCAACTG GTCCCCAGGG CTCCCCGGGG 
CTGAAGGGGG AGAAGGGAGA GCCTGGTGTC ATCATCAGCC CTGATGGGAC TGTGGTCACT 
GCAAAGGTGA AAGGAGAAAA GGGGGAGCCA GGACTGCGGG GGCCAATGGG ACCATCGGGT 
CCTCAGGGAC AAGCAGGGAT GAAGGGAGAG ATCGGCTTTC CAGGCAGACC CGGACGTCCT 
GGCATGAACG GGCTGAAGGG TGAGAAGGGT GACCCCGCAG ATATGCGGGG CTTGCAGGGT 
CCTCCAGGGC CCCCTGGGCC GCCTGGGCCA CCTGGAAGCA TAGTCTACAA CAGTGGCAAT 
ACCTTCAGCG ACTCCAGCCA TCCTGCACTG CCAGGGTTCC CTGGTTTCCA CCAGTTCCCA 
GGACAAAAGG GAGAGAAAGG TGATGTGGGA CCCCCAGGAC CCCCCGGCCA CTTCCCTTGC 
GCCCCTAGTC ACTTTGGTGC CAACCTGCGG GGTGACAAGG GGGATGCAGG TCCCAAGGGT 
GAGAAGGGAG AGCCGGGCAC CACTCCACCC TACGGTCCCA GTGTCTCTGG GCTGCCAGGG 
CCTCCAGGGC CCCAGGGATA CCCCGGACTG CCGGGTCCCA AGGGAGACAG TATTGTTGGG 
CCACCGGGGC CTCCTGGACC TCAGGGCCCT CCTGGTATTG GATATGAGGG ACGGCAAGGC 
CCCCCTGGCC CTCCTGGCCC CCCTGGTCAA CCCTCCTTCC CAGGTCCCCA CAGACAAGAC 
CTCTCCGTCC GCCTGCGCGG GGGCTTCCGA CGGGTGCTGC TGGAGGAGCA CAACCTGATC 
CCCAGTTCGG CTCTGGACAA CGAGGTGTAT GACAAGCCAC CCACCATTCA CTATGCTGGC 
CCCCAACCCC GCGAGCCTTT GCACCCCCTC CGCAACCACG TCCCCCTGCC CACCGCCCGA 
CCCTGGCGCG GGGATGAGGT GGTAGCCAAC CAACACCACC TGCCTGAGCA ACCCCTGCTC 
CACCATCAGC ATGAGCTCCT CAACAGCTAC TACATCCACC GCCGGCCAGA TCCAGCCCCT 
GTGGCCGCAC ACGTTCACCA GGATTTCCAG CCTGCTCTTC ACCTGGTGGC TCTGAACGCC 
CCGCTGAGTG GCGGCATGCG TGGCATCCGG CGCCGATNNN NNNNNNNNNN NNNNNNNGGC 
GCCGATTTCC AGGGCTTCCA GCAAGCCCGG CAGGTCGGGC TGGCCGGCAC CTTCCGTGCC 
TTTCTGTCCT CCCGCTTGCA AGATCTCTAC AGCATTGTGC GCAGGGCCGA CCGCACCGCC 
ATCCCCATTG TAAACCTCCG GGATGAAGTG CTCTTCAATA ACTGGGAAGC CCTTTTCACG 
GGCAGTGGGG CCCCGCTGCG AGCTGGTGCC CGCATCCTCT CCTTTGACAG CCGGGATGTC 
CTGCGGGATG CAGGATGGCC ACAGAAGAGT GTCTGGCACG GCTCAGATGC CAGGGGCCGG 
CGTTTGCCCG AGAGCTACTG TGAGACGTGG CGGACGGAGG AGCGTGCCAG CACCGGTCAG 
GCTTCCTCAC TTGCCTCCGG AAAACTGCTG GAGCAGGCAG CCAGCAGCTG CCAGCAGGCC 
TTCATCGTCC TCTGCATCGA GAACAGCTTC ATGACCGCCG CCAAAAAGTG A