COL18A1 cDNA ORF clone, Sturnus vulgaris(Common starling)

Gene
Clones
gRNAs

Summary

Gene Symbol	COL18A1
Entrez Gene ID	106861474
Full Name	collagen type XVIII alpha 1 chain
Gene Type	protein-coding
Organism	Sturnus vulgaris(Common starling)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014889876.1	XP_014745362.1	collagen alpha-1(XVIII) chain

Pathways from BioSystems
Gene Ontology

The following COL18A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL18A1 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
OSt19242	XM_014889876.1 Latest version!	Sturnus vulgaris collagen, type XVIII, alpha 1 (COL18A1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

COL18A1 ( XM_014889876.1 ) cDNA ORF clone, Sturnus vulgaris(Common starling) -> XP_014745362.1 Sturnus vulgaris collagen, type XVIII, alpha 1 (COL18A1), mRNA.

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CloneID	OSt19242
Clone ID Related Accession (Same CDS sequence)	XM_014889876.1
Accession Version	XM_014889876.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4815bp) 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	2015-12-01
Organism	Sturnus vulgaris(Common starling)
Product	collagen alpha-1(XVIII) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014650764.1) 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 :: Sturnus vulgaris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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##

ATGGCCCCAC CTCGCTTGGC GTTTCTGCTC CTTCTGGCTT GCTGCTTCTC CTGCTCCGAG 
CCACAGCTTC TGGACTGGGT TTGGGACAGC ACAAAGACCG CAGGAAGCCC AGCAGCACCC 
GGCAAGGGAA TCCCGGCGTC CGAGCCGCCA ACCTCAGCAG CAGCTCCGAC TCCCAGCCCG 
TCCACGGTAA CGTGGGGTGG CGAGGTGGCA GGGAATGTCA CCACCCCAGG GCGGCAGGAG 
CCAGATCCTG TCACACCAGC GCCTGTGGGT GAGGGAACCA CTGCCAAAAC CACGGAGCAG 
TGGGACAGGA GTGCCACAGG GCCGCTGGAG AGCACGACAC GGCCAAGCAT CGCTCCTGCC 
CACAGCATGG CACCTGCCGC GGGTCAGCAG GCAGCCAGCA GCCCCAGCAA CGAGCCCCAG 
CTCCTGGGGA CAGGGAACAT CAAGGACCTG CAGCTCCTGG GCTCAGAGAC CTCTAAGGAC 
CCTCCCCCCT TATGGTCAAG GACCACCGAA GACCTTCAGC TCCTGGGGAC AGGGACCACT 
GAGCACCTGC AGCTCCTGAG GATGAGGACC ACCAAAGAAC CCCAGTTCCT GGGATCAGTG 
ACCCCCAAGG AGCTCCTGGG GTCAGGGACT ACTGAGGACC TGCAGCTGCT GGGGTTGGGC 
ACCACTGAGG ACCCACAGCT CCTAGGGATG ATGAGTGCCA GAGACCTGCA GCTCCTGGTG 
ACAGGGCACA CCGAGGACCC ACAGCTCCTA AGGACAGGGA CCACCGAGGA CCCACGGCTC 
CTGGGCCAGG AGACCACTGA GTTCCTAGGG ACAGGAGCTC CTAAAGCAAT TGAGACACAG 
GTGTCCTTGC AGAGACCAAC GGGTCCCCAG ACAGAGAGCC TGAGTGCCGA GGTCAGCCTG 
CTGGAGCTGA TCGGGGACCC ACCGACAGAG GAGATCCACA GAATTTATGG CCCCGACAAC 
AACCCTGGCT ACGTCTTCGG TCCCAACGCC AACACGGGCC AGGTGGCCCG GTACCACCTG 
CCCAGCCCTT TCTACCGGGA CTTCTCGCTG CTGTTCCACA TCCAGCCCAC CACGCCCCGG 
GCTGGCGTGC TCTTTGCCGT CACGGACTTC TCACAGAGCA TCATCTACGT GGGCGTCAAG 
CTCTCGGAGC TGCGGGCGGG CCAGCAGCAG ATTATCTTCT ACTACACGGA GCCCGGCTCG 
CCCACCTCCT ACCCGGCCGC CACCTTCACT GTGCCCACCC TGCTCAACCA GTGGACACGC 
TTTGCCATCA GTGTGGAAGA GGAGGAGGTT GTCCTCTACC TGGACTGCGA GGAGCATGAG 
CGTGTCCACT TCGAGCGCTC CCCAGATGAG ATGGAGCTGG AAGAAGGCTC TGGGCTCTTT 
GTTGCTCAGG CTGGAGGGGC TGACCCAGAT AAATACCAGG GGGTGATTGC AGATTTGAAG 
CTCCGAGGGG ACCCGCGTGC AGCCGAGCGC CAGTGCGAGG AAGAGGAGGA TGATGCAGAG 
ATCTCCGGGG ATTTTGGCAG CGGGATGGAA GGTGGACAGC AGCCTTCTGG CAAGGTCGAG 
GGTGTCCCAG GGCTGGTGGA CGCTGTCCCT GTGACCTCCC CCCCCGTGGC GGGGGGCAGT 
GGCCCGAGGA GTGGCGGGGG GTCCCCACAG CAGGCCGAGA GGACCAGGGC GGAGGAGACG 
CTGCGGGTCT CTGCGGGAGG CACCAGCCGG AAAGGTGAAA AGGGGGAGAA GGGGGAACGT 
GGCTTGAAAG GGGACTCAGG GACCGGTGGC ATCATAGGTC CAGGCAGTGT CAAGGGTCAA 
AAGGGGGAGA AAGGAGACCT GGGCGTCAAG GGCAGTGCTG GATTTGGCTA CCCTGGCTCT 
AAGGGCCAAA AAGGAGAACC AGGTGACCCT GGCCCCCCCG GGACCCTCTC TCGGCACACT 
GACGGCTCGG TGGTGGAGCA GGTCACCGGC CCCCCAGGGC CACCAGGGAA GGACGGAGCC 
CCTGGCAGGG ACGGTGAGCC TGGAGACCCT GGCGAGGACG GCAAACCTGG TGAAATGGGG 
CCCCCGGGAT TCCCTGGGAT GCCAGGGGAG CCAGGCCTGA AGGGGGAGAA GGGTGACCCA 
GGTGTGGGGC CGAGGGGACC CCCTGGACCA CCTGGCCCTC CAGGACCGCC GGCACCCTCC 
TCCAAGAACG ACAAGCTGAC CTTCATTGAC ATGGAGGGCT CTGGCTTTGG CGGTGACCTG 
GAGAGCCTGC GGGGTCCACG AGGGCCACCT GGTCCCCCAG GGCCACCTGG CGTGCCTGGT 
TTGCCAGGGG AGCCAGGACG GTTTGGGATG AACCGCACAG ACCTGCCGGG ACCACCGGGG 
CTGCCGGGCA GGGATGGGAT CCCTGGGCCC CCGGGGCCAG TGGGTCCTCA GGGTCCTCCA 
GGAAGAGACG GGGAGGCAGG GCAGCCAGGG CCCAAAGGAG AGCGGGGCGA TGTCGGTGAC 
CTCGGCCTCC CTGGCCTGCC GGGACCCAAG GGCAGCAAAG GAGAAACGGG ACCAGCAGGA 
CCCCCAGGAG AAATGGGCTT AGCTGGCCTT CCCGGGCCCA TCGGACCCCG AGGGCAGCCA 
GGGCCCCCCG GCCCCCCGGG ACCGCCAGGG CCAGGCTACG AGGCTGGATT TAGTGACATG 
GAGGGCTCGG GGCTGCCATT CACCCCTGGA CCACCTGGAC CTGAAGGACC ACAGGGTGTG 
CCAGGACTGC CGGGGATGAA GGGAGAGGTC GGCAGCCCCG GACAGCCTGG CTTGCCGGGA 
CCAAAGGGAG ATGCTGGCAT GCCTGGTGTG GATGGCCGCC CTGGCCTGGA GGGCTTCCCC 
GGACCACAGG GACCCAAAGG TGACAAAGGC AGCACTGGTG AGAAGGGAGA GCGAGGCCAA 
GATGGAGTGG GGCTGCCTGG CCCCCCTGGC CCACCTGGTC CCCCTGGACA GATCATCACT 
GTCTCCAGTG AAGATAAGTC CTTGGTGGCT TTTCCTGGTC CAGAGGGCAG GCCAGGCCAC 
GCTGGCTTCC CGGGTCCGAT GGGACCGAAA GGAGACCGGG GGTCAACTGG TGTCCAGGGT 
GCTCCAGGGT TGAAGGGGGA GAAGGGGGAG CCCGGGGTCA TCATCAGCCC CGATGGGACC 
ATGGTCACTG CCAAGGTGAA AGGAGAAAAG GGGGAGCCGG GGCCGCGGGG CCCGATAGGA 
CCATCGGGTC CCCCGGGACG AGCAGGGATG AAGGGAGAGA TCGGCTTTCC GGGCAGACCC 
GGACGTCCTG GCATGAACGG GCTGAAGGGC GAGAAGGGTG ACCCTGCAGA CGTGCTGGGC 
TCACGGGGTC CCCCAGGCCC CCCAGGACCT CCTGGGCCCC CTGGGCCACC TGGCAGCATA 
GTCTACAGCA ATGGCAATAC CTTCAGTGAC TCCAGCCATC CAGCGTTCCC CGGTTTCCAC 
CAGGTCCCAG GACAAAAGGG AGAGAAAGGT GACACCGGAC CCCCAGGACC CCCAGGCCAG 
TTCCCCTATG ATGCAAGTCA CTTCGGGACC AGCCTGAGGG GTGACAAGGG GGATGCAGGT 
CCCAAGGGTG AGAAGGGCGA GCCGGGCAGC ATCCCACTCT ACGGTCCTGG AGTCTCTGGA 
CTTCCAGGGC CTCCAGGGCC CCAGGGATAC CCTGGGCTGC CGGGTCCCAA GGGGGACAGT 
ATTGTTGGGC CACCGGGGCC TCCAGGACCT CAGGGTCCTC CTGGGATCGG ATACGAGGGG 
CGGCAGGGCC CCCCTGGCCC TCCTGGTCCG CCCGGGCCAC CCTCCTTCCC AGGTCCCCAC 
AGACAAGCTG TCAGCATCCC TGGACCCCCT GGACCACCGG GACCCCCTGG ACCACCAGGC 
ACCAGCGGGA TGTCCTTGGG GCTCCGGGCC ATACCCACGT ACCAGAGGAT GCTGAGCACC 
TCGCACGAGC TTCCCGAGGG TAGCCTCATC TTCCTGACGG ACCGACAGGA GCTCTATGTC 
CGCCTGCGCG GGGGCTTCCG CAGGGTGCTG CTGGAGGAGC ACAACCTGAT TCCCAGTTCG 
GCTCTGGACA ACGAGGTGTA CGACAAGCCG CCCACCCTCC ACTACGCCGG CCCCCAGCCC 
CGTGGGCCCC TGCACCCTCT CCGCAACCAC GTCCCCCCAG CCACTGCCCG TCCCTGGCGT 
GGGGATGAGG TGGTGGCCAA CCAGCACCGC CTGCCCGAGC AGCCCCTGCT CCACCACCAG 
CATGAGCTCA TCAATGGCTA CTACATCCAC CGCCGGCCAG ACCCTGCCCC TGTGGCCGCC 
CACGTGCACC AGGACTTCCA GCCTGCCCTT CACCTGGTGG CCCTGAACAC CCCGCTGAGC 
GGCAGCATGC GTGGCATCCG GGGTGCCGAT TTCCAGTGCT TCCAGCAAGC CCGGCAGGTC 
GGGCTGGCCG GCACCTTCCG TGCCTTCCTG TCCTCGCGCC TGCAGGATCT CTACAGCATC 
GTGCGCAGGG CCGACCGCGC TGCCGTCCCC ATCGTCAACC TCCGGGATGA AGTACTCTTC 
AATAACTGGG AAGCCCTTTT CACGGGGAGC GGGGCCCCGC TGCAAGCTGG CACCCGCATC 
CTCTCCTTCG ACGGCCGGGA TGTCCTGCGG GATGCGGGAT GGCCACAGAA GAGTGTCTGG 
CATGGCTCGG ATGCCAAGGG CCGGCGCCTG CCCGAGAGTT ACTGCGAGAC CTGGCGGACA 
GAGGAACGTG CGGTCACCGG CCAGGCTTCC TCCCTGGCCT CTGGAAAACT CCTGGAGCAG 
GTGGCCAGCA GCTGCCAGCA CTCCTTCATC GTCCTCTGCA TTGAGAACAG CTTCATGACT 
GCCACCAAAA AGTGA

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

RefSeq	XP_014745362.1
CDS	93..4907
Translation	MAPPRLAFLLLLACCFSCSEPQLLDWVWDSTKTAGSPAAPGKGIPASEPPTSAAAPTPSPSTVTWGGEVAGNVTTPGRQEPDPVTPAPVGEGTTAKTTEQWDRSATGPLESTTRPSIAPAHSMAPAAGQQAASSPSNEPQLLGTGNIKDLQLLGSETSKDPPPLWSRTTEDLQLLGTGTTEHLQLLRMRTTKEPQFLGSVTPKELLGSGTTEDLQLLGLGTTEDPQLLGMMSARDLQLLVTGHTEDPQLLRTGTTEDPRLLGQETTEFLGTGAPKAIETQVSLQRPTGPQTESLSAEVSLLELIGDPPTEEIHRIYGPDNNPGYVFGPNANTGQVARYHLPSPFYRDFSLLFHIQPTTPRAGVLFAVTDFSQSIIYVGVKLSELRAGQQQIIFYYTEPGSPTSYPAATFTVPTLLNQWTRFAISVEEEEVVLYLDCEEHERVHFERSPDEMELEEGSGLFVAQAGGADPDKYQGVIADLKLRGDPRAAERQCEEEEDDAEISGDFGSGMEGGQQPSGKVEGVPGLVDAVPVTSPPVAGGSGPRSGGGSPQQAERTRAEETLRVSAGGTSRKGEKGEKGERGLKGDSGTGGIIGPGSVKGQKGEKGDLGVKGSAGFGYPGSKGQKGEPGDPGPPGTLSRHTDGSVVEQVTGPPGPPGKDGAPGRDGEPGDPGEDGKPGEMGPPGFPGMPGEPGLKGEKGDPGVGPRGPPGPPGPPGPPAPSSKNDKLTFIDMEGSGFGGDLESLRGPRGPPGPPGPPGVPGLPGEPGRFGMNRTDLPGPPGLPGRDGIPGPPGPVGPQGPPGRDGEAGQPGPKGERGDVGDLGLPGLPGPKGSKGETGPAGPPGEMGLAGLPGPIGPRGQPGPPGPPGPPGPGYEAGFSDMEGSGLPFTPGPPGPEGPQGVPGLPGMKGEVGSPGQPGLPGPKGDAGMPGVDGRPGLEGFPGPQGPKGDKGSTGEKGERGQDGVGLPGPPGPPGPPGQIITVSSEDKSLVAFPGPEGRPGHAGFPGPMGPKGDRGSTGVQGAPGLKGEKGEPGVIISPDGTMVTAKVKGEKGEPGPRGPIGPSGPPGRAGMKGEIGFPGRPGRPGMNGLKGEKGDPADVLGSRGPPGPPGPPGPPGPPGSIVYSNGNTFSDSSHPAFPGFHQVPGQKGEKGDTGPPGPPGQFPYDASHFGTSLRGDKGDAGPKGEKGEPGSIPLYGPGVSGLPGPPGPQGYPGLPGPKGDSIVGPPGPPGPQGPPGIGYEGRQGPPGPPGPPGPPSFPGPHRQAVSIPGPPGPPGPPGPPGTSGMSLGLRAIPTYQRMLSTSHELPEGSLIFLTDRQELYVRLRGGFRRVLLEEHNLIPSSALDNEVYDKPPTLHYAGPQPRGPLHPLRNHVPPATARPWRGDEVVANQHRLPEQPLLHHQHELINGYYIHRRPDPAPVAAHVHQDFQPALHLVALNTPLSGSMRGIRGADFQCFQQARQVGLAGTFRAFLSSRLQDLYSIVRRADRAAVPIVNLRDEVLFNNWEALFTGSGAPLQAGTRILSFDGRDVLRDAGWPQKSVWHGSDAKGRRLPESYCETWRTEERAVTGQASSLASGKLLEQVASSCQHSFIVLCIENSFMTATKK

Target ORF information:

RefSeq Version	XM_014889876.1
Organism	Sturnus vulgaris(Common starling)
Definition	Sturnus vulgaris collagen, type XVIII, alpha 1 (COL18A1), mRNA.

Target ORF information:

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

XM_014889876.1

ORF Insert Sequence:

ATGGCCCCAC CTCGCTTGGC GTTTCTGCTC CTTCTGGCTT GCTGCTTCTC CTGCTCCGAG 
CCACAGCTTC TGGACTGGGT TTGGGACAGC ACAAAGACCG CAGGAAGCCC AGCAGCACCC 
GGCAAGGGAA TCCCGGCGTC CGAGCCGCCA ACCTCAGCAG CAGCTCCGAC TCCCAGCCCG 
TCCACGGTAA CGTGGGGTGG CGAGGTGGCA GGGAATGTCA CCACCCCAGG GCGGCAGGAG 
CCAGATCCTG TCACACCAGC GCCTGTGGGT GAGGGAACCA CTGCCAAAAC CACGGAGCAG 
TGGGACAGGA GTGCCACAGG GCCGCTGGAG AGCACGACAC GGCCAAGCAT CGCTCCTGCC 
CACAGCATGG CACCTGCCGC GGGTCAGCAG GCAGCCAGCA GCCCCAGCAA CGAGCCCCAG 
CTCCTGGGGA CAGGGAACAT CAAGGACCTG CAGCTCCTGG GCTCAGAGAC CTCTAAGGAC 
CCTCCCCCCT TATGGTCAAG GACCACCGAA GACCTTCAGC TCCTGGGGAC AGGGACCACT 
GAGCACCTGC AGCTCCTGAG GATGAGGACC ACCAAAGAAC CCCAGTTCCT GGGATCAGTG 
ACCCCCAAGG AGCTCCTGGG GTCAGGGACT ACTGAGGACC TGCAGCTGCT GGGGTTGGGC 
ACCACTGAGG ACCCACAGCT CCTAGGGATG ATGAGTGCCA GAGACCTGCA GCTCCTGGTG 
ACAGGGCACA CCGAGGACCC ACAGCTCCTA AGGACAGGGA CCACCGAGGA CCCACGGCTC 
CTGGGCCAGG AGACCACTGA GTTCCTAGGG ACAGGAGCTC CTAAAGCAAT TGAGACACAG 
GTGTCCTTGC AGAGACCAAC GGGTCCCCAG ACAGAGAGCC TGAGTGCCGA GGTCAGCCTG 
CTGGAGCTGA TCGGGGACCC ACCGACAGAG GAGATCCACA GAATTTATGG CCCCGACAAC 
AACCCTGGCT ACGTCTTCGG TCCCAACGCC AACACGGGCC AGGTGGCCCG GTACCACCTG 
CCCAGCCCTT TCTACCGGGA CTTCTCGCTG CTGTTCCACA TCCAGCCCAC CACGCCCCGG 
GCTGGCGTGC TCTTTGCCGT CACGGACTTC TCACAGAGCA TCATCTACGT GGGCGTCAAG 
CTCTCGGAGC TGCGGGCGGG CCAGCAGCAG ATTATCTTCT ACTACACGGA GCCCGGCTCG 
CCCACCTCCT ACCCGGCCGC CACCTTCACT GTGCCCACCC TGCTCAACCA GTGGACACGC 
TTTGCCATCA GTGTGGAAGA GGAGGAGGTT GTCCTCTACC TGGACTGCGA GGAGCATGAG 
CGTGTCCACT TCGAGCGCTC CCCAGATGAG ATGGAGCTGG AAGAAGGCTC TGGGCTCTTT 
GTTGCTCAGG CTGGAGGGGC TGACCCAGAT AAATACCAGG GGGTGATTGC AGATTTGAAG 
CTCCGAGGGG ACCCGCGTGC AGCCGAGCGC CAGTGCGAGG AAGAGGAGGA TGATGCAGAG 
ATCTCCGGGG ATTTTGGCAG CGGGATGGAA GGTGGACAGC AGCCTTCTGG CAAGGTCGAG 
GGTGTCCCAG GGCTGGTGGA CGCTGTCCCT GTGACCTCCC CCCCCGTGGC GGGGGGCAGT 
GGCCCGAGGA GTGGCGGGGG GTCCCCACAG CAGGCCGAGA GGACCAGGGC GGAGGAGACG 
CTGCGGGTCT CTGCGGGAGG CACCAGCCGG AAAGGTGAAA AGGGGGAGAA GGGGGAACGT 
GGCTTGAAAG GGGACTCAGG GACCGGTGGC ATCATAGGTC CAGGCAGTGT CAAGGGTCAA 
AAGGGGGAGA AAGGAGACCT GGGCGTCAAG GGCAGTGCTG GATTTGGCTA CCCTGGCTCT 
AAGGGCCAAA AAGGAGAACC AGGTGACCCT GGCCCCCCCG GGACCCTCTC TCGGCACACT 
GACGGCTCGG TGGTGGAGCA GGTCACCGGC CCCCCAGGGC CACCAGGGAA GGACGGAGCC 
CCTGGCAGGG ACGGTGAGCC TGGAGACCCT GGCGAGGACG GCAAACCTGG TGAAATGGGG 
CCCCCGGGAT TCCCTGGGAT GCCAGGGGAG CCAGGCCTGA AGGGGGAGAA GGGTGACCCA 
GGTGTGGGGC CGAGGGGACC CCCTGGACCA CCTGGCCCTC CAGGACCGCC GGCACCCTCC 
TCCAAGAACG ACAAGCTGAC CTTCATTGAC ATGGAGGGCT CTGGCTTTGG CGGTGACCTG 
GAGAGCCTGC GGGGTCCACG AGGGCCACCT GGTCCCCCAG GGCCACCTGG CGTGCCTGGT 
TTGCCAGGGG AGCCAGGACG GTTTGGGATG AACCGCACAG ACCTGCCGGG ACCACCGGGG 
CTGCCGGGCA GGGATGGGAT CCCTGGGCCC CCGGGGCCAG TGGGTCCTCA GGGTCCTCCA 
GGAAGAGACG GGGAGGCAGG GCAGCCAGGG CCCAAAGGAG AGCGGGGCGA TGTCGGTGAC 
CTCGGCCTCC CTGGCCTGCC GGGACCCAAG GGCAGCAAAG GAGAAACGGG ACCAGCAGGA 
CCCCCAGGAG AAATGGGCTT AGCTGGCCTT CCCGGGCCCA TCGGACCCCG AGGGCAGCCA 
GGGCCCCCCG GCCCCCCGGG ACCGCCAGGG CCAGGCTACG AGGCTGGATT TAGTGACATG 
GAGGGCTCGG GGCTGCCATT CACCCCTGGA CCACCTGGAC CTGAAGGACC ACAGGGTGTG 
CCAGGACTGC CGGGGATGAA GGGAGAGGTC GGCAGCCCCG GACAGCCTGG CTTGCCGGGA 
CCAAAGGGAG ATGCTGGCAT GCCTGGTGTG GATGGCCGCC CTGGCCTGGA GGGCTTCCCC 
GGACCACAGG GACCCAAAGG TGACAAAGGC AGCACTGGTG AGAAGGGAGA GCGAGGCCAA 
GATGGAGTGG GGCTGCCTGG CCCCCCTGGC CCACCTGGTC CCCCTGGACA GATCATCACT 
GTCTCCAGTG AAGATAAGTC CTTGGTGGCT TTTCCTGGTC CAGAGGGCAG GCCAGGCCAC 
GCTGGCTTCC CGGGTCCGAT GGGACCGAAA GGAGACCGGG GGTCAACTGG TGTCCAGGGT 
GCTCCAGGGT TGAAGGGGGA GAAGGGGGAG CCCGGGGTCA TCATCAGCCC CGATGGGACC 
ATGGTCACTG CCAAGGTGAA AGGAGAAAAG GGGGAGCCGG GGCCGCGGGG CCCGATAGGA 
CCATCGGGTC CCCCGGGACG AGCAGGGATG AAGGGAGAGA TCGGCTTTCC GGGCAGACCC 
GGACGTCCTG GCATGAACGG GCTGAAGGGC GAGAAGGGTG ACCCTGCAGA CGTGCTGGGC 
TCACGGGGTC CCCCAGGCCC CCCAGGACCT CCTGGGCCCC CTGGGCCACC TGGCAGCATA 
GTCTACAGCA ATGGCAATAC CTTCAGTGAC TCCAGCCATC CAGCGTTCCC CGGTTTCCAC 
CAGGTCCCAG GACAAAAGGG AGAGAAAGGT GACACCGGAC CCCCAGGACC CCCAGGCCAG 
TTCCCCTATG ATGCAAGTCA CTTCGGGACC AGCCTGAGGG GTGACAAGGG GGATGCAGGT 
CCCAAGGGTG AGAAGGGCGA GCCGGGCAGC ATCCCACTCT ACGGTCCTGG AGTCTCTGGA 
CTTCCAGGGC CTCCAGGGCC CCAGGGATAC CCTGGGCTGC CGGGTCCCAA GGGGGACAGT 
ATTGTTGGGC CACCGGGGCC TCCAGGACCT CAGGGTCCTC CTGGGATCGG ATACGAGGGG 
CGGCAGGGCC CCCCTGGCCC TCCTGGTCCG CCCGGGCCAC CCTCCTTCCC AGGTCCCCAC 
AGACAAGCTG TCAGCATCCC TGGACCCCCT GGACCACCGG GACCCCCTGG ACCACCAGGC 
ACCAGCGGGA TGTCCTTGGG GCTCCGGGCC ATACCCACGT ACCAGAGGAT GCTGAGCACC 
TCGCACGAGC TTCCCGAGGG TAGCCTCATC TTCCTGACGG ACCGACAGGA GCTCTATGTC 
CGCCTGCGCG GGGGCTTCCG CAGGGTGCTG CTGGAGGAGC ACAACCTGAT TCCCAGTTCG 
GCTCTGGACA ACGAGGTGTA CGACAAGCCG CCCACCCTCC ACTACGCCGG CCCCCAGCCC 
CGTGGGCCCC TGCACCCTCT CCGCAACCAC GTCCCCCCAG CCACTGCCCG TCCCTGGCGT 
GGGGATGAGG TGGTGGCCAA CCAGCACCGC CTGCCCGAGC AGCCCCTGCT CCACCACCAG 
CATGAGCTCA TCAATGGCTA CTACATCCAC CGCCGGCCAG ACCCTGCCCC TGTGGCCGCC 
CACGTGCACC AGGACTTCCA GCCTGCCCTT CACCTGGTGG CCCTGAACAC CCCGCTGAGC 
GGCAGCATGC GTGGCATCCG GGGTGCCGAT TTCCAGTGCT TCCAGCAAGC CCGGCAGGTC 
GGGCTGGCCG GCACCTTCCG TGCCTTCCTG TCCTCGCGCC TGCAGGATCT CTACAGCATC 
GTGCGCAGGG CCGACCGCGC TGCCGTCCCC ATCGTCAACC TCCGGGATGA AGTACTCTTC 
AATAACTGGG AAGCCCTTTT CACGGGGAGC GGGGCCCCGC TGCAAGCTGG CACCCGCATC 
CTCTCCTTCG ACGGCCGGGA TGTCCTGCGG GATGCGGGAT GGCCACAGAA GAGTGTCTGG 
CATGGCTCGG ATGCCAAGGG CCGGCGCCTG CCCGAGAGTT ACTGCGAGAC CTGGCGGACA 
GAGGAACGTG CGGTCACCGG CCAGGCTTCC TCCCTGGCCT CTGGAAAACT CCTGGAGCAG 
GTGGCCAGCA GCTGCCAGCA CTCCTTCATC GTCCTCTGCA TTGAGAACAG CTTCATGACT 
GCCACCAAAA AGTGA