COL3A1 cDNA ORF clone, Struthio camelus australis

Gene
Clones
gRNAs

Summary

Gene Symbol	COL3A1
Entrez Gene ID	104138615
Full Name	collagen type III alpha 1 chain
Gene Type	protein-coding
Organism	Struthio camelus australis

mRNA and Protein(s)

mRNA	Protein	Name
XM_009666273.1	XP_009664568.1	collagen alpha-1(III) chain

Pathways from BioSystems
Gene Ontology

The following COL3A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL3A1 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
OSt67112	XM_009666273.1 Latest version!	Struthio camelus australis collagen, type III, alpha 1 (COL3A1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

COL3A1 ( XM_009666273.1 ) cDNA ORF clone, Struthio camelus australis -> XP_009664568.1 Struthio camelus australis collagen, type III, alpha 1 (COL3A1), mRNA.

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CloneID	OSt67112
Clone ID Related Accession (Same CDS sequence)	XM_009666273.1
Accession Version	XM_009666273.1 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	2014-10-14
Organism	Struthio camelus australis
Product	collagen alpha-1(III) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009270545.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Struthio camelus australis 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##

ATGATGAGCT TTGTGCAAAA AGTAACTTTG CTCATTCTTG CCGTGTTTCA ACCCTCAGTT 
ATTTTGGCAC AACAAGACGT CGCCCTAGCA GCATGTACCC ATCTTGGCCA GGTTTATGCT 
GACCGGGATG TTTGGAAACC GGAACCATGC CAGATCTGTG TGTGTGACTC CGGATCTGTT 
CTCTGTGATG ACATCATCTG TGATGATCAA GAGTTAGACT GCCCCAACCC AGAGATTCCC 
TTTGGAGAGT GTTGTCCAGT TTGTCCACAA ACAACACCAC AACCTACTAG ATCTCCAAAC 
GTCGTCCGAG GTCCCAAGGG AGATCCTGGT TCTCCTGGTA TTCCAGGCAG AAATGGTGCC 
CCTGGCCCTC CTGGACAGCC AGGGAGTCCT GGAGCTCCTG GTGCCCCAGG GATCTGTCAG 
TCATGTCCCA GTGTAAGCGG AGGTAGTTTT TCTCCACAGT ATGACTCCTA TGATGTGAAG 
GCCGGTTCAG CTGGTATTGG TTACCCTCAG CCCATTAGTG GCTTTCCAGG ACCTCCTGGC 
CCCAGTGGCC CCCCTGGCCC ACCTGGTCAT GCAGGTCCAC CTGGCGCTAA TGGATACCAA 
GGTTCCCCTG GAGAACCAGG ACAGCCTGGC CCTTCTGGAC CTCCAGGCCC TCCTGGACTG 
ATAGGCCCAG CTGGTCCACC AGGAAAAGAT GGAGAACCAG GAAGACCAGG TAGAAATGGA 
GATCGAGGAA TTCCTGGATT ACCGGGTCAC AAGGGACACC CTGGAATGCC TGGAATGCCT 
GGAATGAAAG GTCAAAGAGG TTTTGACGGA AAAGATGGCG CAAAAGGTGA CAGCGGTGCT 
CCTGGTCCAA AGGGTGAAAC TGGTCTTCCT GGCGCAAATG GATCACCAGG CCAACCGGGA 
CCAAGAGGTC CAGCTGGTGA AAGAGGAAGA CCTGGGAATC CTGGTGGCCC TGGCGCTCAT 
GGCAAAGACG GATCTCCAGG AGCAGCTGGC CCACCAGGTC CCCCAGGTCC CCCTGGAACT 
GCAGGATTTC CAGGCTCTCC AGGTTTTAAG GGTGAAGCTG GTCCTCCGGG TCCTGCAGGT 
GCTAGTGGTA CTCCTGGAGA GAGAGGGGAA CCTGGTCCTC AAGGTCATGC TGGGCCACCT 
GGGCCTCAGG GTCCTCCTGG AAGAGCTGGA AGCCCTGGCA ACAAGGGTGA AATGGGACCT 
TCTGGTATTC CTGGTGCTCC TGGTTTGCCA GGAGGCCGTG GTCTTCCTGG TCCTCCAGGT 
ACAAGTGGAA GTCCTGGAGC AAAAGGCTCT CCGGGAGAAC CTGGTAAGAA CGGTGCAAAA 
GGAGATCCAG GCCCAAAAGG AGAGCGTGGT GAAAATGGCA CCCCAGGTGC TCCTGGACCT 
CCTGGTGAGG AAGGCAAAAG AGGTACAAAT GGTGAACCAG GCCAGAACGG CGTACCTGGC 
ACACCTGGAG AAAGAGGCTC CCCTGGTTTC CGTGGCTTAC CAGGTAGCAA TGGACTTCCA 
GGTGAAAAGG GTCCTGCAGG TGAACGTGGT AGCCCAGGTC CTCCTGGCCC AAGTGGACCT 
GCAGGAGAGC GCGGACAAGA TGGAGGCCCA GGTCTTCCAG GAATGAGAGG TTTGCCTGGA 
GTTCCAGGAA GCCCTGGAAG TGATGGGAAA CCTGGTCCCC CCGGTCAGCA GGGGGAATCT 
GGCCGTGGTG GTCCACCTGG CCCAGCAGGC CCACGTGGTC AACCAGGCGT AATGGGTTTC 
CCTGGTCCTA AAGGGAATGA GGGTGCACCA GGTAAGAATG GAGAAAGAGG CCCCAGTGGA 
CCACCCGGCA CACCTGGTCC TGCAGGGAAG AATGGTGATG TTGGACTCCC AGGTCCTCCT 
GGACCTCCTG GTGCTTCTGG GGATAGAGGA GAACCAGGAC CATCAGGTTC ACCTGGCCTC 
CAGGGATTGC CTGGTGGACC AGGACCAGCT GGAGAGAATG GAAAGCCTGG AGAACCGGGG 
CCAAAAGGTG AAATTGGAGG ACCTGGATTC CCAGGCCCTA AGGGTGAAAA TGGTATTCCA 
GGTGAACGTG GTGCACAGGG TCCTCCGGGA CCTCCTGGAG CAAGAGGTGG GCCAGGTCCT 
GCTGGCTCCG AAGGTGCCAA GGGGCCTCCT GGACCTCCTG GAGCCCCTGG AGGCACAGGG 
CTCCCTGGCC TACAAGGAAT GCCAGGAGAA AGAGGAGCTT CTGGAAGTCC TGGACCAAAA 
GGAGATAAGG GAGAACCTGG TGGCAAAGGT GCTGATGGCA TGCCTGGTGC AAGAGGAGAG 
AGAGGTAATG TAGGTCCCAT CGGCCCTCCT GGTCCTGCTG GCCCACCTGG AGATAAGGGA 
GAGACTGGTC CAGCAGGCGC CCCAGGTCCA ATGGGTGCCC GTGGTGGTCC TGGTGAGCGA 
GGAGAACAAG GTCTCCCAGG ACCTGCTGGC TTCCCTGGAG CTCCTGGCCA AAACGGGGAA 
CCTGGTGGCA AAGGAGAAAG AGGCCCAACT GGTCTAAGAG GAGAGGCTGG ACCCCCCGGA 
GCTGCAGGTC CCCAAGGTGG TCCTGGTGCA CCAGGTCCAC CTGGTCCCCA GGGAACAAAA 
GGAGAACGCG GATCTCCTGG AGGACCTGGT GCTGCTGGTT TCCCTGGTGC TCGTGGTCTA 
CCTGGTCCCC CTGGTAACAA TGGTAATCCA GGTCCACCTG GTAGTGCAGG GCCTGCAGGC 
AAGGATGGGC CTCCTGGACC TCCTGGTAGT GCTGGTTCTC CTGGCAGTCC AGGGCCTGCT 
GGAACAAGAG GCGAGCCTGG TTCACCAGGT GAAAAAGGCC CACCAGGTGC ACGGGGAGAA 
AGGGGAGCAC CAGGTGAACC AGGTCCTCAA GGTATCGTTG GTGGCCGTGG TAACACAGGC 
TTACCAGGTC TGCGTGGCCC AGCGGGTCCA GCGGGTATGG CAGGTGCAAA GGGTGAAGAT 
GGTAAGCCAG GCACCAATGG TGCCCCAGGA GAACGTGGTG CTCCCGGTCC ACAGGGCCCT 
GTTGGACAAA GAGGTCTACC TGGAGAACCT GGTAGAGATG GTAACCCTGG CTCAGATGGC 
TTGCCTGGAC GTGATGGATC CCCAGGAGGC AAAGGTGACC GTGGTGAAAG TGGCACTCCT 
GGCCCTCCCG GACCTCCTGG TCACCCTGGG CCTGCAGGTA ACAATGGTGC ACCTGGAAAA 
GCTGGTGAAA GAGGATTTCA GGGTCCACCT GGCCCTCCTG GCTCCTCTGG TCCTGCTGGT 
GCTCGTGGTC CCGCTGGTCC TCAAGGTCCT CGTGGTGATA AAGGTGAAAC TGGTGAACGA 
GGTAGCGCTG GCATAAAGGG TCATAGAGGA TTTCCTGGTA CCCCTGGCCT CCCGGGTCCT 
CCTGGGCCTC TGGGTCCACA GGGTGCAATT GGAAGTCCAG GAGCTTCAGG TGCAAGGGGT 
CCCCCAGGAC CAGCTGGCCC CCCTGGAAAA GACGGTACAA GTGGTTACCC AGGTCCAATT 
GGTCCTCCTG GCCCGCGTGG TAACAGAGGT GAAAGTGGCC CTGCAGGTCC ACCAGGTCAA 
CCTGGTCTTC CCGGTCCTTC TGGTCCTCCT GGTCCATGTT GCGGTGGCGG TATTGCTGCC 
CTCGGTGCTG GTGAAAAAGG TCCGTCAGGC TATGGTTATG AATATCGAGA TGAGCCAAAA 
GAAAATGAGA TCAACCTGGG TGACATTATA TCTTCAATGA AATCAATTAA TAACCAGATT 
GAAAACATCA TTAGTCCTGA TGGGTCACGA AAGAATCCAG CTCGTAACTG CAGAGATCTG 
AAATTCTGCC ATCCTGAGCT CAAGAGCGGA GAGTACTGGG TCGATCCCAA CCAAGGTTGC 
AAGATGGATG CTATTAAAGT ATACTGTAAT ATGGAGACTG GTGAAACATG CCTCAGTGCT 
AACCCCAGCA CTGTGCCAAG GAAAAACTGG TGGACCAGTC AAAGCAGTGA AAGGAAACAT 
GTTTGGTTTG GAGAATCTAT GAATGGAGGC TTCCAGTTCA GCTATGGTGA TCCTGAGCTT 
CCAGAGGACG TCTCGGAAGT TCAGCTGGCG TTCCTCAGGA TCCTCTCTAG CCGGGCCTCT 
CAGAACATCA CTTACCACTG CAGGAACAGC ATTGCCTACA TGGATCAAGC CAGTGGAAAT 
GTTAAAAAAG CTCTGAAACT GATGAGCTCT GTGGAAAGTG AGATCAAGGC TGAAGGAAAC 
AGCAAATTCA CATATGCTGT TCTGGAAGAT GGCTGTACTA AACACACTGG CGAATGGAGT 
AAAACAGTCT TTGAATACAG CACACGCAAG ACAATGAGGT TGCCTGTGAT TGATATTGCA 
CCCATAGATA TTGGTGGTCC TGATCAGGAA TTTGGTGTGG ACATTGGCCC AGTCTGCTTC 
TTATAA

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

RefSeq	XP_009664568.1
CDS	130..4515
Translation	MMSFVQKVTLLILAVFQPSVILAQQDVALAACTHLGQVYADRDVWKPEPCQICVCDSGSVLCDDIICDDQELDCPNPEIPFGECCPVCPQTTPQPTRSPNVVRGPKGDPGSPGIPGRNGAPGPPGQPGSPGAPGAPGICQSCPSVSGGSFSPQYDSYDVKAGSAGIGYPQPISGFPGPPGPSGPPGPPGHAGPPGANGYQGSPGEPGQPGPSGPPGPPGLIGPAGPPGKDGEPGRPGRNGDRGIPGLPGHKGHPGMPGMPGMKGQRGFDGKDGAKGDSGAPGPKGETGLPGANGSPGQPGPRGPAGERGRPGNPGGPGAHGKDGSPGAAGPPGPPGPPGTAGFPGSPGFKGEAGPPGPAGASGTPGERGEPGPQGHAGPPGPQGPPGRAGSPGNKGEMGPSGIPGAPGLPGGRGLPGPPGTSGSPGAKGSPGEPGKNGAKGDPGPKGERGENGTPGAPGPPGEEGKRGTNGEPGQNGVPGTPGERGSPGFRGLPGSNGLPGEKGPAGERGSPGPPGPSGPAGERGQDGGPGLPGMRGLPGVPGSPGSDGKPGPPGQQGESGRGGPPGPAGPRGQPGVMGFPGPKGNEGAPGKNGERGPSGPPGTPGPAGKNGDVGLPGPPGPPGASGDRGEPGPSGSPGLQGLPGGPGPAGENGKPGEPGPKGEIGGPGFPGPKGENGIPGERGAQGPPGPPGARGGPGPAGSEGAKGPPGPPGAPGGTGLPGLQGMPGERGASGSPGPKGDKGEPGGKGADGMPGARGERGNVGPIGPPGPAGPPGDKGETGPAGAPGPMGARGGPGERGEQGLPGPAGFPGAPGQNGEPGGKGERGPTGLRGEAGPPGAAGPQGGPGAPGPPGPQGTKGERGSPGGPGAAGFPGARGLPGPPGNNGNPGPPGSAGPAGKDGPPGPPGSAGSPGSPGPAGTRGEPGSPGEKGPPGARGERGAPGEPGPQGIVGGRGNTGLPGLRGPAGPAGMAGAKGEDGKPGTNGAPGERGAPGPQGPVGQRGLPGEPGRDGNPGSDGLPGRDGSPGGKGDRGESGTPGPPGPPGHPGPAGNNGAPGKAGERGFQGPPGPPGSSGPAGARGPAGPQGPRGDKGETGERGSAGIKGHRGFPGTPGLPGPPGPLGPQGAIGSPGASGARGPPGPAGPPGKDGTSGYPGPIGPPGPRGNRGESGPAGPPGQPGLPGPSGPPGPCCGGGIAALGAGEKGPSGYGYEYRDEPKENEINLGDIISSMKSINNQIENIISPDGSRKNPARNCRDLKFCHPELKSGEYWVDPNQGCKMDAIKVYCNMETGETCLSANPSTVPRKNWWTSQSSERKHVWFGESMNGGFQFSYGDPELPEDVSEVQLAFLRILSSRASQNITYHCRNSIAYMDQASGNVKKALKLMSSVESEIKAEGNSKFTYAVLEDGCTKHTGEWSKTVFEYSTRKTMRLPVIDIAPIDIGGPDQEFGVDIGPVCFL

Target ORF information:

RefSeq Version	XM_009666273.1
Organism	Struthio camelus australis
Definition	Struthio camelus australis collagen, type III, alpha 1 (COL3A1), mRNA.

Target ORF information:

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

XM_009666273.1

ORF Insert Sequence:

ATGATGAGCT TTGTGCAAAA AGTAACTTTG CTCATTCTTG CCGTGTTTCA ACCCTCAGTT 
ATTTTGGCAC AACAAGACGT CGCCCTAGCA GCATGTACCC ATCTTGGCCA GGTTTATGCT 
GACCGGGATG TTTGGAAACC GGAACCATGC CAGATCTGTG TGTGTGACTC CGGATCTGTT 
CTCTGTGATG ACATCATCTG TGATGATCAA GAGTTAGACT GCCCCAACCC AGAGATTCCC 
TTTGGAGAGT GTTGTCCAGT TTGTCCACAA ACAACACCAC AACCTACTAG ATCTCCAAAC 
GTCGTCCGAG GTCCCAAGGG AGATCCTGGT TCTCCTGGTA TTCCAGGCAG AAATGGTGCC 
CCTGGCCCTC CTGGACAGCC AGGGAGTCCT GGAGCTCCTG GTGCCCCAGG GATCTGTCAG 
TCATGTCCCA GTGTAAGCGG AGGTAGTTTT TCTCCACAGT ATGACTCCTA TGATGTGAAG 
GCCGGTTCAG CTGGTATTGG TTACCCTCAG CCCATTAGTG GCTTTCCAGG ACCTCCTGGC 
CCCAGTGGCC CCCCTGGCCC ACCTGGTCAT GCAGGTCCAC CTGGCGCTAA TGGATACCAA 
GGTTCCCCTG GAGAACCAGG ACAGCCTGGC CCTTCTGGAC CTCCAGGCCC TCCTGGACTG 
ATAGGCCCAG CTGGTCCACC AGGAAAAGAT GGAGAACCAG GAAGACCAGG TAGAAATGGA 
GATCGAGGAA TTCCTGGATT ACCGGGTCAC AAGGGACACC CTGGAATGCC TGGAATGCCT 
GGAATGAAAG GTCAAAGAGG TTTTGACGGA AAAGATGGCG CAAAAGGTGA CAGCGGTGCT 
CCTGGTCCAA AGGGTGAAAC TGGTCTTCCT GGCGCAAATG GATCACCAGG CCAACCGGGA 
CCAAGAGGTC CAGCTGGTGA AAGAGGAAGA CCTGGGAATC CTGGTGGCCC TGGCGCTCAT 
GGCAAAGACG GATCTCCAGG AGCAGCTGGC CCACCAGGTC CCCCAGGTCC CCCTGGAACT 
GCAGGATTTC CAGGCTCTCC AGGTTTTAAG GGTGAAGCTG GTCCTCCGGG TCCTGCAGGT 
GCTAGTGGTA CTCCTGGAGA GAGAGGGGAA CCTGGTCCTC AAGGTCATGC TGGGCCACCT 
GGGCCTCAGG GTCCTCCTGG AAGAGCTGGA AGCCCTGGCA ACAAGGGTGA AATGGGACCT 
TCTGGTATTC CTGGTGCTCC TGGTTTGCCA GGAGGCCGTG GTCTTCCTGG TCCTCCAGGT 
ACAAGTGGAA GTCCTGGAGC AAAAGGCTCT CCGGGAGAAC CTGGTAAGAA CGGTGCAAAA 
GGAGATCCAG GCCCAAAAGG AGAGCGTGGT GAAAATGGCA CCCCAGGTGC TCCTGGACCT 
CCTGGTGAGG AAGGCAAAAG AGGTACAAAT GGTGAACCAG GCCAGAACGG CGTACCTGGC 
ACACCTGGAG AAAGAGGCTC CCCTGGTTTC CGTGGCTTAC CAGGTAGCAA TGGACTTCCA 
GGTGAAAAGG GTCCTGCAGG TGAACGTGGT AGCCCAGGTC CTCCTGGCCC AAGTGGACCT 
GCAGGAGAGC GCGGACAAGA TGGAGGCCCA GGTCTTCCAG GAATGAGAGG TTTGCCTGGA 
GTTCCAGGAA GCCCTGGAAG TGATGGGAAA CCTGGTCCCC CCGGTCAGCA GGGGGAATCT 
GGCCGTGGTG GTCCACCTGG CCCAGCAGGC CCACGTGGTC AACCAGGCGT AATGGGTTTC 
CCTGGTCCTA AAGGGAATGA GGGTGCACCA GGTAAGAATG GAGAAAGAGG CCCCAGTGGA 
CCACCCGGCA CACCTGGTCC TGCAGGGAAG AATGGTGATG TTGGACTCCC AGGTCCTCCT 
GGACCTCCTG GTGCTTCTGG GGATAGAGGA GAACCAGGAC CATCAGGTTC ACCTGGCCTC 
CAGGGATTGC CTGGTGGACC AGGACCAGCT GGAGAGAATG GAAAGCCTGG AGAACCGGGG 
CCAAAAGGTG AAATTGGAGG ACCTGGATTC CCAGGCCCTA AGGGTGAAAA TGGTATTCCA 
GGTGAACGTG GTGCACAGGG TCCTCCGGGA CCTCCTGGAG CAAGAGGTGG GCCAGGTCCT 
GCTGGCTCCG AAGGTGCCAA GGGGCCTCCT GGACCTCCTG GAGCCCCTGG AGGCACAGGG 
CTCCCTGGCC TACAAGGAAT GCCAGGAGAA AGAGGAGCTT CTGGAAGTCC TGGACCAAAA 
GGAGATAAGG GAGAACCTGG TGGCAAAGGT GCTGATGGCA TGCCTGGTGC AAGAGGAGAG 
AGAGGTAATG TAGGTCCCAT CGGCCCTCCT GGTCCTGCTG GCCCACCTGG AGATAAGGGA 
GAGACTGGTC CAGCAGGCGC CCCAGGTCCA ATGGGTGCCC GTGGTGGTCC TGGTGAGCGA 
GGAGAACAAG GTCTCCCAGG ACCTGCTGGC TTCCCTGGAG CTCCTGGCCA AAACGGGGAA 
CCTGGTGGCA AAGGAGAAAG AGGCCCAACT GGTCTAAGAG GAGAGGCTGG ACCCCCCGGA 
GCTGCAGGTC CCCAAGGTGG TCCTGGTGCA CCAGGTCCAC CTGGTCCCCA GGGAACAAAA 
GGAGAACGCG GATCTCCTGG AGGACCTGGT GCTGCTGGTT TCCCTGGTGC TCGTGGTCTA 
CCTGGTCCCC CTGGTAACAA TGGTAATCCA GGTCCACCTG GTAGTGCAGG GCCTGCAGGC 
AAGGATGGGC CTCCTGGACC TCCTGGTAGT GCTGGTTCTC CTGGCAGTCC AGGGCCTGCT 
GGAACAAGAG GCGAGCCTGG TTCACCAGGT GAAAAAGGCC CACCAGGTGC ACGGGGAGAA 
AGGGGAGCAC CAGGTGAACC AGGTCCTCAA GGTATCGTTG GTGGCCGTGG TAACACAGGC 
TTACCAGGTC TGCGTGGCCC AGCGGGTCCA GCGGGTATGG CAGGTGCAAA GGGTGAAGAT 
GGTAAGCCAG GCACCAATGG TGCCCCAGGA GAACGTGGTG CTCCCGGTCC ACAGGGCCCT 
GTTGGACAAA GAGGTCTACC TGGAGAACCT GGTAGAGATG GTAACCCTGG CTCAGATGGC 
TTGCCTGGAC GTGATGGATC CCCAGGAGGC AAAGGTGACC GTGGTGAAAG TGGCACTCCT 
GGCCCTCCCG GACCTCCTGG TCACCCTGGG CCTGCAGGTA ACAATGGTGC ACCTGGAAAA 
GCTGGTGAAA GAGGATTTCA GGGTCCACCT GGCCCTCCTG GCTCCTCTGG TCCTGCTGGT 
GCTCGTGGTC CCGCTGGTCC TCAAGGTCCT CGTGGTGATA AAGGTGAAAC TGGTGAACGA 
GGTAGCGCTG GCATAAAGGG TCATAGAGGA TTTCCTGGTA CCCCTGGCCT CCCGGGTCCT 
CCTGGGCCTC TGGGTCCACA GGGTGCAATT GGAAGTCCAG GAGCTTCAGG TGCAAGGGGT 
CCCCCAGGAC CAGCTGGCCC CCCTGGAAAA GACGGTACAA GTGGTTACCC AGGTCCAATT 
GGTCCTCCTG GCCCGCGTGG TAACAGAGGT GAAAGTGGCC CTGCAGGTCC ACCAGGTCAA 
CCTGGTCTTC CCGGTCCTTC TGGTCCTCCT GGTCCATGTT GCGGTGGCGG TATTGCTGCC 
CTCGGTGCTG GTGAAAAAGG TCCGTCAGGC TATGGTTATG AATATCGAGA TGAGCCAAAA 
GAAAATGAGA TCAACCTGGG TGACATTATA TCTTCAATGA AATCAATTAA TAACCAGATT 
GAAAACATCA TTAGTCCTGA TGGGTCACGA AAGAATCCAG CTCGTAACTG CAGAGATCTG 
AAATTCTGCC ATCCTGAGCT CAAGAGCGGA GAGTACTGGG TCGATCCCAA CCAAGGTTGC 
AAGATGGATG CTATTAAAGT ATACTGTAAT ATGGAGACTG GTGAAACATG CCTCAGTGCT 
AACCCCAGCA CTGTGCCAAG GAAAAACTGG TGGACCAGTC AAAGCAGTGA AAGGAAACAT 
GTTTGGTTTG GAGAATCTAT GAATGGAGGC TTCCAGTTCA GCTATGGTGA TCCTGAGCTT 
CCAGAGGACG TCTCGGAAGT TCAGCTGGCG TTCCTCAGGA TCCTCTCTAG CCGGGCCTCT 
CAGAACATCA CTTACCACTG CAGGAACAGC ATTGCCTACA TGGATCAAGC CAGTGGAAAT 
GTTAAAAAAG CTCTGAAACT GATGAGCTCT GTGGAAAGTG AGATCAAGGC TGAAGGAAAC 
AGCAAATTCA CATATGCTGT TCTGGAAGAT GGCTGTACTA AACACACTGG CGAATGGAGT 
AAAACAGTCT TTGAATACAG CACACGCAAG ACAATGAGGT TGCCTGTGAT TGATATTGCA 
CCCATAGATA TTGGTGGTCC TGATCAGGAA TTTGGTGTGG ACATTGGCCC AGTCTGCTTC 
TTATAA