COL4A2 cDNA ORF clone, Fulmarus glacialis(Northern fulmar)

Gene
Clones
gRNAs

Summary

Gene Symbol	COL4A2
Entrez Gene ID	104079745
Full Name	collagen type IV alpha 2 chain
Gene Type	protein-coding
Organism	Fulmarus glacialis(Northern fulmar)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009581883.1	XP_009580178.1	collagen alpha-2(IV) chain

Pathways from BioSystems
Gene Ontology

The following COL4A2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL4A2 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
OFu94338	XM_009581883.1 Latest version!	Fulmarus glacialis collagen, type IV, alpha 2 (COL4A2), 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)

COL4A2 ( XM_009581883.1 ) cDNA ORF clone, Fulmarus glacialis(Northern fulmar) -> XP_009580178.1 Fulmarus glacialis collagen, type IV, alpha 2 (COL4A2), mRNA.

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CloneID	OFu94338
Clone ID Related Accession (Same CDS sequence)	XM_009581883.1
Accession Version	XM_009581883.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4974bp) 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	Fulmarus glacialis(Northern fulmar)
Product	collagen alpha-2(IV) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009223708.1) 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 :: Fulmarus glacialis 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##

ATGGGTGATA CTGGCCAGCC AGGACTCCTT GGATCGCAGG GATTCACTGG ACCCCCAGGA 
TTGATGGGGA TCCCAGGAGT GCAAGGTCCC AAAGGTCACA AAGGTGAAAG AGGATATCCA 
GGAATAAGTG GACCCAAAGG AGAAATGGGG CAAAGAGGAG TCACTGGATT CCTGTACAGC 
AATGGAAATC CAGGTCATCC AGGGCAACCA GGATCAAGGG GGAAACCGGG TCATGATGGC 
TGTAACGGGA CAGTAGGTGA CCCTGGTGAC TCGGGAAGTC CCGGACCCTC TGGTTTCCCT 
GGTACCATTG GAGTCCAAGG GCCAAAGGGC CAGAAGGGGG AGCCCTATAT ACTGCCGCCA 
GACATCGCAA GCCGATACAG GGGGGAACCT GGGGATCCAG GGTTCAACGG TTTTCAAGGA 
CCTCCGGGTA CGCTGGGTAT CCAAGGACCT GTTGGTCCAA GAGGAGAGCG AGGAAGACCA 
GGACCACCAG GGCCCCCAGG ACCACTAGGA CCACAAGGCA ACAGGGGCCT TGGCTTCTAT 
GGAGAAAAAG GTGAACAGGG CCCCCCAGGT CCTCCAGGTC CACCTGGGCT TCCTACAAGA 
GAACTGATGG GTGTCCCCTC TGACAAACAC AAGGGTGAAA GAGGAGAACC TGGACCAAAA 
GGGGAAGCTG GAATTCCAGG TGTACTTCTC TATGCTCCTG AAAAAGGTGA AGAAGGGGTA 
ATGGGCTTCC CAGGACAAAG GGGACTGCCT GGTATCAATG GTTTTCCAGG ACTCGGTGGA 
GAAAGAGGTT TTCCAGGATT TGATGGTCCA CCAGGTGGCT ATGGTCCTAG GGGAAGCAAG 
GGGGAGCCAG GCGAGATCGG TCCTCCAGGA CCAGTTTCCT ATTTTCCTTC CCGCATCCCA 
AGGAAAGGTG CAAGAGGTGA TCCAGGCTTT CCAGGTGTTT CTGGACTACA GGGAGACCCA 
GGAGAGGAGG GAGATCGTGG GCTGCCAGGT CTTCCTGGAT TCTCTGATGT GGATGGGGAT 
AAGCCAGGCT TACCTGGAGA AATGGGACCA AAAGGCGAAA AAGGTGAATT AGGATCTCCC 
GCTTATCAGG CAGGCCCACC TGGGTTTCCG GGTAAGCACG GCACACCAGG ACTCCGTGGT 
CCACCTGGTC CCACTGGATC CCCTGGTTCT CTCTTTGGAT TAAAAGGACA GGAGGGAGCG 
CCAGGTAGAT TTGGCATGCA AGGTTTCCCT GGACCAAGAG GACAAAAAGG ACCTAAAGGT 
GAAGAAGGGG ATTGCAGTAA ATGCCTTGTG GGTGATGAAA TCAGAAGGGG CTCTACTGGC 
CCCCCTGGCC CTCCTGGCTT CCCAGGAACC CCTGGCCAGC CTGGGAGGAA AGGAGAACCT 
GGTGATCAAG GACCACATGG TATTCCTGGC TACCCTGGTG CAAAAGGATT TTCAGGTCAG 
GATGGATTTC CTGGACCAAA AGGAGAAAAG GGAGATTCTT TATACATAAC TACTAAAGGC 
ACCAAAGGAA TCCGAGGAGA TCCCGGGCTG CCTGGTATCA GAGGTGAAGA TGGTTTCCCA 
GGCAGAGATG GATTAGATGG TTTACCAGGA CAGCCTGGCC TTCCGGGTGA TGGTATCAGA 
GGTTTCCCTG GCGATCCTGG TTATCCAGGC GAATTAGGCC CAAAGGGCTT TCCAGGAGAA 
GGAGGCCCAC CGGGTGAAGG ATTTCCTGGT CCAAAAGGGT ATCGGGGTCC TCCAGGTGAC 
CACGGACAAG ATGGAAACCC GGGACCTCCA GGTCTGCCCG GTCTGCCAGG AGAGCCAGGC 
CAACTAGACT GTGGGCAGGT CACTGAAGAC TTTTCTAGAG GAGATGGAAC CGAGCCAATA 
TGGTCAGGCG CGGGCTGTGT GAGGCCACCA AAGGGATCCC AAGGCAAGCC AGGACTGCCA 
GGAGCCACAG GTGCAAAAGG TGCAAGAGGA TTCCCAGGTA ACCCAGGTCC AGTGGGATAC 
CCAGGGCTAA ATGGTACACG AGGTGATCCG GGTCGGGAAG GATTCCCAGG TCCTCCAGGT 
TTTACTGGGC CCAGGGGAGA CAGAGGCCCG AATGGTCTAC CTGGACTGCA GGGACACCCA 
GGCCTTACAG GAAAATCCGG TGCTCCGGGA GCGGCAGGAC TGAAGGGCTT TCCTGGTGAC 
GTTTTAGGAG CAGCAGCAGG TTCCCGAGGG GATGCTGGGC TCCCCGGCTT CCCGGGGTTG 
AAAGGCACAC CAGGAGATCA AGGAGTACCA GGAATTAGAG GAGCAGATGG TAACCCAGGT 
TTGCCAGGAC CCAAAGGAGA TCCAGGGCCG CAAGGTCTCC CTGGTTTGAT GGGATTGCCA 
GGAACACCAG GAACGCGTGG ATTCCCAGGG CCACCAGGAA ACCCTGGGCC AGATGGCGGG 
CCTGGCTCTC AAGGACCTGT TGGTCCACCT GGTGCTAGGG GAGAAGATGG TGAGCAAGGT 
TTTCCTGGCC CCGTGGGCCT GAAAGGTCTG TCTGGTGACA AAGGTGAAAC AGGTTACCCG 
GGATTACAAG GTATACCTGG CGTGACTGGT CCCCCTGGCA TAAGCGGAAT GGATGGCTTT 
CCAGGAGATA AAGGCTCAAG AGGTTCACCT GGCATTGATG GTTTCAAAGG CATGACAGGC 
CTAAAAGGAA GACCAGGCAT CAAGGGAATC AAAGGAGAAT TTGGCCTGTT CGGTGCTCGG 
GGCGATAAAG GCTCCCAGGG TGCACGCGGT TTTAAAGGTG ACCGTGGTGA TCAAGGGCCC 
CCAGGAGAAC CCCCAAAGCT CAAGCCCAGC TTGATGATGG AAGTTAAAGG CGAAAAAGGA 
GATGTTGGAG AAACAGGCAC GAAGGGATTC TTTGGCATAA AAGGTAGCAA GGGAATGCCA 
GGCGTTCCCG GAAAGACAGG AACTCCAGGG TCCCCTGGGC ATCCCAGCTA TGTGGCCGGT 
GTGAAAGGGG ACGTCGGTGC GAAAGGGCTG ACAGGTCTGA AAGGATATCC TGGTCCAGCC 
GGCTCTCCTG GCATCAGAGG CTTCCCTGGC AGCACAGGAG GCAGGGGAGA AAAGGGTATT 
CCAGGAACCT CAGGCCATTT TGGTACTCCT GGCTCACATG GTGAAATAGG TGAGCGGGGA 
GATACTATAA ACTTACCAGG AAGGCCAGGC CTTAAAGGGG AAGTTGGTGT ACCAGGCTTA 
ACAGGCACAA GAGGAGGCAC AGGACAAAAA GGCGAAGGCG GTGATCCTGG TTTCCCTGGC 
ATTGAAGGCC TCAAGGGCAC ACAGGGTGTC CCTGGCTCTG TGGGACAGGA AGGTTTGCGA 
GGACTGGTCG GCCCCCCAGG GCAGCAAGGA AGCCCCGGGA CGCCTGGATT TCAAGGTGAA 
AAGGGAACTC CGGGCTGGCC TGGCTTACCA GGACAAGCAG GCTTGCCTGG CTTAAGAGGA 
ATCAGTGGAC TGCATGGTTT ACCAGGCACT AAGGGCTTAC CAGGATCACC AGGTCCAGAC 
GGCTACGGCT CTGCAGGTTT CCCAGGCGCA GTGGGTGACA AAGGGGAAGC AGGAGAGGCG 
AGCAGAGTGG AAGGCAGCCG AGGACCTCCG GGTCAGAAGG GAGACAGAGG TGTTCCAGGT 
TTGTATTCTC CTTTCAGGAG TTCTGGGCAG GAAGGATTTC CAGGGCCTCC TGGGATTTCA 
AATATATCAG GATACCCTGG TGATAAAGGC TCCCCAGGTC TAGATGGAGT GCCAGGCTAT 
CCAGGACTAC AGGGGCAGCC TGGAATACCG GCTCCACCAG GAAGCAAAGG AGAAAGTGGA 
CAAACAGGTG TGAGTGGACA AATTGGCCCA AAAGGAAGTA GAGGTGATCC TGGATTAGCA 
GGGAGACCTG GCGTTCCCGG GTACTCTGGA CCAAAAGGTC GTAAGGGTGA ACAAGGTGTC 
ATCGGCTTTA TGGGCACAAT AGGATTTCCA GGTGATTTGG GACCTATCGG ACCCAAGGGG 
GACAGAGGAG TAACTGGCTT TCAGGGTCCT CCAGGCTCTC CTGGGCTGCC CCCTCTTCCT 
CCAAGGCTGG TTGCTGAGCA AGGTTCACCA GGTCTCCGTG GAAATATAGG ACCTCAAGGA 
AGCCCAGGAG ATATGGGACC TCAGGGTCCA CCAGGCGATC CAGGTTTCAG AGGCTCACCT 
GGAGAGCCAG GACTCCAGGG CAGGGGTGGC ATTCCAGCTC CTTCTGGCTC CAGAGGTGAA 
CAAGGAGCAA CAGGGTTTCA GGGTCCAGTG GGATTTGAAG GTCAGCCAGG CCGCCCTGGT 
AGCCCCGGGC TGCCAGGCAT GCCGGGTCGC AGCGTTAGCA TGGGCTACCT GCTGGTGAAG 
CACAGCCAGT CCGATCAAGA GCCAATGTGC CCAGTTGGCA TGAACAAACT CTGGAGTGGA 
TACAGCCTAC TGTACTTTGA AGGACAAGAG AAAGCACACA ACCAGGATCT AGGGCTGGCC 
GGCTCATGTT TGGCTCGTTT TAGTACTATG CCATTCCTCT ACTGTAACCC TGGGGATATT 
TGTTATTATG CAAGTCGAAA TGATAAATCC TACTGGCTCT CAACTACAGC ACCTCTTCCA 
ATGATGCCTG TGGCAGAAGA AGACATTAGG CCATATATCA GTCGCTGCTC AGTTTGTGAG 
GCCCCAGCTG TGGCAATTGC TGTCCATAGC CAAGAAGCTT CTATTCCTCA CTGCCCTGAA 
GGCTGGCGCA GTTTGTGGAT CGGATATTCC TTCCTTATGC ACACTGCTGC TGGTGATGAA 
GGTGGAGGAC AGTCGCTGGT TTCTCCTGGG AGCTGCCTGG AAGATTTCCG AGCGACTCCT 
TTCATCGAAT GCAATGGCGC ACGCGGAACC TGTCACTACT TTGCAAATAA ATACAGCTTC 
TGGCTCACTA CGATCGACCA GCCCTTCCAA AGCAAGCCCT CGGCAGATAC ACTCAAGGCA 
GGACTCATCC GAAGCCATAT CAGCAGATGT CAAGTCTGTA TGAAAAATTT ATAG

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

RefSeq	XP_009580178.1
CDS	1..4974
Translation	MGDTGQPGLLGSQGFTGPPGLMGIPGVQGPKGHKGERGYPGISGPKGEMGQRGVTGFLYSNGNPGHPGQPGSRGKPGHDGCNGTVGDPGDSGSPGPSGFPGTIGVQGPKGQKGEPYILPPDIASRYRGEPGDPGFNGFQGPPGTLGIQGPVGPRGERGRPGPPGPPGPLGPQGNRGLGFYGEKGEQGPPGPPGPPGLPTRELMGVPSDKHKGERGEPGPKGEAGIPGVLLYAPEKGEEGVMGFPGQRGLPGINGFPGLGGERGFPGFDGPPGGYGPRGSKGEPGEIGPPGPVSYFPSRIPRKGARGDPGFPGVSGLQGDPGEEGDRGLPGLPGFSDVDGDKPGLPGEMGPKGEKGELGSPAYQAGPPGFPGKHGTPGLRGPPGPTGSPGSLFGLKGQEGAPGRFGMQGFPGPRGQKGPKGEEGDCSKCLVGDEIRRGSTGPPGPPGFPGTPGQPGRKGEPGDQGPHGIPGYPGAKGFSGQDGFPGPKGEKGDSLYITTKGTKGIRGDPGLPGIRGEDGFPGRDGLDGLPGQPGLPGDGIRGFPGDPGYPGELGPKGFPGEGGPPGEGFPGPKGYRGPPGDHGQDGNPGPPGLPGLPGEPGQLDCGQVTEDFSRGDGTEPIWSGAGCVRPPKGSQGKPGLPGATGAKGARGFPGNPGPVGYPGLNGTRGDPGREGFPGPPGFTGPRGDRGPNGLPGLQGHPGLTGKSGAPGAAGLKGFPGDVLGAAAGSRGDAGLPGFPGLKGTPGDQGVPGIRGADGNPGLPGPKGDPGPQGLPGLMGLPGTPGTRGFPGPPGNPGPDGGPGSQGPVGPPGARGEDGEQGFPGPVGLKGLSGDKGETGYPGLQGIPGVTGPPGISGMDGFPGDKGSRGSPGIDGFKGMTGLKGRPGIKGIKGEFGLFGARGDKGSQGARGFKGDRGDQGPPGEPPKLKPSLMMEVKGEKGDVGETGTKGFFGIKGSKGMPGVPGKTGTPGSPGHPSYVAGVKGDVGAKGLTGLKGYPGPAGSPGIRGFPGSTGGRGEKGIPGTSGHFGTPGSHGEIGERGDTINLPGRPGLKGEVGVPGLTGTRGGTGQKGEGGDPGFPGIEGLKGTQGVPGSVGQEGLRGLVGPPGQQGSPGTPGFQGEKGTPGWPGLPGQAGLPGLRGISGLHGLPGTKGLPGSPGPDGYGSAGFPGAVGDKGEAGEASRVEGSRGPPGQKGDRGVPGLYSPFRSSGQEGFPGPPGISNISGYPGDKGSPGLDGVPGYPGLQGQPGIPAPPGSKGESGQTGVSGQIGPKGSRGDPGLAGRPGVPGYSGPKGRKGEQGVIGFMGTIGFPGDLGPIGPKGDRGVTGFQGPPGSPGLPPLPPRLVAEQGSPGLRGNIGPQGSPGDMGPQGPPGDPGFRGSPGEPGLQGRGGIPAPSGSRGEQGATGFQGPVGFEGQPGRPGSPGLPGMPGRSVSMGYLLVKHSQSDQEPMCPVGMNKLWSGYSLLYFEGQEKAHNQDLGLAGSCLARFSTMPFLYCNPGDICYYASRNDKSYWLSTTAPLPMMPVAEEDIRPYISRCSVCEAPAVAIAVHSQEASIPHCPEGWRSLWIGYSFLMHTAAGDEGGGQSLVSPGSCLEDFRATPFIECNGARGTCHYFANKYSFWLTTIDQPFQSKPSADTLKAGLIRSHISRCQVCMKNL

Target ORF information:

RefSeq Version	XM_009581883.1
Organism	Fulmarus glacialis(Northern fulmar)
Definition	Fulmarus glacialis collagen, type IV, alpha 2 (COL4A2), mRNA.

Target ORF information:

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

XM_009581883.1

ORF Insert Sequence:

ATGGGTGATA CTGGCCAGCC AGGACTCCTT GGATCGCAGG GATTCACTGG ACCCCCAGGA 
TTGATGGGGA TCCCAGGAGT GCAAGGTCCC AAAGGTCACA AAGGTGAAAG AGGATATCCA 
GGAATAAGTG GACCCAAAGG AGAAATGGGG CAAAGAGGAG TCACTGGATT CCTGTACAGC 
AATGGAAATC CAGGTCATCC AGGGCAACCA GGATCAAGGG GGAAACCGGG TCATGATGGC 
TGTAACGGGA CAGTAGGTGA CCCTGGTGAC TCGGGAAGTC CCGGACCCTC TGGTTTCCCT 
GGTACCATTG GAGTCCAAGG GCCAAAGGGC CAGAAGGGGG AGCCCTATAT ACTGCCGCCA 
GACATCGCAA GCCGATACAG GGGGGAACCT GGGGATCCAG GGTTCAACGG TTTTCAAGGA 
CCTCCGGGTA CGCTGGGTAT CCAAGGACCT GTTGGTCCAA GAGGAGAGCG AGGAAGACCA 
GGACCACCAG GGCCCCCAGG ACCACTAGGA CCACAAGGCA ACAGGGGCCT TGGCTTCTAT 
GGAGAAAAAG GTGAACAGGG CCCCCCAGGT CCTCCAGGTC CACCTGGGCT TCCTACAAGA 
GAACTGATGG GTGTCCCCTC TGACAAACAC AAGGGTGAAA GAGGAGAACC TGGACCAAAA 
GGGGAAGCTG GAATTCCAGG TGTACTTCTC TATGCTCCTG AAAAAGGTGA AGAAGGGGTA 
ATGGGCTTCC CAGGACAAAG GGGACTGCCT GGTATCAATG GTTTTCCAGG ACTCGGTGGA 
GAAAGAGGTT TTCCAGGATT TGATGGTCCA CCAGGTGGCT ATGGTCCTAG GGGAAGCAAG 
GGGGAGCCAG GCGAGATCGG TCCTCCAGGA CCAGTTTCCT ATTTTCCTTC CCGCATCCCA 
AGGAAAGGTG CAAGAGGTGA TCCAGGCTTT CCAGGTGTTT CTGGACTACA GGGAGACCCA 
GGAGAGGAGG GAGATCGTGG GCTGCCAGGT CTTCCTGGAT TCTCTGATGT GGATGGGGAT 
AAGCCAGGCT TACCTGGAGA AATGGGACCA AAAGGCGAAA AAGGTGAATT AGGATCTCCC 
GCTTATCAGG CAGGCCCACC TGGGTTTCCG GGTAAGCACG GCACACCAGG ACTCCGTGGT 
CCACCTGGTC CCACTGGATC CCCTGGTTCT CTCTTTGGAT TAAAAGGACA GGAGGGAGCG 
CCAGGTAGAT TTGGCATGCA AGGTTTCCCT GGACCAAGAG GACAAAAAGG ACCTAAAGGT 
GAAGAAGGGG ATTGCAGTAA ATGCCTTGTG GGTGATGAAA TCAGAAGGGG CTCTACTGGC 
CCCCCTGGCC CTCCTGGCTT CCCAGGAACC CCTGGCCAGC CTGGGAGGAA AGGAGAACCT 
GGTGATCAAG GACCACATGG TATTCCTGGC TACCCTGGTG CAAAAGGATT TTCAGGTCAG 
GATGGATTTC CTGGACCAAA AGGAGAAAAG GGAGATTCTT TATACATAAC TACTAAAGGC 
ACCAAAGGAA TCCGAGGAGA TCCCGGGCTG CCTGGTATCA GAGGTGAAGA TGGTTTCCCA 
GGCAGAGATG GATTAGATGG TTTACCAGGA CAGCCTGGCC TTCCGGGTGA TGGTATCAGA 
GGTTTCCCTG GCGATCCTGG TTATCCAGGC GAATTAGGCC CAAAGGGCTT TCCAGGAGAA 
GGAGGCCCAC CGGGTGAAGG ATTTCCTGGT CCAAAAGGGT ATCGGGGTCC TCCAGGTGAC 
CACGGACAAG ATGGAAACCC GGGACCTCCA GGTCTGCCCG GTCTGCCAGG AGAGCCAGGC 
CAACTAGACT GTGGGCAGGT CACTGAAGAC TTTTCTAGAG GAGATGGAAC CGAGCCAATA 
TGGTCAGGCG CGGGCTGTGT GAGGCCACCA AAGGGATCCC AAGGCAAGCC AGGACTGCCA 
GGAGCCACAG GTGCAAAAGG TGCAAGAGGA TTCCCAGGTA ACCCAGGTCC AGTGGGATAC 
CCAGGGCTAA ATGGTACACG AGGTGATCCG GGTCGGGAAG GATTCCCAGG TCCTCCAGGT 
TTTACTGGGC CCAGGGGAGA CAGAGGCCCG AATGGTCTAC CTGGACTGCA GGGACACCCA 
GGCCTTACAG GAAAATCCGG TGCTCCGGGA GCGGCAGGAC TGAAGGGCTT TCCTGGTGAC 
GTTTTAGGAG CAGCAGCAGG TTCCCGAGGG GATGCTGGGC TCCCCGGCTT CCCGGGGTTG 
AAAGGCACAC CAGGAGATCA AGGAGTACCA GGAATTAGAG GAGCAGATGG TAACCCAGGT 
TTGCCAGGAC CCAAAGGAGA TCCAGGGCCG CAAGGTCTCC CTGGTTTGAT GGGATTGCCA 
GGAACACCAG GAACGCGTGG ATTCCCAGGG CCACCAGGAA ACCCTGGGCC AGATGGCGGG 
CCTGGCTCTC AAGGACCTGT TGGTCCACCT GGTGCTAGGG GAGAAGATGG TGAGCAAGGT 
TTTCCTGGCC CCGTGGGCCT GAAAGGTCTG TCTGGTGACA AAGGTGAAAC AGGTTACCCG 
GGATTACAAG GTATACCTGG CGTGACTGGT CCCCCTGGCA TAAGCGGAAT GGATGGCTTT 
CCAGGAGATA AAGGCTCAAG AGGTTCACCT GGCATTGATG GTTTCAAAGG CATGACAGGC 
CTAAAAGGAA GACCAGGCAT CAAGGGAATC AAAGGAGAAT TTGGCCTGTT CGGTGCTCGG 
GGCGATAAAG GCTCCCAGGG TGCACGCGGT TTTAAAGGTG ACCGTGGTGA TCAAGGGCCC 
CCAGGAGAAC CCCCAAAGCT CAAGCCCAGC TTGATGATGG AAGTTAAAGG CGAAAAAGGA 
GATGTTGGAG AAACAGGCAC GAAGGGATTC TTTGGCATAA AAGGTAGCAA GGGAATGCCA 
GGCGTTCCCG GAAAGACAGG AACTCCAGGG TCCCCTGGGC ATCCCAGCTA TGTGGCCGGT 
GTGAAAGGGG ACGTCGGTGC GAAAGGGCTG ACAGGTCTGA AAGGATATCC TGGTCCAGCC 
GGCTCTCCTG GCATCAGAGG CTTCCCTGGC AGCACAGGAG GCAGGGGAGA AAAGGGTATT 
CCAGGAACCT CAGGCCATTT TGGTACTCCT GGCTCACATG GTGAAATAGG TGAGCGGGGA 
GATACTATAA ACTTACCAGG AAGGCCAGGC CTTAAAGGGG AAGTTGGTGT ACCAGGCTTA 
ACAGGCACAA GAGGAGGCAC AGGACAAAAA GGCGAAGGCG GTGATCCTGG TTTCCCTGGC 
ATTGAAGGCC TCAAGGGCAC ACAGGGTGTC CCTGGCTCTG TGGGACAGGA AGGTTTGCGA 
GGACTGGTCG GCCCCCCAGG GCAGCAAGGA AGCCCCGGGA CGCCTGGATT TCAAGGTGAA 
AAGGGAACTC CGGGCTGGCC TGGCTTACCA GGACAAGCAG GCTTGCCTGG CTTAAGAGGA 
ATCAGTGGAC TGCATGGTTT ACCAGGCACT AAGGGCTTAC CAGGATCACC AGGTCCAGAC 
GGCTACGGCT CTGCAGGTTT CCCAGGCGCA GTGGGTGACA AAGGGGAAGC AGGAGAGGCG 
AGCAGAGTGG AAGGCAGCCG AGGACCTCCG GGTCAGAAGG GAGACAGAGG TGTTCCAGGT 
TTGTATTCTC CTTTCAGGAG TTCTGGGCAG GAAGGATTTC CAGGGCCTCC TGGGATTTCA 
AATATATCAG GATACCCTGG TGATAAAGGC TCCCCAGGTC TAGATGGAGT GCCAGGCTAT 
CCAGGACTAC AGGGGCAGCC TGGAATACCG GCTCCACCAG GAAGCAAAGG AGAAAGTGGA 
CAAACAGGTG TGAGTGGACA AATTGGCCCA AAAGGAAGTA GAGGTGATCC TGGATTAGCA 
GGGAGACCTG GCGTTCCCGG GTACTCTGGA CCAAAAGGTC GTAAGGGTGA ACAAGGTGTC 
ATCGGCTTTA TGGGCACAAT AGGATTTCCA GGTGATTTGG GACCTATCGG ACCCAAGGGG 
GACAGAGGAG TAACTGGCTT TCAGGGTCCT CCAGGCTCTC CTGGGCTGCC CCCTCTTCCT 
CCAAGGCTGG TTGCTGAGCA AGGTTCACCA GGTCTCCGTG GAAATATAGG ACCTCAAGGA 
AGCCCAGGAG ATATGGGACC TCAGGGTCCA CCAGGCGATC CAGGTTTCAG AGGCTCACCT 
GGAGAGCCAG GACTCCAGGG CAGGGGTGGC ATTCCAGCTC CTTCTGGCTC CAGAGGTGAA 
CAAGGAGCAA CAGGGTTTCA GGGTCCAGTG GGATTTGAAG GTCAGCCAGG CCGCCCTGGT 
AGCCCCGGGC TGCCAGGCAT GCCGGGTCGC AGCGTTAGCA TGGGCTACCT GCTGGTGAAG 
CACAGCCAGT CCGATCAAGA GCCAATGTGC CCAGTTGGCA TGAACAAACT CTGGAGTGGA 
TACAGCCTAC TGTACTTTGA AGGACAAGAG AAAGCACACA ACCAGGATCT AGGGCTGGCC 
GGCTCATGTT TGGCTCGTTT TAGTACTATG CCATTCCTCT ACTGTAACCC TGGGGATATT 
TGTTATTATG CAAGTCGAAA TGATAAATCC TACTGGCTCT CAACTACAGC ACCTCTTCCA 
ATGATGCCTG TGGCAGAAGA AGACATTAGG CCATATATCA GTCGCTGCTC AGTTTGTGAG 
GCCCCAGCTG TGGCAATTGC TGTCCATAGC CAAGAAGCTT CTATTCCTCA CTGCCCTGAA 
GGCTGGCGCA GTTTGTGGAT CGGATATTCC TTCCTTATGC ACACTGCTGC TGGTGATGAA 
GGTGGAGGAC AGTCGCTGGT TTCTCCTGGG AGCTGCCTGG AAGATTTCCG AGCGACTCCT 
TTCATCGAAT GCAATGGCGC ACGCGGAACC TGTCACTACT TTGCAAATAA ATACAGCTTC 
TGGCTCACTA CGATCGACCA GCCCTTCCAA AGCAAGCCCT CGGCAGATAC ACTCAAGGCA 
GGACTCATCC GAAGCCATAT CAGCAGATGT CAAGTCTGTA TGAAAAATTT ATAG