Il16 cDNA ORF clone,

Gene
Clones
gRNAs

The following Il16 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Il16 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
OGr40148	XM_028774636.1 Latest version!	Grammomys surdaster interleukin 16 (Il16), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

Il16 ( XM_028774636.1 ) cDNA ORF clone, -> XP_028630469.1 Grammomys surdaster interleukin 16 (Il16), mRNA.

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CloneID	OGr40148
Clone ID Related Accession (Same CDS sequence)	XM_028774636.1
Accession Version	XM_028774636.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4272bp) 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	2019-04-20
Organism	Grammomys surdaster
Product	pro-interleukin-16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021604687.1) 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 Name :: Grammomys surdaster Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGTCTTG CACCGTGGGG GCAGAAGTGC ATCTGTAATG GGCAGGTGCA ACAGCTAGGA 
TGTGGCTGCC CTGCTCTGCC AGCTGGAGGA GGTCACCACC AATATGCTCT TTGGCATATC 
CACAGGCGCA CCCCACTGCT GGGATGTCAG GGAACGGCAC CCCCTCCCTG CTGCTCATGG 
CATCTCTTAC CTGGCCAGGC TAACCGGACT CATGCAGTGG CAGCTAAGCC CATTTCATCT 
GCCACTCACC GGCCCAGGCC TGGAGAACAG GAGAGGAAGA AGCGTGGCCT CGCTTCCCCT 
CTGAGGATGG AGTCCCACGG CCACTCCGGA AAGAGCCGGA AATCCACGAA ATTTCGCTCC 
ATTTCCCGTT CCCTGATCCT CTGTAATGCC AAGACCAGTG ATGACAGCTC TAGCCCTGAT 
GAGAAGTACC CCGACCCTTT TGAGACTTCA CTGTGCCAGG GCAAGGACGG TTTCTTTCAC 
TCCTCCATGC AGCTGGCAGA CACATCGGAG GCTGGGCTCA GCAACATACC AGACCTGGCA 
TTGGCCTCAG AGGCTGCTCA ACTCCAAGCA GCTGGGAGCG ATCGAGGCAA GCACTGCAGG 
AAGATGTTCT TCATGAAGGA ATCTTCTACA ACTCTCTCTA AAGAAAAGAC TGGAAAACCA 
GAAGCACAAA GTAGCAACTT CCTGTTCCCT AAAGCCTGCC ACCAAAGGAC ACGCAGCAAC 
TCCACCAGTG TTAATCCCTA CAGTGCTGGA GAAATGGATT TTCCAGTGAC CAAGAAATCT 
TCAGCTCCCA CCGACAGGCA GCCCTACTCT CTCTGTAGCA ACAGGAAGTC GCTCTCTCAA 
CAACTGGACT ACCCAATTTC GGGTACTGCA AGACCAACTC GGTCATTGAG CACAGCTCAG 
CTTGGGCAGC TGTCTGGGGG TCTGCAGGCG TCAGTCATCT CCAACATAGT GCTGATGAAG 
GGCCAAGCAA AGGGCCTGGG CTTCAGCATT GTTGGGGGAA ATGACAGCAT TTATGGCCCT 
ATTGGGATTT ATGTGAAGAG CATCTTTGCA GGGGGAGCAG CTGCAGCTGA TGGGCGGCTT 
CAGGAAGGTG ATGAAATTCT GGAACTCAAT GGTGAATCAA TGGCTGGCCT AACACACCAG 
GATGCTTTGC AAAAGTTTAA GCAAGCCAAG AAGGGGCTGC TGACTCTGAC AGTGAGGACC 
CGCCTGACAA CACCTCCTTC GTTATGCAGT CACCTGTCAC CCCCTCTGTG CCGCTCCCTG 
AGCTCCAGCA CATGTGGTGC CCAGGACAGC AGCCCCTTCT CCTTGGAAAG TCCAGCGTCT 
CCTGCCAGCA CTGCCAAACC CAACTACAGA ATCATGGTGG AGGTGTCTCT GAAGAAAGAG 
GCAGGTGTTG GCCTTGGGAT TGGTCTGTGC AGCATCCCCT ACTTCCAGTG CATCTCAGGC 
ATCTTTGTTC ACACACTGTC ACCAGGATCC GTGGCACATC TCGATGGACG GCTGAGGTGT 
GGTGATGAGA TTGTGGAAAT CAATGATTCT CCAGTGCACT GCATGACCCT CAATGAAGTC 
TACACAATCT TGAGCCACTG TGACCCTGGC CCAGTTCCCA TCATCGTAAG CCGACATCCG 
GACCCACAGG TTTCTGAACA GCAACTCAAG GAAGCTGTGG CTCAGGCTGT GGAAGGTGTC 
AAGTTTGGGA AGGACAGGCA CCAGTGGAGC TTGGAAGGTG TCAAAAGGCT GGAGAGCAGC 
TGGCATGGGC GGCCCACCTT GGAGAAAGAA CGTGAGAAGC ACTCAGCGCC TCCACATCGA 
AGGGCCCAGA AGATCATGGT CCGATCCAGC AGTGACAGCA GCTACATGTC TGGGTCACCA 
GGGGGAAGTC CCTGCAGTGC AGGTGCGGAG CCACAGCCTT CTGAGAGGGA AGGCAGCACA 
CACAGTCCCA GCCTGCCCCC AGGGGAGGAG CAAGAGCCGT GCCCAGGGGT CCCACCCAGG 
CCTCATCAGG AGAGCCCACC CCTTCCTGAG AGCTTGGAAA GAGACAGCCA CCCACCACTG 
AGGCTGAAGA AATCTTTTGA GATTTTGGTG AGAAAGCCGA CATCCTCCAA ACCCAAGCCT 
CCACCCAGAA AATACTTTAA AAATGACAGC GAGCCACAGA AGAAACTGGA GGAGAAAGAG 
AAGGTCACAG ACCCTTCTGG GCACACCTTG CCCACCTGCA GCCAGGAAAC CAGAGAGCTG 
CTGCCGCTGC TGCTACAGGA AGACACTGCA GGGAGAACCC CCTGCACCGC TGCCTGCTGC 
CCAGGACCTG CAGCCAGCAC GCAGACTTCA TCCTCCACAG ATGGAGAGCC AAGGAGGAGT 
GCCAGCCCAG AGACTCCAGC ATCCCCAGGA AAACACCCAC TGCTGAAGAG ACAGGCGCGG 
ATGGACTATA GCTTTGATAC CACCGCTGAA GACCCTTGGG TTAGAATTTC CGACTGCATC 
AAAAACTTAT TTAGCCCTAT CATGAGTGAG AACCATAGCC ATATGCCACT ACAGCCCAAC 
ACCAGCCTTG GTGAAGAGGA TGGGACACAG GGCCACCCAG AGGGGGGCCT GTCAAAAATG 
GACACTGCCA ATGGTGCTCC CAGAGTTTAC AAGTCAGCAG ATGGCAGCAC TGTGAAGAAG 
GGGCCCCCTG TAGCCCCAAA GCCAGCTTGG TTTCGGCAGA GCTTGAAAGG TCTGAGGAAT 
CGTGTCCCAG ACTCCAGAAG ATCCCCAGAA GAAGCCTCAG CCATTCAGCC AACACCAGTT 
TCTAGGGACC CCCCAGGGTC ACAGTCTCAG GCCTCCTCCT CCATCAGGCA GAGAATCAGT 
TCCTTTGAAA ACTTTGGCTC CTCACAATTG CCAGATAGAG GAGTCCAGAG ACTGAGTCTG 
CAGCCCAGCT CTGGGGAGAC TACCAAACTT TCAGGAAAGC AAGATGGGGG GCGGTTTTCT 
GGTCTCCTGG GTCAAGGGGC TACAGCAACT GCTAAGCACA GGCAGACAGA GGTAGAGCCT 
ACGTTCACAA CCTTCCCTAA CTCCTCAGAG GTCAGGGACC CAGGTGTGTC TGAGTCTCCT 
CCCCCAGGTC AGCGACCCAG CCCAAAAGCT TTGTCTCCAG ACCCCCTCTT GAGACTGTTG 
ACTACACAAA CTGAGGATAC TCAAGGACCA GGCCTCAAGA TGCCAAGTCA GCGGGCACGG 
AGCTTCCCCC TGACCAGGAC CCAGTCCTGC GAGACAAAGC TGCTGGATGA GAAGGCCAGT 
AAACTTTATT CCATCAGCAG CCAGCTGTCT TCTGCTGTCA TGAAATCCCT GCTGTGCCTT 
CCATCTTCAG TCTCTTGTGG CCAGATCACC TGCATCCCCA AGGAGAGGGT GTCTCCAAAG 
TCACCTTGCA ACAACAGCAC AGCCGCAGAG GGGTTTGGTG AGGCCGTGGC CTCTGACACA 
GGGTTCTCTC TCAACCTTTC AGAGCTGAGA GAATATTCGG AAGGTCTCTC AGAGCCCGGG 
GAAACCGAGG ACAGGAACCA CTGTTCTTCT CAGGCCGGCC AGTCAGTTAT CTCCTTGCTG 
AGTGCAGAAG AACTGAAAAA ACTCATTGAG GAAGTGAGAG TCCTAGATGA GGCAACATTG 
AAGCAATTAG ACAGCATTCA CGTCACCATC TTACACAAGG AAGAAGGTGC TGGCCTTGGA 
TTCAGCTTGG CAGGAGGGGC AGATCTAGAA AACAAGGTGA TCACGGTTCA CAGAGTGTTT 
CCAAATGGGC TGGCTTCCCA GGAAGGCACA ATTCAGAAAG GCAACGAGGT TCTTTCCATC 
AATGGCAAAT CTCTCAAGGG CGCTACCCAC AACGATGCCC TAGCTATCCT TCGCCAAGCT 
CGGGACCCAA GGCAAGCTGT GATTGTCACC AGGAGGGCAA CTGTGGAGGC CACTCATGAC 
CTGAACTCCT CTACTGACTC TGCTGCCTCA GCTTCAGCAG CCAGTGACAT TTCTGTAGAC 
TCTAAGGAAG CCACTGTCTG CACAGTGACA CTGGAGAAGA CCTCTGCAGG GCTGGGCTTC 
AGCCTGGAGG GTGGAAAGGG CTCCCTGCAT GGTGACAAGC CTCTTACCAT AAACAGGATT 
TTCAAAGGGA CAGAACAAGG TGAGATGGTC CAGCCAGGGG ATGAGATCTT GCAGCTCGCT 
GGCACTGCTG TGCAAGGTCT TACACGGTTT GAAGCCTGGA ATGTCATCAA GGCATTACCG 
GATGGACCTG TCACTATAGT CATCAGAAGG AATGGCTTCC ACTGCAAGCA AACAGCTTCT 
GCAGACTCAT AG

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

RefSeq	XP_028630469.1
CDS	1..4272
Translation	MGLAPWGQKCICNGQVQQLGCGCPALPAGGGHHQYALWHIHRRTPLLGCQGTAPPPCCSWHLLPGQANRTHAVAAKPISSATHRPRPGEQERKKRGLASPLRMESHGHSGKSRKSTKFRSISRSLILCNAKTSDDSSSPDEKYPDPFETSLCQGKDGFFHSSMQLADTSEAGLSNIPDLALASEAAQLQAAGSDRGKHCRKMFFMKESSTTLSKEKTGKPEAQSSNFLFPKACHQRTRSNSTSVNPYSAGEMDFPVTKKSSAPTDRQPYSLCSNRKSLSQQLDYPISGTARPTRSLSTAQLGQLSGGLQASVISNIVLMKGQAKGLGFSIVGGNDSIYGPIGIYVKSIFAGGAAAADGRLQEGDEILELNGESMAGLTHQDALQKFKQAKKGLLTLTVRTRLTTPPSLCSHLSPPLCRSLSSSTCGAQDSSPFSLESPASPASTAKPNYRIMVEVSLKKEAGVGLGIGLCSIPYFQCISGIFVHTLSPGSVAHLDGRLRCGDEIVEINDSPVHCMTLNEVYTILSHCDPGPVPIIVSRHPDPQVSEQQLKEAVAQAVEGVKFGKDRHQWSLEGVKRLESSWHGRPTLEKEREKHSAPPHRRAQKIMVRSSSDSSYMSGSPGGSPCSAGAEPQPSEREGSTHSPSLPPGEEQEPCPGVPPRPHQESPPLPESLERDSHPPLRLKKSFEILVRKPTSSKPKPPPRKYFKNDSEPQKKLEEKEKVTDPSGHTLPTCSQETRELLPLLLQEDTAGRTPCTAACCPGPAASTQTSSSTDGEPRRSASPETPASPGKHPLLKRQARMDYSFDTTAEDPWVRISDCIKNLFSPIMSENHSHMPLQPNTSLGEEDGTQGHPEGGLSKMDTANGAPRVYKSADGSTVKKGPPVAPKPAWFRQSLKGLRNRVPDSRRSPEEASAIQPTPVSRDPPGSQSQASSSIRQRISSFENFGSSQLPDRGVQRLSLQPSSGETTKLSGKQDGGRFSGLLGQGATATAKHRQTEVEPTFTTFPNSSEVRDPGVSESPPPGQRPSPKALSPDPLLRLLTTQTEDTQGPGLKMPSQRARSFPLTRTQSCETKLLDEKASKLYSISSQLSSAVMKSLLCLPSSVSCGQITCIPKERVSPKSPCNNSTAAEGFGEAVASDTGFSLNLSELREYSEGLSEPGETEDRNHCSSQAGQSVISLLSAEELKKLIEEVRVLDEATLKQLDSIHVTILHKEEGAGLGFSLAGGADLENKVITVHRVFPNGLASQEGTIQKGNEVLSINGKSLKGATHNDALAILRQARDPRQAVIVTRRATVEATHDLNSSTDSAASASAASDISVDSKEATVCTVTLEKTSAGLGFSLEGGKGSLHGDKPLTINRIFKGTEQGEMVQPGDEILQLAGTAVQGLTRFEAWNVIKALPDGPVTIVIRRNGFHCKQTASADS

Target ORF information:

RefSeq Version	XM_028774636.1
Organism	Grammomys surdaster
Definition	Grammomys surdaster interleukin 16 (Il16), mRNA.

Target ORF information:

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

XM_028774636.1

ORF Insert Sequence:

ATGGGTCTTG CACCGTGGGG GCAGAAGTGC ATCTGTAATG GGCAGGTGCA ACAGCTAGGA 
TGTGGCTGCC CTGCTCTGCC AGCTGGAGGA GGTCACCACC AATATGCTCT TTGGCATATC 
CACAGGCGCA CCCCACTGCT GGGATGTCAG GGAACGGCAC CCCCTCCCTG CTGCTCATGG 
CATCTCTTAC CTGGCCAGGC TAACCGGACT CATGCAGTGG CAGCTAAGCC CATTTCATCT 
GCCACTCACC GGCCCAGGCC TGGAGAACAG GAGAGGAAGA AGCGTGGCCT CGCTTCCCCT 
CTGAGGATGG AGTCCCACGG CCACTCCGGA AAGAGCCGGA AATCCACGAA ATTTCGCTCC 
ATTTCCCGTT CCCTGATCCT CTGTAATGCC AAGACCAGTG ATGACAGCTC TAGCCCTGAT 
GAGAAGTACC CCGACCCTTT TGAGACTTCA CTGTGCCAGG GCAAGGACGG TTTCTTTCAC 
TCCTCCATGC AGCTGGCAGA CACATCGGAG GCTGGGCTCA GCAACATACC AGACCTGGCA 
TTGGCCTCAG AGGCTGCTCA ACTCCAAGCA GCTGGGAGCG ATCGAGGCAA GCACTGCAGG 
AAGATGTTCT TCATGAAGGA ATCTTCTACA ACTCTCTCTA AAGAAAAGAC TGGAAAACCA 
GAAGCACAAA GTAGCAACTT CCTGTTCCCT AAAGCCTGCC ACCAAAGGAC ACGCAGCAAC 
TCCACCAGTG TTAATCCCTA CAGTGCTGGA GAAATGGATT TTCCAGTGAC CAAGAAATCT 
TCAGCTCCCA CCGACAGGCA GCCCTACTCT CTCTGTAGCA ACAGGAAGTC GCTCTCTCAA 
CAACTGGACT ACCCAATTTC GGGTACTGCA AGACCAACTC GGTCATTGAG CACAGCTCAG 
CTTGGGCAGC TGTCTGGGGG TCTGCAGGCG TCAGTCATCT CCAACATAGT GCTGATGAAG 
GGCCAAGCAA AGGGCCTGGG CTTCAGCATT GTTGGGGGAA ATGACAGCAT TTATGGCCCT 
ATTGGGATTT ATGTGAAGAG CATCTTTGCA GGGGGAGCAG CTGCAGCTGA TGGGCGGCTT 
CAGGAAGGTG ATGAAATTCT GGAACTCAAT GGTGAATCAA TGGCTGGCCT AACACACCAG 
GATGCTTTGC AAAAGTTTAA GCAAGCCAAG AAGGGGCTGC TGACTCTGAC AGTGAGGACC 
CGCCTGACAA CACCTCCTTC GTTATGCAGT CACCTGTCAC CCCCTCTGTG CCGCTCCCTG 
AGCTCCAGCA CATGTGGTGC CCAGGACAGC AGCCCCTTCT CCTTGGAAAG TCCAGCGTCT 
CCTGCCAGCA CTGCCAAACC CAACTACAGA ATCATGGTGG AGGTGTCTCT GAAGAAAGAG 
GCAGGTGTTG GCCTTGGGAT TGGTCTGTGC AGCATCCCCT ACTTCCAGTG CATCTCAGGC 
ATCTTTGTTC ACACACTGTC ACCAGGATCC GTGGCACATC TCGATGGACG GCTGAGGTGT 
GGTGATGAGA TTGTGGAAAT CAATGATTCT CCAGTGCACT GCATGACCCT CAATGAAGTC 
TACACAATCT TGAGCCACTG TGACCCTGGC CCAGTTCCCA TCATCGTAAG CCGACATCCG 
GACCCACAGG TTTCTGAACA GCAACTCAAG GAAGCTGTGG CTCAGGCTGT GGAAGGTGTC 
AAGTTTGGGA AGGACAGGCA CCAGTGGAGC TTGGAAGGTG TCAAAAGGCT GGAGAGCAGC 
TGGCATGGGC GGCCCACCTT GGAGAAAGAA CGTGAGAAGC ACTCAGCGCC TCCACATCGA 
AGGGCCCAGA AGATCATGGT CCGATCCAGC AGTGACAGCA GCTACATGTC TGGGTCACCA 
GGGGGAAGTC CCTGCAGTGC AGGTGCGGAG CCACAGCCTT CTGAGAGGGA AGGCAGCACA 
CACAGTCCCA GCCTGCCCCC AGGGGAGGAG CAAGAGCCGT GCCCAGGGGT CCCACCCAGG 
CCTCATCAGG AGAGCCCACC CCTTCCTGAG AGCTTGGAAA GAGACAGCCA CCCACCACTG 
AGGCTGAAGA AATCTTTTGA GATTTTGGTG AGAAAGCCGA CATCCTCCAA ACCCAAGCCT 
CCACCCAGAA AATACTTTAA AAATGACAGC GAGCCACAGA AGAAACTGGA GGAGAAAGAG 
AAGGTCACAG ACCCTTCTGG GCACACCTTG CCCACCTGCA GCCAGGAAAC CAGAGAGCTG 
CTGCCGCTGC TGCTACAGGA AGACACTGCA GGGAGAACCC CCTGCACCGC TGCCTGCTGC 
CCAGGACCTG CAGCCAGCAC GCAGACTTCA TCCTCCACAG ATGGAGAGCC AAGGAGGAGT 
GCCAGCCCAG AGACTCCAGC ATCCCCAGGA AAACACCCAC TGCTGAAGAG ACAGGCGCGG 
ATGGACTATA GCTTTGATAC CACCGCTGAA GACCCTTGGG TTAGAATTTC CGACTGCATC 
AAAAACTTAT TTAGCCCTAT CATGAGTGAG AACCATAGCC ATATGCCACT ACAGCCCAAC 
ACCAGCCTTG GTGAAGAGGA TGGGACACAG GGCCACCCAG AGGGGGGCCT GTCAAAAATG 
GACACTGCCA ATGGTGCTCC CAGAGTTTAC AAGTCAGCAG ATGGCAGCAC TGTGAAGAAG 
GGGCCCCCTG TAGCCCCAAA GCCAGCTTGG TTTCGGCAGA GCTTGAAAGG TCTGAGGAAT 
CGTGTCCCAG ACTCCAGAAG ATCCCCAGAA GAAGCCTCAG CCATTCAGCC AACACCAGTT 
TCTAGGGACC CCCCAGGGTC ACAGTCTCAG GCCTCCTCCT CCATCAGGCA GAGAATCAGT 
TCCTTTGAAA ACTTTGGCTC CTCACAATTG CCAGATAGAG GAGTCCAGAG ACTGAGTCTG 
CAGCCCAGCT CTGGGGAGAC TACCAAACTT TCAGGAAAGC AAGATGGGGG GCGGTTTTCT 
GGTCTCCTGG GTCAAGGGGC TACAGCAACT GCTAAGCACA GGCAGACAGA GGTAGAGCCT 
ACGTTCACAA CCTTCCCTAA CTCCTCAGAG GTCAGGGACC CAGGTGTGTC TGAGTCTCCT 
CCCCCAGGTC AGCGACCCAG CCCAAAAGCT TTGTCTCCAG ACCCCCTCTT GAGACTGTTG 
ACTACACAAA CTGAGGATAC TCAAGGACCA GGCCTCAAGA TGCCAAGTCA GCGGGCACGG 
AGCTTCCCCC TGACCAGGAC CCAGTCCTGC GAGACAAAGC TGCTGGATGA GAAGGCCAGT 
AAACTTTATT CCATCAGCAG CCAGCTGTCT TCTGCTGTCA TGAAATCCCT GCTGTGCCTT 
CCATCTTCAG TCTCTTGTGG CCAGATCACC TGCATCCCCA AGGAGAGGGT GTCTCCAAAG 
TCACCTTGCA ACAACAGCAC AGCCGCAGAG GGGTTTGGTG AGGCCGTGGC CTCTGACACA 
GGGTTCTCTC TCAACCTTTC AGAGCTGAGA GAATATTCGG AAGGTCTCTC AGAGCCCGGG 
GAAACCGAGG ACAGGAACCA CTGTTCTTCT CAGGCCGGCC AGTCAGTTAT CTCCTTGCTG 
AGTGCAGAAG AACTGAAAAA ACTCATTGAG GAAGTGAGAG TCCTAGATGA GGCAACATTG 
AAGCAATTAG ACAGCATTCA CGTCACCATC TTACACAAGG AAGAAGGTGC TGGCCTTGGA 
TTCAGCTTGG CAGGAGGGGC AGATCTAGAA AACAAGGTGA TCACGGTTCA CAGAGTGTTT 
CCAAATGGGC TGGCTTCCCA GGAAGGCACA ATTCAGAAAG GCAACGAGGT TCTTTCCATC 
AATGGCAAAT CTCTCAAGGG CGCTACCCAC AACGATGCCC TAGCTATCCT TCGCCAAGCT 
CGGGACCCAA GGCAAGCTGT GATTGTCACC AGGAGGGCAA CTGTGGAGGC CACTCATGAC 
CTGAACTCCT CTACTGACTC TGCTGCCTCA GCTTCAGCAG CCAGTGACAT TTCTGTAGAC 
TCTAAGGAAG CCACTGTCTG CACAGTGACA CTGGAGAAGA CCTCTGCAGG GCTGGGCTTC 
AGCCTGGAGG GTGGAAAGGG CTCCCTGCAT GGTGACAAGC CTCTTACCAT AAACAGGATT 
TTCAAAGGGA CAGAACAAGG TGAGATGGTC CAGCCAGGGG ATGAGATCTT GCAGCTCGCT 
GGCACTGCTG TGCAAGGTCT TACACGGTTT GAAGCCTGGA ATGTCATCAA GGCATTACCG 
GATGGACCTG TCACTATAGT CATCAGAAGG AATGGCTTCC ACTGCAAGCA AACAGCTTCT 
GCAGACTCAT AG