igf1r cDNA ORF clone,

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gRNAs

The following igf1r gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the igf1r 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
OEa48910	XM_026176023.1 Latest version!	Astatotilapia calliptera insulin like growth factor 1 receptor (igf1r), 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)

igf1r ( XM_026176023.1 ) cDNA ORF clone, -> XP_026031808.1 Astatotilapia calliptera insulin like growth factor 1 receptor (igf1r), mRNA.

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CloneID	OEa48910
Clone ID Related Accession (Same CDS sequence)	XM_026176023.1
Accession Version	XM_026176023.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4257bp) 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	2018-09-03
Organism	Astatotilapia calliptera(eastern happy)
Product	insulin-like growth factor 1 receptor
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_039308.1) 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 :: Astatotilapia calliptera Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCAGGA ACGTAAAATC AGAAGCACCG ATGGGTGGCC CGATCTTGTT TTGGGGTCTG 
ATGCTGTCTG TCTCCACTAT CTGCATATGG TCCACATATG GAGAGATCTG TGGCCCGGAT 
ATCGACCTCC GAAACGACAT CGATCAATTT AAGCGTCTTG AGAACTGCAC GGTGGTGGAG 
GGCTACCTGC GCATCCTCCT CATCAACGAA AAGACCAGCA ACAACAGCCA GCAGGAGGAC 
TTCCGCTCCG TCAGCTTCCC GAAATTGACC GTCATCACCG GCTACCTGCT TCTGTTTCGT 
GTCTCGGGCC TCGATAGCCT CAGTGTGCTC TTCCCCAACC TGAGCGTCAT TCGTGGGCAC 
AACCTCTTCT ACAACTACGC CCTCGTGATC TATGAGATGA CCAGCTTAAA AGACATTGGG 
CTTTACAACC TGAGGAACAT CACCCGTGGG GCCATGAGGA TTGAAAAGAA CCCTGAGCTC 
TGCTACCTGG ACTCGGTGGA CTGGTCATTT ATTATGAATA CTGAGTTCAA CAATGTTATC 
AACGGGAACA AGAAGGCAAA GGAATGTGAC AACGTCTGCC CGGGGATCAT GGAGGATAAC 
CCTCTTTGTC AGCAGACGAC GTTCAATGAC AATCGTAACT ACCGCTGCTG GACCTCCAAC 
CATTGCCAGA AAGTTTGCCC GAAACAATGT AGGCTTGCCT GTACGGACAA GGGGGAGTGT 
TGCCACAACC AGTGCCTCGG TAGCTGCACC GAACCCAACA ATGACATGTC CTGCTCCGCC 
TGTCTCCACT ACTACCACGA GGGTCGGTGT GTCCCAAACT GTCCCCCGGG CACCTACAAG 
TTTGAGGGCT GGCGCTGCAT TACCATGGAA CTGTGCGCTC AAGTGCATCT GGCCAGCGAT 
TTTCACTTTG TCATCCACGA TGGAGAGTGT ATGCTCGACT GTCCCTCTGG CTTCACACGT 
AACGAGACTA ATCGTATGCT ATGCAGTGCT TGTAATGGCC CGTGTGATAA GGTCTGCAGA 
TCCACTGTCA TCGATTCTGT GAATGCTGCC GAGTTCCTGC AGGACTGCAC CGTCATCGAT 
GGCAATCTGG ACATCAATAT CCGCCGTGGA AATAATATAG CCCCCGAGCT TGAGAGATTC 
ATGGGATTGA TCCAGACAGT GACGGGCTAT GTTAAGATTC GACACTCCGA CGCTCTTGGC 
TCGCTGTCCT TCCTCAAGAG CCTACGTTAC ATCAAGGGGC AGGAACTCAT TGACAACATG 
TATTCATTCT CCGCCATCAA CAATCAGAAT CTGAAGTACT TGTGGAACTG GACTGAGCAC 
AACCTGACTA TTAGCAGTGG ACGTCTATTC TTCCGTCAGA ACCCCAAACT CTGCATGTCT 
GAGATCTACA AGATGTGGGA TAAAACTGGC ATAGCTGTGA AGCCAGAGGA AGGGGATTTC 
CGCAACAATG GCGAAAGAGC CAATTGTGAA AGCCATATCT TGAAATTCAA ATCCAACATC 
ACATCCAGCC ATGTGATCAA TCTGACATGG GAGCGCTACC AGCCCCCCAA AAATGGAACC 
CTTATCAGCT TCATCATTTA CTACAAGGAA TCTCCTTTCC AGAACATCAC TGAGTTTGAT 
GGCCAGGATG GCTGTGGCTC AAATAGCTGG CACATGGTGG ATGTGGATCT TCCTAAAGAT 
AATAACAATG ACCCAAATGT CAGACTTCAG CACCTCAAGC CTTGGACTCA GTATGCTATT 
TTTGTGAAGG CCATCACCCT GCAAGAGAGC GACAAAGATG CCACTGGAGC AAAGAGTGAC 
ATCATTTATA TTCGCACACA CCCATCGTTG CCGTCTGTGC CTAAAGATGC CCGTGCATAT 
GGTAATTCCT CAACAAAGCT GGTGGTGAAG TGGTCACCTC CACTTTTGCC CAACGGCAAT 
CTCACTTACT ACCTGGTCCG CTGGCAGCGT CAAGCTGAGG ATAGGGAGCT CTACCAACAT 
GACTACTGCT CCAAAGACTT GAAGATCCCA ATCCGAATCC CGGCGTCGGA GCTCACAGAC 
ATGGAAGAGA ACACAAAGCC CACGAAGTCA GACCTAGCAG GGCCAGAAAA GGTCCTGTGC 
TGTGCTTGCC AGAAGACACC AGAAGAGAAG GACCGTGAGA AGGACGACCG TGTCTTCTTG 
AAAGTTTTTG AGAATTTCCT CCACAATTCC ATCTTTCTGG CAAGACCTCA AGAGCGTCGG 
CGCAGAGACC TTTCTGGTAC AGCAAACAAC ACACTGTTTT ATGAGGGCGG CAGAGGGAAT 
ACCACTCTCG GCGCAGGGGA TAACAGTACA GATGGCATTC CTCCTAACGT AGAGTTCCCC 
TTCACTGAAG ACAAGAGCAC AACAGAGTAT TTAGAGATCC CCAATCTGCG GCCCTTCACC 
GTCTACCGCA TTGATATCCA TGCGTGCAAC GAGGTGGTGG GGAAGTGCAG CGCTGGAGCT 
TTCGTCTTCT CCAGGACCAA ACCTGCAGTC AAAGCGGATG ACATCCCGGG CAAGGTGATT 
TTTGAGAGGT GTGACAAAAT CGAGGGGTGT GTGGTGCTGC ACTGGCCAGA GCCCGTTATG 
CCCAATGGAC TCATCTTGAT GTATGAGATC AAGTTCCGCC TGGGTAATGA GCCTGAGAAG 
CACAAGTGTG TGTCGCGACA GGATTACCGC CGGTACAAAG GAGCTCGACT AACCAACCTT 
GGCTCGGGGA ACTACTCCGC CCGAGTGCGT GCCACTTCCC CGGCAGGAAA CGGCTCCTGG 
ACAGAAAGTG TTTTCTTCTA TGTGTCTCCA CCTAAACGTG ATGACGGTGT TACGTTGTAT 
GTGGTCATCA TAATTCCCAT CATTGTGACA ATTTTTGTCG CCGGCCTCAT CACCATCCTC 
TTCTATGTGA ACAAAAAGAG GAACAGTGAC AGACTGGGGA ACGGCGTCCT GTATGCATCA 
GTCAATCCAG AGTACCTCAG TGCTACTGAG ATGTATGTCC CAGATGAGTG GGAGGTAGCA 
AGGGAGAAGA TCACTATGCA CAGGGAACTG GGCCAGGGAT CCTTCGGCAT GGTGTACGAA 
GGCATCGCAA AGGGAGTAGT GAAGGACGAA CCTGAAACGA GAGTGGCCAT CAAGACGGTC 
AATGAGACGG CCAGCATGAG GGAGCGAATT GAGTTTTTGA ACGAGGCCTC TGTCATGAAG 
GAGTTCAACT GTCACCATGT GGTGCGGCTG CTTGGCGTGG TCTCTCAGGG ACAGCCAACC 
TTAGTGATTA TGGAGCTGAT GACTCGCGGA GATCTCAAGA GCCACCTGCG CTCCCTGCGC 
AAAGAAAACG CCACCAGCCA GGTCTTACCC CCACTCAAAA AGATGATCCA GATGGCTGGA 
GAAATCGCAG ACGGTATGGC GTACCTAAAC GCCAACAAAT TTGTCCACAG AGATCTGGCA 
GCGAGGAACT GCATGGTAGC AGAGGACTTC ACTGTGAAGA TTGGAGATTT TGGCATGACC 
AGAGATATTT ATGAGACGGA CTACTACCGA AAAGGAGGAA AGGGCCTGCT GCCTGTCCGC 
TGGATGTCTC CAGAGTCACT GAAAGATGGC GTGTTTACTA CAATGTCTGA TGTCTGGTCA 
TTTGGTGTCG TGCTGTGGGA AATCGCCACC TTAGCTGAAC AGCCTTACCA GGGGATGTCC 
AATGAACAAG TGCTGCGCTT TGTCATGGAG GGAGGACTCT TGGACAAACC TGACAACTGC 
CCTGACATGC TGTTTGAACT GATGCGAATG TGCTGGCAGT ATAACCCTAA GATGCGTCCG 
TCCTTCTTGG AGATCATCAG CAGCATCAAA GACGAACTGG ATCCTCCCTT CAGGGAAGTG 
AGCTTCTTCT ACAGCGAGGA GAACAAGCCG CCGGACACAG AGGAGCTGGA CATGGAGGTA 
GAAAACATGG AGAACATTCC ACTGGACCCT TCATCCGTGA GGCAGCCGTC GACTGCTGTC 
ATTTCCTCGT CTGGGTGTGC AGGAGGCATG TCTCCTCCTT CTACGCATCA GTTATCCCCC 
ATGCAAGGCC CGAGTACGCC ATTACTGGGA CCTGTTTCTA ACTCTCCTCC CGGCCCACTT 
GCTTCAGCCT TGGCGTCTCC AGGACTAGCC TTGGACAAGC ACTCAGGACA TGCTTCGGCC 
AACGGGCCTG TCGTGGTGCT GCGGCCCAGT TTTGATGAGA TACAACCCTA TGCACACATG 
AACGGGGTCA GAAAGAACGA ACGGGCGCTA CCACTGCCCC AGTCATCAGC CTGCTGA

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

RefSeq	XP_026031808.1
CDS	1105..5361
Translation	MFRNVKSEAPMGGPILFWGLMLSVSTICIWSTYGEICGPDIDLRNDIDQFKRLENCTVVEGYLRILLINEKTSNNSQQEDFRSVSFPKLTVITGYLLLFRVSGLDSLSVLFPNLSVIRGHNLFYNYALVIYEMTSLKDIGLYNLRNITRGAMRIEKNPELCYLDSVDWSFIMNTEFNNVINGNKKAKECDNVCPGIMEDNPLCQQTTFNDNRNYRCWTSNHCQKVCPKQCRLACTDKGECCHNQCLGSCTEPNNDMSCSACLHYYHEGRCVPNCPPGTYKFEGWRCITMELCAQVHLASDFHFVIHDGECMLDCPSGFTRNETNRMLCSACNGPCDKVCRSTVIDSVNAAEFLQDCTVIDGNLDINIRRGNNIAPELERFMGLIQTVTGYVKIRHSDALGSLSFLKSLRYIKGQELIDNMYSFSAINNQNLKYLWNWTEHNLTISSGRLFFRQNPKLCMSEIYKMWDKTGIAVKPEEGDFRNNGERANCESHILKFKSNITSSHVINLTWERYQPPKNGTLISFIIYYKESPFQNITEFDGQDGCGSNSWHMVDVDLPKDNNNDPNVRLQHLKPWTQYAIFVKAITLQESDKDATGAKSDIIYIRTHPSLPSVPKDARAYGNSSTKLVVKWSPPLLPNGNLTYYLVRWQRQAEDRELYQHDYCSKDLKIPIRIPASELTDMEENTKPTKSDLAGPEKVLCCACQKTPEEKDREKDDRVFLKVFENFLHNSIFLARPQERRRRDLSGTANNTLFYEGGRGNTTLGAGDNSTDGIPPNVEFPFTEDKSTTEYLEIPNLRPFTVYRIDIHACNEVVGKCSAGAFVFSRTKPAVKADDIPGKVIFERCDKIEGCVVLHWPEPVMPNGLILMYEIKFRLGNEPEKHKCVSRQDYRRYKGARLTNLGSGNYSARVRATSPAGNGSWTESVFFYVSPPKRDDGVTLYVVIIIPIIVTIFVAGLITILFYVNKKRNSDRLGNGVLYASVNPEYLSATEMYVPDEWEVAREKITMHRELGQGSFGMVYEGIAKGVVKDEPETRVAIKTVNETASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRKENATSQVLPPLKKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTMSDVWSFGVVLWEIATLAEQPYQGMSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKDELDPPFREVSFFYSEENKPPDTEELDMEVENMENIPLDPSSVRQPSTAVISSSGCAGGMSPPSTHQLSPMQGPSTPLLGPVSNSPPGPLASALASPGLALDKHSGHASANGPVVVLRPSFDEIQPYAHMNGVRKNERALPLPQSSAC

Target ORF information:

RefSeq Version	XM_026176023.1
Organism	Astatotilapia calliptera(eastern happy)
Definition	Astatotilapia calliptera insulin like growth factor 1 receptor (igf1r), mRNA.

Target ORF information:

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

XM_026176023.1

ORF Insert Sequence:

ATGTTCAGGA ACGTAAAATC AGAAGCACCG ATGGGTGGCC CGATCTTGTT TTGGGGTCTG 
ATGCTGTCTG TCTCCACTAT CTGCATATGG TCCACATATG GAGAGATCTG TGGCCCGGAT 
ATCGACCTCC GAAACGACAT CGATCAATTT AAGCGTCTTG AGAACTGCAC GGTGGTGGAG 
GGCTACCTGC GCATCCTCCT CATCAACGAA AAGACCAGCA ACAACAGCCA GCAGGAGGAC 
TTCCGCTCCG TCAGCTTCCC GAAATTGACC GTCATCACCG GCTACCTGCT TCTGTTTCGT 
GTCTCGGGCC TCGATAGCCT CAGTGTGCTC TTCCCCAACC TGAGCGTCAT TCGTGGGCAC 
AACCTCTTCT ACAACTACGC CCTCGTGATC TATGAGATGA CCAGCTTAAA AGACATTGGG 
CTTTACAACC TGAGGAACAT CACCCGTGGG GCCATGAGGA TTGAAAAGAA CCCTGAGCTC 
TGCTACCTGG ACTCGGTGGA CTGGTCATTT ATTATGAATA CTGAGTTCAA CAATGTTATC 
AACGGGAACA AGAAGGCAAA GGAATGTGAC AACGTCTGCC CGGGGATCAT GGAGGATAAC 
CCTCTTTGTC AGCAGACGAC GTTCAATGAC AATCGTAACT ACCGCTGCTG GACCTCCAAC 
CATTGCCAGA AAGTTTGCCC GAAACAATGT AGGCTTGCCT GTACGGACAA GGGGGAGTGT 
TGCCACAACC AGTGCCTCGG TAGCTGCACC GAACCCAACA ATGACATGTC CTGCTCCGCC 
TGTCTCCACT ACTACCACGA GGGTCGGTGT GTCCCAAACT GTCCCCCGGG CACCTACAAG 
TTTGAGGGCT GGCGCTGCAT TACCATGGAA CTGTGCGCTC AAGTGCATCT GGCCAGCGAT 
TTTCACTTTG TCATCCACGA TGGAGAGTGT ATGCTCGACT GTCCCTCTGG CTTCACACGT 
AACGAGACTA ATCGTATGCT ATGCAGTGCT TGTAATGGCC CGTGTGATAA GGTCTGCAGA 
TCCACTGTCA TCGATTCTGT GAATGCTGCC GAGTTCCTGC AGGACTGCAC CGTCATCGAT 
GGCAATCTGG ACATCAATAT CCGCCGTGGA AATAATATAG CCCCCGAGCT TGAGAGATTC 
ATGGGATTGA TCCAGACAGT GACGGGCTAT GTTAAGATTC GACACTCCGA CGCTCTTGGC 
TCGCTGTCCT TCCTCAAGAG CCTACGTTAC ATCAAGGGGC AGGAACTCAT TGACAACATG 
TATTCATTCT CCGCCATCAA CAATCAGAAT CTGAAGTACT TGTGGAACTG GACTGAGCAC 
AACCTGACTA TTAGCAGTGG ACGTCTATTC TTCCGTCAGA ACCCCAAACT CTGCATGTCT 
GAGATCTACA AGATGTGGGA TAAAACTGGC ATAGCTGTGA AGCCAGAGGA AGGGGATTTC 
CGCAACAATG GCGAAAGAGC CAATTGTGAA AGCCATATCT TGAAATTCAA ATCCAACATC 
ACATCCAGCC ATGTGATCAA TCTGACATGG GAGCGCTACC AGCCCCCCAA AAATGGAACC 
CTTATCAGCT TCATCATTTA CTACAAGGAA TCTCCTTTCC AGAACATCAC TGAGTTTGAT 
GGCCAGGATG GCTGTGGCTC AAATAGCTGG CACATGGTGG ATGTGGATCT TCCTAAAGAT 
AATAACAATG ACCCAAATGT CAGACTTCAG CACCTCAAGC CTTGGACTCA GTATGCTATT 
TTTGTGAAGG CCATCACCCT GCAAGAGAGC GACAAAGATG CCACTGGAGC AAAGAGTGAC 
ATCATTTATA TTCGCACACA CCCATCGTTG CCGTCTGTGC CTAAAGATGC CCGTGCATAT 
GGTAATTCCT CAACAAAGCT GGTGGTGAAG TGGTCACCTC CACTTTTGCC CAACGGCAAT 
CTCACTTACT ACCTGGTCCG CTGGCAGCGT CAAGCTGAGG ATAGGGAGCT CTACCAACAT 
GACTACTGCT CCAAAGACTT GAAGATCCCA ATCCGAATCC CGGCGTCGGA GCTCACAGAC 
ATGGAAGAGA ACACAAAGCC CACGAAGTCA GACCTAGCAG GGCCAGAAAA GGTCCTGTGC 
TGTGCTTGCC AGAAGACACC AGAAGAGAAG GACCGTGAGA AGGACGACCG TGTCTTCTTG 
AAAGTTTTTG AGAATTTCCT CCACAATTCC ATCTTTCTGG CAAGACCTCA AGAGCGTCGG 
CGCAGAGACC TTTCTGGTAC AGCAAACAAC ACACTGTTTT ATGAGGGCGG CAGAGGGAAT 
ACCACTCTCG GCGCAGGGGA TAACAGTACA GATGGCATTC CTCCTAACGT AGAGTTCCCC 
TTCACTGAAG ACAAGAGCAC AACAGAGTAT TTAGAGATCC CCAATCTGCG GCCCTTCACC 
GTCTACCGCA TTGATATCCA TGCGTGCAAC GAGGTGGTGG GGAAGTGCAG CGCTGGAGCT 
TTCGTCTTCT CCAGGACCAA ACCTGCAGTC AAAGCGGATG ACATCCCGGG CAAGGTGATT 
TTTGAGAGGT GTGACAAAAT CGAGGGGTGT GTGGTGCTGC ACTGGCCAGA GCCCGTTATG 
CCCAATGGAC TCATCTTGAT GTATGAGATC AAGTTCCGCC TGGGTAATGA GCCTGAGAAG 
CACAAGTGTG TGTCGCGACA GGATTACCGC CGGTACAAAG GAGCTCGACT AACCAACCTT 
GGCTCGGGGA ACTACTCCGC CCGAGTGCGT GCCACTTCCC CGGCAGGAAA CGGCTCCTGG 
ACAGAAAGTG TTTTCTTCTA TGTGTCTCCA CCTAAACGTG ATGACGGTGT TACGTTGTAT 
GTGGTCATCA TAATTCCCAT CATTGTGACA ATTTTTGTCG CCGGCCTCAT CACCATCCTC 
TTCTATGTGA ACAAAAAGAG GAACAGTGAC AGACTGGGGA ACGGCGTCCT GTATGCATCA 
GTCAATCCAG AGTACCTCAG TGCTACTGAG ATGTATGTCC CAGATGAGTG GGAGGTAGCA 
AGGGAGAAGA TCACTATGCA CAGGGAACTG GGCCAGGGAT CCTTCGGCAT GGTGTACGAA 
GGCATCGCAA AGGGAGTAGT GAAGGACGAA CCTGAAACGA GAGTGGCCAT CAAGACGGTC 
AATGAGACGG CCAGCATGAG GGAGCGAATT GAGTTTTTGA ACGAGGCCTC TGTCATGAAG 
GAGTTCAACT GTCACCATGT GGTGCGGCTG CTTGGCGTGG TCTCTCAGGG ACAGCCAACC 
TTAGTGATTA TGGAGCTGAT GACTCGCGGA GATCTCAAGA GCCACCTGCG CTCCCTGCGC 
AAAGAAAACG CCACCAGCCA GGTCTTACCC CCACTCAAAA AGATGATCCA GATGGCTGGA 
GAAATCGCAG ACGGTATGGC GTACCTAAAC GCCAACAAAT TTGTCCACAG AGATCTGGCA 
GCGAGGAACT GCATGGTAGC AGAGGACTTC ACTGTGAAGA TTGGAGATTT TGGCATGACC 
AGAGATATTT ATGAGACGGA CTACTACCGA AAAGGAGGAA AGGGCCTGCT GCCTGTCCGC 
TGGATGTCTC CAGAGTCACT GAAAGATGGC GTGTTTACTA CAATGTCTGA TGTCTGGTCA 
TTTGGTGTCG TGCTGTGGGA AATCGCCACC TTAGCTGAAC AGCCTTACCA GGGGATGTCC 
AATGAACAAG TGCTGCGCTT TGTCATGGAG GGAGGACTCT TGGACAAACC TGACAACTGC 
CCTGACATGC TGTTTGAACT GATGCGAATG TGCTGGCAGT ATAACCCTAA GATGCGTCCG 
TCCTTCTTGG AGATCATCAG CAGCATCAAA GACGAACTGG ATCCTCCCTT CAGGGAAGTG 
AGCTTCTTCT ACAGCGAGGA GAACAAGCCG CCGGACACAG AGGAGCTGGA CATGGAGGTA 
GAAAACATGG AGAACATTCC ACTGGACCCT TCATCCGTGA GGCAGCCGTC GACTGCTGTC 
ATTTCCTCGT CTGGGTGTGC AGGAGGCATG TCTCCTCCTT CTACGCATCA GTTATCCCCC 
ATGCAAGGCC CGAGTACGCC ATTACTGGGA CCTGTTTCTA ACTCTCCTCC CGGCCCACTT 
GCTTCAGCCT TGGCGTCTCC AGGACTAGCC TTGGACAAGC ACTCAGGACA TGCTTCGGCC 
AACGGGCCTG TCGTGGTGCT GCGGCCCAGT TTTGATGAGA TACAACCCTA TGCACACATG 
AACGGGGTCA GAAAGAACGA ACGGGCGCTA CCACTGCCCC AGTCATCAGC CTGCTGA