igf1r cDNA ORF clone,

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Clones
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
OCo580149	XM_029434070.1 Latest version!	Cottoperca gobio 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_029434070.1 ) cDNA ORF clone, -> XP_029289930.1 Cottoperca gobio insulin like growth factor 1 receptor (igf1r), mRNA.

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CloneID	OCo580149
Clone ID Related Accession (Same CDS sequence)	XM_029434070.1
Accession Version	XM_029434070.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4254bp) 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	2019-06-05
Organism	Cottoperca gobio
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_041360.1) 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 :: Cottoperca gobio 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##

ATGCTAAGGA ACATGAGATC TGTCACACGG ATGGGCAGCC CGACCTTGTT TTGGGGTCTG 
ATGCTGTCTG TCTCCACTAT CTGCATCTGG TCCACACATG GAGAAATCTG TGGTCCGAGC 
ATCGACATCC GAAATGAGAT CAGCGAGTTC AAGCGGCTGG AGAACTGTAC GGTGGTGGAG 
GGCTACCTGC AGATCCTCCT CATCAACGAC AAGACCAACA ACATCCACCA GGAGGTTTTC 
CGCTCCCTCA GCTTCCCAAA GCTGACCGTC ATCACCGACT ACCTGCTGCT GTTTCGCGTC 
TCGGGCCTGG ACAGCCTCAG CATGCTCTTC CCCAACCTGA GTGTCATCCG CGGGCGCAAT 
CTCTTTTACA ACTACGCCCT GGTGATCTAC GAGATGACAA GCCTGAAGGA CATCGGCCTG 
TACAACCTGA GGAACATCAC CCGGGGGGCC ATGAGGATTG AAAAGAACCC TGAGCTCTGC 
TACCTGGACT CTGTGGACTG GTCTCTCATT ATGAATGCTG GGTTCAACAA CGTTATCAAT 
GGGAATAAGA AGGCAAAGGA GTGTGACAAT GTCTGCCCAG GCATCATGGA GGATAACCCT 
CTTTGTCAGA GGACGTCGTT CAATGACAAC TATGACTACC GCTGCTGGAC CTCCAACCAG 
TGCCAGAAAG TATGCCCAGA AAACTGCAAG CTTTCCTGTA CAGACAAGGG GGAGTGTTGC 
CACAGCCAGT GCCTGGGCAG CTGTACTGAA CCTAACAACG ACATGGCCTG CTCAGGTTGC 
CTTCACTACT ACCACGAGCG TCACTGTGTG CCAGACTGTC CCACAGACAC TTACAAGTTT 
GAGGGCTGGC GCTGCATCAC CATGGACCTT TGCTCCCAAG TGCACCTGCC CGGAGACACT 
CACTTTGTCA TCCACGGGGG AGAATGTATG CCCGACTGCC CCTCTGGCTT CACACGCAAC 
GAGACTAATC GTATGTTATG CAATGCCTGC AATGGCCCGT GTGATAAGCC CTGCACATCC 
TCCGTCATCG ACTCTGTGGA TGCTGCTCAG TCCCTGAAGG ACTGCACCGT CATCGAAGGC 
AACCTGGACA TCAACATCCG CCGTGGAAAT AACATAGCGT CTGAGCTGGA GAGCTTCATG 
GGATTGATTC AGAAAGTGAC GGGCTATGTG AAGATTCGAC ACTCCCACGC ACTTGGCTCG 
CTGTCCTTTC TCAAGAATCT GCGTTACATC AATGGGCAGG AACTCATCGA CAACATGTAT 
TCGTTCTCCG CAATCAACAA CCAGCACCTG CAGTACCTGT GGGACTGGAG TCAGCACAAC 
CTGACTATTG GGAACGGACG TCTCTTCTTC CGTCGGAACC CCAAACTCTG CATGTCTGAA 
ATTCACAAGA TGTGGGAGAA GACGGGGATT ACTGTGAAGC CAGAGCAGGG AGATTTCCTT 
AACAACGGAG AAAGGGCCAG CTGTGAAAGC TATACCCTGA AGTTCAAGTC TAACATCACA 
GCAAGCCACA CGATCAGACT GACATGGGAG CGCTACCGGC CGCCGGAATA TGGAGACCTT 
ATCAGCTTCA TAGTCTACTA CAAAGAGTCC CCTTTCCAGA ACATCACAGA GTTTGACGGG 
CAGGATGGCT GTGGATTAAA CAGCTGGCAC ATGGTGGATG TTGATTTCCC TCAAGATGCA 
AACATTGACC CAAAAGTCAG TCTTCAACAC CTCAAGCCCT GGACGCAGTA TGCTATATTT 
GTGAAGGCCA TTACCCTGCA GGTGGAGGAC AAACACATTA CTGGAGCAAA GAGCGATATA 
ATCTACGTTC GCACACGCCC ATCGCTGCCG TCTATGCCCA AGGACCCCCG TGCATTTGCC 
AACTCCTCAA CCAAGCTAAT GGTGAAGTGG TCACCTCCAG CCTTTCCCAA TGGAAATCTG 
ACCTTCTACC TGGTCCGCTG GCAGCAGCAG CCTGAGGACA GGGAGCTCTA CCAACATAAC 
TACTGCTCCA AAGAGCTGAA GATCCCGATC CGTATCCCAG CCTCGGGGTT CACCGACATG 
GACGACAACA CCAAGCCCAC CAAGTCAGAC ATGGCGGGGG GAGAGAAGGG CCCATGCTGT 
GCTTGCCAGA AGACGCCAGA GGAGAAAGAC CGGGAGAAGG ATGATCGCGT CTTTTTCAAA 
ATCTTCGAGA ACTTCCTTCA CAATGCCATC TTTCTGCCGA GACCTCCAGA TCGTCGACGT 
AGAGATGTTT TTGGTGTGGC TAACGACACA CTGCTGCCTG ACGGTGTACG AGGGAACACC 
ACGCTTGGCC CGGGCGATAA CAGTACAGAT GGAATTCCTC CTATCAGGGA GTACCCCTTC 
TCAGAGAACA AGAGCGCAGC AGAACATTTA GAGATCCCCA CCCTGCGGCC TTTCACTGTC 
TACCGCATTG ACATCCATGC ATGCAACGAG GAGGTGGGGC GTTGCAGTGC AGGAGCGTTT 
GTCTTCTCCA GGACCAAACC TGCAGTCAAA GCCGATGACA TCCCTGGAAA GGTACTCTAT 
GAGAGGAGCG ACAAGGTTGA AGGTTGTGTG ATGCTGCACT GGCCGGAGCC CGTCATGCCC 
AACGGACTCA TCCTGATGTA TGAGATCAAG TTTCGTCTGG GGACTGAGCC TGAGAAACAC 
GAGTGTGTGT CTCGGCAGCA GTACCGCGAG CACAGAGGAG CTCGGCTGAC CAACCTGGGC 
TCAGGGAATT ACTCTGCTCA TGTGCGCGCC ACTTCACTAG CAGGGAACGG CTCCTGGACG 
GAGAGCGTGT TCTTCTACGT GCCTCCGCCC AAACGAGACG ATGGCATTAC GTTCTACTTG 
GTCATCATAA TTCCCATCAT AGTGACGCTT TTTATTGCCA CCCTCACCAC GATTCTCTTC 
TTTGTGAACA AAAAGAGGAA TAGCGACAGA TTGGGGAATG GAGTCCTTTA TGCGTCTGTC 
AACCCTGAGT ACTTCAGTGC TGCTGAGATG TACGTCCCAG ATGAGTGGGA GGTGGCCAGG 
GAGAAGATCA CAATGCACAA GGAGCTGGGC CAGGGTTCCT TCGGCATGGT GTACGAAGGC 
CTCGCCAAGG GAGTGGTCAA AGATGATCCC GAGACACGAG TGGCCATCAA GACGGTCAAT 
GAGTCGGCCA GCATGAGGGA GCGCATTGAG TTTTTGAACG AAGCCTCCGT CATGAAGGAG 
TTCAACTGTC ACCATGTGGT GCGGCTGCTG GGCGTGGTTT CTCAGGGACA GCCAACCTTG 
GTGATTATGG AGCTAATGAC CCGTGGAGAT CTCAAGAGCC ACCTGCGTTC TCTGCGCAAA 
GAAAACTCGA CCACTCAGGT CCTACCCCCG CTCAAAAAGA TGATCCAGAT GGCAGGGGAA 
ATCGCCGACG GCATGTCGTA CCTAAATTCC AACAAATTTG TCCACAGAGA TCTGGCTGCC 
AGGAACTGCA TGGTAGCTGA GGACTTCACT GTGAAGATTG GAGATTTTGG CATGACCAGA 
GATATTTATG AGACTGATTA CTACAGAAAA GGAGGGAAGG GCCTGCTGCC TGTCCGCTGG 
ATGTCTCCAG AGTCTCTGAA AGATGGCGTA TTCACTACAA TGTCTGATGT CTGGTCATTT 
GGTGTCGTGC TGTGGGAGAT CGCCACATTA GCAGAACAGC CTTACCAGGG CATGTCCAAT 
GAACAAGTGC TGCGCTTCGT CATGGAGGGA GGACTCTTGG ACAAACCTGA CAACTGCCCT 
GACATGCTGT TTGAGCTGAT GAGGATGTGC TGGCAGTATA ATCCCAAGAT GCGTCCGTCC 
TTCCTGGAGA TCATCAACAG CATCAAAGAT GACCTGGATC CTCCCTTCAG GGAAATGAGC 
TTCTTCTACA GCGAGGAGAA CAAGCCACCG GACACCGAGG AGCTGGACAT GGAAGTAGAA 
AACATGGAGA ACATTCCACT GGACCCTGCA TCCACCAGGC AGCCCTCTGC TGCCGCCGCC 
CCCTCGTCGG GGTGTACAGG AGGCACGCCG CCTCCTTCTA CCCAGCAGTT ATCCCCCATG 
CAAGGCCCGA GTACTCCGTT ACTGGGAGCC GTGTCTCCCT CCTCCCCGGG CCCGGTCGCC 
TCAGCCTTGG CGTCTCCAGG CCAAGCCTTG GACAAGCACT CAGGACATGT TTCGGCCAAC 
GGGCCTGTTG TGTTACTGCG GCCCAACTTT GACGAGTTGC AACCCTACGC ACACATGAAT 
GGGGGCAGAA AGAACGAACG GGCGTTACCA CTGCCCCAGT CGTCGGCCTG CTGA

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

RefSeq	XP_029289930.1
CDS	1..4254
Translation	MLRNMRSVTRMGSPTLFWGLMLSVSTICIWSTHGEICGPSIDIRNEISEFKRLENCTVVEGYLQILLINDKTNNIHQEVFRSLSFPKLTVITDYLLLFRVSGLDSLSMLFPNLSVIRGRNLFYNYALVIYEMTSLKDIGLYNLRNITRGAMRIEKNPELCYLDSVDWSLIMNAGFNNVINGNKKAKECDNVCPGIMEDNPLCQRTSFNDNYDYRCWTSNQCQKVCPENCKLSCTDKGECCHSQCLGSCTEPNNDMACSGCLHYYHERHCVPDCPTDTYKFEGWRCITMDLCSQVHLPGDTHFVIHGGECMPDCPSGFTRNETNRMLCNACNGPCDKPCTSSVIDSVDAAQSLKDCTVIEGNLDINIRRGNNIASELESFMGLIQKVTGYVKIRHSHALGSLSFLKNLRYINGQELIDNMYSFSAINNQHLQYLWDWSQHNLTIGNGRLFFRRNPKLCMSEIHKMWEKTGITVKPEQGDFLNNGERASCESYTLKFKSNITASHTIRLTWERYRPPEYGDLISFIVYYKESPFQNITEFDGQDGCGLNSWHMVDVDFPQDANIDPKVSLQHLKPWTQYAIFVKAITLQVEDKHITGAKSDIIYVRTRPSLPSMPKDPRAFANSSTKLMVKWSPPAFPNGNLTFYLVRWQQQPEDRELYQHNYCSKELKIPIRIPASGFTDMDDNTKPTKSDMAGGEKGPCCACQKTPEEKDREKDDRVFFKIFENFLHNAIFLPRPPDRRRRDVFGVANDTLLPDGVRGNTTLGPGDNSTDGIPPIREYPFSENKSAAEHLEIPTLRPFTVYRIDIHACNEEVGRCSAGAFVFSRTKPAVKADDIPGKVLYERSDKVEGCVMLHWPEPVMPNGLILMYEIKFRLGTEPEKHECVSRQQYREHRGARLTNLGSGNYSAHVRATSLAGNGSWTESVFFYVPPPKRDDGITFYLVIIIPIIVTLFIATLTTILFFVNKKRNSDRLGNGVLYASVNPEYFSAAEMYVPDEWEVAREKITMHKELGQGSFGMVYEGLAKGVVKDDPETRVAIKTVNESASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRKENSTTQVLPPLKKMIQMAGEIADGMSYLNSNKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTMSDVWSFGVVLWEIATLAEQPYQGMSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIINSIKDDLDPPFREMSFFYSEENKPPDTEELDMEVENMENIPLDPASTRQPSAAAAPSSGCTGGTPPPSTQQLSPMQGPSTPLLGAVSPSSPGPVASALASPGQALDKHSGHVSANGPVVLLRPNFDELQPYAHMNGGRKNERALPLPQSSAC

Target ORF information:

RefSeq Version	XM_029434070.1
Organism	Cottoperca gobio
Definition	Cottoperca gobio 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_029434070.1

ORF Insert Sequence:

ATGCTAAGGA ACATGAGATC TGTCACACGG ATGGGCAGCC CGACCTTGTT TTGGGGTCTG 
ATGCTGTCTG TCTCCACTAT CTGCATCTGG TCCACACATG GAGAAATCTG TGGTCCGAGC 
ATCGACATCC GAAATGAGAT CAGCGAGTTC AAGCGGCTGG AGAACTGTAC GGTGGTGGAG 
GGCTACCTGC AGATCCTCCT CATCAACGAC AAGACCAACA ACATCCACCA GGAGGTTTTC 
CGCTCCCTCA GCTTCCCAAA GCTGACCGTC ATCACCGACT ACCTGCTGCT GTTTCGCGTC 
TCGGGCCTGG ACAGCCTCAG CATGCTCTTC CCCAACCTGA GTGTCATCCG CGGGCGCAAT 
CTCTTTTACA ACTACGCCCT GGTGATCTAC GAGATGACAA GCCTGAAGGA CATCGGCCTG 
TACAACCTGA GGAACATCAC CCGGGGGGCC ATGAGGATTG AAAAGAACCC TGAGCTCTGC 
TACCTGGACT CTGTGGACTG GTCTCTCATT ATGAATGCTG GGTTCAACAA CGTTATCAAT 
GGGAATAAGA AGGCAAAGGA GTGTGACAAT GTCTGCCCAG GCATCATGGA GGATAACCCT 
CTTTGTCAGA GGACGTCGTT CAATGACAAC TATGACTACC GCTGCTGGAC CTCCAACCAG 
TGCCAGAAAG TATGCCCAGA AAACTGCAAG CTTTCCTGTA CAGACAAGGG GGAGTGTTGC 
CACAGCCAGT GCCTGGGCAG CTGTACTGAA CCTAACAACG ACATGGCCTG CTCAGGTTGC 
CTTCACTACT ACCACGAGCG TCACTGTGTG CCAGACTGTC CCACAGACAC TTACAAGTTT 
GAGGGCTGGC GCTGCATCAC CATGGACCTT TGCTCCCAAG TGCACCTGCC CGGAGACACT 
CACTTTGTCA TCCACGGGGG AGAATGTATG CCCGACTGCC CCTCTGGCTT CACACGCAAC 
GAGACTAATC GTATGTTATG CAATGCCTGC AATGGCCCGT GTGATAAGCC CTGCACATCC 
TCCGTCATCG ACTCTGTGGA TGCTGCTCAG TCCCTGAAGG ACTGCACCGT CATCGAAGGC 
AACCTGGACA TCAACATCCG CCGTGGAAAT AACATAGCGT CTGAGCTGGA GAGCTTCATG 
GGATTGATTC AGAAAGTGAC GGGCTATGTG AAGATTCGAC ACTCCCACGC ACTTGGCTCG 
CTGTCCTTTC TCAAGAATCT GCGTTACATC AATGGGCAGG AACTCATCGA CAACATGTAT 
TCGTTCTCCG CAATCAACAA CCAGCACCTG CAGTACCTGT GGGACTGGAG TCAGCACAAC 
CTGACTATTG GGAACGGACG TCTCTTCTTC CGTCGGAACC CCAAACTCTG CATGTCTGAA 
ATTCACAAGA TGTGGGAGAA GACGGGGATT ACTGTGAAGC CAGAGCAGGG AGATTTCCTT 
AACAACGGAG AAAGGGCCAG CTGTGAAAGC TATACCCTGA AGTTCAAGTC TAACATCACA 
GCAAGCCACA CGATCAGACT GACATGGGAG CGCTACCGGC CGCCGGAATA TGGAGACCTT 
ATCAGCTTCA TAGTCTACTA CAAAGAGTCC CCTTTCCAGA ACATCACAGA GTTTGACGGG 
CAGGATGGCT GTGGATTAAA CAGCTGGCAC ATGGTGGATG TTGATTTCCC TCAAGATGCA 
AACATTGACC CAAAAGTCAG TCTTCAACAC CTCAAGCCCT GGACGCAGTA TGCTATATTT 
GTGAAGGCCA TTACCCTGCA GGTGGAGGAC AAACACATTA CTGGAGCAAA GAGCGATATA 
ATCTACGTTC GCACACGCCC ATCGCTGCCG TCTATGCCCA AGGACCCCCG TGCATTTGCC 
AACTCCTCAA CCAAGCTAAT GGTGAAGTGG TCACCTCCAG CCTTTCCCAA TGGAAATCTG 
ACCTTCTACC TGGTCCGCTG GCAGCAGCAG CCTGAGGACA GGGAGCTCTA CCAACATAAC 
TACTGCTCCA AAGAGCTGAA GATCCCGATC CGTATCCCAG CCTCGGGGTT CACCGACATG 
GACGACAACA CCAAGCCCAC CAAGTCAGAC ATGGCGGGGG GAGAGAAGGG CCCATGCTGT 
GCTTGCCAGA AGACGCCAGA GGAGAAAGAC CGGGAGAAGG ATGATCGCGT CTTTTTCAAA 
ATCTTCGAGA ACTTCCTTCA CAATGCCATC TTTCTGCCGA GACCTCCAGA TCGTCGACGT 
AGAGATGTTT TTGGTGTGGC TAACGACACA CTGCTGCCTG ACGGTGTACG AGGGAACACC 
ACGCTTGGCC CGGGCGATAA CAGTACAGAT GGAATTCCTC CTATCAGGGA GTACCCCTTC 
TCAGAGAACA AGAGCGCAGC AGAACATTTA GAGATCCCCA CCCTGCGGCC TTTCACTGTC 
TACCGCATTG ACATCCATGC ATGCAACGAG GAGGTGGGGC GTTGCAGTGC AGGAGCGTTT 
GTCTTCTCCA GGACCAAACC TGCAGTCAAA GCCGATGACA TCCCTGGAAA GGTACTCTAT 
GAGAGGAGCG ACAAGGTTGA AGGTTGTGTG ATGCTGCACT GGCCGGAGCC CGTCATGCCC 
AACGGACTCA TCCTGATGTA TGAGATCAAG TTTCGTCTGG GGACTGAGCC TGAGAAACAC 
GAGTGTGTGT CTCGGCAGCA GTACCGCGAG CACAGAGGAG CTCGGCTGAC CAACCTGGGC 
TCAGGGAATT ACTCTGCTCA TGTGCGCGCC ACTTCACTAG CAGGGAACGG CTCCTGGACG 
GAGAGCGTGT TCTTCTACGT GCCTCCGCCC AAACGAGACG ATGGCATTAC GTTCTACTTG 
GTCATCATAA TTCCCATCAT AGTGACGCTT TTTATTGCCA CCCTCACCAC GATTCTCTTC 
TTTGTGAACA AAAAGAGGAA TAGCGACAGA TTGGGGAATG GAGTCCTTTA TGCGTCTGTC 
AACCCTGAGT ACTTCAGTGC TGCTGAGATG TACGTCCCAG ATGAGTGGGA GGTGGCCAGG 
GAGAAGATCA CAATGCACAA GGAGCTGGGC CAGGGTTCCT TCGGCATGGT GTACGAAGGC 
CTCGCCAAGG GAGTGGTCAA AGATGATCCC GAGACACGAG TGGCCATCAA GACGGTCAAT 
GAGTCGGCCA GCATGAGGGA GCGCATTGAG TTTTTGAACG AAGCCTCCGT CATGAAGGAG 
TTCAACTGTC ACCATGTGGT GCGGCTGCTG GGCGTGGTTT CTCAGGGACA GCCAACCTTG 
GTGATTATGG AGCTAATGAC CCGTGGAGAT CTCAAGAGCC ACCTGCGTTC TCTGCGCAAA 
GAAAACTCGA CCACTCAGGT CCTACCCCCG CTCAAAAAGA TGATCCAGAT GGCAGGGGAA 
ATCGCCGACG GCATGTCGTA CCTAAATTCC AACAAATTTG TCCACAGAGA TCTGGCTGCC 
AGGAACTGCA TGGTAGCTGA GGACTTCACT GTGAAGATTG GAGATTTTGG CATGACCAGA 
GATATTTATG AGACTGATTA CTACAGAAAA GGAGGGAAGG GCCTGCTGCC TGTCCGCTGG 
ATGTCTCCAG AGTCTCTGAA AGATGGCGTA TTCACTACAA TGTCTGATGT CTGGTCATTT 
GGTGTCGTGC TGTGGGAGAT CGCCACATTA GCAGAACAGC CTTACCAGGG CATGTCCAAT 
GAACAAGTGC TGCGCTTCGT CATGGAGGGA GGACTCTTGG ACAAACCTGA CAACTGCCCT 
GACATGCTGT TTGAGCTGAT GAGGATGTGC TGGCAGTATA ATCCCAAGAT GCGTCCGTCC 
TTCCTGGAGA TCATCAACAG CATCAAAGAT GACCTGGATC CTCCCTTCAG GGAAATGAGC 
TTCTTCTACA GCGAGGAGAA CAAGCCACCG GACACCGAGG AGCTGGACAT GGAAGTAGAA 
AACATGGAGA ACATTCCACT GGACCCTGCA TCCACCAGGC AGCCCTCTGC TGCCGCCGCC 
CCCTCGTCGG GGTGTACAGG AGGCACGCCG CCTCCTTCTA CCCAGCAGTT ATCCCCCATG 
CAAGGCCCGA GTACTCCGTT ACTGGGAGCC GTGTCTCCCT CCTCCCCGGG CCCGGTCGCC 
TCAGCCTTGG CGTCTCCAGG CCAAGCCTTG GACAAGCACT CAGGACATGT TTCGGCCAAC 
GGGCCTGTTG TGTTACTGCG GCCCAACTTT GACGAGTTGC AACCCTACGC ACACATGAAT 
GGGGGCAGAA AGAACGAACG GGCGTTACCA CTGCCCCAGT CGTCGGCCTG CTGA