igf1r cDNA ORF clone,

Gene
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
OPa381750	XM_023814012.1 Latest version!	Paramormyrops kingsleyae 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_023814012.1 ) cDNA ORF clone, -> XP_023669780.1 Paramormyrops kingsleyae insulin like growth factor 1 receptor (igf1r), mRNA.

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CloneID	OPa381750
Clone ID Related Accession (Same CDS sequence)	XM_023814012.1
Accession Version	XM_023814012.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4185bp) 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	2018-02-02
Organism	Paramormyrops kingsleyae
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 (NW_019712010.1) 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 :: Paramormyrops kingsleyae Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATTTAA CAGGAATGTG GTCTGGGACA GAAAGAAATA ATTTGACCTT GTTATGGGGT 
CTGTTACTCT CGATCTACAC GACCTGTATG TGGCCCGCAA ATGGAGAAAT CTGTGGTCCG 
AGCATCGACA TCGGCAATGA CATCAGCGAG TTTAAGCGCC TAGAGAACTG CACGGTGGTG 
GAGGGTTACC TGCAGATCCT GCTCATCGGC GATAAGGGCA GCAACGCCAA CCAGGATGTC 
TTCCGCTCCC TCAGCTTCCC CAAACTCACC ATGGTGACTG ACTATCTGCT GCTGTTCCGC 
GTCTCGGGCC TGGACACCCT GAGCACGCTC TTCCCCAACC TGGCCGTCAT CCGCGGCCGC 
ACCCTCTTCT ACAACTACGC CCTGGTTATC TTTGAGATGA CCAGCCTGAA GGACATCGGC 
CTGTACAACC TGAGGAACAT CACGAGGGGA GCCATCCGCA TCGAGAAGAA CCCGGAGCTG 
TGCTACCTCG ACTCGGTGGA CTGGTCGCTC ATCATGGATT CTGATTCGAA CAACTTCATA 
GCAGGCAATA AGCAGTCTAA GGAGTGTGCC GACGTCTGCC CCGGCGTCAT GGAGGACGAC 
CCTCGGTGCA TCATGACCAG CTTCAATAAC AACTACAACT ACCGCTGCTG GACATCAAAC 
CATTGCCAGA AAGTGTGTCC TGCCAAATGC GAGAGGAGAG CGTGCACGGA GTCCGGCGAG 
TGCTGCCACC CGCAGTGCCT GGGCAGCTGC ACGGTGCCCG ACAGCGACGC GTCCTGCGAT 
GCCTGCCTGC ACTACTTCCA CGAGGGCCAC TGCGTGCCCG ACTGCCCCGC CGACACCTAC 
AAGTTCGAAG GCTGGCGCTG CATCACCATG GAGCTTTGTG CCCGCGTGCA CCTGCCCAAC 
GACTTCGACC GCTTCGTCAT CCATGCCGGC GAGTGCATGC CCGACTGCCC CACGGGCTTC 
ACACGCAATG AGAACCACAG TATGTTCTGC AGTGCTTGTG ATGGTCCCTG TGACAAGATC 
TGTGAAGGGA AGATGATCGA CTCTGTGGAC GCGGCTCAGT CCCTCAAGGG CTGCACAATC 
ATCAAGGGCA ACCTCCACAT CAACATCCGT CGGGGAAATG ACATTGCATC AGAGCTGGAG 
AGCTTCATGG GCCTCATCCA GACGGTGACG GGCGCCGTGA GGATCCGACA CTCGCACACG 
CTGAGCTCCC TGTCCTTCCT GAAGAGCTTA CACTACATCA TCGGGGAAGA GCTCATCGAT 
GGGATGTATG CTTTCTCCGC ACTGGATAAC CAAAACCTCC AGCACCTCTG GGACTGGAAC 
CAGCACAATC TGACCATCAA GACTGGGAAG CTGTTTTTTC GATTCAACCC TAAACTATGC 
ATGTCGGAGA TTCGCAAGAT GTGGGAGAAG AGTGGCATCA CCAGCACCTT CGAAGAGGGT 
GACTTTCGCA ACAACGGGGA CAGGGCCAGC TGTGAGAGTC ACATCATCAA GTTCAAGTCC 
AACAGTACCA GCAGTAACAA GATCAAACTG ACCTGGGAAC GCTACCGACC TCCGGATTAC 
AGGGATCTCA TCAGTTTTAT CATCTATTAC AAGGAAGCAC CTTTCCAGAA CATCACCGAA 
TTCGATGGTC AGGATGGCTG TGGGTCCAAC AGCTGGAACA TGGTGGATGT AGAACTTCCA 
AAGGAAAAGG ATGTGGACCC TGGGGTGCTT CTCAGTCCAC TGAAACCCTG GACTCAGTAC 
GCCATCTTCG TGAAGGCCAT CACCCTAGTT GTCGATTACA AGCACATCTT CGGAGCCAAA 
AGTGAGGTGA TCTACATTTG GACAAAGCCC TCAGAGCCAT CGATGCCGAT GGATGTCCGC 
TCGTACTCAA ACTCCTCCAC GAAGCTGCTG GTGAAGTGGT CTCCTCCATT CTCTCCCAAC 
GGGAACCACA CCTACTACCT CCTCCGCTGG CAACGGCAGT CTGAAGACAA AGAGCTTTAC 
ATGCACAACT ACTGCTCCAA AGAGCTGAAG ATCCCCATTA GGATCTCAGC CACAGGAGCT 
GTAGATGCAG AAGATGACAG CAAGCTTCCC AAGACAGACG CCGGTGCCGG GGACAAAGGG 
CCGTGCTGCC AGTGCCCCAA GACTAGCGAT GACCTGAGGG TCGAGGCGGA GGATGCTTCT 
TACCGCAAAG TCTTTGAGAA CTTTCTTCAC AACTCGATCT TCACTCCCAG GCCCCCAGAC 
CGTCGCCGCC GAGATGTCTT CGGTATAGCC AACTCCACCC TTATGTACAG CGTGAGCGGG 
AACACCACCG AGCTGGAAGG CAACGCCACG GACGGGGTCC CGCACACCAT AGAGTACCAG 
TTTGAGGAGA CCACGGTGAG TGGCAAGGAG TCATGGGAGA TCTCTGGCCT GGAGGCCTTC 
ACTGTGTACC GCATTGACAT CCACGCCTGC AACCGCGAGG TGAAGCACTG CAGCGCGGCC 
GCCTTCGTCT TTGCCAGGAC CAAGCCAGCA GACAAGGCAG ACGACATACC AGCACCTGTG 
ACGTGGCAGG GGGGCGAGCG TGAAGACGAC ACCGTGTTCC TGAAGTGGGC AGAACCCAAA 
AGACCCAACG GGCTGATTTT GATGTATGAG ATCAAGTTCC GTCTGGGTGC CGAGGCCGAG 
AAGCACGAGT GTGTCTCCCG GCAGCACTAC CGGGAGCATG GGGGAGCCCG GCTAAGTCAC 
CTCAGCCCAG GGAATTACTC CGCCCGCATC AGAGCCACCT CGCTGATGGG CAACGGCTCC 
TGGACTCTGC CTGTGGCCTT CTATGTGAAA CAGCTAAAAC TGCACGACAA CTTCTTCTAT 
CTCCCAATCA TCATCCCTAT CATCGTTTCG TTCATTGTCA TCATCGGAAT AACAGCGCTC 
ATAGTGGTCA ACAAGAAGAG GAATAGTGAC CGCCTGGGGA ATGGGGTTCT GTACGCCTCT 
GTCAATCCTG AGTACTTAAG TGCTGCTGAA ATGTACGTAC CAGATGAGTG GGAGGTGGCA 
CGTGAGAAGA TCACTCTGTG CCGAGAGCTA GGCCAGGGCT CCTTCGGCAT GGTGTACGAG 
GGCGTGGCCA AGGGCGTGGT CAAGGGCGAG GCTGAGACGC GCGTGGCCAT CAAGACGGTC 
AACGAGTCAG CCAGCATGCG CGAGCGCATC GAGTTCCTCA ACGAGGCGTC CGTCATGAAG 
GAGTTCAACT GCCACCACGT GGTACGTCTT CTGGGTGTGG TCTCTCAGGG CCAACCTACA 
TTGGTGATTA TGGAGCTGAT GACCCGTGGA GACCTGAAAA GCCATCTGCG GTCCCTCCGA 
TCCAAAGAGA ATTCCTGCAG CGATACCTTA CCCCCCCTGA AGAAGATGAT CCAGATGGCG 
GGGGAGATCG CGGATGGCAT GGCCTACCTC AACGCCAACA AGTTCGTCCA CAGAGACCTG 
GCTGCCCGGA ACTGCATGGT GGCCGAGGAT TTCACTGTGA AGATTGGAGA TTTCGGAATG 
ACGAGGGACA TTTATGAGAC GGATTACTAC CGCAAAGGGG GCAAAGGGCT TCTGCCGGTG 
CGCTGGATGT CCCCGGAGTC CCTCAAAGAT GGCGTGTTCA CCACCAACTC TGATGTCTGG 
TCGTTCGGGG TGGTGCTGTG GGAGATTGCC ACCCTGGCAG AGCAGCCCTA CCAGGGCATG 
TCCAACGAGC AGGTGCTGCG CTTCGTCATG GACGGGGGCC TGCTGGACAA GCCAGACAAC 
TGCCCCGACA TGCTGTTCGA GTTGATGCGT ATGTGCTGGC AGTACCACCC GAAGGCGAGG 
CCTTCCTTCC TGGAGATAAT CAACGGCATC AAGGACGAGC TGGAGCCGCC CTTCAAGGAA 
GTCAGCTTCT ACTACAGTGA GGAGAACAAG CCCCCAGACA CAGAGGAGCT CGACATCGAG 
CCAGAGAACA TGGAGAACGT GCCCCTGGAT CCAGCGTCCA GTCGACGGCA CGTGGTGGCA 
GCCAGCCAGG GACCCCCGGA TTCCGGGCCA GGCGCTGTCT CCCGCTCTCC AGGACCTGCC 
CGCTCAGCCG GCCTGCCCTC GGACTCTCAC TCAGGACACA CGGTGGCCAA CGGGCCTGTG 
GTGGTTCTGA GGCCCACTTT CGACGAGAAG CAGCCCTATG CGCACATGAA TGGGGGGCGC 
AAAAACGAAC GGGCTCTTCC CCTCCCGCAG TCCTCCGCCT GCTGA

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

RefSeq	XP_023669780.1
CDS	1024..5208
Translation	MHLTGMWSGTERNNLTLLWGLLLSIYTTCMWPANGEICGPSIDIGNDISEFKRLENCTVVEGYLQILLIGDKGSNANQDVFRSLSFPKLTMVTDYLLLFRVSGLDTLSTLFPNLAVIRGRTLFYNYALVIFEMTSLKDIGLYNLRNITRGAIRIEKNPELCYLDSVDWSLIMDSDSNNFIAGNKQSKECADVCPGVMEDDPRCIMTSFNNNYNYRCWTSNHCQKVCPAKCERRACTESGECCHPQCLGSCTVPDSDASCDACLHYFHEGHCVPDCPADTYKFEGWRCITMELCARVHLPNDFDRFVIHAGECMPDCPTGFTRNENHSMFCSACDGPCDKICEGKMIDSVDAAQSLKGCTIIKGNLHINIRRGNDIASELESFMGLIQTVTGAVRIRHSHTLSSLSFLKSLHYIIGEELIDGMYAFSALDNQNLQHLWDWNQHNLTIKTGKLFFRFNPKLCMSEIRKMWEKSGITSTFEEGDFRNNGDRASCESHIIKFKSNSTSSNKIKLTWERYRPPDYRDLISFIIYYKEAPFQNITEFDGQDGCGSNSWNMVDVELPKEKDVDPGVLLSPLKPWTQYAIFVKAITLVVDYKHIFGAKSEVIYIWTKPSEPSMPMDVRSYSNSSTKLLVKWSPPFSPNGNHTYYLLRWQRQSEDKELYMHNYCSKELKIPIRISATGAVDAEDDSKLPKTDAGAGDKGPCCQCPKTSDDLRVEAEDASYRKVFENFLHNSIFTPRPPDRRRRDVFGIANSTLMYSVSGNTTELEGNATDGVPHTIEYQFEETTVSGKESWEISGLEAFTVYRIDIHACNREVKHCSAAAFVFARTKPADKADDIPAPVTWQGGEREDDTVFLKWAEPKRPNGLILMYEIKFRLGAEAEKHECVSRQHYREHGGARLSHLSPGNYSARIRATSLMGNGSWTLPVAFYVKQLKLHDNFFYLPIIIPIIVSFIVIIGITALIVVNKKRNSDRLGNGVLYASVNPEYLSAAEMYVPDEWEVAREKITLCRELGQGSFGMVYEGVAKGVVKGEAETRVAIKTVNESASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRSKENSCSDTLPPLKKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTNSDVWSFGVVLWEIATLAEQPYQGMSNEQVLRFVMDGGLLDKPDNCPDMLFELMRMCWQYHPKARPSFLEIINGIKDELEPPFKEVSFYYSEENKPPDTEELDIEPENMENVPLDPASSRRHVVAASQGPPDSGPGAVSRSPGPARSAGLPSDSHSGHTVANGPVVVLRPTFDEKQPYAHMNGGRKNERALPLPQSSAC

Target ORF information:

RefSeq Version	XM_023814012.1
Organism	Paramormyrops kingsleyae
Definition	Paramormyrops kingsleyae 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_023814012.1

ORF Insert Sequence:

ATGCATTTAA CAGGAATGTG GTCTGGGACA GAAAGAAATA ATTTGACCTT GTTATGGGGT 
CTGTTACTCT CGATCTACAC GACCTGTATG TGGCCCGCAA ATGGAGAAAT CTGTGGTCCG 
AGCATCGACA TCGGCAATGA CATCAGCGAG TTTAAGCGCC TAGAGAACTG CACGGTGGTG 
GAGGGTTACC TGCAGATCCT GCTCATCGGC GATAAGGGCA GCAACGCCAA CCAGGATGTC 
TTCCGCTCCC TCAGCTTCCC CAAACTCACC ATGGTGACTG ACTATCTGCT GCTGTTCCGC 
GTCTCGGGCC TGGACACCCT GAGCACGCTC TTCCCCAACC TGGCCGTCAT CCGCGGCCGC 
ACCCTCTTCT ACAACTACGC CCTGGTTATC TTTGAGATGA CCAGCCTGAA GGACATCGGC 
CTGTACAACC TGAGGAACAT CACGAGGGGA GCCATCCGCA TCGAGAAGAA CCCGGAGCTG 
TGCTACCTCG ACTCGGTGGA CTGGTCGCTC ATCATGGATT CTGATTCGAA CAACTTCATA 
GCAGGCAATA AGCAGTCTAA GGAGTGTGCC GACGTCTGCC CCGGCGTCAT GGAGGACGAC 
CCTCGGTGCA TCATGACCAG CTTCAATAAC AACTACAACT ACCGCTGCTG GACATCAAAC 
CATTGCCAGA AAGTGTGTCC TGCCAAATGC GAGAGGAGAG CGTGCACGGA GTCCGGCGAG 
TGCTGCCACC CGCAGTGCCT GGGCAGCTGC ACGGTGCCCG ACAGCGACGC GTCCTGCGAT 
GCCTGCCTGC ACTACTTCCA CGAGGGCCAC TGCGTGCCCG ACTGCCCCGC CGACACCTAC 
AAGTTCGAAG GCTGGCGCTG CATCACCATG GAGCTTTGTG CCCGCGTGCA CCTGCCCAAC 
GACTTCGACC GCTTCGTCAT CCATGCCGGC GAGTGCATGC CCGACTGCCC CACGGGCTTC 
ACACGCAATG AGAACCACAG TATGTTCTGC AGTGCTTGTG ATGGTCCCTG TGACAAGATC 
TGTGAAGGGA AGATGATCGA CTCTGTGGAC GCGGCTCAGT CCCTCAAGGG CTGCACAATC 
ATCAAGGGCA ACCTCCACAT CAACATCCGT CGGGGAAATG ACATTGCATC AGAGCTGGAG 
AGCTTCATGG GCCTCATCCA GACGGTGACG GGCGCCGTGA GGATCCGACA CTCGCACACG 
CTGAGCTCCC TGTCCTTCCT GAAGAGCTTA CACTACATCA TCGGGGAAGA GCTCATCGAT 
GGGATGTATG CTTTCTCCGC ACTGGATAAC CAAAACCTCC AGCACCTCTG GGACTGGAAC 
CAGCACAATC TGACCATCAA GACTGGGAAG CTGTTTTTTC GATTCAACCC TAAACTATGC 
ATGTCGGAGA TTCGCAAGAT GTGGGAGAAG AGTGGCATCA CCAGCACCTT CGAAGAGGGT 
GACTTTCGCA ACAACGGGGA CAGGGCCAGC TGTGAGAGTC ACATCATCAA GTTCAAGTCC 
AACAGTACCA GCAGTAACAA GATCAAACTG ACCTGGGAAC GCTACCGACC TCCGGATTAC 
AGGGATCTCA TCAGTTTTAT CATCTATTAC AAGGAAGCAC CTTTCCAGAA CATCACCGAA 
TTCGATGGTC AGGATGGCTG TGGGTCCAAC AGCTGGAACA TGGTGGATGT AGAACTTCCA 
AAGGAAAAGG ATGTGGACCC TGGGGTGCTT CTCAGTCCAC TGAAACCCTG GACTCAGTAC 
GCCATCTTCG TGAAGGCCAT CACCCTAGTT GTCGATTACA AGCACATCTT CGGAGCCAAA 
AGTGAGGTGA TCTACATTTG GACAAAGCCC TCAGAGCCAT CGATGCCGAT GGATGTCCGC 
TCGTACTCAA ACTCCTCCAC GAAGCTGCTG GTGAAGTGGT CTCCTCCATT CTCTCCCAAC 
GGGAACCACA CCTACTACCT CCTCCGCTGG CAACGGCAGT CTGAAGACAA AGAGCTTTAC 
ATGCACAACT ACTGCTCCAA AGAGCTGAAG ATCCCCATTA GGATCTCAGC CACAGGAGCT 
GTAGATGCAG AAGATGACAG CAAGCTTCCC AAGACAGACG CCGGTGCCGG GGACAAAGGG 
CCGTGCTGCC AGTGCCCCAA GACTAGCGAT GACCTGAGGG TCGAGGCGGA GGATGCTTCT 
TACCGCAAAG TCTTTGAGAA CTTTCTTCAC AACTCGATCT TCACTCCCAG GCCCCCAGAC 
CGTCGCCGCC GAGATGTCTT CGGTATAGCC AACTCCACCC TTATGTACAG CGTGAGCGGG 
AACACCACCG AGCTGGAAGG CAACGCCACG GACGGGGTCC CGCACACCAT AGAGTACCAG 
TTTGAGGAGA CCACGGTGAG TGGCAAGGAG TCATGGGAGA TCTCTGGCCT GGAGGCCTTC 
ACTGTGTACC GCATTGACAT CCACGCCTGC AACCGCGAGG TGAAGCACTG CAGCGCGGCC 
GCCTTCGTCT TTGCCAGGAC CAAGCCAGCA GACAAGGCAG ACGACATACC AGCACCTGTG 
ACGTGGCAGG GGGGCGAGCG TGAAGACGAC ACCGTGTTCC TGAAGTGGGC AGAACCCAAA 
AGACCCAACG GGCTGATTTT GATGTATGAG ATCAAGTTCC GTCTGGGTGC CGAGGCCGAG 
AAGCACGAGT GTGTCTCCCG GCAGCACTAC CGGGAGCATG GGGGAGCCCG GCTAAGTCAC 
CTCAGCCCAG GGAATTACTC CGCCCGCATC AGAGCCACCT CGCTGATGGG CAACGGCTCC 
TGGACTCTGC CTGTGGCCTT CTATGTGAAA CAGCTAAAAC TGCACGACAA CTTCTTCTAT 
CTCCCAATCA TCATCCCTAT CATCGTTTCG TTCATTGTCA TCATCGGAAT AACAGCGCTC 
ATAGTGGTCA ACAAGAAGAG GAATAGTGAC CGCCTGGGGA ATGGGGTTCT GTACGCCTCT 
GTCAATCCTG AGTACTTAAG TGCTGCTGAA ATGTACGTAC CAGATGAGTG GGAGGTGGCA 
CGTGAGAAGA TCACTCTGTG CCGAGAGCTA GGCCAGGGCT CCTTCGGCAT GGTGTACGAG 
GGCGTGGCCA AGGGCGTGGT CAAGGGCGAG GCTGAGACGC GCGTGGCCAT CAAGACGGTC 
AACGAGTCAG CCAGCATGCG CGAGCGCATC GAGTTCCTCA ACGAGGCGTC CGTCATGAAG 
GAGTTCAACT GCCACCACGT GGTACGTCTT CTGGGTGTGG TCTCTCAGGG CCAACCTACA 
TTGGTGATTA TGGAGCTGAT GACCCGTGGA GACCTGAAAA GCCATCTGCG GTCCCTCCGA 
TCCAAAGAGA ATTCCTGCAG CGATACCTTA CCCCCCCTGA AGAAGATGAT CCAGATGGCG 
GGGGAGATCG CGGATGGCAT GGCCTACCTC AACGCCAACA AGTTCGTCCA CAGAGACCTG 
GCTGCCCGGA ACTGCATGGT GGCCGAGGAT TTCACTGTGA AGATTGGAGA TTTCGGAATG 
ACGAGGGACA TTTATGAGAC GGATTACTAC CGCAAAGGGG GCAAAGGGCT TCTGCCGGTG 
CGCTGGATGT CCCCGGAGTC CCTCAAAGAT GGCGTGTTCA CCACCAACTC TGATGTCTGG 
TCGTTCGGGG TGGTGCTGTG GGAGATTGCC ACCCTGGCAG AGCAGCCCTA CCAGGGCATG 
TCCAACGAGC AGGTGCTGCG CTTCGTCATG GACGGGGGCC TGCTGGACAA GCCAGACAAC 
TGCCCCGACA TGCTGTTCGA GTTGATGCGT ATGTGCTGGC AGTACCACCC GAAGGCGAGG 
CCTTCCTTCC TGGAGATAAT CAACGGCATC AAGGACGAGC TGGAGCCGCC CTTCAAGGAA 
GTCAGCTTCT ACTACAGTGA GGAGAACAAG CCCCCAGACA CAGAGGAGCT CGACATCGAG 
CCAGAGAACA TGGAGAACGT GCCCCTGGAT CCAGCGTCCA GTCGACGGCA CGTGGTGGCA 
GCCAGCCAGG GACCCCCGGA TTCCGGGCCA GGCGCTGTCT CCCGCTCTCC AGGACCTGCC 
CGCTCAGCCG GCCTGCCCTC GGACTCTCAC TCAGGACACA CGGTGGCCAA CGGGCCTGTG 
GTGGTTCTGA GGCCCACTTT CGACGAGAAG CAGCCCTATG CGCACATGAA TGGGGGGCGC 
AAAAACGAAC GGGCTCTTCC CCTCCCGCAG TCCTCCGCCT GCTGA