IGF1R cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew)

Gene
Clones
gRNAs

Summary

Gene Symbol	IGF1R
Entrez Gene ID	102863754
Full Name	insulin-like growth factor 1 receptor
Gene Type	protein-coding
Organism	Elephantulus edwardii(Cape elephant shrew)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006900966.1	XP_006901028.1	insulin-like growth factor 1 receptor-like

Pathways from BioSystems
Gene Ontology

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
OEl57044	XM_006900966.1 Latest version!	Elephantulus edwardii insulin-like growth factor 1 receptor (IGF1R), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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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_006900966.1 ) cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew) -> XP_006901028.1 Elephantulus edwardii insulin-like growth factor 1 receptor (IGF1R), mRNA.

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CloneID	OEl57044
Clone ID Related Accession (Same CDS sequence)	XM_006900966.1
Accession Version	XM_006900966.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4206bp) 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	2014-02-17
Organism	Elephantulus edwardii(Cape elephant shrew)
Product	insulin-like growth factor 1 receptor-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006400053.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Elephantulus edwardii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCAG ACGACGCCGA CAGAGCAGCC CGACGCACCT CCGGTTGTCG CCGTCGCGGA 
GCCCTGGGCC GCCGGGCGTG GGGAATTTCG TCCCAAAGCA AAGGAATGAA GTCTGGCTCC 
GGAGGCGGGT CGCTGGCCTG GCTGTGGGCT CTCCTGTCGC TGTGCGCGGT CCTGGCGCTC 
GGGCCGACGC GTGGAGAAAT CTGTGGGCCA GGCATCGATA TCCGGAATGA CTTCCAGCAG 
CTGAAACGCC TGGAGAACTG CACGGTGATT GAGGGCTACC TACACATTCT GCTCATCTCC 
AAGGCCGAGG ACTACCGCAG CTACCGCTTC CCCAAGCTCA CTGTCATCAC TGAGTACTTG 
CTGCTCTTCC GCGTGGCTGG CCTCGAGAGC CTCGGTGATC TGTTCCCGAA CCTCACAGTC 
ATCCGAGGCT GGAAGCTCTT CTACAACTAT GCCCTGGTCA TTTTCGAGAT GACCAACCTC 
AAGGATATTG GACTTTACAA CCTAAGGAAC ATCACACGGG GGGCCATCCG AATTGAGAAA 
AATGCTGACC TCTGTTACCT GTCCACTGTG GACTGGTCCT TGATCCTGGA TGCTGTATCC 
AATAACTACA TTGTGGGCAA CAAGCCTCTG AAGGAGTGTG GTGACCTGTG TCCAGGGACG 
ATGGAGGAGA AGCCATTGTG TGAGAAGACC ACCATCAACA ATGAGTACAA CTATCGCTGC 
TGGACTACTA ATCGCTGTCA GAAAATGTGC CCTAGCGTGT GTGGGAAGCG CGCATGCTCC 
GAGAACAACG AGTGCTGCCA CCCAGAGTGC CTGGGCAGCT GCACCGCACC TGACAATGCC 
ACAGCCTGTG TGGCTTGCCG CCACTTCTAC CACGAGGGCA CCTGCCTCCC CAATTGCCCG 
CCCAACACCT ACAGGTTTGA AGGCTGGCGC TGCGTGGACC GTGACTTTTG TGCCAACATT 
CCCAATGCCG AGAGCACCGA ACCGGAGGGC TTCGTGATCC ACAATGGCGA GTGCTTGCAG 
GAGTGCCCCT CGGGCTTCAT TCGCAATGGG ACCCTCAGCA TGTTCTGCAT CCCTTGTGAA 
GGTCCTTGCC CCAAAGTCTG TGAGGAAAAG AAAACAAAGA CCATTGATTC TGTGACTTCT 
GCGCAAATGC TTCAAGGATG CACCATCTTC AAAGGCAATT TGCTCATTAA TATTCGTCGA 
GGCAACAACA TTGCCTCGGA ACTGGAGAAC TTCATGGGTC TTATCGAGAT TGTTACAGGC 
TACATAAAGA TTCGTCATTC CCATGCCTTA GTCTCCTTGT CCTTCCTGAA GAATCTTCGC 
CAGATTTTAG GAGAGGAGCA GCTAGAAGGG AATTACTCCT TCTATGTCCT TGACAACCAG 
AACCTACAGC AGCTGTGGGA CTGGGAGCAC CGCAACCTGA CCATCAAAGC GGGGAAAATG 
TATTTTGCTT TTAACCCCAA ACTCTGCGTT TCTGAGATTT ATCGTATGGA GGAGGTGACG 
GGGACTAAAG GCCGCCAGAG CAAAGGGGAC ATAAACACGA GGAACAACGG AGAAAGAGCC 
TCCTGTGAGA GTGATGTGCT GCATTTCACC TCCACCAGCA CCTGGAAGAA TCGGATCATC 
ATCACCTGGC ACCGCTACCG GCCTCCTGAC TACAGGGACC TCATCAGCTT CACCGTGTAC 
TACAAGGAGG CTCCTTATAA AAACGTGACC GAGTATGATG GGCAGGATGC CTGTGGCTCC 
AACAGCTGGA ACATGGTGGA CGTGGACTTG CCAACCAACA AGGACATTGA GCCAGGCATC 
TTACTGCATG GACTGAAGCC CTGGACTCAA TACGCTATTT ACGTCAAGGC AGTGACACTC 
ACCATGGTGG AGAACGACCA CATCCGTGGA GCCAAGAGTG AAATACTATA CATTCGCACC 
AATGCCTCAG TTCCTTCCAT TCCGTTGGAT GTTCTGTCAG CATCAAACTC CTCTTCTCAG 
TTGATTGTAA AGTGGAACCC TCCCTCCTTG CCAAATGGGA ATCTGAGTTA CTACATTGTG 
CGGTGGCAGC GGCAGCCCCA GGATAGTTAT CTCTACCGGC ACAATTACTG CTCCAAAGAC 
AAAATCCCCA TCAGGAGGTA TGCTGATGGG ACCATCGACA TTGAGGAGGT GACTGAGAAT 
CCCAAGACGG AGGTGTGTGG TGGTGAGAAA GGGCCTTGCT GCGCCTGCCC CAAAACAGAG 
GCTGAGAAGC AGGCTGAGAA GGAGGAAGCC GAGTACCGCA AAGTCTTTGA GAATTTCCTG 
CACAATGCCA TCTTCATGCC CAGACCTGAA AGGAAGAGAC GGAATGTTAT ACAATTTGTC 
AACACCACCA CATCCAACCG GAGCAGGAAC AACACCGTGG CTGACTACAA TTCAACAGAC 
ACAGAAGAGT TTGAGACAGA GTTCCCCTTC TATGAGAGCA GAGTAGAAAG CAAGGAGAGA 
ACCGTCATTT CAAATCTGCG TCCTTTCACA TTGTACCGCA TTGATATCCA CAGCTGCAAC 
CACGAGGCCG AGAAGCTTGG CTGCAGTGCC TCCAACTTCG TCTTTGCGAG GACAATGCCA 
GCAGAAGGAG CAGATGACAT TCCTGGGCCA GTGACCTGGG AGTCAAGGCC TGAAAACTCA 
GTCTTTCTAA AGTGGTCAGA ACCTGAGAAT CCCAATGGAT TGATATTAAT GTATGAAATA 
AAATATGGAT CACAAGTGGA GGATCAGCGA GAGTGTATTT CCAGACAGGA GTACCGGAAA 
CATGGAGGGG CAAAGCTTAA CCGGCTGAAC CCAGGAAACT ACACAGCCCG GATTCAGGCT 
ACTTCCCTTT CAGGGAATGG GTCATGGACA GACCCCGTGT TCTTCTATGT CCCTACCAAA 
ATAAGACCAT ATGAAAATTT CATCCATCTC ATCATCGCTC TGCCTGTGGC CATCCTGCTG 
GTGGTGGGAG GTTTGGTTAT AATGCTGTAC GTGTGCCACA GAAAGAGAAG TAGCAGCAGG 
CTGGGGAATG GAGTGCTGTA CGCCTCTGTG AACCCCGAGT ACTTCAGTGC AGCTGATGTG 
TATGTTCCAG ATGAGTGGGA GGTTGCTCGA GAGAAGATCA CCATGAACAG AGAGCTTGGG 
CAGGGGTCCT TTGGAATGGT TTATGAAGGT GTTGCGAAGG GTGTGGTTAA AGATGAGCCC 
GAAACAAGGG TGGCCATTAA AACAGTGAAT GAGGCGGCAA GCATGAGAGA AAGGATTGAA 
TTTCTCAATG AGGCTTCAGT GATGAAGGAG TTCAATTGTC ACCATGTGGT GCGATTGTTG 
GGTGTGGTAT CCCAGGGCCA GCCAACGCTG GTCATCATGG AACTGATGAC TCGAGGGGAT 
CTCAAAAGTT ATCTCCGGTC TCTGAGACCG GAAATGGAGA ATAATCCAGT TCTGGCACCT 
CCCAGCCTAA GCAAGATGAT TCAGATGGCA GGCGAGATTG CAGATGGCAT GGCATACCTC 
AATGCCAACA AGTTTGTCCA CAGAGACCTG GCTGCACGGA ACTGCATGGT GGCTGAAGAT 
TTCACCGTCA AAATCGGAGA TTTTGGTATG ACCAGAGATA TCTATGAGAC AGACTATTAC 
CGCAAAGGAG GAAAGGGACT GCTGCCTGTG CGCTGGATGG CTCCTGAGTC ACTCAAGGAC 
GGGGTCTTCA CCACTCATTC TGACGTCTGG TCCTTCGGGG TGGTTCTCTG GGAGATTGCC 
ACTCTGGCCG AGCAGCCATA CCAGGGCCTG TCCAATGAGC AAGTCCTGCG TTTTGTAATG 
GAAGGTGGCC TTCTGGACAA GCCGGACAAC TGCCCCGACA TGCTGTTTGA GCTGATGCGC 
ATGTGCTGGC AGTACAACCC CAAAATGAGG CCTTCCTTCC TAGAGATCAT CAGCAGCATC 
AAAGATGAGA TGGAACCTGG CTTCCGGGAA GTCTCCTTCT ACTACAGTGA GGAGAACAAG 
CCCCCTGAAC CAGAGGAGCT GGATCTGGAG CCGGAGAACA TGGAGAGTGT GCCCCTGGAC 
CCATCTGCAT CCTCCTCCTC GCTCCCGCTG CCGGACAGAC ACTCAGGACA CAAGGCGGAG 
AATGGCCCGG GCCCTGGCGT GCTGGTTCTC CGAGCCAGCT TCGACGAGAG GCAGCCCTAC 
GCACACATGA ATGGGGGCCG CAAGAACGAA CGAGCCCTGC CCCTGCCCCA GTCATCCACC 
TGCTGA

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

RefSeq	XP_006901028.1
CDS	1..4206
Translation	MEADDADRAARRTSGCRRRGALGRRAWGISSQSKGMKSGSGGGSLAWLWALLSLCAVLALGPTRGEICGPGIDIRNDFQQLKRLENCTVIEGYLHILLISKAEDYRSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTVDWSLILDAVSNNYIVGNKPLKECGDLCPGTMEEKPLCEKTTINNEYNYRCWTTNRCQKMCPSVCGKRACSENNECCHPECLGSCTAPDNATACVACRHFYHEGTCLPNCPPNTYRFEGWRCVDRDFCANIPNAESTEPEGFVIHNGECLQECPSGFIRNGTLSMFCIPCEGPCPKVCEEKKTKTIDSVTSAQMLQGCTIFKGNLLINIRRGNNIASELENFMGLIEIVTGYIKIRHSHALVSLSFLKNLRQILGEEQLEGNYSFYVLDNQNLQQLWDWEHRNLTIKAGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLHFTSTSTWKNRIIITWHRYRPPDYRDLISFTVYYKEAPYKNVTEYDGQDACGSNSWNMVDVDLPTNKDIEPGILLHGLKPWTQYAIYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPSLPNGNLSYYIVRWQRQPQDSYLYRHNYCSKDKIPIRRYADGTIDIEEVTENPKTEVCGGEKGPCCACPKTEAEKQAEKEEAEYRKVFENFLHNAIFMPRPERKRRNVIQFVNTTTSNRSRNNTVADYNSTDTEEFETEFPFYESRVESKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWESRPENSVFLKWSEPENPNGLILMYEIKYGSQVEDQRECISRQEYRKHGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVPTKIRPYENFIHLIIALPVAILLVVGGLVIMLYVCHRKRSSSRLGNGVLYASVNPEYFSAADVYVPDEWEVAREKITMNRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPEMENNPVLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMAPESLKDGVFTTHSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKDEMEPGFREVSFYYSEENKPPEPEELDLEPENMESVPLDPSASSSSLPLPDRHSGHKAENGPGPGVLVLRASFDERQPYAHMNGGRKNERALPLPQSSTC

Target ORF information:

RefSeq Version	XM_006900966.1
Organism	Elephantulus edwardii(Cape elephant shrew)
Definition	Elephantulus edwardii 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_006900966.1

ORF Insert Sequence:

ATGGAGGCAG ACGACGCCGA CAGAGCAGCC CGACGCACCT CCGGTTGTCG CCGTCGCGGA 
GCCCTGGGCC GCCGGGCGTG GGGAATTTCG TCCCAAAGCA AAGGAATGAA GTCTGGCTCC 
GGAGGCGGGT CGCTGGCCTG GCTGTGGGCT CTCCTGTCGC TGTGCGCGGT CCTGGCGCTC 
GGGCCGACGC GTGGAGAAAT CTGTGGGCCA GGCATCGATA TCCGGAATGA CTTCCAGCAG 
CTGAAACGCC TGGAGAACTG CACGGTGATT GAGGGCTACC TACACATTCT GCTCATCTCC 
AAGGCCGAGG ACTACCGCAG CTACCGCTTC CCCAAGCTCA CTGTCATCAC TGAGTACTTG 
CTGCTCTTCC GCGTGGCTGG CCTCGAGAGC CTCGGTGATC TGTTCCCGAA CCTCACAGTC 
ATCCGAGGCT GGAAGCTCTT CTACAACTAT GCCCTGGTCA TTTTCGAGAT GACCAACCTC 
AAGGATATTG GACTTTACAA CCTAAGGAAC ATCACACGGG GGGCCATCCG AATTGAGAAA 
AATGCTGACC TCTGTTACCT GTCCACTGTG GACTGGTCCT TGATCCTGGA TGCTGTATCC 
AATAACTACA TTGTGGGCAA CAAGCCTCTG AAGGAGTGTG GTGACCTGTG TCCAGGGACG 
ATGGAGGAGA AGCCATTGTG TGAGAAGACC ACCATCAACA ATGAGTACAA CTATCGCTGC 
TGGACTACTA ATCGCTGTCA GAAAATGTGC CCTAGCGTGT GTGGGAAGCG CGCATGCTCC 
GAGAACAACG AGTGCTGCCA CCCAGAGTGC CTGGGCAGCT GCACCGCACC TGACAATGCC 
ACAGCCTGTG TGGCTTGCCG CCACTTCTAC CACGAGGGCA CCTGCCTCCC CAATTGCCCG 
CCCAACACCT ACAGGTTTGA AGGCTGGCGC TGCGTGGACC GTGACTTTTG TGCCAACATT 
CCCAATGCCG AGAGCACCGA ACCGGAGGGC TTCGTGATCC ACAATGGCGA GTGCTTGCAG 
GAGTGCCCCT CGGGCTTCAT TCGCAATGGG ACCCTCAGCA TGTTCTGCAT CCCTTGTGAA 
GGTCCTTGCC CCAAAGTCTG TGAGGAAAAG AAAACAAAGA CCATTGATTC TGTGACTTCT 
GCGCAAATGC TTCAAGGATG CACCATCTTC AAAGGCAATT TGCTCATTAA TATTCGTCGA 
GGCAACAACA TTGCCTCGGA ACTGGAGAAC TTCATGGGTC TTATCGAGAT TGTTACAGGC 
TACATAAAGA TTCGTCATTC CCATGCCTTA GTCTCCTTGT CCTTCCTGAA GAATCTTCGC 
CAGATTTTAG GAGAGGAGCA GCTAGAAGGG AATTACTCCT TCTATGTCCT TGACAACCAG 
AACCTACAGC AGCTGTGGGA CTGGGAGCAC CGCAACCTGA CCATCAAAGC GGGGAAAATG 
TATTTTGCTT TTAACCCCAA ACTCTGCGTT TCTGAGATTT ATCGTATGGA GGAGGTGACG 
GGGACTAAAG GCCGCCAGAG CAAAGGGGAC ATAAACACGA GGAACAACGG AGAAAGAGCC 
TCCTGTGAGA GTGATGTGCT GCATTTCACC TCCACCAGCA CCTGGAAGAA TCGGATCATC 
ATCACCTGGC ACCGCTACCG GCCTCCTGAC TACAGGGACC TCATCAGCTT CACCGTGTAC 
TACAAGGAGG CTCCTTATAA AAACGTGACC GAGTATGATG GGCAGGATGC CTGTGGCTCC 
AACAGCTGGA ACATGGTGGA CGTGGACTTG CCAACCAACA AGGACATTGA GCCAGGCATC 
TTACTGCATG GACTGAAGCC CTGGACTCAA TACGCTATTT ACGTCAAGGC AGTGACACTC 
ACCATGGTGG AGAACGACCA CATCCGTGGA GCCAAGAGTG AAATACTATA CATTCGCACC 
AATGCCTCAG TTCCTTCCAT TCCGTTGGAT GTTCTGTCAG CATCAAACTC CTCTTCTCAG 
TTGATTGTAA AGTGGAACCC TCCCTCCTTG CCAAATGGGA ATCTGAGTTA CTACATTGTG 
CGGTGGCAGC GGCAGCCCCA GGATAGTTAT CTCTACCGGC ACAATTACTG CTCCAAAGAC 
AAAATCCCCA TCAGGAGGTA TGCTGATGGG ACCATCGACA TTGAGGAGGT GACTGAGAAT 
CCCAAGACGG AGGTGTGTGG TGGTGAGAAA GGGCCTTGCT GCGCCTGCCC CAAAACAGAG 
GCTGAGAAGC AGGCTGAGAA GGAGGAAGCC GAGTACCGCA AAGTCTTTGA GAATTTCCTG 
CACAATGCCA TCTTCATGCC CAGACCTGAA AGGAAGAGAC GGAATGTTAT ACAATTTGTC 
AACACCACCA CATCCAACCG GAGCAGGAAC AACACCGTGG CTGACTACAA TTCAACAGAC 
ACAGAAGAGT TTGAGACAGA GTTCCCCTTC TATGAGAGCA GAGTAGAAAG CAAGGAGAGA 
ACCGTCATTT CAAATCTGCG TCCTTTCACA TTGTACCGCA TTGATATCCA CAGCTGCAAC 
CACGAGGCCG AGAAGCTTGG CTGCAGTGCC TCCAACTTCG TCTTTGCGAG GACAATGCCA 
GCAGAAGGAG CAGATGACAT TCCTGGGCCA GTGACCTGGG AGTCAAGGCC TGAAAACTCA 
GTCTTTCTAA AGTGGTCAGA ACCTGAGAAT CCCAATGGAT TGATATTAAT GTATGAAATA 
AAATATGGAT CACAAGTGGA GGATCAGCGA GAGTGTATTT CCAGACAGGA GTACCGGAAA 
CATGGAGGGG CAAAGCTTAA CCGGCTGAAC CCAGGAAACT ACACAGCCCG GATTCAGGCT 
ACTTCCCTTT CAGGGAATGG GTCATGGACA GACCCCGTGT TCTTCTATGT CCCTACCAAA 
ATAAGACCAT ATGAAAATTT CATCCATCTC ATCATCGCTC TGCCTGTGGC CATCCTGCTG 
GTGGTGGGAG GTTTGGTTAT AATGCTGTAC GTGTGCCACA GAAAGAGAAG TAGCAGCAGG 
CTGGGGAATG GAGTGCTGTA CGCCTCTGTG AACCCCGAGT ACTTCAGTGC AGCTGATGTG 
TATGTTCCAG ATGAGTGGGA GGTTGCTCGA GAGAAGATCA CCATGAACAG AGAGCTTGGG 
CAGGGGTCCT TTGGAATGGT TTATGAAGGT GTTGCGAAGG GTGTGGTTAA AGATGAGCCC 
GAAACAAGGG TGGCCATTAA AACAGTGAAT GAGGCGGCAA GCATGAGAGA AAGGATTGAA 
TTTCTCAATG AGGCTTCAGT GATGAAGGAG TTCAATTGTC ACCATGTGGT GCGATTGTTG 
GGTGTGGTAT CCCAGGGCCA GCCAACGCTG GTCATCATGG AACTGATGAC TCGAGGGGAT 
CTCAAAAGTT ATCTCCGGTC TCTGAGACCG GAAATGGAGA ATAATCCAGT TCTGGCACCT 
CCCAGCCTAA GCAAGATGAT TCAGATGGCA GGCGAGATTG CAGATGGCAT GGCATACCTC 
AATGCCAACA AGTTTGTCCA CAGAGACCTG GCTGCACGGA ACTGCATGGT GGCTGAAGAT 
TTCACCGTCA AAATCGGAGA TTTTGGTATG ACCAGAGATA TCTATGAGAC AGACTATTAC 
CGCAAAGGAG GAAAGGGACT GCTGCCTGTG CGCTGGATGG CTCCTGAGTC ACTCAAGGAC 
GGGGTCTTCA CCACTCATTC TGACGTCTGG TCCTTCGGGG TGGTTCTCTG GGAGATTGCC 
ACTCTGGCCG AGCAGCCATA CCAGGGCCTG TCCAATGAGC AAGTCCTGCG TTTTGTAATG 
GAAGGTGGCC TTCTGGACAA GCCGGACAAC TGCCCCGACA TGCTGTTTGA GCTGATGCGC 
ATGTGCTGGC AGTACAACCC CAAAATGAGG CCTTCCTTCC TAGAGATCAT CAGCAGCATC 
AAAGATGAGA TGGAACCTGG CTTCCGGGAA GTCTCCTTCT ACTACAGTGA GGAGAACAAG 
CCCCCTGAAC CAGAGGAGCT GGATCTGGAG CCGGAGAACA TGGAGAGTGT GCCCCTGGAC 
CCATCTGCAT CCTCCTCCTC GCTCCCGCTG CCGGACAGAC ACTCAGGACA CAAGGCGGAG 
AATGGCCCGG GCCCTGGCGT GCTGGTTCTC CGAGCCAGCT TCGACGAGAG GCAGCCCTAC 
GCACACATGA ATGGGGGCCG CAAGAACGAA CGAGCCCTGC CCCTGCCCCA GTCATCCACC 
TGCTGA