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
OWi52832	XM_027877987.1 Latest version!	Empidonax traillii 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_027877987.1 ) cDNA ORF clone, -> XP_027733788.1 Empidonax traillii insulin like growth factor 1 receptor (IGF1R), mRNA.

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CloneID	OWi52832
Clone ID Related Accession (Same CDS sequence)	XM_027877987.1
Accession Version	XM_027877987.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4038bp) 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	2019-01-23
Organism	Empidonax traillii(willow flycatcher)
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_020955229.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Empidonax traillii 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTGGCTGC AGCCCCGCTC TGCTCACATG AACCACGTTT GCGGGCCAAA CGTCGACATT 
CGCAACGACA TCCACGAGCT CAAGCGCCTG GAGAACTGCA CGGTGATCGA GGGGTTCCTG 
CAGATCCTGC TCATCTCCAA AGCAGAGGAT TACCGCAACT TCCGCTTCCC AAAGCTCACC 
GTCATCACCG ACTACCTGCT GCTGTTCCGT GTGGCGGGCC TGGAGAGCCT CAGCGATCTC 
TTCCCCAACC TCACCGTCAT CCGGGGCAGG AACCTCTTCT ACAACTACGC CTTGGTGATC 
TTCGAGATGA CGAACCTCAA AGAGATCGGG CTCCACAACC TGAGGAACAT CACCCGCGGC 
GCCATTCGCA TCGAGAAGAA CTCCGACCTG TGTTACCTCT CCACGGTGGA CTGGTCTCTC 
ATCCTAGATG CAGTGTCCAA CAACTACATC GTTGGGAATA AACCTCCGAA GGAATGCGGG 
GACTTGTGCC CGGGAACGAT GGAAGAGAAG CCGCTGTGCG AGAAGACATC CATTAACAAT 
GAGTACAACT ACCGCTGCTG GACCACCAAC CACTGCCAGA AAATGTGCCC CAGCTCGTGT 
GGGAAGCGAG CCTGCACGGA CCAGAACGAG TGTTGCCACC CCGAGTGCCT GGGGAGCTGC 
ACGGCCCCGG ACAACAACAC GGCGTGCGTG GCCTGCCGCA ACTACTACTA CGAGGGGGTC 
TGCATGCCCA CCTGCCCCCC CAACACGTAC AAGTTCGAGG GCTGGCGCTG CGTCACCAGG 
GAGTTCTGCT CCAAGGTCCC CGCCACGGAT GCCAGTGAGT ACGAGAAGTT CGTGATCCAC 
AACGACGAGT GCATGGCCGA GTGTCCCTCC GGGTTCATCC GCAACGGCAG CCAGAGCAGC 
ATGTTCTGCA GCCCTTGTGA GGGGCCCTGC CCCAAAATCT GTGAGGATGG GAAGACGAAG 
ACCATTGACT CTGTCACATC AGCACAGATG TTGCAGGGCT GCACAATCCT CAAGGGGAAC 
CTGCTGATCA ACATCCGCCG TGGCAATAAC ATCGCCTCAG AACTGGAGAA TTTTATGGGG 
CTGATTGAGA CGGTAACGGG GTACGTGAAG ATCCGTCATT CCCATGCTTT GGTCTCCCTG 
TCTTTCCTGA AGAACCTGCG GTATATTCTG GGAGAGGAAC AGGTGGACGG GAATTATTCC 
TTCTACGTGC TTGACAACCA CAATCTTCAG CAGCTCTGGG ACTGGAACCA CCATAACCTG 
ACGATCAGTG AGGGGAAAAT GTACTTTGCA TTTAATCCTA AACTGTGTGT TTCTGAGATT 
TACCGCATGG AGGAAGTTTC AGGAACCAAG GGACGACAGA GCAAAGGAGA TATAAATCCA 
AGGAACAATG GGGAGAGAGC CTCTTGTGAA AGCAAAATTC TGCATTTTGT TTCCAACACT 
ACCCTCAAGA ACCGGATTAA ACTGACGTGG GAGCGGTATC GGCCTCCAGA TTACAGAGAC 
CTCATCAGCT TCACTGTGTA CTACAAAGAA GCACCATTCA AAAATGTGAC AGAGTACGAC 
GGGCAAGATG CGTGTGGCTC CAACAGCTGG AACATGGTTG ATGTTGACCT GCCACCGAAC 
AAAGAGAACA ATCCTGGAAT CCTGCTGCAG GGGTTGAAAC CTTGGACTCA GTATGCCATT 
TATGTCAAGG CTGTTACCCT CACCATGATG GAAAACCATC ATATTCACGG AGCAAAAAGT 
GAAATCATCT ACATACGAAC CAACGCTGCG GTGCCATCCA TTCCCTTGGA TGTTATTTCG 
GCATCCAACT CCTCATCCCA GCTGATTGTG AAATGGAATC CTCCCTCTCT TCCCAATGGC 
AACCTCTCCT ACTACATCGT GCGCTGGCAG CAGCAGCCTC AGGACAGTTA CCTCTACAGA 
CACAATTACT GCTCCAAAGA CAAAGTCCCA ATTCGAAGAT ACGCTGATGG GACCATTGAT 
ACAGAAGAAG CGACTGAGCC CACCAAGCCA GAGGGCTGTG GGGGGGAAAA AGGACCTTGT 
TGTGCTTGTC CCAAGACAGA GGCGGAAAAG CAAGCTGAGA AGGAGGAAGC AGAGTACCGC 
AAAGTCTTTG AGAACTTCCT TCACAACTCC ATCTTTGTCC CTAGGCCCGA CCGCAAGCGG 
AGGGACGTGT TCCGGATCGC GAACGCCACT CTGGCCGCTC GGAACAGGAA CGTGACGGGG 
ACAGATCACT TCGCCAACGC CTCTGACGCC GAGGAGAGCG AGGTGGAGTA CCCCTTCTTC 
GAGACCAAGG TGGATGGCAA GGAGAGAACC GTCATCTCCC ACCTCCAGCC TTTTACCCTT 
TACCGCATCG ACATTCACAG CTGCAACCAC GAGGCCGACA CGCTCGGCTG CAGCGCTTCC 
AACTTCGTCT TTGCCAGAAC CATGCCCTCA GAGGGAGCAG ATAACATTCC AGGAACGGTA 
TCATGGGAAG CAAAAGAGGA AAATACCGTC TACCTGAAGT GGTCAGAGCC TGCAAGTCCA 
AATGGGCTCA TCCTGATGTA TGAAATCAAG TATGGGCAGC AGGGAGAGGA GAAGCGGGAA 
TGTGTTTCCA GACAGGAATA CAAGAAGCTT GGAGGAGCTA AACTAACTCA CCTGAACCCT 
GGGAACTATT CTGCCAGAGT TCAGGCCACG TCCTTGGCTG GAAATGGGTC CTGGACTGAG 
CCAATCTCTT TCTACGTGCA GCCCAAATCA GCAAACTATG GAAATTTCCT GCACTTGGTA 
ATTGTGCTCC CTCTTGCTCT GCTGCTCATC ATTGGGGGAT TGCTGACAAT GCTGTATGTC 
TTTAACAAAA AGAGGAACAG TGACAGACTG GGCAATGGAG TACTTTATGC CTCTGTGAAC 
CCCGAGTACT TCAGTGCCTC AGATGTGTAT GTTCCAGATG AGTGGGAGGT GCCCCGTGAG 
AAGATCACCA TGTGTCGGGA GCTGGGGCAG GGCTCCTTTG GAATGGTGTA CGAGGGAATA 
GCCAAGGGAG TGGTGAAGGA TGAGCCGGAG ACCAGGGTGG CCATCAAGAC TGTCAATGAG 
TCTGCCAGCA TGAGGGAGAG GATCGAGTTC CTCAACGAGG CCTCGGTGAT GAAGGAGTTC 
AACTGTCACC ACGTGGTTCG GCTGCTTGGT GTTGTTTCTC AGGGCCAGCC CACGCTGGTT 
ATCATGGAGC TGATGACACG TGGGGACCTC AAAAGTTACC TGAGATCATT GAGGCCAGAT 
ACAGAGAACA ACCCCGGGCA GGCCCCTCCG ACCCTGAAGA AGATGATCCA GATGGCGGGG 
GAGATCGCGG ACGGGATGGC CTATCTCAAC GCCAACAAGT TCGTGCACAG AGACCTGGCT 
GCCAGGAACT GCATGGTGGC AGAAGACTTC ACAGTGAAAA TCGGAGATTT TGGCATGACA 
AGAGATATCT ACGAGACAGA TTATTACCGG AAAGGAGGGA AGGGGTTGCT GCCTGTCCGC 
TGGATGTCCC CAGAGTCCCT GAAAGATGGA GTCTTCACAA CCCACTCCGA CGTCTGGTCG 
TTCGGGGTGG TGCTGTGGGA GATCGCGACG CTGGCGGAGC AGCCGTACCA GGGCATGACC 
AACGAGCAGG TGCTTCGCTT CGTGATGGAG GGGGGGCTGC TGGAGAAACC AGACAACTGC 
CCTGACATGC TGTTTGAACT GATGCGCATG TGCTGGCAGT ACAACCCGAA AATGAGACCC 
TCCTTCCTGG AAATCATCGG TAGCATCAAA GACGAGCTGG ACCCAGCCTT CAAAGAGGTC 
TCCTTCTTCT ACAGCGAGGA GAACAAGCCT CCGGACACAG AGGAGCTTGA CCTGGAGACT 
GAGAACATGG AGAGCATTCC TTTAGATCCC TCCTCCACCC TCCAACCCAC TGACAAGCAC 
TCAGGACACA AAGCCGAGAA CGGCCCCGGC GTGGTGGTGC TCCGGGCCAG CTTCGAGGAG 
CGACAGCCGT ACGCGCACAT GAACGGGGGC CGCAAGAACG AGAGGGCCCT GCCCCTGCCC 
CAGTCGTCGG CCTGCTGA

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

RefSeq	XP_027733788.1
CDS	1..4038
Translation	MWLQPRSAHMNHVCGPNVDIRNDIHELKRLENCTVIEGFLQILLISKAEDYRNFRFPKLTVITDYLLLFRVAGLESLSDLFPNLTVIRGRNLFYNYALVIFEMTNLKEIGLHNLRNITRGAIRIEKNSDLCYLSTVDWSLILDAVSNNYIVGNKPPKECGDLCPGTMEEKPLCEKTSINNEYNYRCWTTNHCQKMCPSSCGKRACTDQNECCHPECLGSCTAPDNNTACVACRNYYYEGVCMPTCPPNTYKFEGWRCVTREFCSKVPATDASEYEKFVIHNDECMAECPSGFIRNGSQSSMFCSPCEGPCPKICEDGKTKTIDSVTSAQMLQGCTILKGNLLINIRRGNNIASELENFMGLIETVTGYVKIRHSHALVSLSFLKNLRYILGEEQVDGNYSFYVLDNHNLQQLWDWNHHNLTISEGKMYFAFNPKLCVSEIYRMEEVSGTKGRQSKGDINPRNNGERASCESKILHFVSNTTLKNRIKLTWERYRPPDYRDLISFTVYYKEAPFKNVTEYDGQDACGSNSWNMVDVDLPPNKENNPGILLQGLKPWTQYAIYVKAVTLTMMENHHIHGAKSEIIYIRTNAAVPSIPLDVISASNSSSQLIVKWNPPSLPNGNLSYYIVRWQQQPQDSYLYRHNYCSKDKVPIRRYADGTIDTEEATEPTKPEGCGGEKGPCCACPKTEAEKQAEKEEAEYRKVFENFLHNSIFVPRPDRKRRDVFRIANATLAARNRNVTGTDHFANASDAEESEVEYPFFETKVDGKERTVISHLQPFTLYRIDIHSCNHEADTLGCSASNFVFARTMPSEGADNIPGTVSWEAKEENTVYLKWSEPASPNGLILMYEIKYGQQGEEKRECVSRQEYKKLGGAKLTHLNPGNYSARVQATSLAGNGSWTEPISFYVQPKSANYGNFLHLVIVLPLALLLIIGGLLTMLYVFNKKRNSDRLGNGVLYASVNPEYFSASDVYVPDEWEVPREKITMCRELGQGSFGMVYEGIAKGVVKDEPETRVAIKTVNESASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPDTENNPGQAPPTLKKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTHSDVWSFGVVLWEIATLAEQPYQGMTNEQVLRFVMEGGLLEKPDNCPDMLFELMRMCWQYNPKMRPSFLEIIGSIKDELDPAFKEVSFFYSEENKPPDTEELDLETENMESIPLDPSSTLQPTDKHSGHKAENGPGVVVLRASFEERQPYAHMNGGRKNERALPLPQSSAC

Target ORF information:

RefSeq Version	XM_027877987.1
Organism	Empidonax traillii(willow flycatcher)
Definition	Empidonax traillii 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_027877987.1

ORF Insert Sequence:

ATGTGGCTGC AGCCCCGCTC TGCTCACATG AACCACGTTT GCGGGCCAAA CGTCGACATT 
CGCAACGACA TCCACGAGCT CAAGCGCCTG GAGAACTGCA CGGTGATCGA GGGGTTCCTG 
CAGATCCTGC TCATCTCCAA AGCAGAGGAT TACCGCAACT TCCGCTTCCC AAAGCTCACC 
GTCATCACCG ACTACCTGCT GCTGTTCCGT GTGGCGGGCC TGGAGAGCCT CAGCGATCTC 
TTCCCCAACC TCACCGTCAT CCGGGGCAGG AACCTCTTCT ACAACTACGC CTTGGTGATC 
TTCGAGATGA CGAACCTCAA AGAGATCGGG CTCCACAACC TGAGGAACAT CACCCGCGGC 
GCCATTCGCA TCGAGAAGAA CTCCGACCTG TGTTACCTCT CCACGGTGGA CTGGTCTCTC 
ATCCTAGATG CAGTGTCCAA CAACTACATC GTTGGGAATA AACCTCCGAA GGAATGCGGG 
GACTTGTGCC CGGGAACGAT GGAAGAGAAG CCGCTGTGCG AGAAGACATC CATTAACAAT 
GAGTACAACT ACCGCTGCTG GACCACCAAC CACTGCCAGA AAATGTGCCC CAGCTCGTGT 
GGGAAGCGAG CCTGCACGGA CCAGAACGAG TGTTGCCACC CCGAGTGCCT GGGGAGCTGC 
ACGGCCCCGG ACAACAACAC GGCGTGCGTG GCCTGCCGCA ACTACTACTA CGAGGGGGTC 
TGCATGCCCA CCTGCCCCCC CAACACGTAC AAGTTCGAGG GCTGGCGCTG CGTCACCAGG 
GAGTTCTGCT CCAAGGTCCC CGCCACGGAT GCCAGTGAGT ACGAGAAGTT CGTGATCCAC 
AACGACGAGT GCATGGCCGA GTGTCCCTCC GGGTTCATCC GCAACGGCAG CCAGAGCAGC 
ATGTTCTGCA GCCCTTGTGA GGGGCCCTGC CCCAAAATCT GTGAGGATGG GAAGACGAAG 
ACCATTGACT CTGTCACATC AGCACAGATG TTGCAGGGCT GCACAATCCT CAAGGGGAAC 
CTGCTGATCA ACATCCGCCG TGGCAATAAC ATCGCCTCAG AACTGGAGAA TTTTATGGGG 
CTGATTGAGA CGGTAACGGG GTACGTGAAG ATCCGTCATT CCCATGCTTT GGTCTCCCTG 
TCTTTCCTGA AGAACCTGCG GTATATTCTG GGAGAGGAAC AGGTGGACGG GAATTATTCC 
TTCTACGTGC TTGACAACCA CAATCTTCAG CAGCTCTGGG ACTGGAACCA CCATAACCTG 
ACGATCAGTG AGGGGAAAAT GTACTTTGCA TTTAATCCTA AACTGTGTGT TTCTGAGATT 
TACCGCATGG AGGAAGTTTC AGGAACCAAG GGACGACAGA GCAAAGGAGA TATAAATCCA 
AGGAACAATG GGGAGAGAGC CTCTTGTGAA AGCAAAATTC TGCATTTTGT TTCCAACACT 
ACCCTCAAGA ACCGGATTAA ACTGACGTGG GAGCGGTATC GGCCTCCAGA TTACAGAGAC 
CTCATCAGCT TCACTGTGTA CTACAAAGAA GCACCATTCA AAAATGTGAC AGAGTACGAC 
GGGCAAGATG CGTGTGGCTC CAACAGCTGG AACATGGTTG ATGTTGACCT GCCACCGAAC 
AAAGAGAACA ATCCTGGAAT CCTGCTGCAG GGGTTGAAAC CTTGGACTCA GTATGCCATT 
TATGTCAAGG CTGTTACCCT CACCATGATG GAAAACCATC ATATTCACGG AGCAAAAAGT 
GAAATCATCT ACATACGAAC CAACGCTGCG GTGCCATCCA TTCCCTTGGA TGTTATTTCG 
GCATCCAACT CCTCATCCCA GCTGATTGTG AAATGGAATC CTCCCTCTCT TCCCAATGGC 
AACCTCTCCT ACTACATCGT GCGCTGGCAG CAGCAGCCTC AGGACAGTTA CCTCTACAGA 
CACAATTACT GCTCCAAAGA CAAAGTCCCA ATTCGAAGAT ACGCTGATGG GACCATTGAT 
ACAGAAGAAG CGACTGAGCC CACCAAGCCA GAGGGCTGTG GGGGGGAAAA AGGACCTTGT 
TGTGCTTGTC CCAAGACAGA GGCGGAAAAG CAAGCTGAGA AGGAGGAAGC AGAGTACCGC 
AAAGTCTTTG AGAACTTCCT TCACAACTCC ATCTTTGTCC CTAGGCCCGA CCGCAAGCGG 
AGGGACGTGT TCCGGATCGC GAACGCCACT CTGGCCGCTC GGAACAGGAA CGTGACGGGG 
ACAGATCACT TCGCCAACGC CTCTGACGCC GAGGAGAGCG AGGTGGAGTA CCCCTTCTTC 
GAGACCAAGG TGGATGGCAA GGAGAGAACC GTCATCTCCC ACCTCCAGCC TTTTACCCTT 
TACCGCATCG ACATTCACAG CTGCAACCAC GAGGCCGACA CGCTCGGCTG CAGCGCTTCC 
AACTTCGTCT TTGCCAGAAC CATGCCCTCA GAGGGAGCAG ATAACATTCC AGGAACGGTA 
TCATGGGAAG CAAAAGAGGA AAATACCGTC TACCTGAAGT GGTCAGAGCC TGCAAGTCCA 
AATGGGCTCA TCCTGATGTA TGAAATCAAG TATGGGCAGC AGGGAGAGGA GAAGCGGGAA 
TGTGTTTCCA GACAGGAATA CAAGAAGCTT GGAGGAGCTA AACTAACTCA CCTGAACCCT 
GGGAACTATT CTGCCAGAGT TCAGGCCACG TCCTTGGCTG GAAATGGGTC CTGGACTGAG 
CCAATCTCTT TCTACGTGCA GCCCAAATCA GCAAACTATG GAAATTTCCT GCACTTGGTA 
ATTGTGCTCC CTCTTGCTCT GCTGCTCATC ATTGGGGGAT TGCTGACAAT GCTGTATGTC 
TTTAACAAAA AGAGGAACAG TGACAGACTG GGCAATGGAG TACTTTATGC CTCTGTGAAC 
CCCGAGTACT TCAGTGCCTC AGATGTGTAT GTTCCAGATG AGTGGGAGGT GCCCCGTGAG 
AAGATCACCA TGTGTCGGGA GCTGGGGCAG GGCTCCTTTG GAATGGTGTA CGAGGGAATA 
GCCAAGGGAG TGGTGAAGGA TGAGCCGGAG ACCAGGGTGG CCATCAAGAC TGTCAATGAG 
TCTGCCAGCA TGAGGGAGAG GATCGAGTTC CTCAACGAGG CCTCGGTGAT GAAGGAGTTC 
AACTGTCACC ACGTGGTTCG GCTGCTTGGT GTTGTTTCTC AGGGCCAGCC CACGCTGGTT 
ATCATGGAGC TGATGACACG TGGGGACCTC AAAAGTTACC TGAGATCATT GAGGCCAGAT 
ACAGAGAACA ACCCCGGGCA GGCCCCTCCG ACCCTGAAGA AGATGATCCA GATGGCGGGG 
GAGATCGCGG ACGGGATGGC CTATCTCAAC GCCAACAAGT TCGTGCACAG AGACCTGGCT 
GCCAGGAACT GCATGGTGGC AGAAGACTTC ACAGTGAAAA TCGGAGATTT TGGCATGACA 
AGAGATATCT ACGAGACAGA TTATTACCGG AAAGGAGGGA AGGGGTTGCT GCCTGTCCGC 
TGGATGTCCC CAGAGTCCCT GAAAGATGGA GTCTTCACAA CCCACTCCGA CGTCTGGTCG 
TTCGGGGTGG TGCTGTGGGA GATCGCGACG CTGGCGGAGC AGCCGTACCA GGGCATGACC 
AACGAGCAGG TGCTTCGCTT CGTGATGGAG GGGGGGCTGC TGGAGAAACC AGACAACTGC 
CCTGACATGC TGTTTGAACT GATGCGCATG TGCTGGCAGT ACAACCCGAA AATGAGACCC 
TCCTTCCTGG AAATCATCGG TAGCATCAAA GACGAGCTGG ACCCAGCCTT CAAAGAGGTC 
TCCTTCTTCT ACAGCGAGGA GAACAAGCCT CCGGACACAG AGGAGCTTGA CCTGGAGACT 
GAGAACATGG AGAGCATTCC TTTAGATCCC TCCTCCACCC TCCAACCCAC TGACAAGCAC 
TCAGGACACA AAGCCGAGAA CGGCCCCGGC GTGGTGGTGC TCCGGGCCAG CTTCGAGGAG 
CGACAGCCGT ACGCGCACAT GAACGGGGGC CGCAAGAACG AGAGGGCCCT GCCCCTGCCC 
CAGTCGTCGG CCTGCTGA