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
ORe41809	XM_028822633.1 Latest version!	Erpetoichthys calabaricus 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_028822633.1 ) cDNA ORF clone, -> XP_028678466.1 Erpetoichthys calabaricus insulin like growth factor 1 receptor (igf1r), mRNA.

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CloneID	ORe41809
Clone ID Related Accession (Same CDS sequence)	XM_028822633.1
Accession Version	XM_028822633.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4164bp) 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	2019-04-20
Organism	Erpetoichthys calabaricus(reedfish)
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_041410.1) 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 :: Erpetoichthys calabaricus 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##

ATGAGGTCTG GGTTAGAGAA GAAATCCATG ACCTTGTTGT GGGGTCTTCT GCTGTTAGTC 
TCCATGATTT GTCTGTGGCC GGCCAACGGA GAAATTTGTG GCCCAGACAT TGACATTCGC 
AATGACATCC ATGAGCTGAA GAAGCTGGAG AACTGCACAG TGATTGAGGG TTACCTTCAG 
ATCCTGCTCA TCTCTCATGT CAAGGCGGAG GACTTCCGTA ACCTGCGCTT CCCCAAGCTG 
ACACTCATTA CTGACTACCT GCTGCTGTTC AGAGTTTCTG GTTTGGAAAG CCTGCGTGAC 
CTGTTTCCCA ATCTGACTGT GATCCGTGGC CGCAGCCTCT TTTACAACTA TGCTCTTGTC 
ATCTTTGAGA TGACTAACTT GAAGGACATT GGCCTGTTCA ACCTGCGCAA CATCACACGA 
GGTTCAATCC GAATTGAGAA AAACCCTGAT CTCTGCTACC TGGACTCTGT GGACTGGTCT 
CTCATCCTGG ATGCTGACTA TAATAATTTC ATCTCTGGGA ACAAGCAGTC AAAAGAGTGT 
GGGGATGTTT GTCCTGGAAT CATGGAAGAA AACCCTCTCT GCTTCAAGAC TAGCATTAAT 
GATGTCTACA ACTACCGGTG CTGGACTTCA AACCACTGCC AGAAAGTGTG TCCAAGTGAA 
TGTGGAAGGC GTGCCTGTAC TGATTCCAAT GAGTGTTGCC ACCCAGAATG CCTTGGTAGC 
TGCATGATGC CTGACAATGA CACTGCCTGC ATGGCCTGCC TCCATTATTA CCATGAGGGT 
CGCTGCGTTC CTACCTGCCC ACCAGACACA TACCGTTTTT ATGGCTGGCG CTGTGTCAGC 
AAAGAGTTCT GCTCCAAGGT GCCTGCTTCC ATGCCCAATG AGTTTGAAAT GTTTGTTATC 
CACAATGGAG AATGTGTGCA AGAATGCCCT TCCGGGTTTA TGCGTAATGA GAGCCAAAGC 
ATGTTCTGCA GCCCATGTGA TGGGCCATGC CACAAAATCT GCTTTGGAGA AAAGGCAATA 
GATTCTGTCA CAGCTGCCCA GTCCATGGAA GGCTGCACAT TTGTCAAAGG ACATCTGACT 
ATTAATATTC GCAGAGGAAA TAACATTGCT GCAGAACTGG AAGCTTTCAT GGGTCTGATA 
GAAACTGTCA CTGGCTACGT ATCAATTCGT CATTCACACG CACTCTCGTC CCTTTCATTT 
TTGAAGAATT TACGTTATAT TAATGGAGAA CAGCAGCTTG AAGGAAATTA CTCTTTTTAT 
GTTTGGGACA ACCAAAACCT TCAACAACTC TGGGACTGGA AGCACCATGT CTTAACTATC 
AAAGAAGGAA AACTCTACTT TTCTTCTAAC CCTAAGCTGT GCCTGTCTGA GATTTATACC 
ATGCAGAAAG TGACTGGGCG TCAGGGGGCA GGAGACATCA ACACACATAC GAATGGAGCA 
AGAGCTTCTT GTGAGAGCCA TATTCTCAAG TTCAAGACTA TTACGACCTT CAAGAACAGA 
ATCATACTAA CCTGGGAGCG ATACCGACCC CTTGATTATA GAGACTTGAT CAGCTTTATA 
GTGTACTTTA AGGAAGCACC CTTTAAAAAC ATTACAGATT ATGATGGTCA GGATGGCTGT 
GGAACAAACA GCTGGAATAT GGTGGATGTG GATTTGCCCA AGGAAAAGAA CAAGGATCCT 
GGCATTCTGC TAAGTGGTCT CACTCCCTGG ACTCAGTATG CAATATTTGT CAAGGCAGTC 
ACCCTGACTG ATTTACATAT CTATGGAGCA AAGAGTGAAG TGATTTATGT TCGCACTAGT 
GCAGCAGTGC CTTCAATTCC TTTAGATGTA CGATCCTATT CCAACTCTTC ATCAAAGCTG 
CTAGTGAAGT GGTCTCCCCC AACTCATCCT AATGGAAACT TAACCTACTA CTTCATGCGT 
TGGCAGCAGC AGCCAGAGGA CAAGGACCTT TATCTTCACA ACTACTGTTC TAAGGAACTG 
AAAACGCCTG TTAGGATACC TGCAAATGGG GCTATTGATG CTGAAGAGGA TTTGAAGCCT 
ACCAAGTCAG ACACACAAAC AGGGGACAAG GGCTCCTGTT GCCCTTGTCC TAAAACAGTG 
GCAGAGATTG AAAAAGAAGC AGAGGATGCC TCCTATCGCA AAGCCTTTGA GAACTTCCTA 
CACAACTCAA TTTTTGTGCC CAGGCCACCT GACCGTCGAC GGAGGGACTT ATTCGCAGTG 
ACCAATGCAA GCATGCTTCA CAGTATGGAT GGTAACACAA CATTACAAGA TCTGGGCAGC 
AACTCTACTG ATACAGAATT CAGAGATCGT GAGTACCCAG TTTATGAGGC CAAGGTTGAT 
GGAAAGGAGT CAACAGAAAT TTCACATCTG CAGCCATTCA CTGTGTACCG CATCGATATC 
CATGCATGTA ACCATGATGC AGAACGGGGC TGCAGTGCTG CCAACTTTGT CTACGCAAGA 
ACCAAACCAG CAGACAAAGC AGATGACATT CCTGGACTTG TAAATTGGGC AGCCGGAGAA 
GATAATAGTG TTTACCTCAG GTGGGATGAG CCCGTCAATC CTAATGGACT CATCTTAATG 
TATGAGGTTA AATATCGGCA AAACTCAGAG GAGAAAATTG AGTGTATTTC TAGGCGACAC 
TACAGAGATC ATAAGGGGGC CAAGCTTACA AATCTGGGAC CAGGAAACTA CTCTGCTAGG 
GTTCGGGCTA CCTCCCTAGC TGGAAATGGA TCTTGGACTG ATTTTGTAGC CTTCTATGTA 
CAGTCAAAAC CACCAGAGTA TGAAAACATT CTGTATCTTG TAATCATCCT TCCTATTGTG 
CTGTCTATAT TTGCTGGAGT TATCATTGCT CTGTGCATCT TTAATCGAAA ACGAAACAGT 
GACAGACTTG GTAATGGAGT ATTATATGCC TCAGTCAATC CAGAGTACTT CAGTGCAACT 
GAAATGTATG TACCTGATGA ATGGGAGGTT CCAAGAGAAA AGATCACCAT GTGTCGAGAG 
CTTGGACAAG GATCTTTTGG AATGGTGTAT GAGGGCATAG CTAAGGGTGT GGTAAGGGAT 
GAGCCAGAAA CCCGAGTGGC CATTAAGACT GTCAATGAGA CCGCCAGCAT GAGAGAACGA 
ATTGAGTTCC TCAATGAAGC CTCTGTCATG AAGGAGTTTA ACTGCCATCA TGTTGTGCGC 
TTACTTGGCG TGGTGTCCCA GGGCCAGCCA ACACTGGTGA TTATGGAGCT TATGACTCGT 
GGAGACCTCA AAAGCCACTT GAGATCACTT CGTTCTGATA CAAAGGACAG CACTGGCTTG 
TCCCTGCCTT CATTAAAGAA AATGATTCAA ATGGCAGGGG AGATTGCAGA TGGCATGGCC 
TACCTCAATG CCAATAAATT TGTACACAGA GATCTTGCGG CTAGGAACTG CATGGTAGCA 
GAAGATTTTA CTGTGAAAAT TGGAGATTTT GGCATGACAA GGGATATCTA TGAAACGGAT 
TACTACCGCA AAGGAGGAAA GGGCTTGTTG CCAGTACGAT GGATGTCCCC AGAGTCACTC 
AAAGATGGAG TTTTTACAAC CAACTCAGAT GTCTGGTCTT TTGGAGTGGT GTTATGGGAG 
ATTGCTACTT TAGCAGAACA GCCTTACCAA GGGATGTCCA ATGAACAAGT GCTACGCTTT 
GTAATGGATG GAGGGTTGCT GGACAAACCT GAAAATTGTC CAGACATGCT GTTTGAGCTT 
ATGCGCATGT GCTGGCTTTA CAACCCCAAG ATGAGACCCT CTTTTCTGGA GATAATCAAT 
AGTATCAAAG ACGAGCTGGA GCCACAGTTC CGGGAGGTTT CCTTTTTCTA CAGTGATGAG 
AATAAACCTC CAGACACTGA GGAGCTTGAC CTAGAAGCAG AGAACATGGA GAGTATGCCA 
TTGGACCCTT CATCCAGTCT GCAGCCTGTT ATACAGCCTT CACCACCACC ACAGCCCCCT 
TCAGCCTCGG GAGCCACTGC CCCCTCCACC TCCCCTTCCT GCTCCTCTGG CGTTACACTT 
GACAAGCACT CGGGACACAA AGCTGCCAAT GGGCCAGTGG TGTTACTGCG GGCCAATTTC 
GATGAGACAC AGCGGTATGC GCATATGAAT GGGGGGCGCA AGAATGAGCG CAGCTCACCT 
CTGCCCCAGT CATCTGCCTG CTGA

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

RefSeq	XP_028678466.1
CDS	1263..5426
Translation	MRSGLEKKSMTLLWGLLLLVSMICLWPANGEICGPDIDIRNDIHELKKLENCTVIEGYLQILLISHVKAEDFRNLRFPKLTLITDYLLLFRVSGLESLRDLFPNLTVIRGRSLFYNYALVIFEMTNLKDIGLFNLRNITRGSIRIEKNPDLCYLDSVDWSLILDADYNNFISGNKQSKECGDVCPGIMEENPLCFKTSINDVYNYRCWTSNHCQKVCPSECGRRACTDSNECCHPECLGSCMMPDNDTACMACLHYYHEGRCVPTCPPDTYRFYGWRCVSKEFCSKVPASMPNEFEMFVIHNGECVQECPSGFMRNESQSMFCSPCDGPCHKICFGEKAIDSVTAAQSMEGCTFVKGHLTINIRRGNNIAAELEAFMGLIETVTGYVSIRHSHALSSLSFLKNLRYINGEQQLEGNYSFYVWDNQNLQQLWDWKHHVLTIKEGKLYFSSNPKLCLSEIYTMQKVTGRQGAGDINTHTNGARASCESHILKFKTITTFKNRIILTWERYRPLDYRDLISFIVYFKEAPFKNITDYDGQDGCGTNSWNMVDVDLPKEKNKDPGILLSGLTPWTQYAIFVKAVTLTDLHIYGAKSEVIYVRTSAAVPSIPLDVRSYSNSSSKLLVKWSPPTHPNGNLTYYFMRWQQQPEDKDLYLHNYCSKELKTPVRIPANGAIDAEEDLKPTKSDTQTGDKGSCCPCPKTVAEIEKEAEDASYRKAFENFLHNSIFVPRPPDRRRRDLFAVTNASMLHSMDGNTTLQDLGSNSTDTEFRDREYPVYEAKVDGKESTEISHLQPFTVYRIDIHACNHDAERGCSAANFVYARTKPADKADDIPGLVNWAAGEDNSVYLRWDEPVNPNGLILMYEVKYRQNSEEKIECISRRHYRDHKGAKLTNLGPGNYSARVRATSLAGNGSWTDFVAFYVQSKPPEYENILYLVIILPIVLSIFAGVIIALCIFNRKRNSDRLGNGVLYASVNPEYFSATEMYVPDEWEVPREKITMCRELGQGSFGMVYEGIAKGVVRDEPETRVAIKTVNETASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRSDTKDSTGLSLPSLKKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTNSDVWSFGVVLWEIATLAEQPYQGMSNEQVLRFVMDGGLLDKPENCPDMLFELMRMCWLYNPKMRPSFLEIINSIKDELEPQFREVSFFYSDENKPPDTEELDLEAENMESMPLDPSSSLQPVIQPSPPPQPPSASGATAPSTSPSCSSGVTLDKHSGHKAANGPVVLLRANFDETQRYAHMNGGRKNERSSPLPQSSAC

Target ORF information:

RefSeq Version	XM_028822633.1
Organism	Erpetoichthys calabaricus(reedfish)
Definition	Erpetoichthys calabaricus 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_028822633.1

ORF Insert Sequence:

ATGAGGTCTG GGTTAGAGAA GAAATCCATG ACCTTGTTGT GGGGTCTTCT GCTGTTAGTC 
TCCATGATTT GTCTGTGGCC GGCCAACGGA GAAATTTGTG GCCCAGACAT TGACATTCGC 
AATGACATCC ATGAGCTGAA GAAGCTGGAG AACTGCACAG TGATTGAGGG TTACCTTCAG 
ATCCTGCTCA TCTCTCATGT CAAGGCGGAG GACTTCCGTA ACCTGCGCTT CCCCAAGCTG 
ACACTCATTA CTGACTACCT GCTGCTGTTC AGAGTTTCTG GTTTGGAAAG CCTGCGTGAC 
CTGTTTCCCA ATCTGACTGT GATCCGTGGC CGCAGCCTCT TTTACAACTA TGCTCTTGTC 
ATCTTTGAGA TGACTAACTT GAAGGACATT GGCCTGTTCA ACCTGCGCAA CATCACACGA 
GGTTCAATCC GAATTGAGAA AAACCCTGAT CTCTGCTACC TGGACTCTGT GGACTGGTCT 
CTCATCCTGG ATGCTGACTA TAATAATTTC ATCTCTGGGA ACAAGCAGTC AAAAGAGTGT 
GGGGATGTTT GTCCTGGAAT CATGGAAGAA AACCCTCTCT GCTTCAAGAC TAGCATTAAT 
GATGTCTACA ACTACCGGTG CTGGACTTCA AACCACTGCC AGAAAGTGTG TCCAAGTGAA 
TGTGGAAGGC GTGCCTGTAC TGATTCCAAT GAGTGTTGCC ACCCAGAATG CCTTGGTAGC 
TGCATGATGC CTGACAATGA CACTGCCTGC ATGGCCTGCC TCCATTATTA CCATGAGGGT 
CGCTGCGTTC CTACCTGCCC ACCAGACACA TACCGTTTTT ATGGCTGGCG CTGTGTCAGC 
AAAGAGTTCT GCTCCAAGGT GCCTGCTTCC ATGCCCAATG AGTTTGAAAT GTTTGTTATC 
CACAATGGAG AATGTGTGCA AGAATGCCCT TCCGGGTTTA TGCGTAATGA GAGCCAAAGC 
ATGTTCTGCA GCCCATGTGA TGGGCCATGC CACAAAATCT GCTTTGGAGA AAAGGCAATA 
GATTCTGTCA CAGCTGCCCA GTCCATGGAA GGCTGCACAT TTGTCAAAGG ACATCTGACT 
ATTAATATTC GCAGAGGAAA TAACATTGCT GCAGAACTGG AAGCTTTCAT GGGTCTGATA 
GAAACTGTCA CTGGCTACGT ATCAATTCGT CATTCACACG CACTCTCGTC CCTTTCATTT 
TTGAAGAATT TACGTTATAT TAATGGAGAA CAGCAGCTTG AAGGAAATTA CTCTTTTTAT 
GTTTGGGACA ACCAAAACCT TCAACAACTC TGGGACTGGA AGCACCATGT CTTAACTATC 
AAAGAAGGAA AACTCTACTT TTCTTCTAAC CCTAAGCTGT GCCTGTCTGA GATTTATACC 
ATGCAGAAAG TGACTGGGCG TCAGGGGGCA GGAGACATCA ACACACATAC GAATGGAGCA 
AGAGCTTCTT GTGAGAGCCA TATTCTCAAG TTCAAGACTA TTACGACCTT CAAGAACAGA 
ATCATACTAA CCTGGGAGCG ATACCGACCC CTTGATTATA GAGACTTGAT CAGCTTTATA 
GTGTACTTTA AGGAAGCACC CTTTAAAAAC ATTACAGATT ATGATGGTCA GGATGGCTGT 
GGAACAAACA GCTGGAATAT GGTGGATGTG GATTTGCCCA AGGAAAAGAA CAAGGATCCT 
GGCATTCTGC TAAGTGGTCT CACTCCCTGG ACTCAGTATG CAATATTTGT CAAGGCAGTC 
ACCCTGACTG ATTTACATAT CTATGGAGCA AAGAGTGAAG TGATTTATGT TCGCACTAGT 
GCAGCAGTGC CTTCAATTCC TTTAGATGTA CGATCCTATT CCAACTCTTC ATCAAAGCTG 
CTAGTGAAGT GGTCTCCCCC AACTCATCCT AATGGAAACT TAACCTACTA CTTCATGCGT 
TGGCAGCAGC AGCCAGAGGA CAAGGACCTT TATCTTCACA ACTACTGTTC TAAGGAACTG 
AAAACGCCTG TTAGGATACC TGCAAATGGG GCTATTGATG CTGAAGAGGA TTTGAAGCCT 
ACCAAGTCAG ACACACAAAC AGGGGACAAG GGCTCCTGTT GCCCTTGTCC TAAAACAGTG 
GCAGAGATTG AAAAAGAAGC AGAGGATGCC TCCTATCGCA AAGCCTTTGA GAACTTCCTA 
CACAACTCAA TTTTTGTGCC CAGGCCACCT GACCGTCGAC GGAGGGACTT ATTCGCAGTG 
ACCAATGCAA GCATGCTTCA CAGTATGGAT GGTAACACAA CATTACAAGA TCTGGGCAGC 
AACTCTACTG ATACAGAATT CAGAGATCGT GAGTACCCAG TTTATGAGGC CAAGGTTGAT 
GGAAAGGAGT CAACAGAAAT TTCACATCTG CAGCCATTCA CTGTGTACCG CATCGATATC 
CATGCATGTA ACCATGATGC AGAACGGGGC TGCAGTGCTG CCAACTTTGT CTACGCAAGA 
ACCAAACCAG CAGACAAAGC AGATGACATT CCTGGACTTG TAAATTGGGC AGCCGGAGAA 
GATAATAGTG TTTACCTCAG GTGGGATGAG CCCGTCAATC CTAATGGACT CATCTTAATG 
TATGAGGTTA AATATCGGCA AAACTCAGAG GAGAAAATTG AGTGTATTTC TAGGCGACAC 
TACAGAGATC ATAAGGGGGC CAAGCTTACA AATCTGGGAC CAGGAAACTA CTCTGCTAGG 
GTTCGGGCTA CCTCCCTAGC TGGAAATGGA TCTTGGACTG ATTTTGTAGC CTTCTATGTA 
CAGTCAAAAC CACCAGAGTA TGAAAACATT CTGTATCTTG TAATCATCCT TCCTATTGTG 
CTGTCTATAT TTGCTGGAGT TATCATTGCT CTGTGCATCT TTAATCGAAA ACGAAACAGT 
GACAGACTTG GTAATGGAGT ATTATATGCC TCAGTCAATC CAGAGTACTT CAGTGCAACT 
GAAATGTATG TACCTGATGA ATGGGAGGTT CCAAGAGAAA AGATCACCAT GTGTCGAGAG 
CTTGGACAAG GATCTTTTGG AATGGTGTAT GAGGGCATAG CTAAGGGTGT GGTAAGGGAT 
GAGCCAGAAA CCCGAGTGGC CATTAAGACT GTCAATGAGA CCGCCAGCAT GAGAGAACGA 
ATTGAGTTCC TCAATGAAGC CTCTGTCATG AAGGAGTTTA ACTGCCATCA TGTTGTGCGC 
TTACTTGGCG TGGTGTCCCA GGGCCAGCCA ACACTGGTGA TTATGGAGCT TATGACTCGT 
GGAGACCTCA AAAGCCACTT GAGATCACTT CGTTCTGATA CAAAGGACAG CACTGGCTTG 
TCCCTGCCTT CATTAAAGAA AATGATTCAA ATGGCAGGGG AGATTGCAGA TGGCATGGCC 
TACCTCAATG CCAATAAATT TGTACACAGA GATCTTGCGG CTAGGAACTG CATGGTAGCA 
GAAGATTTTA CTGTGAAAAT TGGAGATTTT GGCATGACAA GGGATATCTA TGAAACGGAT 
TACTACCGCA AAGGAGGAAA GGGCTTGTTG CCAGTACGAT GGATGTCCCC AGAGTCACTC 
AAAGATGGAG TTTTTACAAC CAACTCAGAT GTCTGGTCTT TTGGAGTGGT GTTATGGGAG 
ATTGCTACTT TAGCAGAACA GCCTTACCAA GGGATGTCCA ATGAACAAGT GCTACGCTTT 
GTAATGGATG GAGGGTTGCT GGACAAACCT GAAAATTGTC CAGACATGCT GTTTGAGCTT 
ATGCGCATGT GCTGGCTTTA CAACCCCAAG ATGAGACCCT CTTTTCTGGA GATAATCAAT 
AGTATCAAAG ACGAGCTGGA GCCACAGTTC CGGGAGGTTT CCTTTTTCTA CAGTGATGAG 
AATAAACCTC CAGACACTGA GGAGCTTGAC CTAGAAGCAG AGAACATGGA GAGTATGCCA 
TTGGACCCTT CATCCAGTCT GCAGCCTGTT ATACAGCCTT CACCACCACC ACAGCCCCCT 
TCAGCCTCGG GAGCCACTGC CCCCTCCACC TCCCCTTCCT GCTCCTCTGG CGTTACACTT 
GACAAGCACT CGGGACACAA AGCTGCCAAT GGGCCAGTGG TGTTACTGCG GGCCAATTTC 
GATGAGACAC AGCGGTATGC GCATATGAAT GGGGGGCGCA AGAATGAGCG CAGCTCACCT 
CTGCCCCAGT CATCTGCCTG CTGA