IRS2 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	IRS2
Entrez Gene ID	100023831
Full Name	insulin receptor substrate 2
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_001375228.3	XP_001375265.2	insulin receptor substrate 2

Pathways from BioSystems
Gene Ontology

The following IRS2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IRS2 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
OMc30384	XM_001375228.3 Latest version!	Monodelphis domestica insulin receptor substrate 2 (IRS2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$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)

IRS2 ( XM_001375228.3 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_001375265.2 Monodelphis domestica insulin receptor substrate 2 (IRS2), mRNA.

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CloneID	OMc30384
Clone ID Related Accession (Same CDS sequence)	XM_001375228.3
Accession Version	XM_001375228.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4155bp) 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	2016-04-26
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	insulin receptor substrate 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008807.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001375228.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCAGCC CGCCACTGAA CGGGCTCCTG ACCCCGGCGA ATTCCTCCAA CGGAGGAGGA 
GGTGGCGGCG GTGGCGGCAC CAACCTCAAC AACAACAACA ACAACAACAA CCACAGCGTG 
CGGAAGTGCG GCTACCTGAG GAAGCAAAAA CATGGGCACA AACGCTTTTT CGTGCTTCGG 
GGCCCGGGGA GCGGTGGCGA AGAGCAGGGC GGTGGGGGAG CCGGGGGCCA GCCACCCCTG 
CCCGCGAGGC TGGAGTACTA CGAGAATGAG AAAAAGTGGA AGAACAAGTC GGGGGCCCCG 
AAAAGGGTGA TCGCCTTAGA CTCTTGCCTC AACATCAACA AGCGGGCGGA CGCCAAGCAC 
AAGTATCTGA TCGCCCTCTA CACCAAGGAC GAGTACTTCG CCGTGGCAGC CGAAAATGAG 
CAGGAGCAGG AGGGCTGGTA CCGAGCGCTC ACCGACCTGC TCAACGAGGG CAAAGCCGCC 
TACGACTCGA GCTCTCTCTA CCCACACTGC CTGTCCGGCA CCTCATCGGC CAGCGCCTCG 
TCCTGCAGCG CCTCCCTGCC TGGTTCGGGC GGCAGTGGTT CCTTCGGGGC AGCGGCTGAG 
GATCTCCACT ATGGACTGAT CACCCCAGCG AGCGCTGCGT ACCGGGAGGT CTGGCAGGTG 
AACCTGAAAC CCAAAGGACT GGGACAGAGC AAGAATCTGA CTGGGGTGTA TCGGCTTTGC 
CTCTCCGCGC GCACTATCGG TTTTGTAAAG CTCAACTGTG AGGTGCCGTC GGTCACCCTA 
CAGCTGATGA ACATCCGGCG CTGTGGCCAC TCCGACAGCT TTTTCTTCAT CGAAGTGGGA 
CGCTCTGCGT CCACTGGTCC TGGTGAGCTC TGGATGCAGG CGGATGACTC TGTGGTGGCC 
CAGAACATCC ATGAAACCAT CCTGGAGGCC ATGAAAGCCC TGAAGGAGCT GTTCGAATTC 
CGTCCCCGAA GCAAAAGCCA GTCCTCAGGC TCCTCATCCA CCCACCCCAT CAGCGTCCCG 
GGCACCCGGC GTCACCACCA CCATCATCTG GTCAACCTGC CTCCCAGCCA GACTGGGCTC 
CTGCGTCGCT CCCGAACCGA CAGCCTGGCC GCCACGCCTC CCACCACCGG TACCCCCATT 
TCGACCCAGG CCTCTGGAGC TGGGAAGTGC AACTCCTGTC GGGTACGCAC GGCCAGTGAG 
GGCGATGGCA GCAGCAGCGG GGGTGCGGGA GGGGTGGGCT GCAGGCCAGT TTCAGTGGCC 
GGCAGCCCCA TGAGTCCCGG CCCGGTGAGG ACTCCCCTAA GCAGGTCCCA TACTCTGAGC 
AGCAGCTGCA GCGCCTCCAT GCGACCTAAT AAGATGATGT TAGCTCCGGC TGGGGGCCCC 
CTTCAACACA GTCGATCCAT GTCTATGCCG GTATCCCATT CACCTCCGTC TGCCACCAGC 
CCTGGCAGCC TCTCCTCTAG CAGCGGGCAT GGCTCAGCTT CTTACTCCCT GCCTCAAGGA 
CAACATCCAC ATCCACACCA CCTTCACCAC CACCAGGGCC AGCGGCCCTC TAGTGGCAGT 
GCTTCTGCTT CTGGCTCCCC CAGTGACCCA GGCTTCATGT CCTTGGATGA GTACGGCTCT 
AGCCCTGGGG ACCTGCGGGC CTTTTGCAGC AACCGAAGCA ACACTCCTGA GTCCATTGCC 
GAGACCCCAC CAGCGAGAGA TGGCAGTGGG ACTGAACTAT ATGGATACAT GACCATGGAA 
AGACCCCTAA GCCTATGTGG CCGAACATAC CGAAGAGTGT CCGGGGAAGG GGCCCTAGAC 
TTGGACAAAG GTCATAGAAA GAGGACTTAC TCCCTGACCA CACCTGCACG ACAACGTGCA 
GTGCCCCAAG TCTCCTCTGC CTCCCTGATG AAATATACTC TGATGAGGGC CAGTTTTGCC 
GGCAGCTCAA GCCGCCTTTA CCCAGCCTCT TCTCCCAAAG TGACCTACAA CCCATACCCG 
GAGGATTACG GGGACATTGA GATTGGCTCC CATCGGAGCT CCAGCAGTAA CCTTGGAGCA 
GATGATGGCT ACATGCCCAT GACTCCTGGA GTGGCCCCAC TGGCAGGGGG CAGCATTGGA 
AGCTGCAAAA GTGATGACTA CATGCCCATG AGTCCCACCA GTGTCTCTGC TCCCAAGCAA 
ATATTGCAGC CACGGATGGC AGCAGCCTCT TTGGCTACAG GTGCAGCATC CCAAGCAGCC 
TCATCAGCAA CAAGTGGAAG AGGCTCCCCG ATGAATGGTA GCAGCTACAA GACCAGTTCT 
CCAGCTGAAA GCTCTCCTGA GGACAGTGGG TACATGAGGA TGTGGTGTGG TTCCAAGCTC 
TCAGTGGAGA GCTCTGAAGG CAAGCTACTT CCCAATGGAG ATTACCTTAA CATGTCTCCT 
AGTGATGCAG GAGCTTCTCT CACCCCACCT GACTTCTTCT ATGACTCAGT CCCATTGCCT 
GGTGGTGGAG AACCACCTAA GGGGGTCCCA GGCTGCTGTT ACAGCTCACT ACCCCGTTCT 
TATAAAACTC CCTGTCCTAG AAATGGGGAT AGTGACCAGT ATGTATTCAT GAATTCTCCA 
GTGGGGAGGA GGATTGTGGA AGAGGAGCAA GAGCAGCCAA GTCTGCAGCC ACTGCCCAAC 
ACAACTACCC CCTGCACCCA GCCTACCAGG CCCTTTGTAT CTAATGGGGG CAGCCACTCC 
CAACCTCACC ACCTAGTGCC TTCAGCAGTT AGGCAGAGTG GCAGTAGCAG TGGCAACAGC 
AACCGTCCAG AGAGTTTCCT CATCCAGCGT TGCAGAGCAG TCCGGCCCAC TCGTCTGTCC 
CTAGAGGGGC TTAGAACCCT TCCTAGCATG CATGAGTATC CACTGCCACC TGAGCCCAAA 
AGCCCAGGTG AATACATCAA CATTGACTTT AGTGAATCTG GAGCCCACCT TTCACCACCT 
CCACCTCCCC TGCTAACTTC AGCAGCCTCA TCATCATCAC TACTCTCAGC TAGCAGTCCA 
GCCTCTTCAA TGGGTTCAGG TACCCCTGGC ACCAGTGGTG ACAGCCGGAG GCGCTCTCCC 
CTCTCTGACT ATATGAACCT TGGCTTTGGC TCACCCAAGT CACCCAAATC TGGCACTGAG 
GGTGGTGGCT CTGTGGGCTC TTTGGATGCC TTGATGTCCC CTGAGGCTTC CTCACCCTGC 
CCACCACTGC CAACACCACC TGCCTCCTCT ACTTCCTCCT CACAGCAGCA GCAACTACCA 
CCTCCACCAC CAGGAGAGCT ATACCGCCTG CCTCCAGCTT CTTCTACCTG CCACCCAACC 
CCTGTCTCTG CCTCCTCCCC TTCTTCTCCC CCTGAGACAG AGGATAGTGG TGACTACACC 
GAGATGGCCT TCGGCATAGC CGCCACTCCA CCACAGCCCA TTGCAGCACC TCCGAAGCCA 
GAAAGTGCCC GAGTGACCAG CCCTACATCT GGTGTGAAAC GACTGAGTTT GATGGAGCAG 
GTGTCTGGTG TAGAGGCCTT TCTCCTGGCC AGCCCACCCC CAGATCCACA CCGGGGTGCC 
AAGGTCATCC GTGCTGACCC ACAGGGGGGC CGCAGACGCC ACAGCTCGGA AACCTTCTCC 
TCGACCACTA CTGTGACCCC TGTGTCCCCA TCCTTCGCAC ACAATCCTAA GCGCCACAAT 
TCGGCCTCTG TGGAAAATGT CTCTCTCAGG AAAAGTGGCG AAGGGCCCAG TGGCAATGGT 
GGTGAGAGTC TTGGAGGAGG TGAGGAAGAG CCATCTACAT CTCCTCACCC TCGGCAACCA 
TCACTCCCTC TGCCACCTCA GTCTCAGCAG CTGAGGTGGA CACAAAACCA ACATGGAGCA 
TTAGTTGGTT GCCCTGGGAG CAGTGGCTCT CCTATGTGTC GGGAGACATC AGCAGGCTTC 
CAGAATGGTC TCAACTACAT CGCCATTGAT GTTAGAGATG AAGCTGGCCT ATTGTTACAG 
CAGCAGCAGC AGTCTGGAGA CAAGAATTCC TGGGCCCTGA CCCGTGGCCT CAGTGGCCTC 
ATCAATGGTG GAAGTGGCAG CAGCACAGGT GGTTGTGTGG GGCCAGGCTC TGGACCCTTG 
CCCACAACCA ACACCTATGC TAGCATTGAC TTCATGACCC ATCACCTGAA GGAGGCTACA 
GCTGTGAAAG AGTGA

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

RefSeq	XP_001375265.2
CDS	28..4182
Translation	MASPPLNGLLTPANSSNGGGGGGGGGTNLNNNNNNNNHSVRKCGYLRKQKHGHKRFFVLRGPGSGGEEQGGGGAGGQPPLPARLEYYENEKKWKNKSGAPKRVIALDSCLNINKRADAKHKYLIALYTKDEYFAVAAENEQEQEGWYRALTDLLNEGKAAYDSSSLYPHCLSGTSSASASSCSASLPGSGGSGSFGAAAEDLHYGLITPASAAYREVWQVNLKPKGLGQSKNLTGVYRLCLSARTIGFVKLNCEVPSVTLQLMNIRRCGHSDSFFFIEVGRSASTGPGELWMQADDSVVAQNIHETILEAMKALKELFEFRPRSKSQSSGSSSTHPISVPGTRRHHHHHLVNLPPSQTGLLRRSRTDSLAATPPTTGTPISTQASGAGKCNSCRVRTASEGDGSSSGGAGGVGCRPVSVAGSPMSPGPVRTPLSRSHTLSSSCSASMRPNKMMLAPAGGPLQHSRSMSMPVSHSPPSATSPGSLSSSSGHGSASYSLPQGQHPHPHHLHHHQGQRPSSGSASASGSPSDPGFMSLDEYGSSPGDLRAFCSNRSNTPESIAETPPARDGSGTELYGYMTMERPLSLCGRTYRRVSGEGALDLDKGHRKRTYSLTTPARQRAVPQVSSASLMKYTLMRASFAGSSSRLYPASSPKVTYNPYPEDYGDIEIGSHRSSSSNLGADDGYMPMTPGVAPLAGGSIGSCKSDDYMPMSPTSVSAPKQILQPRMAAASLATGAASQAASSATSGRGSPMNGSSYKTSSPAESSPEDSGYMRMWCGSKLSVESSEGKLLPNGDYLNMSPSDAGASLTPPDFFYDSVPLPGGGEPPKGVPGCCYSSLPRSYKTPCPRNGDSDQYVFMNSPVGRRIVEEEQEQPSLQPLPNTTTPCTQPTRPFVSNGGSHSQPHHLVPSAVRQSGSSSGNSNRPESFLIQRCRAVRPTRLSLEGLRTLPSMHEYPLPPEPKSPGEYINIDFSESGAHLSPPPPPLLTSAASSSSLLSASSPASSMGSGTPGTSGDSRRRSPLSDYMNLGFGSPKSPKSGTEGGGSVGSLDALMSPEASSPCPPLPTPPASSTSSSQQQQLPPPPPGELYRLPPASSTCHPTPVSASSPSSPPETEDSGDYTEMAFGIAATPPQPIAAPPKPESARVTSPTSGVKRLSLMEQVSGVEAFLLASPPPDPHRGAKVIRADPQGGRRRHSSETFSSTTTVTPVSPSFAHNPKRHNSASVENVSLRKSGEGPSGNGGESLGGGEEEPSTSPHPRQPSLPLPPQSQQLRWTQNQHGALVGCPGSSGSPMCRETSAGFQNGLNYIAIDVRDEAGLLLQQQQQSGDKNSWALTRGLSGLINGGSGSSTGGCVGPGSGPLPTTNTYASIDFMTHHLKEATAVKE

Target ORF information:

RefSeq Version	XM_001375228.3
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica insulin receptor substrate 2 (IRS2), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_001375228.3

ORF Insert Sequence:

ATGGCCAGCC CGCCACTGAA CGGGCTCCTG ACCCCGGCGA ATTCCTCCAA CGGAGGAGGA 
GGTGGCGGCG GTGGCGGCAC CAACCTCAAC AACAACAACA ACAACAACAA CCACAGCGTG 
CGGAAGTGCG GCTACCTGAG GAAGCAAAAA CATGGGCACA AACGCTTTTT CGTGCTTCGG 
GGCCCGGGGA GCGGTGGCGA AGAGCAGGGC GGTGGGGGAG CCGGGGGCCA GCCACCCCTG 
CCCGCGAGGC TGGAGTACTA CGAGAATGAG AAAAAGTGGA AGAACAAGTC GGGGGCCCCG 
AAAAGGGTGA TCGCCTTAGA CTCTTGCCTC AACATCAACA AGCGGGCGGA CGCCAAGCAC 
AAGTATCTGA TCGCCCTCTA CACCAAGGAC GAGTACTTCG CCGTGGCAGC CGAAAATGAG 
CAGGAGCAGG AGGGCTGGTA CCGAGCGCTC ACCGACCTGC TCAACGAGGG CAAAGCCGCC 
TACGACTCGA GCTCTCTCTA CCCACACTGC CTGTCCGGCA CCTCATCGGC CAGCGCCTCG 
TCCTGCAGCG CCTCCCTGCC TGGTTCGGGC GGCAGTGGTT CCTTCGGGGC AGCGGCTGAG 
GATCTCCACT ATGGACTGAT CACCCCAGCG AGCGCTGCGT ACCGGGAGGT CTGGCAGGTG 
AACCTGAAAC CCAAAGGACT GGGACAGAGC AAGAATCTGA CTGGGGTGTA TCGGCTTTGC 
CTCTCCGCGC GCACTATCGG TTTTGTAAAG CTCAACTGTG AGGTGCCGTC GGTCACCCTA 
CAGCTGATGA ACATCCGGCG CTGTGGCCAC TCCGACAGCT TTTTCTTCAT CGAAGTGGGA 
CGCTCTGCGT CCACTGGTCC TGGTGAGCTC TGGATGCAGG CGGATGACTC TGTGGTGGCC 
CAGAACATCC ATGAAACCAT CCTGGAGGCC ATGAAAGCCC TGAAGGAGCT GTTCGAATTC 
CGTCCCCGAA GCAAAAGCCA GTCCTCAGGC TCCTCATCCA CCCACCCCAT CAGCGTCCCG 
GGCACCCGGC GTCACCACCA CCATCATCTG GTCAACCTGC CTCCCAGCCA GACTGGGCTC 
CTGCGTCGCT CCCGAACCGA CAGCCTGGCC GCCACGCCTC CCACCACCGG TACCCCCATT 
TCGACCCAGG CCTCTGGAGC TGGGAAGTGC AACTCCTGTC GGGTACGCAC GGCCAGTGAG 
GGCGATGGCA GCAGCAGCGG GGGTGCGGGA GGGGTGGGCT GCAGGCCAGT TTCAGTGGCC 
GGCAGCCCCA TGAGTCCCGG CCCGGTGAGG ACTCCCCTAA GCAGGTCCCA TACTCTGAGC 
AGCAGCTGCA GCGCCTCCAT GCGACCTAAT AAGATGATGT TAGCTCCGGC TGGGGGCCCC 
CTTCAACACA GTCGATCCAT GTCTATGCCG GTATCCCATT CACCTCCGTC TGCCACCAGC 
CCTGGCAGCC TCTCCTCTAG CAGCGGGCAT GGCTCAGCTT CTTACTCCCT GCCTCAAGGA 
CAACATCCAC ATCCACACCA CCTTCACCAC CACCAGGGCC AGCGGCCCTC TAGTGGCAGT 
GCTTCTGCTT CTGGCTCCCC CAGTGACCCA GGCTTCATGT CCTTGGATGA GTACGGCTCT 
AGCCCTGGGG ACCTGCGGGC CTTTTGCAGC AACCGAAGCA ACACTCCTGA GTCCATTGCC 
GAGACCCCAC CAGCGAGAGA TGGCAGTGGG ACTGAACTAT ATGGATACAT GACCATGGAA 
AGACCCCTAA GCCTATGTGG CCGAACATAC CGAAGAGTGT CCGGGGAAGG GGCCCTAGAC 
TTGGACAAAG GTCATAGAAA GAGGACTTAC TCCCTGACCA CACCTGCACG ACAACGTGCA 
GTGCCCCAAG TCTCCTCTGC CTCCCTGATG AAATATACTC TGATGAGGGC CAGTTTTGCC 
GGCAGCTCAA GCCGCCTTTA CCCAGCCTCT TCTCCCAAAG TGACCTACAA CCCATACCCG 
GAGGATTACG GGGACATTGA GATTGGCTCC CATCGGAGCT CCAGCAGTAA CCTTGGAGCA 
GATGATGGCT ACATGCCCAT GACTCCTGGA GTGGCCCCAC TGGCAGGGGG CAGCATTGGA 
AGCTGCAAAA GTGATGACTA CATGCCCATG AGTCCCACCA GTGTCTCTGC TCCCAAGCAA 
ATATTGCAGC CACGGATGGC AGCAGCCTCT TTGGCTACAG GTGCAGCATC CCAAGCAGCC 
TCATCAGCAA CAAGTGGAAG AGGCTCCCCG ATGAATGGTA GCAGCTACAA GACCAGTTCT 
CCAGCTGAAA GCTCTCCTGA GGACAGTGGG TACATGAGGA TGTGGTGTGG TTCCAAGCTC 
TCAGTGGAGA GCTCTGAAGG CAAGCTACTT CCCAATGGAG ATTACCTTAA CATGTCTCCT 
AGTGATGCAG GAGCTTCTCT CACCCCACCT GACTTCTTCT ATGACTCAGT CCCATTGCCT 
GGTGGTGGAG AACCACCTAA GGGGGTCCCA GGCTGCTGTT ACAGCTCACT ACCCCGTTCT 
TATAAAACTC CCTGTCCTAG AAATGGGGAT AGTGACCAGT ATGTATTCAT GAATTCTCCA 
GTGGGGAGGA GGATTGTGGA AGAGGAGCAA GAGCAGCCAA GTCTGCAGCC ACTGCCCAAC 
ACAACTACCC CCTGCACCCA GCCTACCAGG CCCTTTGTAT CTAATGGGGG CAGCCACTCC 
CAACCTCACC ACCTAGTGCC TTCAGCAGTT AGGCAGAGTG GCAGTAGCAG TGGCAACAGC 
AACCGTCCAG AGAGTTTCCT CATCCAGCGT TGCAGAGCAG TCCGGCCCAC TCGTCTGTCC 
CTAGAGGGGC TTAGAACCCT TCCTAGCATG CATGAGTATC CACTGCCACC TGAGCCCAAA 
AGCCCAGGTG AATACATCAA CATTGACTTT AGTGAATCTG GAGCCCACCT TTCACCACCT 
CCACCTCCCC TGCTAACTTC AGCAGCCTCA TCATCATCAC TACTCTCAGC TAGCAGTCCA 
GCCTCTTCAA TGGGTTCAGG TACCCCTGGC ACCAGTGGTG ACAGCCGGAG GCGCTCTCCC 
CTCTCTGACT ATATGAACCT TGGCTTTGGC TCACCCAAGT CACCCAAATC TGGCACTGAG 
GGTGGTGGCT CTGTGGGCTC TTTGGATGCC TTGATGTCCC CTGAGGCTTC CTCACCCTGC 
CCACCACTGC CAACACCACC TGCCTCCTCT ACTTCCTCCT CACAGCAGCA GCAACTACCA 
CCTCCACCAC CAGGAGAGCT ATACCGCCTG CCTCCAGCTT CTTCTACCTG CCACCCAACC 
CCTGTCTCTG CCTCCTCCCC TTCTTCTCCC CCTGAGACAG AGGATAGTGG TGACTACACC 
GAGATGGCCT TCGGCATAGC CGCCACTCCA CCACAGCCCA TTGCAGCACC TCCGAAGCCA 
GAAAGTGCCC GAGTGACCAG CCCTACATCT GGTGTGAAAC GACTGAGTTT GATGGAGCAG 
GTGTCTGGTG TAGAGGCCTT TCTCCTGGCC AGCCCACCCC CAGATCCACA CCGGGGTGCC 
AAGGTCATCC GTGCTGACCC ACAGGGGGGC CGCAGACGCC ACAGCTCGGA AACCTTCTCC 
TCGACCACTA CTGTGACCCC TGTGTCCCCA TCCTTCGCAC ACAATCCTAA GCGCCACAAT 
TCGGCCTCTG TGGAAAATGT CTCTCTCAGG AAAAGTGGCG AAGGGCCCAG TGGCAATGGT 
GGTGAGAGTC TTGGAGGAGG TGAGGAAGAG CCATCTACAT CTCCTCACCC TCGGCAACCA 
TCACTCCCTC TGCCACCTCA GTCTCAGCAG CTGAGGTGGA CACAAAACCA ACATGGAGCA 
TTAGTTGGTT GCCCTGGGAG CAGTGGCTCT CCTATGTGTC GGGAGACATC AGCAGGCTTC 
CAGAATGGTC TCAACTACAT CGCCATTGAT GTTAGAGATG AAGCTGGCCT ATTGTTACAG 
CAGCAGCAGC AGTCTGGAGA CAAGAATTCC TGGGCCCTGA CCCGTGGCCT CAGTGGCCTC 
ATCAATGGTG GAAGTGGCAG CAGCACAGGT GGTTGTGTGG GGCCAGGCTC TGGACCCTTG 
CCCACAACCA ACACCTATGC TAGCATTGAC TTCATGACCC ATCACCTGAA GGAGGCTACA 
GCTGTGAAAG AGTGA