IMPG2 cDNA ORF clone, Parus major(Great Tit)

Gene
Clones
gRNAs

Summary

Gene Symbol	IMPG2
Entrez Gene ID	107211917
Full Name	interphotoreceptor matrix proteoglycan 2
Gene Type	protein-coding
Organism	Parus major(Great Tit)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015644549.1	XP_015500035.1	interphotoreceptor matrix proteoglycan 2

Pathways from BioSystems
Gene Ontology

The following IMPG2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IMPG2 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
OPa156361	XM_015644549.1 Latest version!	Parus major interphotoreceptor matrix proteoglycan 2 (IMPG2), 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)

IMPG2 ( XM_015644549.1 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015500035.1 Parus major interphotoreceptor matrix proteoglycan 2 (IMPG2), mRNA.

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CloneID	OPa156361
Clone ID Related Accession (Same CDS sequence)	XM_015644549.1
Accession Version	XM_015644549.1 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	2016-11-13
Organism	Parus major(Great Tit)
Product	interphotoreceptor matrix proteoglycan 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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##

ATGATTAACA CAGATCTTCA AGTAGTTGCA GCAGAAGCTT ATTCAGCTGT GGGAGGAGGA 
CAGGCAAAAG GTGTTTCACC AGCCCCTCAG CTCAGTGACT GGCAGTTGGC AAACCCTTCT 
TTGCCTCCTG GGTTGAAAAA GCCTAATGGC ATCATGGATG CTGAGCAGTT CCACAGGCAT 
TTGCAGCTGA GAAGGAAGCG GTCCATTCTG TTTCCCAGTG GAGTTAAGAT CTGCCCTGAT 
GAATCTGTTG AGCAGGCTAT TGCCAACCAT CTGAAGTATT TCAGGCTCAG AGTGTGCCAG 
GAAACAGTCT GGGAGGTCTT CAAGACGTTC TGGGACAGGC TGCCGGAGCG TGAGGAGTAT 
AACACCTGGA TGAGCCTGTG TGAGGAAGGC ATGATGAGCA TCTTTGAAAT GGGCACCAAC 
TTCAGCCAGT CTGAGGAGCA CCGGAGCCTG ATTGTGAAGA AACTGGCCTA TACAAAGGAA 
GCCATGGGCA GTTCCTGTGC TGATTGGTCA TGTGGTGGGA CTCCTACTCC TCCTTTGGAT 
GCTGATGTTA CCACACTGAG AGATGCAGCT GCCAATGTTC CTCCTCCTCA TGAGGTCTCC 
ATCGAGAGTC CTGAGGGTGA TACCATCCCT GAGCATGACC ATGTAGACAC CACTATCAAT 
AATGAGATAA AGAAGCAGGA TGAAAAGCTA GCTAGACCTG TAACTGAGCA GATGATTGAG 
TTCAACATTT TGATTGTTGG TGAACAATAC AGTGAGGAGC TGAAGGACCC ATCTGCTGCT 
GAGTATCAAC TGCTGTCTGA ACGGTTCATT TCTCAGATTA AAAATGTATT TGAAGGACTA 
CCTGGATACA AAAACATCCA TATCCTGGAT TACAGCCCTT CTGAGGAAGA AAGTGGGGTG 
GAAGTTCACT ATGCTGTGAC ATTTGATGGA AAAGCCATCA GCAATGCCAC CTGGGACCTG 
ATTAACCTGC ATTCAAACAA GGTGGAGGAC AACTCCTTCA TGGGCATTGA GGACAATCCA 
ACAGTTGTGT ACACCATCAG TGATTTCCGA GATTATATTG CTGAGATCCT CCAGAAAAAT 
GCTCTGCTTG AAAATGCTTC CATCTCTTTG GACCCTAACT CTCTTCAGCT TACTAATGTG 
AAGGAAATAC TGCACCCCAC ATCAGAAGAC CCATCCTGGA TCACTGAGCA TCCAGTTGTG 
CTGGAGCGCC CGGAGTTTGA TGACAGCACC TTTTTAGCTG AACGTCCTTC TGCAGATGAG 
TCAACGGTCA GCAATGCCTT GCCCTTTGAT TACACCAAAC CGGATTCCAC CTCAGACAGT 
GAGCAGTCCA GTGACAATGA AATCCAGCCA AGACCAGAGA ACATGGACTA TGAGGCTGGT 
TTGGCACCTG AAGCTCCACT TTCCTCAGAG GTTGATGTCA CTTCTTTGCC TGATGGGCAT 
TATTTAGAGA CTTCTCATTT AGTCACTGTA CCAGTGTTAG AGCATGATTC TATGGACTCT 
CTGGAATGGC TTTCAGCCCC CAGTTCTTTA GATATGTTTG AAGATACTGG GCTATCTGAA 
GAACTTTTGC CTTTAAGTCC TTCTCACCTT GTGCCTGAAG AATCTCCATC TACTGATGAC 
TATGAAGTTC CTCTGCTTTC TGCACCAACA GTGGCCTCTT CATCAGTCAT AGAGACTGAT 
ATTAAAGAGA AGGAAGAAGT AATCCAAGGT AGTCCTGAGG GCAGTGACAG TGCAGACTCT 
GTGGAAGAAA TTCCTTTTCC CTTAGAAGTG CCCCCTATGG AAGACGAAAC TGATATATTT 
CTTGGAGATA GAGTTATATA TGATGATGGG TCTGGTTCAG CTTTTGATGG TTCAGGAAAA 
GAAATGGAAT CAAGTATCTG GCCTTGGGAA GAAGCAGCCC TGGAACCAGT TTTCTACCCT 
GGCCCTGATA GCTGGCTTGA AGATGACAAT GAGTCTTTGT TAATCAAACC TGAGGATATC 
CCTGAAGGCA TGATTTTAGA CTATATTCTT AACTCTGGGA ATAAATTAGA TTATGATCTT 
TCCAAAGATG AGAATGAAGG GATAGTCAAT ATGAAAGATT TCCTTGATGA GTCTGAAATA 
TTTGTCTTTC CAGAGACGAC AACTCCGCAA GTACCTCTGT TACAGACAGA AGAGCCATCG 
TCTGTGGAAC CATCTACACA GACAGAAACA CTGGGCATGT ATGATTCTTC TTTTGTCATG 
CCAGCTGGAG AGGCCCCTGT CTCACCACCA TATACAGATC TGTCTGTGGA AGATAGTCTC 
CATACATCCA CAGGGTCTGT CAGTATGGAG CAATCTGAGG AGTCTAGTGT AGGCCAGAAC 
ATAATCCCTG AAGTAGTTGA GCACCAAAGC AAAGACAGGG CAGTGGTAGA AGAACTATTC 
ACAGTGAGGC AGCCGGATGT AATGGAAACT GCTACAGTAG GACACTTGGA CACAATCTCT 
TTAGAAACTA TTCTGACTGC AGATCCTTCT GGATCAGCAG TGAAGGTACC AGCTGATGTT 
TGGCCTACTG ACAGGGCACT AGAAAGCTCC TTAGATCAGA CAGTGCAACC AGCAATGCCA 
GCAGTTACTC AAGGTTCAGC TGCATTTCCT TCTGTAACAG ATCACACCAC TGTCCTAGAG 
GGCTTTCCTG GACAGCATGG TACAGACCAT GACACACATA TTTCCATGAG CTTCAGCACT 
GTTATGGATT ATCAAACAGT GAGTGTAACA ACCAGCACTG TTGAGCTTCA GTCCCACCTC 
CCTCCTGTGG GATCCACACC GTCATTGTCT GTGGCTACCT CAACAAAGCT GGGAGATGAA 
ACAACGAGAG TCCTGGATGT TTCAGTAGAC CTGGGCAGTG TTAGCACTGT TCACTTTTCT 
CCTGAGCGGA CTGAGGAGGG AAGGAGAATG ACTGAAAGTC ACATGGAGCT GACAACTCAT 
GTCCAGTCCA CAGAGATGGC CAGTGTGGCT TGGGCCACAC ATGAAACCCA CTACAGTAGT 
ACTGTCCCAT CCCGAGCTCT AGTTGTGTTC TTCAGTCTTC GGGTTACCAA CATGATGTTT 
TCAGAGGACC TGTTTAATAA AAACTCCCCT GAATATAAAG CCTTGGAACA GCGATTCTTG 
GAGCTGCTGG TGCCCTACCT TCAGTCAAAT CTGACAGGAT TCCAGAACCT GGAAATCCTG 
AACTTCAGAA ATGGCAGCAT TGTGGTGAAC AGTCGAATGA AATTTGCCAA ACCTGTGCCC 
CGGAATGTCA CCAACGCTGT GTACATGATC CTGGAAGATT TCTGCAACAC TGCATATCAC 
ACCATGAACC TGGCCATCGA TAAATACTCT CTGGATGTAG AATCAGGTGA GCAAGCAGAT 
CCCTGCAAGT TCCAGGCCTG CAATGAGTTC TCTGAATGCT TAGTAAATCG CTGGAGTGGG 
GAAGCTGAGT GTGTCTGCAA CCCTGGCTAC CTCAGCATCG ATGGGCTGCC GTGCAACAGC 
ATTTGTGATC TGCAACCAAA CTTCTGCCTG AACGATGGCA AGTGTGACAT AAGCCCTGGG 
CAAGGGGCCA TCTGTAGGTG CCGTGTGGGA GAGAACTGGT GGTACAGAGG AGAGCACTGT 
GAGGAATACG TGTCCGAGCC ACTGGTTGTG GGTATTGCAA TTGCTTCTGT GGCAGGATTC 
CTTCTGGTGG CATCTGCTGT CATCTTCTTC TTGGCCAGGA CCCTTCGAGA CCAGTACACA 
AAGAGTGATA CTGGGGACTC CCAGGGGCAG GGTGACAGCC TCTCGTCCAT TGAGAATGCA 
GTTAAATACA ACCCCATGTA TGAAAGTGAT ACGACTGGCT ACAGCCATTA TTACCGGAGA 
TATCCACAGC TAACGTCCTA CAGTTCCACC AGTGCAGAGA CATCCACAGA CTACAGCAGT 
GAAGAGATCA GGCACATTTA TGAAAACAGT GAGCTTACTA AGGAGGAAAT TCAGGACAGA 
ATTCGAATTA TAGAGCTCTA CGCTAAAGAC CGGCAGTTTG CAGAGTTTGT TAGGCAGCAT 
CAAATGAAGC TGCTTTAA

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

RefSeq	XP_015500035.1
CDS	1..4038
Translation	MINTDLQVVAAEAYSAVGGGQAKGVSPAPQLSDWQLANPSLPPGLKKPNGIMDAEQFHRHLQLRRKRSILFPSGVKICPDESVEQAIANHLKYFRLRVCQETVWEVFKTFWDRLPEREEYNTWMSLCEEGMMSIFEMGTNFSQSEEHRSLIVKKLAYTKEAMGSSCADWSCGGTPTPPLDADVTTLRDAAANVPPPHEVSIESPEGDTIPEHDHVDTTINNEIKKQDEKLARPVTEQMIEFNILIVGEQYSEELKDPSAAEYQLLSERFISQIKNVFEGLPGYKNIHILDYSPSEEESGVEVHYAVTFDGKAISNATWDLINLHSNKVEDNSFMGIEDNPTVVYTISDFRDYIAEILQKNALLENASISLDPNSLQLTNVKEILHPTSEDPSWITEHPVVLERPEFDDSTFLAERPSADESTVSNALPFDYTKPDSTSDSEQSSDNEIQPRPENMDYEAGLAPEAPLSSEVDVTSLPDGHYLETSHLVTVPVLEHDSMDSLEWLSAPSSLDMFEDTGLSEELLPLSPSHLVPEESPSTDDYEVPLLSAPTVASSSVIETDIKEKEEVIQGSPEGSDSADSVEEIPFPLEVPPMEDETDIFLGDRVIYDDGSGSAFDGSGKEMESSIWPWEEAALEPVFYPGPDSWLEDDNESLLIKPEDIPEGMILDYILNSGNKLDYDLSKDENEGIVNMKDFLDESEIFVFPETTTPQVPLLQTEEPSSVEPSTQTETLGMYDSSFVMPAGEAPVSPPYTDLSVEDSLHTSTGSVSMEQSEESSVGQNIIPEVVEHQSKDRAVVEELFTVRQPDVMETATVGHLDTISLETILTADPSGSAVKVPADVWPTDRALESSLDQTVQPAMPAVTQGSAAFPSVTDHTTVLEGFPGQHGTDHDTHISMSFSTVMDYQTVSVTTSTVELQSHLPPVGSTPSLSVATSTKLGDETTRVLDVSVDLGSVSTVHFSPERTEEGRRMTESHMELTTHVQSTEMASVAWATHETHYSSTVPSRALVVFFSLRVTNMMFSEDLFNKNSPEYKALEQRFLELLVPYLQSNLTGFQNLEILNFRNGSIVVNSRMKFAKPVPRNVTNAVYMILEDFCNTAYHTMNLAIDKYSLDVESGEQADPCKFQACNEFSECLVNRWSGEAECVCNPGYLSIDGLPCNSICDLQPNFCLNDGKCDISPGQGAICRCRVGENWWYRGEHCEEYVSEPLVVGIAIASVAGFLLVASAVIFFLARTLRDQYTKSDTGDSQGQGDSLSSIENAVKYNPMYESDTTGYSHYYRRYPQLTSYSSTSAETSTDYSSEEIRHIYENSELTKEEIQDRIRIIELYAKDRQFAEFVRQHQMKLL

Target ORF information:

RefSeq Version	XM_015644549.1
Organism	Parus major(Great Tit)
Definition	Parus major interphotoreceptor matrix proteoglycan 2 (IMPG2), mRNA.

Target ORF information:

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

XM_015644549.1

ORF Insert Sequence:

ATGATTAACA CAGATCTTCA AGTAGTTGCA GCAGAAGCTT ATTCAGCTGT GGGAGGAGGA 
CAGGCAAAAG GTGTTTCACC AGCCCCTCAG CTCAGTGACT GGCAGTTGGC AAACCCTTCT 
TTGCCTCCTG GGTTGAAAAA GCCTAATGGC ATCATGGATG CTGAGCAGTT CCACAGGCAT 
TTGCAGCTGA GAAGGAAGCG GTCCATTCTG TTTCCCAGTG GAGTTAAGAT CTGCCCTGAT 
GAATCTGTTG AGCAGGCTAT TGCCAACCAT CTGAAGTATT TCAGGCTCAG AGTGTGCCAG 
GAAACAGTCT GGGAGGTCTT CAAGACGTTC TGGGACAGGC TGCCGGAGCG TGAGGAGTAT 
AACACCTGGA TGAGCCTGTG TGAGGAAGGC ATGATGAGCA TCTTTGAAAT GGGCACCAAC 
TTCAGCCAGT CTGAGGAGCA CCGGAGCCTG ATTGTGAAGA AACTGGCCTA TACAAAGGAA 
GCCATGGGCA GTTCCTGTGC TGATTGGTCA TGTGGTGGGA CTCCTACTCC TCCTTTGGAT 
GCTGATGTTA CCACACTGAG AGATGCAGCT GCCAATGTTC CTCCTCCTCA TGAGGTCTCC 
ATCGAGAGTC CTGAGGGTGA TACCATCCCT GAGCATGACC ATGTAGACAC CACTATCAAT 
AATGAGATAA AGAAGCAGGA TGAAAAGCTA GCTAGACCTG TAACTGAGCA GATGATTGAG 
TTCAACATTT TGATTGTTGG TGAACAATAC AGTGAGGAGC TGAAGGACCC ATCTGCTGCT 
GAGTATCAAC TGCTGTCTGA ACGGTTCATT TCTCAGATTA AAAATGTATT TGAAGGACTA 
CCTGGATACA AAAACATCCA TATCCTGGAT TACAGCCCTT CTGAGGAAGA AAGTGGGGTG 
GAAGTTCACT ATGCTGTGAC ATTTGATGGA AAAGCCATCA GCAATGCCAC CTGGGACCTG 
ATTAACCTGC ATTCAAACAA GGTGGAGGAC AACTCCTTCA TGGGCATTGA GGACAATCCA 
ACAGTTGTGT ACACCATCAG TGATTTCCGA GATTATATTG CTGAGATCCT CCAGAAAAAT 
GCTCTGCTTG AAAATGCTTC CATCTCTTTG GACCCTAACT CTCTTCAGCT TACTAATGTG 
AAGGAAATAC TGCACCCCAC ATCAGAAGAC CCATCCTGGA TCACTGAGCA TCCAGTTGTG 
CTGGAGCGCC CGGAGTTTGA TGACAGCACC TTTTTAGCTG AACGTCCTTC TGCAGATGAG 
TCAACGGTCA GCAATGCCTT GCCCTTTGAT TACACCAAAC CGGATTCCAC CTCAGACAGT 
GAGCAGTCCA GTGACAATGA AATCCAGCCA AGACCAGAGA ACATGGACTA TGAGGCTGGT 
TTGGCACCTG AAGCTCCACT TTCCTCAGAG GTTGATGTCA CTTCTTTGCC TGATGGGCAT 
TATTTAGAGA CTTCTCATTT AGTCACTGTA CCAGTGTTAG AGCATGATTC TATGGACTCT 
CTGGAATGGC TTTCAGCCCC CAGTTCTTTA GATATGTTTG AAGATACTGG GCTATCTGAA 
GAACTTTTGC CTTTAAGTCC TTCTCACCTT GTGCCTGAAG AATCTCCATC TACTGATGAC 
TATGAAGTTC CTCTGCTTTC TGCACCAACA GTGGCCTCTT CATCAGTCAT AGAGACTGAT 
ATTAAAGAGA AGGAAGAAGT AATCCAAGGT AGTCCTGAGG GCAGTGACAG TGCAGACTCT 
GTGGAAGAAA TTCCTTTTCC CTTAGAAGTG CCCCCTATGG AAGACGAAAC TGATATATTT 
CTTGGAGATA GAGTTATATA TGATGATGGG TCTGGTTCAG CTTTTGATGG TTCAGGAAAA 
GAAATGGAAT CAAGTATCTG GCCTTGGGAA GAAGCAGCCC TGGAACCAGT TTTCTACCCT 
GGCCCTGATA GCTGGCTTGA AGATGACAAT GAGTCTTTGT TAATCAAACC TGAGGATATC 
CCTGAAGGCA TGATTTTAGA CTATATTCTT AACTCTGGGA ATAAATTAGA TTATGATCTT 
TCCAAAGATG AGAATGAAGG GATAGTCAAT ATGAAAGATT TCCTTGATGA GTCTGAAATA 
TTTGTCTTTC CAGAGACGAC AACTCCGCAA GTACCTCTGT TACAGACAGA AGAGCCATCG 
TCTGTGGAAC CATCTACACA GACAGAAACA CTGGGCATGT ATGATTCTTC TTTTGTCATG 
CCAGCTGGAG AGGCCCCTGT CTCACCACCA TATACAGATC TGTCTGTGGA AGATAGTCTC 
CATACATCCA CAGGGTCTGT CAGTATGGAG CAATCTGAGG AGTCTAGTGT AGGCCAGAAC 
ATAATCCCTG AAGTAGTTGA GCACCAAAGC AAAGACAGGG CAGTGGTAGA AGAACTATTC 
ACAGTGAGGC AGCCGGATGT AATGGAAACT GCTACAGTAG GACACTTGGA CACAATCTCT 
TTAGAAACTA TTCTGACTGC AGATCCTTCT GGATCAGCAG TGAAGGTACC AGCTGATGTT 
TGGCCTACTG ACAGGGCACT AGAAAGCTCC TTAGATCAGA CAGTGCAACC AGCAATGCCA 
GCAGTTACTC AAGGTTCAGC TGCATTTCCT TCTGTAACAG ATCACACCAC TGTCCTAGAG 
GGCTTTCCTG GACAGCATGG TACAGACCAT GACACACATA TTTCCATGAG CTTCAGCACT 
GTTATGGATT ATCAAACAGT GAGTGTAACA ACCAGCACTG TTGAGCTTCA GTCCCACCTC 
CCTCCTGTGG GATCCACACC GTCATTGTCT GTGGCTACCT CAACAAAGCT GGGAGATGAA 
ACAACGAGAG TCCTGGATGT TTCAGTAGAC CTGGGCAGTG TTAGCACTGT TCACTTTTCT 
CCTGAGCGGA CTGAGGAGGG AAGGAGAATG ACTGAAAGTC ACATGGAGCT GACAACTCAT 
GTCCAGTCCA CAGAGATGGC CAGTGTGGCT TGGGCCACAC ATGAAACCCA CTACAGTAGT 
ACTGTCCCAT CCCGAGCTCT AGTTGTGTTC TTCAGTCTTC GGGTTACCAA CATGATGTTT 
TCAGAGGACC TGTTTAATAA AAACTCCCCT GAATATAAAG CCTTGGAACA GCGATTCTTG 
GAGCTGCTGG TGCCCTACCT TCAGTCAAAT CTGACAGGAT TCCAGAACCT GGAAATCCTG 
AACTTCAGAA ATGGCAGCAT TGTGGTGAAC AGTCGAATGA AATTTGCCAA ACCTGTGCCC 
CGGAATGTCA CCAACGCTGT GTACATGATC CTGGAAGATT TCTGCAACAC TGCATATCAC 
ACCATGAACC TGGCCATCGA TAAATACTCT CTGGATGTAG AATCAGGTGA GCAAGCAGAT 
CCCTGCAAGT TCCAGGCCTG CAATGAGTTC TCTGAATGCT TAGTAAATCG CTGGAGTGGG 
GAAGCTGAGT GTGTCTGCAA CCCTGGCTAC CTCAGCATCG ATGGGCTGCC GTGCAACAGC 
ATTTGTGATC TGCAACCAAA CTTCTGCCTG AACGATGGCA AGTGTGACAT AAGCCCTGGG 
CAAGGGGCCA TCTGTAGGTG CCGTGTGGGA GAGAACTGGT GGTACAGAGG AGAGCACTGT 
GAGGAATACG TGTCCGAGCC ACTGGTTGTG GGTATTGCAA TTGCTTCTGT GGCAGGATTC 
CTTCTGGTGG CATCTGCTGT CATCTTCTTC TTGGCCAGGA CCCTTCGAGA CCAGTACACA 
AAGAGTGATA CTGGGGACTC CCAGGGGCAG GGTGACAGCC TCTCGTCCAT TGAGAATGCA 
GTTAAATACA ACCCCATGTA TGAAAGTGAT ACGACTGGCT ACAGCCATTA TTACCGGAGA 
TATCCACAGC TAACGTCCTA CAGTTCCACC AGTGCAGAGA CATCCACAGA CTACAGCAGT 
GAAGAGATCA GGCACATTTA TGAAAACAGT GAGCTTACTA AGGAGGAAAT TCAGGACAGA 
ATTCGAATTA TAGAGCTCTA CGCTAAAGAC CGGCAGTTTG CAGAGTTTGT TAGGCAGCAT 
CAAATGAAGC TGCTTTAA