TOPBP1 cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	TOPBP1
Entrez Gene ID	105825521
Full Name	DNA topoisomerase II binding protein 1
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012663361.1	XP_012518815.1	DNA topoisomerase 2-binding protein 1

Pathways from BioSystems
Gene Ontology

The following TOPBP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TOPBP1 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
OPr97545	XM_012663361.1 Latest version!	Propithecus coquereli topoisomerase (DNA) II binding protein 1 (TOPBP1), 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)

TOPBP1 ( XM_012663361.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012518815.1 Propithecus coquereli topoisomerase (DNA) II binding protein 1 (TOPBP1), mRNA.

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CloneID	OPr97545
Clone ID Related Accession (Same CDS sequence)	XM_012663361.1
Accession Version	XM_012663361.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4200bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	DNA topoisomerase 2-binding protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012136080.1) 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 Version :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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##

ATGTCCAGAA ATGACACAGA ACCGTTTTTT GTGAAGTTTT TAAAGTCTTC AGACAACTCT 
GAATGTTTTT TTAAAGCTCT TGAGTCAATA AAAGAATTCC AATCAGAAGA ATATCTTCAG 
GTTATTACAG AAGAAGAGGC ATTGAAGATA AAGGAGAATG ACAGATCACT TTATATCTGT 
GACCCTTTTA GTGGCACTGC CTTTGATCAC CTCAAAAAGC TTGGCTGCAG AATTGTTGGT 
CCTCAAGTAG TCATATTTTG TATGCAGCAC CAACGATGTG TCCCAAGAGC CGAACATCCG 
GTTTATAATA TGGTTATGTC TGATGTAACC ATATCTTGTA CAAGTGTGGA AAAAGAAAAA 
AGGGATGAAG TTCATAAATA CGTACAAATG ATGGGTGGTC GAGTATACAG AGACCTTAAT 
GTATCAGTAA CTCACCTCAT TGCAGGAGAA GTTGGTAGCA AAAAGTATTT AGTGGCTGCA 
AACCTAAAGA AACCTATTTT GCTTCCCTCT TGGATAAACA CACTTTGGGA GAAGTCACAA 
GAGAAAAAAA TAACTAGATA TACTGATATC AACATGGAAG ACTTCAAGTG CCCTATTTTT 
CTTGGTTGCA TCATCTGTGT GACTGGCTTG TGTGGTGCAG ACAGGAAGGC AGTTCAGCAG 
CTGACAGTTA AGCATGGAGG TCAATACACG GGACAATTGA AAATGAATGA ATGCACGCAC 
CTCATTGTGC AAGAACCAAA AGGTCAGAAA TATGAATGTG CCAAGAGATG GAATGTACAC 
TGTGTGACCA CACAATGGTT TTTTGACAGT GTTGACAAAG GTTTTTGTCA GGATGAATTC 
ATATACAAGA CAGAACCAAG ACCAGCAACC AAGACTATGC CTGATACTTC AACTCCTGCT 
GGCCAGATCA ACACAATTGA TAGTCGTACT CTTTCAGATG TCAGCCATAT TTCCAACATA 
AATGCGAGTT GCATAAATGA ATCAATATGT AATTCCGCTA ATAGCAAATT GGAGCCTACA 
CTTGAAAATC TAGAAAATCT GGATGTCAGT TCATTTCAAG CACCTGAAGA TTTATTAGAT 
GGTTGTCGGA TATATCTTTG TGGTTTTAGT GGCAGAAAGC TTGACAAACT GAGAAGGCTT 
ATTAACAGTG GAGGTGGAAT TCGTTTTAAT CAGCTTAATG AAGATGTAAC TCATGTTATT 
GTGGGAGATT ATGATGATGA ACTGAAGCAG TTTTGGAATA AATCAGCCCA CAGGCCTCAT 
GTAGTGGGAG CAAAGTGGTT GCTAGAGTGT TTCACTAAAG GTTATATGCT TCCTGAAGAA 
CCATATATCC ATGCCAATTA CCAGCCAGTG GAAATTCCAG TTTCAGATCA ACCTGAAAGT 
AAAGTGGTGG TTTTAAAAAA GAAGAACAGC GGCTTCTCTA ATGAAAAGCA TGAGCAAGCT 
GATGAAGAAC TGCTCTCTCA ATATGTCAAT AATAGTTCCA CAGTAGTTGA AGCTAAGAAG 
TCTGAAGCTG AGAAGTCTGA AGTTGGGCCC TTTAATGATT CTACTCATGT TGAGACCTTT 
AATGATTCTA CTTACATTTT GCCAGAAGAA AACCGATCTT CTGTTAGTCA TTGTCTCCCT 
GATGCTTCTA CAATTACCGA AGAGGGCTTA TTTAGCCAAA AGAGTTTCCT TGTTTTGGGT 
TTTAGTAATG AACATGAATC TACTATTGCA AGCATCATAA AAGAAAATGC TGGAAAAATC 
GTATCCCTTC TGAGCAGAAC TGTTGCTGAT TATGCCGTGG TTCCCCTGCT GGGGTGTGAA 
GTAGAAGCAA CTGTGGGAGA AGTCGTCACA AATACATGGC TGGTTACGTG TATAGACTAT 
CAGACTTTAA TGGATCCAAA GTCGAATCCT CTCTTCACAC CAGTCCCAGT GATGACAGGA 
GTGACTCCTT TAGAAGATTG TGTTATTTCC TTCAGCCAGT GTGCTGGAGC AGAAAAAGAT 
TCTTTGATAT TCTTAGCAAA GTGCCTTGGA GCGAGTGTTC AAGAATTCTT TGTTCGAAAA 
GCCAATACAA AAAAAGGAAT GTTTGCCAGT ACACATCTTG TATTGAAAGA GCCAGGTGGT 
TCTAAATATG AAGCTTCAAA GAAGTGGAAT TTACCGGCAG TCACTATAGC TTGGCTGTTG 
GAGACCGCTA GAATGGGAAA GAAAGCAGAT GAAAGCCATT TTCTGATTGA AAATTCACCT 
AAAGAAGAAC AAAGTCTGGA AACTGAAATA ACAAATGGGA TGAATCTAAA TCCAGATACT 
CCAGAGCGTC CTGGCATACA CCTGGAAACT CACAGAAAAA CAGCTGTTAC ACCGTTAGAT 
ATGAACCGCT TTCAGAGTAA AGCTTTCCAT GCTGTGATCT CACAACATGC CAGACGAGCT 
TCAGCCTCCC CAGCAACAGG ACAGCCACTT CAGAAGGAGC CCTCATTACA CCTTGATACA 
CCATCAAAAT TTCTCTCCAA GGACAAGCTC TTCAAGCCTT CTTTTGATGT GAAGGATGCA 
CTTGCAGCCT TGGAAACTCC AAAAGGTCAT AGCCAACAGA AAAGGAAACT GAGTACACCA 
CTCTCAGAAG TCATTGTGAG AAACTTGAAG CTTGCTTTGG CAAATAGCTC TCGAAATGCT 
GTTGCTGTTT CTGCCAGCCC TCAACTGAAG GACACCCGGT CAGAAAAGGA AGAAGCTCCA 
AAGCCACTTC ACCAGGTAGT GGTATGTGTT AGTAAAAAAC TCAGTAAGAA GCAGAGTGAA 
CTAAATGGGA TTGCAGCCTC TCTAGGAGCA GATTACAGTA TTCATAGCCC TCTGACACAG 
ACCTTGGAGA TGAGAGAGAA CTTTCAAAAG CAGTTACAGG AGATCATGTC TGCAACATCA 
ATAGTGAAAC CCCAAGGGCA GAGGACTTCC CTTTCAAAAA GTGGTTGTAA CAGTGCTTCT 
TCCACCCCTG ACAGCACTCG CTCTGCTCGC AGTGGACGAA GTAGAGTCCT AGAGGCACTG 
AGGCAGTCTC GTCAAACAGT ACCCGATGTC AACACAGAGC CCTCCCAAAA CGAACAGATC 
ATTTGGGATG ACCCTACAGC AAGGGAAGAG AGAGCAAGGC TTGCAAGCAA TTTGCAGTGG 
CCTAGCTGTC CCACACAATA CTCTGAGCTT CAGGTTGATA CTAAAAAATT GGAAGATTCT 
CCTTTCCAGG AGCCTTTGGG TGATTCAGAA ATTGCCAAAC AGGCTGTCTG TGACCCTGGA 
GACAGATGTG TGACTGAAGC CCAAAAACAC CCAATCTCTG AAGAACTGGA AGTGCCAATA 
AAAGACAACC ACCTTATCCC TACTCCTCAA GCCCCCAGTA TTGCCTTCCC TCTCGCCAAC 
CCACCTGTGG CTCCACACCC TAGAGAAAAG ATTATAACAA CAGAGGAGAT TCATGAAGAA 
TTAAAAAAAC AGTACATATT TCAGTTGTCA TCTCTGAATC CTCAAGAACG TATCGATTAT 
TGTCATCTGA TTGAAAAACT GGGTGGATTA GTGATAGAAA AGCAGAGTTT TGATCCCAAC 
TGTACACACA TTGTTGTGGG ACAGCCTCTT CGGAATGAGA AGTATTTAGC CTCCGTGGCA 
GCTGGGAAGT GGGTGCTTCA TCGCTCCTAC CTTGAAGCAT GCAGGACTGC TAGCCGCTTC 
GTGCAGGAAG AAGACTATGA ATGGGGAAGT AGTTCCATAC TTGATGTTTT GACTGGAATC 
AACGTACAGC AACGAAGACT AGCACTTGCA GCAATGAGAT GGAGGAAAAA AATCCAGCAA 
AGACAAGAAT CGGGTGTTGT TGAGGGGGCA TTTTGCGGGT GGAAGGTTAT TTTACATGTT 
GGTCAATCTC GAGAAGCAGG GTTCAAACGC CTTCTTCAGT CAGGAGGAGC AAAGGTGCTA 
CCTGGGCATT CTGTACCTTT ATTCAAAGAA GCCACACATC TTTTTTCTGA CTTTAATAAG 
CTGAAACCAG ATGACTCAGG AGTTAATATA GCAGAAGCCG CTGCCCAGAA TGTGTACTGC 
TTGAAAACAG AATACATTGC TGATTATCTC GTGCAGGAAA CCCCTCCTCA AGTAGAAAAT 
TACTGTCTAC CAGAAGCTGT TGCATTTCTT CAGAACGATA AGGAACCTGA GGCCGGATTA 
TCACAAAAGA GGAAAGCTCC TACAGAGAAA AATAAGATCA AACGACCTAG GGTACACTGA

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

RefSeq	XP_012518815.1
CDS	116..4315
Translation	MSRNDTEPFFVKFLKSSDNSECFFKALESIKEFQSEEYLQVITEEEALKIKENDRSLYICDPFSGTAFDHLKKLGCRIVGPQVVIFCMQHQRCVPRAEHPVYNMVMSDVTISCTSVEKEKRDEVHKYVQMMGGRVYRDLNVSVTHLIAGEVGSKKYLVAANLKKPILLPSWINTLWEKSQEKKITRYTDINMEDFKCPIFLGCIICVTGLCGADRKAVQQLTVKHGGQYTGQLKMNECTHLIVQEPKGQKYECAKRWNVHCVTTQWFFDSVDKGFCQDEFIYKTEPRPATKTMPDTSTPAGQINTIDSRTLSDVSHISNINASCINESICNSANSKLEPTLENLENLDVSSFQAPEDLLDGCRIYLCGFSGRKLDKLRRLINSGGGIRFNQLNEDVTHVIVGDYDDELKQFWNKSAHRPHVVGAKWLLECFTKGYMLPEEPYIHANYQPVEIPVSDQPESKVVVLKKKNSGFSNEKHEQADEELLSQYVNNSSTVVEAKKSEAEKSEVGPFNDSTHVETFNDSTYILPEENRSSVSHCLPDASTITEEGLFSQKSFLVLGFSNEHESTIASIIKENAGKIVSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLMDPKSNPLFTPVPVMTGVTPLEDCVISFSQCAGAEKDSLIFLAKCLGASVQEFFVRKANTKKGMFASTHLVLKEPGGSKYEASKKWNLPAVTIAWLLETARMGKKADESHFLIENSPKEEQSLETEITNGMNLNPDTPERPGIHLETHRKTAVTPLDMNRFQSKAFHAVISQHARRASASPATGQPLQKEPSLHLDTPSKFLSKDKLFKPSFDVKDALAALETPKGHSQQKRKLSTPLSEVIVRNLKLALANSSRNAVAVSASPQLKDTRSEKEEAPKPLHQVVVCVSKKLSKKQSELNGIAASLGADYSIHSPLTQTLEMRENFQKQLQEIMSATSIVKPQGQRTSLSKSGCNSASSTPDSTRSARSGRSRVLEALRQSRQTVPDVNTEPSQNEQIIWDDPTAREERARLASNLQWPSCPTQYSELQVDTKKLEDSPFQEPLGDSEIAKQAVCDPGDRCVTEAQKHPISEELEVPIKDNHLIPTPQAPSIAFPLANPPVAPHPREKIITTEEIHEELKKQYIFQLSSLNPQERIDYCHLIEKLGGLVIEKQSFDPNCTHIVVGQPLRNEKYLASVAAGKWVLHRSYLEACRTASRFVQEEDYEWGSSSILDVLTGINVQQRRLALAAMRWRKKIQQRQESGVVEGAFCGWKVILHVGQSREAGFKRLLQSGGAKVLPGHSVPLFKEATHLFSDFNKLKPDDSGVNIAEAAAQNVYCLKTEYIADYLVQETPPQVENYCLPEAVAFLQNDKEPEAGLSQKRKAPTEKNKIKRPRVH

Target ORF information:

RefSeq Version	XM_012663361.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli topoisomerase (DNA) II binding protein 1 (TOPBP1), mRNA.

Target ORF information:

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

XM_012663361.1

ORF Insert Sequence:

ATGTCCAGAA ATGACACAGA ACCGTTTTTT GTGAAGTTTT TAAAGTCTTC AGACAACTCT 
GAATGTTTTT TTAAAGCTCT TGAGTCAATA AAAGAATTCC AATCAGAAGA ATATCTTCAG 
GTTATTACAG AAGAAGAGGC ATTGAAGATA AAGGAGAATG ACAGATCACT TTATATCTGT 
GACCCTTTTA GTGGCACTGC CTTTGATCAC CTCAAAAAGC TTGGCTGCAG AATTGTTGGT 
CCTCAAGTAG TCATATTTTG TATGCAGCAC CAACGATGTG TCCCAAGAGC CGAACATCCG 
GTTTATAATA TGGTTATGTC TGATGTAACC ATATCTTGTA CAAGTGTGGA AAAAGAAAAA 
AGGGATGAAG TTCATAAATA CGTACAAATG ATGGGTGGTC GAGTATACAG AGACCTTAAT 
GTATCAGTAA CTCACCTCAT TGCAGGAGAA GTTGGTAGCA AAAAGTATTT AGTGGCTGCA 
AACCTAAAGA AACCTATTTT GCTTCCCTCT TGGATAAACA CACTTTGGGA GAAGTCACAA 
GAGAAAAAAA TAACTAGATA TACTGATATC AACATGGAAG ACTTCAAGTG CCCTATTTTT 
CTTGGTTGCA TCATCTGTGT GACTGGCTTG TGTGGTGCAG ACAGGAAGGC AGTTCAGCAG 
CTGACAGTTA AGCATGGAGG TCAATACACG GGACAATTGA AAATGAATGA ATGCACGCAC 
CTCATTGTGC AAGAACCAAA AGGTCAGAAA TATGAATGTG CCAAGAGATG GAATGTACAC 
TGTGTGACCA CACAATGGTT TTTTGACAGT GTTGACAAAG GTTTTTGTCA GGATGAATTC 
ATATACAAGA CAGAACCAAG ACCAGCAACC AAGACTATGC CTGATACTTC AACTCCTGCT 
GGCCAGATCA ACACAATTGA TAGTCGTACT CTTTCAGATG TCAGCCATAT TTCCAACATA 
AATGCGAGTT GCATAAATGA ATCAATATGT AATTCCGCTA ATAGCAAATT GGAGCCTACA 
CTTGAAAATC TAGAAAATCT GGATGTCAGT TCATTTCAAG CACCTGAAGA TTTATTAGAT 
GGTTGTCGGA TATATCTTTG TGGTTTTAGT GGCAGAAAGC TTGACAAACT GAGAAGGCTT 
ATTAACAGTG GAGGTGGAAT TCGTTTTAAT CAGCTTAATG AAGATGTAAC TCATGTTATT 
GTGGGAGATT ATGATGATGA ACTGAAGCAG TTTTGGAATA AATCAGCCCA CAGGCCTCAT 
GTAGTGGGAG CAAAGTGGTT GCTAGAGTGT TTCACTAAAG GTTATATGCT TCCTGAAGAA 
CCATATATCC ATGCCAATTA CCAGCCAGTG GAAATTCCAG TTTCAGATCA ACCTGAAAGT 
AAAGTGGTGG TTTTAAAAAA GAAGAACAGC GGCTTCTCTA ATGAAAAGCA TGAGCAAGCT 
GATGAAGAAC TGCTCTCTCA ATATGTCAAT AATAGTTCCA CAGTAGTTGA AGCTAAGAAG 
TCTGAAGCTG AGAAGTCTGA AGTTGGGCCC TTTAATGATT CTACTCATGT TGAGACCTTT 
AATGATTCTA CTTACATTTT GCCAGAAGAA AACCGATCTT CTGTTAGTCA TTGTCTCCCT 
GATGCTTCTA CAATTACCGA AGAGGGCTTA TTTAGCCAAA AGAGTTTCCT TGTTTTGGGT 
TTTAGTAATG AACATGAATC TACTATTGCA AGCATCATAA AAGAAAATGC TGGAAAAATC 
GTATCCCTTC TGAGCAGAAC TGTTGCTGAT TATGCCGTGG TTCCCCTGCT GGGGTGTGAA 
GTAGAAGCAA CTGTGGGAGA AGTCGTCACA AATACATGGC TGGTTACGTG TATAGACTAT 
CAGACTTTAA TGGATCCAAA GTCGAATCCT CTCTTCACAC CAGTCCCAGT GATGACAGGA 
GTGACTCCTT TAGAAGATTG TGTTATTTCC TTCAGCCAGT GTGCTGGAGC AGAAAAAGAT 
TCTTTGATAT TCTTAGCAAA GTGCCTTGGA GCGAGTGTTC AAGAATTCTT TGTTCGAAAA 
GCCAATACAA AAAAAGGAAT GTTTGCCAGT ACACATCTTG TATTGAAAGA GCCAGGTGGT 
TCTAAATATG AAGCTTCAAA GAAGTGGAAT TTACCGGCAG TCACTATAGC TTGGCTGTTG 
GAGACCGCTA GAATGGGAAA GAAAGCAGAT GAAAGCCATT TTCTGATTGA AAATTCACCT 
AAAGAAGAAC AAAGTCTGGA AACTGAAATA ACAAATGGGA TGAATCTAAA TCCAGATACT 
CCAGAGCGTC CTGGCATACA CCTGGAAACT CACAGAAAAA CAGCTGTTAC ACCGTTAGAT 
ATGAACCGCT TTCAGAGTAA AGCTTTCCAT GCTGTGATCT CACAACATGC CAGACGAGCT 
TCAGCCTCCC CAGCAACAGG ACAGCCACTT CAGAAGGAGC CCTCATTACA CCTTGATACA 
CCATCAAAAT TTCTCTCCAA GGACAAGCTC TTCAAGCCTT CTTTTGATGT GAAGGATGCA 
CTTGCAGCCT TGGAAACTCC AAAAGGTCAT AGCCAACAGA AAAGGAAACT GAGTACACCA 
CTCTCAGAAG TCATTGTGAG AAACTTGAAG CTTGCTTTGG CAAATAGCTC TCGAAATGCT 
GTTGCTGTTT CTGCCAGCCC TCAACTGAAG GACACCCGGT CAGAAAAGGA AGAAGCTCCA 
AAGCCACTTC ACCAGGTAGT GGTATGTGTT AGTAAAAAAC TCAGTAAGAA GCAGAGTGAA 
CTAAATGGGA TTGCAGCCTC TCTAGGAGCA GATTACAGTA TTCATAGCCC TCTGACACAG 
ACCTTGGAGA TGAGAGAGAA CTTTCAAAAG CAGTTACAGG AGATCATGTC TGCAACATCA 
ATAGTGAAAC CCCAAGGGCA GAGGACTTCC CTTTCAAAAA GTGGTTGTAA CAGTGCTTCT 
TCCACCCCTG ACAGCACTCG CTCTGCTCGC AGTGGACGAA GTAGAGTCCT AGAGGCACTG 
AGGCAGTCTC GTCAAACAGT ACCCGATGTC AACACAGAGC CCTCCCAAAA CGAACAGATC 
ATTTGGGATG ACCCTACAGC AAGGGAAGAG AGAGCAAGGC TTGCAAGCAA TTTGCAGTGG 
CCTAGCTGTC CCACACAATA CTCTGAGCTT CAGGTTGATA CTAAAAAATT GGAAGATTCT 
CCTTTCCAGG AGCCTTTGGG TGATTCAGAA ATTGCCAAAC AGGCTGTCTG TGACCCTGGA 
GACAGATGTG TGACTGAAGC CCAAAAACAC CCAATCTCTG AAGAACTGGA AGTGCCAATA 
AAAGACAACC ACCTTATCCC TACTCCTCAA GCCCCCAGTA TTGCCTTCCC TCTCGCCAAC 
CCACCTGTGG CTCCACACCC TAGAGAAAAG ATTATAACAA CAGAGGAGAT TCATGAAGAA 
TTAAAAAAAC AGTACATATT TCAGTTGTCA TCTCTGAATC CTCAAGAACG TATCGATTAT 
TGTCATCTGA TTGAAAAACT GGGTGGATTA GTGATAGAAA AGCAGAGTTT TGATCCCAAC 
TGTACACACA TTGTTGTGGG ACAGCCTCTT CGGAATGAGA AGTATTTAGC CTCCGTGGCA 
GCTGGGAAGT GGGTGCTTCA TCGCTCCTAC CTTGAAGCAT GCAGGACTGC TAGCCGCTTC 
GTGCAGGAAG AAGACTATGA ATGGGGAAGT AGTTCCATAC TTGATGTTTT GACTGGAATC 
AACGTACAGC AACGAAGACT AGCACTTGCA GCAATGAGAT GGAGGAAAAA AATCCAGCAA 
AGACAAGAAT CGGGTGTTGT TGAGGGGGCA TTTTGCGGGT GGAAGGTTAT TTTACATGTT 
GGTCAATCTC GAGAAGCAGG GTTCAAACGC CTTCTTCAGT CAGGAGGAGC AAAGGTGCTA 
CCTGGGCATT CTGTACCTTT ATTCAAAGAA GCCACACATC TTTTTTCTGA CTTTAATAAG 
CTGAAACCAG ATGACTCAGG AGTTAATATA GCAGAAGCCG CTGCCCAGAA TGTGTACTGC 
TTGAAAACAG AATACATTGC TGATTATCTC GTGCAGGAAA CCCCTCCTCA AGTAGAAAAT 
TACTGTCTAC CAGAAGCTGT TGCATTTCTT CAGAACGATA AGGAACCTGA GGCCGGATTA 
TCACAAAAGA GGAAAGCTCC TACAGAGAAA AATAAGATCA AACGACCTAG GGTACACTGA