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title Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Genomics of five Clostridium species Comparative Microbial Genomics Group A DNA-Centric View DIAGNOSIS, EPIDEMIOLOGY AND ANTIBIOTIC RESISTANCE OF THE GENUS CLOSTRIDIUM 17-18 October, 2003 - Parma, Italy Adv. Bioinformatics Lekture, 21 November, 2003
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OVERVIEW 1. Comparison of five Clostridium genomes overview Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003 2. Local View: DNA Structures and Clostridium Promoters 3. Global View: oligomer bias in Clostridium genomes
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Cp 100 genomes Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group How do you compare more than 100 bacterial genomes? Parma, 2003
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AT content Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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AT content Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Global Repeats Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Local Repeats Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Purine stretches Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Cp. rRNAs Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Cp. protein Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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All paralogs Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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firmicutes Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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C.tetani plasmid Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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C.tet zoom Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Promoter structures Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Promoter Structural profile -10 “TATA box”-35 Parma, 2003
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Campy pVir zoom Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Promoter structure Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU -35 -10 TATA J. Mol. Biol., 326:1361-1372, (2003). Parma, 2003
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Translation start aligned Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU J. Mol. Biol., 299:907-930, (2000). Parma, 2003
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Promoter structures Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Promoter Structural profile +1 CDS DNA curvature, flexibility important here melts rigid cruciform -10 -35 mRNA CDS ’ -10 -35 +1 Parma, 2003
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context Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU Information Depends on Context….. Parma, 2003
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sigmas Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Sigma70s with colour Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU Clostridium ’s RpoH C. perfringens C. acetobutylicum C. tetani RpoD RpoS FliA SpoII spoI
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Sig70 tree Center for Biological Sequence Analysis The Technical University of Denmark DTU Proteobacteria Firmicutes Actinobacteria 70 Chlamydia Cyanobact. “other phyla” RpoD RpoS “RpoD like” sigE sporulation iniation RpoH sigF sporulation sigG sporulation sigH RpoF flagella
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sigmas Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Environmental influence Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group ’ -10 -35 DNA curvature, flexibility important here +1 50 mM salt 20 deg C ’ -10-35+1 300 mM salt 37 deg C Parma, 2003
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Context 2 Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU Information Depends on Context….. Parma, 2003
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C. acetobutylicum Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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C. botulinum Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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C.difficile Atlas Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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C.tetani genome Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Toxin tetanospasmin Anaerobic conditions allow germination of spores and production of toxins. The tetanus toxin is a 150 KDa protein, which is cleaved extra cellular, to a 100 Kda and a 50 Kda, that are binded with a sulfur bridge. Toxin binds in central nervous system Interferes with neurotransmitter release to block inhibitor impulses. Leads to unopposed muscle contraction and spasm.
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C.perfringens Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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C.perf. skew Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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oligomers Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group LEADING STRAND, Oligomer bias (up to 8mers) Origin position: 0Strand difference(bits): 4105557 Oligo bits G 92292 GA 81583 AG 64095 AGA 60700 GG 46169 GAG 34200 GAA 33918 A 31417 GGA 31259 AA 25862 AGG 25340 AAG 24943 AGAG 24464 AGAA 23535 AAGA 23005 GAAA 18825 GAGA 18448 ATG 18129 GAT 17623 GGG 17200 LAGGING STRAND, Oligomer bias Terminus position: 1361000 Strand difference(bits): 3977053 Oligo bits C 93908 TC 82712 CT 62349 TCT 57477 CC 47113 TTC 35786 CTC 32995 TCC 32250 T 29779 CCT 24636 TT 23842 TTCT 23751 CTCT 22962 CTT 22661 TCTT 21517 TTTC 19334 CCC 18554 CAT 18537 TCTC 17833 ATC 17657
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C. Perf skew2 Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Organisms S/N Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Signal/Noise plot Center for Biological Sequence Analysis The Technical University of Denmark DTU Comparative Microbial Genomics Group Parma, 2003
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Summary 1. DNA sequence DNA structure Function summary Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU 2. Clostridium difficile is more likely to be variable. 3. Clostridium DNA is different! Parma, 2003
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Acknowledgements Comparative Microbial Genomics Group Center for Biological Sequence Analysis The Technical University of Denmark DTU Acknowledgements Jakob Bondo Jimmy Hoffmann Hansen Paiman Khorsand-Jamal Anne Egholm Pedersen Maria Seier Petersen Peter Hallin Dave@cbs.dtu.dk The Danish Research Foundation www.cbs.dtu.dk Hans-Henrik Stærfeldt Lars Juhl Jensen Carsten Friis Marie Skovgaard Peder Worning Thomas Scheritz Pontén Søren Brunak Parma, 2003
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