Guido Grandi
University of Trento
267 Papers
3K Citations
Guido Grandi is an academic researcher from University of Trento. The author has contributed to research in topics: Antigen & Biology. The author has an hindex of 65, co-authored 264 publications. Previous affiliations of Guido Grandi include Novartis & Chiron Corporation.
Chat about Author
Papers
The complete genome sequence of the Gram-positive bacterium Bacillus subtilis
F. Kunst,Naotake Ogasawara,Ivan Moszer,Alessandra M. Albertini,G. Alloni,Vasco Azevedo,M. G. Bertero,M. G. Bertero,Philippe Bessières,Bolotin Ap,S. Borchert,Rainer Borriss,L. Boursier,Alain Brans,M. Braun,S. C. Brignell,Sierd Bron,S. Brouillet,S. Brouillet,Carlo V. Bruschi,B. Caldwell,V. Capuano,Noel Carter,Soo Keun Choi,J.-J. Codani,Ian F. Connerton,Nicola J. Cummings,Richard A. Daniel,François Denizot,Kevin M. Devine,A. Düsterhöft,Stanislav Dusko Ehrlich,P. T. Emmerson,K. D. Entian,Jeff Errington,C. Fabret,Eugenio Ferrari,D. Foulger,C. Fritz,Masaya Fujita,Yasutaro Fujita,S. Fuma,Alessandro Galizzi,Nathalie Galleron,Sa Youl Ghim,Philippe Glaser,André Goffeau,E. J. Golightly,Guido Grandi,G. Guiseppi,BJ Guy,Kazuko Haga,Jacques Haiech,Colin R. Harwood,Alain Hénaut,H. Hilbert,Siger Holsappel,S. Hosono,Marie-Françoise Hullo,Mitsuhiro Itaya,Louis M. Jones,Bernard Joris,Dimitri Karamata,Y. Kasahara,M. Klaerr-Blanchard,Carsten Klein,Y. Kobayashi,P. Koetter,G. Koningstein,Susanne Krogh,Miyuki Kumano,Kanako Kurita,Alla Lapidus,S. Lardinois,J. Lauber,Vladimir Lazarevic,Simon Ming-Yuen Lee,Alain Levine,H. Liu,S. Masuda,Catherine Mauël,Claudine Médigue,Claudine Médigue,N. Medina,Rafael P. Mellado,Motoki Mizuno,D. Moestl,S. Nakai,Michiel A. Noback,David Noone,Mary O'Reilly,K. Ogawa,A. Ogiwara,B. Oudega,S.-H. Park,Victor Parro,Thomas Pohl,Daniel Portetelle,Steffen Porwollik,A. M. Prescott,E. Presecan,Petar Pujic,Bénédicte Purnelle,Georges Rapoport,M. Rey,Stacey Reynolds,Michael A. Rieger,Carlo Rivolta,Eduardo P. C. Rocha,Eduardo P. C. Rocha,B. Roche,Matthias Rose,Yoshito Sadaie,Toshitada Sato,E. Scanlan,S. Schleich,R. Schroeter,F Scoffone,Junichi Sekiguchi,Agnieszka Sekowska,Simone J. Séror,Pascale Serror,B.-S. Shin,Blazenka Soldo,Alexei Sorokin,E. Tacconi,T. Takagi,Hideyuki Takahashi,Ken-Ichi Takemaru,Michio Takeuchi,A. Tamakoshi,Tetsu Tanaka,Peter Terpstra,Angelo Tognoni,Valentina Tosato,Shigeki Uchiyama,Micheline Vandenbol,Françoise Vannier,A. Vassarotti,Alain Viari,R. Wambutt,E. Wedler,H. Wedler,T. Weitzenegger,P. Winters,Anil Wipat,Hiroki Yamamoto,Kunio Yamane,K. Yasumoto,Katsunori Yata,K. Yoshida,Hisashi Yoshikawa,Emmanuelle Zumstein,Hiroshi Yoshikawa,Antoine Danchin +154 more
TL;DR: Bacillus subtilis is the best-characterized member of the Gram-positive bacteria, indicating that bacteriophage infection has played an important evolutionary role in horizontal gene transfer, in particular in the propagation of bacterial pathogenesis.
Genome analysis of multiple pathogenic isolates of Streptococcus agalactiae: Implications for the microbial “pan-genome”
Hervé Tettelin,Vega Masignani,Michael J. Cieslewicz,Claudio Donati,Duccio Medini,Naomi L. Ward,Samuel V. Angiuoli,Jonathan Crabtree,Amanda L. Jones,A. Scott Durkin,Robert T. DeBoy,Tanja M. Davidsen,Marirosa Mora,Maria Scarselli,Immaculada Margarit Y Ros,Jeremy Peterson,Christopher R. Hauser,Jaideep P. Sundaram,William C. Nelson,Ramana Madupu,Lauren M. Brinkac,Robert J. Dodson,M. J. Rosovitz,Steven A. Sullivan,Sean C. Daugherty,Daniel H. Haft,Jeremy D. Selengut,Michelle L. Gwinn,Liwei Zhou,Nikhat Zafar,Hoda Khouri,Diana Radune,George Dimitrov,Kisha Watkins,Kevin J. B. O'Connor,Shannon Smith,Teresa Utterback,Owen White,Craig E. Rubens,Guido Grandi,Lawrence C. Madoff,Dennis L. Kasper,John L. Telford,Michael R. Wessels,Rino Rappuoli,Claire M. Fraser +45 more
TL;DR: The genomic sequence of six strains representing the five major disease-causing serotypes of Streptococcus agalactiae, the main cause of neonatal infection in humans, was generated and Mathematical extrapolation of the data suggests that the gene reservoir available for inclusion in the S. agalactic pan-genome is vast and that unique genes will continue to be identified even after sequencing hundreds of genomes.
2.5K
Identification of vaccine candidates against serogroup B meningococcus by whole-genome sequencing.
Mariagrazia Pizza,[No Value] Scarlato,Masignani,Marzia Monica Giuliani,Beatrice Aricò,Maurizio Comanducci,Gary T. Jennings,L Baldi,Erika Bartolini,Barbara Capecchi,CL Galeotti,Enrico Luzzi,Roberto Manetti,Elisa Marchetti,Marirosa Mora,Sandra Nuti,Giulio Ratti,Laura Santini,Silvana Savino,Maria Scarselli,E Storni,PJ Zuo,M Broeker,E Hundt,B Knapp,E Blair,Tanya Mason,Hervé Tettelin,Derek W. Hood,AC Jeffries,Nigel J. Saunders,Dan M. Granoff,J. C. Venter,E R Moxon,Guido Grandi,Rino Rappuoli +35 more
TL;DR: The entire genome sequence of a virulent serogroup B strain was used to identify vaccine candidates and allowed the identification of proteins that are surface exposed, that are conserved in sequence across a range of strains, and that induce a bactericidal antibody response, a property known to correlate with vaccine efficacy in humans.
1.5K
Complete Genome Sequence of Neisseria meningitidis Serogroup B Strain MC58
Hervé Tettelin,Nigel J. Saunders,John F. Heidelberg,Alex C. Jeffries,Karen E. Nelson,Jonathan A. Eisen,Karen A. Ketchum,Derek W. Hood,John F. Peden,Robert J. Dodson,William C. Nelson,Michelle L. Gwinn,Robert T. DeBoy,Jeremy Peterson,Erin Hickey,Daniel H. Haft,Steven L. Salzberg,Owen White,Robert D. Fleischmann,Brian Dougherty,Tanya Mason,Anne Ciecko,Debbie S. Parksey,Eric Blair,Henry Cittone,Emily B. Clark,Matthew D. Cotton,T. Utterback,Hoda Khouri,Haiying Qin,Jessica Vamathevan,John Gill,Vincenzo Scarlato,Vega Masignani,Mariagrazia Pizza,Guido Grandi,Li Sun,Hamilton O. Smith,Claire M. Fraser,E. Richard Moxon,Rino Rappuoli,J. Craig Venter +41 more
TL;DR: Neisseria meningitidis contains more genes that undergo phase variation than any pathogen studied to date, a mechanism that controls their expression and contributes to the evasion of the host immune system.
1.2K
Complete genome sequence and comparative genomic analysis of an emerging human pathogen, serotype V Streptococcus agalactiae
Hervé Tettelin,Vega Masignani,Michael J. Cieslewicz,Jonathan A. Eisen,Jonathan A. Eisen,Scott N. Peterson,Scott N. Peterson,Michael R. Wessels,Ian T. Paulsen,Ian T. Paulsen,Karen E. Nelson,Immaculada Margarit,Timothy D. Read,Lawrence C. Madoff,Alex M. Wolf,Maureen J. Beanan,Lauren M. Brinkac,Sean C. Daugherty,Robert T. DeBoy,A. Scott Durkin,James F. Kolonay,Ramana Madupu,Matthew R. Lewis,Diana Radune,Nadezhda B. Fedorova,David J. Scanlan,Hoda Khouri,Stephanie Mulligan,Heather A. Carty,Robin T. Cline,Susan Van Aken,John Gill,Maria Scarselli,Marirosa Mora,Emilia Tiziana Iacobini,Cecilia Brettoni,Giuliano Galli,Massimo Mariani,Filippo Vegni,Domenico Maione,C. Daniela Rinaudo,Rino Rappuoli,John L. Telford,Dennis L. Kasper,Guido Grandi,Claire M. Fraser,Claire M. Fraser +46 more
TL;DR: In silico analyses, combined with comparative genome hybridization experiments between the sequenced serotype V strain 2603 V/R and 19 S. agalactiae strains from several serotypes using whole-genome microarrays, revealed the genetic heterogeneity among S. agriculture, provided insights into the evolution of virulence mechanisms.