Control of cell fate by the formation of an architecturally complex bacterial community.
暂无分享,去创建一个
Roberto Kolter | H. Vlamakis | R. Losick | R. Kolter | C. Aguilar | Richard Losick | Hera Vlamakis | Claudio Aguilar
[1] B. Lazazzera. Lessons from DNA microarray analysis: the gene expression profile of biofilms. , 2005, Current opinion in microbiology.
[2] M. Parsek,et al. The promise and peril of transcriptional profiling in biofilm communities. , 2007, Current opinion in microbiology.
[3] J. Raser,et al. Noise in Gene Expression: Origins, Consequences, and Control , 2005, Science.
[4] R. Losick,et al. Cannibalism by Sporulating Bacteria , 2003, Science.
[5] J. Hoch,et al. Initiation of sporulation in B. subtilis is controlled by a multicomponent phosphorelay , 1991, Cell.
[6] K. Hellingwerf,et al. Effects of Phosphorelay Perturbations on Architecture, Sporulation, and Spore Resistance in Biofilms of Bacillus subtilis , 2006, Journal of bacteriology.
[7] Masaya Fujita,et al. High- and Low-Threshold Genes in the Spo0A Regulon of Bacillus subtilis , 2005, Journal of bacteriology.
[8] K. Chater. Regulation of sporulation in Streptomyces coelicolor A3(2): a checkpoint multiplex? , 2001, Current opinion in microbiology.
[9] M. Chamberlin,et al. The Bacillus subtilis flagellin gene (hag) is transcribed by the sigma 28 form of RNA polymerase , 1989, Journal of bacteriology.
[10] J. Costerton,et al. Biofilms as complex differentiated communities. , 2002, Annual review of microbiology.
[11] A. Driks,et al. Secretion, Localization, and Antibacterial Activity of TasA, a Bacillus subtilis Spore-Associated Protein , 1999, Journal of bacteriology.
[12] D. Rudner,et al. Subcellular localization of a sporulation membrane protein is achieved through a network of interactions along and across the septum , 2005, Molecular microbiology.
[13] Philip S. Stewart,et al. Stratified Growth in Pseudomonas aeruginosa Biofilms , 2004, Applied and Environmental Microbiology.
[14] R. Losick,et al. Targets of the master regulator of biofilm formation in Bacillus subtilis , 2006, Molecular microbiology.
[15] R. Losick,et al. Fruiting body formation by Bacillus subtilis , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[16] Oscar P. Kuipers,et al. Phenotypic variation in bacteria: the role of feedback regulation , 2006, Nature Reviews Microbiology.
[17] P. Stragier,et al. Plasmids for ectopic integration in Bacillus subtilis. , 1996, Gene.
[18] R. Kolter,et al. Biofilm formation as microbial development. , 2000, Annual review of microbiology.
[19] R. Losick,et al. A major protein component of the Bacillus subtilis biofilm matrix , 2006, Molecular microbiology.
[20] Roberto Kolter,et al. Bistability and biofilm formation in Bacillus subtilis , 2007, Molecular microbiology.
[21] P. Watnick,et al. Biofilm, City of Microbes , 2000 .
[22] R. Kolter,et al. Microbial sciences: The superficial life of microbes , 2006, Nature.
[23] R. Losick,et al. A master regulator for biofilm formation by Bacillus subtilis , 2004, Molecular microbiology.
[24] Lotte Søgaard-Andersen,et al. Coupling gene expression and multicellular morphogenesis during fruiting body formation in Myxococcus xanthus , 2003, Molecular microbiology.
[25] A. Grossman,et al. Gene expression in single cells of Bacillus subtilis: evidence that a threshold mechanism controls the initiation of sporulation , 1994, Journal of bacteriology.
[26] P. Setlow. Small, acid-soluble spore proteins of Bacillus species: structure, synthesis, genetics, function, and degradation. , 1988, Annual review of microbiology.
[27] U. Kües. Life History and Developmental Processes in the Basidiomycete Coprinus cinereus , 2000, Microbiology and Molecular Biology Reviews.
[28] P. Stewart,et al. Spatial Patterns of DNA Replication, Protein Synthesis, and Oxygen Concentration within Bacterial Biofilms Reveal Diverse Physiological States , 2007, Journal of bacteriology.
[29] Masaya Fujita,et al. Evidence that entry into sporulation in Bacillus subtilis is governed by a gradual increase in the level and activity of the master regulator Spo0A. , 2005, Genes & development.
[30] J. Hoch,et al. Evolution of signalling in the sporulation phosphorelay , 2002, Molecular microbiology.
[31] O. Kuipers,et al. Single cell analysis of gene expression patterns of competence development and initiation of sporulation in Bacillus subtilis grown on chemically defined media , 2006, Journal of applied microbiology.
[32] F. Young,et al. Transduction in Bacillus subtilis by Bacteriophage SPP1 , 1974, Journal of virology.
[33] R. Losick,et al. Bistability in bacteria , 2006, Molecular microbiology.
[34] Terrance Leighton,et al. Postexponential Regulation of sin Operon Expression in Bacillus subtilis , 2002, Journal of bacteriology.
[35] Georg Homuth,et al. Development of a New Integration Site within theBacillus subtilis Chromosome and Construction of Compatible Expression Cassettes , 2001, Journal of bacteriology.