Is Bacterial Persistence a Social Trait?
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[1] A. Griffin,et al. The Social Lives of Microbes , 2007 .
[2] A. Griffin,et al. Social semantics : altruism , cooperation , mutualism , strong reciprocity and group selection , 2007 .
[3] K. Lewis. Persister cells, dormancy and infectious disease , 2007, Nature Reviews Microbiology.
[4] Ned S Wingreen,et al. Cooperation among Microorganisms , 2006, PLoS biology.
[5] A. Gardner,et al. Demography, altruism, and the benefits of budding , 2006, Journal of evolutionary biology.
[6] P. Graumann,et al. Different genetic programmes within identical bacteria under identical conditions: the phenomenon of bistability greatly modifies our view on bacterial populations , 2006, Molecular microbiology.
[7] R. Losick,et al. Bistability in bacteria , 2006, Molecular microbiology.
[8] Simon V. Avery,et al. Microbial cell individuality and the underlying sources of heterogeneity , 2006, Nature Reviews Microbiology.
[9] A. Griffin,et al. Social evolution theory for microorganisms , 2006, Nature Reviews Microbiology.
[10] Mark Rees,et al. Seed Dormancy and Delayed Flowering in Monocarpic Plants: Selective Interactions in a Stochastic Environment , 2006, The American Naturalist.
[11] B. Levin,et al. Non-inherited antibiotic resistance , 2006, Nature Reviews Microbiology.
[12] R. Kolter,et al. Microbial sciences: The superficial life of microbes , 2006, Nature.
[13] M. Surette,et al. Communication in bacteria: an ecological and evolutionary perspective , 2006, Nature Reviews Microbiology.
[14] S. Finkel. Long-term survival during stationary phase: evolution and the GASP phenotype , 2006, Nature Reviews Microbiology.
[15] K. Foster,et al. Conflict resolution in insect societies. , 2006, Annual review of entomology.
[16] Andreas Wagner,et al. Faculty Opinions recommendation of Bacterial persistence: a model of survival in changing environments. , 2005 .
[17] B. R. Levin,et al. Phenotypic Tolerance: Antibiotic Enrichment of Noninherited Resistance in Bacterial Populations , 2005, Antimicrobial Agents and Chemotherapy.
[18] B. Levin. Noninherited Resistance to Antibiotics , 2004, Science.
[19] S. Leibler,et al. Bacterial Persistence as a Phenotypic Switch , 2004, Science.
[20] A. Griffin,et al. Cooperation and competition in pathogenic bacteria , 2004, Nature.
[21] K. Lewis,et al. Corrigendum to: “Persister cells and tolerance to antimicrobials” [FEMS Microbiol. Lett. 230 (2003) 12–18] , 2004 .
[22] Zdena Palková,et al. Multicellular microorganisms: laboratory versus nature , 2004, EMBO reports.
[23] K. Lewis,et al. Persister cells and tolerance to antimicrobials. , 2004, FEMS microbiology letters.
[24] D. Allison,et al. Clonal variation in maximum specific growth rate and susceptibility towards antimicrobials , 2003, Journal of applied microbiology.
[25] A. Griffin,et al. Cooperation and Competition Between Relatives , 2002, Science.
[26] A. Buckling,et al. Phenotypic switching of antibiotic resistance circumvents permanent costs in Staphylococcus aureus , 2001, Current Biology.
[27] K. Lewis,et al. Programmed Death in Bacteria , 2000, Microbiology and Molecular Biology Reviews.
[28] J. Strassmann. Evolution: Bacterial cheaters , 2000, Nature.
[29] S. Siller. Foundations of Social Evolution , 1999, Heredity.
[30] J. Strassmann,et al. Mate number, kin selection and social conflicts in stingless bees and honeybees , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[31] H. Godfray,et al. The evolution of diapause in a coupled host-parasitoid system. , 1998, Journal of theoretical biology.
[32] J. Shapiro. Thinking about bacterial populations as multicellular organisms. , 1998, Annual review of microbiology.
[33] M. Rees. Evolutionary ecology of seed dormancy and seed size , 1996 .
[34] P. Taylor,et al. How to make a kin selection model. , 1996, Journal of theoretical biology.
[35] Steven A. Frank,et al. Models of Parasite Virulence , 1996, The Quarterly Review of Biology.
[36] P D Taylor,et al. Inclusive fitness arguments in genetic models of behaviour , 1996, Journal of mathematical biology.
[37] Melvyn H. Schreiber,et al. T and A , 1992 .
[38] T. Philippi,et al. Hedging one's evolutionary bets, revisited. , 1989, Trends in ecology & evolution.
[39] James A. Shapiro,et al. BACTERIA AS MULTICELLULAR ORGANISMS , 1988 .
[40] H. Godfray,et al. Seasonal variation in the reproductive strategy of the parasitic wasp Eulophus larvarum (Hymenoptera: Chalcidoidea: Eulophidae) , 1987 .
[41] Stephen P. Ellner,et al. Germination dimorphisms and parent-offspring conflict in seed germination* , 1986 .
[42] A. Tomasz,et al. Evaluation of the bactericidal activity of beta-lactam antibiotics on slowly growing bacteria cultured in the chemostat , 1986, Antimicrobial Agents and Chemotherapy.
[43] J. M. Smith,et al. The Logic of Animal Conflict , 1973, Nature.
[44] W. Hamilton,et al. Selfish and Spiteful Behaviour in an Evolutionary Model , 1970, Nature.
[45] W. Hamilton. The genetical evolution of social behaviour. I. , 1964, Journal of theoretical biology.
[46] W. Hamilton. The Evolution of Altruistic Behavior , 1963, The American Naturalist.
[47] N. Pride,et al. Treatment of Staphylococcal Infections with Methicillin , 1962, British medical journal.
[48] H. Eagle. THE EFFECT OF THE SIZE OF THE INOCULUM AND THE AGE OF THE INFECTION ON THE CURATIVE DOSE OF PENICILLIN IN EXPERIMENTAL INFECTIONS WITH STREPTOCOCCI, PNEUMOCOCCI, AND TREPONEMA PALLIDUM , 1949, The Journal of experimental medicine.
[49] J. Bigger. TREATMENT OF STAPHYLOCOCCAL INFECTIONS WITH PENICILLIN BY INTERMITTENT STERILISATION , 1944 .
[50] S. W. Lee,et al. Mode of Action of Penicillin , 1944, Journal of bacteriology.