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How significant is social evolution theory for the maintenance of virulence in natural populations? We assume that secreted, distantly acting virulence fac tors are highly likely to be cooperative public goods. Using this assumption, we discuss and critically assess the potential importance of social interactions for understanding the evolution, diversity and distribution of virulence in the Bacillus cereus group, a novel study system for microbial social biology. We conclude that dynamic equilibria in Cry toxin production, as well as strong spatial structure and population bottlenecks in hosts are the main ecological factors maintaining the cooperative secretion of virulence factors and argue that collective action has contributed to the evolution of narrow host range. Non-linearities in the benefits associated with public goods, as well as the lack of private secretion systems in the Firmicutes may also explain the prevalence and importance of distantly acting virulence factors in B. cereus and its relatives. © 2013 WILEY Periodicals, Inc.

Original publication

DOI

10.1002/bies.201300028

Type

Journal article

Journal

BioEssays

Publication Date

01/08/2013

Volume

35

Pages

706 - 716