Colony morphotype diversification as a signature of bacterial evolution

Abstract: The appearance of colony morphotypes is a signature of genetic diversification in evolving bacterial populations. Colony structure highly depends on the cell–cell interactions and polymer production that are adjusted during evolution in an environment that allows the development of spatial structures. Nucci and colleagues describe the emergence of a rough and dry morphotype of a noncapsulated Klebsiella variicola strain during a laboratory evolution study, resembling genetic changes observed in clinical isolat… Show more

“…In Pasteurella multocida and Vibrio vulnificus, mutants lacking the CPS formed significantly more biofilms than wild type 33,34 . The lack of CPS can influence the evolutionary strategy of Klebsiella variicola to spatially structured environments, impacting traits such as aggregation, virulence, and morphotype differentiation [41][42][43] . Even though the evolved P. stutzeri isolate and the mutant did not enhance pellicle formation in isolation, they enhanced the formation of dual-species biofilms through overproduction of extracellular polysaccharides.…”

Interspecies interaction reshapes the fitness landscape of evolved genotypes

“…In Pasteurella multocida and Vibrio vulnificus, mutants lacking the CPS formed significantly more biofilms than wild type 33,34 . The lack of CPS can influence the evolutionary strategy of Klebsiella variicola to spatially structured environments, impacting traits such as aggregation, virulence, and morphotype differentiation [41][42][43] . Even though the evolved P. stutzeri isolate and the mutant did not enhance pellicle formation in isolation, they enhanced the formation of dual-species biofilms through overproduction of extracellular polysaccharides.…”

Interspecies interaction reshapes the fitness landscape of evolved genotypes