CONICET | Buscador de Institutos y Recursos Humanos

Spontaneous phage-resistant mutants were isolated from 12 commercial Streptococcus thermophilus strains by secondary-culture method. They were characterized by cell and colony morphology, carbohydrate fermentation patterns, phage-resistance stability, efficiency of plaquing (EOP), acidifying and proteolytic powers and milk acidification kinetics. Only 22.6% (n ¼ 100) of isolates proved to be true phage-resistant mutants. Phage resistance stability was a variable parameter among the mutants isolated, while EOP values were mostly very low (o107). Acidifying and proteolytic powers did not differ (p40:05) between phage-sensitive strains and their respective phage-resistant derivatives. Groups of mutants were found showing a milk acidifying activity which was slower or faster than that observed for the parent strain. Some mutants exhibiting high phage resistance and good technological capacities could be used as improved strains for industrial processes.Streptococcus thermophilus strains by secondary-culture method. They were characterized by cell and colony morphology, carbohydrate fermentation patterns, phage-resistance stability, efficiency of plaquing (EOP), acidifying and proteolytic powers and milk acidification kinetics. Only 22.6% (n ¼ 100) of isolates proved to be true phage-resistant mutants. Phage resistance stability was a variable parameter among the mutants isolated, while EOP values were mostly very low (o107). Acidifying and proteolytic powers did not differ (p40:05) between phage-sensitive strains and their respective phage-resistant derivatives. Groups of mutants were found showing a milk acidifying activity which was slower or faster than that observed for the parent strain. Some mutants exhibiting high phage resistance and good technological capacities could be used as improved strains for industrial processes.

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