Litcius/Paper detail

Adaptive Laboratory Evolution as a Means To Generate Lactococcus lactis Strains with Improved Thermotolerance and Ability To Autolyze

Robin Dorau, Jun Chen, Jianming Liu, Peter Ruhdal Jensen, Christian Solem

2021Applied and Environmental Microbiology23 citationsDOIOpen Access PDF

Abstract

is more prone to autolysis, which is the key to flavor and aroma formation. In this study, we found that adaptation to higher thermotolerance can improve autolysis. Using whole-genome sequencing and RNA sequencing, we attempt to determine the underlying reason for the observed behavior. In terms of dairy applications, there are obvious advantages associated with using L. lactis strains with high thermotolerance, as these are less affected by curd cooking, which generally hampers the performance of the mesophilic starter. Cheese ripening, the costliest part of cheese manufacturing, can be reduced using autolytic strains. Thus, the solution presented here could simplify starter cultures, make the cheese manufacturing process more efficient, and enable novel types of harder cheese variants.

Topics & Concepts

Lactococcus lactisAutolysis (biology)StarterMesophileBiologyNisinFlavorLactococcusAromaMicrobiologyFood scienceBacteriaGeneticsBiochemistryLactic acidEnzymeMicrobial Metabolic Engineering and BioproductionProbiotics and Fermented FoodsBiochemical Analysis and Sensing Techniques