Litcius/Paper detail

Respiratory Physiology of Lactococcus lactis in Chemostat Cultures and Its Effect on Cellular Robustness in Frozen and Freeze-Dried Starter Cultures

Anna Johanson, Anisha Goel, Lisbeth Olsson, Carl Johan Franzén

2020Applied and Environmental Microbiology22 citationsDOIOpen Access PDF

Abstract

Lactococcus lactis is used in large quantities by the food and biotechnology industries. L. lactis can use oxygen for respiration if heme is supplied in the growth medium. This has been extensively studied in batch cultures using various mutants, but quantitative studies of how the cell growth affects respiratory metabolism, energetics, and cell quality are surprisingly scarce. Our results demonstrate that the respiratory metabolism of L. lactis is remarkably flexible and can be modulated by controlling the specific growth rate. We also link the physiological state of cells during cultivation to the quality of frozen or freeze-dried cells, which is relevant to the industry that may lack understanding of such relationships. This study extends our knowledge of respiratory metabolism in L. lactis and its impact on frozen and freeze-dried starter culture products, and it illustrates the influence of cultivation conditions and microbial physiology on the quality of starter cultures.

Topics & Concepts

StarterLactococcus lactisChemostatBiologyMicrobiologyFermentation starterRespiratory systemBacteriaFood scienceAnatomyLactic acidGeneticsProbiotics and Fermented FoodsMicrobial Metabolites in Food BiotechnologyProtein Hydrolysis and Bioactive Peptides
Respiratory Physiology of Lactococcus lactis in Chemostat Cultures and Its Effect on Cellular Robustness in Frozen and Freeze-Dried Starter Cultures | Litcius