Joëlle Reitz-Ausseur scite author profile

Joëlle Reitz-Ausseur

2Publications

23Citation Statements Received

89Citation Statements Given

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Intraspecific gene expression variability in the yeast revealed by micro-array analysis

Suleau

Jacques

Reitz-Ausseur³

et al. 2005

FEMS Yeast Research

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Using the Genolevures sequencing data, we developed an expression micro-array for the yeast Kluyveromyces lactis consisting of 482 genes, mainly involved in central metabolism, compound transport facilitators and stress response. The array was validated using the LAC/GAL system. By comparing gene expression in the laboratory reference strain CBS2359 and in an industrial strain B1, we demonstrated the influence of two carbon sources, glucose and lactose, on the expression of genes involved in the respiratory and in the fermentative metabolic pathways. We also showed that the two strains, although both originating from dairies, display unexpected differences in gene expression on each type of carbon source.

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Transcriptomic Analysis of Extensive Changes in Metabolic Regulation in Kluyveromyces lactis Strains

Suleau

Gourdon²,

Reitz-Ausseur³

et al. 2006

Eukaryot Cell

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Genome-wide analysis of transcriptional regulation is generally carried out on well-characterized reference laboratory strains; hence, the characteristics of industrial isolates are therefore overlooked. In a previous study on the major cheese yeast Kluyveromyces lactis, we have shown that the reference strain and an industrial strain used in cheese making display a differential gene expression when grown on a single carbon source. Here, we have used more controlled conditions, i.e., growth in a fermentor with pH and oxygen maintained constant, to study how these two isolates grown in glucose reacted to an addition of lactose. The observed differences between sugar consumption and the production of various metabolites, ethanol, acetate, and glycerol, correlated with the response were monitored by the analysis of the expression of 482 genes. Extensive differences in gene expression between the strains were revealed in sugar transport, glucose repression, ethanol metabolism, and amino acid import. These differences were partly due to repression by glucose and another, yet-unknown regulation mechanism. Our results bring to light a new type of K. lactis strain with respect to hexose transport gene content and repression by glucose. We found that a combination of point mutations and variation in gene regulation generates a biodiversity within the K. lactis species that was not anticipated. In contrast to S. cerevisiae, in which there is a massive increase in the number of sugar transporter and fermentation genes, in K. lactis, interstrain diversity in adaptation to a changing environment is based on small changes at the level of key genes and cell growth control.

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