A 3D printed plastic frame deeply impacts yeast cell growth

Esther Molina-Menor; Àngela Vidal-Verdú; Carlos Gomis-Olcina; Juli Peretó; Juli Peretó; Manuel Porcar; Manuel Porcar

A 3D printed plastic frame deeply impacts yeast cell growth

2023

Solid State Fermentation (SSF) processes have been explored for yeast growth and protein and metabolites production. However, most of these processes lack standardization. In this work, we present a polylactic acid (PLA) 3D printed matrix that dramatically enhances yeast growth when embedded in liquid media compared to equivalent static cultures, and changes yeast expression patterns at the proteome level (data are available via ProteomeXchange with identifier PXD043759). Moreover, differences in sugar assimilation and ethanol production, as the main product of alcoholic fermentation, are observed. Our results suggest that these matrixes may be useful for a vast range of biotechnological applications based on yeast fermentation.

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Palabras clave de AGROVOC

biomass production proteomics saccharomyces cerevisiae solid state fermentation

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Publicado en

Frontiers in Bioengineering and Biotechnology

Volumen 11 ISSN 2296-4185

Editorial

Frontiers Media S.A.

Otras materias

Yeast

Idioma

Inglés

En AGRIS desde: 2024-12-12

Fecha de modificación: 2026-02-03

Formato: DOAJ

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DOI DOI https://www.frontiersin.org/articles/10.3389/fbioe.2023.1250667/full

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A 3D printed plastic frame deeply impacts yeast cell growth

2023

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