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Maltose and Maltotriose Transporters in Brewer’s Saccharomyces Yeasts: Polymorphic and Key Residues in Their Activity

Oscar A. Faz-Cortez, Jorge H. García-García, Ana K. Carrizales-Sánchez, Hector M. Fonseca-Peralta, Jessica Herrera-Gamboa, Esmeralda Pérez-Ortega, César I. Hernández-Vásquez, Benito Pereyra-Alférez

2025International Journal of Molecular Sciences6 citationsDOIOpen Access PDF

Abstract

Maltose and maltotriose are the most abundant sugars in brewing wort, and their transport represent a critical bottleneck in the fermentation process. This transport relies on specific transmembrane proteins; however, many yeast strains exhibit inefficient uptake of these sugars, particularly maltotriose. Addressing this limitation requires a comprehensive understanding of the factors influencing the transport of maltose and maltotriose. This review provides a detailed synthesis of the key characteristics and functions of the maltose and maltotriose transmembrane transporters identified in brewer’s Saccharomyces yeasts. Critical amino acid residues involved in transporter activity are also highlighted, and the impact of specific polymorphisms and sequence variations on sugar preference and uptake efficiency is examined. Furthermore, a thorough discussion of the most important reported residues is presented, underscoring the need to closely examine their amino acid composition to better understand transporter mechanisms, optimize their performance, and enhance fermentation outcomes.

Topics & Concepts

MaltotrioseMaltoseSaccharomyces cerevisiaeYeastTransporterBiochemistrySaccharomycesFood scienceChemistryBiologyEnzymeGeneFermentation and Sensory AnalysisProbiotics and Fermented FoodsPolyamine Metabolism and Applications
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