Integration of MALDI‐TOF MS and 16S rRNA Analysis for Identification of Plant‐Based Fermentation‐Associated Microbiota
Agnieszka Ludwiczak, Ewelina Sibińska, Iwona Adamczyk, Miłosz Wasicki, Oleksandra Pryshchepa, Michał Złoch, Klaudia Grygorowicz, Małgorzata Szultka‐Młyńska, Paweł Pomastowski

TL;DR
This study shows how plant-based fermentation affects microbial diversity and protein profiles using MALDI-TOF MS and 16S rRNA sequencing.
Contribution
The integration of MALDI-TOF MS and 16S rRNA sequencing with physicochemical analysis reveals matrix-dependent microbial and proteomic variations.
Findings
Combined MALDI-TOF MS and 16S rRNA sequencing identified 24 species across five taxonomic classes.
Lactiplantibacillus pentosus abundance correlates positively with pH and negatively with Ca and Mg levels.
Corynebacterium amycolatum and Micrococcus luteus presence correlates with carbohydrate and Fe concentration.
Abstract
The specific fermented matrices influence microbial diversity and proteomic adaptations being crucial for optimising fermentation efficiency and effective microbial identification. Therefore, the study aimed to investigate the impact of plant‐based fermentation matrices and their physicochemical composition on microbial diversity and MS‐protein profiles. Microbial communities were characterised using MALDI‐TOF MS and 16S rRNA sequencing. Physicochemical analyses were conducted on the 10 fermentation matrices. The sequencing verified low‐confidence MALDI identifications and assessed species‐level microbial diversity. Combined MALDI‐TOF MS and 16S rRNA gene sequencing confirmed the presence of 24 species across five taxonomic classes and revealed strong matrix‐dependent variation in the lactic acid bacteria composition. A significant positive correlation was observed between…
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Taxonomy
TopicsProbiotics and Fermented Foods · Fermentation and Sensory Analysis · Agriculture Sustainability and Environmental Impact
