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Fermented Foods as Experimentally Tractable Microbial Ecosystems

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Presentation on theme: "Fermented Foods as Experimentally Tractable Microbial Ecosystems"— Presentation transcript:

1 Fermented Foods as Experimentally Tractable Microbial Ecosystems
Benjamin E. Wolfe, Rachel J. Dutton  Cell  Volume 161, Issue 1, Pages (March 2015) DOI: /j.cell Copyright © 2015 Elsevier Inc. Terms and Conditions

2 Figure 1 Multi-species Microbial Communities Form during the Production of Fermented Foods (A) Fermented meats, such as salami, are produced by fermentation of meat by lactic acid bacteria. (B) During the aging process, the salami surface is colonized by a mixture of yeast and bacteria, visible as white and yellow colonies, and filamentous fungi (diffuse white filaments) such as Penicillium. (C) Cheeses, such as the Camembert-style cheese shown, are made through the fermentation of milk by lactic acid bacteria. During aging, a biofilm, commonly called a rind, develops on the surface and contributes to the flavor, texture, and aroma of the cheese. (D) A rind biofilm plated on standard lab medium shows a subset of the mixed eukaryotic (filamentous fungi on the left) and prokaryotic (Proteobacteria on the right) members of these microbial communities. (E and F) (E) Visible microbial communities also form in liquid fermentations, such as this fermented tea, commonly known as kombucha. The microbial cells within the pellicle (floating biofilm) can be seen in the micrograph (F). Kombucha is typically composed of yeasts (larger cells) and acetic acid bacteria (smaller cells). The yeasts are involved in the fermentation of sugar to produce ethanol and carbon dioxide. The acetic acid bacteria then ferment the ethanol and produce acetic acid. The intact biofilm is on the right, and yeast and bacterial cells are sloughing off on the left. All photos by Benjamin Wolfe, except (C) (Jasper Hill Farm) and (E) (Adam DeTour). Cell  , 49-55DOI: ( /j.cell ) Copyright © 2015 Elsevier Inc. Terms and Conditions

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