The Impact of Diet on the Colonization of Beneficial Microbes from an Ecological Perspective DOI
Zelin Chen,

Chuntao Xiao,

Jintun Zhang

et al.

Journal of Agricultural and Food Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: April 15, 2025

With growing recognition of the pivotal role gut microbiota in human health, probiotics have gained widespread attention for their potential to restore microbial homeostasis. However, a critical challenge persists: limited colonization efficiency among most probiotic strains compromises therapeutic efficacy. This overview synthesizes ecological principles with cutting-edge microbiome research elucidate dynamic interplay between dietary components and within intestinal niche. systematically analyzes: (1) stage-specific mechanisms spanning introduction, establishment, proliferation; (2) nutrient-driven modulation composition function; (3) dual common patterns as both facilitators disruptors persistence. Notably, this identifies key strategies, including precision delivery prebiotic fibers polyphenol-microbiota crosstalk, that enhance niche adaptation through pH optimization, adhesion potentiation, competitive exclusion pathogens. Furthermore, critically evaluates current limitations research, particularly strain-specific variability methodological constraints simulating host-microbe-diet tripartite interactions. To bridge these gaps, proposes an interdisciplinary framework integrating omics-driven strain selection, engineered systems, personalized nutrition models. Collectively, work advances mechanistic understanding diet-microbiota interactions while providing actionable insights developing targeted therapies evidence-based interventions optimize ecosystem resilience.

Language: Английский

Interaction between Bacteroides and HG-type pectins with different molecular weights DOI
Song Li, Xuan‐xian Peng, Zengbo Wang

et al.

International Journal of Biological Macromolecules, Journal Year: 2025, Volume and Issue: unknown, P. 142363 - 142363

Published: March 1, 2025

Language: Английский

Citations

0
Recent advances in the encapsulation of probiotics as functional foods for colorectal cancer prevention DOI

A. Gan,

Xing Kang,

S. Goh

et al.

Journal of Functional Foods, Journal Year: 2025, Volume and Issue: 128, P. 106804 - 106804

Published: April 11, 2025

Language: Английский

Citations

0
The Impact of Diet on the Colonization of Beneficial Microbes from an Ecological Perspective DOI
Zelin Chen,

Chuntao Xiao,

Jintun Zhang

et al.

Journal of Agricultural and Food Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: April 15, 2025

With growing recognition of the pivotal role gut microbiota in human health, probiotics have gained widespread attention for their potential to restore microbial homeostasis. However, a critical challenge persists: limited colonization efficiency among most probiotic strains compromises therapeutic efficacy. This overview synthesizes ecological principles with cutting-edge microbiome research elucidate dynamic interplay between dietary components and within intestinal niche. systematically analyzes: (1) stage-specific mechanisms spanning introduction, establishment, proliferation; (2) nutrient-driven modulation composition function; (3) dual common patterns as both facilitators disruptors persistence. Notably, this identifies key strategies, including precision delivery prebiotic fibers polyphenol-microbiota crosstalk, that enhance niche adaptation through pH optimization, adhesion potentiation, competitive exclusion pathogens. Furthermore, critically evaluates current limitations research, particularly strain-specific variability methodological constraints simulating host-microbe-diet tripartite interactions. To bridge these gaps, proposes an interdisciplinary framework integrating omics-driven strain selection, engineered systems, personalized nutrition models. Collectively, work advances mechanistic understanding diet-microbiota interactions while providing actionable insights developing targeted therapies evidence-based interventions optimize ecosystem resilience.

Language: Английский

Citations

0