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From Biocontrol to Synthesis: Innovative Progress of Paenibacillus in Mechanism Analysis, Gene Editing and Platform

Panhong Yuan¹, Linjiang Zhu¹, Zonghui Song¹

¹College of Biotechnology and Bioengineering, Zhejiang University of Technology, Hangzhou 310014, China.

International Journal of Molecular Sciences

|November 27, 2025

View abstract on PubMed

Summary

Paenibacillus bacteria promote plant growth and offer biocontrol through multiple mechanisms. Advances in gene editing and synthetic biology are paving the way for precision engineering of Paenibacillus for industrial biotechnology applications.

Keywords:

Paenibacillus antibacterial metabolites biocontrol mechanisms gene editing industrial biotechnology synthetic biology

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Area of Science:

Microbiology
Biotechnology
Plant Science

Background:

Paenibacillus is a plant-growth-promoting rhizobacterium with broad-spectrum biocontrol capabilities.
Its efficacy stems from antibacterial metabolites, niche colonization, induced systemic resistance, and enhanced nutrient uptake.
Understanding synergistic interactions and environmental responses is crucial for optimizing its use.

Purpose of the Study:

To review recent advances in Paenibacillus biocontrol mechanisms and their environmental interactions.
To outline gene editing and regulatory technologies for Paenibacillus.
To examine synthetic biology strategies for enhancing Paenibacillus biosynthetic capabilities and discuss future prospects.

Main Methods:

Literature review of recent research on Paenibacillus.

Analysis of gene editing and synthetic biology approaches.

Discussion of industrial biotechnology applications and future challenges.

Main Results:

Paenibacillus exhibits complex, synergistic biocontrol mechanisms influenced by environmental factors.
Gene editing and synthetic biology offer powerful tools for precise engineering of Paenibacillus.
Significant potential exists for Paenibacillus in industrial biotechnology, including enzyme and chemical production.

Conclusions:

Further research into synergistic interactions and environmental responses will enhance Paenibacillus applications.
Precision engineering of Paenibacillus holds promise for high-efficiency biocontrol and industrial biotechnology.
Paenibacillus is a key candidate for scalable production of industrial enzymes and high-value chemicals.