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AI-RACS: Innovative Tool for Mining Aluminum-Tolerant Strains in Acidic Soils

Author:DIAO Zhidian   date:2024-11-19   ClickTimes:

Researchers from the Single-Cell Center at the Qingdao Institute of Bioenergy and Bioprocess Technology of the Chinese Academy of Sciences, together with collaborators, developed an artificial intelligence-assisted Raman-activated cell sorting (AI-RACS) system. This innovative system automated the isolation and functional analysis of aluminum-tolerant microorganisms (ATMs) from acidic soil, marking a shift from manual, labor-intensive procedures to high-throughput automated workflows.

This study was published in Analytical Chemistry.

AI-RACS advances mining soil microbial resources (Image by LIU Yang)

Microbiomes, dynamic communities of microorganisms, offer untapped potential for advancing biotechnology and environmental sustainability. However, their complexity poses challenges for the isolation and detailed study of specific functional microbes.

To address this issue,the AI-RACS system integrated optical tweezers, single-cell Raman spectroscopy (SCRS), and artificial intelligence. This integration enabled the precise identification, sorting, and collection of single cells,transforming microbial single-cell research from low-throughput manual operations to high-throughput automated workflows.

The researchers utilized the system to identify ATMs from acidic soil samples. By employing SCRS to assess cellular metabolic activity under aluminum stress, the researchers successfully identified and isolated 13 aluminum-tolerant strains, including Burkholderia spp., Rhodanobacter spp., and Staphylococcus aureus. These strains exhibited higher metabolic activity compared to those identified through traditional cultivation methods. The use of SCRS as a quantitative biomarker allowed the researchers to pinpoint and categorize metabolically active microbes with unmatched precision.

"Our goalis to develop a system that automates single-cell analysis while improving precision and throughput needed for studying complex microbial communities," said Dr. DIAO Zhidian, first author of the studyfrom Single-Cell Center. "This system enables researchers to explore microbiomes under near in situ conditions with high efficiency."

The AI-RACS system opens up new possibilities in fields such as resource recovery, environmental management, and industrial biotechnology.

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