Abstract
CRISPR-based genetic tools have revolutionized our ability to interrogate and manipulate genes. These tools can be applied to both host and microbial cells, and their use can enhance our understanding of the dynamic nature of host-microbe interactions by uncovering their genetic underpinnings. As reviewed here, CRISPR-based tools are being used to explore the microbiome in an efficient, accurate, and high-throughput manner. By employing CRISPR screens, targeted genome editing, and recording systems to the study of host cells and microorganisms, we can gain critical insights into host defense mechanisms, potential vulnerabilities, and microbial pathogenesis, as well as essential or condition-specific genes involved in host-microbe interactions. Additionally, CRISPR-based genetic tools are being used in animal models to study host-microbe interactions in vivo. Recent advancements in CRISPR-derived technology can be combined with emerging techniques, such as single-cell RNA sequencing, to examine the complex interactions between hosts and microbes, shedding light on the role of the microbiome in health and disease. This review aims to provide a comprehensive overview of how these cutting-edge genetic tools are being used to investigate host-microbial systems, as well as their current limitations. Current research is likely to yield even more advanced genetic toolkits than those presently available, and these can serve researchers in identifying and exploring new therapeutic targets for diseases related to host-microbe interactions.