Identification of the <scp>EH CRISPR‐Cas9</scp> system on a metagenome and its application to genome engineering

Esquerra-Ruvira, Belen; Baquedano, Ignacio; Ruiz, Raúl; Fernández, Almudena; Montoliu, Lluı́s; Mojica, Francisco J. M.

doi:10.1111/1751-7915.14266

Cited by 3 publications

(1 citation statement)

References 111 publications

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“…This gene-editing system is associated with a smaller Cas9 protein (EHCas9) that targets DNA sequences flanked by 5′-NGG-3′ PAMs in both prokaryotes and eukaryotic cells. The EH CRISPR-Cas9 system provides compact and efficient tools for precise future genome editing [ 97 ].…”

Section: Future Opportunities and Research Directionsmentioning

confidence: 99%

Holistic Approaches to Plant Stress Alleviation: A Comprehensive Review of the Role of Organic Compounds and Beneficial Bacteria in Promoting Growth and Health

Hathurusinghe,

Azizoglu,

Shin

2024

Plants

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Plants select microorganisms from the surrounding bulk soil, which act as a reservoir of microbial diversity and enrich a rhizosphere microbiome that helps in growth and stress alleviation. Plants use organic compounds that are released through root exudates to shape the rhizosphere microbiome. These organic compounds are of various spectrums and technically gear the interplay between plants and the microbial world. Although plants naturally produce organic compounds that influence the microbial world, numerous efforts have been made to boost the efficiency of the microbiome through the addition of organic compounds. Despite further crucial investigations, synergistic effects from organic compounds and beneficial bacteria combinations have been reported. In this review, we examine the relationship between organic compounds and beneficial bacteria in determining plant growth and biotic and abiotic stress alleviation. We investigate the molecular mechanism and biochemical responses of bacteria to organic compounds, and we discuss the plant growth modifications and stress alleviation done with the help of beneficial bacteria. We then exhibit the synergistic effects of both components to highlight future research directions to dwell on how microbial engineering and metagenomic approaches could be utilized to enhance the use of beneficial microbes and organic compounds.

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Section: Future Opportunities and Research Directionsmentioning

confidence: 99%

Holistic Approaches to Plant Stress Alleviation: A Comprehensive Review of the Role of Organic Compounds and Beneficial Bacteria in Promoting Growth and Health

Hathurusinghe,

Azizoglu,

Shin

2024

Plants

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Identification of the EH CRISPR‐Cas9 system on a metagenome and its application to genome engineering

Esquerra-Ruvira

Baquedano

Ruiz

et al. 2023

Microbial Biotechnology

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Non‐coding RNAs (crRNAs) produced from clustered regularly interspaced short palindromic repeats (CRISPR) loci and CRISPR‐associated (Cas) proteins of the prokaryotic CRISPR‐Cas systems form complexes that interfere with the spread of transmissible genetic elements through Cas‐catalysed cleavage of foreign genetic material matching the guide crRNA sequences. The easily programmable targeting of nucleic acids enabled by these ribonucleoproteins has facilitated the implementation of CRISPR‐based molecular biology tools for in vivo and in vitro modification of DNA and RNA targets. Despite the diversity of DNA‐targeting Cas nucleases so far identified, native and engineered derivatives of the Streptococcus pyogenes SpCas9 are the most widely used for genome engineering, at least in part due to their catalytic robustness and the requirement of an exceptionally short motif (5′‐NGG‐3′ PAM) flanking the target sequence. However, the large size of the SpCas9 variants impairs the delivery of the tool to eukaryotic cells and smaller alternatives are desirable. Here, we identify in a metagenome a new CRISPR‐Cas9 system associated with a smaller Cas9 protein (EHCas9) that targets DNA sequences flanked by 5′‐NGG‐3′ PAMs. We develop a simplified EHCas9 tool that specifically cleaves DNA targets and is functional for genome editing applications in prokaryotes and eukaryotic cells.

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Design, potential and limitations of conjugation‐based antibacterial strategies

Derollez,

Lesterlin,

Bigot

2024

Microbial Biotechnology

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Over the past few decades, the global spread of antimicrobial resistance has underscored the urgent need to develop innovative non‐antibiotic antibacterial strategies and to reduce antibiotic use worldwide. In response to this challenge, several methods have been developed that rely on gene transfer by conjugation to deliver toxic compounds or CRISPR systems specifically designed to kill or resensitize target bacterial strains to antibiotics. This review explores the design, potential, and limitations of these conjugation‐based antibacterial strategies, focusing on the recent advances in the delivery of CRISPR systems as antibacterial effectors.

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Identification of the EH CRISPR‐Cas9 system on a metagenome and its application to genome engineering

Cited by 3 publications

References 111 publications

Holistic Approaches to Plant Stress Alleviation: A Comprehensive Review of the Role of Organic Compounds and Beneficial Bacteria in Promoting Growth and Health

Holistic Approaches to Plant Stress Alleviation: A Comprehensive Review of the Role of Organic Compounds and Beneficial Bacteria in Promoting Growth and Health

Identification of the EH CRISPR‐Cas9 system on a metagenome and its application to genome engineering

Design, potential and limitations of conjugation‐based antibacterial strategies

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