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Gradients in gene essentiality reshape antibacterial research

Andrew M. Hogan, Silvia T. Cardona

2022FEMS Microbiology Reviews25 citationsDOIOpen Access PDF

Abstract

Essential genes encode the processes that are necessary for life. Until recently, commonly applied binary classifications left no space between essential and non-essential genes. In this review, we frame bacterial gene essentiality in the context of genetic networks. We explore how the quantitative properties of gene essentiality are influenced by the nature of the encoded process, environmental conditions and genetic background, including a strain's distinct evolutionary history. The covered topics have important consequences for antibacterials, which inhibit essential processes. We argue that the quantitative properties of essentiality can thus be used to prioritize antibacterial cellular targets and desired spectrum of activity in specific infection settings. We summarize our points with a case study on the core essential genome of the cystic fibrosis pathobiome and highlight avenues for targeted antibacterial development.

Topics & Concepts

BiologyGeneContext (archaeology)Computational biologyGeneticsGenomeENCODEPaleontologyBacterial biofilms and quorum sensingBacterial Genetics and BiotechnologyBacteriophages and microbial interactions
Gradients in gene essentiality reshape antibacterial research | Litcius