Abstract
Pathogen infection triggers complex molecular perturbations within host cells that results in either resistance or susceptibility. Protein acetylation is an emerging biochemical modification that appears to play central roles during host–pathogen interactions. To date, research in this area has focused on two main themes linking protein acetylation to plant immune signaling. Firstly, it has been established that proper gene expression during defense responses requires modulation of histone acetylation within target gene promoter regions. Second, some pathogens can deliver effector molecules that encode acetyltransferases directly within the host cell to modify acetylation of specific host proteins. Collectively these findings suggest that the acetylation level for a range of host proteins may be modulated to alter the outcome of pathogen infection. This review will focus on summarizing our current understanding of the roles of protein acetylation in plant defense and highlight the utility of proteomics approaches to uncover the complete repertoire of acetylation changes triggered by pathogen infection.
Highlights
Frontiers in Plant ScienceProtein acetylation is an emerging biochemical modification that appears to play central roles during host–pathogen interactions
Protein lysine acetylation is a reversible covalent modification that was first discovered on histones more than 50 years ago (Phillips, 1963; Allfrey et al, 1964; Verdin and Ott, 2015)
In general hyperacetylation of histone proteins is associated with an open chromatin state and active transcription whereas histone deacetylation is associated with closed chromatin and a repressed transcriptional state
Summary
Protein acetylation is an emerging biochemical modification that appears to play central roles during host–pathogen interactions. Some pathogens can deliver effector molecules that encode acetyltransferases directly within the host cell to modify acetylation of specific host proteins. These findings suggest that the acetylation level for a range of host proteins may be modulated to alter the outcome of pathogen infection. This review will focus on summarizing our current understanding of the roles of protein acetylation in plant defense and highlight the utility of proteomics approaches to uncover the complete repertoire of acetylation changes triggered by pathogen infection
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