A survey of ADP-ribosyltransferase families in the pathogenicLegionella

Abstract

AbstractBackgroundADP-ribosyltransferases (ARTs) are a superfamily of enzymes implicated in various cellular processes, including pathogenic mechanisms. TheLegionellagenus, known for causing Legionnaires’ disease, possesses diverse ART-like effectors. This study explores the proteomes of 41Legionellaspecies to bioinformatically identify and characterise novel ART-like families, providing insights into their potential roles in pathogenesis and host interactions.MethodsWe conducted a comprehensive bioinformatic survey of 41Legionellaspecies to identify proteins with significant sequence or structural similarity to known ARTs. Sensitive sequence searches were performed to detect candidate ART-like families. Subsequent validation, including structure prediction of such families, was achieved using artificial intelligence-driven tools, such as AlphaFold. Comparative analyses were performed to assess sequence and structural similarities between the novel ART-like families and known ARTs.ResultsOur analysis identified 63 proteins with convincing similarity to ARTs, organised into 39 ART-like families, including 26 novel families. Key findings include:DUF2971 family: exhibits sequence similarity to DarT toxins and other DNA-acting ARTs.DUF4291 family: the largest newly identified family shows structural and sequence similarity to the diphtheria toxin, suggesting the ability to modify proteins.Most members of the novel ART families are predicted effectors. Although experimental validation of the predicted ART effector functions is necessary, the novel ART-like families identified present promising targets for understandingLegionellapathogenicity and developing therapeutic strategies. We publish a complete catalogue of our results in the astARTe database:http://bioinfo.sggw.edu.pl/astarte/.