Emily Priest scite author profile

Fungi are ubiquitous organisms that thrive in diverse natural environments including soils, plants, animals, and the human body. In response to warmth, humidity, and moisture, certain fungi which grow on crops and harvested foodstuffs can produce mycotoxins; secondary metabolites which when ingested have a deleterious impact on health. Ongoing research indicates that some mycotoxins and, more recently, peptide toxins are also produced during active fungal infection in humans and experimental models. A combination of innate and adaptive immune recognition allows the host to eliminate invading pathogens from the body. However, imbalances in immune homeostasis often facilitate microbial infection. Despite the wide-ranging effects of fungal toxins on health, our understanding of toxin-mediated modulation of immune responses is incomplete. This review will explore the current understanding of fungal toxins and how they contribute to the modulation of host immunity.

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Candidalysins Are a New Family of Cytolytic Fungal Peptide Toxins

Richardson

Brown

Kichik

et al. 2022

mBio

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System-wide analyses of the fission yeast poly(A)⁺ RNA interactome reveal insights into organization and function of RNA–protein complexes

et al. 2020

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System-wide analyses of the fission yeast poly(A)+ RNA interactome reveal insights into organisation and function of RNA-protein complexes

Kilchert

Kecman

Priest

et al. 2019

Preprint

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Abbreviations: gene ontology (GO); messenger RNA (mRNA); mass spectrometry (MS); polyadenylation site (PAS); RNA-binding domain (RBD); RNA-binding protein (RBP);RNA interactome capture (RIC); ribonucleoprotein particle (RNP); ribosomal protein (RP); transcription elongation factor (TEF); wild-type (WT); whole cell extract (WCE); cleavage and polyadenylation factor (CPF); cleavage factors IA and IB (CFIA and CFIB) 2 Abstract Production, function, and turnover of mRNA are orchestrated by multi-subunit machineries that play a central role in gene expression. Within these molecular machines, interactions with the target mRNA are mediated by RNA-binding proteins (RBPs), and the accuracy and dynamics of these RNA-protein interactions are essential for their function. Here, we show that fission yeast whole cell poly(A)+ RNA-protein crosslinking data provides system-wide information on the organisation and function of the RNA-protein complexes. We evaluate relative enrichment of cellular RBPs on poly(A)+ RNA to identify interactors with high RNAbinding activity and provide key information about the RNA-binding properties of large multiprotein complexes, such as the mRNA 3' end processing machinery (cleavage and polyadenylation factor, CPF) and the RNA exosome. We demonstrate that different functional modules within CPF differ in their ability to interact with RNA. Importantly, we reveal that CPF forms additional contacts with RNA via the Fip1 subunit of the polyadenylation module and two subunits of the nuclease module. In addition, our data highlights the central role of the RNA helicase Mtl1 in RNA degradation by the exosome as mutations in Mtl1 lead to disengagement of the exosome from RNA. We examine how routes of substrate access to the complex are affected upon mutation of exosome subunits. Our results provide important insights into how different components of the exosome contribute to engagement of the complex with substrate RNA. Overall, our data uncover how multi-subunit cellular machineries interact with RNA, on a proteome-wide scale.

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RNA-binding protein Mub1 and the nuclear RNA exosome act to fine-tune environmental stress response

et al. 2021

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The nuclear RNA exosome plays a key role in controlling the levels of multiple protein-coding and non-coding RNAs. Recruitment of the exosome to specific RNA substrates is mediated by RNA-binding co-factors. The transient interaction between co-factors and the exosome as well as the rapid decay of RNA substrates make identification of exosome co-factors challenging. Here, we use comparative poly(A)+ RNA interactome capture in fission yeast expressing three different mutants of the exosome to identify proteins that interact with poly(A)+ RNA in an exosome-dependent manner. Our analyses identify multiple RNA-binding proteins whose association with RNA is altered in exosome mutants, including the zinc-finger protein Mub1. Mub1 is required to maintain the levels of a subset of exosome RNA substrates including mRNAs encoding for stress-responsive proteins. Removal of the zinc-finger domain leads to loss of RNA suppression under non-stressed conditions, altered expression of heat shock genes in response to stress, and reduced growth at elevated temperature. These findings highlight the importance of exosome-dependent mRNA degradation in buffering gene expression networks to mediate cellular adaptation to stress.

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Emily Priest

Fungal Toxins and Host Immune Responses

Candidalysins Are a New Family of Cytolytic Fungal Peptide Toxins

System-wide analyses of the fission yeast poly(A)⁺ RNA interactome reveal insights into organization and function of RNA–protein complexes

System-wide analyses of the fission yeast poly(A)+ RNA interactome reveal insights into organisation and function of RNA-protein complexes

RNA-binding protein Mub1 and the nuclear RNA exosome act to fine-tune environmental stress response

Contact Info

Product

Resources

About

Emily Priest

Fungal Toxins and Host Immune Responses

Candidalysins Are a New Family of Cytolytic Fungal Peptide Toxins

System-wide analyses of the fission yeast poly(A)+ RNA interactome reveal insights into organization and function of RNA–protein complexes

System-wide analyses of the fission yeast poly(A)+ RNA interactome reveal insights into organisation and function of RNA-protein complexes

RNA-binding protein Mub1 and the nuclear RNA exosome act to fine-tune environmental stress response

Contact Info

Product

Resources

About

System-wide analyses of the fission yeast poly(A)⁺ RNA interactome reveal insights into organization and function of RNA–protein complexes