Pascal Bittel scite author profile

In plant innate immunity, the surface-exposed leucine-rich repeat receptor kinases EFR and FLS2 mediate recognition of the bacterial pathogen-associated molecular patterns EF-Tu and flagellin, respectively. We identified the Arabidopsis stromal-derived factor-2 (SDF2) as being required for EFR function, and to a lesser extent FLS2 function. SDF2 resides in an endoplasmic reticulum (ER) protein complex with the Hsp40 ERdj3B and the Hsp70 BiP, which are components of the ER-quality control (ER-QC). Loss of SDF2 results in ER retention and degradation of EFR. The differential requirement for ER-QC components by EFR and FLS2 could be linked to N-glycosylation mediated by STT3a, a catalytic subunit of the oligosaccharyltransferase complex involved in co-translational N-glycosylation. Our results show that the plasma membrane EFR requires the ER complex SDF2-ERdj3B-BiP for its proper accumulation, and provide a demonstration of a physiological requirement for ER-QC in transmembrane receptor function in plants. They also provide an unexpected differential requirement for ER-QC and N-glycosylation components by two closely related receptors.

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Microbe-associated molecular patterns (MAMPs) probe plant immunity

Bittel

Robatzek

2007

Current Opinion in Plant Biology

214

148

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Molecular identification and characterization of the tomato flagellin receptor LeFLS2, an orthologue of Arabidopsis FLS2 exhibiting characteristically different perception specificities

et al. 2007

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Bacterial flagellin is known to stimulate host immune responses in mammals and plants. In Arabidopsis thaliana, the receptor kinase FLS2 mediates flagellin perception through physical interaction with a highly conserved epitope in the N-terminus of flagellin, represented by the peptide flg22 derived from Pseudomonas syringae. The peptide flg22 is highly active as an elicitor in many plant species. In contrast, a shortened version of the same epitope derived from Escherichia coli, flg15

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Probing the Arabidopsis Flagellin Receptor: FLS2-FLS2 Association and the Contributions of Specific Domains to Signaling Function

et al. 2012

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FLAGELLIN SENSING2 (FLS2) is a transmembrane receptor kinase that activates antimicrobial defense responses upon binding of bacterial flagellin or the flagellin-derived peptide flg22. We find that some Arabidopsis thaliana FLS2 is present in FLS2-FLS2 complexes before and after plant exposure to flg22. flg22 binding capability is not required for FLS2-FLS2 association. Cys pairs flank the extracellular leucine rich repeat (LRR) domain in FLS2 and many other LRR receptors, and we find that the Cys pair N-terminal to the FLS2 LRR is required for normal processing, stability, and function, possibly due to undescribed endoplasmic reticulum quality control mechanisms. By contrast, disruption of the membrane-proximal Cys pair does not block FLS2 function, instead increasing responsiveness to flg22, as indicated by a stronger oxidative burst. There was no evidence for intermolecular FLS2-FLS2 disulfide bridges. Truncated FLS2 containing only the intracellular domain associates with full-length FLS2 and exerts a dominant-negative effect on wild-type FLS2 function that is dependent on expression level but independent of the protein kinase capacity of the truncated protein. FLS2 is insensitive to disruption of multiple N-glycosylation sites, in contrast with the related receptor EF-Tu RECEPTOR that can be rendered nonfunctional by disruption of single glycosylation sites. These and additional findings more precisely define the molecular mechanisms of FLS2 receptor function.

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Diagnostic accuracy of a SARS-CoV-2 rapid antigen test in real-life clinical settings

Jegerlehner

Suter‐Riniker

Jent

et al. 2021

International Journal of Infectious Diseases

102

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Background Laboratory tests are a mainstay in managing the COVID-19 pandemic, and high hopes are placed on rapid antigen tests. However, the accuracy of rapid antigen tests in real-life clinical settings is unclear because adequately designed diagnostic accuracy studies are essentially lacking. Objectives We aimed to assess the diagnostic accuracy of a rapid antigen test to diagnose SARS-CoV-2 infection in a primary/ secondary care testing facility. Methods Consecutive individuals presented at a COVID-19 testing facility affiliated to a Swiss University Hospital were recruited (n=1’465%). Nasopharyngeal swabs were obtained, and the Roche/ SD Biosensor rapid antigen test was conducted in-parallel with two real-time PCR (reference standard). Results Among 1’465 patients recruited, RT-PCR was positive in 141 individuals, corresponding to a prevalence of prevalence 9.6%. The Roche/ SD Biosensor rapid antigen test was positive in 94 patients (6.4%), and negative in 1’368 individuals (93.4%). The overall sensitivity of the rapid antigen test was 65.3% (95% confidence interval, CI, 56.8, 73.1), the specificity was 99.9% (95%CI 99.5, 100.0). In asymptomatic individuals, the sensitivity was 44.0% (95%CI 24.4, 65.1). Conclusions The diagnostic accuracy of the SARS-CoV-2 Roche/SD Biosensor rapid antigen test to diagnose a SARS-CoV-2 infection in a primary/ secondary care testing facility was considerably lower compared to manufacturers’ data. Widespread application in this setting might lead to a considerable number of individuals falsely classified as SARS-CoV-2 negative.

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Pascal Bittel

Control of the pattern-recognition receptor EFR by an ER protein complex in plant immunity

Microbe-associated molecular patterns (MAMPs) probe plant immunity

Molecular identification and characterization of the tomato flagellin receptor LeFLS2, an orthologue of Arabidopsis FLS2 exhibiting characteristically different perception specificities

Probing the Arabidopsis Flagellin Receptor: FLS2-FLS2 Association and the Contributions of Specific Domains to Signaling Function

Diagnostic accuracy of a SARS-CoV-2 rapid antigen test in real-life clinical settings

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