Your search keyword '"Céline Vicédo"' showing total 2 results

1. Bacterial host adaptation through sequence and structural variations of a single type III effector gene

Author

Emmanuelle Lauber, Manuel González-Fuente, Maxime Escouboué, Céline Vicédo, Julien S. Luneau, Cécile Pouzet, Alain Jauneau, Carine Gris, Zhi-Min Zhang, Carole Pichereaux, Sébastien Carrère, Laurent Deslandes, and Laurent D. Noël

Subjects

Classification Description, Genetics, Bacteriology, Molecular plant pathology, Science

Abstract

Summary: Molecular mechanisms underlying quantitative variations of pathogenicity remain elusive. Here, we identified the Xanthomonas campestris XopJ6 effector that triggers disease resistance in cauliflower and Arabidopsis thaliana. XopJ6 is a close homolog of the Ralstonia pseudosolanacearum PopP2 YopJ family acetyltransferase. XopJ6 is recognized by the RRS1-R/RPS4 NLR pair that integrates a WRKY decoy domain mimicking effector targets. We identified a XopJ6 natural variant carrying a single residue substitution in XopJ6 WRKY-binding site that disrupts interaction with WRKY proteins. This mutation allows XopJ6 to evade immune perception while retaining some XopJ6 virulence functions. Interestingly, xopJ6 resides in a Tn3-family transposon likely contributing to xopJ6 copy number variation (CNV). Using synthetic biology, we demonstrate that xopJ6 CNV tunes pathogen virulence on Arabidopsis through gene dosage-mediated modulation of xopJ6 expression. Together, our findings highlight how sequence and structural genetic variations restricted at a particular effector gene contribute to bacterial host adaptation.

Published

2024

2. Ambulatory intracranial pressure in humans: ICP increases during movement between body positions

Author

Eleanor M. Moncur, Linda D'Antona, Amy L. Peters, Graziella Favarato, Simon Thompson, Celine Vicedo, Lewis Thorne, Laurence D. Watkins, Brian L. Day, Ahmed K. Toma, and Matthew J. Bancroft

Subjects

Intracranial pressure, Cerebrospinal fluid, Intracranial pressure monitoring, Movement, Body position, Intracranial dynamics, Neurology. Diseases of the nervous system, RC346-429

Abstract

Introduction: Positional changes in intracranial pressure (ICP) have been described in humans when measured over minutes or hours in a static posture, with ICP higher when lying supine than when sitting or standing upright. However, humans are often ambulant with frequent changes in position self-generated by active movement. Research question: We explored how ICP changes during movement between body positions. Material and methods: Sixty-two patients undergoing clinical ICP monitoring were recruited. Patients were relatively well, ambulatory and of mixed age, body habitus and pathology. We instructed patients to move back and forth between sitting and standing or lying and sitting positions at 20 s intervals after an initial 60s at rest. We simultaneously measured body position kinematics from inertial measurement units and ICP from an intraparenchymal probe at 100 Hz. Results: ICP increased transiently during movements beyond the level expected by body position alone. The amplitude of the increase varied between participants but was on average ∼5 mmHg during sit-to-stand, stand-to-sit and sit-to-lie movements and 10.8 mmHg [95%CI: 9.3,12.4] during lie-to-sit movements. The amplitude increased slightly with age, was greater in males, and increased with median 24-h ICP. For lie-to-sit and sit-to-lie movements, higher BMI was associated with greater mid-movement increase (β = 0.99 [0.78,1.20]; β = 0.49 [0.34,0.64], respectively). Discussion and conclusion: ICP increases during movement between body positions. The amplitude of the increase in ICP varies with type of movement, age, sex, and BMI. This could be a marker of disturbed ICP dynamics and may be particularly relevant for patients with CSF-diverting shunts in situ.

Published

2024