Permethylation as a Strategy for High Molecular Weight Polysaccharide Structure Analysis by NMR – Case Study of<i>Xylella fastidiosa</i>EPS

Ndukwe, Ikenna E.; Black, Ian; Castro, Claudia; Vlach, J.; Heiß, Christian; Roper, M. Caroline; Azadi, Parastoo

doi:10.1101/2023.04.24.538115

2023

DOI: 10.1101/2023.04.24.538115

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Permethylation as a Strategy for High Molecular Weight Polysaccharide Structure Analysis by NMR – Case Study ofXylella fastidiosaEPS

Ikenna E. Ndukwe

Ian Black

Claudia Castro

et al.

Abstract: Current practices for structure analysis of extremely large molecular weight polysaccharides via solution-state NMR spectroscopy incorporate partial depolymerization protocols that enable polysaccharide solubilization in suitable solvents. Non-specific depolymerization techniques utilized for glycosidic bond cleavage, such as chemical degradation or ultrasonication, potentially generate structure fragments that can complicate the complete characterization of polysaccharide structures. Utilization of appropriat… Show more

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Xylella fastidiosa modulates exopolysaccharide polymer length and the dynamics of biofilm development with a β-1,4-endoglucanase

Castro,

Ndukwe,

Heiss

et al. 2023

mBio

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Xylella fastidiosa is a Gram-negative bacterium that causes disease in many economically important crops. It colonizes the plant host xylem and the mouthparts of its insect vectors where it produces exopolysaccharide (EPS) and forms robust biofilms. Typically, the ability to form a biofilm enhances virulence, but X. fastidiosa does not fit neatly into that paradigm. Instead, X. fastidiosa enters into biofilms to attenuate its movement in the xylem, which, in turn, slows disease progression. In most of its over 600 known plant hosts, X. fastidiosa behaves as a benign commensal, but in some hosts like Vitis vinifera grapevines, it acts as a pathogen. Its ability to attenuate its own virulence in susceptible hosts may be a remnant of its commensal lifestyle in other hosts. Here, we demonstrate that X. fastidiosa utilizes a β-1,4 endoglucanase to cleave its self-produced β-1,4-glucan exopolysaccharide polymer to process it from a higher molecular weight to a lower molecular weight polymer. This processing mediates surface adherence of the cells and ultimately governs overall biofilm architecture, indicating enzymatic pruning of the EPS plays a key role in biofilm-mediated attenuation of X. fastidiosa in planta and, thus, is a key vestige that links its commensal behaviors to its parasitic behaviors in specific hosts. IMPORTANCE It is well established that exopolysaccharide (EPS) is an integral structural component of bacterial biofilms necessary for assembly and maintenance of the three-dimensional architecture of the biofilm. However, the process and role of EPS turnover within a developing biofilm is not fully understood. Here, we demonstrated that Xylella fastidiosa uses a self-produced endoglucanase to enzymatically process its own EPS to modulate EPS polymer length. This enzymatic processing of EPS dictates the early stages of X. fastidiosa ’s biofilm development, which, in turn, affects its behavior in planta . A deletion mutant that cannot produce the endoglucanase was hypervirulent, thereby linking enzymatic processing of EPS to attenuation of virulence in symptomatic hosts, which may be a vestige of X. fastidiosa ’s commensal behavior in many of its other non-symptomatic hosts.

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Xylella fastidiosa modulates exopolysaccharide polymer length and the dynamics of biofilm development with a β-1,4-endoglucanase

Castro,

Ndukwe,

Heiss

et al. 2023

mBio

View full text Add to dashboard Cite

show abstract

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Permethylation as a Strategy for High Molecular Weight Polysaccharide Structure Analysis by NMR – Case Study ofXylella fastidiosaEPS

Cited by 1 publication

References 31 publications

Xylella fastidiosa modulates exopolysaccharide polymer length and the dynamics of biofilm development with a β-1,4-endoglucanase

Xylella fastidiosa modulates exopolysaccharide polymer length and the dynamics of biofilm development with a β-1,4-endoglucanase

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