Infection induced oxidative cross-linking of hydroxyproline-rich glycoproteins (HRGPs) is associated with restriction of<i>Colletotrichum sublineolum</i>in sorghum

Basavaraju, P.; Sekhar, Shailasree; Shetty, Nandini P.; Kini, K. Ramachandra; J⊘rgensen, Hans J.L.; Neergaard, Eigil de; Shetty, H. Shekar

doi:10.1080/17429140802527169

Cited by 10 publications

(12 citation statements)

References 42 publications

(45 reference statements)

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“…HRGPs play a leading role in plant defense, e.g., HRGPs were induced in incompatible plant-pathogen interactions [18,89] and rapidly deposited in the cell wall after pathogen infection [90,91]. Such a defense ability is a result of the intra-and inter-molecular cross-linking in plant cell walls after HRGPs become insolubilized [88,92]. In this process, the interaction between insoluble HRGPs and the polysaccharide reduces the hydration and pectin mobility of the cell wall thus leading to the increase of rigidity and resistance of cell wall against pathogen invasion [92].…”

Section: Physical Barriermentioning

confidence: 99%

“…Such a defense ability is a result of the intra-and inter-molecular cross-linking in plant cell walls after HRGPs become insolubilized [88,92]. In this process, the interaction between insoluble HRGPs and the polysaccharide reduces the hydration and pectin mobility of the cell wall thus leading to the increase of rigidity and resistance of cell wall against pathogen invasion [92]. Furthermore, it was found that intra-and inter-molecular cross-linking took place in glycosylated HRGPs under the catalysis of the peroxidase.…”

Section: Physical Barriermentioning

confidence: 99%

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Role of Protein Glycosylation in Host-Pathogen Interaction

Lin

Xue

Liao

et al. 2020

Cells

115

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Host-pathogen interactions are fundamental to our understanding of infectious diseases. Protein glycosylation is one kind of common post-translational modification, forming glycoproteins and modulating numerous important biological processes. It also occurs in host-pathogen interaction, affecting host resistance or pathogen virulence often because glycans regulate protein conformation, activity, and stability, etc. This review summarizes various roles of different glycoproteins during the interaction, which include: host glycoproteins prevent pathogens as barriers; pathogen glycoproteins promote pathogens to attack host proteins as weapons; pathogens glycosylate proteins of the host to enhance virulence; and hosts sense pathogen glycoproteins to induce resistance. In addition, this review also intends to summarize the roles of lectin (a class of protein entangled with glycoprotein) in host-pathogen interactions, including bacterial adhesins, viral lectins or host lectins. Although these studies show the importance of protein glycosylation in host-pathogen interaction, much remains to be discovered about the interaction mechanism.

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Section: Physical Barriermentioning

confidence: 99%

Section: Physical Barriermentioning

confidence: 99%

Role of Protein Glycosylation in Host-Pathogen Interaction

Lin

Xue

Liao

et al. 2020

Cells

115

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“…According to several authors [69–71], extensins undergo peroxidase-mediated oxidative cross link during pathogen infection thus decreasing the permeability of the cell wall. Similar effect was also proposed for at least some AGPs classes [72].…”

Section: Proteins Of the Cell Wallmentioning

confidence: 99%

The Role of Plant Cell Wall Proteins in Response to Salt Stress

Zagorchev

Kamenova

Odjakova

2014

The Scientific World Journal

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Contemporary agriculture is facing new challenges with the increasing population and demand for food on Earth and the decrease in crop productivity due to abiotic stresses such as water deficit, high salinity, and extreme fluctuations of temperatures. The knowledge of plant stress responses, though widely extended in recent years, is still unable to provide efficient strategies for improvement of agriculture. The focus of study has been shifted to the plant cell wall as a dynamic and crucial component of the plant cell that could immediately respond to changes in the environment. The investigation of plant cell wall proteins, especially in commercially important monocot crops revealed the high involvement of this compartment in plants stress responses, but there is still much more to be comprehended. The aim of this review is to summarize the available data on this issue and to point out the future areas of interest that should be studied in detail.

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“…HRGP contents were assessed according to the method of Basavaraju et al (2009) and Shailasree et al (2004) with slight modifications. To prepare the cell wall, the orange rinds (1 g) were homogenized using a pestle and mortar at 4 C in 100 mM phosphate buffer at pH 7.2.…”

Section: Measurements Of Pectin Hydroxyproline-rich Glycoproteins (Hmentioning

confidence: 99%