Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 22, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/ijms22052393
Keywords
callose; papillae; PMR4; plant cell wall defense; plasmodesmata; plant immunity
Funding
- China National Major Research and Development Plan [0111900]
- Zhejiang Provincial Natural Science Foundation of China [LQ20C020002]
- U.S. National Science Foundation [IOS1456300]
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Plants have developed a variety of defense mechanisms to protect themselves from pathogens, with callose playing a crucial role. This beta-(1,3)-D-glucan is deposited at pathogen attack sites to slow their spread, and research over the years has increased our understanding of its regulation and function in plant defense.
Plants are constantly exposed to a wide range of potential pathogens and to protect themselves, have developed a variety of chemical and physical defense mechanisms. Callose is a beta-(1,3)-D-glucan that is widely distributed in higher plants. In addition to its role in normal growth and development, callose plays an important role in plant defense. Callose is deposited between the plasma membrane and the cell wall at the site of pathogen attack, at the plasmodesmata, and on other plant tissues to slow pathogen invasion and spread. Since it was first reported more than a century ago, defense-related callose deposition has been extensively studied in a wide-spectrum of plant-pathogen systems. Over the past 20 years or so, a large number of studies have been published that address the dynamic nature of pathogen-induced callose deposition, the complex regulation of synthesis and transport of defense-related callose and associated callose synthases, and its important roles in plant defense responses. In this review, we summarize our current understanding of the regulation and function of defense-related callose deposition in plants and discuss both the progresses and future challenges in addressing this complex defense mechanism as a critical component of a plant immune system.
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