Abstract
Lignification is a major cell wall modification that often results in the formation of sophisticated subcellular patterns during plant development or in response to environmental stresses. Precise localization of the spatiotemporal deposition of lignin is of great importance for revealing the lignification regulatory mechanism of individual cells. In loquat fruits, lignification typically increases the flesh lignin content and firmness, reducing their edibility and processing quality. However, the precise localization of the spatiotemporal active zones of lignification inside loquat fruit flesh remains poorly understood, and little is known about the contribution of patterned lignification to cell wall structure dynamics and the subsequent fruit-quality deterioration. Here, we performed an emerging bioorthogonal chemistry imaging technique to trace the in vivo patterned lignification dynamics in cells of loquat fruit flesh during development and storage. In developing fruits, lignified cells (LCs) and vascular bundles (VBs) were the zones of active lignification, and ring-like LCs deposited lignin at both the inner wall layer and the outer periphery sides. The domino effect of the generation of LCs was preliminarily visualized. In mature fruits, the newly formed lignin in the flesh of fruits during storage was specifically deposited in the corners and middle lamellae of parenchyma cells surrounding the VBs, resulting in the development of a reticular structure. Based on the findings, distinct spatiotemporal patterned lignification modes for different flesh cells in loquat fruits were proposed. These findings provide loquat lignification dynamics together with spatiotemporal data that can improve our understanding of the lignification process in planta.
Highlights
Cell walls are highly complex configurations of structurally diverse polysaccharides and execute essential functions, including constraining cell expansion, maintaining turgor pressure, and providing plants with mechanical strength and protection[1]
In terms of molecular regulation, we found that the expression of lignin biosynthesis-related genes (PAL, 4-coumarate: coenzyme A ligase (4CL), and cinnamyl alcohol dehydrogenase (CAD)) increased and identified their transcription factors (NAC and MYB) in loquat fruit during postharvest lignification[16,22]
An enlarged view of lignified cells (LCs) in loquat fruitlet flesh shows that both the inner wall layer and the outer periphery of LCs deposit newly formed lignin. These results indicate that lignin is mainly synthesized to form LCs and vascular bundles (VBs) vessels at the growing stage of fruitlets (S1)
Summary
Cell walls are highly complex configurations of structurally diverse polysaccharides and execute essential functions, including constraining cell expansion, maintaining turgor pressure, and providing plants with mechanical strength and protection[1]. In addition to their fundamental functions, some cell walls with unique composition and architecture in different plant tissues. Softening and lignification are two main kinds of texture variation of fruits during ripening and postharvest storage. Lignification occurs in fruits of several kinds of species, such as loquat[15,16], kiwifruit[17], and mangosteen[18], and is considered an unusual phenomenon. The most notable case is the substantial flesh lignification of loquat fruit during postharvest storage
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