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Nitrogen metabolic rate and differential ammonia volatilization regulate resistance against opportunistic fungus in tobacco. | LitMetric

Nitrogen metabolic rate and differential ammonia volatilization regulate resistance against opportunistic fungus in tobacco.

Front Plant Sci

Zhejiang Key Laboratory of Crop Germplasm Resource, Department of Agronomy, College of Agriculture and Biotechnology, Zhejiang University, Hangzhou, China.

Published: September 2022

AI Article Synopsis

  • - The availability and types of nitrogen (N) in plants significantly influence their resistance to diseases, but the direct link between N metabolism and resistance levels remains unclear.
  • - In a study comparing two tobacco cultivars, the susceptible one showed much higher levels of ammonium (NH) and reduced enzyme activity, which contributed to its susceptibility to disease compared to the resistant cultivar.
  • - Results indicate that NH volatilization, not just NH levels or total nitrogen, is a key factor in increasing infection severity in tobacco plants, highlighting the importance of nitrogen management in disease resistance.

Article Abstract

Nutritional correlations between plants and pathogens can crucially affect disease severity. As an essential macronutrient, the availability of nitrogen (N) and the types of N content play a fundamental part not only in energy metabolism and protein synthesis but also in pathogenesis. However, a direct connection has not yet been established between differences in the level of resistance and N metabolism. Pertinently, former studies hold ammonia (NH) accountable for the development of diseases in tobacco ( L.) and in some post-harvest fruits. With a purpose of pinpointing the function of NH volatilization on (Fries) Keissl pathogenesis and its correlation with both N metabolism and resistance differences to infection in tobacco, leaf tissue of two tobacco cultivars with susceptibility (Changbohuang; CBH), or resistance (Jingyehuang; JYH) were analyzed apropos of ammonia compensation point, apoplastic NH concentration, pH value as well as activities of key enzymes and N status. At the leaf age of 40 to 60 d, the susceptible cultivar had a significantly higher foliar apoplastic ammonium (NH ) concentration, pH value and NH volatilization potential compared to the resistant one accompanied by a significant reduction in glutamine synthetase (GS), which in particular was a primary factor causing the NH volatilization. The NH concentration in CBH was 1.44 times higher than that in JYH, and CBH had NH compensation points that were 7.09, 6.15 and 4.35-fold higher than those of JYH at 40, 50 and 60 d, respectively. Moreover, the glutamate dehydrogenase (GDH) activity had an upward tendency related to an increased NH accumulation in both leaf tissues and apoplast but not with the NH compensation point. Collectively, our results strongly suggest that the accumulation of NH volatilization, rather than NH and total N, was the primary factor inducing the infection in tobacco. Meanwhile, the susceptible cultivar was characterized by a higher N re-transfer ability of NH volatilization, in contrast to the disease-resistant cultivar, and had a stronger capability of N assimilation and reutilization. This study provides a deeper understanding of the pathogenicity mechanism induced by which is useful for breeding -resistant varieties of tobacco, at the same time, our research is also conducive to control tobacco brown spot caused by in the field.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9538177PMC
http://dx.doi.org/10.3389/fpls.2022.1003534DOI Listing

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