Inhibition of invasive plant Mikania micrantha rapid growth by host-specific rust (Puccinia spegazzinii)

薇甘菊 茉莉酸 生物 水杨酸 光合作用 Rust(编程语言) 植物 杂草 叶绿素 生物化学 计算机科学 程序设计语言
作者
Guangzhong Zhang,Chenjiaozi Wang,Xinghai Ren,Zaiyuan Li,Conghui Liu,Xi Qiao,Shicai Shen,Fudou Zhang,Fanghao Wan,Bo Liu,Wanqiang Qian
出处
期刊:Plant Physiology [Oxford University Press]
卷期号:192 (2): 1204-1220 被引量:5
标识
DOI:10.1093/plphys/kiad186
摘要

Mikania micrantha Kunth is a fast-growing global invasive weed species that causes severe damage to natural ecosystems and very large economic losses of forest and crop production. Although Puccinia spegazzinii can effectively inhibit the growth of M. micrantha and is used as a biological control strain in many countries, the mechanism of inhibiting the growth of M. micrantha is not clear. Here, we used a combination of phenotypic, enzyme activity, transcriptomic, and metabolomic approaches to study the response of M. micrantha after infection by P. spegazzinii. In the early stages of rust infection, jasmonic acid (JA), jasmonoyl-isoleucine (JA-Ile), and salicylic acid (SA) levels in infected leaves were significantly lower than those in uninfected leaves. In teliospore initial and developed stages of P. spegazzinii, JA and JA-Ile levels substantially increased by more than 6 times, which resulted in a significant decrease in the accumulation of defense hormone SA in infected leaves of M. micrantha. The contents of plant growth-promoting hormones were significantly reduced in the infected plants as a result of substantial downregulation of the expression of key genes related to hormone biosynthesis. Furthermore, rust infection led to high levels of reactive oxygen species in chloroplasts and the destruction of chlorophyll structure, which also led to decreased photosynthetic gene expression, net photosynthetic rate, activity of Rubisco, and levels of important organic acids in the Calvin cycle. We hypothesized that after P. spegazzinii infection, JA or JA-Ile accumulation not only inhibited SA levels to promote rust infection and development, but also impeded the rapid growth of M. micrantha by affecting plant growth hormones, carbon, and nitrogen metabolic pathways.
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