茄青霉表型转化突变体对番茄“微汤姆”青枯病的生物防治

Q3 Agricultural and Biological Sciences
Hiroki Nakahara, Taro Mori, Naoto Sadakari, H. Matsusaki, N. Matsuzoe
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引用次数: 9

摘要

青枯病(Ralstonia solanacearum Rsol)引起的青枯病是一种毁灭性的病害,已在世界各地200多种植物中发现,如西红柿、茄子、土豆和其他重要的经济作物(Hayward, 1991)。这种病原体通过根部的伤口或次生根出现的地方侵入寄主植物,然后在皮层定植,感染维管薄壁,并侵入木质部血管(Vasse et al., 1995)。当Rsol进入血管后,细菌迅速扩散并在整个血管系统中增加,导致植物枯萎和死亡。Rsol在植物、植物水提取物、土壤或肉汤培养中经过长时间培养后会自发地发生表型转化(PC) (Kelman, 1954;布登哈根和凯尔曼,1964;Kelman and Hruschka, 1973;Shekhawat and Perombelon, 1991;Mori et al., 2011;2012)。PC突变体要么是弱致病性的,要么是非致病性的,但这些突变体仍然能够在宿主组织中定植而不引起症状(Kelman, 1954;Denny et al., 1988;Mori et al., 2011)。用PC突变体预接种番茄和烟草的青枯病(Tanaka, 1983;Hara and Ono, 1991;Arwiyanto et al., 1994)。研究了PC突变体对茄子青枯病的抑制作用(Ogawa et al., 2011;2012年;2012 b)。这些研究表明,PC突变体通过在茄子根和茎上定殖并阻止Rsol野生型菌株随后的定殖来抑制青枯病。推测PC突变体具有诱导茄子对野生型菌株产生抗性的潜力。然而,诱导耐药的分子机制尚不清楚。在有益微生物抑制植物病害的研究中,由于病原菌相关蛋白(PR)的表达和积累,抑制病原菌感染并具有抗菌活性,从而降低了植物病害的严重程度(Hase et al., 2006;Kawamura等人,2009)。PC突变体感染的植物似乎表达并积累了PR蛋白。在本研究中,我们研究了适用于遗传分析的番茄模型品种“Micro-Tom”(Meissner et al., 1997)接种PC突变体后PR蛋白基因的表达。微型矮型番茄“Micro-Tom”从播种到盆栽成熟的生命周期较短,为2 - 3个月,生长密度高(Meissner et al., 1997)。因此,该品种适用于研究植物生长或筛选PC突变体等需要大量样品的试验,节省了温室或生长室内试验的空间和时间。在利用微生物防治病害的研究中,微生物对植物生长有积极或消极的影响。作为一个积极的例子,Thanh等人(2009)报道了预先接种了植物生长促进根瘤菌(PGPR)的植物
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biological Control of the Bacterial Wilt of the Tomato ‘Micro-Tom' by Phenotypic Conversion Mutants of Ralstonia solanacearum
Bacterial wilt caused by Ralstonia solanacearum Rsol is a devastating disease that has been observed in over 200 plant species such as tomatoes, eggplants, potatoes and other economically important crops around the world (Hayward, 1991). This pathogen invades the host plants through wounds in roots or sites where secondary roots emerge, then colonizes the cortex, infects the vascular parenchyma, and invades the xylem vessels (Vasse et al., 1995). After Rsol penetrates into the vessels, the bacterium rapidly spreads and increases throughout the vascular system, resulting in wilting and the death of the plants. Rsol spontaneously undergoes a phenotypic conversion (PC) after prolonged culture in plants, water extract of plants, soil or broth culture (Kelman, 1954; Buddenhagen and Kelman, 1964; Kelman and Hruschka, 1973; Shekhawat and Perombelon, 1991; Mori et al., 2011; 2012). PC mutants are either weak pathogenic or non-pathogenic, but these mutants are still able to colonize host tissue without causing symptoms (Kelman, 1954; Denny et al., 1988; Mori et al., 2011). The bacterial wilt diseases of tomato and tobacco were suppressed by pre-inoculation with PC mutants (Tanaka, 1983; Hara and Ono, 1991; Arwiyanto et al., 1994). The suppression of bacterial wilt by PC mutants in eggplant has been investigated (Ogawa et al., 2011; 2012a; 2012b). Those studies revealed that PC mutants suppressed bacterial wilt in eggplant by colonizing the root and stem and preventing subsequent colonization by the Rsol wildtype strain. It was speculated that PC mutants have the potential to induce resistance against the wild-type strain in eggplant. However, the molecular mechanisms underlying the induction of resistance are still unknown. In studies of the suppression of plant diseases by beneficial microorganisms, the plant disease severity was reduced because of the expression and accumulation of the pathogenesis-related (PR) proteins that inhibit infection of pathogen and have an antibacterial activity (Hase et al., 2006; Kawamura et al., 2009). PC mutant-infected plants seem to express and accumulate the PR proteins. In the present study, we investigate the expression of PR protein genes in ‘Micro-Tom’, a model cultivar of tomato suitable for genetic analysis (Meissner et al., 1997), after inoculation with PC mutants. The tomato ‘Micro-Tom’ that is miniature-dwarf cultivar, has a short life cycle in 2 3 months from sowing to fruit ripening in pots, and grows at high density (Meissner et al., 1997). Therefore, using this cultivar is suitable for the experiments that require many samples such as researches the plant growth or screening of PC mutants, and it is able to save the space and time for the tests in greenhouses or growth chambers. Among studies of disease control using microorganisms, the microorganisms showed either positive or negative effects on the growth of plants. As a positive example, Thanh et al. (2009) reported that plants pre-inoculated with plant growth-promoting rhizobacteria (PGPR) were sup-
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来源期刊
Environmental Control in Biology
Environmental Control in Biology Agricultural and Biological Sciences-Agronomy and Crop Science
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