An efficient method for the extraction and the quantitative determination of callose from HLB-affected and healthy citrus

IF 3.5 Q1 AGRONOMY
Chiara Bernardini, Alessandro Franco, Riccardo Russo, Taylor Livingston, Frederick G. Gmitter, Amit Levy, T. Vashisth
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引用次数: 0

Abstract

Callose is a 1,3-β glucan responsible for several processes in planta such as cell division, ripening of pollen mother cells, maintaining the plasmodesmata opening, and providing structure to the sieve plates. Besides the physiological roles, callose is deposited during pathogen attacks, forming papillae to prevent pathogen entrance into the tissue or plugging the sieve pores to limit the spread of phloem pathogens. Candidatus Liberibacter asiaticus (CLas), the putative causal agent of Huanglongbing (HLB), is a phloem-restricted pathogen whose infection leads to the production of callose in the phloem. Characterizing the dynamics of callose plugging during HLB is important for understanding the disease, but no published protocols are available for the extraction and quantification of the callose in citrus trees, and quantitative data are limited. Detection of callose by microscopy is time-consuming and expensive and does not give information about the distribution of callose in the entire plant. Here, we present a short protocol for the efficient extraction and quantification of the total callose from citrus plants. We compared different tissues from healthy and CLas-infected plants and identified an increase in callose levels in the midribs, the stems, and the fruit peduncles of infected plants. Callose levels were highest in leaves, especially midribs, compared to stems, roots, and fruit peduncles. This method could be applied to other woody plant species.
从受 HLB 影响的柑橘和健康柑橘中提取并定量测定胼胝质的高效方法
胼胝质是一种 1,3-β 葡聚糖,在植物体内负责多个过程,如细胞分裂、花粉母细胞成熟、维持质膜开放以及为筛板提供结构。除了生理作用外,胼胝质在病原体侵袭时也会沉积下来,形成乳头状,防止病原体进入组织,或堵塞筛孔,限制韧皮部病原体的传播。黄龙病(HLB)的假定病原体亚洲自由杆菌(CLas)是一种限制韧皮部的病原体,其感染会导致韧皮部产生胼胝质。描述 HLB 期间胼胝质堵塞的动态特征对于了解该疾病非常重要,但目前还没有公开发表的柑橘树胼胝质提取和定量规程,定量数据也很有限。用显微镜检测胼胝质既费时又昂贵,而且无法提供胼胝质在整个植株中的分布信息。在此,我们介绍了一种高效提取和定量柑橘类植物总胼胝质的简便方法。我们比较了健康植株和受 CLas 感染植株的不同组织,发现受感染植株的中轴、茎和果梗中的胼胝质含量有所增加。与茎、根和果梗相比,叶片(尤其是中叶)中的胼胝质含量最高。这种方法可用于其他木本植物物种。
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来源期刊
Frontiers in Agronomy
Frontiers in Agronomy Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.80
自引率
0.00%
发文量
123
审稿时长
13 weeks
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