Ectopic expression of S-RNase of Petunia inflata in pollen results in its sequestration and non-cytotoxic function.

Sexual Plant Reproduction Pub Date : 2009-12-01 Epub Date: 2009-09-16 DOI:10.1007/s00497-009-0114-3
Xiaoying Meng, Zhihua Hua, Ning Wang, Allison M Fields, Peter E Dowd, Teh-hui Kao
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引用次数: 18

Abstract

The specificity of S-RNase-based self-incompatibility (SI) is controlled by two S-locus genes, the pistil S-RNase gene and the pollen S-locus-F-box gene. S-RNase is synthesized in the transmitting cell; its signal peptide is cleaved off during secretion into the transmitting tract; and the mature "S-RNase", the subject of this study, is taken up by growing pollen tubes via an as-yet unknown mechanism. Upon uptake, S-RNase is sequestered in a vacuolar compartment in both non-self (compatible) and self (incompatible) pollen tubes, and the subsequent disruption of this compartment in incompatible pollen tubes correlates with the onset of the SI response. How the S-RNase-containing compartment is specifically disrupted in incompatible pollen tubes, however, is unknown. Here, we circumvented the uptake step of S-RNase by directly expressing S(2)-RNase, S(3)-RNase and non-glycosylated S(3)-RNase of Petunia inflata, with green fluorescent protein (GFP) fused at the C-terminus of each protein, in self (incompatible) and non-self (compatible) pollen of transgenic plants. We found that none of these ectopically expressed S-RNases affected the viability or the SI behavior of their self or non-self-pollen/pollen tubes. Based on GFP fluorescence of in vitro-germinated pollen tubes, all were sequestered in both self and non-self-pollen tubes. Moreover, the S-RNase-containing compartment was dynamic in living pollen tubes, with movement dependent on the actin-myosin-based molecular motor system. All these results suggest that glycosylation is not required for sequestration of S-RNase expressed in pollen tubes, and that the cytosol of pollen is the site of the cytotoxic action of S-RNase in SI.

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矮牵牛S-RNase在花粉中的异位表达使其具有隔离和无细胞毒性的功能。
S-RNase自交不亲和性的特异性由雌蕊S-RNase基因和花粉S-locus- f- box基因两个s位点基因控制。S-RNase在传递细胞中合成;它的信号肽在分泌过程中被切断进入传递道;而成熟的“S-RNase”(本研究的主题)则通过一种尚不清楚的机制被生长的花粉管吸收。摄取后,S-RNase被隔离在非自(相容)和自(不相容)花粉管的液泡室中,随后在不相容花粉管中该室的破坏与SI反应的发生有关。然而,在不相容的花粉管中,含s - rnase的隔室是如何被特异性破坏的尚不清楚。本研究绕过S-RNase的摄取步骤,在转基因植物的自交(不亲和)和非自交(亲和)花粉中直接表达牵牛花的S(2)-RNase、S(3)-RNase和非糖基化的S(3)-RNase,并在每种蛋白的c端融合绿色荧光蛋白(GFP)。我们发现这些异位表达的S-RNases都不影响其自身或非自身花粉/花粉管的活力或SI行为。根据离体萌发花粉管的GFP荧光分析,所有的花粉管都被隔离在自花粉管和非自花粉管中。此外,含s - rnase的隔室在活花粉管中是动态的,其运动依赖于肌动蛋白-肌球蛋白分子运动系统。这些结果表明,在花粉管中表达的S-RNase不需要糖基化就能被隔离,花粉的胞质是S-RNase在SI中发挥细胞毒性作用的部位。
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来源期刊
Sexual Plant Reproduction
Sexual Plant Reproduction 生物-生殖生物学
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