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在普通豆科植物根瘤中酸性磷酸酶的特定表达和活性。

Specific expression and activity of acid phosphatases in common bean nodules.

机构信息

Swedish University of Agricultural Sciences; Department of Biosystems and Technology; Alnarp, Sweden.

出版信息

Plant Signal Behav. 2013 Aug;8(8). doi: 10.4161/psb.25022. Epub 2013 May 17.

DOI:10.4161/psb.25022
PMID:23733065
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4004617/
Abstract

Under phosphorus (P) deficiency, sensitivity of the N 2-fixing legumes increases since the large amount of P-dependent carbon and energy turnover required during N 2 fixation are not satisfied. However, despites the fact that these crops have been widely characterized under P-deficiency and a number of tolerance traits have been identified, abilities of the nodules to cope with this environmental constraint have still to be further investigated. Increases both of activity and gene expression of acid phosphatases (APases) are among mechanisms that lead to increase both of N 2 fixation and nodule respiration under P-deficiency. Our findings have revealed that expression of phosphoenol pyruvate phosphatase (PEPase) and trehalose 6P phosphatase (TPP) genes and activities of the corresponding enzymes were positively correlated with increases both of the rhizobial symbiosis efficiency in use of P for N 2 fixation and nodule O 2 permeability. Under P-deficiency, this positive correlation was more significant for the recombinant inbred line (RIL) of Phaseolus vulgaris RIL115 that is tolerant to P-deficiency than the sensitive RIL147. Overall, the present work suggests that the tissue-specific localized PEPase and TPP transcripts of infected cells and nodule cortex play a role in adaptation to P-deficiency and are likely involved in nodule respiration linked to symbiotic nitrogen fixation (SNF).

摘要

在磷(P)缺乏的情况下,固氮豆科植物的敏感性会增加,因为在固氮过程中需要大量依赖 P 的碳和能量周转,而这些都无法得到满足。然而,尽管这些作物已经在 P 缺乏的情况下得到了广泛的研究,并且已经确定了许多耐受特性,但豆科植物的根瘤适应这种环境限制的能力仍有待进一步研究。在 P 缺乏的情况下,酸性磷酸酶(APases)的活性和基因表达增加是导致固氮和根瘤呼吸增加的机制之一。我们的研究结果表明,磷酸烯醇丙酮酸磷酸酶(PEPase)和海藻糖 6P 磷酸酶(TPP)基因的表达以及相应酶的活性与根瘤菌共生效率的提高呈正相关,这种效率体现在利用 P 进行固氮和根瘤 O2 通透性方面。在 P 缺乏的情况下,这种正相关在对 P 缺乏具有耐受性的 Phaseolus vulgaris RIL115 重组自交系(RIL)中比敏感的 RIL147 更为显著。总的来说,本研究表明,受感染细胞和根瘤皮层的组织特异性局部 PEPase 和 TPP 转录物在适应 P 缺乏方面发挥作用,并且可能与共生固氮(SNF)相关的根瘤呼吸有关。

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