Literature DB >> 19211702

Exploring the mechanism of Physcomitrella patens desiccation tolerance through a proteomic strategy.

Xiao Qin Wang1, Ping Fang Yang, Zheng Liu, Wei Zhong Liu, Yong Hu, Hui Chen, Ting Yun Kuang, Zhen Ming Pei, Shi Hua Shen, Yi Kun He.   

Abstract

The moss Physcomitrella patens has been shown to tolerate abiotic stresses, including salinity, cold, and desiccation. To better understand this plant's mechanism of desiccation tolerance, we have applied cellular and proteomic analyses. Gametophores were desiccated over 1 month to 10% of their original fresh weight. We report that during the course of dehydration, several related processes are set in motion: plasmolysis, chloroplast remodeling, and microtubule depolymerization. Despite the severe desiccation, the membrane system maintains integrity. Through two-dimensional gel electrophoresis and image analysis, we identified 71 proteins as desiccation responsive. Following identification and functional categorization, we found that a majority of the desiccation-responsive proteins were involved in metabolism, cytoskeleton, defense, and signaling. Degradation of cytoskeletal proteins might result in cytoskeletal disassembly and consequent changes in the cell structure. Late embryogenesis abundant proteins and reactive oxygen species-scavenging enzymes are both prominently induced, and they might help to diminish the damage brought by desiccation.

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Year:  2009        PMID: 19211702      PMCID: PMC2663739          DOI: 10.1104/pp.108.131714

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  45 in total

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  39 in total

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7.  Embryos of a moss can be hardened to desiccation tolerance: effects of rate of drying on the timeline of recovery and dehardening in Aloina ambigua (Pottiaceae).

Authors:  John C Brinda; Lloyd R Stark; Theresa A Clark; Joshua L Greenwood
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8.  Conservation between higher plants and the moss Physcomitrella patens in response to the phytohormone abscisic acid: a proteomics analysis.

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9.  The Under-explored Extracellular Proteome of Aero-Terrestrial Microalgae Provides Clues on Different Mechanisms of Desiccation Tolerance in Non-Model Organisms.

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