Proteome analysis of leaves from the resurrection plant Boea hygrometrica in response to dehydration and rehydration

Jiang, Guoqiang; Wang, Zhi; Shāng, Hǎihóng; Yang, Wenlong; Hu, Zhongliang; Phillips, Jonathan; Deng, Xin

doi:10.1007/s00425-006-0449-z

Cited by 102 publications

(107 citation statements)

References 78 publications

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“…Elevated levels of the thylakoid protease FtsH have been observed at late stages of dehydration of the poikilochlorophyllous resurrection plant Xerophyta viscosa (Ingle et al, 2007), in which degradation of thylakoid proteins is a natural occurrence during desiccation. However, the observation of a similar phenomenon in homoiochlorophyllous types such as Selaginella tamariscina (Wang et al, 2010), H. rhodopensis (Georgieva et al, 2009;Sárvári et al, 2014), and Boea hygrometrica (Jiang et al, 2007) suggests . The density of PSII complexes in grana thylakoid membranes changes during dehydration and rehydration.…”

Section: Decline In Photosynthetic Activity and Protein Levelsmentioning

confidence: 96%

Photoprotection Conferred by Changes in Photosynthetic Protein Levels and Organization during Dehydration of a Homoiochlorophyllous Resurrection Plant

et al. 2015

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During desiccation, homoiochlorophyllous resurrection plants retain most of their photosynthetic apparatus, allowing them to resume photosynthetic activity quickly upon water availability. These plants rely on various mechanisms to prevent the formation of reactive oxygen species and/or protect their tissues from the damage they inflict. In this work, we addressed the issue of how homoiochlorophyllous resurrection plants deal with the problem of excessive excitation/electron pressures during dehydration using Craterostigma pumilum as a model plant. To investigate the alterations in the supramolecular organization of photosynthetic protein complexes, we examined cryoimmobilized, freeze-fractured leaf tissues using (cryo)scanning electron microscopy. These examinations revealed rearrangements of photosystem II (PSII) complexes, including a lowered density during moderate dehydration, consistent with a lower level of PSII proteins, as shown by biochemical analyses. The latter also showed a considerable decrease in the level of cytochrome f early during dehydration, suggesting that initial regulation of the inhibition of electron transport is achieved via the cytochrome b 6 f complex. Upon further dehydration, PSII complexes are observed to arrange into rows and semicrystalline arrays, which correlates with the significant accumulation of sucrose and the appearance of inverted hexagonal lipid phases within the membranes. As opposed to PSII and cytochrome f, the light-harvesting antenna complexes of PSII remain stable throughout the course of dehydration. Altogether, these results, along with photosynthetic activity measurements, suggest that the protection of retained photosynthetic components is achieved, at least in part, via the structural rearrangements of PSII and (likely) light-harvesting antenna complexes into a photochemically quenched state.

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Section: Decline In Photosynthetic Activity and Protein Levelsmentioning

confidence: 96%

Photoprotection Conferred by Changes in Photosynthetic Protein Levels and Organization during Dehydration of a Homoiochlorophyllous Resurrection Plant

et al. 2015

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“…This was ascertained by studying various physiological parameters in intact plants as well as in detached fronds (data not shown). The desiccation and rehydration of detached fronds avoid interference from developmental regulation and long-distance signalling from other organs (Jiang et al, 2007). We intend to use it as a model system to gain a system-level understanding of responses to desiccation using multiple platforms that provide information about global transcript levels, proteomes, a wide range of metabolites, enzyme activities, and growth parameters.…”

Section: Introductionmentioning

confidence: 99%

Proteome Analysis of Detached Fronds from a Resurrection Plant Selaginella Bryopteris - Response to Dehydration and Rehydration

Deeba¹,

Pandey²,

Pathre³

et al. 2009

J Proteomics Bioinform

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Selaginella bryopteris (L.) Bak is a resurrection plant. Uniquely, its detached fronds have the ability to survive desiccation similar to that of the whole plant. In order to understand the mechanisms of desiccation tolerance, proteome studies were carried out in this plant using detached fronds to reveal proteins that were differentially expressed in response to dehydration and rehydration. There was not much difference in electrolyte leakage between control, dehydrated and rehydrated fronds. During dehydration the plants showed only respiration and a drop in F v /F m values. Both fluorescence and photosynthesis regained totally after rehydration. About 250 protein spots were reproducibly detected and analyzed. From the putatively identified spots (proteins), it was observed that proteins involved in transport, targeting and degradation were expressed more in the desiccated fronds. These findings tentatively indicate that some of the proteins could contribute a physiological advantage to S. bryopteris under desiccation.

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“…Antioxidants and their attending enzymes also appear central to the desiccation response in DT plants and tissues (Sherwin and Farrant, 1998;Illing et al, 2005;Kranner and Birtic, 2005;Berjak, 2006;Farrant, 2007). For example, ascorbate-glutathione cycle metabolites are often elevated during drying to combat ROS activity in resurrection plants Jiang et al, 2007). In fact, the length of time a resurrection plant can survive the dried state has been correlated to the level of antioxidants in its tissue (Kranner et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

A Sister Group Contrast Using Untargeted Global Metabolomic Analysis Delineates the Biochemical Regulation Underlying Desiccation Tolerance in Sporobolus stapfianus

et al. 2011

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Understanding how plants tolerate dehydration is a prerequisite for developing novel strategies for improving drought tolerance. The desiccation-tolerant (DT) Sporobolus stapfianus and the desiccation-sensitive (DS) Sporobolus pyramidalis formed a sister group contrast to reveal adaptive metabolic responses to dehydration using untargeted global metabolomic analysis. Young leaves from both grasses at full hydration or at 60% relative water content (RWC) and from S. stapfianus at lower RWCs were analyzed using liquid and gas chromatography linked to mass spectrometry or tandem mass spectrometry. Comparison of the two species in the fully hydrated state revealed intrinsic differences between the two metabolomes. S. stapfianus had higher concentrations of osmolytes, lower concentrations of metabolites associated with energy metabolism, and higher concentrations of nitrogen metabolites, suggesting that it is primed metabolically for dehydration stress. Further reduction of the leaf RWC to 60% instigated a metabolic shift in S. stapfianus toward the production of protective compounds, whereas S. pyramidalis responded differently. The metabolomes of S. stapfianus leaves below 40% RWC were strongly directed toward antioxidant production, nitrogen remobilization, ammonia detoxification, and soluble sugar production. Collectively, the metabolic profiles obtained uncovered a cascade of biochemical regulation strategies critical to the survival of S. stapfianus under desiccation.

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Proteome analysis of leaves from the resurrection plant Boea hygrometrica in response to dehydration and rehydration

Cited by 102 publications

References 78 publications

Photoprotection Conferred by Changes in Photosynthetic Protein Levels and Organization during Dehydration of a Homoiochlorophyllous Resurrection Plant

Photoprotection Conferred by Changes in Photosynthetic Protein Levels and Organization during Dehydration of a Homoiochlorophyllous Resurrection Plant

Proteome Analysis of Detached Fronds from a Resurrection Plant Selaginella Bryopteris - Response to Dehydration and Rehydration

A Sister Group Contrast Using Untargeted Global Metabolomic Analysis Delineates the Biochemical Regulation Underlying Desiccation Tolerance in Sporobolus stapfianus

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