Plant Cell Organelle Proteomics in Response to Abiotic Stress

Hossain, Zahed; Nouri, Mohammad‐Zaman; Komatsu, Setsuko

doi:10.1021/pr200863r

Cited by 169 publications

(102 citation statements)

References 91 publications

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“…In response to abiotic stress factors, plants may also accumulate and/or synthesize protein types (such as heat shock proteins (HSPs), zinc-finger proteins, mitogen-activated protein kinase (MAPK), late embryogenesis abundant (LEA) proteins; dehydrins, late embryogenesis abundant (LEA) proteins, chaperones, etc.). These proteins have been evidenced to help plants to run cellular metabolism and eventually to tolerate potential abiotic stress impacts (reviewed by Timperio et al 2008;Fatehi et al 2012;Hossain et al 2012;Ghosh and Xu 2014). However, owing to their great abundance and high rate constants of a range of reactive radicals, proteins are one of the major cellular constituents targeted by ROS (Davies 2005).…”

Section: Overviewmentioning

confidence: 99%

Lipids and proteins—major targets of oxidative modifications in abiotic stressed plants

Anjum

Sofo

Scopa

et al. 2014

Environ Sci Pollut Res

271

160

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Stress factors provoke enhanced production of reactive oxygen species (ROS) in plants. ROS that escape antioxidant-mediated scavenging/detoxification react with biomolecules such as cellular lipids and proteins and cause irreversible damage to the structure of these molecules, initiate their oxidation, and subsequently inactivate key cellular functions. The lipid- and protein-oxidation products are considered as the significant oxidative stress biomarkers in stressed plants. Also, there exists an abundance of information on the abiotic stress-mediated elevations in the generation of ROS, and the modulation of lipid and protein oxidation in abiotic stressed plants. However, the available literature reflects a wide information gap on the mechanisms underlying lipid- and protein-oxidation processes, major techniques for the determination of lipid- and protein-oxidation products, and on critical cross-talks among these aspects. Based on recent reports, this article (a) introduces ROS and highlights their relationship with abiotic stress-caused consequences in crop plants, (b) examines critically the various physiological/biochemical aspects of oxidative damage to lipids (membrane lipids) and proteins in stressed crop plants, (c) summarizes the principles of current technologies used to evaluate the extent of lipid and protein oxidation, (d) synthesizes major outcomes of studies on lipid and protein oxidation in plants under abiotic stress, and finally, (e) considers a brief cross-talk on the ROS-accrued lipid and protein oxidation, pointing to the aspects unexplored so far.

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Section: Overviewmentioning

confidence: 99%

Lipids and proteins—major targets of oxidative modifications in abiotic stressed plants

Anjum

Sofo

Scopa

et al. 2014

Environ Sci Pollut Res

271

160

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show abstract

“…2) (Bolwell et al, 2004;Cánovas et al, 2004;Figeys, 2003;Hennig, 2007) including studies of the relationships between proteins and plant development, seed maturation, responses to biotic and abiotic stresses and human allergies (e.g. Chen and Harmon, 2006;Hossain et al, 2012;Komatsu et al, 2012;Kosová et al, 2011;Sergeant and Renaut, 2010;Taká c et al, 2011;Timperio et al, 2008;Zhang et al, 2012). Many plants have been studied including A. thaliana, tobacco, vegetables, fruits and cereals.…”

Section: Plants Proteins In Generalmentioning

confidence: 99%

MS based proteomic approaches for analysis of barley malt

Laštovičková

Bobáľová

2012

Journal of Cereal Science

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“…We recently reviewed plant cell organelle proteomics in response to abiotic stress 180 . A number of subcellular proteomics studies (gel-free or gel based) on soybean have been already reported.…”

Section: Subcellular Proteomics Of Soybeanmentioning

confidence: 99%

Proteomics of Important Food Crops in the Asia Oceania Region: Current Status and Future Perspectives

et al. 2015

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ABSTRACT:In the rapidly growing economies of Asia and Oceania, food security has become a primary concern. With the rising population, growing more food at affordable prices is becoming even more important. In addition, the predicted climate change will lead to drastic changes in global surface temperature and changes in rainfall patterns that in turn would pose a serious threat to plant vegetation worldwide.As a result, understanding how plants will survive in a changing climate will be increasingly important. Such challenges require integrated approaches to increase agricultural production and cope with environmental threats. Proteomics can play a role in unravel the underlying mechanisms for food production to address the growing demand for food. In this review, the current status of food crop proteomics is discussed, especially in regards to the Asia and Oceania regions. Furthermore, the future perspective in relation to proteomic techniques for the important food crops is highlighted.

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Plant Cell Organelle Proteomics in Response to Abiotic Stress

Cited by 169 publications

References 91 publications

Lipids and proteins—major targets of oxidative modifications in abiotic stressed plants

Lipids and proteins—major targets of oxidative modifications in abiotic stressed plants

MS based proteomic approaches for analysis of barley malt

Proteomics of Important Food Crops in the Asia Oceania Region: Current Status and Future Perspectives

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