Salt Stress‐induced Programmed Cell Death in Rice Root Tip Cells

Li, Jianyou; Jiang, Ailiang; Zhang, Wei

doi:10.1111/j.1744-7909.2007.00445.x

Cited by 61 publications

(43 citation statements)

References 23 publications

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“…6). It is known that a variety of abiotic stresses, such as heavy metals, drought, salinity, extreme temperatures, high irradiance, and UV light, cause oxidative damage to plants either directly or indirectly through the formation of ROS [17][18][19][20][21][22]. Our present work showed that MWCNTs result in a significant induction of intracellular ROS formation in plant cells after treatment with 20 mg/L S-MWCNTs (Fig.…”

Section: Figure 4 Heresupporting

confidence: 59%

Studies on toxicity of multi-walled carbon nanotubes on suspension rice cells

Tan

Lin

Fugetsu

2009

Carbon

250

111

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Possible toxic effects of multi-walled carbon nanotubes (MWCNTs) on plant cells were investigated. Suspension rice cells (Oryza sativa L) were cultured with MWCNTs; reactive oxygen species (ROS) increased and cell viability decreased were observed.When ascorbic acid, a primary antioxidant, was introduced into the culture suspension, the ROS content decreased and cell viability increased. Transmission electron microscopy revealed individual tubes in contact with the cell walls. The suspension rice cells with individual MWCNTs at their cell wall seemed to undergo a hypersensitive response, namely the ROS defense response cascade, which is sufficient to prevent microbial pathogens from completing their life cycle.

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Section: Figure 4 Heresupporting

confidence: 59%

Studies on toxicity of multi-walled carbon nanotubes on suspension rice cells

Tan

Lin

Fugetsu

2009

Carbon

250

111

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“…Antioxidant enzymes that control biosynthesis and utilization of antioxidant metabolites to detoxify ROS (Foyer and Noctor, 2005) intricately regulate antioxidant capacity. Reactive oxygen species are thought to be key inducers of programmed cell death in plants (De Pinto et al, 2012) and antioxidants play an important role in this process (Li et al, 2007). To protect against oxidative stress, plant cells produce antioxidant enzymes such as superoxide dismutase (SOD), peroxidase (POX), and catalase (CAT), and nonenzymatic antioxidants such as ascorbate, glutathione, and α-tocopherol (Del Rio et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

Paddy plants inoculated with PGPR show better growth physiology and nutrient content under saline conditions

Jha

Subramanian

2013

Chilean J. Agric. Res.

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The possible role of plant growth-promoting rhizobacteria (PGPR) to alleviate salt stress during plant growth has been studied on paddy rice (Oryza sativa L.) 'GJ-17' under greenhouse conditions; the study included growth parameters, mineral concentration, and antioxidant enzyme level. Salinity reduced plant growth, but PGPR inoculation reduced its harmful effect up to 1% salinity. Plants inoculated with PGPR under saline conditions showed 16% higher germination, 8% higher survival, 27% higher dry weight, and 31% higher plant height. Similarly, PGPR inoculated plants showed increased concentrations of N(26%), P (16%), K (31%), and reduced concentrations of Na (71%) and Ca (36%) as compared to non-inoculated control plants under saline conditions. Plants inoculated with PGPR under saline conditions also showed significant variations in antioxidant levels and growth physiology. Results suggested that inoculation with PGPR Bacillus pumilus and Pseudomonas pseudoalcaligenes in salt-stressed plants could help to alleviate salt stress in the paddy.

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“…It could also be possible that the plant sacrificed cells to prevent uncontrolled death and the release of toxins to protect and keep other cells growing. PCD is also reported to occur in the root tip of rice as a response to salinity stress [65].…”

Section: Programmed Cell Death (Pcd)mentioning

confidence: 99%

Improvement of Salinity Stress Tolerance in Rice: Challenges and Opportunities

et al. 2016

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Rice (Oryza sativa L.) is an important staple crop that feeds more than one half of the world's population and is the model system for monocotyledonous plants. However, rice is very sensitive to salinity and is the most salt sensitive cereal crop with a threshold of 3 dSm −1 for most cultivated varieties. Despite many attempts using different strategies to improve salinity tolerance in rice, the achievements so far are quite modest. This review aims to discuss challenges that hinder the improvement of salinity stress tolerance in rice as well as potential opportunities for enhancing salinity stress tolerance in this important crop.

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Salt Stress‐induced Programmed Cell Death in Rice Root Tip Cells

Cited by 61 publications

References 23 publications

Studies on toxicity of multi-walled carbon nanotubes on suspension rice cells

Studies on toxicity of multi-walled carbon nanotubes on suspension rice cells

Paddy plants inoculated with PGPR show better growth physiology and nutrient content under saline conditions

Improvement of Salinity Stress Tolerance in Rice: Challenges and Opportunities

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