Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Trehalose Protects Maize Plants from Salt Stress and Phosphorus Deficiency
View through CrossRef
This study was undertaken to elucidate the role of trehalose (Tre) in mitigating oxidative stress under salinity and low P in maize. Eight-day-old maize seedlings of two maize varieties, BARI Hybrid Maize-7 and BARI Hybrid Maize-9 were subjected to salinity (150 mM NaCl), low P (5 µM KH2PO4) and their combined stress with or without 10 mM Tre for 15-d.Salinity and combined stress significantly inhibited the shoot length, root length, and root volume, whereas, low P increased the root length and volume in both genotypes. Exogenous Tre in the stress treatments increased all of the growth parameters as well as decreased the salinity, low P and combined stress-mediated Na+/K+, ROS, MDA, LOX activity and MG in both genotypes. Under salinity and low P stress, the SOD activity increased in both genotypes, but the activity decreased in combined stress. POD activity increased in all stress treatments. Interestingly, Tre application enhanced the SOD activity in all the stress treatments but inhibited the POD activity. Both CAT and GPX activity were increased by saline and low P stress while the activities inhibited in combined stress. Similar results were found for APX, GR, and DHAR activities in both genotypes. However, MDHAR activity was inhibited in all the stresses. Interestingly, Tre enhanced CAT APX, GPX, GR, MDHAR and DHAR activities suggesting the amelioration of ROS scavenging in maize under all the stresses. Increased GST activity in presence or absence of Tre might involve in detoxification of hydroperoxides as well as leaf senescence. On the other hand, increased glyoxalase activities in saline and low P stress in BHM-9 suggested better MG detoxification system because of down-regulation of Gly-I activity in BHM-7 in those stresses. Tre also increased the glyoxalase activities in both genotypes under all the stresses. Tre improved the growth in maize seedlings by decreasing Na+/K+, ROS, MDA, and MG through regulating antioxidant and glyoxalase systems.
Title: Trehalose Protects Maize Plants from Salt Stress and Phosphorus Deficiency
Description:
This study was undertaken to elucidate the role of trehalose (Tre) in mitigating oxidative stress under salinity and low P in maize.
Eight-day-old maize seedlings of two maize varieties, BARI Hybrid Maize-7 and BARI Hybrid Maize-9 were subjected to salinity (150 mM NaCl), low P (5 µM KH2PO4) and their combined stress with or without 10 mM Tre for 15-d.
Salinity and combined stress significantly inhibited the shoot length, root length, and root volume, whereas, low P increased the root length and volume in both genotypes.
Exogenous Tre in the stress treatments increased all of the growth parameters as well as decreased the salinity, low P and combined stress-mediated Na+/K+, ROS, MDA, LOX activity and MG in both genotypes.
Under salinity and low P stress, the SOD activity increased in both genotypes, but the activity decreased in combined stress.
POD activity increased in all stress treatments.
Interestingly, Tre application enhanced the SOD activity in all the stress treatments but inhibited the POD activity.
Both CAT and GPX activity were increased by saline and low P stress while the activities inhibited in combined stress.
Similar results were found for APX, GR, and DHAR activities in both genotypes.
However, MDHAR activity was inhibited in all the stresses.
Interestingly, Tre enhanced CAT APX, GPX, GR, MDHAR and DHAR activities suggesting the amelioration of ROS scavenging in maize under all the stresses.
Increased GST activity in presence or absence of Tre might involve in detoxification of hydroperoxides as well as leaf senescence.
On the other hand, increased glyoxalase activities in saline and low P stress in BHM-9 suggested better MG detoxification system because of down-regulation of Gly-I activity in BHM-7 in those stresses.
Tre also increased the glyoxalase activities in both genotypes under all the stresses.
Tre improved the growth in maize seedlings by decreasing Na+/K+, ROS, MDA, and MG through regulating antioxidant and glyoxalase systems.
Related Results
Trehalose increases jejunum cytoplasmic lipid droplets and suppresses adipocyte hypertrophy
Trehalose increases jejunum cytoplasmic lipid droplets and suppresses adipocyte hypertrophy
Abstract
Background: Trehalose is a functional disaccharide that has anti-metabolic activities such as suppression of adipocyte hypertrophy in mice and alleviation of impai...
The Impact of Adding Trehalose to the Diet on Egg Quality and Tibia Strength in Light-Laying Hens
The Impact of Adding Trehalose to the Diet on Egg Quality and Tibia Strength in Light-Laying Hens
Trehalose, a disaccharide consisting of two D-glucose molecules, is present in a variety of organisms, including bacteria, yeast, fungi, insects, and plants. In plants, it function...
Trends in bacterial trehalose metabolism and significant nodes of metabolic pathway in the direction of trehalose accumulation
Trends in bacterial trehalose metabolism and significant nodes of metabolic pathway in the direction of trehalose accumulation
SummaryThe current knowledge of trehalose biosynthesis under stress conditions is incomplete and needs further research. Since trehalose finds industrial and pharmaceutical applica...
Regulation of trehalose metabolism in insects: from genes to the metabolite window
Regulation of trehalose metabolism in insects: from genes to the metabolite window
AbstractTrehalose is a major circulatory sugar in the haemolymph of insects. It provides instant energy and protection against stress. Trehalose metabolism is associated with insec...
Trehalose Protects Maize Plants from Salt Stress and Phosphorus Deficiency
Trehalose Protects Maize Plants from Salt Stress and Phosphorus Deficiency
This study is undertaken to elucidate the role of trehalose (Tre) in mitigating oxidative stress under salinity and low P in maize. Eight-day-old maize seedlings of two maize varie...
Sucrose Metabolism
Sucrose Metabolism
Abstract
Sucrose is one of the main products of photosynthesis in plants, and the most common form of carbohydrate transported from source to si...
Thermal Anomalies Around Evolving Salt Sheets
Thermal Anomalies Around Evolving Salt Sheets
ABSTRACT
The thermal conductivity of salt is about a factor three larger than that of sediments at sediment surface temperatures. The increase of sedimentary ther...
De Novo Anemia and Relationship with Vitamin C Deficiency and Zinc Deficiency in a Southern Delaware Population, a Retrospective Analysis
De Novo Anemia and Relationship with Vitamin C Deficiency and Zinc Deficiency in a Southern Delaware Population, a Retrospective Analysis
Abstract
Background:
Vitamin C is an essential dietary nutrient. It is a water soluble vitamin that exists in the body primarily in the reduced form A...