Your search keyword '"Parveen, Nishat"' showing total 2 results

1. Auxin Crosstalk with Reactive Oxygen and Nitrogen Species in Plant Development and Abiotic Stress.

Author

Parveen, Nishat, Kandhol, Nidhi, Sharma, Shivesh, Singh, Vijay Pratap, Chauhan, Devendra Kumar, Ludwig-Müller, Jutta, Corpas, Francisco J, and Tripathi, Durgesh Kumar

Subjects

*REACTIVE nitrogen species, *REACTIVE oxygen species, *ABIOTIC stress, *PLANT development, *AUXIN, *FRUIT development

Abstract

The phytohormone auxin acts as an important signaling molecule having regulatory functions during the growth and development of plants. Reactive oxygen species (ROS) are also known to perform signaling functions at low concentrations; however, over-accumulation of ROS due to various environmental stresses damages the biomolecules and cell structures and leads to cell death, and therefore, it can be said that ROS act as a double-edged sword. Nitric oxide (NO), a gaseous signaling molecule, performs a wide range of favorable roles in plants. NO displays its positive role in photomorphogenesis, root growth, leaf expansion, seed germination, stomatal closure, senescence, fruit maturation, mitochondrial activity and metabolism of iron. Studies have revealed the early existence of these crucial molecules during evolution. Moreover, auxin, ROS and NO together show their involvement in various developmental processes and abiotic stress tolerance. Redox signaling is a primary response during exposure of plants to stresses and shows a link with auxin signaling. This review provides updated information related to crosstalk between auxin, ROS and NO starting from their evolution during early Earth periods and their interaction in plant growth and developmental processes as well as in the case of abiotic stresses to plants. [ABSTRACT FROM AUTHOR]

Published

2022

2. Metalloids in plants: A systematic discussion beyond description.

Author

Parveen, Nishat, Berni, Roberto, Sudhakaran, Sreeja, Bhat, Javaid A., Shinde, Suhas, Ramawat, Naleeni, Singh, Vijay P., Sahi, Shivendra, Deshmukh, Rupesh, Chauhan, Devendra K., and Tripathi, Durgesh Kumar

Subjects

*SEMIMETALS, *PLANT growth, *POISONOUS plants, *PLANT development, *GERMANIUM, *NONMETALS

Abstract

Metalloids represent a wide range of elements with intermediate physiochemical properties between metals and non‐metals. Many of the metalloids, like boron, selenium, and silicon are known to be essential or quasi‐essential for plant growth. In contrast, metalloids viz. arsenic and germanium are toxic to plant growth. The toxicity of metalloids largely depends on their concentration within the living cells. Some elements, at low concentration, may be beneficial for plant growth and development; however, when present at high concentration, they often exert negative effects. In this regard, understanding the molecular mechanisms involved in the uptake of metalloids by roots, their subsequent transport to different tissues and inter/intra‐cellular redistribution has great importance. The mechanisms of metalloids' uptake have been well studied in plants. Also, various transporters, as well as membrane channels involved in these processes, have been identified. In this review, we have discussed in detail the aspects concerning the positive/negative effects of different metalloids on plants. We have also provided a thorough account of the uptake, transport, and accumulation, along with the molecular mechanisms underlying the response of plants to these metalloids. Additionally, we have brought up the previous theories and debates about the role and effects of metalloids in plants with insightful discussions based on the current knowledge. [ABSTRACT FROM AUTHOR]

Published

2022