Description
Title: A Master Regulator of Plant Salinity Stress Tolerance Is Ethylene
Abstract: One of the main dangers to global agricultural productivity is salinity stress. As a result, research over the past three decades has concentrated on examining how salinity stress affects plants. The evidence gathered over time supports ethylene’s function as a key regulator of plants’ ability to withstand salinity stress. This gaseous plant hormone controls numerous critical cellular processes, from seed germination to photosynthesis, to maintain the plants’ growth and yield in a variety of environmental conditions. sodium stress In addition to increasing the assimilation of nitrates and sulfates, ethylene modulates salinity stress responses primarily by maintaining the homeostasis of Na+/K+, nutrients, and reactive oxygen species (ROS). Additionally, it has been discovered that ethylene signaling interacts with other phytohormones in a way that controls how plants respond to salinity stress. The current review offers a thorough update on the potential for ethylene signaling and its interactions with other phytohormones to control plants’ tolerance to salinity stress.
Keywords: ROS; ethylene; antioxidants; salinity stress; photosynthesis; programmed cell death; seed germination; hormone cross-talk
Paper Quality: SCOPUS / Web of Science Level Research Paper
Subject: Biomolecules
Writer Experience: 20+ Years
Plagiarism Report: Turnitin Plagiarism Report will be less than 10%
Restriction: Only one author may purchase a single paper. The paper will then indicate that it is out of stock.
What will I get after the purchase?
A turnitin plagiarism report of less than 10% in a pdf file and a full research paper in a word document.
In case you have any questions related to this research paper, please feel free to call/ WhatsApp on +919726999915
Reviews
There are no reviews yet.