plants by exposing them to certain chemicals at seed can affect subsequent growth. Researchers found that treating seeds with ethylene gas improved both growth and stress tolerance. This finding includes enhanced photosynthesis. Carbohydrate production in plants has the potential to be a breakthrough in improving crop yields and resilience to environmental stressors. Like other living things, plants can be stressed. Usually the conditions are as follows heat and drought. That can lead to stress, and when stressed, the plant may not grow as much or produce less. This can be a problem for farmers, so many scientists have tried genetically modified plants to make it more elastic. However, plants modified to obtain higher crop yields are low stress tolerance. This is because they put more energy into growing than protecting them from stress. Similarly, as plants improve their ability to withstand stress, production often decreases because they spend more energy protecting than growing. This brainteaser makes it possible It is difficult to improve crop yields. I was studying How the plant hormone ethylene regulates plant growth and stress responses. In Research to be published in July 2023, my lab made an unexpected and provocative observation. We found that when seeds that are normally underground germinate in the dark, adding ethylene improves both growth and stress tolerance. Ethylene is a plant hormone Because plants cannot move around, they cannot avoid stressful environmental conditions such as heat or drought. They receive various signals from their environment, such as light and temperature, which shape their growth, development, and how they respond to stressful situations. As part of this regulation, plants make various hormones They are part of a regulatory network that allows them to adapt to environmental conditions. Ethylene was first discovered as a gaseous plant hormone over 100 years ago. Since then, research has shown that all land plants studied produce ethylene. In addition to controlling growth and responding to stress, they are also involved in other processes, such as turning leaves in autumn and promoting fruit ripening. Ethylene as a way to “prime” plants My lab focuses on how plants and bacteria sense ethylene and how ethylene interacts with other hormonal pathways to regulate plant development. While conducting this research, my group accidental discovery. We were experimenting with germinating seeds in a dark room. Seed germination is a critical period in a plant’s life when seeds transition from dormancy to seedlings under favorable conditions. In this experiment, Seeds exposed to ethylene gas Continue this for a few days to see what effect it has. The ethylene was then removed. Normally, the experiment should end here. However, after collecting data on these seedlings, we transferred them to lightweight carts. This is not something we normally do, but we wanted to grow the plants to adulthood so we could have seeds for future experiments. After a few days of placing the seedlings under light, some lab members made the unexpected and surprising observation that the plants briefly gassed with ethylene. it was much bigger. These plants had larger leaves and longer and more complex root systems than plants not exposed to ethylene. These plants continued to grow at a faster rate throughout their lives. The plant on the left was not primed with ethylene, while the plant on the right was primed with ethylene. Both plants are the same age. Credit: Binder Lab, University of Tennessee, Knoxville My colleagues and I wanted to know if plants are diverse seed Exposure to ethylene during seed germination showed growth stimulation. We discovered it the answer is yes. We tested the effects of short-term ethylene treatment on germinating tomato, cucumber, wheat, and arugula seeds, all of which grew significantly. However, what made this observation unusual and exciting is that short ethylene treatments also Increased tolerance to various stresses salinity stress, high temperature, hypoxic conditions, etc. The long-term effects of short-term exposure to a stimulus on growth and stress tolerance are often referred to as priming effects. This can be thought of as pump priming priming allows the pump to start easier and faster. There are studies that investigated how plants grow after priming at different ages and developmental stages. but Seed priming Methods using various chemicals and stress are probably the most studied because they are easy to implement and, if successful, can be…
Source: scitechdaily.com
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