New plant gene discovery may lead to drought-tolerant crops
February 28th, 2008 - 1:30 pm ICT by admin - Send to a friend:
London, February 28 (ANI): Finnish and American scientists have identified a gene which is key to the regulation of carbon dioxide uptake for photosynthesis and water evaporation in plants, a discovery that may be useful for growing drought-tolerant crops.
Professor Jaakko Kangasjarvi, who led a group of researchers from the University of Helsinki, says that the research team has identified an anion channel, which is of central importance in the regulation of stomatal activity in plants.
Stomata are tiny pores on the plant leaf surface, through which the leaves absorb carbon dioxide necessary for photosynthesis and release moisture into the air.
The stomatal pores are surrounded by circular guard cells, which contain several types of ion channels that control the opening and closing of such cells when the plant encounters a stressful situation, such as increased ozone in the air or drought.
Professor Kangasjarvi and his colleagues identified the anion channel using a mutation of Arabidopsis thaliana commonly known as thale cress, reports Nature magazine in its online edition.
In a study, they found that the mutant did not react by closing its stomata as a response to high ozone or carbon dioxide concentration in the air like a healthy plant did.
A team of researchers at the University of California in San Diego showed with electrophysiological measurements that the gene identified encodes an anion channel, which is involved in the regulation of stomatal activities.
The magazine reports that the gene identified is of central importance for the mechanisms of stomatal regulation because, unlike the ion channels detected previously, the newly discovered anion channel takes part in the regulation of all the main stomatal activities.
Experts believe that this research may help develop a means to grow such crops as can thrive in dry areas, something which warrants an in-depth knowledge of the mechanisms that regulate stomata.
They also hope that the new findings will provide a new tool for geneticists in the development of drought-resistant plants. (ANI)
Related Stories
- Gene that aids drought-resistant plants identified - February 28, 2008
- Rising ozone levels in atmosphere are a likely contributor to global food crisis - June 7, 2008
- Rising ozone levels in atmosphere are a likely contributor to global food crisis (Re-Issue) - June 8, 2008
- US scientists develop substance to absorb carbon dioxide - February 16, 2008
- Scientists discover mechanism that regulates carbon dioxide fixation in plants - March 4, 2008
- Scientists develop new materials to selectively capture carbon dioxide - February 15, 2008
- Scientists identify new plant protein that holds promise for biofuel production - August 18, 2008
- Protein discovery to hasten biofuel production - August 16, 2008
- Microbe diet key to carbon dioxide release - August 1, 2008
- China sets up background atmosphere station in Antarctica - March 5, 2008
- Microbe diet key to carbon dioxide release - August 1, 2008
- Ground level ozone pollution set to reduce tree growth 10 percent by 2100 - December 10, 2008
- Plant gene that affects stress resistance identified - January 27, 2008
- Global warming causing plants to lose CO2 rather than absorbing it in northern regions - January 7, 2008
- Delhi University researchers find nitric oxide regulates both plants and people - April 28, 2008
- american scientists- - anion
- - carbon dioxide concentration
- - depth knowledge
- - dry areas
- - gene discovery
- - guard cells
- - ion channels
- - jaakko kangasjarvi
- - leaf surface
- - nature magazine
- - photosynthesis
- - plant gene
- - plant leaf
- - stressful situation
- - tiny pores
- - tolerant crops
- - university of california in san diego
- - university of helsinki
- - water evaporation
Posted in Health Science, |
