April 18, 2012
NUS Scientists Discover A ‘Switch’ In Plants To Create Flowers
When unproductive plants were given the working protein, their flowering time was restored
Flowering is the most crucial act that plants undergo, as the fruits of such labor include crops on which the world depends, and seeds from which the next generation grows.
Now, a study by a team of researchers from the National University of Singapore (NUS) has discovered how this happens. The team, led by Associate Professor Yu Hao from the Department of Biological Sciences at the NUS Faculty of Science, has identified a protein that is essential for flowering under normal light conditions. The team's findings were published on 17 April 2012 in the online, open-access journal PLoS Biology.
To identify the element that triggers the process of flowering in plants, Assoc Prof Yu and his colleagues undertook a study that spanned around five years, in which they scanned for proteins in plants using a process called yeast two-hybrid screening. After scanning around 3 million samples, the researchers identified a molecule they dubbed FT-INTERACTING PROTEIN 1 (FTIP1).
The researchers found that plants with mutant, non-functional versions of the FTIP1 gene flowered much later under normal light conditions (around 16 hours of light per day). When such mutants were given a working version of this gene, their flowering time was restored largely back to normal.
These findings suggested FTIP1 was crucial to how flowering was controlled under light. This implies that FTIP1 and genes similar to it could be used as molecular markers for both classical plant breeding and targeted genetic modification for desirable flowering traits.
Said Assoc Prof Yu, "This research shows that we can manipulate flowering time through controlling key regulators like FTIP1. This can potentially increase crop yields significantly in changing environments."
Further studies from Assoc Prof Yu and his team hint that a group of FTIP1-like proteins are involved in a wide range of plant developmental processes. They are now working to uncover the other factors that are critical in controlling flowering and other key developmental processes in plants.
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