Genes behind plants’ natural body clocks identified
Scientists have discovered a gene that triggers plants to become dormant at night and controls flowering. Computer models of cress plants genes showed how 12 genes work together to set plants’ internal clocks, University of Edinburgh researchers said.health and fitness Updated: Mar 12, 2012 17:56 IST
Scientists have discovered a gene that triggers plants to become dormant at night and controls flowering.
Computer models of cress plants genes showed how 12 genes work together to set plants’ internal clocks, University of Edinburgh researchers said.
They found that a protein, known as TOC1, previously associated with helping plants to wake up, dampened down gene activity at night.
According to Professor Andrew Millar, “it was a big change in thinking”.
Plants, animals and even bacteria go through a daily 24-hour routine, known as a circadian rhythm, which allow them to make tiny adjustments as daylight changes, and adapt to changing seasons.
“Just like humans you should think about plants having rhythms,” Prof Millar said.
“Having a biological clock is particularly important for plants to prepare for daylight and at night-time [to] store energy for growth.
“We now understand how the dozen or so genes work and are typical to particular times of the day,” he said.
Prof Millar said that the results would help further research into the flowering of other plants - particularly crops such as wheat, barley and rice.
“It’s useful as it’s important in terms of biology and flowering.”
“We now understand how it all fits together and how the same genes control rhythms in all plants as far back as single-celled algae,” he said.
Another study run independently in Barcelona has also made similar findings to the Edinburgh research.
“We can now extend the knowledge we have gained of cyclic processes to the major crops and other plants of agronomic interest,” Professor Paloma Mas, of the Centre for Research in Agricultural Genomics in Spain, said.
Prof Millar said the new data would help scientists discover more about other plant genes.
“We now know about 12 genes - but we would still like to know about the ones that control photosynthesis, nitrogen use, and petal opening and fragrance,” Prof Millar added.
The study has been published in Molecular Systems Biology.