TIFR scientists identify gene that can help increase rice productivity
A team of scientists at the Tata Institute of Fundamental Research’s Bengaluru-based National Centre for Biological Sciences has identified a protein that plays a critical role in the holding of grains in the panicles of rice crops, a development that could help increase the productivity of rice.
Small RNAs regulate genes and they are present in all organisms. They decide which protein should be made and how much should be made in a given cell/tissue/organism.
Small RNAs are also key regulators in initiating and maintaining heritable changes in gene expression without changes in the DNA sequence (called ‘epigenetics’). Numerous pioneering studies have shown that small RNAs and epigenetic modifications are central to plant development and defence.
Related News: Tiruchirappalli wary about fortified rice scheme under central project
Small RNAs are made in cells by a set of proteins called Dicers (proteins that dice longer RNAs into shorter bits). Once they are made, they associate with another protein called Argonautes (abbreviated AGO). For acting as gene regulators, this association between small RNAs and Argonautes is a must. There are a minimum of 10 different Argonautes in plants performing different activities. There are at least 19 of them in the group of plants called monocots, which include cereal crops.
In a new study, a team of scientists led by Prof P V Shivaprasad has shown that a previously unknown AGO named AGO17 is essential for the growth of panicles that hold rice grains. When the researchers expressed it at higher levels in plants, they got plants with longer panicles and more yield. On the other hand, plants had poor growth when the gene was removed by knockdown strategies.
Speaking to India Science Wire, Dr Shivaprasad said, “It is clear that AGO17 is a new player that can be used to increase yield. Last year, we showed what exactly was changed during the domestication of rice from wild grasses to high yielding cultivated lines. In that work, we showed how the loss of small RNA led to a change in the rigidity of rice stems as in current rice lines that are sturdier and can hold more grains. AGO17 is also related to domestication. Its expression has been altered during the domestication of rice. Since our results show that this gene can be used to improve yield, natural lines having a higher expression of this gene can be used by breeders to produce new crops with a higher yield. As we have demonstrated in this new study, genetic engineering can also provide rice plants with enhanced yield. In the era of genome editing, we can increase the yield by altering the expression of this gene.”
Related News: Chhattisgarh trades surplus rice for bio-ethanol, sparks food vs grain debate
Dr Kannan Pachamuthu, who is the first author of the paper, is equally enthusiastic that this finding has a direct application. “Panicles have a very dynamic gene expression pattern during their development. We are happy that we found one major regulator in panicle development,” he said.
The study team consisted of Chenna Swetha, Debjani Basu, Soumitra Das, Indira Singh, Vivek Hari Sundar and T N Sujith, besides Dr Shivaprasad and Dr Pachamuthu. They have published a report on their findings in springer’s journal, Plant Molecular Biology.
(India Science Wire)