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Towards smarter crop plants to feed the world


Lancaster, United Kingdom
July 26, 2016

Plant scientists have made an important advance in understanding the natural diversity of a key plant enzyme which could help us address the looming threat of global food security.

Rubisco is the central enzyme responsible for photosynthesis in plants, it enables them to absorb carbon from the atmosphere, which they depend upon to live and grow. But until now, the extent of natural diversity of Rubisco across plant species was relatively unknown.

In the most comprehensive study of its kind to date, the Lancaster University-led research team has discovered that some of the species they looked at had more effective and high-performing Rubisco than several of the major crops species, like wheat and soybean.

As part of the study, researchers from Lancaster University and Liverpool John Moores University looked at 75 plant species, including grasses, wild rice, melons and beans from across the world and assessed the ability of their Rubiscos to assimilate CO2 at a range of different temperatures – to replicate the effects of a changing climate.

Publishing in the journal Plant Physiology, researchers say they were excited by the range of performance of Rubiscos isolated from the different land plants.

Some of these Rubisco enzymes have superior characteristics that now offer the possibility of engineering plants which grow more quickly, and with less need for additional fertilisers. As part of the consortium RIPE, the Lancaster researchers and their collaborators are working toward improving crops such as rice, cassava, soybean and cowpea.

Dr Douglas Orr, Lancaster University, said: “The plants we examined came from a range of environments, from sub Saharan Africa to temperate regions of Europe and Asia, and northern Australia.”

“We also analysed the effect of temperature on Rubisco biochemistry in all these species, to explore how different Rubiscos respond to changing temperatures, which can help us understand how the changes occurring in our climate may impact plant growth.”

Dr Elizabete Carmo-Silva, Lancaster University, said: “This large dataset has shed new light on the variation present in nature. We were able to identify a number of ‘superior’ Rubiscos which modelling suggests could improve photosynthetic efficiency in crops such as wheat and soybean. This provides important information in our efforts to produce more sustainable crops.”

Prof Martin Parry, Lancaster University, said: “This new information gives us the opportunity to tailor the photosynthetic performance of crops for specific environments.”

The study ‘Surveying Rubisco diversity and temperature response to improve crop photosynthetic efficiency’ is part of the ‘RIPE’ project. RIPE: Realising Increased Photosynthetic Efficiency for Sustainable Increases in Crop Yield is a Bill & Melinda Gates Foundation funded initiative. The Lancaster Environment Centre RIPE team is led by Professor Martin Parry and the overall RIPE project is led by Professor Steve Long (University of Illinois, who recently also joined Lancaster University).

http://www.plantphysiol.org/content/early/2016/06/24/pp.16.00750.abstract

Full bibliographic information
Surveying Rubisco diversity and temperature response to improve crop photosynthetic efficiency
Douglas Orr, André Alcântara, Maxim V Kapralov, John Andralojc, Elizabete Carmo-Silva and Martin Afan John Parry



More news from: Lancaster University


Website: http://www.lancs.ac.uk/

Published: July 26, 2016

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