Improving rice flour to aid food poverty

06 Jul 2015 - By: Anthea Lachia

Improving rice flour to aid food poverty

By Anthea Lacchia

A new, high-quality rice flour could help towards aiding global food poverty. "This rice flour serves not only as an alternative to wheat flour for those with wheat intolerance, but could also help to overcome the global food problem in the future", says Dr Yayoi Onda (Yamagata University, Japan), one of the researchers behind this work.

By studying and modifying proteins in the rice flour family, the researchers were able to produce dough and bread of superior quality than that obtained from 'normal' rice flour.

Rice flour does not typically work as efficiently in bread making as wheat flour. In order to overcome this problem, the researchers changed the amount, structures and properties of seed storage proteins. They found that rice flour deficient in a particular protein active during seed development (called PDIL1;1) produced dough with a network-like structure through the formation of disulphide bonds, which are strong bridges between proteins. "This improved the quality and efficiency of the dough and the bread", says Onda.

The new rice flour overcomes many of the issues associated with previous rice flour. For instance, the dough is more easily stretched and less sticky, it holds bubbles inside during fermentation and baking, it keeps its shape and structure as it inflates, and the bread has a more elastic texture after baking.

The researchers have already started breeding experiments so that PDIL1;1-deficient rice plants can be grown widely under different climatic conditions. 

Author: Anthea Lachia
Category: Science news
Share
Anthea

Anthea Lacchia

Anthea Lacchia was just completing her PhD at Trinity College Dublin when she won our annual press internship 2015. Now working at the press office at Nature, Anthea enjoyed four weeks writing press stories for SEB and interviewing our researchers at the SEB Meeting in Prague. 

SEB Cell Symposium 2016 web image

Bridging scales in models of cell to tissue behaviour

Lady Margaret Hall, Oxford, UK
12 - 15 September 2016