Scientists discover how to send insects off the scent of crops following new research funding from the Biotechnology and Biological Sciences Research Council (BBSRC)-funded research.

Published this week in Chemistry Communications, the research describes how scientists have discovered molecules that could confuse insects' ability to detect plants by interfering with their sense of smell. This could reduce damage to crops by insect pests and contribute to food security.

Lead researcher Dr Antony Hooper of Rothamsted Research, an institute of the BBSRC, said: "One way in which insects find each other and their hosts is by smell, or more accurately: the detection of chemical signals - pheromones, for example. Insects smell chemicals with their antennae; the chemical actually gets into the antennae of the insect and then attaches to a protein called an odorant-binding protein, or OBP. This then leads to the insect changing its behaviour in some way in response to the smell [for example] flying towards a plant or congregating with other insects."

Studying an OBP found in the silkworm moth Bombyx mori, Dr Hooper and his team were able to look at how the OBP and a relevant pheromone interact. They also tested the interaction between OBP and other molecules that are similar to, but not the same as, the pheromone.

He said: "As well as learning about the nature of this interaction we've actually found that there are other compounds that bind to the OBP much more strongly than the pheromone. We could potentially apply these compounds, or similar ones, in some way to block the insects' ability to detect chemical signals - the smell would be overwhelmed by the one we introduce.”

Professor Douglas Kell, BBSRC chief executive said: "Around a quarter of crops are lost to pests and diseases and so if we are to have enough food in the future it is not just a matter of increasing gross yield. To secure our future food supply we must look for new and innovative ways to prevent and control pests and diseases. This is an interesting finding that could be applied across a number of important insect pests and may have far reaching implications for preventing human disease as well."