- Unique breeding method using gene editing could drastically reduce the time it takes plant breeders to bring new varieties to the market
- Findings will help plant breeders to accelerate yield advances in crops, leading to increased grower profitability
- Study is a result of investments made by Syngenta in genome sequencing and crop genetics research
RESEARCH TRIANGLE PARK, N.C., USA, February 13, 2017 – Syngenta researchers have been published in the world-renowned international science journal Nature for their breakthrough work that could lead to decreases in the time is takes to breed seeds. These findings could translate to significant cost efficiencies in the commercial sector of agriculture.
The paper, authored by a Syngenta research team, establishes that haploid induction, a complex modern seed breeding process that helps shave years off the seed breeding process in corn, is triggered by a defect in an enzyme coded by the Matrilineal (MTL) gene. The researchers also found that novel gene edits in the MTL gene can induce haploid induction, opening up the possibility to optimize the technology and transfer it to crops other than corn.
“Successful haploid induction is an often painstaking and costly process,” said Tim Kelliher, principal scientist, reproduction biology at Syngenta and lead author of the paper. “But this research is an important step in showing how gene editing can help us breed plants that produce higher yields, on a much more efficient time frame.”
“We know that investment in gene editing and crop genetics can help us create significant progress toward sustainable intensification of agriculture,” said Michiel van Lookeren Campagne, head of Seeds Research at Syngenta. “To be recognized by the scientific community for this work illustrates its importance to innovation in agriculture. It is a true honor and testament to the quality of our scientists.”
This work directly addresses one of the six commitments of The Good Growth Plan – making crops more efficient without using more land, water or inputs.
“Understanding the underlying biology of MTL and related genes will open a wave of innovation on our quest to find ways to feed the world more efficiently and effectively,” van Lookeren Campagne added.
To read the paper published by Syngenta researchers, visit http://www.nature.com/nature/journal/v542/n7639/full/nature20827.html.
Syngenta is a leading agriculture company helping to improve global food security by enabling millions of farmers to make better use of available resources. Through world-class science and innovative crop solutions, our 28,000 people in over 90 countries are working to transform how crops are grown. We are committed to rescuing land from degradation, enhancing biodiversity and revitalizing rural communities. To learn more visit http://www.syngenta.com and http://www.goodgrowthplan.com. Follow us on Twitter® at www.twitter.com/Syngenta and www.twitter.com/SyngentaUS.