Using pathogen genome-informed strategies to understand the molecular mechanism plant disease
Posted 12th April 2019 by Joshua Sewell
A key feature of our Congresses is the opportunity given to early career researchers to present their work.
At the upcoming 7th Plant Genomics & Gene Editing Congress: Europe, Egem Ozbudak will be one of four early career researchers to be given a 15-minute platform to present their work and receive a free registration pass for both days of the conference.
He will be discussing his research project on Colletotrichum acutatum, the causative agent of anthracnose crown and fruit rot, recognized as the second most important pathogen of strawberries on the globe due to its economic impacts.
Developing Live Microbial Products with Science Driven Understanding
Posted 29th March 2019 by Joshua Sewell
Günter Welz is part of the Open Innovation and Strategic Partnerships department at Bayer. He scouts for and builds relationships with external innovators in academia and business to enrich Bayer’s R&D pipeline, using various tools like the Open Innovation website and the venture capital arm.
Bridging the policy-practice divide in genome-editing for agriculture
Posted 18th March 2019 by Joshua Sewell
Regulation of emerging technology such as genome editing has mainly focused on responding to the consequences of innovation. The classical regulatory model of “identification-quantification-assessment-safety management” takes a risk-oriented approach to regulation of emerging technology and focuses on constraining the practice of science based on ethics, and administrative and risk management procedures.
Navigating the European Court of Justice stance on GMOs
Posted 11th March 2019 by Joshua Sewell
“The breeder’s dream is, of course, of an agency which would enable him to produce at will a particular kind of mutation uncontaminated by others which would merely be a nuisance to him….”
“There is as yet no indication from genetics of how, or even whether, this could be done… The dream of directed mutation as a tool in stock and crop improvement is still very much a dream”
These words were part of a lecture given by the well-known geneticist Kenneth Mather at the John Innes Institute in 1960. Now, after more than 50 years of research, his dream of directed mutation has become a reality.
What kind of plant genes allow crops to shape the rhizosphere microbiota?
Posted 6th March 2019 by Joshua Sewell
In my lab we aim to decipher the genetic basis of plant-microbe interactions taking place at the root-soil interface, in the so called “rhizosphere”. Microbes in this environment, collectively referred to as the rhizosphere microbiota, can enhance mineral mobilisation for plant uptake and crop protection, thereby representing a yet untapped resource for sustainable agriculture.
Utilising Machine Learning Models to transform Plant Genomics
Posted 25th February 2019 by Joshua Sewell
A lot of machine learning is used in technology such as Google Assistant, Amazon’s Alexa or Apple’s Siri, or to get rid of spam in your email inbox. Deep learning and rapid development of this technology enables us to solve image classification problems – e.g. “does this picture contain a dog or a cat?”. Also, artificial intelligence is set to soon replace many human jobs – in the darkest views, it might even pose an existential threat to the human race.
What repercussions do these developments have for genome-related research and in particular plant genomics?
How CRISPR/Cas9 can help unravel Salt Stress Responses in Rice
Posted 18th February 2019 by Joshua Sewell
Soil salinity affects a large amount of arable land and is one of the major causes of crop yield reduction worldwide. Rice, a major food crop feeding more than half of the world, is highly susceptible to salinity stress. Developing salt-stress tolerant rice cultivars is essential to sustain world rice production. The major focus of my research at the Maathuis Lab in the Biology Department of the University of York is looking for key players in the complex molecular networks responsible for rice salt-tolerance, and understanding their mode(s) of action.
Integrating breeding technologies to supercharge future crops
Posted 15th February 2019 by Joshua Sewell
The inspiration for the development of ‘Speed Breeding’ came from the first food product designed and purposefully bred for growing in space, a variety of wheat called USU-Apogee. Because there is not much space inside the spacecraft, they needed to maximise the number of wheat plants and grow them very quickly.