Innovative gene stacks enhance wheat rust resistance
John Innes Centre researchers have helped in the development of pioneering gene stacking techniques to combat the growing threat of wheat rust
Read the storyJohn Innes Centre researchers have helped in the development of pioneering gene stacking techniques to combat the growing threat of wheat rust
Read the storyPlants can tell the time, but how might that knowledge help improve crop protection and food security?
Read the storyA leading John Innes Centre researcher and colleagues have been awarded European funding to develop innovative molecular solutions to combat a damaging sugar beet virus
Read the storyA European Court ruling widely interpreted to mean that all gene-edited organisms are GMOs (Genetically Modified Organisms) may not be as prescriptive as many first assumed
Read the storyHow do we feed a growing population in a changing climate? One solution is to develop resilient crop varieties. But how can we achieve this increased resilience in crops? New John Innes Centre Group Leader Dr Sanu Arora is working on just that, so we asked her what her group will be doing?
Read the storyResearch has shed new light on the molecular mechanisms that allow crops to synchronise flowering with favourable conditions
Read the storyScientists have identified a resistance gene, Sr22, as one of the few characterised genes that protects against many stem rust races, one of the most devastating fungal diseases of wheat
Read the storyWheat researchers at the John Innes Centre are pioneering a new technique that promises to improve gene discovery for the globally important crop
Read the storyResearchers from the John Innes Centre and Earlham Institute have contributed to a major international collaboration that could catalyse a new era of wheat discovery
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