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Award details
CUKPGP:New pest resistance in rice, by breeding and genetic modification (GM) for constitutive and inducible levels of defence homoterpenes
Reference
BB/L001683/1
Principal Investigator / Supervisor
Professor John Pickett
Co-Investigators /
Co-Supervisors
Dr Michael Birkett
,
Professor Linda Field
,
Dr Jing-Jiang Zhou
Institution
Rothamsted Research
Department
Biological Chemistry & Crop Protection
Funding type
Research
Value (£)
160,395
Status
Completed
Type
Research Grant
Start date
01/06/2013
End date
31/05/2017
Duration
48 months
Abstract
New pest resistance in rice, but for eventual exploitation in other crops, will be developed by breeding and genetic modification (GM) for constitutive and inducible levels of defence active homoterpenes. The homoterpenes are naturally produced by plants on attack and reduce pest colonisation and promote natural pest control by parasitic wasps. These homoterpenes are produced at low levels by elite rice cultivars and these levels need to be raised for robust resistance, particularly by induction when specifically needed for pest control. The homoterpenes are biosynthesised from higher molecular weight precursors by oxidation and the enzymes, cytochromes P450, are known for some plants, e.g. Cyp82G1 from Arabidopsis thaliana and studied further in our UK-China collaboration BB/J020281/1. Next generation sequencing (NGS) and bioinformatics will be used tentatively to identify the rice genes with confirmation by chemical and behavioural analysis by over-expression in model systems, e.g. E. coli, and rice. Elite rice cultivars, their ancestors and wild relatives will be screened for high expression of these genes and for new lines created to overexpress them under regulation by inducible promoter sequences using chemical analysis, and behavioural and developmental studies with pests, including the rice brown planthopper, and their parasites, e.g. parasitic wasps. The most promising rice lines from both the screening and GM routes will then be developed by further breeding and more refined genetic engineering, particularly regarding the induced expression and response to elicitors for this induction. Preliminary field evaluation will be carried out in year 3 using the pest resistance assessments and also agronomic traits. This work will demonstrate the value of the new traits for exploitation in other food crops, but also in long term breeding for perennial growth, e.g. perennial upland/rain-fed rice for delivery of defence against pests solely via initial seed.
Summary
This project aims to develop and evaluate a new generation of rice crops in China with protection against major insect pest populations, that is delivered via a non-toxic mode of action, ie through modification of pest behaviour. The innovative science in this project will underpin the development of environmentally sustainable solutions for food production in China, extending to small-holder farms in rural areas. The genes responsible for the biosynthesis of homoterpenes, known to be active against rice pests but not yet in any way exploited in sustainable pest control, will first be identified tentatively by next generation sequencing and bioinformatics, using information (including from UK-China Collaboration BB/J020281/1) from related genetics via wild and model plants, and identity confirmed by overexpression, including in rice, followed by chemical analysis. Elite rice cultivars and relatives will then be screened for high expression of these genes and new lines created overexpressing them under regulation by inducible promoter sequences, using chemical analysis and studies with pests, including the rice brown planthopper Nilaparvata lugens, and their parasites, including Anagrus nilaparvatae. The most promising lines from both routes will be developed by breeding, including production of synthetic crosses, and further genetic engineering for preliminary field evaluation in year 3. This will produce new sustainable pest resistance traits by breeding and genetic modification that will provide rice varieties that both resist pests but also exploit natural parasitism. In addition to the value in rice, these traits will be directly applicable to other crops, including in the long term perennial rain-fed rice. This new cooperation provides essential breeding opportunities and functional gene diversity (China) and secondary metabolite defence targeting (UK).
Impact Summary
The pressure currently to produce new resistance in rice to pests will guarantee impact if this project is successful in its overall aims. The impact on developing resistance by breeding and GM routes will result in numerous new projects following this and related to it by having secondary metabolite targets being funded if this project is successful. The exact route to impact will be via the State breeding agencies in China working under CAD and in the UK on wheat via the private breeding industry, with both of which this China-UK cooperation has extremely close links. The work will have another predictable impact, even if not fully practically successful in this project, in that there are many scientific groups, science funding agencies and those concerned with sustainable development of agriculture in both the developed and developing worlds who will be keen to see how a specific attempt to use stress plant secondary metabolites constitutively or inducibly expressed in crop pest management in a manner that can deliver novel defence traits via the seed. We believe that replacement of pesticide use with the novel pest resistance traits described here would be both a plausible and highly desirable objective for Chinese agriculture, specifically with regard to rural area development. The proposed activities aim to support agricultural and ecological development, strengthen agricultural infrastructure, ensure national food security, advance agro-processing production, and increase the income of farmers. The project uses a wide range of approaches including insect behaviour, natural product chemistry and state-of-the-art genomics, biochemistry and molecular biology. The scientist to be employed by the Chinese partner and based on extended placements at Rothamsted will benefit from being exposed to multi-disciplinary research and the diverse expertise of the applicants both in UK and China. In Africa, where low-input systems are already required, acrop protection programme against pests and parasitic weeds exploits the defence homoterpenes effectively and sustainably by means of a companion cropping approach (push-pull). However, the resources and expertise of this China/UK cooperation are essential for access to the breeding opportunities and gene diversity for homoterpene biosynthesis as well as the success in targeting secondary metabolite/defence based evidence by this team and the ongoing UK-China Collaboration BB/J020281/1 on the genetics of homoterpene biosynthesis.
Committee
Research Committee B (Plants, microbes, food & sustainability)
Research Topics
Crop Science, Plant Science
Research Priority
X – Research Priority information not available
Research Initiative
China-UK Programme in Global Priorities (CUKPGP) [2012]
Funding Scheme
X – not Funded via a specific Funding Scheme
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