Intercepting CLAVATA
receptor-like kinase function to engineer ear size in wheat
Supervisors:
Dr Jill Harrison (Bristol), Professor Keith Edwards (Bristol) and Dr Chris Burt
(RAGT Seeds)
Ensuring continuous global
food security will be a major challenge of the 21st century, and wheat
contributes approximately 20% of the total calories consumed by humans (FAO,
2017). In cereals like wheat, inflorescence (ear) size determines the number of
flowers (florets) and grains produced, and this aspect of plant architecture is
regulated by the activity of stem cells in the growing shoot tips. The CLAVATA
peptide/ receptor-like kinase signalling pathway maintains the size of the stem
cell pool during plant development, and mutants in maize and tomato have increased
yields, arising due to an increase in size of the stem cell pool. This project aims
to intercept wheat CLAVATA
signalling to engineer ears
with more fertile grain sites and increase yield.
The
project will involve:
(1) Identification of wheat
CLAVATA pathway components
(2) Expression analyses of
wheat CLAVATA pathway components
(3) Generation phenotypic
analysis of wheat CLAVATA pathway mutants.
Expertise:
Dr Harrison’s group has
recently published gene trees for CLAVATA pathway components from a range of
land plants (Whitewoods et al. (2018)), and she has experience of analysing
gene expression patterns and function in a wide range of plant species.
Professor Edwards and colleagues from the Bristol Centre for Agricultural
Innovation have extensive experience with wheat having sequenced the genome
(Brenchley et al. (2012)), identified many mutants from the exome sequenced
Cadenza TILLING mutant population (Krasileva et al. (2017)) and established
engineering procedures using CRISPR/Cas9. The CASE partnership with RAGT seeds
will bring an opportunity for the student to directly experience wheat breeding
and exchange knowledges and finding with wheat growers.
By combining computational
and wet lab approaches, your project work will provide training at the cutting
edge of the plant development field. You will benefit from further formal
teaching and internships included in the SWBioDTP programme. The skills and
techniques you learn will be broadly applicable in the academic biology and
biotech sectors and widely transferable amongst areas such as science policy, publishing
and computing.
Reading:
Brenchley et al. (2012).
Analysis of the bread wheat genome using whole-genome shotgun sequencing.
Nature 491: 705-710. Food and Agriculture Organization of the United Nations,
FAOSTAT statistics database, Food balance sheets (2017); www.fao.org/faostat/en/#data/FBS.
Krasileva et al. (2017).
Uncovering hidden variation in polyploid wheat. PNAS 114: E913-E921.
Whitewoods et al. 2018.
CLAVATA was a genetic novelty for the morphological innovation of 3D growth in
land plants. Current Biology 28: 2365-2376.
Applications:
Applications will be open
on the SWBio DTP website and the
closing date is the 3rd December. Informal enquiries to Dr JillHarrison.
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