Ellen Colebrook scite author profile

Plant hormones are small molecules that regulate plant growth and development, as well as responses to changing environmental conditions. By modifying the production, distribution or signal transduction of these hormones, plants are able to regulate and coordinate both growth and/or stress tolerance to promote survival or escape from environmental stress. A central role for the gibberellin (GA) class of growth hormones in the response to abiotic stress is becoming increasingly evident. Reduction of GA levels and signalling has been shown to contribute to plant growth restriction on exposure to several stresses, including cold, salt and osmotic stress. Conversely, increased GA biosynthesis and signalling promote growth in plant escape responses to shading and submergence. In several cases, GA signalling has also been linked to stress tolerance. The transcriptional regulation of GA metabolism appears to be a major point of regulation of the GA pathway, while emerging evidence for interaction of the GA-signalling molecule DELLA with components of the signalling pathway for the stress hormone jasmonic acid suggests additional mechanisms by which GA signalling may integrate multiple hormone signalling pathways in the response to stress. Here, we review the evidence for the role of GA in these processes, and the regulation of the GA signalling pathway on exposure to abiotic stress. The potential mechanisms by which GA signalling modulates stress tolerance are also discussed.

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Ectoparasites of livestock in Europe and the Mediterranean region

Colebrook

Wall

2004

Veterinary Parasitology

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The involvement of gibberellin signalling in the effect of soil resistance to root penetration on leaf elongation and tiller number in wheat

et al. 2013

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Broad-Spectrum Acquired Resistance in Barley Induced by thePseudomonasPathosystem Shares Transcriptional Components withArabidopsisSystemic Acquired Resistance

Colebrook

Creissen²,

McGrann³

et al. 2012

MPMI

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Inducible resistance responses play a central role in the defense of plants against pathogen attack. Acquired resistance (AR) is induced alongside defense toward primary attack, providing broad-spectrum protection against subsequent pathogen challenge. The localization and molecular basis of AR in cereals is poorly understood, in contrast with the well-characterized systemic acquired resistance (SAR) response in Arabidopsis. Here, we use Pseudomonas syringae as a biological inducer of AR in barley, providing a clear frame of reference to the Arabidopsis-P. syringae pathosystem. Inoculation of barley leaf tissue with the nonadapted P. syringae pv. tomato avrRpm1 (PstavrRpm1) induced an active local defense response. Furthermore, inoculation of barley with PstavrRpm1 resulted in the induction of broad-spectrum AR at a distance from the local lesion, "adjacent" AR, effective against compatible isolates of P. syringae and Magnaporthe oryzae. Global transcriptional profiling of this adjacent AR revealed similarities with the transcriptional profile of SAR in Arabidopsis, as well as transcripts previously associated with chemically induced AR in cereals, suggesting that AR in barley and SAR in Arabidopsis may be mediated by analogous pathways.

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Science in Parliament

Colebrook

2009

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Parliamentary Fellowships give PhD students the opportunity to spend 3 months working in Parliament, providing scientific information to policy-makers. Whereas most Fellows work with the Parliamentary Office of Science and Technology (POST), researching and writing a briefing on a science topic, I had the opportunity to work with the Innovation, Universities, Science and Skills (IUSS) Select Committee. The Committee is responsible for scrutinizing science policy across Government. My experience has given me an insight into how science policy is formed, and how scientists can inform the policy-making process.

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Ellen Colebrook

The role of gibberellin signalling in plant responses to abiotic stress

Ectoparasites of livestock in Europe and the Mediterranean region

The involvement of gibberellin signalling in the effect of soil resistance to root penetration on leaf elongation and tiller number in wheat

Broad-Spectrum Acquired Resistance in Barley Induced by thePseudomonasPathosystem Shares Transcriptional Components withArabidopsisSystemic Acquired Resistance

Science in Parliament

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