Dr Stuart Casson
School of Biosciences
Senior Lecturer
+44 114 222 4235
Full contact details
School of Biosciences
Firth Court
Western Bank
91直播
S10 2TN
- Profile
-
Career History
- 2013 - present: Lecturer; School of Biosciences, University of 91直播
- 2007 - 2013: Postdoctoral Research Assistant; University of Bristol
- 2000 - 2007: Postdoctoral Research Assistant; Durham University
- 1996 - 2000: PhD; Durham University
- Qualifications
-
Honours and distinctions
- 2008 Federation of European Societies of Plant Biology (FESPB) Young Scientist Award
- Research interests
-
My laboratory is interested in understanding the mechanisms that regulate plant development and in particular, how environmental signals regulate core developmental pathways.
For this purpose I am using stomatal development as a model. Stomata are microscopic pores on the surface of leaves that regulate gas exchange between the plants and their environment, allowing the uptake of carbon dioxide for photosynthesis whilst restricting water loss.
This ability to control their gas exchange has allowed plants to colonise a number of environments and was arguably a crucial evolutionary step in the colonization of the land by higher plants.
My laboratory is interested in understanding the mechanisms that regulate plant development and in particular, how environmental signals regulate core developmental pathways. For this purpose I am using stomatal development as a model.
Stomata are microscopic pores on the surface of leaves that regulate gas exchange between the plants and their environment, allowing the uptake of carbon dioxide for photosynthesis whilst restricting water loss.
This ability to control their gas exchange has allowed plants to colonise a number of environments and was arguably a crucial evolutionary step in the colonization of the land by higher plants.
Stomata can regulate plant gas exchange through short term changes in stomatal aperture. However, my research is focused on a longer term mechanism whereby plants adapt to changes in their environment by regulating their stomatal development, resulting in new leaves with altered stomatal numbers.
Light and CO2 are particularly important in regulating these changes in stomatal development and we are beginning to identify the key components that regulate stomatal development in response to these signals.
Understanding how these environmental signals interact to regulate stomatal development is vital if we are to accurately model plant water use and performance in a changing environment
- Publications
-
Show: Featured publications All publications
Featured publications
Journal articles
- . Current Biology, 24(11), 1216-1221.
- . New Phytol, 202(2), 376-391.
- . New Phytologist, 201(4), 1079-1082.
- , 40-45.
- . Current Biology.
- . Sci Signal, 5(233), pe30.
- . Curr Biol, 21(12), 1030-1035.
- . Curr Opin Plant Biol, 13(1), 90-95.
- . Plant J, 57(5), 857-869.
- . CURR BIOL, 19(3), 229-234.
- . Methods Mol Biol, 427, 111-120.
- . NEW PHYTOL, 178(1), 9-23.
- . Sci Signal, 1(49), pe53.
- . Plant Physiol, 143(2), 924-940.
- , 23-27.
- . Plant Cell, 18(11), 3058-3072.
- . Plant Physiol, 142(2), 526-541.
- . PLANT MOLECULAR BIOLOGY, 54(1), 71-84.
- . NEW PHYTOLOGIST, 158(1), 11-38.
- . Plant Cell, 14(8), 1705-1721.
- . Trends Plant Sci, 7(2), 78-83.
All publications
Journal articles
- . The Plant Journal.
- . Plant Cell, Tissue and Organ Culture (PCTOC), 152(3), 635-646.
- . Current Biology, 32(11), R539-R553.
- . PLoS ONE, 17(3).
- . Current Biology, 31(24), 5622-5632.e7.
- . Soil and Tillage Research, 212.
- . Interface Focus, 11(2), 20200036-20200036.
- . Nature Plants.
- . Geoderma, 359.
- . PLoS ONE, 15(1).
- . Biochemical Journal, 475(2), 441-454.
- . Nature Plants, 2.
- . Current Biology, 26(21), R1137-R1139.
- . Current Biology, 25(20), 2709-2716.
- . Current Biology, 24(11), 1216-1221.
- . New Phytol, 202(2), 376-391.
- . New Phytologist, 201(4), 1079-1082.
- , 40-45.
- . Current Biology.
- . Sci Signal, 5(233), pe30.
- . Curr Biol, 21(12), 1030-1035.
- . PLANT JOURNAL, 61(4), 698-712.
- . Curr Opin Plant Biol, 13(1), 90-95.
- Molecular characterisation of the POLARIS locus of Arabidopsis..
- . MOLECULAR PLANT PATHOLOGY, 10(4), 523-535.
- . COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY, 153A(2), S214-S214.
- . Plant J, 57(5), 857-869.
- . CURR BIOL, 19(3), 229-234.
- . Methods Mol Biol, 427, 111-120.
- . NEW PHYTOL, 178(1), 9-23.
- . Sci Signal, 1(49), pe53.
- . Plant Physiology, 143(4), 1982-1982.
- . Plant Physiol, 143(2), 924-940.
- , 23-27.
- . Plant Cell, 18(11), 3058-3072.
- . Plant Physiol, 142(2), 526-541.
- Transcriptional profiling of the Arabidopsis embryo. COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY, 143(4), S137-S138.
- Laser-capture microdissection and DNA microarrays for the analysis of plant development. COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY, 143(4), S119-S119.
- . Plant J, 42(1), 111-123.
- . Molecular Plant Pathology, 5(4), 267-280.
- . PLANT MOLECULAR BIOLOGY, 54(1), 71-84.
- . New Phytologist, 158(2), 11-38.
- . New Phytologist, 158(2), 417.
- . NEW PHYTOLOGIST, 158(1), 11-38.
- . Plant Cell, 14(8), 1705-1721.
- . Trends Plant Sci, 7(2), 78-83.
- . Plant Physiology.
- . Plant and Soil.
- . Plant Cell, Tissue and Organ Culture (PCTOC).
- . Nature Plants.
- . New Phytologist.
Chapters
- , Handbook of Biologically Active Peptides (pp. xvii-xlix). Elsevier
- , Handbook of Biologically Active Peptides (pp. xix-xxxviii). Elsevier
Conference proceedings papers
- . COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY, Vol. 153A(2) (pp S209-S209)
- . COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY, Vol. 150(3) (pp S144-S144)
- . Proceedings of EGU2020: Sharing Geoscience Online. Vienna, Austria, 4 May 2020 - 4 May 2020.
Preprints
- Research group
-
I welcome applications from prospective home / EU / overseas PhD students and post-doctoral fellows.
Postdoctoral researchers
- Dr Natalia Hurtado-Castano
- Dr Nick Zoulias
PhD students
- Magda Dabrowska
- Kishwar Shethi
- Julian Adams
Technician
- Dr Barbora Ndreca
- Grants
-
- 2019-2023 Leverhulme Trust; Investigating the origin and evolution of stomata (Lead PI, Prof Alistair Hetherington, Bristol; 91直播 lead, Dr Stuart Casson)
- 2019-2022 Leverhulme Trust; Elucidating metabolic control of photosynthetic membrane structure (PI Dr Matt Johnson; Co-I Dr Stuart Casson)
- 2019-2022 BBSRC; Improving water use and accelerating breeding pipelines in Mexican avocado (PI Dr Stuart Casson)
- 2016-2019 BBSRC; Photoreceptor optimisation of plant water use (PI Dr Stuart Casson)
- Teaching activities
-
Level 3 Modules
MBB304 Plant Biotechnology
MBB346 Genetic Pathways from Zygote to OrganismLevel 2 Modules
MBB262 Genetics 2
Level 1 Modules
MBB162 Genetics 1