BBSRC Portfolio Analyser
Investigator / Supervisor details
Name
Professor Patrick Steel
Current Institution
Durham University
Current Department
Chemistry
Institution website
http://www.dur.ac.uk
Previous Institutions
Current Awards
Reference
Title
Award Role
Value £
Type
BB/W019825/1
High sensitivity LC-MS to understand the role of Proteomes in the rules of life for Plant scientists and N8 partners
Co-investigator
422,189
Research Grant
Completed Awards
Reference
Title
Award Role
Value £
Type
BB/D005620/1
Selective chemical regulation of plant metabolism with herbicide safeners
Co-investigator
382,065
Research Grant
BB/F01094X/1
The biochemistry of flavone C-glycosides in cereals
Co-investigator
378,117
Research Grant
BB/F01094X/2
The biochemistry of flavone C-glycosides in cereals
Co-investigator
89,733
Research Grant
BB/F018460/1
SPPI-NET: a Network for Synthetic Plant Products for Industry
Co-investigator
107,362
Research Grant
BB/F018460/2
SPPI-NET: a Network for Synthetic Plant Products for Industry
Co-investigator
54,403
Research Grant
BB/G001766/1
Characterisation of the unique lambda class of plant glutathione transferases
Co-investigator
450,198
Research Grant
BB/G001766/2
Characterisation of the unique lambda class of plant glutathione transferases
Co-investigator
165,880
Research Grant
BB/G006474/1
The molecular basis of multiple herbicide resistance in grass weeds
Co-investigator
533,730
Research Grant
BB/G006474/2
The molecular basis of multiple herbicide resistance in grass weeds
Co-investigator
330,701
Research Grant
BB/G017743/1
Understanding the role of GSTF1 in MHR
Principal Investigator
74,410
Training Grants
BB/K012703/1
The plant IPCS as a novel herbicide target
Principal Investigator
93,520
Training Grants
BB/L014092/1
A Super-Resolution Microscope for use by Plant Cell Biologists, N8 partners, Durham Scientists and Collaborators.
Co-investigator
901,528
Research Grant
BB/L016273/1
Understanding the Role of GSTF1 in MHR in grass weeds
Principal Investigator
94,126
Training Grants
BBS/S/M/2005/12406
Reactivity-based strategies for the high throughput identification and evolution of new biocatalysts
Principal Supervisor
49,864
Studentships
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