Investigator / Supervisor details

Name	Professor Hugh Piggins
Current Institution	University of Bristol
Current Department	Physiology and Pharmacology
Institution website	http://www.bris.ac.uk
Previous Institutions	The University of Manchester

Current Awards

Reference	Title	Award Role	Value £	Type
BB/W000865/1	Determining the membrane circadian clock across evolution	Co-investigator	545,754	Research Grant
BB/W007266/1	Chilling time with synthetic torpor	Co-investigator	433,051	Research Grant

Completed Awards

Reference	Title	Award Role	Value £	Type
02/B1/S/08251	Potential novel role for a neuropeptide signalling system in the circadian clock	Principal Supervisor	41,845	Studentships
99/A1/S/05317	Peptidergic regulation of the food-entrainable circadian clock	Principal Supervisor	35,156	Studentships
BB/C509174/1	Intercellular signalling in the mammalian circadian clock.	Principal Investigator	416,587	Research Grant
BB/D005175/1	Investigating novel brain clocks	Principal Investigator	386,708	Research Grant
BB/E00511X/1	Brain State Control	Principal Investigator	669,941	Research Grant
BB/E022553/1	Molecular dynamics of circadian timing in a mouse model of human sleep disorder	Co-investigator	1,228,484	Research Grant
BB/E023223/1	Molecular dynamics of circadian timing in a mouse model of human sleep disorder (Cambridge)	Co-investigator	410,583	Research Grant
BB/G004307/1	The regulation of circadian and ultradian rhythmicity of circulating glucocorticoid hormones and their roles in the optimisation of limbic activity	Principal Investigator	500,958	Research Grant
BB/H020713/1	MRes Integrative Biology	Co-investigator	271,204	Training Grants
BB/J003441/1	Clocks Exercise and Cognition: A new approach	Principal Investigator	717,528	Research Grant
BB/L007665/1	Setting the metabolic clock: integrating circadian and homeostatic pathways in the mediobasal hypothalamus	Principal Investigator	631,920	Research Grant
BB/M02329X/1	Exercise and the Neural Circadian System	Principal Investigator	494,511	Research Grant
BB/R019223/1	Combating hypothalamic ageing through exercise	Principal Investigator	557,706	Research Grant
BB/R019223/2	Combating hypothalamic ageing through exercise	Principal Investigator	531,327	Research Grant
BBS/S/D/2005/13116	Neurohormonal regulation of circadian clocks in the brain (Funded via Training Grant BB/B519068/1)	Principal Supervisor		Studentships
BBS/S/D/2005/13547	Neurohormonal regulation of circadian clocks in the brain (Funded via Training Grant BB/B519068/1)	Principal Supervisor		Studentships
BBS/S/V/2004/11415	MRes in Biological Sciences	Principal Supervisor	14,892	Studentships
BBS/S/V/2004/11416	MRes in Biological Sciences	Principal Supervisor	14,892	Studentships
BBS/S/V/2004/11417	MRes in Biological Sciences	Principal Supervisor	14,892	Studentships
BBS/S/V/2005/12284	MRes in Biological Sciences	Principal Supervisor	16,039	Studentships
BBS/S/V/2005/12285	MRes in Biological Sciences	Principal Supervisor	16,039	Studentships
BBS/S/V/2005/12286	MRes in Biological Sciences	Principal Supervisor	16,039	Studentships
BBS/S/V/2006/12287	MRes in Biological Sciences	Principal Supervisor	16,692	Studentships
BBS/S/V/2006/12288	MRes in Biological Sciences	Principal Supervisor	16,692	Studentships
BBS/S/V/2006/12289	MRes in Biological Sciences	Principal Supervisor	16,692	Studentships
NEU15392	Phenotypic profiling of energy-sensing neurones	Co-investigator	408,356	Research Grant
REI18500	Multi-user cell culture laboratories for cell imaging and stem cell research	Co-investigator	82,272	Research Grant
S09277	Roles of the VIP family of peptides in circadian rhythm processes	Principal Investigator	190,204	Research Grant
S12011	Role of neurotensin in the mammalian circadian clock	Principal Investigator	195,580	Research Grant
S16862	Potential novel role for a neuropeptide signalling system in the circadian clock	Principal Investigator	352,116	Research Grant
S18856	Technology development: a mouse model of the hamster tau mutation to study integrative circadian physiology	Co-investigator	314,116	Research Grant
S20074	Direct optical control of a neural network pacemaker using genetically ChARGed neurones	Principal Investigator	135,589	Research Grant

I accept the terms and conditions of use (opens in new window)

export PDF file

back to list new search