ProfessorsProfessors of University of OxfordRG Ratcliffe

RG Ratcliffe

University of Oxford

H-index: 68

Europe-United Kingdom

About RG Ratcliffe

RG Ratcliffe, With an exceptional h-index of 68 and a recent h-index of 32 (since 2020), a distinguished researcher at University of Oxford, specializes in the field of Plant biochemistry, plant metabolism, metabolic flux analysis.

His recent articles reflect a diverse array of research interests and contributions to the field:

A role for fermentation in aerobic conditions as revealed by computational analysis of maize root metabolism during growth by cell elongation

Isotopically non-stationary metabolic flux analysis of heterotrophic Arabidopsis thaliana cell cultures

Physical chemistry for the life sciences

A hybrid kinetic and constraint‐based model of leaf metabolism allows predictions of metabolic fluxes in different environments

Leaf specific overexpression of a mitochondrially-targeted glutamine synthetase in tomato increased assimilate export resulting in earlier fruiting and elevated yield

eXtra Botany

Whither metabolic flux analysis in plants?

Shining a light on NAD-and NADP-based metabolism in plants

RG Ratcliffe Information

University	University of Oxford
Position	Department of Plant Sciences
Citations(all)	14604
Citations(since 2020)	3804
Cited By	11708
hIndex(all)	68
hIndex(since 2020)	32
i10Index(all)	159
i10Index(since 2020)	72
Email	Access Email
University Profile Page	University of Oxford
Google Scholar	View Google Scholar Profile

RG Ratcliffe Skills & Research Interests

Plant biochemistry

plant metabolism

metabolic flux analysis

Top articles of RG Ratcliffe

Title	Journal	Author(s)	Publication Date
A role for fermentation in aerobic conditions as revealed by computational analysis of maize root metabolism during growth by cell elongation	The Plant Journal	Hilary Hunt Stefan Leape Jagdeep Singh Sidhu Ishan Ajmera Jonathan P Lynch ...	2023/12
Isotopically non-stationary metabolic flux analysis of heterotrophic Arabidopsis thaliana cell cultures	Frontiers in Plant Science	Edward N Smith R George Ratcliffe Nicholas J Kruger	2023/1/9
Physical chemistry for the life sciences		Peter William Atkins George Ratcliffe Julio de Paula Mark Wormald	2023
A hybrid kinetic and constraint‐based model of leaf metabolism allows predictions of metabolic fluxes in different environments	The Plant Journal	Sanu Shameer Yu Wang Pedro Bota R George Ratcliffe Stephen P Long ...	2022/1
Leaf specific overexpression of a mitochondrially-targeted glutamine synthetase in tomato increased assimilate export resulting in earlier fruiting and elevated yield	bioRxiv	José G Vallarino Sanu Shameer Youjun Zhang R George Ratcliffe Lee J Sweetlove ...	2022/6/30
eXtra Botany		Sabina Leonelli Nicholas Smirnoff Jonathan Moore Charis Cook Ruth Bastow	2013
Whither metabolic flux analysis in plants?		Nicholas J Kruger R George Ratcliffe	2021/12/4
Shining a light on NAD-and NADP-based metabolism in plants		Edward N Smith Markus Schwarzländer R George Ratcliffe Nicholas J Kruger	2021/10/1
Metabolic control of nitrogen fixation in rhizobium-legume symbioses	Science advances	Carolin CM Schulte Khushboo Borah Rachel M Wheatley Jason J Terpolilli Gerhard Saalbach ...	2021/7/30
Metabolic constraints on nitrogen fixation by rhizobia in legume nodules	bioRxiv	Carolin CM Schulte Khushboo Borah Rachel M Wheatley Jason J Terpolilli Gerhard Saalbach ...	2021/2/16
Alternative crassulacean acid metabolism modes provide environment-specific water-saving benefits in a leaf metabolic model	The Plant Cell	Nadine Töpfer Thomas Braam Sanu Shameer R George Ratcliffe Lee J Sweetlove	2020/12/1
Flux balance analysis of metabolism during growth by osmotic cell expansion and its application to tomato fruits	The Plant Journal	Sanu Shameer José G Vallarino Alisdair R Fernie R George Ratcliffe Lee J Sweetlove	2020/7
The role of nitrite and nitric oxide under low oxygen conditions in plants	New Phytologist	Kapuganti Jagadis Gupta Luis AJ Mur Aakanksha Wany Aprajita Kumari Alisdair R Fernie ...	2020/2
CAM emerges in a leaf metabolic model under water-saving constraints in different environments	bioRxiv	Nadine Töpfer Thomas Braam Sanu Shameer R George Ratcliffe Lee J Sweetlove	2020/1/20