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Che S. Pillay
Che S. Pillay
Verified email at ukzn.ac.za
Title
Cited by
Cited by
Year
Endolysosomal proteolysis and its regulation
CS Pillay, E Elliott, C Dennison
Biochemical Journal 363 (3), 417-429, 2002
4202002
Hyperoxidation of peroxiredoxins: gain or loss of function?
EA Veal, ZE Underwood, LE Tomalin, BA Morgan, CS Pillay
Antioxidants & redox signaling 28 (7), 574-590, 2018
782018
The logic of kinetic regulation in the thioredoxin system
CS Pillay, JHS Hofmeyr, JM Rohwer
BMC systems biology 5, 1-15, 2011
472011
The glutaredoxin mono-and di-thiol mechanisms for deglutathionylation are functionally equivalent: implications for redox systems biology
LN Mashamaite, JM Rohwer, CS Pillay
Bioscience reports 35 (1), e00173, 2015
402015
Enzymes or redox couples? The kinetics of thioredoxin and glutaredoxin reactions in a systems biology context
CS Pillay, JHS Hofmeyr, BG Olivier, JL Snoep, JM Rohwer
Biochemical Journal 417 (1), 269-277, 2009
382009
Quantitative measures for redox signaling
CS Pillay, BD Eagling, SRE Driscoll, JM Rohwer
Free Radical Biology and Medicine 96, 290-303, 2016
362016
From top-down to bottom-up: computational modeling approaches for cellular redoxin networks
CS Pillay, JH Hofmeyr, LN Mashamaite, JM Rohwer
Antioxidants & redox signaling 18 (16), 2075-2086, 2013
342013
T-butanol: nature's gift for protein isolation
RE Dennison, C., Moolman, L., Pillay, CS, Meinesz
South African Journal of Science 96 (4), 159-160, 2000
332000
The development of computational biology in South Africa: Successes achieved and lessons learnt
NJ Mulder, A Christoffels, T De Oliveira, J Gamieldien, S Hazelhurst, ...
PLoS computational biology 12 (2), e1004395, 2016
232016
Cathepsin B stability, but not activity, is affected in cysteine: cystine redox buffers
CS Pillay, C Dennison
Walter de Gruyter 383 (7-8), 1199-1204, 2002
122002
Identifying the conditions necessary for the thioredoxin ultrasensitive response
JM Rohwer, C Viljoen, CD Christensen, LN Mashamaite, CS Pillay
Perspectives in science 9, 53-59, 2016
92016
The thioredoxin redox potential and redox charge are surrogate measures for flux in the thioredoxin system
L Padayachee, JM Rohwer, CS Pillay
Archives of biochemistry and biophysics 680, 108231, 2020
82020
The thioredoxin system and not the Michaelis–Menten equation should be fitted to substrate saturation datasets from the thioredoxin insulin assay
L Padayachee, CS Pillay
Redox Report 21 (4), 170-179, 2016
82016
Use of 2-methylpropan-2-ol to inhibit proteolysis and other protein interactions in a tissue homogenate: an illustrative application to the extraction of cathepsins B and L …
C Dennison, L Moolman, CS Pillay, RE Meinesz
Analytical Biochemistry 284 (1), 157-159, 2000
72000
Analyzing biological models and data sets using Jupyter notebooks as an alternate to laboratory‐based exercises during COVID‐19
CS Pillay
Biochemistry and Molecular Biology Education 48 (5), 532-534, 2020
52020
Modelling the decamerisation cycle of PRDX1 and the inhibition-like effect on its peroxidase activity
CJ Barry, CS Pillay, JM Rohwer
Antioxidants 12 (9), 1707, 2023
22023
Atypical network topologies enhance the reductive capacity of pathogen thiol antioxidant defense networks
CS Pillay, N John, CJ Barry, LMDC Mthethwa, JM Rohwer
Redox Biology 65, 102802, 2023
12023
Can thiol-based redox systems be utilized as parts for synthetic biology applications?
CS Pillay, N John
Redox Report 26 (1), 147-159, 2021
12021
Computational models as catalysts for investigating redoxin systems
CS Pillay, JM Rohwer
Essays in Biochemistry, EBC20230036, 2024
2024
Developing a systems biology framework for analyzing redoxin reactions
CS Pillay, JHS Hofmeyr, BG Olivier, JL Snoep, JM Rohwer
Proceedings of the 14th biennial meeting of the Society for Free Radical …, 2008
2008
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