| 1 |
Mechanism of Rubisco : The carbamate as general base
Cleland WW, Andrews TJ, Gutteridge S, Hartman FC, Lorimer GH
Chemical Reviews, 98(2), 549, 1998 |
| 2 |
Molecular Chaperones, Folding Catalysts, and the Recovery of Active Recombinant Proteins from Escherichia-Coli - To Fold or to Refold
Thomas JG, Ayling A, Baneyx F
Applied Biochemistry and Biotechnology, 66(3), 197, 1997 |
| 3 |
Inactivation of Ribulose-1,5-Bisphosphate Carboxylase/Oxygenase During Catalysis - A Theoretical-Study of Related Transition Structures
Tapia O, Andres J, Safont VS
Journal of Physical Chemistry, 100(20), 8543, 1996 |
| 4 |
Molecular Chaperones in Cellular Protein-Folding
Hartl FU
Nature, 381(6583), 571, 1996 |
| 5 |
Effect of Carbon-Dioxide Concentration on the Growth and RuBisCO Activity of a Thermophilic Cyanobacterium, Chroococcidiopsis Sp Strain Ts-821
Hayashi NR, Ishida T, Peerapornpisal Y, Igarashi Y, Kodama T
Journal of Fermentation and Bioengineering, 80(5), 507, 1995 |
| 6 |
Bacteriophage-T4 Encodes a Co-Chaperonin That Can Substitute for Escherichia-Coli Groes in Protein-Folding
Vandervies SM, Gatenby AA, Georgopoulos C
Nature, 368(6472), 654, 1994 |
| 7 |
Characterization of a Functional Groel(14)(Groes(7))(2) Chaperonin Hetero-Oligomer
Azem A, Kessel M, Goloubinoff P
Science, 265(5172), 653, 1994 |
| 8 |
Dynamics of the Chaperonin ATPase Cycle - Implications for Facilitated Protein-Folding
Todd MJ, Viitanen PV, Lorimer GH
Science, 265(5172), 659, 1994 |
