Citation: M. Panda et al., High hydrostatic pressure can probe the effects of functionally related ligands on the quaternary structures of the chaperonins GroEL and GroES, J BIOL CHEM, 276(9), 2001, pp. 6253-6259
Citation: Am. Bhattacharyya et Pm. Horowitz, The aggregation state of rhodanese during folding influences the ability of GroEL to assist reactivation, J BIOL CHEM, 276(31), 2001, pp. 28739-28743
Citation: M. Panda et al., The 4,4 '-dipyridyl disulfide-induced formation of GroEL monomers is cooperative and leads to increased hydrophobic exposure, BIOCHEM, 40(34), 2001, pp. 10402-10410
Authors:
Smoot, AL
Panda, M
Brazil, BT
Buckle, AM
Fersht, AR
Horowitz, PM
Citation: Al. Smoot et al., The binding of bis-ANS to the isolated GroEL apical domain fragment induces the formation of a folding intermediate with increased hydrophobic surface not observed in tetradecameric GroEL, BIOCHEM, 40(14), 2001, pp. 4484-4492
Citation: Bt. Brazil et Pm. Horowitz, The hydrophobic properties of GroEL: a review of ligand effects on the modulation of GroEL hydrophobic surfaces, CELL STR CH, 4(3), 1999, pp. 177-190
Citation: Ea. Jai et Pm. Horowitz, Nucleotide and Mg2+ induced conformational changes in GroEL can be detected by sulfhydryl labeling, J PROTEIN C, 18(3), 1999, pp. 387-396
Citation: Pm. Horowitz et al., GroES in the asymmetric GroEL(14)-GroES(7) complex exchanges via an associative mechanism, P NAS US, 96(6), 1999, pp. 2682-2686
Authors:
Trevino, RJ
Gliubich, F
Berni, R
Cianci, M
Chirgwin, JM
Zanotti, G
Horowitz, PM
Citation: Rj. Trevino et al., NH2-terminal sequence truncation decreases the stability of bovine rhodanese, minimally perturbs its crystal structure, and enhances interaction withGroEL under native conditions, J BIOL CHEM, 274(20), 1999, pp. 13938-13947