Usha Srinivasan scite author profile

The apparent pKa for the active site thiol of human thioltransferase (TTase) is about 3.5, but the pH dependence of TTase-catalyzed rates of glutathione (GSH)-dependent reduction of disulfide substrates displays an inflection point near pH 8.5. The similarity of the pH-rate profile with the titration of the GSH thiol moiety suggested rate-limiting nucleophilic attack by the glutathionyl thiolate species to regenerate reduced TTase from the TTase-SSG intermediate. To test this hypothesis pH-rate profiles for TTase-catalyzed dethiolation of the glutathionyl mixed disulfide of bovine serum albumin ([35S]BSA-SSG) were measured according to release of radiolabeled GS-equivalents. Various thiol compounds, whose thiol pKa values range on both sides of the pKa of GSH (pKa = 8.7), were used as reducing substrates, e.g., trifluoroethanethiol (pKa = 7.5) and 3-mercaptopropionic acid (pKa = 10.3). The pH-rate profiles paralleled the titration of the respective thiol groups of the reducing substrates, consistent with the hypothesis. In addition, second-order rate constants (k) were determined for the nonenzymatic and TTase-catalyzed reactions of the various thiols with BSA-SSG. A simple linear free energy relationship (log k vs pKa) was displayed for the nonenzymatic reactions. In contrast, the relationship for the enzymatic reactions revealed GSH to be different from the other thiol substrates, i.e., GSH gave a second-order rate constant greater than expected for its thiol pKa. This result suggests a special interaction of GSH with the TTase enzyme in the transition state that enhances the nucleophilicity of GSH.

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PicU, a second serine protease autotransporter of uropathogenic Escherichia coli

Parham

Srinivasan

Desvaux

et al. 2004

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Escherichia coli is the major aetiological agent of urinary tract infections (UTI). Like diarrhoeagenic strains of E. coli, uropathogenic isolates possess virulence determinants that distinguish them from commensal strains and allow them to produce the clinical manifestations associated with UTI. Several autotransporter proteins have been associated with the ability of E. coli, and other Gram-negative bacteria, to cause disease. Recently, we described the existence within uropathogenic E. coli (UPEC) strains of Sat, a toxin of the serine protease autotransporter of Enterobacteriaceae (SPATE) subfamily. Using features common to proteins secreted via the autotransporter pathway we have identified nine additional autotransporter proteins from the genomic sequence data of UPEC CFT073. Surprisingly, two additional members of the SPATE subfamily were identified. One protein, designated PicU, was homologous to the Pic protein identified in Shigella flexneri and enteroaggregative E. coli. The PicU protein was expressed and investigated for functional activity.

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Absence of oats toxicity in adult coeliac disease

Srinivasan

Leonard

Jones

et al. 1996

BMJ

127

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Usha Srinivasan

cDNA cloning of a mouse mammary epithelial cell surface protein reveals the existence of epidermal growth factor-like domains linked to factor VIII-like sequences.

pH Profiles Indicative of Rate-Limiting Nucleophilic Displacement in Thioltransferase Catalysis

PicU, a second serine protease autotransporter of uropathogenic Escherichia coli

Absence of oats toxicity in adult coeliac disease

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