Elizabeth Ellis scite author profile

Serine hydrolases have diverse intracellular substrates, biological functions, and structural plasticity, and are thus important for biocatalyst design. Amongst serine hydrolases, the recently described ybfF enzyme family are promising novel biocatalysts with an unusual bifurcated substrate-binding cleft and the ability to recognize commercially relevant substrates. We characterized in detail the substrate selectivity of a novel ybfF enzyme from Vibrio cholerae (Vc-ybfF) by using a 21-member library of fluorogenic ester substrates. We assigned the roles of the two substrate-binding clefts in controlling the substrate selectivity and folded stability of Vc-ybfF by comprehensive substitution analysis. The overall substrate preference of Vc-ybfF was for short polar chains, but it retained significant activity with a range of cyclic and extended esters. This broad substrate specificity combined with the substitutional analysis demonstrates that the larger binding cleft controls the substrate specificity of Vc-ybfF. Key selectivity residues (Tyr116, Arg120, Tyr209) are also located at the larger binding pocket and control the substrate specificity profile. In the structure of ybfF the narrower binding cleft contains water molecules prepositioned for hydrolysis, but based on substitution this cleft showed only minimal contribution to catalysis. Instead, the residues surrounding the narrow binding cleft and at the entrance to the binding pocket contributed significantly to the folded stability of Vc-ybfF. The relative contributions of each cleft of the binding pocket to the catalytic activity and folded stability of Vc-ybfF provide a valuable map for designing future biocatalysts based on the ybfF scaffold.

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Oncological and functional outcomes in patients over 70 years of age treated with robotic radical prostatectomy: a propensity-matched analysis

Gurung

Wang

Hassig

et al. 2020

World J Urol

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A RAPID AND SIMPLE METHOD FOR THE DETERMINATION OF STARCH AND Β-Glucan IN BARLEY AND MALT

Ahluwalia

Ellis

1984

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A simple and precise method suitable for the routine determination of starch and p-glucan in barley and malt is described. Perchloric acid (50 mM) was used to effect rapid (3 min) and exhaustive extraction of both glucans which were then measured directly from this single extract by specific enzymic hydrolysis of the individual glucans to glucose. The glucose was also measured enzymically. Little or no acid hydrolysis of starch or p-glucan was observed under the extraction conditions used; most or all of the free glucose could be attributed to hydrolysis of sucrose. Complete solubilisation of the gum and hemicellulosic components of p-glucan was achieved. Preincubation of the acid extracts with protease prior to amyloglucosidase digestion resulted in higher measure ments (approximately 4% w/w) of starch. The method was used to measure the levels of starch and p-glucan in five varieties of barley with contrasting malting quality, in micro-malts prepared from these samples and in commercial lager and ale malts.

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Do Skills Naturally Transfer Between Multiport and Single-Port Robotic Platforms? A Comparative Study in a Simulated Environment

Ghazi

Schuler

Saba

et al. 2023

Journal of Endourology

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Mp60-04 long-Term Oncological and Functional Outcomes of High-Risk Prostate Cancer Following Robot-Assisted Laparoscopic Prostatectomy: Minimum Follow-Up of 10 Years

Gurung¹,

Ellis²,

Wood³

et al. 2019

Journal of Urology

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Elizabeth Ellis

Decoupled Roles for the Atypical, Bifurcated Binding Pocket of the ybfF Hydrolase

Oncological and functional outcomes in patients over 70 years of age treated with robotic radical prostatectomy: a propensity-matched analysis

A RAPID AND SIMPLE METHOD FOR THE DETERMINATION OF STARCH AND Β-Glucan IN BARLEY AND MALT

Do Skills Naturally Transfer Between Multiport and Single-Port Robotic Platforms? A Comparative Study in a Simulated Environment

Mp60-04 long-Term Oncological and Functional Outcomes of High-Risk Prostate Cancer Following Robot-Assisted Laparoscopic Prostatectomy: Minimum Follow-Up of 10 Years

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