Dissertation/Thesis Abstract

Activity and Kinetics of Microbial Extracellular Enzymes in Organic- Poor Sands of a South Texas Estuary
by Souza, Afonso Cesar Rezende, Ph.D., The University of Texas at Austin, 2009, 196; 3438984
Abstract (Summary)

The respective kinetics of bacterial leucine aminopeptidase and β-glucosidase activities were investigated to improve understanding of factors controlling activity and hydrolytic capacity in estuarine organic-poor sands. Depth distributions of enzyme activity and bulk organic matter content were determined in sediments of Aransas Bay and Copano Bay Texas, to investigate enzyme dynamics as related to the geochemical properties of the sediment. Vertical profiles of activity in sediment showed that the enzymes were more active at the surface and that the potential hydrolysis rate of leucine aminopeptidase was higher than that of β-glucosidase. Vertical patterns of enzyme activity correlated (weakly) with variations in sediment organic matter (TOC, TN, and carbohydrates) content. Enrichments of sediment samples with monomeric organic compounds and inorganic nutrients did not affect leucine aminopeptidase and β-glucosidase activities in short- and long-term incubations. Enzyme activity was independent of nutrient availability and suggested that microbial communities were not nutrient-limited. Time-course assays of bacterial hydrolysis of TOC, TN, and carbohydrates provided information about how substrate limitation may affect enzyme activity. Positive correlations between bulk TOC and TN content and enzyme activity indicated enzyme dependence on polymeric substrate content. Induction of enzyme activity after sediment enrichments with specific labile compounds confirmed the importance of available organic substrate to enzyme hydrolysis efficiency.

A kinetic approach established the occurrence of enzyme inhibition and its effects on enzyme hydrolytic capacity. The addition of a specific-enzyme substrate to sediment samples modified enzyme parameters and indicated that a substrate-reversible type of inhibitor could reduce enzyme hydrolytic capacity. The addition of polyphenol, as a natural inhibitor of enzyme activity, to the sediment resulted in a concomitant reduction of leucine aminopeptidase activity and ammonium regeneration rate, and thus demonstrated a close coupling between enzyme activity and sediment ammonium regeneration. These research results demonstrate the dynamic nature of the hydrolytic enzymes, provide information about the mechanisms of induction and inhibition of activity, and demonstrate some implications of reducing the hydrolytic capacity to organic matter decomposition and nutrient regeneration rates.

Indexing (document details)
Advisor: Gardner, Wayne, Pease, Tamara
Commitee: Arnosti, Carol, Min, Dong-Ha, Villareal, Tracy
School: The University of Texas at Austin
Department: Marine Science
School Location: United States -- Texas
Source: DAI-B 72/03, Dissertation Abstracts International
Subjects: Microbiology, Biological oceanography, Biogeochemistry
Keywords: Ammonium regeneration, Enzyme kinetics, Estuaries, Extracellular enzymes, Marine sediments
Publication Number: 3438984
ISBN: 978-1-124-43508-4
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