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Ectohydrolytic enzyme activities of bacteria associated with Orbicella annularis coral

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Ectohydrolytic enzyme activity (EEA) potential of 37 bacterial isolates derived from Orbicella annularis coral and 2 coral pathogens (Vibrio shilonii and V. coralliilyticus) were measured as model to infer the role of bacteria in organic matter processing within coral reef ecosystems. Bacterial cell specific activities of eight enzyme types were measured after incubation in organic matter enriched and unenriched filtered seawater. Max value of activities of alkaline phosphatase, oleate-lipase, stearate-lipase and proteinase were 769.3, 327.6, 82.9, and 36.7 amol cell-1 h-1. Chitinase, α-mannosidase, α-glucosidase and β-glucosidase were generally lower by comparison (max 4.7-20.7 amol cell-1 h-1). No “super” isolates (bacteria expressing high levels of all ectohydrolases) were found suggested a “specialization” among individual bacterial strains. Cumulatively, the 39 isolates tested displayed a broad range of cell-specific enzyme activities in both organic matter conditions. Culture-independent measurement of coral mucus layer EEA in O. annularis off a Panama reef showed comparable EEA patterns and diversity as the isolates. Volume specific EEAs of all enzymes except alkaline phosphatase were 8-48 times higher in mucus than in surrounding seawater (SSW) samples. However, cell-specific EEAs in mucus were generally lower than in the SSW partly due to more abundant cells in the mucus than in SSW. For field samples, ≥85% of proteinase was cell-bound while lipase was preferentially dissolved (40-96%). Ratio of dissolved section varied depending on sample source and enzyme types, suggesting a potential role of ectoenzyme size distribution in linking the whole reef ecosystem. Our findings support that the cumulative ectoenzyme expression (“ectoenzymome”) of the coral microbiome has the potential to maintain the functional resilience of the coral holobiont and response to stress through its contribution to organic matter processing within coral reef ecosystems.

Impact/Purpose

This study advances our knowledge on the role of microbes in coastal marine and coral reef bio-geochemistry.

Citation

Zhou, Y., R. Guillemette, F. Malfatti, T. Zheng, X. Mao, X. Zhu, M. Medina, AND F. Azam. Ectohydrolytic enzyme activities of bacteria associated with Orbicella annularis coral. Springer, New York, NY, 40:1899-1913, (2021). [DOI: 10.1007/s00338-021-02188-6]

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DOI: Ectohydrolytic enzyme activities of bacteria associated with Orbicella annularis coral
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Last updated on August 01, 2022
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