Enzymically Accelerated Biomineralization of Heavy Metals: Application to the Removal of Americium and Plutonium from Aqueous Flows

Overview

Journal FEMS Microbiol Rev

Publisher Oxford University Press

Specialty Microbiology

Date 1994 Aug 1

PMID 7917422

Citations 7

Authors

L E Macaskie

B C Jeong

M R Tolley

Affiliations

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Abstract

A biological process for the removal of heavy metals from the aqueous flows is described. Metals are precipitated on the surface of immobilized cells of a Citrobacter sp. as cell-bound metal phosphates. This uses phosphate liberated by the activity of a cell-bound phosphatase. Some radionuclides (e.g. 241americium) form metal phosphates readily; efficient removal of 241Am on a continuous basis is demonstrated. At low phosphatase activities, the efficiency of uranium removal correlates with enzyme activity. High phosphatase activities are not realised as an increase in metal removal, suggesting that chemical events become rate-limiting. Studies have suggested that maximal metal uptake occurs only after nucleation and the formation of precipitation foci. A model is presented to illustrate how nucleation and crystallization processes could enhance the removal of plutonium and neptunium from dilute solutions.

Citing Articles

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Zelenina D, Kuzmenkova N, Sobolev D, Boldyrev K, Namsaraev Z, Artemiev G Biology (Basel). 2023; 12(1).

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Microbial interaction with and tolerance of radionuclides: underlying mechanisms and biotechnological applications.

Lopez-Fernandez M, Jroundi F, Ruiz-Fresneda M, Merroun M Microb Biotechnol. 2021; 14(3):810-828.

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Interaction of Uranium with Bacterial Cell Surfaces: Inferences from Phosphatase-Mediated Uranium Precipitation.

Kulkarni S, Misra C, Gupta A, Ballal A, Apte S Appl Environ Microbiol. 2016; 82(16):4965-74.

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Decrease of U(VI) immobilization capability of the facultative anaerobic strain Paenibacillus sp. JG-TB8 under anoxic conditions due to strongly reduced phosphatase activity.

Reitz T, Rossberg A, Barkleit A, Selenska-Pobell S, Merroun M PLoS One. 2014; 9(8):e102447.

PMID: 25157416 PMC: 4144796. DOI: 10.1371/journal.pone.0102447.

Zn biomineralization processes and microbial biofilm in a metal-rich stream (Naracauli, Sardinia).

Podda F, Medas D, De Giudici G, Ryszka P, Wolowski K, Turnau K Environ Sci Pollut Res Int. 2013; 21(11):6793-808.

PMID: 23872900 DOI: 10.1007/s11356-013-1987-0.