Transmission Electron Microscopy as a relevant tool in the characterization of hybrid nanostructures of Au Bio-mineralization by electroactive bacteria.

MUÑOZ VANESSA; INCHAURRONDO JOAQUIN; BUSALMEN, JUAN PABLO; ORDÓÑEZ, MARÍA VICTORIA

Buenos Aires

Congreso; 15th Interamerican Microscopy Congress CIASEM - SAMIC; 2019

CIASEM

Geobacter sulfurreducens is an anaerobic gram(?) bacteria capable of using a wide range of electron acceptor, including insoluble Fe(III) (hydr)oxides, and anode electrodes, thus expelling electrons beyond cells limits. Outer membrane cytochromes (C-type) are the main redox proteins involved in external electron transfer. We have previously observed the capacity of Geobacter to use Au(III) ions as electron acceptor, thus forming AuNPs that help improve current production in electro active biofilms. In this work we go forward on the isolation and characterization of nanostructures synthetized by Geobacter cultures grown in batch. Au respiration was performed at standard growing conditions, with 20, 100 or 200 mM AuHCl4 for 1 week period. Soluble fraction containing gold NPs as well as biological material was then obtained and applied to a sucrose discontinuous gradient to achieve nanoparticle size separation. TEM microscopy both from Au containing cultures (previously fixed) as well as sucrose gradient fractions were placed on 200 mesh carbon-stabilized Formvar-film copper grids and studied by Transmission Electron Microscopy in a JEOL JEM 2100 at 80 and 120kV.Micrographs corresponding to Geobacter cells producing AuNPs revealed the localization of such structures mostly in contact with external membrane, forming cumulus at several spots. Cumulus formation correlate to initial Au(III) concentration added to the stationary grown cultures. Results obtained from fractioning showed that NPs separation from cellular debris was achieved finding smaller NPs (2-10 nm) in 30% sucrose fraction and larger NPs in 40 to 60% sucrose fraction, most of which have an spherical shape. Results indicate conjugates of cytochromes-AuNPs would form, thus obtaining hybrid nanostructures.