Shotgun proteomics analysis of nanoparticle-synthesisingDesulfovibrio alaskensisin response to platinum and palladium

Abstract: Platinum and palladium are much sought-after metals of global critical importance in terms of abundance and availability. At the nano-scale these metals are of even higher value due to their catalytic abilities for industrial applications. Desulfovibrio alaskensis is able to capture ionic forms of both of these metals, reduce them, and synthesize elemental nanoparticles. Despite this ability very little is known about the biological pathways involved in the formation of these nanoparticles. Proteomic analysis … Show more

“…The PtNPs and PdPtNPs did not show advantages over the PdNPs. Current work (Capeness et al, 2019) is focused on enhancing the specificity of D. alaskensis G20 for Pd and Pt in order to selectively recover these precious metals from a variety of different sources (water from surface runoff (Moldovan et al, 2001), road dusts and soils (Whiteley and Murray, 2003), as well as leachates of spent catalytic converters from cars (Van Meel et al, 2007).…”

Production of Biogenic Nanoparticles for the Reduction of 4-Nitrophenol and Oxidative Laccase-Like Reactions

“…The PtNPs and PdPtNPs did not show advantages over the PdNPs. Current work (Capeness et al, 2019) is focused on enhancing the specificity of D. alaskensis G20 for Pd and Pt in order to selectively recover these precious metals from a variety of different sources (water from surface runoff (Moldovan et al, 2001), road dusts and soils (Whiteley and Murray, 2003), as well as leachates of spent catalytic converters from cars (Van Meel et al, 2007).…”

Production of Biogenic Nanoparticles for the Reduction of 4-Nitrophenol and Oxidative Laccase-Like Reactions