Post on 19-Jan-2018
description
Understanding biological Understanding biological uranium reductionuranium reduction
Sherilee PalmSherilee Palm
Energy Postgraduate Conference 2013Energy Postgraduate Conference 2013
Supervisor: Prof E. van HeerdenCo-supervisors: Errol Cason
Dr. D. Opperman
IntroductionIntroduction• Microbe – metal interactions:
• Systems
Bioaccumulation
Biomineralization
Biosorption
Bioreduction
(Beliaev et al., 2001)
IntroductionIntroduction
(Vaughan and Lloyd, 2011)
AimsAims
• Assess the microbial diversity of uranium and thorium contaminated water.
• Use metal-reducing bacteria as biocatalysts for uranium and thorium bioreduction.
• Use known genomes of metal reducers to elucidate metabolic capabilities.
DiversityDiversity
To understand how a biological process occurs, two routes can be followed:
Let the microorganism do the work
Assess the genome of the
microorganism to determine if it has
the correct tools to do the work.
Uranium reductionUranium reduction
U (IV)U (VI)
U(VI)– Mobile– Soluble– Toxic
• Mutagen & carcinogenic
U(IV) – Immobile– Insoluble– Less toxic
(Payne, 2005; Cason et al., 2012; Abdelouas et al., 2000)
Enzymatic U(VI) reductionEnzymatic U(VI) reductionThe Lovley Model:
(Lovley et al., 1993; Cason et al., 2012)
Peptide ABC transporter, peptide-binding protein
External electron transport External electron transport systemssystems
(Valocchi, 2011)
ConclusionsConclusions•Microbial encounters with metals in the environment are
inevitable, consequently microbes have developed defence
mechanisms against metal toxicity.
•A mechanistic understanding of uranium (and thorium)
bioreduction/biosorption could aid in devising an effective
and economically feasible bioremediation process for the
removal/separation of these metals.
AcknowledgementsAcknowledgements• University if the Free State
• Prof Esta van Heerden
• Extreme biochemistry
• NRF (SANHARP)
T: +27(0)51 401 9039 | malekemm@ufs.ac.za
Thank youDankie
¡graciasشكرا
DěkujiDankeGrazie
gratias ago vosKe a leboha
T: +27 (0)51 401 9897 palmsm@ufs4life.ac.za