Phycoremediation of Copper by <i>Chlorella protothecoides</i> (UTEX 256): Proteomics of Protein Biosynthesis and Stress Response
Lidiane Maria Andrade,
Caique Alves Tito,
Camila Mascarenhas,
Fabíola Aliaga Lima,
Meriellen Dias,
Cristiano José Andrade,
Maria Anita Mendes,
Claudio Augusto Oller Nascimento
Affiliations
Lidiane Maria Andrade
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Caique Alves Tito
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Camila Mascarenhas
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Fabíola Aliaga Lima
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Meriellen Dias
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Cristiano José Andrade
LiEB, Integrated Laboratory of Biological Engineering, Department of Chemical Engineering and Food Engineering, Federal University of Santa Catarina (UFSC), R. do Biotério Central, S/n–Córrego Grande, Florianópolis 88040-970, SC, Brazil
Maria Anita Mendes
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Claudio Augusto Oller Nascimento
Dempster MS Lab, Chemical Engineering Department of Polytechnic School of University of São Paulo (USP), R. do Lago, 250–Butantã, São Paulo 05338-110, SP, Brazil
Phycoremediation is an eco-friendly treatment for mining wastes. Copper at high concentrations is toxic for microalgae growth (bioremediation). Proteomics is a modern approach that can assist in elucidating, in detail, the highly complex metabolic mechanisms related to phycoremediation. Therefore, this study aimed to evaluate the effect of copper ions (Cu2+) on the metabolism of Chlorella protothecoides (UTEX 256), particularly the proteome changes. The WC culture medium supplemented with Cu2+ at 0.3, 0.6, and 0.9 mg/L showed a strict correlation to Cu2+ removal of 40, 33, and 36% of the initial content, respectively. In addition, Cu2+ concentrations did not affect microalgae growth—a very traditional approach to measuring toxicity. However, the proteomics data indicated that when compared to the control, reductions in protein levels were observed, and the 10 most scored proteins were related to the light-harvesting complex. Interestingly, C. protothecoides cultivated at 0.9 mg of Cu2+/L biosynthesized the protein Ycf3-interacting chloroplastic isoform X1 to respond to the photooxidative stress and the DNA-directed RNA polymerase III subunit RPC5 was related to the Cu2+ binding. Pre-mRNA-processing factor 19 and cytochrome c peroxidase proteins were observed only in the copper-containing treatments indicating the activation of antioxidant mechanisms by reactive oxygen species, which are potential environmental pollutant biomarkers.
