Low-temperature biosynthesis of fluorescent semiconductor nanoparticles (CdS) by oxidative stress resistant Antarctic bacteria
Gallardo, C., Monrás, J.P., Plaza, D.O., Collao, B., Saona, L.A., Durán-Toro, V., Venegas, F.A., Soto, C., Ulloa, G., Vásquez, C.C., Bravo, D., Pérez-Donoso, J.M.
Published in Journal of biotechnology (10.10.2014)
Published in Journal of biotechnology (10.10.2014)
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Quantum dot-based assay for Cu(2+) quantification in bacterial cell culture
Durán-Toro, V, Gran-Scheuch, A, Órdenes-Aenishanslins, N, Monrás, J P, Saona, L A, Venegas, F A, Chasteen, T G, Bravo, D, Pérez-Donoso, J M
Published in Analytical biochemistry (01.04.2014)
Published in Analytical biochemistry (01.04.2014)
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Quantum dot-based assay for Cu2+ quantification in bacterial cell culture
Durán-Toro, V., Gran-Scheuch, A., Órdenes-Aenishanslins, N., Monrás, J.P., Saona, L.A., Venegas, F.A., Chasteen, T.G., Bravo, D., Pérez-Donoso, J.M.
Published in Analytical biochemistry (01.04.2014)
Published in Analytical biochemistry (01.04.2014)
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Biological phosphorylated molecules participate in the biomimetic and biological synthesis of cadmium sulphide quantum dots by promoting H 2 S release from cellular thiols
Venegas, F. A., Saona, L. A., Monrás, J. P., Órdenes-Aenishanslins, N., Giordana, M. F., Ulloa, G., Collao, B., Bravo, D., Pérez-Donoso, J. M.
Published in RSC advances (2017)
Published in RSC advances (2017)
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Biological phosphorylated molecules participate in the biomimetic and biological synthesis of cadmium sulphide quantum dots by promoting H2S release from cellular thiolsElectronic supplementary information (ESI) available. See DOI: 10.1039/c7ra03578k
Venegas, F. A, Saona, L. A, Monrás, J. P, Órdenes-Aenishanslins, N, Giordana, M. F, Ulloa, G, Collao, B, Bravo, D, Pérez-Donoso, J. M
Year of Publication 17.08.2017
Year of Publication 17.08.2017
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