S
Sebastián Flores
Researcher at University of Chile
Publications - 17
Citations - 249
Sebastián Flores is an academic researcher from University of Chile. The author has contributed to research in topics: Heme & Batch reactor. The author has an hindex of 9, co-authored 17 publications receiving 210 citations. Previous affiliations of Sebastián Flores include Federico Santa María Technical University & University of the Bío Bío.
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Journal ArticleDOI
Calcium Does Not Inhibit the Absorption of 5 Milligrams of Nonheme or Heme Iron at Doses Less Than 800 Milligrams in Nonpregnant Women
Diego Gaitán,Sebastián Flores,Pía Saavedra,Constanza Miranda,Manuel Olivares,Miguel Arredondo,Daniel López de Romaña,Bo Lönnerdal,Fernando Pizarro +8 more
TL;DR: An isolated effect of calcium (as chloride) on absorption of 5 mg of iron provided as nonheme (as sulfate) and heme ( as CRBC) iron was observed at doses higher than previously reported from single-meal studies.
Journal ArticleDOI
Mouse divalent metal transporter 1 is a copper transporter in HEK293 cells.
Miguel Arredondo,Maria Jose Mendiburo,Sebastián Flores,Steven T. Singleton,Michael D. Garrick +4 more
TL;DR: Cu uptake in HEK293 cells that over-expressed the 2/−IRE isoform of DMT1 transporter supports the earlier contention that D MT1 transports Cu as Cu1+.
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The effect of proteins from animal source foods on heme iron bioavailability in humans.
Fernando Pizarro,Manuel Olivares,Carolina Valenzuela,Alex Brito,Valerie Weinborn,Sebastián Flores,Miguel Arredondo +6 more
TL;DR: Proteins from animal source foods and their digestion products did not enhance heme Fe absorption and casein, collagen, and albumin did not affect the bioavailability of Fe.
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Batch reactor performance for the enzymatic synthesis of cephalexin: influence of catalyst enzyme loading and particle size
TL;DR: A nonlinear relationship between catalyst enzyme loading and specific productivity of Cex was obtained with the implication that an increase in catalyst enzymes loading will not increase the volumetric productivity by the same magnitude as it occurs with the free enzyme.
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Effect of particle size distribution on the simulation of immobilized enzyme reactor performance
TL;DR: In this paper, a mathematical model that describes the heterogeneous reaction-diffusion process involved in a batch reactor with immobilized enzyme is presented, based on equations considering reaction and diffusion components including biocatalyst particle size distribution.