M
Mirna González-González
Researcher at Monterrey Institute of Technology and Higher Education
Publications - 32
Citations - 396
Mirna González-González is an academic researcher from Monterrey Institute of Technology and Higher Education. The author has contributed to research in topics: Stem cell & PEGylation. The author has an hindex of 11, co-authored 29 publications receiving 242 citations.
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Laccases in Food Industry: Bioprocessing, Potential Industrial and Biotechnological Applications.
TL;DR: This review will critically describe the production sources of laccase as by-product from food industry, bioprocessing of food industry by-products using lAccase, and its application in food industry.
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Aqueous two-phase systems strategies to establish novel bioprocesses for stem cells recovery.
TL;DR: This practical review focuses on presenting the bases for the development of a novel and scalable bioprocess for the purification of stem cells, with a case scenario of CD133+ cells.
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Current strategies and challenges for the purification of stem cells
Mirna González-González,Patricia Vázquez-Villegas,Carolina García-Salinas,Marco Rito-Palomares +3 more
TL;DR: A brief, process-oriented overview of the current most widely used technologies for stem cells separation is presented, with a particular focus on process scale-up feasibility and the challenges of this rapidly emerging field.
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Colorimetric protein quantification in aqueous two-phase systems
TL;DR: The influence of high polyethylene glycol and phosphate salt concentrations on the readings of three colorimetric protein assays: Bradford, DC (Bio-Rad) and ninhydrin assay is investigated, which displays minimal protein-to-protein variation and high sensitivity.
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PEGylation, detection and chromatographic purification of site-specific PEGylated CD133-Biotin antibody in route to stem cell separation
TL;DR: The novel CD133-Biotin antibody P EGylation strategy conducted in this study could be used as a process step in route to neural stem cell recovery and purification via the modification of existing techniques such as aqueous two phase systems, PEGylated affinity columns or fluidized chromatography.