José Luis Sánchez García scite author profile

Microalgae have been used for centuries to provide nourishment to humans and animals, only very recently they have become much more widely cultured and harvested at large industrial scale. This paper reviews the potential health benefits and nutrition provided by microalgae whose benefits are contributing to expand their market. We also point out several key challenges that remain to be addressed in this field.

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Characterization of a flat plate photobioreactor for the production of microalgae

Sierra

Acién

Fernández

et al. 2008

Chemical Engineering Journal

357

148

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The urgent need for microbiology literacy in society

Timmis

Cavicchioli

García

et al. 2019

Environmental Microbiology

112

102

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University–industry partnerships for the provision of R&D services

Berbegal‐Mirabent

García

Soriano

2015

Journal of Business Research

117

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Can a magic recipe foster university spin-off creation?

Berbegal‐Mirabent

Soriano

García

2015

Journal of Business Research

126

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Model predictive control of pH in tubular photobioreactors

Berenguel

Rodríguez

Acién

et al. 2004

Journal of Process Control

109

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Intestinal elimination of albendazole sulfoxide: pharmacokinetic effects of inhibitors

Merino

Molina

García

et al. 2003

International Journal of Pharmaceutics

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FLYCOP: metabolic modeling-based analysis and engineering microbial communities

García-Jiménez

García

Nogales

2018

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MotivationSynthetic microbial communities begin to be considered as promising multicellular biocatalysts having a large potential to replace engineered single strains in biotechnology applications, in pharmaceutical, chemical and living architecture sectors. In contrast to single strain engineering, the effective and high-throughput analysis and engineering of microbial consortia face the lack of knowledge, tools and well-defined workflows. This manuscript contributes to fill this important gap with a framework, called FLYCOP (FLexible sYnthetic Consortium OPtimization), which contributes to microbial consortia modeling and engineering, while improving the knowledge about how these communities work. FLYCOP selects the best consortium configuration to optimize a given goal, among multiple and diverse configurations, in a flexible way, taking temporal changes in metabolite concentrations into account.ResultsIn contrast to previous systems optimizing microbial consortia, FLYCOP has novel characteristics to face up to new problems, to represent additional features and to analyze events influencing the consortia behavior. In this manuscript, FLYCOP optimizes a Synechococcus elongatus-Pseudomonas putida consortium to produce the maximum amount of bio-plastic (PHA, polyhydroxyalkanoate), and highlights the influence of metabolites exchange dynamics in a four auxotrophic Escherichia coli consortium with parallel growth. FLYCOP can also provide an explanation about biological evolution driving evolutionary engineering endeavors by describing why and how heterogeneous populations emerge from monoclonal ones.Availability and implementationCode reproducing the study cases described in this manuscript are available on-line: https://github.com/beatrizgj/FLYCOPSupplementary information Supplementary data are available at Bioinformatics online.

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