Joana Lúcia Lima Correia Rodrigues
University of Minho
60 Papers
170 Citations
Joana Lúcia Lima Correia Rodrigues is an academic researcher from University of Minho. The author has contributed to research in topics: Caffeic acid & Tyrosine ammonia-lyase. The author has an hindex of 11, co-authored 60 publications. Previous affiliations of Joana Lúcia Lima Correia Rodrigues include Universidade Lusófona & Centro Hospitalar de Vila Nova de Gaia/Espinho.
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Papers
Mobility of Cr, Pb, Cd, Cu and Zn in a loamy sand soil: a comparative study
Bruna Fonseca,Hugo Figueiredo,Joana Lúcia Lima Correia Rodrigues,A.M. Queiroz,Teresa Tavares +4 more
TL;DR: In this paper, the authors evaluate the scenario of co-contamination of a loamy sand soil by multiple heavy metals, including Cr, Pb, Cd, Cu and Zn.
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Heterologous production of caffeic acid from tyrosine in Escherichia coli
Joana Lúcia Lima Correia Rodrigues,Joana Lúcia Lima Correia Rodrigues,Rafael G. Araújo,Kristala L. J. Prather,Leon Kluskens,Lígia R. Rodrigues,Lígia R. Rodrigues +6 more
TL;DR: In this paper, Escherichia coli was engineered for the production of caffeic acid using tyrosine as the initial precursor of the pathway and the highest production obtained was 2.62mM (472mg/L).
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Production of curcuminoids from tyrosine by a metabolically engineered Escherichia coli using caffeic acid as an intermediate.
Joana Lúcia Lima Correia Rodrigues,Rafael G. Araújo,Kristala L. J. Prather,Leon Kluskens,Lígia R. Rodrigues,Lígia R. Rodrigues +5 more
TL;DR: In this article, an engineered artificial pathway in Escherichia coli to produce natural curcuminoids through caffeic acid was reported, which was the first time DCS and CURS1 were used in vivo to produce Curcumin and demethoxycurcumin.
A Combinatorial Approach to Optimize the Production of Curcuminoids From Tyrosine in Escherichia coli.
TL;DR: The results demonstrate the enormous potential of modular co-culture engineering to produce curcumin, and other cur cuminoids, from tyrosine and correspond to the highest titers ofCurcuminoids obtained to date.
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Potential Applications of the Escherichia coli Heat Shock Response in Synthetic Biology.
TL;DR: The potential use of the E. coli HSR mechanism in synthetic biology approaches is explored, which can be used for instance to detect a pollutant in water, to regulate and optimize the production of a compound with industrial relevance, or to administer a therapeutic agent in vivo.
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