Engineering Escherichia coli Co-Cultures for Production of Curcuminoids From Glucose

Production of Curcuminoids in Engineered Escherichia coli

(2017) Eun Ji Kim et al.   JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY

Optimization of fermentation conditions for the production of curcumin by engineered Escherichia coli

(2017) Márcia R. Couto et al.   Journal of the Royal Society Interface

Experimental and computational optimization of an Escherichia coli co-culture for the efficient production of flavonoids

(2016) J. Andrew Jones et al.   METABOLIC ENGINEERING

Modular co-culture engineering, a new approach for metabolic engineering

(2016) Haoran Zhang et al.   METABOLIC ENGINEERING

Metabolic Burden: Cornerstones in Synthetic Biology and Metabolic Engineering Applications

(2016) Gang Wu et al.   TRENDS IN BIOTECHNOLOGY

Using photosystem I as a reporter protein for 13C analysis in a coculture containing cyanobacterium and a heterotrophic bacterium

(2015) Le You et al.   ANALYTICAL BIOCHEMISTRY

Production of curcuminoids from tyrosine by a metabolically engineeredEscherichia coliusing caffeic acid as an intermediate

(2015) Joana L. Rodrigues et al.   Biotechnology Journal

Metabolic engineering of Escherichia coli for the biosynthesis of various phenylpropanoid derivatives

(2015) Siyuan Wang et al.   METABOLIC ENGINEERING

Heterologous Production of Curcuminoids

(2015) J. L. Rodrigues et al.   MICROBIOLOGY AND MOLECULAR BIOLOGY REVIEWS

ePathOptimize: A Combinatorial Approach for Transcriptional Balancing of Metabolic Pathways

(2015) J. Andrew Jones et al.   Scientific Reports

Production of curcuminoids from tyrosine by a metabolically engineeredEscherichia coliusing caffeic acid as an intermediate

(2015) Joana L. Rodrigues et al.   Biotechnology Journal

Degradation of Curcuminoids by in Vitro Pure Culture Fermentation

(2014) Suryani Tan et al.   JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY

Curcuminoids for the management of hypertriglyceridaemia

(2014) Amirhossein Sahebkar   Nature Reviews Cardiology

Curcumin, a promising anti-cancer therapeutic: a review of its chemical properties, bioactivity and approaches to cancer cell delivery

(2014) Melessa Salem et al.   RSC Advances

Modular optimization of multi-gene pathways for fatty acids production in E. coli

(2013) Peng Xu et al.   Nature Communications

Redirecting carbon flux into malonyl-CoA to improve resveratrol titers: Proof of concept for genetic interventions predicted by OptForce computational framework

(2012) Namita Bhan et al.   CHEMICAL ENGINEERING SCIENCE

Rational, combinatorial, and genomic approaches for engineering L-tyrosine production in Escherichia coli

(2012) C. N. S. Santos et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

ePathBrick: A Synthetic Biology Platform for Engineering Metabolic Pathways in E. coli

(2012) Peng Xu et al.   ACS Synthetic Biology

Genome-scale metabolic network modeling results in minimal interventions that cooperatively force carbon flux towards malonyl-CoA

(2011) Peng Xu et al.   METABOLIC ENGINEERING

Structural basis for the one-pot formation of the diarylheptanoid scaffold by curcuminoid synthase from Oryza sativa

(2010) H. Morita et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Increased Malonyl Coenzyme A Biosynthesis by Tuning the Escherichia coli Metabolic Network and Its Application to Flavanone Production

(2009) Z. L. Fowler et al.   APPLIED AND ENVIRONMENTAL MICROBIOLOGY

Production of curcuminoids by Escherichia coli carrying an artificial biosynthesis pathway

(2008) Y. Katsuyama et al.   MICROBIOLOGY-SGM

Strain Improvement of RecombinantEscherichia colifor Efficient Production of Plant Flavonoids

(2008) Effendi Leonard et al.   MOLECULAR PHARMACEUTICS