Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Rungnapa Boonpawa

Use of Physiologically Based Kinetic Modelling to Predict Rat Gut Microbial Metabolism of the Isoflavone Daidzein to S ‐Equol and Its Consequences for ERα Activation

Molecular Nutrition and Food Research

Biotechnology

Food Science

2020

English

Related publications

The Isoflavone Equol Mediates Rapid Vascular Relaxation

Journal of Biological Chemistry

English

Production of Equol From Daidzein by Gram-Positive Rod-Shaped Bacterium Isolated From Rat Intestine

Journal of Bioscience and Bioengineering

English

Application of a Physiologically Based Pharmacokinetic Model to Study Theophylline Metabolism and Its Interactions With Ciprofloxacin and Caffeine

CPT: Pharmacometrics and Systems Pharmacology

Modeling

Simulation

Cardiovascular Medicine

Pharmacology

Cardiology

2016

English

In Silico Resources to Assist in the Development and Evaluation of Physiologically-Based Kinetic Models

Computational Toxicology

Mutagenesis

Toxicology

Computer Science Applications

Health

2019

English

Foot Odor Due to Microbial Metabolism and Its Control

Canadian Journal of Microbiology

English

Emergence of Microbial Diversity Due to Cross-Feeding Interactions in a Spatial Model of Gut Microbial Metabolism

Computer Science Applications

Modeling

2017

English

Towards a Generic Physiologically Based Kinetic Model to Predict in Vivo Uterotrophic Responses in Rats by Reverse Dosimetry of in Vitro Estrogenicity Data

Archives of Toxicology

English

The Use of Defined Microbial Communities to Model Host-Microbe Interactions in the Human Gut

Microbiology and Molecular Biology Reviews

English

Physiologically-Based Toxicokinetic Modeling of Zearalenone and Its Metabolites: Application to the Jersey Girl Study

PLoS ONE

Multidisciplinary

2014

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Rungnapa Boonpawa

Use of Physiologically Based Kinetic Modelling to Predict Rat Gut Microbial Metabolism of the Isoflavone Daidzein to S ‐Equol and Its Consequences for ERα Activation

Related publications

The Isoflavone Equol Mediates Rapid Vascular Relaxation

Production of Equol From Daidzein by Gram-Positive Rod-Shaped Bacterium Isolated From Rat Intestine

Application of a Physiologically Based Pharmacokinetic Model to Study Theophylline Metabolism and Its Interactions With Ciprofloxacin and Caffeine

In Silico Resources to Assist in the Development and Evaluation of Physiologically-Based Kinetic Models

Foot Odor Due to Microbial Metabolism and Its Control

Emergence of Microbial Diversity Due to Cross-Feeding Interactions in a Spatial Model of Gut Microbial Metabolism

Towards a Generic Physiologically Based Kinetic Model to Predict in Vivo Uterotrophic Responses in Rats by Reverse Dosimetry of in Vitro Estrogenicity Data

The Use of Defined Microbial Communities to Model Host-Microbe Interactions in the Human Gut

Physiologically-Based Toxicokinetic Modeling of Zearalenone and Its Metabolites: Application to the Jersey Girl Study