Compounds > 1-2-diamino-4-5-methylenedioxybenzene

1-2-diamino-4-5-methylenedioxybenzene and trimethylamine

1-2-diamino-4-5-methylenedioxybenzene has been researched along with trimethylamine* in 1 studies

Other Studies

1 other study(ies) available for 1-2-diamino-4-5-methylenedioxybenzene and trimethylamine

Article	Year
Development of a High-Throughput Method to Study the Inhibitory Effect of Phytochemicals on Trimethylamine Formation. Nutrients, 2021, Apr-26, Volume: 13, Issue:5 Choline is metabolized by the gut microbiota into trimethylamine (TMA), the precursor of pro-atherosclerotic molecule trimethylamine N-oxide (TMAO). A reduction in TMA formation has shown cardioprotective effects, and some phytochemicals may reduce TMA formation. This study aimed to develop an optimized, high-throughput anaerobic fermentation methodology to study the inhibition of choline microbial metabolism into TMA by phenolic compounds with healthy human fecal starter. Optimal fermentation conditions were: 20% fecal slurry (1:10 in PBS), 100 µM choline, and 12 h fermentation. Additionally, 10 mM of 3,3-dimethyl-1-butanol (DMB) was defined as a positive TMA production inhibitor, achieving a ~50% reduction in TMA production. Gallic acid and chlorogenic acid reported higher TMA inhibitory potential (maximum of 80-90% TMA production inhibition), with IC Topics: Chlorogenic Acid; Choline; Feces; Fermentation; Gallic Acid; High-Throughput Screening Assays; Humans; Methylamines; Phenylenediamines; Phytochemicals	2021

Article

Year

Development of a High-Throughput Method to Study the Inhibitory Effect of Phytochemicals on Trimethylamine Formation.

Nutrients, 2021, Apr-26, Volume: 13, Issue:5

Choline is metabolized by the gut microbiota into trimethylamine (TMA), the precursor of pro-atherosclerotic molecule trimethylamine N-oxide (TMAO). A reduction in TMA formation has shown cardioprotective effects, and some phytochemicals may reduce TMA formation. This study aimed to develop an optimized, high-throughput anaerobic fermentation methodology to study the inhibition of choline microbial metabolism into TMA by phenolic compounds with healthy human fecal starter. Optimal fermentation conditions were: 20% fecal slurry (1:10 in PBS), 100 µM choline, and 12 h fermentation. Additionally, 10 mM of 3,3-dimethyl-1-butanol (DMB) was defined as a positive TMA production inhibitor, achieving a ~50% reduction in TMA production. Gallic acid and chlorogenic acid reported higher TMA inhibitory potential (maximum of 80-90% TMA production inhibition), with IC

Topics: Chlorogenic Acid; Choline; Feces; Fermentation; Gallic Acid; High-Throughput Screening Assays; Humans; Methylamines; Phenylenediamines; Phytochemicals

2021