Higher Trimethylamine-
<i>N</i>
-Oxide Plasma Levels with Increasing Age Are Mediated by Diet and Trimethylamine-Forming Bacteria

QR Code

Higher Trimethylamine- <i>N</i> -Oxide Plasma Levels with Increasing Age Are Mediated by Diet and Trimethylamine-Forming Bacteria

Many cohort studies have investigated the link between diet and plasma TMAO levels, reporting incongruent results, while gut microbiota were only recently included into analyses. In these studies, taxonomic data were recorded that are not a good proxy for TMA formation, as specific members of vario...

Description complète

Enregistré dans:

Détails bibliographiques
Auteurs principaux:	Silke Rath, Katharina Rox, Sven Kleine Bardenhorst, Ulf Schminke, Marcus Dörr, Julia Mayerle, Fabian Frost, Markus M. Lerch, André Karch, Mark Brönstrup, Dietmar H. Pieper, Marius Vital
Format:	article
Langue:	EN
Publié:	American Society for Microbiology 2021
Sujets:	Microbiology QR1-502
Accès en ligne:	https://doaj.org/article/5de86fa11c914a228de9fbfcdf2921f5
Tags:	Ajouter un tag Pas de tags, Soyez le premier à ajouter un tag!

Documents similaires

Berberine attenuates choline-induced atherosclerosis by inhibiting trimethylamine and trimethylamine-N-oxide production via manipulating the gut microbiome
par: Xingxing Li, et autres
Publié: (2021)

An Expanded Genetic Code Enables Trimethylamine Metabolism in Human Gut Bacteria
par: Veronika Kivenson, et autres
Publié: (2020)

Gut Metabolite Trimethylamine-N-Oxide in Atherosclerosis: From Mechanism to Therapy
par: BingYu Wang, et autres
Publié: (2021)

Data Analysis Strategies for Microbiome Studies in Human Populations—a Systematic Review of Current Practice
par: Sven Kleine Bardenhorst, et autres
Publié: (2021)

Trimethylamine functionalized radiation-induced grafted polyamide 6 fibers for p-nitrophenol adsorption
par: Shihab Ezzuldin M.Saber, et autres
Publié: (2021)

Genomic Insights into Adaptations of Trimethylamine-Utilizing Methanogens to Diverse Habitats, Including the Human Gut
par: Jacobo de la Cuesta-Zuluaga, et autres
Publié: (2021)

Trimethylamine N-oxide abolishes the chaperone activity of α-casein: an intrinsically disordered protein
par: Mohd Younus Bhat, et autres
Publié: (2017)

Regulation of blood–brain barrier integrity by microbiome-associated methylamines and cognition by trimethylamine N-oxide
par: Lesley Hoyles, et autres
Publié: (2021)

Colonic Butyrate-Producing Communities in Humans: an Overview Using Omics Data
par: Marius Vital, et autres
Publié: (2017)

ADSORPTION ABILITY OF ACTIVATED CARBON OBTAINED FROM SUB-BITUMINOUS COAL (LEBU, CHILE) TO CAPTURE TRIMETHYLAMINE
par: Méndez,Paola, et autres
Publié: (2019)

The Gut Microbial-Derived Metabolite Trimethylamine N-Oxide and Atrial Fibrillation: Relationships, Mechanisms, and Therapeutic Strategies
par: Huang R, et autres
Publié: (2021)

Toll-Like Receptor 4: A Macrophage Cell Surface Receptor Is Activated by Trimethylamine-N-Oxide
par: Mohammad Saeed Hakhamaneshi, et autres
Publié: (2021)

Trimethylamine N-Oxide, a Gut Microbiota-Dependent Metabolite, is Associated with Frailty in Older Adults with Cardiovascular Disease
par: He W, et autres
Publié: (2020)

Contribution of multidrug and toxin extrusion protein 1 (MATE1) to renal secretion of trimethylamine-N-oxide (TMAO)
par: A. Gessner, et autres
Publié: (2018)

Gut microbiota derived trimethylamine N-oxide (TMAO) detection through molecularly imprinted polymer based sensor
par: G. B. V. S. Lakshmi, et autres
Publié: (2021)

Trimethylamine N-Oxide, a Gut Microbiota-Dependent Metabolite, is Associated with Frailty in Older Adults with Cardiovascular Disease [Corrigendum]
par: He W, et autres
Publié: (2021)

Gut microbiota-generated metabolite, trimethylamine-N-oxide, and subclinical myocardial damage: a multicenter study from Thailand
par: Vichai Senthong, et autres
Publié: (2021)

Trimethylamine-N-Oxide Aggravates Kidney Injury via Activation of p38/MAPK Signaling and Upregulation of HuR
par: Yunshi Lai, et autres
Publié: (2021)

Impaired renal function and dysbiosis of gut microbiota contribute to increased trimethylamine-N-oxide in chronic kidney disease patients
par: Kai-Yu Xu, et autres
Publié: (2017)

Aerial Exposure to the Bacterial Volatile Compound Trimethylamine Modifies Antibiotic Resistance of Physically Separated Bacteria by Raising Culture Medium pH
par: Sylvie Létoffé, et autres
Publié: (2014)

Bacterial metabolites trimethylamine N-oxide and butyrate as surrogates of small intestinal bacterial overgrowth in patients with a recent decompensated heart failure
par: Anna Mollar, et autres
Publié: (2021)

Intestinal Microbiota Composition Modulates Choline Bioavailability from Diet and Accumulation of the Proatherogenic Metabolite Trimethylamine-<italic toggle="yes">N</italic>-Oxide
par: Kymberleigh A. Romano, et autres
Publié: (2015)

Mapping gaseous dimethylamine, trimethylamine, ammonia, and their particulate counterparts in marine atmospheres of China's marginal seas – Part 1: Differentiating marine emission from continental transport
par: D. Chen, et autres
Publié: (2021)

Resveratrol Attenuates Trimethylamine-<italic toggle="yes">N</italic>-Oxide (TMAO)-Induced Atherosclerosis by Regulating TMAO Synthesis and Bile Acid Metabolism via Remodeling of the Gut Microbiota
par: Ming-liang Chen, et autres
Publié: (2016)

Direct CCL4 Inhibition Modulates Gut Microbiota, Reduces Circulating Trimethylamine N-Oxide, and Improves Glucose and Lipid Metabolism in High-Fat-Diet-Induced Diabetes Mellitus
par: Chang TT, et autres
Publié: (2021)

Changes in Trimethylamine-N-oxide Levels in Obese Patients following Laparoscopic Roux-en-Y Gastric Bypass or Sleeve Gastrectomy in a Korean Obesity Surgical Treatment Study (KOBESS)
par: Soo Jin Lee, et autres
Publié: (2021)

Immunologicheskie markery v diagnostike i prognozirovanii sakharnogo diabeta I tipa
par: Elena Vital'evna Titovich, et autres
Publié: (2004)

Relevance of BRAF Subcellular Localization and Its Interaction with <i>KRAS</i> and <i>KIT</i> Mutations in Skin Melanoma
par: Marius-Alexandru Beleaua, et autres
Publié: (2021)

Survival of Enterohemorrhagic <i>Escherichia coli</i> O104:H4 Strain C227/11Φcu in Agricultural Soils Depends on <i>rpoS</i> and Environmental Factors
par: Katharina Detert, et autres
Publié: (2021)

Bærekraft i profesjonsutdanninger
par: Arild Berg, et autres
Publié: (2021)

Lower Spermatozoal <i>PIWI-LIKE 1</i> and <i>2</i> Transcript Levels Are Significantly Associated with Higher Fertilization Rates in IVF
par: Maria Giebler, et autres
Publié: (2021)

Pigment and Fatty Acid Heterogeneity in the Sea Slug <i>Elysia crispata</i> Is Not Shaped by Habitat Depth
par: Xochitl Guadalupe Vital, et autres
Publié: (2021)

<i>Drosophila melanogaster</i> as a Model Organism to Study Lithium and Boron Bioactivity
par: Katharina Jans, et autres
Publié: (2021)

The Fusion of <i>CLEC12A</i> and <i>MIR223HG</i> Arises from a <i>trans</i>-Splicing Event in Normal and Transformed Human Cells
par: Bijay P. Dhungel, et autres
Publié: (2021)

Assessment of the Contribution of a Thermodynamic and Mechanical Destabilization of Myosin-Binding Protein C Domain C2 to the Pathomechanism of Hypertrophic Cardiomyopathy-Causing Double Mutation <i>MYBPC3</i><sup>Δ<i>25bp/D389V</i></sup>
par: Frederic V. Schwäbe, et autres
Publié: (2021)

Poslednie dostizheniya i perspektivy profilaktiki sakharnogo diabeta 1 tipa
par: Tamara Leonidovna Kuraeva, et autres
Publié: (2000)

Susceptibility of Field-Collected <i>Nyssorhynchus darlingi</i> to <i>Plasmodium</i> spp. in Western Amazonian Brazil
par: Diego Peres Alonso, et autres
Publié: (2021)

Specificity of Constructions Based on Combinations with Conjunction <i>а</i> and Concretizations <i>po</i><i>suti</i><i>, </i><i>po</i><i>suchshestvu</i><i>, </i><i>v</i><i>suchshnosti</i>
par: S. He, et autres
Publié: (2018)

Feline Demodicosis Case Report—First Molecular Characterization of <i>Demodex</i> Mites in Romania
par: Marius Stelian Ilie, et autres
Publié: (2021)

On the Normalization of Toponyms with Varying <i>ы</i><i> [y] / </i><i>и</i><i> [i]</i> after <i>ц</i><i> [ts]</i>
par: I. A. Dambuev
Publié: (2020)