Alterations of the gut microbial community structure and function with aging in the spontaneously hypertensive stroke prone rat
暂无分享,去创建一个
[1] C. Reinhardt,et al. Microbiota-derived tryptophan metabolites in vascular inflammation and cardiovascular disease , 2022, Amino Acids.
[2] F. Abboud,et al. Altering Early Life Gut Microbiota Has Long-Term Effect on Immune System and Hypertension in Spontaneously Hypertensive Rats , 2021, Frontiers in Physiology.
[3] J. Petrosino,et al. Restructuring the Gut Microbiota by Intermittent Fasting Lowers Blood Pressure , 2021, Circulation research.
[4] J. Petrosino,et al. The gut microbiome contributes to blood‐brain barrier disruption in spontaneously hypertensive stroke prone rats , 2021, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[5] J. Cryan,et al. The Microbiota-Gut-Brain Axis: From Motility to Mood. , 2021, Gastroenterology.
[6] M. Marco. Defining how microorganisms benefit human health , 2020, Microbial biotechnology.
[7] L. McCullough,et al. Young versus aged microbiota transplants to germ-free mice: increased short-chain fatty acids and improved cognitive performance , 2020, Gut microbes.
[8] M. Redinbo,et al. Gut-Derived Protein-Bound Uremic Toxins , 2020, Toxins.
[9] E. Hsiao,et al. The Microbiome as a Modifier of Neurodegenerative Disease Risk. , 2020, Cell host & microbe.
[10] Gavin M Douglas,et al. PICRUSt2 for prediction of metagenome functions , 2020, Nature Biotechnology.
[11] Ruijin Guo,et al. Role of short-chain fatty acids in the gut-brain axis in schizophrenia: contribution to immune activation and pathophysiology in humans and mice , 2020, bioRxiv.
[12] Guangji Wang,et al. Gut Microbial Metabolites of Aromatic Amino Acids as Signals in Host–Microbe Interplay , 2020, Trends in Endocrinology & Metabolism.
[13] Manuel Calderón Sánchez,et al. Probiotics Prevent Dysbiosis and the Raise in Blood Pressure in Genetic Hypertension: Role of Short-chain Fatty Acids. , 2020, Molecular nutrition & food research.
[14] C. Pepine,et al. Transcriptomic Signature of Gut Microbiome-Contacting Cells in Colon of Spontaneously Hypertensive Rats. , 2019, Physiological genomics.
[15] J. Duarte,et al. Role of the immune system in vascular function and blood pressure control induced by faecal microbiota transplantation in rats , 2019, Acta physiologica.
[16] C. Pepine,et al. Impaired Autonomic Nervous System-Microbiome Circuit in Hypertension. , 2019, Circulation research.
[17] R. Barrangou,et al. Bile salt hydrolases: Gatekeepers of bile acid metabolism and host-microbiome crosstalk in the gastrointestinal tract , 2019, PLoS pathogens.
[18] J. Raes,et al. The neuroactive potential of the human gut microbiota in quality of life and depression , 2019, Nature Microbiology.
[19] N. Ajami,et al. Prebiotics, Probiotics, and Acetate Supplementation Prevent Hypertension in a Model of Obstructive Sleep Apnea , 2018, Hypertension.
[20] Sean M. Kearney,et al. Salt-responsive gut commensal modulates TH17 axis and disease , 2017, Nature.
[21] N. Ajami,et al. Alterations in the gut microbiota can elicit hypertension in rats. , 2017, Physiological genomics.
[22] Paul J. McMurdie,et al. DADA2: High resolution sample inference from Illumina amplicon data , 2016, Nature Methods.
[23] T. Dinan,et al. The microbiome: A key regulator of stress and neuroinflammation , 2016, Neurobiology of Stress.
[24] N. Ajami,et al. Role of the Gut Microbiome in Obstructive Sleep Apnea–Induced Hypertension , 2016, Hypertension.
[25] C. Kahn,et al. Interactions between Gut Microbiota, Host Genetics and Diet Modulate the Predisposition to Obesity and Metabolic Syndrome. , 2015, Cell metabolism.
[26] C. Pepine,et al. Gut Dysbiosis Is Linked to Hypertension , 2015, Hypertension.
[27] Yanfei Qi,et al. Involvement of bone marrow cells and neuroinflammation in hypertension. , 2015, Circulation research.
[28] C. Mackay,et al. Diet, metabolites, and "western-lifestyle" inflammatory diseases. , 2014, Immunity.
[29] J. Gordon,et al. Olfactory receptor responding to gut microbiota-derived signals plays a role in renin secretion and blood pressure regulation , 2013, Proceedings of the National Academy of Sciences.
[30] Pelin Yilmaz,et al. The SILVA ribosomal RNA gene database project: improved data processing and web-based tools , 2012, Nucleic Acids Res..
[31] C. Mackay,et al. Beyond gut feelings: how the gut microbiota regulates blood pressure , 2018, Nature Reviews Cardiology.
[32] T. Dinan,et al. The A Key Regulator of Stress and Neuroinflammation , 2016 .
[33] R Core Team,et al. R: A language and environment for statistical computing. , 2014 .