| Afman Lydia |
TBA Afman
|
| Al-Hasani Hadi |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Anadol-Schmitz Evrim |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Anguera Montserrat |
X-chromosome Inactivation: genetic and epigenetic contributions to female-biased disease
|
| Avila-Pacheco Julian |
Mapping Extra-Virgin Olive Oil Metabolites in Human Stool and Plasma
|
| Bailey Regan |
What Does Precision Nutrition Mean for Public Health Nutrition?
|
| Baldassarri Emanuele |
Genetic regulation of diet-induced thermogenesis in mice
|
| Bates Caleb |
The non-essential amino acid, serine, is essential for retinal health
|
| Beaudin Anna |
Defining developmental origins of health and disease: a (hematopoietic) stem cell perspective
Prenatal Folate Status Influences Hematopoietic Stem Cell Function Across the Lifespan
|
| Blaak Ellen |
Precision nutrition by modulating dietary macronutrients according to tissue-specific insulin resistance phenotypes improves cardiometabolic health
|
| Brennan Lorraine |
Metabolic Phenotyping for Precision Nutrition
|
| Brenner Dirk |
cROSsing the line: The metabolic regulation of regulatory T cell function
|
| Castillo Luisa |
Increased Mitochondrial TYMS Localization Improves Mitochondrial Function
|
| Center Regeneron Genetics |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Clish Clary |
Mapping Extra-Virgin Olive Oil Metabolites in Human Stool and Plasma
|
| Cordes Thekla |
Signaling roles of mitochondrial metabolites influencing inflammation and cancer
|
| Crowell Beth |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Davis Cindy |
Food and Agriculture Research: Focus in Precision Nutrition and Chronic Disease
|
| De Tanima |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Deik Amy |
Mapping Extra-Virgin Olive Oil Metabolites in Human Stool and Plasma
|
| Delibegovic Mirela |
Methionine restriction and metabolism during ageing in mice
|
| Della Gatta Giusy |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
|
| Dennis Courtney |
Mapping Extra-Virgin Olive Oil Metabolites in Human Stool and Plasma
|
| DiPierro Karissa |
Increased Mitochondrial TYMS Localization Improves Mitochondrial Function
|
| DiscovEHR Collaboration GHS-RGC |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Donovan Sharon |
Opportunities for Precision Nutrition in the First 1000 Days of Life.
|
| Economides Aris |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Ellefsen Stian |
The Trainome – combining exercise training and nutrition to improve the health efficacy of lifestyle therapy
|
| Fallon Regis |
The non-essential amino acid, serine, is essential for retinal health
|
| Fiamoncini Jarlei |
Dietary challenges as tools for the identification of metabotypes with different susceptibility to a weight loss intervention
|
| fiddler joanna |
Uracil accumulation in mitochondrial DNA impairs oxidative phosphorylation
|
| Field Martha |
Increased Mitochondrial TYMS Localization Improves Mitochondrial Function
Uracil accumulation in mitochondrial DNA impairs oxidative phosphorylation
SHMT1 and the etiology of folate-responsive neural tube defects
Plasma and urinary erythritol are increased in response to excess dietary sucrose
Exposure to excess dietary folic acid does not affect tissue folic acid accumulation in a mouse model of vitamin B12 deficiency
|
| Friedlander Martin |
The non-essential amino acid, serine, is essential for retinal health
|
| Gancheva Sofiya |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Gantner Marin |
Understanding the rewiring of metabolism during aging and chronic nutrient stress
The non-essential amino acid, serine, is essential for retinal health
|
| Gladyshev Vadim |
Mechanisms of Aging and Lifespan Control
|
| Hamarsland Håvard |
The Trainome – combining exercise training and nutrition to improve the health efficacy of lifestyle therapy
|
| Hammarström Daniel |
The Trainome – combining exercise training and nutrition to improve the health efficacy of lifestyle therapy
|
| Handzlik Michal |
Understanding the rewiring of metabolism during aging and chronic nutrient stress
The non-essential amino acid, serine, is essential for retinal health
|
| Hatsell Sarah |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| He Wei |
Suppressing the fire: itaconate is not the only immunomodulatory metabolite in inflammatory macrophages
|
| Heinz Alexander |
Suppressing the fire: itaconate is not the only immunomodulatory metabolite in inflammatory macrophages
|
| Heisler Lora |
Targeting the brain to modulate food intake
|
| Henne Antonia |
Suppressing the fire: itaconate is not the only immunomodulatory metabolite in inflammatory macrophages
|
| Hesselink Matthias |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Heyden Katarina |
Uracil accumulation in mitochondrial DNA impairs oxidative phosphorylation
Exposure to excess dietary folic acid does not affect tissue folic acid accumulation in a mouse model of vitamin B12 deficiency
|
| Hiller Karsten |
Suppressing the fire: itaconate is not the only immunomodulatory metabolite in inflammatory macrophages
|
| Huerta Noah |
Prenatal Folate Status Influences Hematopoietic Stem Cell Function Across the Lifespan
|
| Isanejad Masoud |
Lifetime Serum concentration of 25-hydroxyvitamin D 25(OH) is associated with Hand Grip Strengths: Insight from a Mendelian Randomization
|
| Ivanova Larisa |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Jeanfavre Sarah |
Mapping Extra-Virgin Olive Oil Metabolites in Human Stool and Plasma
|
| Karalis Katia |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
|
| Karoulias Stylianos |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
|
| Kim Minhee |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
|
| Krook Anna |
Metabolites as metabolic signals: Unravelling the metabolomic and transcriptomic response to an oral glucose challenge
|
| Krum Brian |
Prenatal Folate Status Influences Hematopoietic Stem Cell Function Across the Lifespan
Defining developmental origins of health and disease: a (hematopoietic) stem cell perspective
|
| Kupriyanova Yuliya |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Kurouski Dmitry |
Raman spectroscopy enables phenotyping and assessment of nutrition values of plants
|
| Lim Esther |
Understanding the rewiring of metabolism during aging and chronic nutrient stress
|
| Lob Heinrich |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Lopez Diego |
Defining developmental origins of health and disease: a (hematopoietic) stem cell perspective
|
| Lotta Luca |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Lyu Kun |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| MacFarlane Amanda |
Folate intake-response in mice suggests that commonly used diet formulations do not reflect human folate exposure: Implications for translation
|
| Maddocks Oliver |
Cancer Specific Amino Acid Metabolism
|
| Malysheva Olga |
Exposure to excess dietary folic acid does not affect tissue folic acid accumulation in a mouse model of vitamin B12 deficiency
|
| Mastrotodaro Lucia |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Mcilroy George |
Metabolic disease progression with age resulting from adipose tissue dysfunction
|
| Metallo Christian |
Understanding the rewiring of metabolism during aging and chronic nutrient stress
Understanding the interplay between dietary serine, glycine, and fat metabolism
The non-essential amino acid, serine, is essential for retinal health
|
| Moore Kathryn |
Noncoding RNA Regulation of Metabolism and Immunity
|
| Mølmen Knut Sindre |
The Trainome – combining exercise training and nutrition to improve the health efficacy of lifestyle therapy
|
| Nadeau Joseph |
Phenotypic plasticity, the missing dimension of phenotypic variation and disease risk
|
| Naron Alexandra |
Genetic regulation of diet-induced thermogenesis in mice
|
| Newsholme Philip |
Metabolic disease progression with age resulting from adipose tissue dysfunction
|
| Noakes Tara Leigh Spencer |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| op den Kamp Yvo |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Ortiz Semira |
Plasma and urinary erythritol are increased in response to excess dietary sucrose
|
| Pesta Dominik |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Phielix Esther |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Pospisilik John |
"Epigenetic Underpinnings of Metabolic Disease Heterogeneity"
|
| Praggastis Sophia |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Preda Marilena |
Characterizing the metabolic impacts of abnormal dietary iron levels.
|
| Rochford Justin |
Metabolic disease progression with age resulting from adipose tissue dysfunction
|
| Roden Michael |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Roumane Ahlima |
Metabolic disease progression with age resulting from adipose tissue dysfunction
|
| Salvador Anna |
Genetic regulation of diet-induced thermogenesis in mice
|
| Sarabhai Theresia |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Schoenherr Chris |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
|
| Schrauwen Patrick |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Schrauwen-Hinderling Vera |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Schwartz Betty |
Diabetes-associated Colorectal Cancer: the effect of fruits, vegetables and fiber intakes among the Palestinian population – A case- control study
|
| Shulman Gerald |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Smaldone Silvia |
Adipogenesis block in Marfanoid Progeroid Lipodystrophy Syndrome is ameliorated by PPARgamma agonist
|
| Snyder Nathaniel |
Sub-cellular acyl-CoenzymeA analysis reveals distinct nuclear metabolism
|
| Sommer Nadine |
Metabolic disease progression with age resulting from adipose tissue dysfunction
|
| Starke-Reed Pamela |
Food and Agriculture Research: Focus in Precision Nutrition and Chronic Disease
|
| Stover Patrick |
SHMT1 and the etiology of folate-responsive neural tube defects
|
| Strassburger Klaus |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Szendroedi Julia |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Thalacker-Mercer Anna |
Nutrient and metabolic determinants of tissue regeneration
|
| Threadgill David |
Reimaging Preclinical Models for Precision Nutrition
Genetic regulation of diet-induced thermogenesis in mice
|
| Tiana Kendra |
SHMT1 and the etiology of folate-responsive neural tube defects
|
| Tiani Kendra |
Tina TBA
|
| Trefely Sophie |
Sub-cellular acyl-CoenzymeA analysis reveals distinct nuclear metabolism
|
| Vacanti Nathaniel |
Proteome network regulation of metabolic fluxes
|
| Wallace Martina |
The non-essential amino acid, serine, is essential for retinal health
|
| Ward Mary |
Functional, gene-nutrient and health effects of sub-optimal riboflavin status.
|
| Weiß Jürgen |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Wellen Kathryn |
Sub-cellular acyl-CoenzymeA analysis reveals distinct nuclear metabolism
|
| Xiu Yuwen |
Uracil accumulation in mitochondrial DNA impairs oxidative phosphorylation
|
| Yilmaz Omer |
TBA - Yilmaz
|
| Zaharia Oana-Patricia |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
| Zhang Dongman |
The athlete’s paradox: disconnecting intramyocellular bioactive lipid content from insulin sensitivity in human skeletal muscle of trained individuals
|
