| 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 |
Prenatal Folate Status Influences Hematopoietic Stem Cell Function Across the Lifespan
Defining developmental origins of health and disease: a (hematopoietic) stem cell perspective
|
| 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 |
SHMT1 and the etiology of folate-responsive neural tube defects
Plasma and urinary erythritol are increased in response to excess dietary sucrose
Increased Mitochondrial TYMS Localization Improves Mitochondrial Function
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
|
| 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 |
The non-essential amino acid, serine, is essential for retinal health
Understanding the rewiring of metabolism during aging and chronic nutrient stress
|
| 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 |
The non-essential amino acid, serine, is essential for retinal health
Understanding the rewiring of metabolism during aging and chronic nutrient stress
|
| 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 |
Exposure to excess dietary folic acid does not affect tissue folic acid accumulation in a mouse model of vitamin B12 deficiency
Uracil accumulation in mitochondrial DNA impairs oxidative phosphorylation
|
| 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
|
