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Property:MiPNet keyword

From Bioblast

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Showing 143 pages using this property.
A
Mitochondrial physiology, [[High-resolution respirometry]]  +
FAHD1, senescence, aging, ''Mus musculus'', ''C. elegans''  +
[[High-resolution respirometry]], [[Oroboros O2k]], [[Gentle Science]]  +
transplantation, surgery, machine perfusion, organ regeneration, ischemia, reperfusion, cold storage, liver, kidney, heart, lung  +
avian biology - bird mitochondrial functions  +
Mitochondrial function and insulin resistance  +
B
Liver disease, mitochondrial disease and diagnostics  +
Muscle, Horse, Performance, Myopathy, Atypical myopathy in grazing horses  +
Comparative mitochondrial physiology  +
Heme metabolism, redox biochemistry, energy metabolism, mitochondrial function, Schistosoma mansoni  +
work with C elegans and D melanogaster models of neurodegeneration  +
C
Exercise, skeletal muscle, metabolism, diabetes, obesity  +
Toxicology, Metals, Hypoxia, Temperature  +
Hibernation, torpor, mitochondria  +
Signaling, phospho-proteomics, cannabinoids, brain metabolism, neurodegenerative diseases  +
Aging, exercise, nutrition, permeabilized muscle fibers, isolated mitochondria  +
Aging, permeabilized muscle fibers, isolated mitochondria  +
Drosophila, Temperature adaptation  +
Cold-induced thermogenesis, heat exposure, exercise, type 2 diabetes, sepsis, cardiomyopathy  +
Skeletal and respiratory muscles during critical illness  +
diabetes research, mitochondrially derived metabolic signaling molecules  +
autophagy and apoptosis in skeletal muscle  +
Neurodegenerative disease with focus on diabetes  +
Alzheimer's disease (AD)  +
Nutrient sensing, energy sensing and metabolic adaptation  +
Cellular mechanisms underpinning skeletal muscle adaptations to exercise, Calcium handling, Neuromuscular plasticity  +
Metabolic homeostasis, nutrient sensing, glucose metabolic flux, AMPK activation pathway, autophagy, obesity  +
Liver cells, Liver regeneration, Toxic liver injury ''in vivo'' and ''in vitro''  +
Natural substances (e.g. polyphenols) - influence on mitochondrial physiology and OXPHOS  +
Brain mitochondrial bioenergetics, effect of psychotropic drugs on mitochondrial bioenergetics, mitochondrial dysfunctions in mood disorders and in Alzheimer’s disease  +
[http://www.oroboros.at/index.php?id=mipnet-pecina_p COX deficiency]; [http://www.oroboros.at/index.php?id=mipnet-naimi_a fibroblasts]  +
Human skeletal, cardiac muscle, mitochondrial disorders and mitochondrial pharmacology.  +
Yeast, Ageing  +
Oxidative phosphorylation system  +
D
My research focuses on metabolic adaptations in relation to exercise and physical training, inactivity, cardiometabolic diseases, caloric restriction, and aging  +
mitochondrial function in brain aging, Alzheimer`s disease, mitochondrial function, ischemic stroke  +
Respiration and aging  +
Adipose Tissue Energy Metabolism  +
skeletal muscle metabolism and regeneration, mitohormesis, exercise, aging, obesity, mitochondrial myopathy, endocrine crosstalk, myokines, intermittent fasting, polyamines, spermidine, nutraceuticals  +
Mitochondrial signaling  +
Mitochondrial alterations after traumatic stress and in psychiatric disorders  +
E
Type 2 diabetes, energy metabolism, integrative physiology, exercise physiology  +
Melatonin, Mitochondria, Reactive oxygen species, Respiratory chain, ATP  +
hypoxia, ischaemic heart disease, nitric oxide, oxidative stress, uncoupling proteins (UCPs)  +
F
Drosophila, Aging, Mitochondria, Complex I, NADH  +
Cardiolipin, cytochrome c oxidase, OPA 1  +
Atrial fibrillation, sudden death, energetic metabolism, mitochondrial permeability transition pore  +
Mitochondria in ecophysiology, energy allocation, oxidative stress, ROS, ATP, fitness  +
H
Hydrogen peroxide, Synaptosomes, Guinea pigs, Mitochondrion, Reactive oxygen species, Oxidative stress  +
I
Neuropathology, Oxidative stress  +
Aging, Cenorhabditis elegans  +
diabetes, heart, alzheimer's disease, autophagy  +
Mitochondria, cells, oxygen consumption, membrane potential, proton efflux  +
mitochondrial carriers, metabolism, yeast, boenergetics, neuromuscular disorders  +
Cancer Cells, Bioenergetics, Metabolic reprogramming, mitochondria  +
Cancer cells and mitochondria  +
[https://chokoage.eu/ Chokoage European project] and [https://clinicaltrials.gov/ct2/results?cond=Frailty&term=SAFE&cntry=IT&state=&city=Verona&dist= SAFE clinical trial]  +
K
Mitochondria Physiology, Heart Disease, Metabolic Syndrome  +
L
Neuropharmacology, Alzheimer's' and Parkinson's disease research, stroke research  +
N
Bio-energetics, heart failure, cardiac muscle, skeletal muscle, oxidative stress  +
Insulin resistance, obesity, fatty acids  +
Bio-energetics, skeletal muscle, cardiac muscle, metabolomics  +
Inborn errors of metabolism  +
Cellular and molecular cardiology, ischemic heart disease, Exercise medicine  +
Hypoxia, Thermal limits on life, Heart disease, Ocean acidification, Spectroscopy, Reactive oxygen species, Oxidative stress  +
Our research group is the world expert in cardiac energetics, where we build experimental devices for measuring energy cardiac energy utilisation in performing mechanical work at whole heart and tissue levels. We also investigate the efficiency of energy production by mitochondria to provide a more comprehensive understanding of fundamental physiology and pathophysiology at multiple spatial scales.  +
P
Mitochondria, ROS, Cholesterol, mitochondrial contact sites, exercise, nutrition, dystrophy  +
R
PDH-deficiency, Alpers syndrome, Leigh syndrome, mitochondrial DNA depletion syndromes  +
S
Brain injury and regeneration - experimental studies and mechanisms  +
Mitochondrial permeability transition, complex I disorders, diagnostics (blood cell and muscle fibers) and pharmacological intervention  +
mitochondrial epigenetics  +
Diabetes, kidney  +
T
mitochondrial myopathy, reactive oxygen species, mitochondrial stress signaling  +
U
Stress, Parkinson's Disease, Apoptosis, Mitochondrial Signalling  +
Hypoxia, high altitude, heart failure, skeletal muscle, placenta  +
metabolism, placenta, fetus, obesity, nutrition, hypoxia  +
obesity, diabetes, metabolism  +
huntington’s disease, parkinson’s disease  +
Nitric oxide, skeletal muscle, exercise physiology, human nutrition  +
ageing, exercise and neurodegeneration  +
Skeletal muscle metabolism in health, ageing and disease  +
Cardio-oncology, namely in the side effects of chemotherapy on the heart. Particularly interested in how different classes of chemotherapeutics affect cardiac metabolism and energetics, and how cardioprotective agents may interfere with, or potentiate, anti-cancer action of chemotherapeutics.Use the O2k for HRR of cardiac muscle fibres, isolated cardiac mitochondria, tumour homogenates and cardiomyocytes and cancer cells. Have collaborations in neuropharmacology and are happy to discuss potential collaborations across disciplines  +
mitigation of metabolic stress in clinical conditions: obesity, diabetes, sarcopenia and alcohol abuse  +
Mitochondrial function in cold-bodied fishes  +
Diabetes, Obesity, Mitochondrial Physiology, Nutritional Bioenergetics, Redox Biology  +
Mitochondrial diseases, Stem Cells, Respiration  +
mitochondrial function in CNS and PNS during diabetes, chemotherapy and HIV-induced neuropathy  +
mt-Medicine, Breast cancer  +
Muscle physiology, Hypoxia  +
Exercise physiology, obesity  +
exercise, insulin resistance, diabetes, mitochondrial function and biogenesis  +
Sleep and circadian rhythms, metabolism, impact of sleep and circadian disruption on mitochondrial function  +
Human bioenergetics in health and disease; Human Performance; Environmental effects on biological thermodynamics (emphasis on hypoxia/high altitude); and Aging  +
Cardiometabolic disease, environmental stresss, cardiolipin, comparative biochemistry  +
aging, mitochondrial biogenesis, proteostasis, oxidative stress, energetic stress, comparative models, rapamycin, metformin, skeletal and cardiac muscle  +
aging, mitochondrial biogenesis, proteostasis, oxidative stress, energetic stress, comparative models, rapamycin, metformin, skeletal and cardiac muscle  +
Aging, Free Radicals, Oxidative Stress, Vascular function, Mitochondrial-targeted antioxidant (MitoQ), Mitochondrial quality control  +
Aging, permeabilized muscle fibers, isolated mitochondria  +
Autophagy and mitochondrial function, skeletal and heart muscle  +
Tumorigenesis  +
Mitochondria, Muscle, Aging, Obesity, Exercise  +
Obesity, T2 Diabetes  +
obesity, insulin resistance, exercise, fat oxidation, skeletal muscle  +
Dr. Morris investigates how the susceptibility to diet-induced weight gain is mediated by systemic and peripheral energy metabolism through the modulation of the neural centers regulating energy intake and expenditure. His work centers on how the function of the primary energy producing cellular bodies, mitochondria, can impact tissue function and ultimately systemic health. Currently, the lab is investigating: 1) how liver mitochondrial function can, through neural pathways to the brain, influence high fat diet-induced weight, 2) how systemic energy expenditure serves as an independent regulator of weight gain and adiposity, and 3) whether transcriptional control of mitochondria in the ventromedial hypothalamus is necessary for susceptibility to weight gain.  +
Alzheimer’s Disease, brain bioenergetics  +
Comparative physiology and biochemistry, animal bioenergetics, adaptations to anoxia and water stress, mitochondria physiology, Late embryogenesis Abundant (LEA) proteins  +
Aging, Diabetes, Exercise, Muscle, Inflammation  +
Bioenergetics of neurons and cerebral microvasculature  +
[[PBI-Shredder_O2k-Set|PBI-Shredder]], Calcium transport, permeability transition, and multichannel (multiparameter)  +
Mitochondrial dysfunction, free radical homeostasis, mitochondrial permeability transition, mitochondrial metabolism  +
Mitochondrial deoxynucleotide metabolism and mitochondrial DNA depletion disease, ovarian cancer metabolism, nicotinamide nucleotide transhydrogenase (NNT) and Type II diabetes  +
heart failure, diabetes, and fatty liver disease  +
Exercise, Heart Failure, Ketones, Lipid Oxidation, Metabolomics  +
Cerebral ischemia, Nutrition, Mitochondrial biogenesis  +
Diabetes, Obesity, Insulin resistance, Exercise, Fat oxidation, Skeletal muscle  +
aging, sarcopenia, ROS  +
Mitochondrial dysfunction in Bipolar disorder, Creatine Transporter deficiency  +
Exercise Physiology, Respiratory Physiology, Hypoxia  +
Exercise, insulin resistance, obesity, humans, mouse model  +
Aging, diabetes, NASH, NAFLD, exercise  +
NAD, Sirtuins, Metabolic flux  +
Respiratory OXPHOS disease  +
Mitochondrial Bioenergetic in Emergency Medicine and Medical Toxicology  +
[[PBI-Shredder_O2k-Set|PBI-Shredder]]  +
diabetes, obesity, energy metabolism, muscle physiology, electron microscopy  +
fatty acid oxidation, post-translational modifications, sirtuins, lung metabolism, cancer metabolism  +
Mitochondria, Muscle, Aging, Obesity, Exercise  +
Mitochondrial disease models  +
Fetal programming, Efficiency of energy utilization in beef cattle  +
muscle energetics in performance horses, impact of skeletal muscle energetics on beef cattle production, and mitochondrial dysfunction in aging  +
Endothermy, avian, reptile, cardiac, skeletal, liver, hypoxia  +
Skeletal muscle respiration, burned children  +
Skeletal muscle respiration, burned children  +
Human muscle metabolism, cancer, aging  +
Skeletal muscle, Oxidative stress, Peripheral Artery Disase  +
Sphingolipids, Insulin resistance, Mitochondrial physiology, Environmental toxins  +
Mitochondrial diseases, Gene therapy  +
Mitochondrial diseases, Stem Cells, Respiration  +
Muscle force transducer  +
Mitochondrial bioenergetics and Ca2+-ROS homeostasis, Cardiac metabolism, Cardiac ischemia-reperfusion injury, Mathematical modeling  +