Property:MiPNet keyword
From Bioblast
This is a property of type String.
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 +
Liver cells +
hypoxia, ischaemic heart disease, nitric oxide, oxidative stress, uncoupling proteins (UCPs) +
F
Drosophila, Aging, Mitochondria, Complex I, NADH +
Yeast +
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 +
