Oxygen radicals shaping evolution: Why fatty acid catabolism leads to peroxisomes while neurons do without it
about
Why does brain metabolism not favor burning of fatty acids to provide energy? Reflections on disadvantages of the use of free fatty acids as fuel for brainMitonuclear interactions: evolutionary consequences over multiple biological scalesDoes constructive neutral evolution play an important role in the origin of cellular complexity? Making sense of the origins and uses of biological complexitySex is a ubiquitous, ancient, and inherent attribute of eukaryotic lifeRanbp2 haploinsufficiency mediates distinct cellular and biochemical phenotypes in brain and retinal dopaminergic and glia cells elicited by the Parkinsonian neurotoxin, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP).Within species support for the expensive tissue hypothesis: a negative association between brain size and visceral fat storage in females of the Pacific seaweed pipefish.Mitochondrial respiratory-chain adaptations in macrophages contribute to antibacterial host defense.How to deal with oxygen radicals stemming from mitochondrial fatty acid oxidation.Peroxisome-mitochondria interplay and disease.Evolution of peroxisomes illustrates symbiogenesis.Revisiting the link between breeding effort and oxidative balance through field evaluation of two sympatric sibling insect species.Innate Immune Function of Mitochondrial MetabolismWhat can we infer about the origin of sex in early eukaryotes?Evolutionary considerations on the origin of peroxisomes from the endoplasmic reticulum, and their relationships with mitochondria.In defence of the three-domains of life paradigm.Distribution and Evolution of Peroxisomes in Alveolates (Apicomplexa, Dinoflagellates, Ciliates).Alternating terminal electron-acceptors at the basis of symbiogenesis: How oxygen ignited eukaryotic evolution.Inhibition of β-oxidation is not a valid therapeutic tool for reducing oxidative stress in conditions of neurodegeneration.Birth of the eukaryotes by a set of reactive innovations: New insights force us to relinquish gradual models.The evolution of eukaryotic cells from the perspective of peroxisomes: phylogenetic analyses of peroxisomal beta-oxidation enzymes support mitochondria-first models of eukaryotic cell evolution.How the mitochondrion was shaped by radical differences in substrates: what carnitine shuttles and uncoupling tell us about mitochondrial evolution in response to ROS.Unmiraculous? Yes. Ancient? Probably not. (Response to DOI 10.1002/bies.201700041).FAM13A, A Fatty Acid Oxidation Switch in Mitochondria. Friend or Foe in Chronic Obstructive Pulmonary Disease Pathogenesis?
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P2860
Oxygen radicals shaping evolution: Why fatty acid catabolism leads to peroxisomes while neurons do without it
description
im Februar 2011 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 01 February 2011
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в грудні 2010
@uk
name
Oxygen radicals shaping evolut ...... es while neurons do without it
@en
Oxygen radicals shaping evolut ...... es while neurons do without it
@nl
type
label
Oxygen radicals shaping evolut ...... es while neurons do without it
@en
Oxygen radicals shaping evolut ...... es while neurons do without it
@nl
prefLabel
Oxygen radicals shaping evolut ...... es while neurons do without it
@en
Oxygen radicals shaping evolut ...... es while neurons do without it
@nl
P2860
P356
P1433
P1476
Oxygen radicals shaping evolut ...... tabolic tissue differentiation
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P2860
P356
10.1002/BIES.201000097
P407
P50
P577
2011-02-01T00:00:00Z