Add to ORKGMitochondria are the primary energy-generating system in most eukaryotic cells. Additionally, they participate in intermediary metabolism, calcium signaling, and apoptosis. Given these well-established functions, it might be expected that mitochondrial dysfunction would give rise to a simple and predictable set of defects in all tissues. However, mitochondrial dysfunction has pleiotropic effects in multicellular organisms. Clearly, much about the basic biology of mitochondria remains to be understood. Here we discuss recent work that suggests that the dynamics (fusion and fission) of these organelles is important in development and disease
AbstractMitochondria are highly dynamic organelles. Frequent cycles of fusion and fission adapt the ...
The mitochondria is the major hub to convert energy for cellular processes. Dysregulation of mitocho...
Mitochondria are very versatile organelles in continuous fusion and fission processes in response to...
Mitochondria are the primary energy-generating system in most eukaryotic cells. Additionally, they p...
Mitochondria are the primary energy-generating system in most eukaryotic cells. Additionally, they p...
This chapter discusses the role of mitochondria dynamics in mammalian mitochondrial morphology, mito...
This chapter discusses the role of mitochondria dynamics in mammalian mitochondrial morphology, mito...
The dynamic properties of mitochondria—including their fusion, fission, and degradation—are critical...
Mitochondria are organelles with vital functions in almost all eukaryotic cells. Often described as ...
Mitochondria are membrane bound organelles present in almost all eukaryotic cells. Responsible for o...
The historical role of mitochondria resides in converting the energy released during the oxidation o...
The historical role of mitochondria resides in converting the energy released during the oxidation o...
Mitochondria are highly dynamic organelles that continuously change their shape. Their main function...
Mitochondria are subcellular organelles evolved by the endosymbiosis of bacteria with eukaryotic cel...
The mitochondria is the major hub to convert energy for cellular processes. Dysregulation of mitocho...
AbstractMitochondria are highly dynamic organelles. Frequent cycles of fusion and fission adapt the ...
The mitochondria is the major hub to convert energy for cellular processes. Dysregulation of mitocho...
Mitochondria are very versatile organelles in continuous fusion and fission processes in response to...
Mitochondria are the primary energy-generating system in most eukaryotic cells. Additionally, they p...
Mitochondria are the primary energy-generating system in most eukaryotic cells. Additionally, they p...
This chapter discusses the role of mitochondria dynamics in mammalian mitochondrial morphology, mito...
This chapter discusses the role of mitochondria dynamics in mammalian mitochondrial morphology, mito...
The dynamic properties of mitochondria—including their fusion, fission, and degradation—are critical...
Mitochondria are organelles with vital functions in almost all eukaryotic cells. Often described as ...
Mitochondria are membrane bound organelles present in almost all eukaryotic cells. Responsible for o...
The historical role of mitochondria resides in converting the energy released during the oxidation o...
The historical role of mitochondria resides in converting the energy released during the oxidation o...
Mitochondria are highly dynamic organelles that continuously change their shape. Their main function...
Mitochondria are subcellular organelles evolved by the endosymbiosis of bacteria with eukaryotic cel...
The mitochondria is the major hub to convert energy for cellular processes. Dysregulation of mitocho...
AbstractMitochondria are highly dynamic organelles. Frequent cycles of fusion and fission adapt the ...
The mitochondria is the major hub to convert energy for cellular processes. Dysregulation of mitocho...
Mitochondria are very versatile organelles in continuous fusion and fission processes in response to...