Genur.art

cluster, networked mitochondrion, mitochondria, intra cellular biology, molecular energetic atomic reconstruction, photography of, charged electron torus vortex of plasma energy, splitting nuclei, adding:removing protons, dipolar charge separation, cellular biology photo of pulsing plasma during energy capture, multidimensional, depth of field, superposition, Mitochondria are usually depicted as stiff, elongated cylinders with a diameter of 0.5–1 μm, resembling bacteria. Time-lapse microcinematography of living cells, however, shows that mitochondria are remarkably mobile and plastic organelles, constantly changing their shape, and even fusing with one another and then separating again. As they move about in the cytoplasm, they often seem to be associated with microtubules, which can determine the unique orientation and distribution of mitochondria in different types of cells. Thus, the mitochondria in some cells form long moving filaments or chains. In others they remain fixed in one position where they provide ATP directly to a site of unusually high ATP consumption—packed between adjacent myofibrils in a cardiac muscle cell, for example, or wrapped tightly around the flagellum in a sperm.