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Brain as a Mitochondrial Magnetotactic Colony

Brain as a Mitochondrial Magnetotactic ColonyBy Ravikumar Kurup
About Brain as a Mitochondrial Magnetotactic Colony

Mitochondria is proteobacteria and could have evolved from a magnetotactic bacteria. It has its own bacterial DNA and can undergo fission and fusion and form a colony outside the cell. The brain has an extracellular mitochondrial network which is perceptive and magnetotactic and controls brain function. The mitochondrial clusters are seen in nerve endings and are important in neurotransmitter release from the presynaptic neuron. The free mitochondrial network in the brain acts like a bacterial colony and controls brain function and neurotransmission. Iron-sulphur centres and flavoproteins of the mitochondria are capable of magnetoperception and making the mitochondria magnetotaxic. A free archaeal colony also inhabits the brain as endosymbiotic archaea. The archaea is capable of magnetoperception and magnetotaxis. This magnetotactic and magnetoperceptive mitochondrial and archaeal colony is regulated by the earth¿s geomagnetic field and the intergalactic magnetic fields.

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  • Language:
  • English
  • ISBN:
  • 9786206156222
  • Binding:
  • Paperback
  • Pages:
  • 416
  • Published:
  • April 10, 2023
  • Dimensions:
  • 150x25x220 mm.
  • Weight:
  • 637 g.
Delivery: 1-2 weeks
Expected delivery: December 6, 2024

Description of Brain as a Mitochondrial Magnetotactic Colony

Mitochondria is proteobacteria and could have evolved from a magnetotactic bacteria. It has its own bacterial DNA and can undergo fission and fusion and form a colony outside the cell. The brain has an extracellular mitochondrial network which is perceptive and magnetotactic and controls brain function. The mitochondrial clusters are seen in nerve endings and are important in neurotransmitter release from the presynaptic neuron. The free mitochondrial network in the brain acts like a bacterial colony and controls brain function and neurotransmission. Iron-sulphur centres and flavoproteins of the mitochondria are capable of magnetoperception and making the mitochondria magnetotaxic. A free archaeal colony also inhabits the brain as endosymbiotic archaea. The archaea is capable of magnetoperception and magnetotaxis. This magnetotactic and magnetoperceptive mitochondrial and archaeal colony is regulated by the earth¿s geomagnetic field and the intergalactic magnetic fields.

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