1. Neuroscience

Frequency- and spike-timing-dependent mitochondrial Ca2+ signaling regulates the metabolic rate and synaptic efficacy in cortical

  1. Ohad Stoler
  2. Alexandra Stavsky
  3. Yana Khrapunsky
  4. Israel Melamed
  5. Grace E Stutzmann
  6. Daniel Gitler
  7. Israel Sekler  Is a corresponding author
  8. Ilya Fleidervish  Is a corresponding author
  1. Ben Gurion University of the Negev, Israel
  2. Rosalind Franklin University of Medicine and Science, United States
https://doi.org/10.7554/eLife.74606
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  1. Ohad Stoler
  2. Alexandra Stavsky
  3. Yana Khrapunsky
  4. Israel Melamed
  5. Grace E Stutzmann
  6. Daniel Gitler
  7. Israel Sekler
  8. Ilya Fleidervish
(2022)
Frequency- and spike-timing-dependent mitochondrial Ca2+ signaling regulates the metabolic rate and synaptic efficacy in cortical
eLife 11:e74606.
https://doi.org/10.7554/eLife.74606
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  1. Ohad Stoler
  2. Alexandra Stavsky
  3. Yana Khrapunsky
  4. Israel Melamed
  5. Grace E Stutzmann
  6. Daniel Gitler
  7. Israel Sekler
  8. Ilya Fleidervish
(2022)
Frequency- and spike-timing-dependent mitochondrial Ca2+ signaling regulates the metabolic rate and synaptic efficacy in cortical
eLife 11:e74606.
https://doi.org/10.7554/eLife.74606