Neuroscientist at the Paris Brain Institute / www.dejuansanzlab.org / ERC / FENS-Kavli Scholar / Young Academy of Spain / CNRS
Jaime de Juan-Sanz
Loading...
And forgot to say we made all tools available at @addgene.bsky.social at www.addgene.org/browse/artic... including our new low affinity MitoGCaMP for in vivo fly measurements of mitochondrial Ca2+!
Can we make brains “smarter”? By boosting mitochondrial metabolism in neurons of memory circuits, we improved memory in flies and mice. Thrilled to see this work out - congrats to @amrapalianjali.bsky.social for spectacular work, and to all lab members for invaluable contributions!
Can we make brains “smarter”? By boosting mitochondrial metabolism in neurons of memory circuits, we improved memory in flies and mice. Thrilled to see this work out - congrats to @amrapalianjali.bsky.social for spectacular work, and to all lab members for invaluable contributions!
And fun to ready the commentary by the Misgeld lab - thanks for highlighting our work! www.nature.com/articles/s42...
Exciting new tool for the study of mitochondrial metabolism! Thank you @jdejuan-sanz.bsky.social for sharing your plasmids.
Can we make brains “smarter”? By boosting mitochondrial metabolism in neurons of memory circuits, we improved memory in flies and mice. Thrilled to see this work out - congrats to @amrapalianjali.bsky.social for spectacular work, and to all lab members for invaluable contributions!
Jaime de Juan-Sanz
📢Convocatoria 2026 de 10 plazas para la @academiajoven.bsky.social
➡️Plazo de inscripción abierto hasta el 28 de febrero (improrrogable)
Más información en: academiajoven.es
👉[email protected]
Calcium entry into mitochondria couples neuronal activity to energy supply, but whether boosting this drive can enhance brain function has remained unclear. Vishwanath et al. now demonstrate that tuni...
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-025-01448-xCalcium entry into mitochondria couples neuronal activity to energy supply, but whether boosting this drive can enhance brain function has remained unclear. Vishwanath et al. now demonstrate that tuning mitochondrial calcium extrusion enhances ATP production and improves cognitive performance in flies and mice, paving the way for a new paradigm of systems neurometabolism.
Can we make brains “smarter”? By boosting mitochondrial metabolism in neurons of memory circuits, we improved memory in flies and mice. Thrilled to see this work out - congrats to @amrapalianjali.bsky.social for spectacular work, and to all lab members for invaluable contributions!
Jaime de Juan-Sanz
And forgot to say we made all tools available at @addgene.bsky.social at www.addgene.org/browse/artic... including our new low affinity MitoGCaMP for in vivo fly measurements of mitochondrial Ca2+!
Nature Metabolism
Y tú ¿Qué quieres ser de mayor?
La @academiajoven.bsky.social lucha para que ninguna niña deje de soñar, imaginar, de innovar, Y ESTIMULA la curiosidad CIENTÍFICA y el interés por aprender de las niñas y las jóvenes.
¡Que todas las MUJERES puedan SEGUIR SUS VOCACIONES CIENTÍFICAS!
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-026-01451-wBoosting mitochondrial metabolism in neurons in central memory circuits by enhancing Ca2+ retention in the mitochondrial matrix is shown to improve long-term memory formation in flies and mice.
dlvr.it
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-026-01451-wBoosting mitochondrial metabolism in neurons in central memory circuits by enhancing Ca2+ retention in the mitochondrial matrix is shown to improve long-term memory formation in flies and mice.
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-026-01451-wBoosting mitochondrial metabolism in neurons in central memory circuits by enhancing Ca2+ retention in the mitochondrial matrix is shown to improve long-term memory formation in flies and mice.
The new Cajal Center is opening 8 CSIC permanent research positions (CT, IC & PF levels) via national competitive exams. We welcome candidates eager to shape an ambitious 🧠 research hub in Spain.
🔗 sede.csic.gob.es/tramites/con... 📣
#Neuroscience #CNC #CSIC #ScienceJobs 👇🏼
Jaime de Juan-Sanz
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-026-01451-wBoosting mitochondrial metabolism in neurons in central memory circuits by enhancing Ca2+ retention in the mitochondrial matrix is shown to improve long-term memory formation in flies and mice.
Can we make brains “smarter”? By boosting mitochondrial metabolism in neurons of memory circuits, we improved memory in flies and mice. Thrilled to see this work out - congrats to @amrapalianjali.bsky.social for spectacular work, and to all lab members for invaluable contributions!
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-026-01451-wBoosting mitochondrial metabolism in neurons in central memory circuits by enhancing Ca2+ retention in the mitochondrial matrix is shown to improve long-term memory formation in flies and mice.
Nature Metabolism, Published online: 11 February 2026; doi:10.1038/s42255-026-01451-wBoosting mitochondrial metabolism in neurons in central memory circuits by enhancing Ca2+ retention in the mitochondrial matrix is shown to improve long-term memory formation in flies and mice.
