43 results on '"Brancaccio, Marco"'
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2. The circadian clock time tunes axonal regeneration
3. Astrocyte Circadian Timekeeping in Brain Health and Neurodegeneration
4. Bmal1 integrates circadian function and temperature sensing in the suprachiasmatic nucleus
5. Circadian Timekeeping in the Suprachiasmatic Nucleus: Genes, Neurotransmitters, Neurons, and Astrocytes
6. Translational switching of Cry1 protein expression confers reversible control of circadian behavior in arrhythmic Cry-deficient mice
7. Astrocyte Circadian Timekeeping in Brain Health and Neurodegeneration
8. The circadian clock is a pacemaker of the axonal regenerative ability
9. Circadian Rhythms and Astrocytes: The Good, the Bad, and the Ugly
10. Circadian Timekeeping in the Suprachiasmatic Nucleus: Genes, Neurotransmitters, Neurons, and Astrocytes
11. The VIP-VPAC2 neuropeptidergic axis is a cellular pacemaking hub of the suprachiasmatic nucleus circadian circuit
12. Generation of circadian rhythms in the suprachiasmatic nucleus
13. Rhythmic expression of cryptochrome induces the circadian clock of arrhythmic suprachiasmatic nuclei through arginine vasopressin signaling
14. Glia-neuron interplay drives circadian glycosphingolipid homeostasis and structural brain plasticity
15. Analysis of core circadian feedback loop in suprachiasmatic nucleus of mCry1-luc transgenic reporter mouse
16. L'austerità è di destra
17. A spatio-temporal model to reveal oscillator phenotypes in molecular clocks: Parameter estimation elucidates circadian gene transcription dynamics in single-cells
18. The Mammalian Circadian Timing System and the Suprachiasmatic Nucleus as Its Pacemaker
19. Cell-autonomous clock of astrocytes drives circadian behavior in mammals
20. Filtering and inference for stochastic oscillators with distributed delays
21. Astrocytes Control Circadian Timekeeping in the Suprachiasmatic Nucleus via Glutamatergic Signaling
22. In-depth Characterization of Firefly Luciferase as a Reporter of Circadian Gene Expression in Mammalian Cells
23. Filtering and inference for stochastic oscillators with distributed delays.
24. CIRCADIAN TIMEKEEPING IN GLIA IN BRAIN HEALTH AND DISEASE.
25. The Regulatory Factor ZFHX3 Modifies Circadian Function in SCN via an AT Motif-Driven Axis
26. Emx2 and Foxg1 inhibit gliogenesis and promote neurogenesis
27. Network-Mediated Encoding of Circadian Time: The Suprachiasmatic Nucleus (SCN) from Genes to Neurons to Circuits, and Back
28. A Gq-Ca2+ Axis Controls Circuit-Level Encoding of Circadian Time in the Suprachiasmatic Nucleus
29. Emx2 and Foxg1 Inhibit Gliogenesis and Promote Neuronogenesis
30. Analysis of core circadian feedback ioop in suprachiasmatic nucleus of mCry1-Iuc transgenic reporter mouse.
31. A Gq-Ca2+ Axis Controls Circuit-Level Encoding of Circadian Time in the Suprachiasmatic Nucleus.
32. Circadian Rhythms in Mood Disorders
33. Brain Clocks, Sleep, and Mood
34. Circadian Clocks, Sleep, and Metabolism
35. How Psychoactive Drugs and the Circadian Clock Are Enlightening One Another
36. The Reciprocal Interaction Between Sleep and Alzheimer’s Disease
37. The Role of the Circadian System in Attention Deficit Hyperactivity Disorder
38. The Brain’s Reward System in Health and Disease
39. Linking Depression to Epigenetics: Role of the Circadian Clock
40. Introduction to the Clock System
41. A spatio-temporal model to reveal oscillator phenotypes in molecular clocks : parameter estimation elucidates circadian gene transcription dynamics in single-cells
42. Circadian Clocks, Sleep, and Metabolism
43. The VIP-VPAC2 neuropeptidergic axis is a cellular pacemaking hub of the suprachiasmatic nucleus circadian circuit
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