Pages that link to "Q48951479"
Jump to navigation
Jump to search
The following pages link to Is the function of dendritic spines to concentrate calcium? (Q48951479):
Displaying 31 items.
- Adducin is an in vivo substrate for protein kinase C: phosphorylation in the MARCKS-related domain inhibits activity in promoting spectrin-actin complexes and occurs in many cells, including dendritic spines of neurons (Q24682526) (← links)
- The effect of noise on CaMKII activation in a dendritic spine during LTP induction (Q33783785) (← links)
- Dendritic Spines and Distributed Circuits (Q33810278) (← links)
- From form to function: calcium compartmentalization in dendritic spines (Q33906526) (← links)
- Assessment of frequency-dependent alterations in the level of extracellular Ca2 in the synaptic cleft (Q33915409) (← links)
- Activity-dependent dendritic spine neck changes are correlated with synaptic strength (Q33928631) (← links)
- Ca(2 ) signaling in dendritic spines (Q34278072) (← links)
- Dendritic spine dysgenesis contributes to hyperreflexia after spinal cord injury (Q35138438) (← links)
- A model of dendritic spine Ca2 concentration exploring possible bases for a sliding synaptic modification threshold (Q35206458) (← links)
- The role of postsynaptic calcium in the induction of long-term potentiation (Q36472942) (← links)
- Dendritic spine remodeling following early and late Rac1 inhibition after spinal cord injury: evidence for a pain biomarker (Q37042031) (← links)
- Hybrid stochastic simulations of intracellular reaction-diffusion systems (Q37219936) (← links)
- Possible role for calmodulin and the Ca2 /calmodulin-dependent protein kinase II in postsynaptic neurotransmission (Q37533529) (← links)
- BA11 FKBP5 expression levels correlate with dendritic spine density in postmortem PTSD and controls (Q40025113) (← links)
- Mitral cell dendrites: a comparative approach (Q40660346) (← links)
- Postsynaptic signal transduction models for long-term potentiation and depression (Q41331576) (← links)
- Calcium Messenger Heterogeneity: A Possible Signal for Spike Timing-Dependent Plasticity (Q42576076) (← links)
- The life cycle of Ca(2 ) ions in dendritic spines. (Q43879113) (← links)
- The role of dendritic spine morphology in the compartmentalization and delivery of surface receptors (Q44417900) (← links)
- Comparison of hippocampal dendritic spines in culture and in brain. (Q45993656) (← links)
- Electrical consequences of spine dimensions in a model of a cortical spiny stellate cell completely reconstructed from serial thin sections (Q47921151) (← links)
- Structural changes in dendritic loci and protective effect of neurotrophic factors from the cerebral cortex of animals with favorable outcome of experimental hemorrhagic stroke (Q48204672) (← links)
- Quantifying the Role of Inhibition in Associative Long-Term Potentiation in Dentate Granule Cells With Computational Models (Q48668541) (← links)
- Defining a minimal computational unit for cerebellar long-term depression (Q48956006) (← links)
- Active dendrites regulate the spatiotemporal spread of signaling microdomains (Q58084792) (← links)
- Relationships between the morphology and function of gastric- and intestine-sensitive neurons in the nucleus of the solitary tract (Q71196361) (← links)
- Regulation of spine calcium dynamics by rapid spine motility (Q73168260) (← links)
- Models of calmodulin trapping and CaM kinase II activation in a dendritic spine (Q73751392) (← links)
- Therapeutic potential of Pak1 inhibition for pain associated with cutaneous burn injury (Q89340977) (← links)
- Dendritic spine geometry and spine apparatus organization govern the spatiotemporal dynamics of calcium (Q92033485) (← links)
- Spinal cord motor neuron plasticity accompanies second-degree burn injury and chronic pain (Q92139762) (← links)