Neurobiology: Ionic Channels, Neurons and the Brain

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Loading history determines the velocity of actin-network growth.

2-Minute Neuroscience: Receptors & Ligands

Nature Cell Biol. Kosztin, I. Mechanical force generation by G proteins. USA 99 , — Schliwa, M. Molecular motors.

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Nature , — Smith, S. Neuronal cytomechanics: the actin-based motility of growth cones. Betz, T. Growth cones as soft and weak force generators. Chan, C. Traction dynamics of filopodia on compliant substrates. This paper provides a quantitative description of a 'motor-clutch' model in which retrograde F-actin flow can differentially generate traction forces in growth cones of neurons.


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Matus, A. Actin-based plasticity in dendritic spines. Gao, Y. Nestor, M. Komada, M. Cell Biol.


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Devaux, J. Desai, A. Microtubule polymerization dynamics.


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Cell Dev. Odde, D. Microtubule bending and breaking in living fibroblast cells. Cell Sci.

Illuminating neural pathways in the living brain | Max Planck Institute of Neurobiology

This paper describes the elastic energy stored in microtubules as they are bent. Dogterom, M. Measurement of the force-velocity relation for growing microtubules. This article provides a quantitative description of the mechanical forces generated by growing microtubules. Svoboda, K. Force and velocity measured for single kinesin molecules. Cell 77 , — Visscher, K. Single kinesin molecules studied with a molecular force clamp. Brangwynne, C. Microtubules can bear enhanced compressive loads in living cells because of lateral reinforcement. Hu, X. Activity-dependent dynamic microtubule invasion of dendritic spines.

This article provides evidence that microtubules can affect hippocampal and cortical dendritic spines in an activity-dependent manner. Jaworski, J.

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Dynamic microtubules regulate dendritic spine morphology and synaptic plasticity. Neuron 61 , 85— Lee, M. Neuronal intermediate filaments. Mukhopadhyay, R. Molecular mechanisms for organizing the neuronal cytoskeleton. Bioessays 26 , — Geisler, N.

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Self-assembly in vitro of the 68, molecular weight component of the mammalian neurofilament triplet proteins into intermediate-sized filaments. Brown, H.

References

Entropic exclusion by neurofilament sidearms: a mechanism for maintaining interfilament spacing. Biochemistry 36 , — Pekny, M. Intermediate filaments and stress. Cell Res. Cleveland, D. Involvement of neurofilaments in the radial growth of axons. Kumar, S. Role of long-range repulsive forces in organizing axonal neurofilament distributions: evidence from mice deficient in myelin-associated glycoprotein. Leterrier, J. Mechanical effects of neurofilament cross-bridges. Modulation by phosphorylation, lipids, and interactions with F-actin. Dityatev, A. The dual role of the extracellular matrix in synaptic plasticity and homeostasis.

laypobifo.cf Nature Rev. Extracellular matrix in plasticity and epileptogenesis. Neuron Glia Biol. Pantazopoulos, H. Extracellular matrix-glial abnormalities in the amygdala and entorhinal cortex of subjects diagnosed with schizophrenia. Psychiatry 67 , — Thoumine, O. Short-term binding of fibroblasts to fibronectin: optical tweezers experiments and probabilistic analysis.

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Chavis, P. Integrins mediate functional pre- and postsynaptic maturation at a hippocampal synapse. Baumgartner, W. Mendez, P. N-cadherin mediates plasticity-induced long-term spine stabilization. Arikkath, J. Cadherins and catenins at synapses: roles in synaptogenesis and synaptic plasticity. Arnadottir, J. Eukaryotic mechanosensitive channels. Reeves, D. Membrane mechanics as a probe of ion-channel gating mechanisms.

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