Neurobiology: Ionic Channels, Neurons and the Brain

Free download. Book file PDF easily for everyone and every device. You can download and read online Neurobiology: Ionic Channels, Neurons and the Brain file PDF Book only if you are registered here. And also you can download or read online all Book PDF file that related with Neurobiology: Ionic Channels, Neurons and the Brain book. Happy reading Neurobiology: Ionic Channels, Neurons and the Brain Bookeveryone. Download file Free Book PDF Neurobiology: Ionic Channels, Neurons and the Brain at Complete PDF Library. This Book have some digital formats such us :paperbook, ebook, kindle, epub, fb2 and another formats. Here is The CompletePDF Book Library. It's free to register here to get Book file PDF Neurobiology: Ionic Channels, Neurons and the Brain Pocket Guide.

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.

Bruce Bean

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.

  • Indira M. Raman.
  • Source: The Inner Path of Knowledge Creation by Joseph Jaworski.
  • Indira M. Raman: Department of Neurobiology - Northwestern University.
  • Frontiers | Ion channels to inactivate neurons in Drosophila | Frontiers in Molecular Neuroscience!
  • Practical Composition: Exercises for the English Classroom from Working Instructors.

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

  • Emotionomics: Leveraging Emotions for Business Success;
  • Beyond Therapy v. Enhancement.
  • Notes On The Topology Of Complex Singularities.
  • Learning Objectives.
  • Semi-Autonomous Networks: Effective Control of Networked Systems through Protocols, Design, and Modeling.
  • Neurobiology;
  • Epic 3: Hero!

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

  • The Devil You Know: A Novel.
  • How to Succeed at Being Yourself: Finding the Confidence to Fulfill Your Destiny.
  • Source: The Inner Path of Knowledge Creation by Joseph Jaworski.
  • Ratings, Rating Agencies and the Global Financial System (The New York University Salomon Center Series on Financial Markets and Institutions)!
  • Navigation menu?
  • Login using?

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.

Basic Nomenclature

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.

Indira M. Raman

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


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. 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.

Navigation menu

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.