Results 201 to 210 of about 97,079 (259)
Photothermal Amplification via Nanorobotic Swarming Dynamics
This study explores a novel approach to enhance photothermal therapy using magnetically regulated microswarms. It details the development of magnetic nanoparticles organized into dynamic structures that improve heat retention and conversion efficiency.
Qinglong Wang +8 more
wiley +1 more source
A straightforward method is introduced to produce ion‐gel films with very low surface roughness by employing a solution‐shearing coating process. These ion‐gel films permit the growth of crystalline thin films of various small molecule organic semiconductor molecules directly on top of the ion‐gel layer, thereby enabling “inverted” small molecule ...
Jonathan Perez Andrade +10 more
wiley +1 more source
A biocompatible graphene/ZnO optical charge trap memory (CTM) is reported with over 54 h retention, enabled by interfacial photodoping. Using transient absorption spectroscopy and electrical analysis, charge transfer quenching is elucidated and reveal that a large energy barrier at the interface is responsible for long‐term memory retention.
Seungmin Shin +10 more
wiley +1 more source
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Current Opinion in Neurobiology, 1991
The exact nature of growth cone motility is far from understood but progress has been made in several areas. It now appears that growth cones pull and not push; we will review the biophysical basis of growth cone movement. Current ideas on the regulation of growth cone motility and the relationship between motility and axon pathfinding are also ...
S R, Heidemann, R E, Buxbaum
openaire +2 more sources
The exact nature of growth cone motility is far from understood but progress has been made in several areas. It now appears that growth cones pull and not push; we will review the biophysical basis of growth cone movement. Current ideas on the regulation of growth cone motility and the relationship between motility and axon pathfinding are also ...
S R, Heidemann, R E, Buxbaum
openaire +2 more sources
Trends in Neurosciences, 2008
Wiring up the nervous system depends on the precise guidance of axonal growth cones to their targets. A key mechanism underlying this guidance is chemotaxis, whereby growth cones detect and follow molecular gradients. Although recent work has uncovered many of the molecules involved in this process, the mechanisms underlying chemotactic axon guidance ...
Mortimer, Duncan +4 more
openaire +5 more sources
Wiring up the nervous system depends on the precise guidance of axonal growth cones to their targets. A key mechanism underlying this guidance is chemotaxis, whereby growth cones detect and follow molecular gradients. Although recent work has uncovered many of the molecules involved in this process, the mechanisms underlying chemotactic axon guidance ...
Mortimer, Duncan +4 more
openaire +5 more sources
Current Biology, 1992
Neurons obtain their stereotyped morphologies and connections as a result of growth cone migration. In the past year, studies on growth cone migration and pathfinding have helped to define certain properties of cytoskeletal filaments and cell membranes that may be important in growth cone function.
C, Cypher, P C, Letourneau
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Neurons obtain their stereotyped morphologies and connections as a result of growth cone migration. In the past year, studies on growth cone migration and pathfinding have helped to define certain properties of cytoskeletal filaments and cell membranes that may be important in growth cone function.
C, Cypher, P C, Letourneau
openaire +2 more sources
Trends in Neurosciences, 1989
The growth cone is a crucial structure in effecting neurite elongation and guiding the neurite onto correct pathways by responding to environmental cues. Recently developed techniques in light and electron microscopy have greatly improved our understanding of the dynamic organization of membrane and cytoskeleton within the growth cone.
D J, Goldberg, D W, Burmeister
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The growth cone is a crucial structure in effecting neurite elongation and guiding the neurite onto correct pathways by responding to environmental cues. Recently developed techniques in light and electron microscopy have greatly improved our understanding of the dynamic organization of membrane and cytoskeleton within the growth cone.
D J, Goldberg, D W, Burmeister
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Growth Cone Motility and Guidance
Annual Review of Cell Biology, 1988CONTENTS INTRODUCTION 43 SHAPE AND MOVEMENT: What are Growth Cones Really Like? 44 ULTRASTRUCTURE: Evidence of Membrane Recycling .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ... . . . . . . . . . . . 46 COMPOSITION: Do Growth Cone Specific Molecules Exist? ... . . . . . . . .... 47 PHYSIOLOGY: Ionic Signals That Stop a
D, Bray, P J, Hollenbeck
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Science, 1998
Growth cones are the specialized tips of neuronal axons that make their way through the nervous system in search of a correct target. In his Perspective, Caroni outlines the signaling mechanisms that help steer the growth cone as it moves, and discusses a report by Song et al .
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Growth cones are the specialized tips of neuronal axons that make their way through the nervous system in search of a correct target. In his Perspective, Caroni outlines the signaling mechanisms that help steer the growth cone as it moves, and discusses a report by Song et al .
openaire +3 more sources
Vesicular movements in the growth cone
Neurochemistry International, 2018Growth cones, which are the highly motile tips of extending neuronal processes in developing neurons, have many vesicles. These vesicles are likely essential for the membrane expansion that is required for nerve growth, and probably coordinate with rearrangement of the cytoskeletons.
Motohiro Nozumi, Michihiro Igarashi
openaire +2 more sources

