450 results on '"Insall, Robert H."'
Search Results
102. The use of streptavidin conjugates as immunoblot loading controls and mitochondrial markers for use with Dictyostelium discoideum
103. Cyclical Action of the WASH Complex: FAM21 and Capping Protein Drive WASH Recycling, Not Initial Recruitment
104. Loss of Scar/WAVE Complex Promotes N-WASP- and FAK-Dependent Invasion
105. p21-Activated Kinases Regulate Directional Migration and Cytoskeletal Organization in Human Neutrophils
106. N-WASP coordinates the delivery and F-actin–mediated capture of MT1-MMP at invasive pseudopods
107. Scar/WAVE3 contributes to motility and plasticity of lamellipodial dynamics but not invasion in three dimensions
108. SCAR knockouts in Dictyostelium: WASP assumes SCAR’s position and upstream regulators in pseudopods
109. Pseudopod Growth and Evolution during Cell Movement Is Controlled through SCAR/WAVE Dephosphorylation
110. The induction of autophagy by mechanical stress
111. The Arp2/3 activator WASH regulates α5β1-integrin-mediated invasive migration
112. Rac1 Drives Melanoblast Organization during Mouse Development by Orchestrating Pseudopod- Driven Motility and Cell-Cycle Progression
113. Activated factor XI inhibits chemotaxis of polymorphonuclear leukocytes
114. Actin polymerization driven by WASH causes V-ATPase retrieval and vesicle neutralization before exocytosis
115. Chemotaxis: A Feedback-Based Computational Model Robustly Predicts Multiple Aspects of Real Cell Behaviour
116. Functional analysis of Dictyostelium IBARa reveals a conserved role of the I-BAR domain in endocytosis
117. Actin on disease – Studying the pathobiology of cell motility using Dictyostelium discoideum
118. Dogma bites back – the evidence for branched actin
119. Actin-Based Motility: WAVE Regulatory Complex Structure Reopens Old SCARs
120. An Improved Chamber for Direct Visualisation of Chemotaxis
121. WASP Family Proteins: Their Evolution and Its Physiological Implications
122. SCAR/WAVE is activated at mitosis and drives myosin-independent cytokinesis
123. Understanding eukaryotic chemotaxis: a pseudopod-centred view
124. Use of the parameterised finite element method to robustly and efficiently evolve the edge of a moving cell
125. Chemotaxis: finding the way forward with Dictyostelium
126. Actin Dynamics at the Leading Edge: From Simple Machinery to Complex Networks
127. WASP and SCAR/WAVE proteins: the drivers of actin assembly
128. Chemotaxis: TorC before You Akt…
129. F-BAR domains: multifunctional regulators of membrane curvature
130. Dictyostelium MEGAPs: F-BAR domain proteins that regulate motility and membrane tubulation in contractile vacuoles
131. Abi Mutants in Dictyostelium Reveal Specific Roles for the SCAR/WAVE Complex in Cytokinesis
132. Replacement of the essential Dictyostelium Arp2 gene by its Entamoeba homologue using parasexual genetics
133. Cyclic AMP signalling in Dictyostelium: G‐proteins activate separate Ras pathways using specific RasGEFs
134. Chemotaxis in shallow gradients is mediated independently of PtdIns 3-kinase by biased choices between random protrusions
135. Comparative genome and transcriptome analyses of the social amoeba Acytostelium subglobosum that accomplishes multicellular development without germ-soma differentiation.
136. Entamoeba histolyticacell movement: A central role for self-generated chemokines and chemorepellents
137. RacG Regulates Morphology, Phagocytosis, and Chemotaxis
138. Cell motility and SCAR localisation in axenically growing Dictyostelium cells
139. Moving matters: signals and mechanisms in directed cell migration
140. Nap1 Regulates Dictyostelium Cell Motility and Adhesion through SCAR-Dependent and -Independent Pathways
141. Measuring Chemotaxis Using Direct Visualization Microscope Chambers.
142. Phospholipase D activity is essential for actin localization and actin-based motility in Dictyostelium
143. The identification of Dictyostelium phosphoproteins altered in response to the activation of RasG
144. Solving the WAVE function
145. PIR121 Regulates Pseudopod Dynamics and SCAR Activity in Dictyostelium
146. Linked regulation of motility and integrin function in activated migrating neutrophils revealed by interference in remodelling of the cytoskeleton
147. Pseudopodium dynamics and rapid cell movement inDictyostelium Ras pathway mutants
148. PIP3, PIP2, and Cell Movement—Similar Messages, Different Meanings?
149. The Whole Organism, and nothing but the Organism
150. A gelatinous theory of everything
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