Pages that link to "Q24631787"

The following pages link to Viral and developmental cell fusion mechanisms: conservation and divergence (Q24631787):

Displaying 50 items.

• Conserved eukaryotic fusogens can fuse viral envelopes to cells (Q24604967) (← links)
• Surface apposition and multiple cell contacts promote myoblast fusion in Drosophila flight muscles. (Q27310000) (← links)
• The EFF-1A Cytoplasmic Domain Influences Hypodermal Cell Fusions in C. elegans But Is Not Dependent on 14-3-3 Proteins (Q27331300) (← links)
• Screening a Peptide Library by DSC and SAXD: Comparison with the Biological Function of the Parent Proteins (Q27487844) (← links)
• The Structure of Herpesvirus Fusion Glycoprotein B-Bilayer Complex Reveals the Protein-Membrane and Lateral Protein-Protein Interaction (Q27679070) (← links)
• The full-length cell-cell fusogen EFF-1 is monomeric and upright on the membrane. (Q27683968) (← links)
• Cell fusion induced by ERVWE1 or measles virus causes cellular senescence (Q28301290) (← links)
• Mechanism of inhibition of enveloped virus membrane fusion by the antiviral drug arbidol (Q28476811) (← links)
• The stratified syncytium of the vertebrate lens. (Q30487542) (← links)
• Extracellular annexins and dynamin are important for sequential steps in myoblast fusion. (Q30532065) (← links)
• Fusion-pore expansion during syncytium formation is restricted by an actin network (Q30532780) (← links)
• Myoblast fusion: when it takes more to make one. (Q33787549) (← links)
• Mechanisms shaping cell membranes (Q34269214) (← links)
• Mechanisms of membrane fusion: disparate players and common principles. (Q34780589) (← links)
• The Final Conformation of the Complete Ectodomain of the HA2 Subunit of Influenza Hemagglutinin Can by Itself Drive Low pH-dependent Fusion (Q34787116) (← links)
• Prevention of measles virus infection by intranasal delivery of fusion inhibitor peptides (Q34991022) (← links)
• Measles fusion machinery is dysregulated in neuropathogenic variants (Q35111156) (← links)
• Mechanical tension drives cell membrane fusion (Q35171103) (← links)
• Intracellular curvature-generating proteins in cell-to-cell fusion. (Q35549868) (← links)
• Directed Fusion of Mesenchymal Stem Cells with Cardiomyocytes via VSV-G Facilitates Stem Cell Programming (Q36014854) (← links)
• Lipid interaction of the C terminus and association of the transmembrane segments facilitate atlastin-mediated homotypic endoplasmic reticulum fusion (Q36167580) (← links)
• The problem of colliding networks and its relation to cell fusion and cancer (Q36379172) (← links)
• Protein-driven membrane stresses in fusion and fission (Q36566327) (← links)
• Morphogenesis of the caenorhabditis elegans vulva (Q36610919) (← links)
• Direct observation of intermediate states in model membrane fusion (Q36747947) (← links)
• Mechanics of membrane fusion (Q36901510) (← links)
• Macrophage fusion, giant cell formation, and the foreign body response require matrix metalloproteinase 9. (Q37130179) (← links)
• Identification of a region in the stalk domain of the nipah virus receptor binding protein that is critical for fusion activation (Q37252586) (← links)
• Common principles and intermediates of viral protein-mediated fusion: the HIV-1 paradigm (Q37348882) (← links)
• Cell-to-cell spread of microsporidia causes Caenorhabditis elegans organs to form syncytia (Q37391467) (← links)
• Transmembrane protein-free membranes fuse into xenopus nuclear envelope and promote assembly of functional pores (Q37447814) (← links)
• In Vivo Efficacy of Measles Virus Fusion Protein-Derived Peptides Is Modulated by the Properties of Self-Assembly and Membrane Residence (Q37512939) (← links)
• Modeling membrane shaping by proteins: focus on EHD2 and N-BAR domains (Q37616433) (← links)
• Evolution of programmed cell fusion: common mechanisms and distinct functions (Q37737217) (← links)
• Molecular and Cellular Mechanisms of Mammalian Cell Fusion (Q37856920) (← links)
• Measles virus fusion machinery activated by sialic acid binding globular domain (Q39083962) (← links)
• The second receptor binding site of the globular head of the Newcastle disease virus hemagglutinin-neuraminidase activates the stalk of multiple paramyxovirus receptor binding proteins to trigger fusion (Q39375677) (← links)
• Spring-loaded model revisited: paramyxovirus fusion requires engagement of a receptor binding protein beyond initial triggering of the fusion protein (Q39462591) (← links)
• Biophysical and functional assays for viral membrane fusion peptides (Q39465779) (← links)
• Glycoproteins required for entry are not necessary for egress of pseudorabies virus (Q39767140) (← links)
• The deletion of residues 268-292 of E1 impairs the ability of HCV envelope proteins to induce pore formation. (Q40870248) (← links)
• Quantitation of yeast cell-cell fusion using multicolor flow cytometry (Q40879459) (← links)
• Direct Simulation of Protein-Mediated Vesicle Fusion: Lung Surfactant Protein B (Q42140827) (← links)
• Multifaceted sequence-dependent and -independent roles for reovirus FAST protein cytoplasmic tails in fusion pore formation and syncytiogenesis. (Q42689581) (← links)
• Food restriction during pregnancy and female offspring fertility: adverse effects of reprogrammed reproductive lifespan. (Q47156131) (← links)
• Biophysical Properties and Antiviral Activities of Measles Fusion Protein Derived Peptide Conjugated with 25-Hydroxycholesterol. (Q47582990) (← links)
• Acting on identity: Myoblast fusion and the formation of the syncytial muscle fiber (Q50176856) (← links)
• Phosphatidylcholine Membrane Fusion Is pH-Dependent. (Q54942937) (← links)
• Redox-dependent thiol modifications: implications for the release of extracellular vesicles. (Q55237882) (← links)
• Fusion of tumour cells with bone marrow-derived cells: a unifying explanation for metastasis (Q81007695) (← links)