2015 - Fellow of the American Association for the Advancement of Science (AAAS)
Her primary areas of investigation include Cell biology, Biochemistry, Endocytosis, Endocytic cycle and Endosome. Her Cell biology research is multidisciplinary, relying on both Fungal protein and Target protein. Her work on Synaptic vesicle, Ubiquitin, Cell division control protein 4 and Deubiquitinating enzyme as part of her general Biochemistry study is frequently connected to Inositol, thereby bridging the divide between different branches of science.
Her studies deal with areas such as Vesicle, Biophysics, Vesicle fusion and Synaptic vesicle recycling as well as Endocytosis. Her work deals with themes such as Internalization, Actin cytoskeleton, Saccharomyces cerevisiae and Clathrin, which intersect with Endocytic cycle. Her study focuses on the intersection of Actin cytoskeleton and fields such as Receptor-mediated endocytosis with connections in the field of Cell membrane and Filamentous actin.
Beverly Wendland mainly investigates Cell biology, Endocytosis, Endocytic cycle, Clathrin and Biochemistry. Her work is dedicated to discovering how Cell biology, Epsin are connected with Endocytic vesicle and other disciplines. Her Endocytosis research is multidisciplinary, incorporating elements of Exocytosis, Actin cytoskeleton, Yeast, Cell membrane and Actin.
In her study, Mutant is strongly linked to Saccharomyces cerevisiae, which falls under the umbrella field of Endocytic cycle. Her study in the field of Synaptic vesicle and Kinase also crosses realms of Protein-Serine-Threonine Kinases and Inositol. Her research investigates the connection between Synaptic vesicle and topics such as Biophysics that intersect with issues in Vesicle.
The scientist’s investigation covers issues in Cell biology, Endocytosis, Endocytic cycle, Receptor-mediated endocytosis and Clathrin. Her Cell biology research incorporates elements of Clathrin coat, Epsin and Mutant. Her biological study deals with issues like Cell membrane, which deal with fields such as Genetic screen.
Her Endocytic cycle study integrates concerns from other disciplines, such as Plasma protein binding and Actin. She interconnects Exocytosis, Actin cytoskeleton and Yeast in the investigation of issues within Receptor-mediated endocytosis. Her research in Clathrin intersects with topics in Internalization and Ubiquitin ligase.
Beverly Wendland spends much of her time researching Cell biology, Endocytosis, Receptor-mediated endocytosis, Endocytic cycle and Clathrin. Her Cell biology research includes themes of Ubiquitin, Exocytosis, Actin cytoskeleton, Cell membrane and Internalization. Beverly Wendland combines subjects such as Vacuole and Intracellular, Endosome with her study of Cell membrane.
Her research investigates the connection between Internalization and topics such as Ubiquitin ligase that intersect with problems in Integral membrane protein and Arrestin. In her papers, Beverly Wendland integrates diverse fields, such as Endocytosis and Autophagy. Her Endocytic cycle study frequently draws connections to other fields, such as Actin.
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The Vps4p AAA ATPase regulates membrane association of a Vps protein complex required for normal endosome function
Markus Babst;Beverly Wendland;Eden J. Estepa;Scott D. Emr.
The EMBO Journal (1998)
Endosome-Associated Complex, ESCRT-II, Recruits Transport Machinery for Protein Sorting at the Multivesicular Body
Markus Babst;David J. Katzmann;William B. Snyder;Beverly Wendland.
Developmental Cell (2002)
The kinetics of synaptic vesicle recycling measured at single presynaptic boutons
Timothy A. Ryan;Harald Reuter;Beverly Wendland;Felix E. Schweizer.
Yeast epsins contain an essential N-terminal ENTH domain, bind clathrin and are required for endocytosis.
Beverly Wendland;Katharine E. Steece;Scott D. Emr.
The EMBO Journal (1999)
A novel fluorescence-activated cell sorter-based screen for yeast endocytosis mutants identifies a yeast homologue of mammalian eps15.
B Wendland;J M McCaffery;Q Xiao;S D Emr.
Journal of Cell Biology (1996)
Pan1p, Yeast eps15, Functions as a Multivalent Adaptor That Coordinates Protein–Protein Interactions Essential for Endocytosis
Beverly Wendland;Scott D. Emr.
Journal of Cell Biology (1998)
Ubiquitin: not just for proteasomes anymore.
Rubén Claudio Aguilar;Beverly Wendland.
Current Opinion in Cell Biology (2003)
Protein traffic in the yeast endocytic and vacuolar protein sorting pathways.
Beverly Wendland;Scott D Emr;Howard Riezman.
Current Opinion in Cell Biology (1998)
Actin and Endocytosis in Budding Yeast
Bruce L. Goode;Julian A. Eskin;Beverly Wendland.
Epsins: adaptors in endocytosis?
Nature Reviews Molecular Cell Biology (2002)
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