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November 02, 2015
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Date:02TuesdayFebruary 2016Lecture
ESCRT mediated mammalian cell abscission: New tools, new players and new concepts
More information Time 10:00 - 11:00Location Wolfson Building for Biological ResearchLecturer Dr. Natalie Elia
Dept. of Life Sciences Ben-Gurion Univ. of the NegevOrganizer Department of Biomolecular SciencesContact Abstract Show full text abstract about Conserved from archaea to mammals, ESCRT filamentous system ...» Conserved from archaea to mammals, ESCRT filamentous system executes membrane fission in a variety of processes in cells including viral budding, formation of multivesicular bodies, plasma membrane repair, nuclear envelope assembly and cytokinetic abscission. Yet, many of the mechanistic steps that lead to ESCRT-driven membrane fission in cells have not been resolved. We use high-resolution microscopy and molecular tools to study ESCRT driven membrane constriction and fission during cytokinetic abscission of mammalian cells. With this approach we aim to unlock the mechanistic principals of ESCRT mediated membrane fission in physiological process utilizing the ESCRT machinery for its function. -
Date:02TuesdayFebruary 2016Lecture
Chemical Physics Department Guest Seminar
More information Time 11:00 - 11:00Title A Trajectory's TaleLocation Perlman Chemical Sciences BuildingLecturer Dr Yasmine Meroz
Harvard UniversityOrganizer Department of Chemical and Biological PhysicsContact Abstract Show full text abstract about Dynamics of biological systems are inherently stochastic fro...» Dynamics of biological systems are inherently stochastic from the level of protein fluctuations, to cellular transport, and all the way to sensorimotor responses of whole organisms. In many cases the observed stochastic dynamics exhibit exotic properties such as memory, correlations and non-Gaussian propagators, which cannot be explained simply due to thermal noise, pointing at complex underlying physics. I present an approach seeded in the statistical physics analysis of stochastic trajectories [1], to relate such observed complex characteristics to minimal models of the underlying physics.
I utilise this framework to investigate the high-dimensional subdiffusive dynamics of protein fluctuations, characterising the structure of the rough energy landscape and revealing the coexistence of distinct origins of subdiffusion [2]. The multiple analogies between protein dynamics and glassy systems hint that this approach may also shed light on the latter.
I then use a similar approach to tackle information processing mechanisms in biological systems, where I analyse the response trajectories of cell chemotaxis to known stimuli [3]. I present a minimal model which represents stochastic processing via a memory kernel, and predicts a coupling between the fast membrane polarization (sensing), and the slow cytoskeletal polarization (movement). The model successfully recovers experimental observations including directional memory.
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Date:02TuesdayFebruary 2016Lecture
Molecular Neuroscience Forum Seminar
More information Time 15:00 - 16:00Title Old peptides – new insightsLocation Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Mike Ludwig
University of EdinburghOrganizer Department of Biomolecular SciencesHomepage Contact -
Date:03WednesdayFebruary 2016Lecture
G-INCPM Special Seminar - Dr. Nir London, Dept. of Organic Chemistry, Weizmann - "Covalent Docking of Large Chemical Libraries for the Discovery of New Inhibitors"
More information Time 11:00 - 12:30Location Nancy and Stephen Grand Israel National Center for Personalized MedicineLecturer Prof. Nir London
Dept. of Organic Chemistry, Weizmann InstituteOrganizer Department of Biomolecular SciencesContact Abstract Show full text abstract about Small molecules are invaluable tools for the investigation o...» Small molecules are invaluable tools for the investigation of biology. However, discovering new molecules to specifically modulate a target protein is still one of the biggest challenges of chemical biology. Molecules that are able to form a covalent bond with their target often show enhanced selectivity, potency and utility for biological studies, but are yet harder to discover, as they are typically expunged from high throughput screening libraries. Computational methods can help bridge this gap. We developed a covalent docking method for the discovery of covalent probes. Applying this method prospectively to several protein targets we were able to discover potent covalent inhibitors (typically with -
Date:03WednesdayFebruary 2016Lecture
Dark matter beams at neutrino facilities
More information Time 11:00 - 12:30Location Tel Aviv UniversityLecturer Claudia Frugiuele
Weizmann InstituteOrganizer Department of Particle Physics and AstrophysicsHomepage Contact Abstract Show full text abstract about I will discuss the discovery prospects of light dark matter ...» I will discuss the discovery prospects of light dark matter at neutrino facilities.
I will give first an overview on the current bounds on the quarks-light dark matter interaction and I will then explain why neutrino experiments can improve on these bounds focusing in particular on present and future Fermilab experiments such as MiniBoone and LBNF.
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Date:03WednesdayFebruary 2016Lecture
Following Function in Real Time: Structure and Dynamics in Batteries and Supercapacitors
More information Time 11:00 - 11:00Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Clare Grey
Department of Chemistry, University of CambridgeOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:03WednesdayFebruary 2016Lecture
“The 750 GeV resonance as a sgoldstino”
More information Time 13:30 - 15:00Location Tel Aviv UniversityLecturer Diptimoy Ghosh
Weizmann InstituteOrganizer Department of Particle Physics and AstrophysicsHomepage Contact Abstract Show full text abstract about I will discuss the papers arXiv:1512.05330, arXiv:1512.05333...» I will discuss the papers arXiv:1512.05330, arXiv:1512.05333 and arXiv:1512.05723 which put forward an interpretation of the di-photon excess recently reported by the ATLAS and CMS collaborations as a new resonance arising from the sgoldstino which is the scalar superpartner of the goldstino, the Goldstone fermion of spontaneous supersymmetry breaking.
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Date:04ThursdayFebruary 2016Colloquia
The Revolution of the Kepler Space Mission: Exo-planets, Binaries and circumbinary planets
More information Time All dayLocation Edna and K.B. Weissman Building of Physical SciencesLecturer Tsevi Mazeh
TAUOrganizer Faculty of PhysicsContact Abstract Show full text abstract about TBA ...» TBA -
Date:04ThursdayFebruary 2016Lecture
Pelletron series - by invitation
More information Time All dayContact -
Date:04ThursdayFebruary 2016Lecture
Virology club
More information Time 12:15 - 13:00Title decoding infection by ribosome profilingLocation Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Noam Stern-Ginossar Organizer Faculty of BiologyContact -
Date:04ThursdayFebruary 2016Lecture
Peletron Series - by invitation
More information Time 16:00 - 17:45Location PeletronContact -
Date:05FridayFebruary 2016Cultural Events
Lital Schwartz - Stand up
More information Time 22:00 - 22:00Location Michael Sela AuditoriumContact -
Date:07SundayFebruary 201613SaturdayFebruary 2016Conference
The Batsheva de Rothschild Seminar on Biomineralization: Mineral Formation by Organisms
More information Time All dayLocation Mashabei Sadeh and InteruniverChairperson Stephen WeinerHomepage Contact -
Date:07SundayFebruary 2016Lecture
Bacterial Response to Hydration-Desiccation Cycles in Arid Soils
More information Time 11:00 - 11:00Location Sussman Family Building for Environmental SciencesLecturer Osnat Gillor
The Department of Environmental Hydrology & Microbiology (EHM) Ben Gurion University of the NegevOrganizer Department of Earth and Planetary SciencesContact -
Date:07SundayFebruary 2016Lecture
Towards precision oncology: uncovering tumor-specific amino acid vulnerabilities by differential ribosome codon reading
More information Time 11:00 - 11:00Location Wolfson Building for Biological ResearchLecturer Prof. Reuven Agami
Professor of Genetics and Pathology. Head of Division of Gene Regulation. The Netherlands Cancer Institute, AmsterdamOrganizer Department of Molecular Cell BiologyContact -
Date:07SundayFebruary 2016Lecture
From Biological Self-Assembly to Novel Peptide Nanostructures of Unique Mechanical, Optical, Piezoelectric and Semiconductive Properties
More information Time 11:00 - 12:00Location Perlman Chemical Sciences BuildingLecturer Prof. Ehud Gazit
Department of Molecular Microbiology and Biotechnology, Department of Materials Science and Engineering, Tel Aviv UniversityOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:07SundayFebruary 2016Lecture
Cap-independent protein translation controls cell fate decisions in Human Embryonic Stem Cells
More information Time 13:00 - 13:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Maya David
Adi Kimchi's group, Dept. of Molecular Genetics, WISOrganizer Department of Molecular GeneticsContact -
Date:07SundayFebruary 2016Cultural Events
Afternoon Music - The Israel Camerata Jerusalem with Israel Gurion - Free entrance
More information Time 16:30 - 17:30Location Michael Sela AuditoriumContact -
Date:08MondayFebruary 201611ThursdayFebruary 2016Conference
Systems Biology of Noncoding RNAs
More information Time All dayLocation The David Lopatie Conference CentreChairperson Igor UlitskyHomepage Contact -
Date:08MondayFebruary 2016Colloquia
"Differential Sensing – Concepts and Applications"
More information Time 11:00 - 12:15Title Pearlman lecture (colloquium) - ChemistryLocation Gerhard M.J. Schmidt Lecture HallLecturer Prof. Eric Anslyn
Chemistry Department, University of Texas, AustinOrganizer Faculty of ChemistryContact Abstract Show full text abstract about The mammalian senses of taste and smell utilize a series of ...» The mammalian senses of taste and smell utilize a series of cross-reactive receptors, rather than highly selective receptors. Our group mimics this principle with a series of synthetic and designed receptors for the analysis of complex analytes in real-life settings. The receptors derive from a combination of rational chemical design and modeling, with combinatorial synthesis techniques. Optical signaling often derives either from indicator-displacement assays, or direct modulation of the spectroscopy of the receptor. It will be shown that a union of designed receptors targeted to a class of analytes, with combinatorial methods, gives fingerprints that differentiate between the individual members of the analyte class. The strategy is to use a core-binding element that imparts a bias to each and every member of the library, ensuring affinity of the library members for the class of analytes being targeted. The design of this core derives from standard molecular recognition principles: preorganization, complementary, pair-wise interactions between receptor and analyte, and desolvation. Imparting a bias to the affinity of the library members dramatically reduces the diversity space needed in the library. The fingerprints of the solutions are created using artificial neural networks, principle component analysis, and/or discriminate analysis. The technique represents a marriage of supramolecular chemistry and pattern recognition protocols, and has become known as differential sensing. A variety of examples will be presented, ranging from applications in the biological sciences to commercial beverage analysis.