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October 01, 2009
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Date:15SundayDecember 2013Lecture
Transport by the Nuclear Pore Complex: simple physics of a complex biomachine
More information Time 13:15 - 13:15Location Dannie N. Heineman LaboratoryLecturer Prof. Anton Zilman
Department of Physics University of TorontoOrganizer Clore Center for Biological PhysicsContact Abstract Show full text abstract about Nuclear Pore Complex (NPC) is a biological “nano-m...» Nuclear Pore Complex (NPC) is a biological “nano-machine” that controls the transport between the cell nucleus and the cytoplasm and is involved in a large number of regulatory processes in the cell. It is a remarkable device that combines selectivity with robustness and speed. Unlike many other biological nano-channels, it functions without direct input of metabolic energy and without transitions of the gate from a ‘closed’ to an ‘open’ state during transport. The key, and unique, aspect of transport is the interaction of the cargo-carrying transport factors with the unfolded, natively unstructured proteins that partially occlude the channel of the NPC and its nuclear and cytoplasmic exits. Recently, the Nuclear Pore Complex inspired creation of artificial selective nano-channels that mimic its structure and function for nano-technology applications.
Mechanistic understanding of the transport through the Nuclear Pore Complex, and in particular its selectivity is still lacking. Conformational transitions of the unfolded proteins of the NPC, induced by the transport factors, have been hypothesized to underlie the transport mechanism and its selectivity. These conformational changes are hard to access in vivo; they have been investigated in vitro, generating apparently contradictory results. I will present a theoretical framework that explains the mechanism of selectivity of transport through the NPC and related artificial nano-channels. The theory provides a general physical mechanism for selectivity (even in presence of noise) based on the differences in the interaction strength of the transported molecules with the polymer-like unfolded proteins within the NPC. The theoretical predictions have been verified in experiments with bio-mimetic molecular nano-channels.
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Date:15SundayDecember 2013Lecture
Chemical Physics Special Guest Seminar
More information Time 14:00 - 14:00Title Spectroscopic Characterization of Transition StatesLocation Perlman Chemical Sciences BuildingLecturer Dr Josh Baraban
University of Colorado, BoulderOrganizer Department of Chemical and Biological PhysicsContact Abstract Show full text abstract about Conventional wisdom has always held that transition states a...» Conventional wisdom has always held that transition states are impossible to observe and characterize experimentally. With the exceptions of ultrafast spectroscopy and ab initio electronic
structure calculations, direct information about these critical points on potential energy surfaces has therefore been very limited. We have recently demonstrated for the first time that it is possible to
characterize a transition state by high resolution spectroscopic methods, using the cis-trans isomerization in the well-known A state of acetylene as a prototypical system. New spectroscopic patterns related to the properties of transition states will be discussed, in addition to the experimental and theoretical techniques employed to decipher the complex spectra and dynamics of isomerizing molecules.
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Date:15SundayDecember 2013Lecture
New Approaches to Graph Partitioning
More information Time 14:30 - 14:30Location Jacob Ziskind BuildingLecturer Roy Schwartz
Microsoft ResearchOrganizer Faculty of Mathematics and Computer ScienceContact -
Date:15SundayDecember 2013Lecture
Increasing the Resolution and Coverage of Metabolome Analysis in the Post-Metabolomics Era
More information Time 15:00 - 16:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Asaph Aharoni
Department of Plant sciences Faculty of Biochemistry Weizmann Institute of ScienceContact -
Date:16MondayDecember 2013Lecture
Aberration Corrected Analytical Electron Microscopy: Specimen investigation in multiple dimensions
More information Time 10:00 - 10:00Location Perlman Chemical Sciences BuildingLecturer Dr. Marco Porcu
Applications Specialist, FEI, Eindhoven, NederlandsOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:16MondayDecember 2013Lecture
OmicsData and Visualization – Whats in the haystack?
More information Time 10:00 - 11:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Dr. Jorg Bernhardt
Institute of Microbiology, Ernst-Moritz-Arndt-University Greifswald, Greifswald, GermanyHomepage Contact Abstract Show full text abstract about From raw data to gene or protein expression profiles, from c...» From raw data to gene or protein expression profiles, from cell populations to complex cultures, currently gene or protein expression analysis works with a variety of differently structured data. Although data visualization is closely connected with data analysis approaches; in our presentation we will specifically focus on integrated data visualization. By complementing the traditional tools such as bar charts or line graphs a tool kit of new sophisticated visualization techniques became available during the last decade. Many concerns regarded to the display of single but also complex data, exactly known but also uncertain data will be discussed. How to apply new visual approaches and applications such as proportional Euler charts, streamgraphs and Voronoi treemaps we will present and explain for a variety of examples from modern OMICs centric biology. -
Date:16MondayDecember 2013Lecture
The Double Edged Sword of Cancer Therapy
More information Time 14:00 - 14:00Location Max and Lillian Candiotty BuildingLecturer Prof Yuval Shaked
Dept. of Molecular Pharmacology Rappaport Faculty of Medicine, TechnionOrganizer Department of Immunology and Regenerative BiologyContact -
Date:16MondayDecember 2013Lecture
Stochasticity of Intracellular Transport
More information Time 14:15 - 14:15Location Edna and K.B. Weissman Building of Physical SciencesLecturer Stanislav Burov
University of ChicagoOrganizer Department of Physics of Complex SystemsContact -
Date:16MondayDecember 2013Lecture
מפגשים בחזית המדע
More information Time 19:30 - 21:15Location Davidson Institute of Science EducationOrganizer Science for All UnitHomepage Contact -
Date:17TuesdayDecember 2013Lecture
Employing protein engineering for the functional analysis of multi-specific proteins
More information Time 10:00 - 11:00Location Wolfson Building for Biological ResearchLecturer Prof. Amir Aharoni, Dept. of Life Sciences, Ben-Gurion Univ. Organizer Department of Biomolecular SciencesContact -
Date:17TuesdayDecember 2013Lecture
“Single Particle Analysis in Plasmonics”
More information Time 10:00 - 10:00Title Organic Chemistry - Departmental seminarLocation Helen and Milton A. Kimmelman BuildingLecturer Dr. Emilie Ringe
University of Cambridge, UK, and Rice University, USAOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:17TuesdayDecember 2013Lecture
Chemical Physics Department Guest Seminar
More information Time 11:00 - 11:00Title Symmetry breaking in immobilized plasmonic nanoparticle clusters and solvated moleculesLocation Gerhard M.J. Schmidt Lecture HallLecturer Dr. Lev Chuntonov
University of PennsylvaniaOrganizer Department of Chemical and Biological PhysicsContact Abstract Show full text abstract about Studies of structure and dynamics of molecules and nanoparti...» Studies of structure and dynamics of molecules and nanoparticles by spectroscopic methods rely on the high sensitivity of these methods to the symmetry of the investigated system. Detailed understanding of the effects of symmetry breaking in these systems is, therefore, an important task. Several scenarios where the D3h symmetry is broken to become C2v will be discussed with examples from two different (although related by the common phenomena of symmetry breaking) spectroscopic fields: (a) Nanoplasmonics and single-molecule surface-enhanced Raman spectroscopy (smSERS), and (b) Two-dimensional femtosecond vibrational spectroscopy (2D-IR). As follows from the group theory, the systems that belong to the D3h point group involve doubly degenerated spectroscopic transitions, while this degeneracy is lifted in the case of C2v. In the first part of the talk I will describe how the localized plasmon normal modes in clusters of three metallic nanoparticles depend on the cluster’s geometry and how their plasmon mode structure affects the signals measured in the smSERS experiments. These are examples of permanent breaking of symmetry in the immobilized clusters of plasmonic nanoparticles. In the second part of the talk, I will show that solvation of the molecular ion potassium tricyanomethanide, which has D3h symmetry in the gas phase, breaks this symmetry and induces ultrafast dynamical processes studied by 2D-IR spectroscopy. Splitting of the degenerate vibrational modes’ transition frequencies and the ultrafast relaxation dynamics of the new modes strongly depend on the nature of the solute-solvent interactions, as illustrated by comparison of the experimental data for the protic (water) and aprotic (dimethyl sulfoxide) solvents. -
Date:17TuesdayDecember 2013Lecture
Rotating Vortex Solutions to Gross-Pitaevskii on the 2-sphere
More information Time 11:00 - 11:00Location Jacob Ziskind BuildingLecturer Peter Sternberg
Indiana UniversityOrganizer Faculty of Mathematics and Computer ScienceContact -
Date:17TuesdayDecember 2013Lecture
Endocytosis and sterol biosynthesis in the induction of plant immunity
More information Time 11:15 - 11:15Location Ullmann Building of Life SciencesLecturer Professor Adi Avni
Department of Molecular Biology and Ecology of Plants, Tel Aviv UniversityOrganizer Department of Plant and Environmental SciencesContact -
Date:17TuesdayDecember 2013Lecture
TBA
More information Time 12:15 - 12:15Location Wolfson Building for Biological ResearchLecturer Gilad Fuchs Organizer Department of Molecular Cell BiologyContact -
Date:17TuesdayDecember 2013Lecture
Systematic Approach to Uncover the Genetic Program Underlying axon re-growth during development
More information Time 12:30 - 12:30Title Public Oral Defense of MSc ThesisLocation Wolfson Building for Biological ResearchLecturer Idan Alyagor Organizer Department of Molecular Cell BiologyContact -
Date:17TuesdayDecember 2013Lecture
Joint Chemical Physics and Materials & Interfaces Seminar
More information Time 14:00 - 14:00Title Heat-dissipation in atomic-scale junctionsLocation Perlman Chemical Sciences BuildingLecturer Prof. Dr. Juan Carlos Cuevas
Dept. of Theoretical Condensed Matter Physics Universidad Autónoma de Madrid, SpainOrganizer Department of Chemical and Biological PhysicsContact Abstract Show full text abstract about Atomic and single-molecule junctions represent the ultimate ...» Atomic and single-molecule junctions represent the ultimate limit to the miniaturization of electrical circuits [1]. They are also ideal platforms to test quantum transport theories that are required to describe charge and energy transfer in novel functional nanodevices. Recent work has successfully probed electric and thermoelectric phenomena in atomic-scale junctions. However, heat dissipation and heat transport in atomic-scale devices remain poorly characterized due to experimental challenges. In this talk, I will present our recent experimental and theoretical efforts to elucidate how heat dissipation takes place in metallic atomic-size contacts and single-molecule junctions [2]. In particular, I will describe how, by using novel scanning probes with integrated nanoscale thermocouples, we have been able to show that heating in the electrodes of molecular junctions, whose transmission characteristics are strongly dependent on energy, is asymmetric, i.e. unequal and dependent on both the bias polarity and the identity of majority charge carriers (electrons vs. holes). In contrast, atomic contacts whose transmission characteristics show weak energy dependence do not exhibit appreciable asymmetry. Our results prove unambiguously a central prediction of Landauer theory that has remained untested for decades despite its relevance to a range of nanoscale systems where transport is elastic. Moreover, the techniques developed in our work will enable the study of Peltier effects and other heat transport phenomena at the atomic scale.
References:
[1] J.C. Cuevas and E. Scheer, Molecular Electronics: An Introduction to Theory and Experiment. (World Scientific, 2010).
[2] W. Lee, K. Kim, W. Jeong, L. A. Zotti, F. Pauly, J.C. Cuevas, P. Reddy, Nature 498, 209 (2013).
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Date:17TuesdayDecember 2013Lecture
"Formation of 3D cholesterol crystals from 2D nucleation sites in lipid bilayer membranes"
More information Time 15:00 - 15:00Location The David Lopatie Hall of Graduate StudiesLecturer Dr. Neta Varsano
MSc Exam M.Sc. Student Lia addadi's labOrganizer Department of Chemical and Structural BiologyContact -
Date:17TuesdayDecember 2013Cultural Events
Big Christmas Tree
More information Time 18:00 - 18:00Title Russian children's playLocation Michael Sela AuditoriumContact -
Date:18WednesdayDecember 201320FridayDecember 2013Conference
Solar 2013 - Photovoltaic materials & optics student conference
More information Time All dayLocation Edna and K.B. Weissman Building of Physical SciencesChairperson Ayelet TeitelboimContact