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November 26, 2014
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Date:30SundayNovember 2014Lecture
Hierarchical process-memory:an ecologically plausible model of the interaction between memory and processes
More information Time 12:30 - 12:30Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Uri Hasson
Dept of Psychology and the Neuroscience Institute Princeton University, NJOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Traditional models of memory dissociate memory from processe...» Traditional models of memory dissociate memory from processes. Such tendency is rooted in the analogy between computers’ architecture and the brain, which dissociate the central processing units from the memory units. Based on such conceptualization, many empirical studies focus on simple delay periods in which memory has to be actively maintained but not processed and cases in which the integration between past and present information is undesirable. However, such models are not applicable to the majority of real life processes in which the past and present converge continuously in the processes of incoming information. Based on empirical data we outline a new framework for process-memory that resists the tendency to separate memory from process. We argue that cortical areas, ranging from early sensory areas to high order areas, has the capacity to accumulate information over time. Memory is intrinsic to each and any neural circuit, and is essential for its ability to process information. Furthermore, our data suggest that the process-memory timescale increases from early sensory areas to high order areas. Our hypothesis, that each brain area accumulates information over its preferred timescale, suggests that memories of the recent past are not stored in a few localized working memory buffers, but rather are distributed in an organized hierarchical topography throughout the nervous system. The “work of memory” is performed in virtually every neural circuit, and attentional systems modulate this ongoing processing in accordance with rule- or goal-related constraints. -
Date:30SundayNovember 2014Lecture
Metagenomics approach to study the ecology of coral reef fish larvae in the Red Sea
More information Time 13:00 - 13:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Omer Zuqert
Rotem Sorek's group, Dept. of Molecular Genetics, WISOrganizer Department of Molecular GeneticsContact -
Date:01MondayDecember 2014Colloquia
Life Sciences Colloquium
More information Time 11:00 - 11:00Title The Neurobiology of Courtship Behaviour in DrosophilaLocation Dolfi and Lola Ebner AuditoriumLecturer Dr. Barry J. Dickson
Janelia Farm Research Campus Howard Hughes Medical InstituteContact -
Date:01MondayDecember 2014Lecture
RNF20 links histone H2B ubiquitylation with inflammation and cancer
More information Time 12:15 - 12:15Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Ohad Tarcic Organizer Department of Molecular Cell BiologyContact -
Date:01MondayDecember 2014Lecture
How does the brain’s glue facilitate neuro-vascular hormonal interface?
More information Time 12:30 - 12:30Location Camelia Botnar BuildingLecturer Savani Anbalagan Organizer Department of Molecular Cell BiologyContact -
Date:01MondayDecember 2014Lecture
The mechanisms and functions of RIPK3 in inflammatory diseases
More information Time 14:00 - 15:30Location Camelia Botnar BuildingLecturer Francis Ka-Ming Chan Organizer Department of Biomolecular SciencesContact Abstract Show full text abstract about Receptor Interacting Protein Kinase 3 (RIPK3) is a key adapt...» Receptor Interacting Protein Kinase 3 (RIPK3) is a key adaptor for programmed necrosis or necroptosis. Necroptosis is a non-apoptotic form of cell death that promotes inflammation through the release of endogenous “danger signals” from ruptured plasma membrane. RIPK3 interacts with other adaptors that contain the “RIP homotypic interaction motif” (RHIM) to form a tight complex that recruits downstream effectors for necroptosis. Although necroptosis is a major mechanism by which RIPK3 facilitates inflammation, recent evidence indicates that RIPK3 can also promote inflammation independent of necroptosis. Here, I will discuss the molecular mechanisms that govern necroptosis-dependent and independent signaling by RIPK3. Examples will be given to illustrate how the different RIPK3-dependent signaling responses orchestrate tissue homeostasis. -
Date:01MondayDecember 2014Lecture
Aproximating the best Nash Equilibrium in $n^{o(log n)}$-time breaks ETH
More information Time 14:30 - 14:30Location Jacob Ziskind BuildingLecturer Omri Weinstein
Princeton UniversityOrganizer Faculty of Mathematics and Computer ScienceContact -
Date:01MondayDecember 2014Colloquia
Joint seminar: Life Sciences colloquium and chemistry colloquium
More information Time 15:00 - 15:00Title TBDLocation Dolfi and Lola Ebner AuditoriumLecturer Prof. Wolfgang Baumeister
Max Planck Institute of Biochemistry Department of Molecular Structural BiologyContact -
Date:01MondayDecember 2014Cultural Events
Age of Bel Canto
More information Time 20:00 - 22:00Title Israel Chamber OperaLocation Michael Sela AuditoriumContact -
Date:02TuesdayDecember 2014Lecture
"Unraveling the mechanism of protein disaggregation through Methyl-TROSY NMR"
More information Time 08:30 - 09:30Location Helen and Milton A. Kimmelman BuildingLecturer Prof. Rina Rosenzweig
Department of Biology University of TorontoOrganizer Department of Chemical and Structural BiologyContact -
Date:02TuesdayDecember 2014Lecture
Distribution of eigenvalues for some classes of operators in Banach space
More information Time 11:00 - 11:00Location Jacob Ziskind BuildingLecturer Haggai Katriel
Ort-Braude CollegeOrganizer Faculty of Mathematics and Computer ScienceContact -
Date:02TuesdayDecember 2014Lecture
The neuroeconomics of simple choice
More information Time 12:30 - 12:30Location Gerhard M.J. Schmidt Lecture HallLecturer Antonio Rangel
Bing Professor of Neuroscience, Behavioral Biology & Economics CALTECHOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Neuroeconomics studies what are the computations made by the...» Neuroeconomics studies what are the computations made by the brain in different decision situations, and how are these computations implemented and constraints by the underlying neurobiology. This talk describe recent fMRI, EEG and eye-tracking experiments designed to understand how the brain computes and compares values during simple decisions, like choosing between an apple and an orange. -
Date:02TuesdayDecember 2014Lecture
Memoryless nonlinear response: A simple mechanism for the 1/ noise
More information Time 14:15 - 14:15Location Edna and K.B. Weissman Building of Physical SciencesLecturer Deepak Dhar
Tata Institute of Fundamental ResearchOrganizer Department of Physics of Complex SystemsContact Abstract Show full text abstract about Discovering the mechanism underlying the ubiquity of 1=&...» Discovering the mechanism underlying the ubiquity of 1=α noise has been
a long-standing problem. The wide variety of systems showing such long-ranged temporal correlations suggests the existence of some simple and general mechanism. I will argue that memory-less nonlinear response suffices to explain the observed non-trivial values of α: If an input signal S(t) with a power spectrum varying as 1= α, is fed to a non-linear device with response function R, the output R(S(t)) can have a power spectrum 1α with α < α.
As an illustrative example, a bounded Brownian noise (α = 2), fed to a device with a sigmoidal response function R(S) = sgn (S) Sx, with x < 1, produces an output with power spectrum exponent α = 32 +x, for 0 x  1/2. The argument is easily extended to more general input noise and response functions.
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Date:02TuesdayDecember 2014Academic Events
2014 Weizmann Memorial Lectures
More information Time 15:00 - 17:00Location The David Lopatie Conference CentreLecturer Prof. Carlos J. Bustamante
A Journey Through Cellular Processes: One Molecule at a TimeContact -
Date:02TuesdayDecember 2014Cultural Events
"THE WAVE"
More information Time 19:30 - 22:00Title American Drama group Europe - in EnglishLocation Michael Sela AuditoriumContact -
Date:03WednesdayDecember 2014Lecture
To be announced
More information Time 10:00 - 11:00Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Cohen Haim
Faculty of Life Sciences Bar-Ilan Univ.Organizer Department of Biomolecular SciencesContact -
Date:03WednesdayDecember 2014Lecture
Epigenetic & Symbiotic Mechanisms of Adaptation to New Environments
More information Time 10:00 - 10:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Yoav Soen
Dept. of Biological Chemistry, WISContact -
Date:03WednesdayDecember 2014Lecture
Regulation of healthy lifespan by SIRT6
More information Time 10:00 - 11:00Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Cohen Haim Organizer Department of Biomolecular SciencesContact -
Date:03WednesdayDecember 2014Lecture
Deligne categories and Kronecker coefficients
More information Time 11:00 - 11:00Location Jacob Ziskind BuildingLecturer Inna Entova-Aizenbud
MITOrganizer Faculty of Mathematics and Computer ScienceContact -
Date:03WednesdayDecember 2014Lecture
Quality Preserving Databases: Statistically Sound and Efficient Use of Public Databases for an Infinite Sequence of Tests
More information Time 11:15 - 11:15Location Jacob Ziskind BuildingLecturer Saharon Rosset
Tel Aviv UniversityOrganizer Faculty of Mathematics and Computer ScienceContact