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February 01, 2010
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Date:16SundayJanuary 201117MondayJanuary 2011Conference
Self Assembly at Solid Surfaces
More information Time 09:00 - 09:00Title 30 Years of InnovationsLocation Dolfi and Lola Ebner AuditoriumChairperson Sidney Cohen and Milko van der BoomHomepage Contact -
Date:16SundayJanuary 2011Lecture
Magnetic Resonance Seminar
More information Time 11:00 - 12:00Title "Sodium MRI in Vivo"Location Perlman Chemical Sciences BuildingLecturer Alexej Jerschow Organizer Department of Chemical and Biological PhysicsContact -
Date:16SundayJanuary 2011Lecture
"The role of stationary planetary waves in storm track dynamics"
More information Time 11:00 - 11:00Lecturer Prof. Yohai Kaspi
Division of Geological and Planetary Sciences California Institute of TechnologyOrganizer Department of Earth and Planetary SciencesContact -
Date:16SundayJanuary 2011Lecture
Supernova Science in the Era of Massive Surveys
More information Time 11:15 - 11:15Location Edna and K.B. Weissman Building of Physical SciencesLecturer Dovi Poznanski
LBNL & UC BerkeleyOrganizer Nella and Leon Benoziyo Center for AstrophysicsContact Abstract Show full text abstract about Astronomy, most particularly astronomy of the transient sky,...» Astronomy, most particularly astronomy of the transient sky, is going through a transformative phase with the advent of affordable large cameras and the increased availability of computational resources. The field is shifting from a 'single astronomer'+'single project'+'single telescope' paradigm to a survey, multi-science, multi-messenger approach. Facilities such as the Large Synoptic Survey Telescope (LSST) promise to push this frontier further. I will specifically discuss how we leverage this opportunity to promote our understanding in two major fields. I will show that Type II supernovae can be used as cosmological probes, in order to ultimately constrain the equation of state of Dark Energy. This method is complementary to the successful use of Type Ia supernovae, which is now dominated by systematics. I will also show that we can use these data streams to study how some stars end their lives in perplexing ways, shedding new light on stellar evolution. -
Date:16SundayJanuary 2011Lecture
To be announced
More information Time 13:00 - 13:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Ben Gradus
Eran Hornstein's group, Dept. of Molecular Genetics, WISOrganizer Department of Molecular GeneticsContact -
Date:16SundayJanuary 2011Cultural Events
"Piaf" - Beer Sheva Theater
More information Time 20:30 - 20:30Location Michael Sela AuditoriumContact -
Date:17MondayJanuary 2011Colloquia
The endocytic matrix in the control of the plasticity of cell migration and invasion
More information Time 11:00 - 11:00Location Dolfi and Lola Ebner AuditoriumLecturer Dr. Giorgio Scita
Department of Medicine, Surgery and Dentistry of the University of MilanContact -
Date:17MondayJanuary 2011Lecture
Independence of families of l-adic representations, after Serre
More information Time 11:00 - 11:00Location Jacob Ziskind BuildingLecturer Luc Illusie
University of Paris-Sud, OrsayOrganizer Faculty of Mathematics and Computer Science -
Date:17MondayJanuary 2011Cultural Events
The Secrets for Success: tips for women scientists
More information Time 12:00 - 13:00Title A lecture by Prof. Ramit Mehr (Bar-Ilan University)Location Wolfson Building for Biological ResearchLecturer Prof Ramit Mehr Contact -
Date:17MondayJanuary 2011Lecture
What the brain knows about what’s in the nose: Neural processing of pheromone signals
More information Time 12:30 - 12:30Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Dr. Yoram Ben-Shaul
Harvard UniversityOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Understanding the neuronal events linking sensory inputs wit...» Understanding the neuronal events linking sensory inputs with behavioral outputs in complex organisms is a central goal of neuroscience. First steps in this enormous endeavor can be made by focusing on the relatively simple and stereotyped class of chemosensory triggered innately encoded physiological processes. Until recently, analysis of the circuits that underlie these processes was hampered by the lack of a reliable method for stimulus delivery to the vomeronasal system, which in mice, like many other mammals, plays a key role in processing pheromonal information. To address this issue, I developed an experimental preparation that allows in-vivo stimulus delivery to the mouse vomeronasal system and combined it with multisite neuronal recordings to measure stimulus evoked neuronal activity. Recordings from the early processing stage of the accessory olfactory bulb reveal the broad range and high acuity of ethologically relevant sensory representations, and furthermore suggest that these involve integrative processing. Recording from subsequent processing relays in the vomeronasal amygdala reveal several similarities to the olfactory bulb representations but also some intriguing differences raising new hypotheses about the role of the amygdala in these processes. Finally, I will describe how I am extending this approach by employing optogenetic techniques to record neuronal activity from scarce and genetically defined neurons in subsequent processing regions. Taken together, these experiments are beginning to illuminate the function of entire neuronal circuits involved in mediating ethologically and clinically relevant endocrine processes. -
Date:17MondayJanuary 2011Lecture
Rational and Combinatorial Engineering of Antagonistic VEGF Variants to Simultaneously Bind to and Inhibit VEGFR2 and alphaVbeta3 Integrin
More information Time 14:00 - 14:00Location Max and Lillian Candiotty BuildingLecturer Dr. Niv Papo
Dept. Bioengineering, James H. Clark Center, Stanford, CA., USAOrganizer Department of Immunology and Regenerative BiologyContact -
Date:17MondayJanuary 2011Lecture
Diversity in cognitive styles leads to Cultural Wars in an agent-based society
More information Time 14:15 - 14:15Location Edna and K.B. Weissman Building of Physical SciencesOrganizer Department of Physics of Complex SystemsContact Abstract Show full text abstract about Opinions can be considered moral or immoral by observers of ...» Opinions can be considered moral or immoral by observers of
different political affiliation. We study the relation between
cognitive styles and political affiliation. In a society of
agents, which learn the opinions of neighbors on issues, we
consider a family of learning algorithms which give different
relative importance to corroborating and novel opinions. Using
large data sets of questionnaires on moral issues we show
statistical similarities between cognitive styles of agents and
political affiliation of respondents. Also, when issues under
discussion change, the adaptation of a society of novelty seekers
agents is fast, while a society of corroboration seekers adapts
more slowly, reinforcing the identification of agents with
different cognitive styles in terms of the liberal-conservative
labels.
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Date:17MondayJanuary 2011Lecture
Distribution-Free Testing Algorithms for Monomials with a Sublinear Number of Queries
More information Time 14:30 - 14:30Location Jacob Ziskind BuildingLecturer Dana Ron
Tel Aviv UniversityOrganizer Faculty of Mathematics and Computer Science -
Date:17MondayJanuary 2011Cultural Events
"Piaf" - Beer Sheva Theater
More information Time 20:30 - 20:30Location Michael Sela AuditoriumContact -
Date:18TuesdayJanuary 2011Lecture
Innate immune responses to Listeria monocytogenes: from MDRs to cell envelope
More information Time 10:00 - 10:00Location Wolfson Building for Biological ResearchLecturer Dr. Anat Herskovits
Dept. of Molecular Microbiology & Biotechnology Tel Aviv UniversityOrganizer Department of Biomolecular SciencesContact -
Date:18TuesdayJanuary 2011Lecture
Finding the nodal points on a quantum graph
More information Time 11:00 - 11:00Location Jacob Ziskind BuildingLecturer Ram Band
Bristol UniversityOrganizer Faculty of Mathematics and Computer Science -
Date:18TuesdayJanuary 2011Lecture
Plant Sciences Seminar
More information Time 11:00 - 11:00Location Ullmann Building of Life SciencesLecturer Dr. Anja Krieger-Liszkay
Service de Bioénergétique Biologie Structurale et Mécanisme CEA, Institut de Biologie et Technologies de Saclay, CNRSOrganizer Department of Plant and Environmental SciencesContact -
Date:18TuesdayJanuary 2011Lecture
"Brain Biosensing: From Micro to Nano"
More information Time 11:00 - 11:00Title Departmental Seminar - Organic ChemistryLocation Helen and Milton A. Kimmelman BuildingLecturer Anne Milasincic Andrews, Professor of Psychiatry
Semel Institute for Neuroscience & Human Behavior and California NanoSystems InstituteOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:18TuesdayJanuary 2011Lecture
Cross-talk between Lats2 and p53 tumor suppressors
More information Time 12:15 - 12:15Location Wolfson Building for Biological ResearchLecturer Dr. Yael Aylon Organizer Department of Molecular Cell BiologyContact Abstract Show full text abstract about Damage to the mitotic spindle and centrosome dysfunction can...» Damage to the mitotic spindle and centrosome dysfunction can lead to cancer. To prevent this, cells trigger a succession of checkpoint responses, where an initial mitotic delay is followed by slippage without cytokinesis, spawning tetraploid G1 cells that undergo a p53-dependent G1/S arrest. We have previously characterized the importance of Lats2 (LArge Tumor Suppressor 2) in this checkpoint response. Specifically, the Lats2-p53 axis is critical for the maintenance of proper chromosome number in the face of mitotic insults. The oncogenic form of HRas initially hyperactivates the Lats2-p53 checkpoint. Lats2-phosphorylated ASPP1 accumulates in the nucleus. Together Lats2 and phospho-ASPP1 shunt p53 to proapoptotic promoters and promote apoptosis of polyploid cells. Cells surviving sustained oncogenic HRas expression neutralize the Lats2-p53 tumor suppressor pathway and emerge with features of transformation, such as genomic instability. Our data suggest that restraining the activity of this pathway might be an important step in cell transformation and tumor progression. -
Date:18TuesdayJanuary 2011Lecture
A cellular mechanism for general enhancement of learning capability
More information Time 12:30 - 12:30Location Jacob Ziskind BuildingLecturer Dr. Edi Barkai
University of HaifaOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Learning-related cellular modifications occur not only at sy...» Learning-related cellular modifications occur not only at synapses but also in the intrinsic properties of the neurons. Learning-induced enhancement in neuronal excitability is evident in hippocampal and piriform cortex pyramidal neurons following a complex olfactory-discrimination operant conditioning task. Such enhanced excitability is manifested in reduced spike frequency adaptation that results from reduction in the slow afterhyperpolarization (AHP), which develops after a burst of action potentials. AHP reduction is apparent throughout the pyramidal cells neuronal population. The AHP amplitude tends to return back to its initial value within days when training is suspended. This recovery is accompanied by reduced learning capability, but not by loss of memories for learned odors.
The post-burst AHP reduction is mediated by decreased conductance for a specific calcium-dependent potassium current, the slow IAHP. This long-lasting reduction is dependent on persistent activation of the PKC and ERK second messenger systems. Similar long-lasting AHP reduction can be induced in-vitro by repetitive synaptic stimulation or by kainate application. Such activity-dependent AHP reduction is occluded by prior learning.
Olfactory-learning induced enhanced neuronal excitability in CA1 pyramidal neurons is also accompanied by enhanced learning capability in a novel hippocampus-dependent task, the Morris water maze.
We suggested that AHP reduction is the cellular mechanism that enables neuronal ensembles to enter into a state which may be best termed "learning mode". This state lasts for up to several days and its behavioral manifestation is enhanced learning capability in tasks that depend on these particular neuronal ensembles. Specifically, enhanced neuronal excitability sets a time window in which most neurons in the relevant neuronal network are more excitable, and thus activity-dependent synaptic modifications are more likely to occur.