Pages
February 21, 2016
-
Date:30WednesdayNovember 2016Lecture
G-INCPM - Special Seminar - Mr. Daniel G. Sipes, Director, Advanced Automation Technologies, Genomics Institute of the Novartis, Research Foundation (GNF) - "Advances in Automation to Accelerate Drug Discovery at GNF"
More information Time 11:00 - 12:30Location Gerhard M.J. Schmidt Lecture HallLecturer Mr. Daniel G. Sipes
Director, Advanced Automation Technologies Genomics Institute of the Novartis Research Foundation (GNF)Organizer Department of Biomolecular SciencesContact Abstract Show full text abstract about At GNF, we have been developing and implementing high throug...» At GNF, we have been developing and implementing high throughput miniaturized assays and robotic systems to enable drug discovery for over 15 years. This presentation will review how our platform systems have adapted to and incorporated the latest scientific and technical advancements. Our flagship high throughput screening systems, capable of running hundreds of thousands of compounds per day against cellular or biochemical assays, continue to demonstrate their effectiveness. We have continued to expand the utility of GNF-built automation, as well as other commercially available technologies, to enable cost effective and rapid cell-based profiling of small molecules as well as biologics. In addition, this approach has allowed scientists to run primary cell assays on a scale not otherwise practical. Examples will include instruments and automation to greatly accelerate high-content phenotypic assays and flow cytometry. The latest advancements in reagent dispensing, detection and robotics will further the deployment of these technologies into areas such as highly multiplexed transcriptional readouts and Next Gen Sequencing.
-
Date:30WednesdayNovember 2016Lecture
Special Guest Seminar
More information Time 11:00 - 12:00Title Antigen-presenting cell requirements for pTreg and tolerance induction by dietary antigenLocation Wolfson Building for Biological ResearchLecturer Daria Esterhazy, PhD
The Rockefeller University, New YorkOrganizer Department of Systems ImmunologyContact -
Date:30WednesdayNovember 2016Lecture
Neuromorphic Computing
More information Time 11:00 - 11:00Location Perlman Chemical Sciences BuildingLecturer Prof. IVan Schuler
Physics Department and Nanocenter, UCSDOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:30WednesdayNovember 2016Lecture
Light Dark Matter in Superfluid Helium: Detection with Multi-excitation Production.
More information Time 13:00 - 13:00Location TechnionLecturer Gabriel Lee
TECHOrganizer Department of Particle Physics and AstrophysicsHomepage Contact -
Date:01ThursdayDecember 2016Lecture
Working successfully with WIS new institutional review board principles and a practical guide to human research at WIS
More information Time 11:00 - 11:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Eran Hornstein
Department of Molecular Genetics, Weizmann Institute of ScienceOrganizer Department of Molecular GeneticsContact -
Date:01ThursdayDecember 2016Colloquia
Do not go gentle into that night: Stars near massive black holes
More information Time 11:15 - 12:30Location Edna and K.B. Weissman Building of Physical SciencesLecturer Tal Alexander
WISOrganizer Faculty of PhysicsContact Abstract Show full text abstract about I discuss the dynamics that lead stars to interact closely w...» I discuss the dynamics that lead stars to interact closely with a massive black hole in a galactic nucleus, and the phenomena that follow. These offer opportunities to study strong gravity and understand the cosmic evolution of black holes. I describe recent progress in the self-consistent modeling of the coupled effects of secular Newtonian and relativistic processes, coherent resonant torques and 2-body relaxation, which govern the orbital evolution of stars near a massive black hole. I present results and predictions that will guide, and be tested by, ongoing and upcoming gravitational waves, radio and IR observations. -
Date:01ThursdayDecember 2016Lecture
A circuit architecture for angular integration in Drosophila
More information Time 12:30 - 12:30Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Gaby Maimon
Laboratory of Integrative Brain Function The Rockefeller UniversityOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Mammalian brains store and update quantitative internal vari...» Mammalian brains store and update quantitative internal variables. Primates and rodents, for example, have an internal sense of whether they are 1 or 10 meters away from a landmark and whether a ripe fruit is twice or four times as appetizing as a less ripe counterpart. Such quantitative internal signals are the basis of cognitive function, however, our understanding of how the brain stores and updates these variables remains fragmentary. In this talk, I will discuss imaging and perturbation experiments in tethered, walking Drosophila. The goal of these experiments is to determine how internal variables are calculated by the tiny Drosophila brain and how these variables influence behavior. Specifically, in the Drosophila central complex a set of heading neurons have been described, whose activity tracks the fly’s orientation, similar to head direction cells in rodents. However, the circuit architecture that gives rise to these orientation tracking properties remains largely unknown in any species. I will describe a set of clockwise- and counterclockwise-shifting neurons whose wiring and calcium dynamics provide a means to rotate the heading system’s angular estimate over time. Shifting neurons are required for the heading system to properly track the fly's movements in the dark, and, their stimulation induces a rotation of the heading signal in the expected direction and by the expected amount. The central features of this circuit are analogous to models proposed for head-direction cells in rodents and may thus inform how neural systems, in general, perform addition. -
Date:01ThursdayDecember 2016Lecture
microRNAs, “replacement therapy” and cancer – how far have we come?
More information Time 14:00 - 15:00Title CANCER RESEARCH CLUBLocation Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Professor Peter Leedman PhD, FRACP
Director, Harry Perkins Institute of Medical Research, Professor of Medicine, The University of Western AustraliaOrganizer Department of Immunology and Regenerative BiologyContact -
Date:01ThursdayDecember 2016Lecture
Immunogenic Sugar Antigens in Cancer and Heart Disease
More information Time 14:00 - 15:00Location Wolfson Building for Biological ResearchLecturer Vered padler-Karavani
Department of Cell Research and Immunology, Tel Aviv UniversityOrganizer Department of Systems ImmunologyContact -
Date:02FridayDecember 2016Cultural Events
Nathan's friends - From Italy with Love
More information Time 20:00 - 22:45Location Michael Sela AuditoriumContact -
Date:03SaturdayDecember 2016Cultural Events
Drorami & Habubonim in live broadcast- Children's theater
More information Time 11:00 - 12:00Location Michael Sela AuditoriumContact -
Date:04SundayDecember 2016Lecture
Regulation of RNA structure and function by small organic molecules
More information Time 11:00 - 12:00Title Cancer Research ClubLocation Max and Lillian Candiotty BuildingLecturer Prof. Kazuhiko Nakatani
Director and Professor The Institute of Scientific and Industrial Research Osaka University, JapanOrganizer Department of Immunology and Regenerative BiologyContact Abstract Show full text abstract about We have studied small molecules binding to and regulating RN...» We have studied small molecules binding to and regulating RNA structure and, eventually its function. In the talk, recent our results on the effect of maturation of microRNA by small molecule binding to its precursor pre-microRNA to modulate the Dicer cleavage reaction, and induce the programmed –1 ribosomal frame shift by ligand-induced pseudo knot on mRNA -
Date:04SundayDecember 2016Lecture
The interplay between terrigenous fluxes and export production in oligotrophic seas: a case study of the modern and late Quaternary Red Sea
More information Time 11:00 - 11:00Location Sussman Family Building for Environmental SciencesLecturer Adi Torfstein
IUI EilatOrganizer Department of Earth and Planetary SciencesContact -
Date:04SundayDecember 2016Lecture
"Dual Gold Catalysis: Organometallic Steps And Synthetic Benefits"
More information Time 11:00 - 12:00Location Helen and Milton A. Kimmelman BuildingLecturer Prof. Stephen Hashmi
Ruprecht-Karls-University Heidelberg GermanyOrganizer Department of Molecular Chemistry and Materials ScienceContact -
Date:04SundayDecember 2016Lecture
Recruiting the protein interaction map of cell death for studying human genetic disease
More information Time 13:00 - 13:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchOrganizer Department of Molecular GeneticsContact -
Date:05MondayDecember 2016Lecture
The 4th Israeli ImageStreamX user meeting Recent advances in Imaging Flow Cytometry
More information Time 09:00 - 12:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchOrganizer Department of Life Sciences Core FacilitiesContact Abstract Show full text abstract about Imaging Flow Cytometry combines speed, sensitivity, and phen...» Imaging Flow Cytometry combines speed, sensitivity, and phenotyping abilities found in flow
cytometry with the detailed imagery and functional insight of microscopy, for an extensive range
of novel applications. It allows quantitating cellular morphology and the intensity and location of
fluorescent probes on, in, or between cells, even in rare sub-populations and highly heterogeneous
samples.
The wide range of applications used include studying intracellular localization, shape changes
and morphology, co-localization, nuclear translocation, cell signaling, T cell – APC interactions,
DNA damage and repair, cell death and apoptosis, phagocytosis and internalization, FISH, vesicle
trafficking, and many others. -
Date:05MondayDecember 201606TuesdayDecember 2016Lecture
ISF-NSFC Joint Workshop on Nanosciencer and Nanophotonics
More information Time 09:00 - 18:00Location Edna and K.B. Weissman Building of Physical SciencesOrganizer Department of Physics of Complex SystemsContact -
Date:05MondayDecember 2016Colloquia
"Membrane proteins at the interface of life"
More information Time 11:00 - 12:15Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Tamir Gonen
Janelia Research Campus, Howard Hughes Medical InstituteOrganizer Faculty of ChemistryContact -
Date:05MondayDecember 2016Lecture
Pathway Discovery and Metabolic Engineering of Betalains
More information Time 11:15 - 11:15Location Ullmann Building of Life SciencesLecturer Guy Polturak
Prof. Asaph Aharoni's lab., Dept. of Plant & Environmental SciencesOrganizer Department of Plant and Environmental SciencesContact -
Date:05MondayDecember 2016Lecture
Multipurpose DARPin Binders for Innovative Applications - Identifying Affinity Reagents for Challenging Tasks
More information Time 13:15 - 14:30Location Wolfson Building for Biological ResearchLecturer Dr. Jonas V. Schaefer
Head, High-Throughput Binder Selection Facility Department of Biochemistry, University of Zurich, SwitzerlandOrganizer Department of Molecular Cell BiologyContact Abstract Show full text abstract about Multipurpose DARPin Binders for Innovative Applications - Id...» Multipurpose DARPin Binders for Innovative Applications - Identifying Affinity Reagents for Challenging Tasks
Jonas V. Schaefer, PhD
Head of High-Throughput Binder Selection Facility
Department of Biochemistry, University of Zurich, Switzerland
Obtaining high-quality and reliable affinity reagents remains a major challenge for many scientific projects. Frequently, commercial antibodies fail to behave as advertised or only work for a subset of samples. Therefore, we established a High-Throughput Binder Selection Facility, generating hundreds of high-end binders (so called DARPins) that specifically recognize different, non-overlapping epitopes at their targets with high affinities. Those binders have already been used in a variety of applications both in-house and by numerous international collaboration partners, improving existing and enabling novel, so far unfeasible applications.
Within my presentation, I will give insights into our streamlined and robust binder generation pipeline and show examples of DARPin applications (amongst others, DARPins have been successfully employed in advanced microscopy, pull-downs, immunohistochemistry, for co-crystallization, as intracellular biosensors, and even have been therapeutically validated).