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ינואר 01, 2013
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Date:24רביעיפברואר 2021הרצאה
"Beyond Weight Watchers: The Tools of the Metabolic Phenotyping Unit" - Dr. Yael Kuperman - Spotlight on Science
More information שעה 11:00 - 12:00מרצה Dr. Yael Kuperman מארגן המחלקה לתשתיות מחקר מדעי החייםצרו קשר -
Date:25חמישיפברואר 2021הרצאה
Machine Learning (and Deep Learning) for Flint Temperature Estimation
More information שעה 11:30 - 11:30מרצה Dr. Filipe Natalio and Dr. Ido Azuri, Dr. Lior Regev צרו קשר -
Date:28ראשוןפברואר 2021הרצאה
Modeling formation of caveolar superstructures
More information שעה 11:00 - 12:00מרצה Prof.Michael Koslov
Department of Physiology and Pharmacology, TAUמארגן המחלקה לכימיה מולקולרית ולמדע חומריםצרו קשר תקציר Show full text abstract about Zoom Link: https://weizmann.zoom.us/j/92668474661?pwd=d0...» Zoom Link:
https://weizmann.zoom.us/j/92668474661?pwd=d01aQVZkWnhiT0NRQlFkVE5XeWRjdz09
Caveolae, the flask-shaped pits covered by caveolin-cavin coats, are abundant features of the plasma membrane of many cells. Besides appearing as single membrane indentations, caveolae are organized as superstructures in the form of rosette-like clusters. Here we propose that clustering of caveolae is driven by forces originating from the elastic energy of membrane bending deformations and membrane tension. We substantiate this mechanism by computational modeling, which recovers the unique shapes observed for the most ubiquitous caveolar clusters consisting of two, three, four and five caveolae. -
Date:02שלישימרץ 2021הרצאה
Quality Control of Misfolded Membrane Proteins
More information שעה 10:00 - 11:00מיקום בניין לביוכימיה על שם נלה וליאון בנוזיומרצה Dr. Nir Fluman
Dept. of Biomolecular Sciences-WISמארגן המחלקה למדעים ביומולקולרייםצרו קשר תקציר Show full text abstract about A quarter of the proteome in every living cell is comprised ...» A quarter of the proteome in every living cell is comprised of helical membrane proteins. Our understanding of how they fold, assemble and undergo quality control remains poor, despite relevance to many diseases. I will describe our quest to illuminate the features of unfolded membrane proteins, and how these attributes drive the mechanisms of membrane protein folding and quality control. -
Date:02שלישימרץ 2021הרצאה
Building synthetic microstructural systems to better understand plant-environment interactions
More information שעה 11:30 - 12:30כותרת Guest Seminar via zoomמיקום https://weizmann.zoom.us/j/98991032733?pwd=SlJDTWtjQjRJR2FyZEFidXM1MEsvUT09Password187614מרצה Dr. Maya Kleiman
Department of Vegetables and Field Crops, Institute of Plant Sciences, Agricultural Research Organization ARO-Volcani Centerמארגן המחלקה למדעי הצמח והסביבהצרו קשר -
Date:02שלישימרץ 2021הרצאה
How People Decide What They Want to Know: Information-Seeking and the Human Brain
More information שעה 14:30 - 15:30מרצה Prof. Tali Sharot
Cognitive Neuroscience, Max Planck UCL Centre for Computational Psychiatry and Ageing Research & Department of Experimental Psychology, University College Londonמארגן המחלקה למדעי המוחצרו קשר תקציר Show full text abstract about The ability to use information to adaptively guide behavior ...» The ability to use information to adaptively guide behavior is central to intelligence. A vital research challenge is to establish how people decide what they want to know. In this talk I will present our recent research characterizing three key motives of information seeking. We find that participants automatically assess (i) how useful information is in directing action, (ii) how it will make them feel, and (iii) how it will influence their ability to predict and understand the world around them. They then integrate these assessments into a calculation of the value of information that guides information-seeking or its avoidance. These diverse influences are captured by separate brain regions along the dopamine reward pathway and are differentially modulated by pharmacological manipulation of dopamine function. The findings yield predictions about how information-seeking behavior will alter in disorders in which the reward system malfunctions. We test these predictions using a linguistic analysis of participants’ web searches ‘in the wild’ to quantify their motives for seeking information and relate those to reported psychiatric symptoms. Finally, using controlled behavioral experiments we show that the three motives for seeking information follow different developmental trajectories that are consistent with what would be predicted from our neuroimaging data.
Zoom link to join:
https://weizmann.zoom.us/j/96608033618?pwd=SEdJUkR2ZzRBZ3laUUdGbWR1VFJTdz09
Meeting ID: 966 0803 3618
Password: 564068
Host: Dr. Rita Schmidt rita.schmidt@weizmann.ac.il tel: 9070
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Date:02שלישימרץ 2021הרצאה
TBA
More information שעה 16:00 - 17:00מרצה Kevin Uno
Lamont-Doherty Earth Observatory Columbia Universityמארגן המחלקה למדעי כדור הארץ וכוכבי הלכתצרו קשר -
Date:03רביעימרץ 2021הרצאה
A quantitative perspective on the geo / bio / socio spheres interface
More information שעה 09:00 - 10:00כותרת MSc Thesis Defense via Zoomמיקום https://weizmann.zoom.us/j/94410804953?pwd=M1BmbmJ3Y29haDZ4a2xrSkhhVHE5dz09Password997244מרצה Lior Greenspoon
Prof. Ron Milo's Lab., Department of Plant and Environmental Sciencesמארגן המחלקה למדעי הצמח והסביבהצרו קשר -
Date:04חמישימרץ 2021הרצאה
Inflammation, Metabolism and Immunity in Liver Cancer: From Pathogenesis to Treatment
More information שעה 09:00 - 10:00מרצה Dr. Michael Karin
Departments of Pharmacology and Pathology, University of California San Diego, School of Medicineמארגן המכון לחקר הטיפול בסרטן עש דואקצרו קשר -
Date:04חמישימרץ 2021הרצאה
Using Ultra-High Field MRI to Study the Human Brain
More information שעה 09:00 - 10:00מיקום ZOOMמרצה Dr. Edna Furman-Haran
MRI Unitמארגן המחלקה לתשתיות מחקר מדעי החייםדף בית צרו קשר -
Date:04חמישימרץ 2021הרצאה
“Beyond mapping: perturbation as the key to understanding function”
More information שעה 09:30 - 10:30מרצה Dr. Michal Ramot
Dept Neurobiology, WISמארגן המחלקה לכימיה מולקולרית ולמדע חומריםצרו קשר תקציר Show full text abstract about Zoom link: https://weizmann.zoom.us/j/94322871667?pwd=NXkvO...» Zoom link:
https://weizmann.zoom.us/j/94322871667?pwd=NXkvODRXWVZlbW9hSEtScHN1M0F4dz09
passcode: 870711
Neuroimaging has allowed us to map the correlations between brain activation, and external stimuli or behaviour. Yet these correlations can only hint at the function of the brain regions involved. In order to more casually investigate these relationships between brain and behaviour, we must perturb the brain, and see what changes this brings about in behaviour. I will provide a framework for doing so through covert neurofeedback. This technique allows us to perturb brain networks by reinforcing desired network states directly, through a reward orthogonal to the networks being trained. Yet a prerequisite for such a test of function and causality, is a strong hypothesis regarding the purported link between a specific network and behaviour. We must therefore also develop better behavioural tools, in order to establish such links. -
Date:04חמישימרץ 2021הרצאה
Radiocarbon and geochemical investigation of corals from the northern Indian Ocean
More information שעה 11:30 - 11:30מיקום https://weizmann.zoom.us/j/6168548886 Passcode: 976012מרצה Dr. Harsh Raj
Geosciences Division, Physical Research Laboratory, Navrangpura, Ahmedabad, Indiaצרו קשר -
Date:07ראשוןמרץ 202109שלישימרץ 2021כנסים
Biomolecular Phase Separartion: A Student Organzied Conference
More information שעה 08:00 - 08:00מיקום מרכז כנסים על-שם דויד לופאטייושב ראש Yair Harel -
Date:07ראשוןמרץ 2021הרצאה
Department of Molecular Genetics department seminar
More information שעה 13:00 - 13:30כותרת “Ambiguity resolution in the TGFb/ BMP pathways through combinatorial SMAD complex formation”מיקום https://weizmann.zoom.us/j/92440011671?pwd=Yk9kQUpqWkJnUmFMRUlnT0NaSlliUT09מרצה Johannes Auth מארגן המחלקה לגנטיקה מולקולריתצרו קשר -
Date:08שנימרץ 2021סימפוזיונים
Proteins mobility, affinity & stability for optimized function
More information שעה 11:00 - 12:00מיקום https://weizmann.zoom.us/j/98063488104?pwd=N3VqTC9sU1A4RHVDZ1dhOGVxbU1iUT09מרצה Prof. Koby Levy
Department of Structural Biologyמארגן הפקולטה לכימיהצרו קשר תקציר Show full text abstract about Proteins, which are at the heart of many biological processe...» Proteins, which are at the heart of many biological processes, are involved in a variety of self-assembly processes that are controlled by various chemical and physical interactions. Quantifying the driving forces that govern these processes and particularly the trade-offs between them is essential to obtaining a more complete understanding of protein dynamics and function. In my lecture, I will discuss the molecular determinants that govern linear diffusion of proteins along DNA or along microtubules. These and other cellular processes, such as protein folding, are subject to conflicting forces some of which are regulated by post-translational modifications. Understanding the trade-offs between the stability, affinity and mobility is not only essential to decipher transport processes in the cell but also for formulating concepts for their engineering. I will discuss the power of computational models in formulating fundamental biomolecular concepts and in predicting novel principles of cellular function or for its optimization. -
Date:08שנימרץ 2021הרצאה
Women's Day 2021
More information שעה 12:30 - 15:00כותרת Save the dateצרו קשר -
Date:09שלישימרץ 2021הרצאה
To be announced
More information שעה 10:00 - 10:30מיקום בניין לביוכימיה על שם נלה וליאון בנוזיומרצה Dr. Mattia Morandi
Dept. of Biomolecular Sciences-WISמארגן המחלקה למדעים ביומולקולרייםצרו קשר -
Date:09שלישימרץ 2021הרצאה
Diatom modulation of associated bacteria
More information שעה 11:30 - 12:30כותרת Guest Seminar via Zoomמיקום https://weizmann.zoom.us/j/91943922657?pwd=QnF1eThwV0lWTk45ZWFBWnlHeGx2Zz09Password620591מרצה Dr. Ahmed Shibl
Marine Microbial Ecology Lab - New York University Abu Dhabiמארגן המחלקה למדעי הצמח והסביבהצרו קשר -
Date:09שלישימרץ 2021הרצאה
Dissecting the Alzheimer’s brain: from disease single cells to cellular communities
More information שעה 12:30 - 13:30מרצה Prof. Naomi Habib
Edmond & Lily Safra Center for Brain Sciences, The Hebrew University of Jerusalemמארגן המחלקה למדעי המוחצרו קשר תקציר Show full text abstract about Alzheimer’s disease (AD) is one of the most pressing globa...»
Alzheimer’s disease (AD) is one of the most pressing global medical issues to date with no effective therapeutic strategies. Despite extensive research much remains unknown regarding the crosstalk between brain cells and the role of non-neuronal cells in the progression of Alzheimer’s disease (AD). We use single nucleus RNA-sequencing and machine learning algorithms to build detailed cellular maps of mice and human brain and to follow molecular changes in each cell type along disease progression. Our maps revealed new disease associated states in glia cells as well as unique multi-cellular communities linked to AD. Specifically, we found a link between populations of disease-associated astrocytes (DAAs), microglia, oligodendrocytes and GABAergic neurons to AD related traits in mouse models and in post-mortem human brains. Expanding the data analysis across multiple cell types, we found co-occurrences of cellular populations across individuals, which we define as multi-cellular communities. Among these communities we discovered a unique cellular community linked to cognitive decline and Alzheimer’s disease pathology. These new insights are shaping our understanding of the unique cellular environment of the Alzheimer’s disease brains.
Zoom link to join:
https://weizmann.zoom.us/j/96608033618?pwd=SEdJUkR2ZzRBZ3laUUdGbWR1VFJTdz09
Meeting ID: 966 0803 3618
Password: 564068
Host: Dr. Rita Schmidt rita.schmidt@weizmann.ac.il tel: 9070
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Date:14ראשוןמרץ 2021הרצאה
Nucleation fronts initiate frictional motion
More information שעה 11:00 - 12:00מרצה Prof. Jay Fineberg מארגן המחלקה לכימיה מולקולרית ולמדע חומריםצרו קשר תקציר Show full text abstract about Zoom LInk: https://weizmann.zoom.us/j/97917323609?pwd=OGpCV...» Zoom LInk: https://weizmann.zoom.us/j/97917323609?pwd=OGpCVzNKWGlCSS9lbTIyS0FtN1lHUT09
Recent experiments have demonstrated that rapid rupture fronts, akin to earthquakes, mediate the transition to frictional motion. Moreover, once these dynamic rupture fronts ("laboratory earthquakes" ) are created, their singular form, dynamics and arrest are well-described by fracture mechanics. Ruptures, however, need to be created within initially rough frictional interfaces, before they are able to propagate. This is the reason that ``static friction coefficients” are not well-defined; frictional ruptures can nucleate for a wide range of applied forces. A critical open question is, therefore, how the nucleation of rupture fronts actually takes place. We experimentally demonstrate that rupture front nucleation is prefaced by slow nucleation fronts. These nucleation fronts, which are self-similar, are not described by fracture mechanics. They emerge from initially rough frictional interfaces at a well-defined stress threshold, evolve at characteristic velocity and time scales governed by stress levels, and propagate within a frictional interface to form the initial rupture from which fracture mechanics take over. These results are of fundamental importance to questions ranging from earthquake nucleation and prediction to processes governing material failure.