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Prof. Elad Schneidman

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Biological networks

Decision making and learning

Animal swarming and collective behavior

Computational Neuroscience

Neural Coding

Information and noise in neural populations

Decoding neural activity

Network organization and design

Natural Scenes

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Dr. Rita Schmidt

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Developing new tools for human MRI, especially at ultra-high field 7T MRI scanner, aiming to better understand the human brain function

Developing new methods to improve the spatial and temporal resolution in functional brain MRI

Developing new contrast methods for functional MRI to study brain function

Advancing dedicated MR pulse sequences to achieve fast and ultrafast high quality MR imaging and spectroscopic imaging

Boosting the accessible MR signal in localized functional brain trials

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Dr. Ruth Scherz-Shouval

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Tumor microenvironment

Transcriptional profiling of stromal cells within tumors, Characterization of stromal stress responses

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Prof. Avigdor Scherz

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Quantification of atoms, groups and molecules electronegati using metal substituted bacteriochlorophylls and application to chemical reactivity.

Resolving the forces which drive membrane protein assembly.

The mechenism behind generation of reactive oxygen species (ROS) by illuminating novel bacteriochlorophyll derivatives and their application in photodynamic therapy (PDT) of tumors.

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Prof. Gideon Schechtman

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Convex geometry

Functional analysis and geometry of Banach spaces

Probability

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Prof. Yardena Samuels

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Synthetic lethal interaction network of melanoma

Identification of melanoma hub interactomes

CRISPR screens to reveal driver gene interactions and drug resistance genes

Decipher the immuno-genetic interactions between melanoma and T cells

HLA peptidome analysis of metastatic melanoma lesions

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Prof. Jacob Sagiv

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Supramolecular Architecture at Interfaces (with R. Maoz)

Supramolecular Surface Chemistry: Bottom-up Nanofabrication using Planned Self-Assembling Mono- and Multilayer Systems (with R. Maoz)

Constructive Lithography: Contact Electrochemical Surface Patterning on Lateral Length Scales from Nanometer to Centimeter (with R. Maoz)

Prof. Irit Sagi

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Extracellular Matrix (ECM) remodeling: from biophysical principles to drug design

ECM remodeling by unique enzymes: investigating ECM proteolysis and cross-linking that provide chemical and mechanical stimuli regulating cellular behavior in health and disease.

Drug Design: develop specific inhibitors to control the enzymatic activity of ECM remodeling enzymes, elucidating their function, mode of action, and therapeutic potential.

Matrix Biology: the ECM and its remodeling enzymes in physiological and pathological conditions. Development of novel tools in the fields of systems biology, immunological tools, molecular and biochemical methods, and a wide range of imaging techniques to study ECM functional remodeling.

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Prof. Dov Sagi

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Human vision, with an emphasis on processes involved in image segmentation, learning, and memory.

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Prof. Samuel Safran

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Biological Physics - mesoscale theory

Collaboration with: Dennis Discher, Univ. Pennsylvania - DNA damage in migrating cells as a model of metastasis. Talila Volk, Weizmann Institute - muscle cells and nuclear deformation. Gary Karpen, Berekely - phase separation in the cellular nucleus: experiments; Frank Juilicher - MPI Dresden - phase separation theory. Prof. Zheng Gang Wang - CalTech - thoery of polymer interactions applied to chromosome ovelap. Tony Hyman - MPI Dresden - phase separation in cells.

Soft matter physics - theory

Cell cytoskeletal mechanics - theory

Mesoscale chromatin organization - theory

Cell shape and volume - theory

Phase separation and condensates in cells - theory

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