Visiting Student

Informazioni sulla borsa

Ogni anno viene indetto un Bando per Borse di Studio di una durata variabile, in funzione del progetto, da 6 a 24 mesi. In questo periodo il vincitore si unirà ad uno dei team di ricerca già al lavoro presso l’Istituto. La borsa prevede un importo da $15.000 a $26.000 all’anno, in funzione del livello professionale del candidato.

I giovani ricercatori Italiani, laureati in discipline medico-scientifiche, hanno possibilità di effettuare un programma di studio e perfezionamento della ricerca o un post-dottorato. La prima edizione è stata nel 2002. Il dettaglio delle singole edizioni è riportato nelle pagine seguenti

http://sergiolombroso.arpsoft.webfactional.com/wp-content/uploads/2015/08/Visiting-Student.png

Progetti di ricerca associati

Ogni anno viene indetto un Bando per Borse di Studio di una durata variabile, in funzione del progetto, da 6 a 24 mesi. In questo periodo il vincitore si unirà ad uno dei team di ricerca già al lavoro presso l’Istituto. La borsa prevede un importo da $15.000 a $26.000 all’anno, in funzione del livello professionale del candidato.


Oncogenic receptor tyrosine kinases
Prof. Yosef Yarden, Department of Biological Regulation [email protected] Much of Prof. Yosef Yarden’s research is centered on EGFR, a family of growth factor receptors that play a critical role in tumor progression.
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The role of bacteria in chemotherapy resistance
Dr. Ravid Straussman, Department of Molecular Cell Biology [email protected] The Straussman lab studies mechanisms of resistance to anti-cancer therapies. After demonstrating that cells of the tumor microenvironment can modulate the sensitivity
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Anti-tumor antibodies
Dr. Ziv Shulman, Department of Immunology [email protected] Dr. Ziv Shulman studies the cellular and molecular processes that lead to the generation of protective antibodies in response to vaccination or pathogen
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Lymphocytes and their microenvironment in cancer
Prof. Idit Shachar, Department of Immunology Prof. Idit Shachar’s research focuses on factors that affect mature peripheral lymphocytes–a subtype of the white blood cells that circulate in the blood, protect
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Reprogramming in the tumor microenvironment
Dr. Ruth Scherz-Shouval, Department of Biomolecular Sciences [email protected] Dr. Scherz-Shouval examines how cancer cells recruit and subvert normal cells to create an environment that promotes tumor progression and metastasis. She
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Photodynamic cancer therapy and immunomodulation
Prof. Avigdor Scherz, Department of Plant and Environmental Sciences [email protected] Prof. Avigdor Scherz is a plant scientist who has parleyed his knowledge of photosynthetic materials into a revolutionary cure for
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Functional genomics in melanoma
Prof. Yardena Samuels [email protected] The research of Prof. Yardena Samuels focuses on cancer genomics and immuno-genomics in melanoma.  In her postdoctoral work, Prof. Samuels discovered a gene that mutated in 32%
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Air pollution and cancer
Prof. Yinon Rudich, Department of Earth and Planetary Sciences [email protected] Prof. Yinon Rudich is an expert on aerosols—the airborne dust that has a significant impact both on global climate patterns
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p53 in normal and tumor cells
Prof. Varda Rotter, Department of Molecular Cell Biology [email protected] Prof. Varda Rotter is among the pioneers who discovered the p53 protein, and provided original insights for the understanding of the
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Mechanistic links between regulation of gene expression and cancer
Prof. Moshe Oren, Department of Molecular Cell Biology [email protected] Prof. Oren is studying a key player in molecular cancer control—the tumor suppressor gene called p53. In the early 1980s, he
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Imaging of angiogenesis
Prof. Michal Neeman, Department of Biological Regulation [email protected] Prof. Michal Neeman’s research focuses on mechanisms that regulate angiogenesis—the development of new blood vessels—particularly in ovarian cancer. Her research has demonstrated
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Cell signaling in cancer development and metastasis
Prof. Sima Lev, Department of Molecular Cell Biology [email protected] The research of Prof. Sima Lev focuses on TBNC, or “triple negative” breast cancer – a hard-to-treat, aggressive  tumor that lacks
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Regulation of normal and leukemic human stem cells
Prof. Tsvee Lapidot, Department of Immunology [email protected] Stem cell transplantion is a treatment for some cancers, including leukemias, as well as for  immune deficiencies linked to inherited genetic mutations.  In
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Cellular senescence and cancer immunotherapy
Prof. Valery Krizhanovsky, Department of Molecular Cell Biology [email protected] Cellular senescence, an age-associated and irreversible form of cell cycle arrest which limits cells’ proliferative potential, serves as a potent barrier
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Programmed cell death
Prof. Adi Kimchi, Department of Molecular Genetics [email protected] Programmed cell death is the principal mechanism by which cells are physically eliminated in our body. Cancer cells must turn off this
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Cellular invasive migration and cancer
Prof. Benjamin Geiger, Department of Molecular Cell Biology [email protected] Prof. Benjamin Geiger’s research focuses on the molecular mechanisms that control cellular adhesion and migration.  In a recent study that may
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Cancer genetics and metabolism
Dr. Ayelet Erez, Department of Biological Regulation [email protected] A physician-scientist, Dr. Ayelet Erez is a geneticist and medical doctor who treat families with genetic cancer in addition to heading a
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Computational systems biology
Prof. Eytan Domany, Department of Physics of Complex Systems [email protected] The main research activity of Prof. Domany’s group is trying to mine data from large-scale experiments in biology. Taking a
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Immuno-genomics and cancer
Dr. Ido Amit, Department of Immunology [email protected] Prof. Ido Amit pioneered single cell genomic technologies and their application to the characterization of the immune system. Answering some of the most fundamental questions
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Combinatorial model for chemotherapy “cocktails”
Prof. Uri Alon, Department of Molecular Cell Biology [email protected] When a number of chemotherapy drugs are used for treating cancer, they must work well together, and be mixed in the
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Cell migration in immunity and cancer
Prof. Ronen Alon, Department of Immunology [email protected] Examining how immune cells and metastatic cancer cells migrate into and out of the blood vessels in which they circulate, Prof. Ronen Alon’s
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Leukocyte trafficking
Using special flow chambers that simulate blood flow and intravital microscopy in genetically manipulated mice, Prof. Alon and his team are investigating how both endothelial and perivascular trafficking molecules promote...
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Immuno-genomics
Dr. Amit studies the genomic code enabling immune cells to differentiate into specific subtypes and devise a specific response to invading pathogens.
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Cell signaling in cancer dev elopment and metastasis
The long- term goal of Prof. Lev’s studies is to define the signaling pathways and the intracellular signaling components that contribute to the development and progression of breast cancer.
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DNA repair, mutagenesis, and cancer
Prof. Livneh’s laboratory investigates the molecular mechanisms of DNA repair and mutagenesis and their biological role under normal and pathological conditions, primarily cancer.
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Imaging of angiogenesis
Prof. Neeman’s research centers on elucidating the mechanisms that regulate angiogenesis, using magnetic resonance and optical imaging.
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Links between regulation of gene expression and cancer
The main goals of Prof. Oren are to elucidate the processes that underlie the ability of p53 to act as a tumor suppressor and the mechanistic links between regulation of
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p53 in normal and tumor cells
Research in Prof. Rotter’s lab is focused on revealing the mechanism by which wild-type p53 acts in normal cells and the way in which mutant p53 contributes to cancer development.
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Functional genomics in melanoma
Prof. Samuel’s group aims to discover recurrent tumor-specific mutations in melanoma using high- throughput, whole-exome, and whole-genome sequencing approaches.
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Computation and systems biology
Prof. Segal’s group develops computational models aimed at understanding how molecular components interact to carry out complex biological functions.
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Intracellular signaling pathways
Prof. Seger’s current studies focus on the mechanism by which the linear signaling cascades induce many distinct, and even opposing, physiological and pathological processes.
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Epigenomics and evolution
Dr. Amos Tanay’s group is studying the physical interfaces that associate genomic information with mechanisms that interpret it in the nucleus.
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Oncogenic receptor tyrosine kinases
Prof. Yarden addresses the effect of the ErbB family on the mobility of tumor cells and on their ability to cross tissue barriers.
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