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André Báfica, M.D., Ph.D.
Federal University of Santa Catarina
Florianópolis, Brazil
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Báfica is working to characterize a tuberculosis (TB) protein that is recognized by the human immune system and could someday boost the effectiveness of vaccines against TB. More
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Megan R. Carey, Ph.D.
The Champalimaud Center for the Unknown
Lisbon, Portugal
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Using transgenic mice, Carey’s lab is studying how specific neurons and synapses control the activities of the cerebellum, a part of the brain responsible for fine-tuning movement. More
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Pedro Carvalho, Ph.D.
Center for Genomic Regulation
Barcelona, Spain
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Carvalho’s lab is studying the mechanisms by which cells cope with a surplus of misfolded proteins. More
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Rui M. Costa, Ph.D.
The Champalimaud Center for the Unknown
Lisbon, Portugal
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Costa studies how the brain mediates the way organisms learn to move and act in their environment. His innovative study designs combine techniques to reveal the language of the brain. More
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László Csanády, M.D., Ph.D.
Semmelweis University of Medicine
Budapest, Hungary
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Csanády is developing approaches to understand the structure and function of ion channels. More
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Óscar Fernández-Capetillo, Ph.D.
Spanish National Cancer Research Center
Madrid, Spain
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Fernández-Capetillo’s investigation of DNA damage that occurs when cells replicate is leading him into other areas, including cancer and aging. More
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Luísa M. Figueiredo, Ph.D.
Institute of Molecular Medicine
Lisbon, Portugal
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Figueiredo studies how parasites, such as Trypanosoma brucei, evade the host immune system by varying their exposed surface antigens. More
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José L. García Pérez, Ph.D.
Pfizer-University of Granada-Junta de Andalucía Center for Genomics and Oncological Research
Granada, Spain
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García Pérez studies how the movement of mobile DNA affects the human genome. More
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Miguel Godinho Ferreira, Ph.D.
Gulbenkian Science Institute
Oeiras, Portugal
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Ferreira hopes to find out if telomeres work as molecular clocks dictating how long we have before age-related diseases, namely cancer, start making an appearance in our lives. More
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Rodrigo A. Gutiérrez, Ph.D.
Pontifical Catholic University of Chile
Santiago, Chile
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Gutiérrez investigates the gene networks that underlie plants’ growth and developmental adaptations in response to nutritional signals. More
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Junjie Hu, Ph.D.
Nankai University
Tianjin, China
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Hu’s research focuses on understanding how shaping and remodeling occurs in membranes of the endoplasmic reticulum. More
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Bavesh D. Kana, Ph.D.
University of the Witwatersrand
Johannesburg, South Africa
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Kana studies how changes in the cell wall of the tuberculosis bacterium affect whether an infected patient develops active disease. More
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Fyodor A. Kondrashov, Ph.D.
Center for Genomic Regulation
Barcelona, Spain
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As organisms evolve, genes are copied, mutated, and combined to give cells and proteins new functions. Kondrashov studies how changes at the gene level are selected for and, over time, lead to changes in an organism’s biological fitness and function. More
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Sandhya P. Koushika, Ph.D.
National Center for Biological Sciences, Tata Institute of Fundamental Research
Bangalore, India
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Koushika uses Caenorhabditis elegans to study the movement of presynaptic vesicles from one part of a nerve cell to another. More
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Simón Méndez-Ferrer, Ph.D.
National Center for Cardiovascular Research
Madrid, Spain
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Different cell types are intricately connected and in constant communication throughout the body. Méndez-Ferrer studies how this communication occurs and how organs affect each other. More
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Thumbi Ndung'u, Ph.D.
University of KwaZulu-Natal
Durban, South Africa
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Thumbi Ndung’u wants to help find a way for the body’s immune system to fight off the HIV virus on its own. More
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Marcin Nowotny, Ph.D.
International Institute of Molecular and Cell Biology
Warsaw, Poland
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Nowotny uses X-ray crystallography to reveal the structures and mechanisms of DNA and RNA enzymes essential to cellular function. More
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Dong-Chan Oh, Ph.D.
Seoul National University
Seoul, South Korea
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Oh focuses on discovery of small organic molecules derived from natural sources that can be used as therapeutic agents. More
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Gabriela C. Pagnussat, Ph.D.
National University of Mar del Plata
Mar del Plata, Argentina
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Research by Pagnussat is helping to explain the delicate and precise reproductive process in plants. More
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Feng Shao, Ph.D.
National Institute of Biological Sciences
Beijing, China
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Shao uses his multidisciplinary background to understand the delicate relationship between bacteria and the organisms they aim to infect. More
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Rocio Sotillo, Ph.D.
European Molecular Biology Laboratory
Monterotondo, Italy
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Sotillo studies how inappropriate numbers of chromosomes can help cancer cells thrive. More
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Chun Tang, Ph.D.
Wuhan Institute of Physics and Mathematics-Chinese Academy of Sciences
Wuhan, Hubei, China
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Tang is developing novel nuclear magnetic resonance techniques to study the behavior and structures of proteins in motion. More
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Rosella Visintin, Ph.D.
European Institute Foundation of Oncology
Milan, Italy
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Visintin investigates the regulation of the cell cycle—the process by which cells grow, replicate their genetic material, and divide. More
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Xiaochen Wang, Ph.D.
National Institute of Biological Sciences
Beijing, China
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Cell suicide can be good for an organism, but it requires a speedy postmortem cleanup. Wang’s group is studying how cells accomplish this task before the cellular corpses trigger an immune system malfunction. More
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Karina B. Xavier, Ph.D.
Gulbenkian Science Institute
Oeiras, Portugal
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Xavier is listening in on the conversations of bacteria that live in the human gut, eavesdropping that could eventually improve human health. More
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Nieng Yan, Ph.D.
Tsinghua University
Beijing, China
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An estimated 20 to 30 percent of the genes in the human genome make membrane proteins, which play a pivotal role in a range of diseases. By deciphering these proteins’ structures, Yan’s work is answering questions about how these proteins function. More
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Hong Zhang, Ph.D.
National Institute of Biological Sciences
Beijing, China
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For cells to thrive and become the correct cell type during development, they must prevent clumps of proteins from accumulating. Zhang is uncovering the genes responsible for this clearance process. More
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Bing Zhu, Ph.D.
National Institute of Biological Sciences
Beijing, China
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Histones are proteins that package DNA into tight three-dimensional spools—their modification pattern is part of so-called “epigenetic information” that plays a pivotal role in determining what genes are expressed in what cells. Zhu wants to know how epigenetic information is passed between generations of cells. More
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