May 27-31, 2017
Sunday28May
Combining Disciplines for Understanding Complex Phenomena: The Impact of Microbial Communities on Health and Environmental Processes
| Date | Sunday, May 28, 2017 |
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| Time | 11:00 |
| Location | Sussman Family Building for Environmental Sciences M. Magaritz Seminar Room |
| Lecturer | Naama Lang-Yona Max Planck Institute for Chemistry |
| Organizer | Department of Earth and Planetary Sciences |
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Sunday28May
To be announced
| Date | Sunday, May 28, 2017 |
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| Time | 13:00 |
| Location | Arthur and Rochelle Belfer Building for Biomedical Research Botnar Auditorium |
| Lecturer | Alina Kolpakova Eli Arama's group, Dept. of Molecular Genetics, WIS |
| Organizer | Department of Molecular Genetics |
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Sunday28May
Afternoon Music the Moovie - Where is Elle-Kari and what happened to Noriko-San ?
| Date | Sunday, May 28, 2017 |
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| Time | 16:30 - 17:30 |
| Location | Michael and Anna Wix Auditorium |
| Details | A nostalgic, fascinating and heart-breaking journey into the core of the series books, "children of the world", very popular photographed children books from the mid of the 20th century |
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Monday29May
"Solving hard computational problems with coupled lasers"
| Date | Monday, May 29, 2017 |
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| Time | 11:00 - 12:15 |
| Location | Gerhard M.J. Schmidt Lecture Hall |
| Lecturer | Prof. Nir Davidson Department of Physics of Complex Systems WIS |
| Organizer | Faculty of Chemistry |
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Monday29May
Combination therapies and drug resistance in Triple Negative Breast Cancer
| Date | Monday, May 29, 2017 |
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| Time | 14:00 - 15:00 |
| Title | Cancer Research Club |
| Location | Max and Lillian Candiotty Building Seminar Room |
| Lecturer | Prof. Sima Lev Department of Molecular Cell Biology, Weizmann Institute |
| Organizer | Department of Biological Regulation |
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| Contact | |
| Abstract | Triple negative breast cancer (TNBC) is a highly aggressive, heterogeneous disease with high rates of metastasis and poor prognosis. Currently, there are no targeted therapies for TNBC and adjuvant chemotherapy is the mainstay treatment. Identification of molecular targets and potent combination therapies for TNBC is a major challenge of extensive biomedical research and our own studies. Given that drug resistance is a critical clinical problem, a drug combination that could overcome drug resistance could offer a promising therapeutic opportunity. We have recently identified potent combination therapies for TNBC which are not only potent but could also overcome drug resistance and further defined the molecular mechanisms underlying their therapeutic benefit.
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Monday29May
Foundations of Computer Science Seminar
| Date | Monday, May 29, 2017 |
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| Time | 14:30 - 16:00 |
| Title | Almost Optimal eps bias |
| Location | Jacob Ziskind Building |
| Lecturer | Amnon Ta-Shma Tel-Aviv University |
| Organizer | Faculty of Mathematics and Computer Science, Department of Computer Science and Applied Mathematics, Department of Mathematics |
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| Abstract | The question of finding an epsilon-biased set with close to optimal support size, or, equivalently, finding an explicit binary code with distance 1/2-epsilon and rate close to the Gilbert-Varshamov bound, attracted a lot of attention in recent decades. In this paper we solve the problem almost optimally and show an explicit epsilon-biased set over k bits with support size O(k/epsilon^{2 o(1)}). This improves upon all previous explicit constructions which were in the order of k^2/epsilon^2, k/epsilon^3 or (k/epsilon^2)^{5/4}. The result is close to the Gilbert-Varshamov bound which is O(k/epsilon^2) and the lower bound which is $Omega(k/epsilon^2 log(1/epsilon)). The main technical tool we use is bias amplification with the s-wide replacement product. The sum of two independent samples from a biased set is epsilon^2 biased. Rozenman and Wigderson showed how to amplify the bias more economically by choosing two samples with an expander. Based on that they suggested a recursive construction that achieves sample size O(k/epsilon^4). We show that amplification with a long random walk over the s-wide replacement product reduces the bias almost optimally. |