Ronen Hazan Hebrew university , 2016-2019
1 protocol

Amir Szitenberg 1 protocol

Michael Klutstein
  • Head, Chromatin and aging research laboratory, Institute of Dental Sciences, Hebrew University of Jerusalem, 2015-2019
Research focus
  • -
  • 1 Author merit


PhD, Hebrew University of Jerusalem, Israel, 2009


• Aouizerat, T., Gutman, I., Paz, Y., Maeir, A. M., Gadot, Y., Gelman, D., Szitenberg, A., Drori, E., Pinkus, A., Schoemann, M., Kaplan, R., Ben-Gedalya, T., Coppenhagen-Glazer, S., Reich, E., Saragovi, A., Lipschits, O., Klutstein, M. and Hazan, R. (2019). Isolation and Characterization of Live Yeast Cells from Ancient Vessels as a Tool in Bio-Archaeology. mBio 10(2).
• Kaminski Strauss, S., Schirman, D., Jona, G., Brooks, A. N., Kunjapur, A. M., Nguyen Ba, A. N., Flint, A., Solt, A., Mershin, A., Dixit, A., Yona, A. H., Csorgo, B., Busby, B. P., Hennig, B. P., Pal, C., Schraivogel, D., Schultz, D., Wernick, D. G., Agashe, D., Levi, D., Zabezhinsky, D., Russ, D., Sass, E., Tamar, E., Herz, E., Levy, E. D., Church, G. M., Yelin, I., Nachman, I., Gerst, J. E., Georgeson, J. M., Adamala, K. P., Steinmetz, L. M., Rubsam, M., Ralser, M., Klutstein, M., Desai, M. M., Walunjkar, N., Yin, N., Aharon Hefetz, N., Jakimo, N., Snitser, O., Adini, O., Kumar, P., Soo Hoo Smith, R., Zeidan, R., Hazan, R., Rak, R., Kishony, R., Johnson, S., Nouriel, S., Vonesch, S. C., Foster, S., Dagan, T., Wein, T., Karydis, T., Wannier, T. M., Stiles, T., Olin-Sandoval, V., Mueller, W. F., Bar-On, Y. M., Dahan, O. and Pilpel, Y. (2019). Evolthon: A community endeavor to evolve lab evolution. PLoS Biol 17(3): e3000182.
• Klutstein, M., Moss, J., Kaplan, T. and Cedar, H. (2017). Contribution of epigenetic mechanisms to variation in cancer risk among tissues. Proc Natl Acad Sci U S A 114(9): 2230-2234.
• Klutstein, M., Fennell, A., Fernandez-Alvarez, A. and Cooper, J. P. (2015). The telomere bouquet regulates meiotic centromere assembly. Nat Cell Biol 17(4): 458-469.
• Valente, L. P., Dehe, P. M., Klutstein, M., Aligianni, S., Watt, S., Bahler, J. and Cooper, J. P. (2013). Myb-domain protein Teb1 controls histone levels and centromere assembly in fission yeast. EMBO J 32(3): 450-460.
• Klutstein, M., Siegfried, Z., Gispan, A., Farkash-Amar, S., Zinman, G., Bar-Joseph, Z., Simchen, G. and Simon, I. (2010). Combination of genomic approaches with functional genetic experiments reveals two modes of repression of yeast middle-phase meiosis genes. BMC Genomics 11: 478.
• Levy, A., Eyal, M., Hershkovits, G., Salmon-Divon, M., Klutstein, M. and Katcoff, D. J. (2008). Yeast linker histone Hho1p is required for efficient RNA polymerase I processivity and transcriptional silencing at the ribosomal DNA. Proc Natl Acad Sci U S A 105(33): 11703-11708.
• Shi, Y., Klutstein, M., Simon, I., Mitchell, T. and Bar-Joseph, Z. (2009). A combined expression-interaction model for inferring the temporal activity of transcription factors. J Comput Biol 16(8): 1035-1049.
• Gitter, A., Siegfried, Z., Klutstein, M., Fornes, O., Oliva, B., Simon, I. and Bar-Joseph, Z. (2009). Backup in gene regulatory networks explains differences between binding and knockout results. Mol Syst Biol 5: 276.
• Klutstein, M., Xaver, M., Shemesh, R., Zenvirth, D., Klein, F. and Simchen, G. (2009). Separation of roles of Zip1 in meiosis revealed in heterozygous mutants of Saccharomyces cerevisiae. Mol Genet Genomics 282(5): 453-462.
• Klutstein, M., Shaked, H., Sherman, A., Avivi-Ragolsky, N., Shema, E., Zenvirth, D., Levy, A. A. and Simchen, G. (2008). Functional conservation of the yeast and Arabidopsis RAD54-like genes. Genetics 178(4): 2389-2397.
• Shi, Y., Klustein, M., Simon, I., Mitchell, T. and Bar-Joseph, Z. (2007). Continuous hidden process model for time series expression experiments. Bioinformatics 23(13): i459-467.
• Ben-Ari, G., Zenvirth, D., Sherman, A., David, L., Klutstein, M., Lavi, U., Hillel, J. and Simchen, G. (2006). Four linked genes participate in controlling sporulation efficiency in budding yeast. PLoS Genet 2(11): e195.
1 Protocol published
Isolation and Characterization of Live Yeast Cells from Ancient Clay Vessels
Ancient fermented food has been studied mainly based on residue analysis and recipes and reconstruction attempts were performed using modern domesticated yeast. Furthermore, microorganisms which participated in fermentation were studied using ...
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