- 1) Chu, S., DeRisi, J., Eisen, M., Mulholland, J., Botstein, D., Brown, P. O., and Herskowitz, I., The transcriptional program of sporulation in budding yeast. Science, 282, 699–705 (1998).
- 2) Primig, M., Williams, R. M., Winzeler, E. A., Tevzadze, G. G., Conway, A. R., Hwang, S. Y., Davis, R. W., and Esposito, R. E., The core meiotic transcriptome in budding yeasts. Nature genet., 26, 415–423 (2000).
- 3) Mitchell, A. P., Control of meiotic gene expression in Saccharomyces cerevisiae. Microbiol. Rev., 58, 56–70 (1994).
- 4) Sudarsanam, P., and Winston, F., The Swi/Snf family, nucleosome-remodeling complexes and transcriptional control. Trends Genetics, 16, 345–351 (2000).
- 5) Aalfs, J. D., and Kingston, R. E., What does ‘chromatin remodeling’ mean? Trends Biochem. Sci., 25, 548–555 (2000).
- 6) Côté, J., Quinn, J., Workman, J. L., and Peterson, C. L., Stimulation of GAL4 derivative binding to nucleosomal DNA by the yeast SWI/SNF complex. Science, 265, 53–60 (1994).
- 7) Cairns, B. R., Lorch, Y., Li, Y., Zhang, M., Lacomis, L., Erdjument-Bromage, H., Tempst, P., Du, J., Laurent, B., and Kornberg, R. D., RSC, an essential, abundant chromatin-remodeling complex. Cell, 87, 1249–1260 (1996).
- 8) Tsuchiya, E., Uno, M., Kiguchi, A., Masuoka, K., Kanemori, Y., Okabe, S., and Miyakawa, T., The Saccharomyces cerevisiae NPS1 gene, a novel CDC gene which encodes a 160 kDa nuclear protein involved in G2 phase control. EMBO J., 11, 4017–4026 (1992).
- 9) Cao, Y., Cairns, B. R., Kornberg, R. D., and Laurent, B. C., Sfh1p, a component of a novel chromatin-remodeling complex, is required for cell cycle progression. Mol. Cell. Biol., 17, 3323–3334 (1997).
- 10) Yukawa, M., Katoh, S., Miyakawa, T., and Tsuchiya, E., Nps1/Sth1p, a component of an essential chromatin-remodeling complex of Saccharomyces cerevisiae, is required for the maximal expression of early meiotic genes. Genes Cells, 4, 99–110 (1999).
- 11) Yukawa, M., Koyama, H., Miyahara, K., and Tsuchiya, E., Functional differences between RSC1 and RSC2, components of a for growth essential chromatin-remodeling complex of Saccharomyces cerevisiae, during the sporulation process. FEMS Yeast Res., 2, 87–91 (2002).
- 12) Koyama, H., Itoh, M., Miyahara, K., and Tsuchiya, E., Abundance of the RSC nucleosome-remodeling complex is important for the cells to tolerate DNA damage in Saccharomyces cerevisie. FEBS Lett., 531, 215–221 (2002).
- 13) Jeanmougin, F., Wurtz, J.-M., Le Douarin, B., Chambon, P., and Losson, R., The bromodomain revisited. Trends Biochem. Sci., 22, 151–153 (1997).
- 14) Dyson, M. H., Rose, S., and Mahadevan, L. C., Acetyllysine-binding and function of bromodomain-containing proteins in chromatin. Frontiers Biosci., 6, d853–865 (2001).
- 15) Dhalluin, C., Carlson, J. E., Zeng, L., He, C., Aggarwal, A. K., and Zhou, M. M., Structure and ligand of a histone acetyltransferase bromodomain. Nature, 399, 491–496 (1999).
- 16) Owen, D. J., Ornaghi, P., Yang, J.-C., Lowe, N., Evans, P. R., Ballario, P., Neuhaus, D., Filetici, P., and Travers, A. A., The structural basis for the recognition of acetylated histone H4 by the bromodomain of histone acetyltransferase Gcn5p. EMBO J., 22, 6141–6149 (2000).
- 17) Jacobson, R. H., Ladurner, A. G., King, D. S., and Tjian, R., Structure and function of a human TAFII250 double bromodomain module. Science, 288, 1422–1425 (2000).
- 18) Col, E., Caron, C., Seigneurin-Berny, D., Gracia, J., Favier, A., and Khochbin, S., The histone acetyltransferase, hGCN5, interacts with and acetylates the HIV transactivator, Tat. J. Biol. Chem., 276, 28179–28184 (2001).
- 19) Hsu, S. I.-H., Yang, C. M., Sim, K. G., Hentschel, D. M., O’Leary, E., and Bonventre, J. V., TRIP-Br, a novel family of PHD zinc finger- and bromodomain-interacting proteins that regulate the transcriptional activity of E2F-1/DP-1. EMBO J., 20, 2273–2285 (2001).
- 20) Nissen, L. J., Gelly, J.-C., and Hipskind, R. A., Induction-independent recruitment of CREB-binding protein to the c-fos serum response element through interactions between the bromodomain and Elk-1. J. Biol. Chem., 276, 5213–5221 (2001).
- 21) Rothstein, R., One-step gene disruption in yeast. Methods Enzymol., 101, 202–211 (1983).
- 22) Tsuchiya, E., Hosotani, T., and Miyakawa, T., A mutation in NPS1/STH1, an essential gene encoding a component of a novel chromatin-remodeling complex RSC, alters the chromatin structure of Saccharomyces cerevisiae centromeres. Nucleic Acids Res., 26, 3286–3292 (1998).
- 23) Guthrie, C., and Fink, G. R., Guide to yeast genetics and molecular biology. Methods Enzymol., 194, 169–270 (1991).
- 24) Rose, M. D., Winston, F., and Hieter, P., “Methods in Yeast Genetics”, Cold Spring Harbor Laboratory Press, New York, pp. 177–183 (1990).
- 25) Nonet, M. L., Staunton, J., Kilgard, M. P., Fergestad, T., Hartwieg, E., Horvitz, H. R., Jorgensen, E. M., and Meyer, B. J., C. elegans rab-3 mutant synapses exhibit impaired function and are partially depleted of vesicles. J. Neurosci., 17, 8061–8073 (1997).
- 26) Causton, H. C., Ren, B., Koh, S. S., Harbison, C. T., Kanin, E., Jennings, E. G., Lee, T. I., True, H. L., Lander, E. S., and Young, R. A., Remodeling of yeast genome expression in response to environmental changes. Mol. Biol. Cell, 12, 323–337 (2001).
- 27) Malone, R. E., and Esposito, R. E., Recombinationless meiosis in Saccharomyces cerevisiae. Mol. Cell. Biol., 1, 891–901 (1981).
- 28) Klapholz, S., and Esposito, R. E., Isolation of SPO12-1 and SPO13-1 from a natural variant of yeast that undergoes a single meiotic division. Genetics, 96, 567–611 (1980).
- 29) Mandel, S., Robzyk, K., and Kassir, Y., The IME1 gene encodes a transcription factor which is required to induce meiosis in Saccharomyces cerevisiae. Dev. Genet., 15, 139–147 (1994).
- 30) Rubin-Benjerano, I., Mandel, S., Robzyk, K., and Kassir, Y., Induction of meiosis in Saccharomyces cerevisiae depends on conversion of the transcriptional repressor Ume6 to a positive regulator by its regulated association with the transcriptional activator Ime1. Mol. Cell. Biol., 16, 2518–2526 (1996).
- 31) Mitchell, A. P., Driscoll, S. E., and Smith, H. E., Positive control of sporulation-specific genes by the IME1 and IME2 products in Saccharomyces cerevisiae. Mol. Cell. Biol., 10, 2104–2110 (1990).
- 32) Shefer-Vaida, M., Sherman, A., Ashkenazi, T., Robzyk, K., and Kassir, Y., Positive and negative feedback loops affect the transcription of IME1, a positive regulator of meiosis in Saccharomyces cerevisiae. Dev. Genet., 16, 219–228 (1995).
- 33) Guttmann-Raviv, N., Martin, S., and Kassir, Y., Ime2, a meiosis-specific kinase in yeast, is required for destabilization of its transcriptional activator, Ime1. Mol. Cell. Biol., 22, 2047–2056 (2002).
- 34) Smith, H. E., and Mitchell, A. P., A transcriptional cascade governs entry into meiosis in Saccharomyces cerevisiae. Mol. Cell. Biol., 9, 2142–2152 (1989).
- 35) Ufano, S., San-Segundo, P., Del Rey, F., and Vázquez de Aldana, C. R., SWM1, a developmentally regulated gene, is required for spore wall assembly in Saccharomyces cerevisiae. Mol. Cell. Biol., 19, 2118–2129 (1999).
- 36) Rabitsch, K. P., Tóth, A., Gálová, M., Schleiffer, A., Schaffner, G., Aigner, E., Rupp, C., Penkner, A. M., Moreno-Borchart, A. C., Primig, M., Esposito, R. E., Klein, F., Knop, M., and Nasmyth, K., A screen for genes required for meiosis and spore formation based on whole-genome expression. Curr. Biol., 11, 1001–1009 (2001).
- 37) Briza, P., Bogengruber, E., Thur, A., Rutzler, M., Munsterkotter, M., Dawes, I. W., and Breitenbach, M., Systematic analysis of sporulation phenotypes in 624 non-lethal homozygous deletion strains of Saccharomyces cerevisiae. Yeast, 19, 403–422 (2002).
- 38) Cooper, K. F., Mallory, M. J., Egeland, D. B., Jarnik, M., and Strich, R., Ama1p is a meiosis-specific regulator of the anaphase promoting complex/cyclosome in yeast. Proc. Natur. Acad. Sci. USA, 97, 14548–14553 (2000).
- 39) Yoon, H.-J., Foektistova, A., Wolf, B. A., Jennings, J. L., Link, A. J., and Gould, K. L., Proteomics analysis identifies new components of the fission and budding yeast anaphase-promoting complex. Curr. Biol., 12, 2048–2054 (2002).
- 40) Chu, S., and Herskowitz, I., Gametogenesis in yeast is regulated by a transcriptional cascade dependent on Ndt80. Mol. Cell, 1, 685–696 (1998).
- 41) Peterson, C. L., and Logie, C., Recruitment of chromatin remodeling machines. J. Cell. Biochem., 78, 179–185 (2000).
- 42) Hassan, A. H., Nely, K. E., Vignali, M., Reese, J. C., and Workman, J. L., Promoter targeting of chromatin-modifying complexes. Front. Biosci., 6, D1054–D1064 (2001).
- 43) Angus-Hill, M. L., Schlichter, A., Roberts, D., Erdjument-Bromage, H., Tempst, P., and Cairns, B. R., A Rsc3/Rsc30 zinc cluster dimmer reveals novel roles for the chromatin remodeler RSC in gene expression and cell cycle control. Mol. Cell, 7, 741–751 (2001).
- 44) Ng, H. H., Robert, F., Young, R. A., and Struhl, K., Genome-wide location and regulated recruitment of the RSC nucleosome-remodeling complex. Genes Dev., 16, 806–819 (2002).
- 45) Damelin, M., Simon, I., Moy, T. I., Wilson, B., Komili, S., Tempst, P., Roth, F. P., Young, R. A., Cairns, B. R., and Silver, P. A., The genome-wide localization of Rsc9, a component of the RSC chromatin-remodeling complex, changes in response to stress. Mol. Cell, 9, 563–573 (2002).
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RSC Nucleosome-remodeling Complex Plays Prominent Roles in Transcriptional Regulation throughout Budding Yeast Gametogenesis
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