Transcriptional regulation of meiosis in budding yeast

More documents

Recommendations

Info

Roeder, G. S., and Bailis, J. M. (2000). The pachytene checkpoint. Trends Genet 16, 395-403. Roman, H., and Sands, S. (1953). Heterogeneity of clones of Saccharomyces derived from haploid ascospores. Proc Natl Acad/ Science 39, 171-179. Roth, R., and Fogel, S. (1971). A system selective for yeast mutants deficient in meiotic recombination. Mol Gen Genet 112, 295-305. Rubin-Bejerano, I., Mandel, S., Robzyk, K., and Kassir, Y. (1996). Induction of meiosis in Saccharomyces cerevisiae depends on conversion of the transcriptional represssor Ume6 to a positive regulator by its regulated association with the transcriptional activator Ime1. Mol Cell Biol 16, 2518-2526. Rundlett, S. E., Carmen, A. A., Suka, N., Turner, B. M., and Grunstein, M. (1998). Transcriptional repression by UME6 involves deacetylation of lysine 5 of histone H4 by RPD3. Nature 392, 831-835. Rusche, L. N., and Rine, J. (2001). Conversion of a gene-specific repressor to a regional silencer. Genes Dev 15, 955-967. Sagee, S., Sherman, A., Shenhar, G., Robzyk, K., Ben-Doy, N., Simchen, G., and Kassir, Y. (1998). Multiple and distinct activation and repression sequences mediate the regulated transcription of IME1, a transcriptional activator of meiosis- specific genes in Saccharomyces cerevisiae [published erratum appears in Mol Cell Biol 1998 Jun;18(6):3645]. Mol Cell Biol 18, 1985-1995. Schmitt, A. P., and McEntee, K. (1996). Msn2p, a zinc finger DNA-binding protein, is the transcriptional activator of the multistress response in Saccharomyces cerevisiae. Proc Natl Acad Sci U S A 93, 5777-5782. Schwob, E., and Nasmyth, K. (1993). CLB5 and CLB6, a new pair of B cyclins involved in DNA replication in Saccharomyces cerevisiae. Genes Dev 7, 1160-1175. Segal, M., Clarke, D. J., Maddox, P., Salmon, E. D., Bloom, K., and Reed, S. I. (2000). Coordinated spindle assembly and orientation requires Clb5p-dependent kinase in budding yeast. J Cell Biol 148, 441-452. Shah, J. C., and Clancy, M. J. (1992). IME4, a gene that mediates MAT and nutritional control of meiosis in Saccharomyces cerevisiae. Mol Cell Biol 12, 1078-1086. Shefer-Vaida, M., Sherman, A., Ashkenazi, T., Robzyk, K., and Kassir, Y. (1995). Positive and negative feedback loops affect the transcription of IME1, a positive regulator of meiosis in Saccharomyces cerevisiae. Dev Genet 16, 219-228. 53
Shenhar, G. (2001). TRANSCRIPTIONAL REGULATION OF IME1, THE MASTER REGULATOR OF MEIOSIS IN BUDDING YEAST. PhD thesis, Technion - Israel Institute of Technology. Shenhar, G., and Kassir, Y. (2001). A positive regulator of mitosis, Sok2, functions as a negative regulator of meiosis in Saccharomyces cerevisiae. Mol Cell Biol 21, 1603-1612. Sherman, A. (1992). The regulation and time of action of the gene IME1 - inducer of meiosis in the yeast Saccharomyces cerevisiae., Ph. D, Hebrew University, Jerusalem. Sherman, A., Shefer, M., Sagee, S., and Kassir, Y. (1993). Post-transcriptional regulation of IME1 determines initiation of meiosis in Saccharomyces cerevisiae. Mol Gen Genet 237, 375- 384. Shilo, V., Simchen, G., and Shilo, B. (1978). Initiation of meiosis in cell cycle initiation mutants of Saccharomyces cerevisiae. Exp Cell Res 112, 241-248. Shimizu, M., Hara, M., Murase, A., Shindo, H., and Mitchell, A. P. (1997a). Dissection of the DNA binding domain of yeast Zn-finger protein Rme1p, a repressor of meiotic activator IME1 [In Process Citation]. Nucleic Acids Symp Ser, 175-176. Shimizu, M., Li, W., Covitz, P. A., Hara, M., Shindo, H., and Mitchell, A. P. (1998). Genomic footprinting of the yeast zinc finger protein Rme1p and its roles in repression of the meiotic activator IME1. Nucleic Acids Res 26, 2329-2336. Shimizu, M., Li, W., Shindo, H., and Mitchell, A. P. (1997b). Transcriptional repression at a distance through exclusion of activator binding in vivo. Proc Natl Acad Sci U S A 94, 790-795. Sia, R. A., and Mitchell, A. P. (1995). Stimulation of later functions of the yeast meiotic protein kinase Ime2p by the IDS2 gene product. Mol Cell Biol 15, 5279-5287. Simchen, G. (1974). Are mitotic functions required in meiosis? Genetics 76, 745-753. Slater, M. L. (1973). Effect of reversible inhibition of deoxyribonucleic acid synthesis on the yeast cell cycle. J Bacteriol 113, 263-270. Smith, A., Ward, M. P., and Garrett, S. (1998). Yeast PKA represses Msn2p/Msn4p-dependent gene expression to regulate growth, stress response and glycogen accumulation. Embo J 17, 3556-3564. Smith, H. E., Driscoll, S. E., Sia, R. A., Yuan, H. E., and Mitchell, A. P. (1993). Genetic evidence for transcriptional activation by the yeast IME1 gene product. Genetics 133, 775-784. Smith, H. E., and Mitchell, A. P. (1989). A transcriptional cascade governs entry into meiosis in Saccharomyces cerevisiae. Mol Cell Biol 9, 2142-2152. Smith, H. E., Su, S. S., Neigeborn, L., Driscoll, S. E., and Mitchell, A. P. (1990). Role of IME1 expression in regulation of meiosis in Saccharomyces cerevisiae. Mol Cell Biol 10, 6103-6113. 54
Page 1 and 2:
Transcriptional regulation of meios
Page 3 and 4: 3. Proteins required for the associ
Page 5 and 6: I. Introduction The budding yeast S
Page 7 and 8: et al., 2000). On the other hand, i
Page 9 and 10: the UCS4 element upstream of the CY
Page 11 and 12: egulator of Cyr1, CDC25 encodes the
Page 13 and 14: 1998). Furthermore, unlike IREu, IR
Page 15 and 16: In the absence of glucose Sok2 does
Page 17 and 18: autophosphorylation, including on a
Page 19 and 20: hours in SPM, followed by a decline
Page 21 and 22: 4. The SIN3, UME6, and RPD3 genes.
Page 23 and 24: 1993). Nevertheless, when Ime1 is t
Page 25 and 26: However, direct demonstration of ph
Page 27 and 28: 3. Proteins required for the associ
Page 29 and 30: heterologous promoter does not supp
Page 31 and 32: expressed only in the absence of gl
Page 33 and 34: structure of hCDK2 reveals that cyc
Page 35 and 36: terminal non-essential domain (Komi
Page 37 and 38: is dependent on Ime2, but in cells
Page 39 and 40: VI. Transcriptional regulation of l
Page 41 and 42: The transcriptional activator that
Page 43 and 44: Functional interaction between Ime1
Page 45 and 46: Bowdish, K. S., and Mitchell, A. P.
Page 47 and 48: Foiani, M., Nadjar-Boger, E., Capon
Page 49 and 50: Jeffrey, P. D., Russo, A. A., Polya
Page 51 and 52: Lindgren, A., Bungard, D., Pierce,
Page 53: Pazin, M. J., and Kadonaga, J. T. (
Page 57 and 58: Szent-Gyorgyi, C. (1995). A biparti
Page 59 and 60: Yoshida, M., Kawaguchi, H., Sakata,
Page 61 and 62: Fig. 4. The function of positive an
Page 63 and 64: Fig. 9. A schematic structure of IM
Page 65 and 66: activation by Ime2 is due to phosph
Page 67 and 68: MCK1 Protein kinase required for ef
Page 69: UME3 A cyclin C homolog that associ
show all

Transcriptional regulation of meiosis in budding yeast

Create successful ePaper yourself

Delete template?

Save as template?