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Molecular and Cellular Biology Volume 21, 2001 - Issue 2
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Transcriptional Regulation

Remodeling of Yeast CUP1 Chromatin Involves Activator-Dependent Repositioning of Nucleosomes over the Entire Gene and Flanking Sequences

Chang-Hui ShenLaboratory of Cellular and Developmental Biology (NIDDK), National Institutes of Health, Bethesda, Maryland20892-2715
,
Benoit P. LeblancLaboratory of Cellular and Developmental Biology (NIDDK), National Institutes of Health, Bethesda, Maryland20892-2715
,
Jennifer A. AlfieriLaboratory of Cellular and Developmental Biology (NIDDK), National Institutes of Health, Bethesda, Maryland20892-2715
&
David J. ClarkLaboratory of Cellular and Developmental Biology (NIDDK), National Institutes of Health, Bethesda, Maryland20892-2715Correspondence[email protected]
Pages 534-547 | Received 03 Oct 2000, Accepted 01 Nov 2000, Published online: 28 Mar 2023

REFERENCES

  • Adams, C. C., and D. S. Gross. 1991. The yeast heat shock response is induced by conversion of cells to spheroplasts and by potent transcriptional inhibitors. J. Bacteriol. 173:7429–7435.
  • Adams, C. C., and J. L. Workman. 1993. Nucleosome displacement in transcription. Cell 72:305–308.
  • Alfieri, J. A., and D. J. Clark. 1999. Isolation of minichromosomes from yeast cells. Methods Enzymol. 304:35–49.
  • Bazett-Jones, D. P., J. Côté, C. C. Landel, C. L. Peterson, and J. L. Workman. 1999. The SWI/SNF complex creates loop domains in DNA and polynucleosome arrays and can disrupt DNA-histone contacts within these domains. Mol. Cell. Biol. 19:1470–1478.
  • Blackwood, E. M., and J. T. Kadonaga. 1998. Going the distance: a current view of enhancer action. Science 281:60–63.
  • Buchman, C., P. Skroch, J. Welch, S. Fogel, and M. Karin. 1989. The CUP2 gene product, regulator of yeast metallothionein expression, is a copper-activated DNA-binding protein. Mol. Cell. Biol. 9:4091–4095.
  • Butt, T. R., E. J. Sternberg, J. A. Gorman, P. Clark, D. Hamer, M. Rosenberg, and S. T. Crooke. 1984. Copper metallothionein of yeast, structure of the gene, and regulation of expression. Proc. Natl. Acad. Sci. USA 81:3332–3336.
  • Cairns, B. R., Y. Lorch, Y. Li, M. Zhang, L. Lacomis, H. Erdjument-Bromage, P. Tempst, J. Du, B. Laurent, and R. D. Kornberg. 1996. RSC, an essential, abundant chromatin-remodeling complex. Cell 87:1249–1260.
  • Clark, D. J.. 1998. Counting nucleosome cores on circular DNA using topoisomerase I. Chromatin: a practical approach.. H. Gould. 139–152. Oxford University Press, Oxford, United Kingdom
  • Davey, C., S. Pennings, and J. Allan. 1997. CpG methylation remodels chromatin structure in vitro. J. Mol. Biol. 267:276–288.
  • Davey, C., S. Pennings, G. Meerseman, T. J. Wess, and J. Allan. 1995. Periodicity of strong nucleosome positioning sites around the chicken adult β-globin gene may encode regularly spaced chromatin. Proc. Natl. Acad. Sci. USA 92:11210–11214.
  • Depew, R. E., and J. C. Wang. 1975. Conformational fluctuations of DNA helix. Proc. Natl. Acad. Sci. USA 72:4275–4279.
  • Ducker, C. E., and R. T. Simpson. 2000. The organized chromatin domain of the repressed yeast a cell-specific gene STE6 contains two molecules of the corepressor Tup1p per nucleosome. EMBO J. 19:400–409.
  • Eadara, J. K., and L. C. Lutter. 1993. RNA polymerase locations in the simian virus 40 transcription complex. J. Biol. Chem. 268:22020–22027.
  • Fedor, M. J., N. F. Lue, and R. D. Kornberg. 1988. Statistical positioning of nucleosomes by specific protein-binding to an upstream activating sequence in yeast. J. Mol. Biol. 204:109–127.
  • fürst, P., S. Hu, R. Hackett, and D. Hamer. 1988. Copper activates metallothionein gene transcription by altering the conformation of a specific DNA binding protein. Cell 55:705–717.
  • Grunstein, M.. 1997. Histone acetylation in chromatin structure and transcription. Nature 389:349–352.
  • Hamer, D. H., D. J. Thiele, and J. E. Lemontt. 1985. Function and autoregulation of yeast copperthionein. Science 228:685–690.
  • Hamiche, A., R. Sandaltzopoulos, D. A. Gdula, and C. Wu. 1999. ATP-dependent histone octamer sliding mediated by the chromatin remodeling complex NURF. Cell 97:833–842.
  • Haswell, E. S., and E. K. O'Shea. 1999. An in vitro system recapitulates chromatin remodeling at the PHO5 promoter. Mol. Cell. Biol. 19:2817–2827.
  • Jones, E. J.. 1991. Tackling the protease problem in Saccharomyces cerevisiae. Methods Enzymol. 194:428–453.
  • Kadonaga, J. T.. 1998. Eukaryotic transcription: an interlaced network of transcription factors and chromatin-modifying machines. Cell 92:307–313.
  • Karin, M., R. Najarian, A. Haslinger, A. P. Valenzuela, J. Welch, and S. Fogel. 1984. Primary structure and transcription of an amplified genetic locus: the CUP1 locus of yeast. Proc. Natl. Acad. Sci. USA 81:337–341.
  • Kingston, R. E., and G. J. Narlikar. 1999. ATP-dependent remodeling and acetylation as regulators of chromatin fluidity. Genes Dev. 13:2339–2352.
  • Kuras, L., and K. Struhl. 1999. Binding of TBP to promoters in vivo is stimulated by activators and requires Pol II holoenzyme. Nature 399:609–613.
  • Längst, G., E. J. Bonte, D. F. V. Corona, and P. B. Becker. 1999. Nucleosome movement by CHRAC and ISWI without disruption or trans-displacement of the histone octamer. Cell 97:843–852.
  • Leblanc, B. P., C. J. Benham, and D. J. Clark. 2000. An initiation element in the yeast CUP1 promoter is recognized by RNA polymerase II in the absence of TATA-box binding protein if the DNA is negatively supercoiled. Proc. Natl. Acad. Sci. USA 97:10745–10750.
  • Lee, D., and J. T. Lis. 1998. Transcriptional activation independent of TFIIH kinase and the RNA polymerase II mediator in vivo. Nature 393:389–392.
  • Lee, D., S. Kim, and J. T. Lis. 1999. Different upstream transcriptional activators have distinct coactivator requirements. Genes Dev. 13:2934–2939.
  • Levin, D. E., O. F. Fields, R. Kunisawa, J. M. Bishop, and J. Thorner. 1990. A candidate protein kinase C gene, PKC1, is required for the S. cerevisiae cell cycle. Cell 62:213–224.
  • Li, X.-Y., A. Virbasius, X. Zhu, and M. R. Green. 1999. Enhancement of TBP binding by activators and general transcription factors. Nature 399:605–609.
  • Liu, Q., S. E. Gabriel, K. L. Roinick, R. D. Ward, and K. M. Arndt. 1999. Analysis of TFIIA function in vivo: evidence for a role in TATA-binding protein recruitment and gene-specific activation. Mol. Cell. Biol. 19:8673–8685.
  • Liu, X., and D. J. Thiele. 1996. Oxidative stress induces heat shock factor phosphorylation and HSF-dependent activation of yeast metallothionein gene transcription. Genes Dev. 10:592–603.
  • Lorch, Y., B. R. Cairns, M. Zhang, and R. D. Kornberg. 1998. Activated RSC-nucleosome complex and persistently altered form of the nucleosome. Cell 94:29–34.
  • Lorch, Y., M. Zhang, and R. D. Kornberg. 1999. Histone octamer transfer by a chromatin remodeling complex. Cell 96:389–392.
  • McNeil, J. B., H. Agah, and D. Bentley. 1998. Activated transcription independent of the RNA polymerase II holoenzyme in budding yeast. Genes Dev. 12:2510–2521.
  • Moqtaderi, Z., M. Keaveney, and K. Struhl. 1998. The histone H3-like TAF is broadly required for transcription in yeast. Mol. Cell 2:675–682.
  • Muchardt, C., and M. Yaniv. 1999. ATP-dependent chromatin remodelling: SWI/SNF and Co. are on the job. J. Mol. Biol. 293:187–198.
  • Natarajan, K., B. M. Jackson, H. Zhou, F. Winston, and A. G. Hinnebusch. 1999. Transcriptional activation by Gcn4p involves independent interactions with the SWI/SNF complex and the SRB/mediator. Mol. Cell 4:657–664.
  • Neely, K. E., A. H. Hassan, A. E. Wallberg, D. J. Steger, B. R. Cairns, A. P. H. Wright, and J. L. Workman. 1999. Activation domain-mediated targeting of the SWI/SNF complex to promoters stimulates transcription from nucleosome arrays. Mol. Cell 4:649–655.
  • O'Donohue, M. F., I. Duband-Goulet, A. Hamiche, and A. Prunell. 1994. Octamer displacement and redistribution in transcription of single nucleosomes. Nucleic Acids Res. 22:937–945.
  • Ozer, J., L. E. Lezina, J. Ewing, S. Audi, and P. E. Lieberman. 1998. Association of transcription factor IIA with TATA binding protein is required for transcriptional activation of a subset of promoters and cell cycle progression in Saccharomyces cerevisiae. Mol. Cell. Biol. 18:2559–2570.
  • Peterson, C. L., and J. L. Workman. 2000. Promoter targeting and chromatin remodeling by the SWI/SNF complex. Curr. Opin. Genet. Dev. 10:187–192.
  • Roth, S. Y., A. Dean, and R. T. Simpson. 1990. Yeast α2 repressor positions nucleosomes in TRP1/ARS1 chromatin. Mol. Cell. Biol. 10:2247–2260.
  • Roth, S. Y., and R. T. Simpson. 1991. Yeast minichromosomes. Methods Cell Biol. 35:289–314.
  • Sakurai, H., and T. Fukasawa. 1999. Activator-specific requirement for the general transcription factor IIE in yeast. Biochem. Biophys. Res. Commun. 261:734–739.
  • Schnitzler, G., S. Sif, and R. E. Kingston. 1998. Human SWI/SNF interconverts a nucleosome between its base state and a stable remodeled state. Cell 94:17–27.
  • Simpson, R. T.. 1991. Nucleosome positioning: occurrence, mechanisms and functional consequences. Prog. Nucleic Acids Res. Mol. Biol. 40:143–184.
  • Simpson, R. T., F. Thoma, and J. M. Brubaker. 1985. Chromatin reconstituted from tandemly repeated cloned DNA fragments and core histones: a model system for study of higher order structure. Cell 42:799–808.
  • Spadafora, C., P. Oudet, and P. Chambon. 1979. Rearrangement of chromatin structure induced by increasing ionic strength and temperature. Eur. J. Biochem. 100:225–235.
  • Struhl, K.. 1996. Chromatin structure and RNA polymerase II connection: implications for transcription. Cell 84:179–182.
  • Svaren, J., and W. Hörz. 1997. Transcription factors vs nucleosomes: regulation of the PHO5 promoter in yeast. Trends Biochem. Sci. 22:93–97.
  • Tanaka, S., D. Halter, M. Livingstone-Zatchej, B. Reszel, and F. Thoma. 1994. Transcription through the yeast origin of replication ARS1 ends at the ABFI binding site and affects extrachromosomal maintenance of minichromosomes. Nucleic Acids Res. 22:3904–3910.
  • Thoma, F., L. W. Bergman, and R. T. Simpson. 1984. Nuclease digestion of circular TRP1ARS1 chromatin reveals positioned nucleosomes separated by nuclease-sensitive regions. J. Mol. Biol. 177:715–733.
  • Thomas, J. O., and V. Furber. 1976. Yeast chromatin structure. FEBS Lett. 66:274–280.
  • Weiss, K., and R. T. Simpson. 1997. Cell type-specific chromatin organization of the region that governs directionality of yeast mating type switching. EMBO J. 16:4352–4360.
  • Whitehouse, I., A. Flaus, B. R. Cairns, M. F. White, J. L. Workman, and T. Owen-Hughes. 1999. Nucleosome mobilization catalysed by the yeast SWI/SNF complex. Nature 400:784–787.
  • Wieland, T., and H. Faulstich. 1991. Fifty years of amanitin. Experientia 47:1186–1193.
  • Wolffe, A. P.. 1997. Sinful repression. Nature 387:16–17.
  • Wolffe, A. P.. 1999. Chromatin, 3rd. ed. Academic Press, London, United Kingdom
  • Yenidunya, A., C. Davey, D. J. Clark, G. Felsenfeld, and J. Allan. 1994. Nucleosome positioning on chicken and human globin gene promoters in vitro. Novel mapping techniques. J. Mol. Biol. 237:401–414.
  • Zakian, V. A., and J. F. Scott. 1982. Construction, replication, and chromatin structure of TRP1 RI circle, a multiple-copy synthetic plasmid derived from Saccharomyces cerevisiae chromosomal DNA. Mol. Cell. Biol. 2:221–232.

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