-
1
-
-
0022799080
-
Removal of positioned nucleosomes from the yeast PHO5 promoter upon PHO5 induction releases additional upstream activating DNA elements
-
Almer, A., H. Rudolph, A. Hinnen, and W. Horz. 1986. Removal of positioned nucleosomes from the yeast PHO5 promoter upon PHO5 induction releases additional upstream activating DNA elements. EMBO J 5:2689-2696.
-
(1986)
EMBO J
, vol.5
, pp. 2689-2696
-
-
Almer, A.1
Rudolph, H.2
Hinnen, A.3
Horz, W.4
-
2
-
-
0026506720
-
Transcription factor loading on the MMTV promoter: A bimodal mechanism for promoter activation
-
Archer, T. K., P. Lefebre, R. G. Wolford, and G. L. Hager. 1992. Transcription factor loading on the MMTV promoter: a bimodal mechanism for promoter activation. Science 255:1573-1576.
-
(1992)
Science
, vol.255
, pp. 1573-1576
-
-
Archer, T.K.1
Lefebre, P.2
Wolford, R.G.3
Hager, G.L.4
-
3
-
-
0032055036
-
Transcription of chromatin: These are complex times
-
Armstrong, J. A., and B. M. Emerson. 1998. Transcription of chromatin: these are complex times. Curr. Opin. Genet Dev. 8:165-172.
-
(1998)
Curr. Opin. Genet Dev.
, vol.8
, pp. 165-172
-
-
Armstrong, J.A.1
Emerson, B.M.2
-
4
-
-
2642607009
-
Cooperative Pho2-Pho4 interactions at the PHo5 promoter are critical for binding of Pho4 to UASp1 and for efficient transactivation by Pho4 at UASp2
-
Barbaric, S., M. Munsterkotter, C. Coding, and W. Horz. 1998. Cooperative Pho2-Pho4 interactions at the PHO5 promoter are critical for binding of Pho4 to UASp1 and for efficient transactivation by Pho4 at UASp2. Mol. Cell. Biol. 18:2629-2639.
-
(1998)
Mol. Cell. Biol.
, vol.18
, pp. 2629-2639
-
-
Barbaric, S.1
Munsterkotter, M.2
Coding, C.3
Horz, W.4
-
5
-
-
0029957248
-
The homeodomain protein Pho2 and the basic-helix-loop-helix protein Pho4 bind DNA cooperatively at the yeast PHO5 promoter
-
Barbaric, S., M. Munsterkotter, J. Svaren, and W. Horz. 1996. The homeodomain protein Pho2 and the basic-helix-loop-helix protein Pho4 bind DNA cooperatively at the yeast PHO5 promoter. Nucleic Acids Res. 24: 4479-4486.
-
(1996)
Nucleic Acids Res.
, vol.24
, pp. 4479-4486
-
-
Barbaric, S.1
Munsterkotter, M.2
Svaren, J.3
Horz, W.4
-
6
-
-
0021099544
-
Modulation of chromatin structure associated with derepression of the acid phosphatase gene of saccharomyces cerevisiae
-
Bergman, L. W., and R. A. Kramer. 1983. Modulation of chromatin structure associated with derepression of the acid phosphatase gene of Saccharomyces cerevisiae. J. Biol. Chem. 258:7223-7227.
-
(1983)
J. Biol. Chem.
, vol.258
, pp. 7223-7227
-
-
Bergman, L.W.1
Kramer, R.A.2
-
7
-
-
0022645073
-
Structure of the transcriptionally repressed phosphate-repressible acid phosphatase gene (PHO5) of saccharomyces cerevisiae
-
Bergman, L. W., M. C. Stranathan, and L. A. Preis. 1986. Structure of the transcriptionally repressed phosphate-repressible acid phosphatase gene (PHO5) of Saccharomyces cerevisiae. Mol. Cell. Biol. 6:38-46.
-
(1986)
Mol. Cell. Biol.
, vol.6
, pp. 38-46
-
-
Bergman, L.W.1
Stranathan, M.C.2
Preis, L.A.3
-
8
-
-
0031941159
-
Chromatin remodeling machines: Similar motors, ulterior motives
-
Cairns, B. R. 1998. Chromatin remodeling machines: similar motors, ulterior motives. Trends Biochem. Sci. 23:20-25.
-
(1998)
Trends Biochem. Sci.
, vol.23
, pp. 20-25
-
-
Cairns, B.R.1
-
9
-
-
0028314013
-
A multisubunit complex containing the SWI1/ADR6, SWI2/SNF2, SWI3, SNF5, and SNF6 gene products isolated from yeast
-
Cairns, B. R., Y. J. Kim, M. H. Sayre, and B. C. Laurent. 1994. A multisubunit complex containing the SWI1/ADR6, SWI2/SNF2, SWI3, SNF5, and SNF6 gene products isolated from yeast. Proc. Natl Acad. Sci. USA 91: 1950-1954.
-
(1994)
Proc. Natl Acad. Sci. USA
, vol.91
, pp. 1950-1954
-
-
Cairns, B.R.1
Kim, Y.J.2
Sayre, M.H.3
Laurent, B.C.4
-
10
-
-
0029810604
-
Essential role of Swp73p in the function of yeast Swi/Snf complex
-
Cairns, B. R., R. S. Levinson, K. R. Yamamoto, and R. D. Kornberg. 1996. Essential role of Swp73p in the function of yeast Swi/Snf complex. Genes Dev. 10:2131-2144.
-
(1996)
Genes Dev.
, vol.10
, pp. 2131-2144
-
-
Cairns, B.R.1
Levinson, R.S.2
Yamamoto, K.R.3
Kornberg, R.D.4
-
11
-
-
0030447612
-
RSC, an essential, abundant chromatin-remodeling complex
-
Cairns, B. R., Y. Lorch, Y. Li, M. Zhang, L. Lacomis, H. Erdument-Bromage, P. Tempst, J. Du, B. Laurent, and R. Kornberg. 1996. RSC, an essential, abundant chromatin-remodeling complex. Cell 87:1249-1260.
-
(1996)
Cell
, vol.87
, pp. 1249-1260
-
-
Cairns, B.R.1
Lorch, Y.2
Li, Y.3
Zhang, M.4
Lacomis, L.5
Erdument-Bromage, H.6
Tempst, P.7
Du, J.8
Laurent, B.9
Kornberg, R.10
-
12
-
-
0027324844
-
Transcriptional induction of genes encoding endoplasmic reticulum resident protein requires a transmembrane protein kinase
-
Cox, J. S, C. E. Shamu, and P. Walter. 1993. Transcriptional induction of genes encoding endoplasmic reticulum resident protein requires a transmembrane protein kinase. Cell 73:1197-1206.
-
(1993)
Cell
, vol.73
, pp. 1197-1206
-
-
Cox, J.S.1
Shamu, C.E.2
Walter, P.3
-
14
-
-
0031935595
-
The Gcn4p activation domain interacts specifically in vitro with RNA polymerase II holoenzyme, TFIID, and the Adap-Gcn5p coactivator complex
-
Drysdale, C. M., B. M. Jackson, R. McVeigh, E. R. Klebanow, Y. Bai, T. Kokubo, M. Swanson, Y. Nakatani, P. A. Weil, and A. G. Hinnebusch. 1998. The Gcn4p activation domain interacts specifically in vitro with RNA polymerase II holoenzyme, TFIID, and the Adap-Gcn5p coactivator complex. Mol. Cell Biol. 18:1711-1724.
-
(1998)
Mol. Cell Biol.
, vol.18
, pp. 1711-1724
-
-
Drysdale, C.M.1
Jackson, B.M.2
McVeigh, R.3
Klebanow, E.R.4
Bai, Y.5
Kokubo, T.6
Swanson, M.7
Nakatani, Y.8
Weil, P.A.9
Hinnebusch, A.G.10
-
15
-
-
0029157378
-
Evolution of the SNF2 family of proteins: Subfamilies with distinct sequences and functions
-
Eisen, J. A., K. S. Sweder, and P. C. Hanawall. 1995. Evolution of the SNF2 family of proteins: subfamilies with distinct sequences and functions. Nucleic Acids Res. 23:2715-2723.
-
(1995)
Nucleic Acids Res.
, vol.23
, pp. 2715-2723
-
-
Eisen, J.A.1
Sweder, K.S.2
Hanawall, P.C.3
-
16
-
-
0025315819
-
SNF6 encodes a nuclear protein that is required for expression of many genes in saccharomyces cerevisiae
-
Estruch, F., and M. Carlson. 1990. SNF6 encodes a nuclear protein that is required for expression of many genes in Saccharomyces cerevisiae. Mol. Cell. Biol. 10:2544-2553.
-
(1990)
Mol. Cell. Biol.
, vol.10
, pp. 2544-2553
-
-
Estruch, F.1
Carlson, M.2
-
17
-
-
0025291085
-
Role of iraro-activating proteins in the generation of active chromatin at the PHO5 promoter in S. cerevisiae
-
Fascher, K.-D., J. Schmitz, and W. Hore. 1990. Role of iraro-activating proteins in the generation of active chromatin at the PHO5 promoter in S. cerevisiae. EMBO J. 9:2523-2528.
-
(1990)
EMBO J.
, vol.9
, pp. 2523-2528
-
-
Fascher, K.-D.1
Schmitz, J.2
Hore, W.3
-
18
-
-
0027295561
-
Structural and functional requirements for the chromatin transition at the PHO5 promoter in saccharomyces cerevisiae upon PHO5 activation
-
Fascher, K.-D., J. Schmitz, and W. Horz. 1993. Structural and functional requirements for the chromatin transition at the PHO5 promoter in Saccharomyces cerevisiae upon PHO5 activation. J. Mol. Biol. 231:658-667.
-
(1993)
J. Mol. Biol.
, vol.231
, pp. 658-667
-
-
Fascher, K.-D.1
Schmitz, J.2
Horz, W.3
-
19
-
-
0025830886
-
C-Myc and the yeast transcription factor Pho4 share a common CACGTG-binding motif
-
Fisher, F., P.-S. Jayaraman, and C. R. Goding. 1991. c-Myc and the yeast transcription factor Pho4 share a common CACGTG-binding motif. Oncogene 6:1099-1104.
-
(1991)
Oncogene
, vol.6
, pp. 1099-1104
-
-
Fisher, F.1
Jayaraman, P.-S.2
Goding, C.R.3
-
20
-
-
0030935280
-
RNA polymerase holoenzyme recruitment is sufficient to remodel chromatin at the yeast PHO5 promoter
-
Gaudreau, L., A. Schmid, D. Blaschke, M. Ptashne, and W. Horz. 1997. RNA polymerase holoenzyme recruitment is sufficient to remodel chromatin at the yeast PHO5 promoter. Cell 89:55-62.
-
(1997)
Cell
, vol.89
, pp. 55-62
-
-
Gaudreau, L.1
Schmid, A.2
Blaschke, D.3
Ptashne, M.4
Horz, W.5
-
21
-
-
0032015582
-
Absence of Gcn5 HAT activity defines a novel state in the opening of chromatin at the PHO5 promoter in yeast
-
Gregory, P. D., A. Schmid, M. Zavari, L. Lui, S. L. Berger, and W. Horz. 1998. Absence of Gcn5 HAT activity defines a novel state in the opening of chromatin at the PHO5 promoter in yeast. Mol. Cell 1:495-505.
-
(1998)
Mol. Cell
, vol.1
, pp. 495-505
-
-
Gregory, P.D.1
Schmid, A.2
Zavari, M.3
Lui, L.4
Berger, S.L.5
Horz, W.6
-
22
-
-
0031444148
-
ACF, an ISWI-containing and ATP-utilizing chromatin assembly and remodeling factor
-
Ito, T., M. Bulger, M. J. Pazin, R. Kobayashi, and J. T. Kadonaga. 1997. ACF, an ISWI-containing and ATP-utilizing chromatin assembly and remodeling factor. Cell 90:145-155.
-
(1997)
Cell
, vol.90
, pp. 145-155
-
-
Ito, T.1
Bulger, M.2
Pazin, M.J.3
Kobayashi, R.4
Kadonaga, J.T.5
-
23
-
-
0343924289
-
Repression by Ume6 involves recruitment of a complex containing corepressor and Rpd3 histonc deacetylase to target promoters
-
Kadosh, D., and K. Struhl. 1997. Repression by Ume6 involves recruitment of a complex containing corepressor and Rpd3 histonc deacetylase to target promoters. Cell 89:365-371.
-
(1997)
Cell
, vol.89
, pp. 365-371
-
-
Kadosh, D.1
Struhl, K.2
-
24
-
-
0028207513
-
Phosphorylation of the transcription factor Pho4 by a cyclin-CDK complex, Pho80-Pho85
-
Kaffman, A., I. Herskowitz, R. Tjian, and E. K. O'Shea. 1994. Phosphorylation of the transcription factor Pho4 by a cyclin-CDK complex, Pho80-Pho85. Science 263:1153-1156.
-
(1994)
Science
, vol.263
, pp. 1153-1156
-
-
Kaffman, A.1
Herskowitz, I.2
Tjian, R.3
O'Shea, E.K.4
-
25
-
-
0032168565
-
Phosphorylation regulates association of the transcription factor Pho4 with its import receptor Pse1/ Kap121
-
Kaffman, A., N. M. Rank, and E. K. O'Shea. 1998. Phosphorylation regulates association of the transcription factor Pho4 with its import receptor Pse1/ Kap121. Genes Dev. 12:2673-2683.
-
(1998)
Genes Dev.
, vol.12
, pp. 2673-2683
-
-
Kaffman, A.1
Rank, N.M.2
O'Shea, E.K.3
-
26
-
-
0024041468
-
Depletion of histone H4 and nucleosomes activates the PHO5 gene in Saccharomyces cerevisiae
-
Kim, U.-J., P. Kayne, and M. Grunstein. 1988. Depletion of histone H4 and nucleosomes activates the PHO5 gene in Saccharomyces cerevisiae. EMBO J. 7:2221-2228.
-
(1988)
EMBO J.
, vol.7
, pp. 2221-2228
-
-
Kim, U.-J.1
Kayne, P.2
Grunstein, M.3
-
27
-
-
0027199145
-
Centromere function on minichromosomes isolated from budding yeast
-
Kingsbury, J., and D. Koshland. 1993. Centromere function on minichromosomes isolated from budding yeast. Mol. Biol. Cell 4:859-870.
-
(1993)
Mol. Biol. Cell
, vol.4
, pp. 859-870
-
-
Kingsbury, J.1
Koshland, D.2
-
28
-
-
0028852629
-
High-level expression of endogenous acid phosphatase inhibits growth and vectorial secretion in Saccharomyces cerevisiae
-
Kleene, R., M. Janes, B. Meyhack, K. Pulfer, and A. Hinnen. 1995 High-level expression of endogenous acid phosphatase inhibits growth and vectorial secretion in Saccharomyces cerevisiae. J. Cell. Biochem. 57:238-250.
-
(1995)
J. Cell. Biochem.
, vol.57
, pp. 238-250
-
-
Kleene, R.1
Janes, M.2
Meyhack, B.3
Pulfer, K.4
Hinnen, A.5
-
29
-
-
0026727120
-
Chromatin structure and transcription
-
Kornberg, R. D., and Y. Lorch. 1992. Chromatin structure and transcription. Annu. Rev. Cell Biol. 8:563-887.
-
(1992)
Annu. Rev. Cell Biol.
, vol.8
, pp. 563-887
-
-
Kornberg, R.D.1
Lorch, Y.2
-
30
-
-
0027295019
-
The yeast SNF2/SWI2-protein has DNA-stimulated ATPase activity required for transcriptional activation
-
Laurent, B. C., I. Treich, and M. Carlson. 1993. The yeast SNF2/SWI2-protein has DNA-stimulated ATPase activity required for transcriptional activation. Genes Dev. 7:583-591.
-
(1993)
Genes Dev.
, vol.7
, pp. 583-591
-
-
Laurent, B.C.1
Treich, I.2
Carlson, M.3
-
31
-
-
0026528477
-
An essential Saccharomyces cerevisiae gene homologous to SNF2 encodes a helicase-related protein in a new family
-
Laurent, B. C., X. Yang, and M. Carlson. 1992. An essential Saccharomyces cerevisiae gene homologous to SNF2 encodes a helicase-related protein in a new family. Mol. Cell. Biol. 12:1893-1902.
-
(1992)
Mol. Cell. Biol.
, vol.12
, pp. 1893-1902
-
-
Laurent, B.C.1
Yang, X.2
Carlson, M.3
-
33
-
-
0026081672
-
RNA polymerase II transcription in vitro
-
Lue, N. F., P. M. Flanagen, R. J. Kelleher, A. M. Edwards, and R. D. Kornberg. 1991. RNA polymerase II transcription in vitro. Methods Enzymol. 194:545-550.
-
(1991)
Methods Enzymol.
, vol.194
, pp. 545-550
-
-
Lue, N.F.1
Flanagen, P.M.2
Kelleher, R.J.3
Edwards, A.M.4
Kornberg, R.D.5
-
34
-
-
0024419546
-
Analysis of nucleosome positioning by indirect end-labeling and molecular cloning
-
Nedospasov, S. A., A. N. Shakhov, and G. P. Georgiev. 1989. Analysis of nucleosome positioning by indirect end-labeling and molecular cloning. Methods Enzymol. 170:408-420.
-
(1989)
Methods Enzymol.
, vol.170
, pp. 408-420
-
-
Nedospasov, S.A.1
Shakhov, A.N.2
Georgiev, G.P.3
-
35
-
-
0032498273
-
Fact, a factor that facilitates transcript elongation through nucleosomes
-
Orphanides, G., G. LeRoy, C. H. Chang, D. S. Luse, and D. Reinberg. 1988. FACT, a factor that facilitates transcript elongation through nucleosomes. Cell 92:105-116.
-
(1988)
Cell
, vol.92
, pp. 105-116
-
-
Orphanides, G.1
LeRoy, G.2
Chang, C.H.3
Luse, D.S.4
Reinberg, D.5
-
36
-
-
0000688404
-
Regulatory circuits for gene expression: The metabolism of galactose and phosphate
-
J. N. Strathern, E. W. Jones, and J. R. Broach (ed.), Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.
-
Oshima, Y. 1982. Regulatory circuits for gene expression: the metabolism of galactose and phosphate, p. 159-180. In J. N. Strathern, E. W. Jones, and J. R. Broach (ed.), The molecular biology of the yeast Saccharomyces: metabolism and gene expression. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.
-
(1982)
The Molecular Biology of the Yeast Saccharomyces: Metabolism and Gene Expression
, pp. 159-180
-
-
Oshima, Y.1
-
37
-
-
0028239906
-
Role of chromatin structure in the regulation of transcription by RNA polymerase II
-
Paranjape, S. M., R. T. Kamakaka, and J. T. Kadonaga. 1994. Role of chromatin structure in the regulation of transcription by RNA polymerase II. Annu. Rev. Biochem. 63:265-297.
-
(1994)
Annu. Rev. Biochem.
, vol.63
, pp. 265-297
-
-
Paranjape, S.M.1
Kamakaka, R.T.2
Kadonaga, J.T.3
-
38
-
-
0028325734
-
Five SWI/SNF gene products are components of a large multisubunit complex required for transcriptional enhancement
-
Peterson, C. L., A. Dingwall, and M. P. Scott 1994. Five SWI/SNF gene products are components of a large multisubunit complex required for transcriptional enhancement. Proc. Natl. Acad. Sci. USA 91:2905-2908.
-
(1994)
Proc. Natl. Acad. Sci. USA
, vol.91
, pp. 2905-2908
-
-
Peterson, C.L.1
Dingwall, A.2
Scott, M.P.3
-
39
-
-
0028987268
-
The SWI-SNF complex: A chromatin remodeling machine
-
Peterson, C. L., and J. W. Tamkun. 1995. The SWI-SNF complex: a chromatin remodeling machine. Trends Biochem. Sci. 20:143-146.
-
(1995)
Trends Biochem. Sci.
, vol.20
, pp. 143-146
-
-
Peterson, C.L.1
Tamkun, J.W.2
-
40
-
-
0030881740
-
Role of ADA/GCN5 products in antagonizing chromatin-mediated transcriptional repression
-
Pollard, K. J., and C. L. Peterson. 1997. Role of ADA/GCN5 products in antagonizing chromatin-mediated transcriptional repression. Mol. Cell. Biol. 17:6212-6222.
-
(1997)
Mol. Cell. Biol.
, vol.17
, pp. 6212-6222
-
-
Pollard, K.J.1
Peterson, C.L.2
-
41
-
-
0026567862
-
Retroviral integration into minichromosomes in vitro
-
Pryciak, P. M., A. Sil, and H. E. Varmus. 1992. Retroviral integration into minichromosomes in vitro. EMBO J. 11:291-303.
-
(1992)
EMBO J.
, vol.11
, pp. 291-303
-
-
Pryciak, P.M.1
Sil, A.2
Varmus, H.E.3
-
43
-
-
0004136246
-
-
Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.
-
Sambrook, J., E. F. Fritsch, and T. Maniatis. 1989. Molecular cloning: a laboratory manual, 2nd ed. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.
-
(1989)
Molecular Cloning: a Laboratory Manual, 2nd Ed.
-
-
Sambrook, J.1
Fritsch, E.F.2
Maniatis, T.3
-
44
-
-
0026465372
-
Nucleosome disruption at the yeast PHO5 promoter upon PHO5 induction occurs in the absence of DNA replication
-
Schmid, A., K.-D. Fascher, and W. Horz. 1992. Nucleosome disruption at the yeast PHO5 promoter upon PHO5 induction occurs in the absence of DNA replication. Cell 71:853-864.
-
(1992)
Cell
, vol.71
, pp. 853-864
-
-
Schmid, A.1
Fascher, K.-D.2
Horz, W.3
-
45
-
-
0345663481
-
-
Ph.D. thesis. University of California, San Francisco
-
Schneider, K. 1995. Ph.D. thesis. University of California, San Francisco.
-
(1995)
-
-
Schneider, K.1
-
46
-
-
0018972818
-
Lyticasc: Endoglucanase and protease activities that act together in yeast cell lysis
-
Scott, J. H., and R. Scheckman. 1980. Lyticasc: endoglucanase and protease activities that act together in yeast cell lysis. J. Bacteriol. 142:414-423.
-
(1980)
J. Bacteriol.
, vol.142
, pp. 414-423
-
-
Scott, J.H.1
Scheckman, R.2
-
47
-
-
0023651661
-
The sequence of the Saccharomyces cerevisiae gene PHO2 codes for a regulatory protein with unusual amino acid composition
-
Senstag, C., and A. Hinnen. 1987. The sequence of the Saccharomyces cerevisiae gene PHO2 codes for a regulatory protein with unusual amino acid composition. Nucleic Acids Res. 15:233-246.
-
(1987)
Nucleic Acids Res.
, vol.15
, pp. 233-246
-
-
Senstag, C.1
Hinnen, A.2
-
48
-
-
0023646299
-
Isolation and partial characterization of 2-microns yeast plasmid as a transcriptionally active minichromosome
-
Silva, J., S. Zinker, and P. Gariglio. 1987. Isolation and partial characterization of 2-microns yeast plasmid as a transcriptionally active minichromosome. FEBS Lett. 214:71-74.
-
(1987)
FEBS Lett.
, vol.214
, pp. 71-74
-
-
Silva, J.1
Zinker, S.2
Gariglio, P.3
-
49
-
-
0030297734
-
Remodeling chromatin structure for transcription: What happens to the histones?
-
Steger, D. J., and J. L. Workman. 1996. Remodeling chromatin structure for transcription: what happens to the histones? Bioessays 18:875-884.
-
(1996)
Bioessays
, vol.18
, pp. 875-884
-
-
Steger, D.J.1
Workman, J.L.2
-
50
-
-
0025977162
-
A functional role for nucleosomes in the repression of a yeast promoter
-
Straka, C., and W. Horz. 1991. A functional role for nucleosomes in the repression of a yeast promoter. EMBO J. 19:361-368.
-
(1991)
EMBO J.
, vol.19
, pp. 361-368
-
-
Straka, C.1
Horz, W.2
-
51
-
-
0031106575
-
Transcription factors vs. Nucleosomes: Regulation of the PHO5 promoter in yeast
-
Svaren, J., and W. Horz. 1997. Transcription factors vs. nucleosomes: regulation of the PHO5 promoter in yeast. Trends Biochem. Sci. 22:93-97.
-
(1997)
Trends Biochem. Sci.
, vol.22
, pp. 93-97
-
-
Svaren, J.1
Horz, W.2
-
52
-
-
0027948986
-
The transactivation domain of Pho4 is required for nucleosome disruption at the PHO5 promoter
-
Svaren, J., J. Schmitz, and W. Horz. 1994. The transactivation domain of Pho4 is required for nucleosome disruption at the PHO5 promoter. EMBO J. 13:4856-4862.
-
(1994)
EMBO J.
, vol.13
, pp. 4856-4862
-
-
Svaren, J.1
Schmitz, J.2
Horz, W.3
-
53
-
-
0021691970
-
Nuclease digestion of circular TRP1ARS1 chromatin reveals positioned nucleosomes separated by nuclease-sensitive regions
-
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.
-
(1984)
J. Mol. Biol.
, vol.177
, pp. 715-733
-
-
Thoma, F.1
Bergman, L.W.2
Simpson, R.T.3
-
54
-
-
0029562736
-
Purification and properties of an ATP-dependent nucleosome remodeling factor
-
Tsukijama, T., and C. Wu. 1995. Purification and properties of an ATP-dependent nucleosome remodeling factor. Cell 83:1011-1020.
-
(1995)
Cell
, vol.83
, pp. 1011-1020
-
-
Tsukijama, T.1
C, W.2
-
55
-
-
0032581751
-
Transcriptional activators direct histone acetyltransferase complexes to nucleosomes
-
Utlej, F. T., K. Ikeda, P. A. Grant, J. Cote, D. Steger, A. Eberharter, S. John, and J. Workman. 1998. Transcriptional activators direct histone acetyltransferase complexes to nucleosomes. Nature 394:498-502.
-
(1998)
Nature
, vol.394
, pp. 498-502
-
-
Utlej, F.T.1
Ikeda, K.2
Grant, P.A.3
Cote, J.4
Steger, D.5
Eberharter, A.6
John, S.7
Workman, J.8
-
56
-
-
0030839857
-
Chromatin-remodeling factor CHRAC contains the ATPases ISWI and topoisomerase II
-
Varga-Weiss, P. D., M. Wilm, E. Bonte, K. Dumas, M. Mann, and P. B. Becker. 1997. Chromatin-remodeling factor CHRAC contains the ATPases ISWI and topoisomerase II. Nature 388:598-602.
-
(1997)
Nature
, vol.388
, pp. 598-602
-
-
Varga-Weiss, P.D.1
Wilm, M.2
Bonte, E.3
Dumas, K.4
Mann, M.5
Becker, P.B.6
-
57
-
-
0027943272
-
A nucleosome precludes binding of the transcription factor Pho4 in vivo to a critical target site in the PHO5 promoter
-
Venter, U., J. Svaren, J. Schmitz, A. Schmid, and W. Horz. 1994. A nucleosome precludes binding of the transcription factor Pho4 in vivo to a critical target site in the PHO5 promoter. EMBO J. 13:4848-4855.
-
(1994)
EMBO J.
, vol.13
, pp. 4848-4855
-
-
Venter, U.1
Svaren, J.2
Schmitz, J.3
Schmid, A.4
Horz, W.5
-
58
-
-
0024517893
-
The two positively acting regulatory proteins Pho2 and Pho4 physically interact with PHO5 upstream activation regions
-
Vogel, K., W. Horz, and A. Hinnen. 1989. The two positively acting regulatory proteins Pho2 and Pho4 physically interact with PHO5 upstream activation regions. Mol. Cell. Biol. 9:2050-2057.
-
(1989)
Mol. Cell. Biol.
, vol.9
, pp. 2050-2057
-
-
Vogel, K.1
Horz, W.2
Hinnen, A.3
-
59
-
-
0030033699
-
RNA polymerase II holoenzyme contains SWI/SNF regulators involved in chromatin remodeling
-
Wilson, C. J., D. M. Chao, A. N. Imbalzano, G. R. Schnitzler, R. E. Kingston, and R. A. Young. 1996. RNA polymerase II holoenzyme contains SWI/SNF regulators involved in chromatin remodeling. Cell 84:235-244.
-
(1996)
Cell
, vol.84
, pp. 235-244
-
-
Wilson, C.J.1
Chao, D.M.2
Imbalzano, A.N.3
Schnitzler, G.R.4
Kingston, R.E.5
Young, R.A.6
-
60
-
-
0026641776
-
Yeast SNF/SWI transcriptional activators and the SPT/SIN connection
-
Winston, F., and M. Carlson. 1992. Yeast SNF/SWI transcriptional activators and the SPT/SIN connection. Trends Genet. 8:387-391.
-
(1992)
Trends Genet.
, vol.8
, pp. 387-391
-
-
Winston, F.1
Carlson, M.2
-
61
-
-
0019303186
-
The 5′ ends of Drosophila heat shock genes in chromatin are hypersensitive to DNase I
-
Wu, C. 1980. The 5′ ends of Drosophila heat shock genes in chromatin are hypersensitive to DNase I. Nature 286:854-860.
-
(1980)
Nature
, vol.286
, pp. 854-860
-
-
Wu, C.1
-
62
-
-
0024319348
-
Function of the PHO regulatory genes for repressible acid phosphatase synthesis in Saccharomyces cerevisiae
-
Yoshida, K., N. Ogawa, and Y. Oshima. 1989. Function of the PHO regulatory genes for repressible acid phosphatase synthesis in Saccharomyces cerevisiae. Mol. Gen. Genet. 217:40-46.
-
(1989)
Mol. Gen. Genet.
, vol.217
, pp. 40-46
-
-
Yoshida, K.1
Ogawa, N.2
Oshima, Y.3
-
63
-
-
0020053188
-
Construction, replication, and chromatin structure of TRP1 R1 circle, a multicopy synthetic plasmid derived from saccharomyces cemisiae chromosomal DNA
-
Zakian, V. A., and J. F. Scott. 1982. Construction, replication, and chromatin structure of TRP1 R1 circle, a multicopy synthetic plasmid derived from Saccharomyces cemisiae chromosomal DNA. Mol. Cell. Biol. 2:221-232.
-
(1982)
Mol. Cell. Biol.
, vol.2
, pp. 221-232
-
-
Zakian, V.A.1
Scott, J.F.2
|