-
1
-
-
0036850346
-
Deciphering the transcriptional histone acetylation code for a human gene
-
DOI 10.1016/S0092-8674(02)01077-2
-
Agalioti, T., G. Chen, and D. Thanos. 2002. Deciphering the transcriptional histone acetylation code for a human gene. Cell 111:381-392. (Pubitemid 35341391)
-
(2002)
Cell
, vol.111
, Issue.3
, pp. 381-392
-
-
Agalioti, T.1
Chen, G.2
Thanos, D.3
-
2
-
-
34249299791
-
The complex language of chromatin regulation during transcription
-
DOI 10.1038/nature05915, PII NATURE05915
-
Berger, S. L. 2007. The complex language of chromatin regulation during transcription. Nature 447:407-412. (Pubitemid 46816746)
-
(2007)
Nature
, vol.447
, Issue.7143
, pp. 407-412
-
-
Berger, S.L.1
-
3
-
-
0036809731
-
Essential role for the SANT domain in the functioning of multiple chromatin remodeling enzymes
-
DOI 10.1016/S1097-2765(02)00634-2
-
Boyer, L. A., M. R. Langer, K. A. Crowley, S. Tan, J. M. Denu, and C. L. Peterson. 2002. Essential role for the SANT domain in the functioning of multiple chromatin remodeling enzymes. Mol. Cell 10:935-942. (Pubitemid 35335647)
-
(2002)
Molecular Cell
, vol.10
, Issue.4
, pp. 935-942
-
-
Boyer, L.A.1
Langer, M.R.2
Crowley, K.A.3
Tan, S.4
Denu, J.M.5
Peterson, C.L.6
-
4
-
-
33751528593
-
A chromatin-mediated mechanism for specification of conditional transcription factor targets
-
Buck, M. J., and J. D. Lieb. 2006. A chromatin-mediated mechanism for specification of conditional transcription factor targets. Nat. Genet. 38:1446-1451.
-
(2006)
Nat. Genet.
, vol.38
, pp. 1446-1451
-
-
Buck, M.J.1
Lieb, J.D.2
-
5
-
-
0033231625
-
Two functionally distinct forms of the RSC nucleosome-remodeling complex, containing essential at hook, BAH, and bromodomains
-
Cairns, B. R., A. Schlichter, H. Erdjument-Bromage, P. Tempst, R. D. Kornberg, and F. Winston. 1999. Two functionally distinct forms of the RSC nucleosome-remodeling complex, containing essential AT hook, BAH, and bromodomains. Mol. Cell 4:715-723.
-
(1999)
Mol. Cell
, vol.4
, pp. 715-723
-
-
Cairns, B.R.1
Schlichter, A.2
Erdjument-Bromage, H.3
Tempst, P.4
Kornberg, R.D.5
Winston, F.6
-
6
-
-
27744577727
-
Histone H3 methylation by Set2 directs deacetylation of coding regions by Rpd3S to suppress spurious intragenic transcription
-
DOI 10.1016/j.cell.2005.10.023, PII S0092867405011566
-
Carrozza, M. J., B. Li, L. Florens, T. Suganuma, S. K. Swanson, K. K. Lee, W. J. Shia, S. Anderson, J. Yates, M. P. Washburn, and J. L. Workman. 2005. Histone H3 methylation by Set2 directs deacetylation of coding regions by Rpd3S to suppress spurious intragenic transcription. Cell 123:581-592. (Pubitemid 41608462)
-
(2005)
Cell
, vol.123
, Issue.4
, pp. 581-592
-
-
Carrozza, M.J.1
Li, B.2
Florens, L.3
Suganuma, T.4
Swanson, S.K.5
Lee, K.K.6
Shia, W.-J.7
Anderson, S.8
Yates, J.9
Washburn, M.P.10
Workman, J.L.11
-
7
-
-
33749626224
-
Regulation of ISW2 by concerted action of histone H4 tail and extranucleosomal DNA
-
Dang, W. W., M. N. Kagalwala, and B. Bartholomew. 2006. Regulation of ISW2 by concerted action of histone H4 tail and extranucleosomal DNA. Mol. Cell. Biol. 26:7388-7396.
-
(2006)
Mol. Cell. Biol.
, vol.26
, pp. 7388-7396
-
-
Dang, W.W.1
Kagalwala, M.N.2
Bartholomew, B.3
-
8
-
-
0037436410
-
Chromatin fiber folding: Requirement for the histone H4 N-terminal tail
-
Dorigo, B., T. Schalch, K. Bystricky, and T. J. Richmond. 2003. Chromatin fiber folding: requirement for the histone H4 N-terminal tail. J. Mol. Biol. 327:85-96.
-
(2003)
J. Mol. Biol.
, vol.327
, pp. 85-96
-
-
Dorigo, B.1
Schalch, T.2
Bystricky, K.3
Richmond, T.J.4
-
9
-
-
9444297879
-
Nucleosome arrays reveal the two-start organization of the chromatin fiber
-
DOI 10.1126/science.1103124
-
Dorigo, B., T. Schalch, A. Kulangara, S. Duda, R. R. Schroeder, and T. J. Richmond. 2004. Nucleosome arrays reveal the two-start organization of the chromatin fiber. Science 306:1571-1573. (Pubitemid 39564956)
-
(2004)
Science
, vol.306
, Issue.5701
, pp. 1571-1573
-
-
Dorigo, B.1
Schalch, T.2
Kulangara, A.3
Duda, S.4
Schroeder, R.R.5
Richmond, T.J.6
-
10
-
-
27144533183
-
Two distinct mechanisms of chromatin interaction by the Isw2 chromatin remodeling complex in vivo
-
Fazzio, T. G., M. E. Gelbart, and T. Tsukiyama. 2005. Two distinct mechanisms of chromatin interaction by the Isw2 chromatin remodeling complex in vivo. Mol. Cell. Biol. 25:9165-9174.
-
(2005)
Mol. Cell. Biol.
, vol.25
, pp. 9165-9174
-
-
Fazzio, T.G.1
Gelbart, M.E.2
Tsukiyama, T.3
-
11
-
-
0345276461
-
Chromatin remodeling in vivo: Evidence for a nucleosome sliding mechanism
-
DOI 10.1016/S1097-2765(03)00436-2
-
Fazzio, T. G., and T. Tsukiyama. 2003. Chromatin remodeling in vivo: evidence for a nucleosome sliding mechanism. Mol. Cell 12:1333-1340. (Pubitemid 37487940)
-
(2003)
Molecular Cell
, vol.12
, Issue.5
, pp. 1333-1340
-
-
Fazzio, T.G.1
Tsukiyama, T.2
-
12
-
-
34147102171
-
Mechanisms of ATP dependent chromatin remodeling
-
Gangaraju, V. K., and B. Bartholomew. 2007. Mechanisms of ATP dependent chromatin remodeling. Mutat. Res. 618:3-17.
-
(2007)
Mutat. Res.
, vol.618
, pp. 3-17
-
-
Gangaraju, V.K.1
Bartholomew, B.2
-
13
-
-
17444373568
-
Genome-wide identification of Isw2 chromatin-remodeling targets by localization of a catalytically inactive mutant
-
DOI 10.1101/gad.1298905
-
Gelbart, M. E., N. Bachman, J. Delrow, J. D. Boeke, and T. Tsukiyama. 2005. Genome-wide identification of Isw2 chromatin-remodeling targets by localization of a catalytically inactive mutant. Genes Dev. 19:942-954. (Pubitemid 40548062)
-
(2005)
Genes and Development
, vol.19
, Issue.8
, pp. 942-954
-
-
Gelbart, M.E.1
Bachman, N.2
Delrow, J.3
Boeke, J.D.4
Tsukiyama, T.5
-
14
-
-
0034721670
-
The Isw2 chromatin remodeling complex represses early meiotic genes upon recruitment by Ume6p
-
Goldmark, J. P., T. G. Fazzio, P. W. Estep, G. M. Church, and T. Tsukiyama. 2000. The Isw2 chromatin remodeling complex represses early meiotic genes upon recruitment by Ume6p. Cell 103:423-433.
-
(2000)
Cell
, vol.103
, pp. 423-433
-
-
Goldmark, J.P.1
Fazzio, T.G.2
Estep, P.W.3
Church, G.M.4
Tsukiyama, T.5
-
15
-
-
0000247720
-
Promoter targeting of chromatin-modifying complexes
-
Hassan, A. H., K. E. Neely, M. Vignali, J. C. Reese, and J. L. Workman. 2001. Promoter targeting of chromatin-modifying complexes. Front. Biosci. 6:D1054-D1064.
-
(2001)
Front. Biosci.
, vol.6
-
-
Hassan, A.H.1
Neely, K.E.2
Vignali, M.3
Reese, J.C.4
Workman, J.L.5
-
16
-
-
0036847620
-
Function and selectivity of bromodomains in anchoring chromatin-modifying complexes to promoter nucleosomes
-
DOI 10.1016/S0092-8674(02)01005-X
-
Hassan, A. H., P. Prochasson, K. E. Neely, S. C. Galasinski, M. Chandy, M. J. Carrozza, and J. L. Workman. 2002. Function and selectivity of bromodomains in anchoring chromatin-modifying complexes to promoter nucleosomes. Cell 111:369-379. (Pubitemid 35345152)
-
(2002)
Cell
, vol.111
, Issue.3
, pp. 369-379
-
-
Hassan, A.H.1
Prochasson, P.2
Neely, K.E.3
Galasinski, S.C.4
Chandy, M.5
Carrozza, M.J.6
Workman, J.L.7
-
17
-
-
0041828953
-
Transcription elongation factors repress transcription initiation from cryptic sites
-
DOI 10.1126/science.1087374
-
Kaplan, C. D., L. Laprade, and F. Winston. 2003. Transcription elongation factors repress transcription initiation from cryptic sites. Science 301:1096-1099. (Pubitemid 37022311)
-
(2003)
Science
, vol.301
, Issue.5636
, pp. 1096-1099
-
-
Kaplan, C.D.1
Laprade, L.2
Winston, F.3
-
18
-
-
0035281586
-
In vivo chromatin remodeling by yeast ISWI homologs Isw1p and Isw2p
-
Kent, N. A., N. Karabetsou, P. K. Politis, and J. Mellor. 2001. In vivo chromatin remodeling by yeast ISWI homologs Isw1p and Isw2p. Genes Dev. 15:619-626.
-
(2001)
Genes Dev.
, vol.15
, pp. 619-626
-
-
Kent, N.A.1
Karabetsou, N.2
Politis, P.K.3
Mellor, J.4
-
19
-
-
0033568312
-
ATP-dependent remodeling and acetylation as regulators of chromatin fluidity
-
DOI 10.1101/gad.13.18.2339
-
Kingston, R. E., and G. J. Narlikar. 1999. ATP-dependent remodeling and acetylation as regulators of chromatin fluidity. Genes Dev. 13:2339-2352. (Pubitemid 29453604)
-
(1999)
Genes and Development
, vol.13
, Issue.18
, pp. 2339-2352
-
-
Kingston, R.E.1
Narlikar, G.J.2
-
20
-
-
33746239647
-
Synergy among differentially regulated repressors of the ribonucleotide diphosphate reductase genes of Saccharomyces cerevisiae
-
DOI 10.1128/EC.00045-06
-
Klinkenberg, L. G., T. Webb, and R. S. Zitomer. 2006. Synergy among differentially regulated repressors of the ribonucleotide diphosphate reductase genes of Saccharomyces cerevisiae. Eukaryot. Cell 5:1007-1017. (Pubitemid 44100699)
-
(2006)
Eukaryotic Cell
, vol.5
, Issue.7
, pp. 1007-1017
-
-
Klinkenberg, L.G.1
Webb, T.2
Zitomer, R.S.3
-
21
-
-
33947513027
-
Regulation of histone methylation by demethylimination and demethylation
-
Klose, R. J., and Y. Zhang. 2007. Regulation of histone methylation by demethylimination and demethylation. Nat. Rev. Mol. Cell Biol. 8:307-318.
-
(2007)
Nat. Rev. Mol. Cell Biol.
, vol.8
, pp. 307-318
-
-
Klose, R.J.1
Zhang, Y.2
-
22
-
-
34247279134
-
SWI/SNF is required for transcriptional memory at the yeast GAL gene cluster
-
DOI 10.1101/gad.1506607
-
Kundu, S., P. J. Horn, and C. L. Peterson. 2007. SWI/SNF is required for transcriptional memory at the yeast GAL gene cluster. Genes Dev. 21:997-1004. (Pubitemid 46625647)
-
(2007)
Genes and Development
, vol.21
, Issue.8
, pp. 997-1004
-
-
Kundu, S.1
Horn, P.J.2
Peterson, C.L.3
-
24
-
-
1542328273
-
Nucleosome remodeling: One mechanism, many phenomena?
-
DOI 10.1016/j.bbaexp.2003.10.011, PII S016747810300277X
-
Langst, G., and P. B. Becker. 2004. Nucleosome remodeling: one mechanism, many phenomena? Biochim. Biophys. Acta 1677:58-63. (Pubitemid 38327089)
-
(2004)
Biochimica et Biophysica Acta - Gene Structure and Expression
, vol.1677
, Issue.1-3
, pp. 58-63
-
-
Langst, G.1
Becker, P.B.2
-
25
-
-
0035823553
-
Ssn6-Tup1 regulates RNR3 by positioning nucleosomes and affecting the chromatin structure at the upstream repression sequence
-
Li, B., and J. C. Reese. 2001. Ssn6-Tup1 regulates RNR3 by positioning nucleosomes and affecting the chromatin structure at the upstream repression sequence. J. Biol. Chem. 276:33788-33797.
-
(2001)
J. Biol. Chem.
, vol.276
, pp. 33788-33797
-
-
Li, B.1
Reese, J.C.2
-
26
-
-
33750684669
-
Transcriptional repression by Tup1-Ssn6
-
Malave, T. M., and S. Y. Dent. 2006. Transcriptional repression by Tup1-Ssn6. Biochem. Cell Biol. 84:437-443.
-
(2006)
Biochem. Cell Biol.
, vol.84
, pp. 437-443
-
-
Malave, T.M.1
Dent, S.Y.2
-
27
-
-
0037380161
-
Recent advances in understanding chromatin remodeling by Swi/Snf complexes
-
Martens, J. A., and F. Winston. 2003. Recent advances in understanding chromatin remodeling by Swi/Snf complexes. Curr. Opin. Genet. Dev. 13: 136-142.
-
(2003)
Curr. Opin. Genet. Dev.
, vol.13
, pp. 136-142
-
-
Martens, J.A.1
Winston, F.2
-
28
-
-
1542358192
-
ISWI complexes in Saccharomyces cerevisiae
-
Mellor, J., and A. Morillon. 2004. ISWI complexes in Saccharomyces cerevisiae. Biochim. Biophys. Acta 1677:100-112.
-
(2004)
Biochim. Biophys. Acta
, vol.1677
, pp. 100-112
-
-
Mellor, J.1
Morillon, A.2
-
29
-
-
0037154963
-
Cooperation between complexes that regulate chromatin structure and transcription
-
DOI 10.1016/S0092-8674(02)00654-2
-
Narlikar, G. J., H. Y. Fan, and R. E. Kingston. 2002. Cooperation between complexes that regulate chromatin structure and transcription. Cell 108:475-487. (Pubitemid 34260873)
-
(2002)
Cell
, vol.108
, Issue.4
, pp. 475-487
-
-
Narlikar, G.J.1
Fan, H.-Y.2
Kingston, R.E.3
-
30
-
-
0036276995
-
PCR-based engineering of yeast genome
-
DOI 10.1016/S0076-6879(02)50978-2
-
Petracek, M. E., and M. S. Longtine. 2002. PCR-based engineering of yeast genome. Methods Enzymol. 350:445-469. (Pubitemid 34619506)
-
(2002)
Methods in Enzymology
, vol.350
, pp. 445-469
-
-
Petracek, M.E.1
Longtine, M.S.2
-
31
-
-
0036289351
-
Hog1 kinase converts the Sko1-Cyc8-Tup1 repressor complex into an activator that recruits SAGA and SWI/SNF in response to osmotic stress
-
DOI 10.1016/S1097-2765(02)00557-9
-
Proft, M., and K. Struhl. 2002. Hog1 kinase converts the Sko1-Cyc8-Tup1 repressor complex into an activator that recruits SAGA and SWI/SNF in response to osmotic stress. Mol. Cell 9:1307-1317. (Pubitemid 34722309)
-
(2002)
Molecular Cell
, vol.9
, Issue.6
, pp. 1307-1317
-
-
Proft, M.1
Struhl, K.2
-
32
-
-
0348011831
-
Functional Analysis of TFIID Components Using Conditional Mutants
-
DOI 10.1016/S0076-6879(03)70036-6
-
Reese, J. C., and M. R. Green. 2003. Functional analysis of TFIID components using conditional mutants. Methods Enzymol. 370:415-430. (Pubitemid 37542799)
-
(2003)
Methods in Enzymology
, vol.370
, pp. 415-430
-
-
Reese, J.C.1
Green, M.R.2
-
34
-
-
34547890019
-
Functions of site-specific histone acetylation and deacetylation
-
Shahbazian, M. D., and M. Grunstein. 2007. Functions of site-specific histone acetylation and deacetylation. Annu. Rev. Biochem. 76:75-100.
-
(2007)
Annu. Rev. Biochem.
, vol.76
, pp. 75-100
-
-
Shahbazian, M.D.1
Grunstein, M.2
-
35
-
-
0037442819
-
IIs and the general transcription machinery
-
DOI 10.1101/gad.1039503
-
Sharma, V. M., B. Li, and J. C. Reese. 2003. SWI/SNF-dependent chromatin remodeling of RNR3 requires TAF(II)s and the general transcription machinery. Genes Dev. 17:502-515. (Pubitemid 36258764)
-
(2003)
Genes and Development
, vol.17
, Issue.4
, pp. 502-515
-
-
Sharma, V.M.1
Li, B.2
Reese, J.C.3
-
36
-
-
34147203592
-
Histone deacetylases RPD3 and HOS2 regulate the transcriptional activation of DNA damage-inducible genes
-
Sharma, V. M., R. S. Tomar, A. E. Dempsey, and J. C. Reese. 2007. Histone deacetylases RPD3 and HOS2 regulate the transcriptional activation of DNA damage-inducible genes. Mol. Cell. Biol. 27:3199-3210.
-
(2007)
Mol. Cell. Biol.
, vol.27
, pp. 3199-3210
-
-
Sharma, V.M.1
Tomar, R.S.2
Dempsey, A.E.3
Reese, J.C.4
-
37
-
-
35349006314
-
Histone lysine demethylases: Emerging roles in development, physiology and disease
-
Shi, Y. 2007. Histone lysine demethylases: emerging roles in development, physiology and disease. Nat. Rev. Genet. 8:829-833.
-
(2007)
Nat. Rev. Genet.
, vol.8
, pp. 829-833
-
-
Shi, Y.1
-
38
-
-
32444434989
-
Histone H4-K16 acetylation controls chromatin structure and protein interactions
-
DOI 10.1126/science.1124000
-
Shogren-Knaak, M., H. Ishii, J. M. Sun, M. J. Pazin, J. R. Davie, and C. L. Peterson. 2006. Histone H4-K16 acetylation controls chromatin structure and protein interactions. Science 311:844-847. (Pubitemid 43228847)
-
(2006)
Science
, vol.311
, Issue.5762
, pp. 844-847
-
-
Shogren-Knaak, M.1
Ishii, H.2
Sun, J.-M.3
Pazin, M.J.4
Davie, J.R.5
Peterson, C.L.6
-
40
-
-
35848961668
-
How chromatin-binding modules interpret histone modifications: Lessons from professional pocket pickers
-
Taverna, S. D., H. Li, A. J. Ruthenburg, C. D. Allis, and D. J. Patel. 2007. How chromatin-binding modules interpret histone modifications: lessons from professional pocket pickers. Nat. Struct. Mol. Biol. 14:1025-1040.
-
(2007)
Nat. Struct. Mol. Biol.
, vol.14
, pp. 1025-1040
-
-
Taverna, S.D.1
Li, H.2
Ruthenburg, A.J.3
Allis, C.D.4
Patel, D.J.5
-
41
-
-
33747881750
-
The general transcription machinery and general cofactors
-
Thomas, M. C., and C. M. Chiang. 2006. The general transcription machinery and general cofactors. Crit. Rev. Biochem. Mol. Biol. 41:105-178.
-
(2006)
Crit. Rev. Biochem. Mol. Biol.
, vol.41
, pp. 105-178
-
-
Thomas, M.C.1
Chiang, C.M.2
-
42
-
-
44649127571
-
Yeast Rap1 contributes to genomic integrity by activating DNA damage repair genes
-
DOI 10.1038/emboj.2008.93, PII EMBOJ200893
-
Tomar, R. S., S. Zheng, D. Brunke-Reese, H. N. Wolcott, and J. C. Reese. 2008. Yeast Rap1 contributes to genomic integrity by activating DNA damage repair genes. EMBO J. 27:1575-1584. (Pubitemid 351794038)
-
(2008)
EMBO Journal
, vol.27
, Issue.11
, pp. 1575-1584
-
-
Tomar, R.S.1
Zheng, S.2
Brunke-Reese, D.3
Wolcott, H.N.4
Reese, J.C.5
-
43
-
-
0034657071
-
The chrome domain protein Chd1p from budding yeast is an ATP-dependent chromatin-modifying factor
-
Tran, H. G., D. J. Steger, V. R. Iyer, and A. D. Johnson. 2000. The chromo domain protein chd1p from budding yeast is an ATP-dependent chromatin-modifying factor. EMBO J. 19:2323-2331. (Pubitemid 30259013)
-
(2000)
EMBO Journal
, vol.19
, Issue.10
, pp. 2323-2331
-
-
Tran, H.G.1
Steger, D.J.2
Iyer, V.R.3
Johnson, A.D.4
-
44
-
-
0033994292
-
ATP-dependent chromatin-remodeling complexes
-
Vignali, M., A. H. Hassan, K. E. Neely, and J. L. Workman. 2000. ATP-dependent chromatin-remodeling complexes. Mol. Cell. Biol. 20:1899-1910.
-
(2000)
Mol. Cell. Biol.
, vol.20
, pp. 1899-1910
-
-
Vignali, M.1
Hassan, A.H.2
Neely, K.E.3
Workman, J.L.4
-
45
-
-
37249077649
-
Chromatin remodelling at promoters suppresses antisense transcription
-
DOI 10.1038/nature06391, PII NATURE06391
-
Whitehouse, I., O. J. Rando, J. Delrow, and T. Tsukiyama. 2007. Chromatin remodelling at promoters suppresses antisense transcription. Nature 450:1031-1035. (Pubitemid 350273613)
-
(2007)
Nature
, vol.450
, Issue.7172
, pp. 1031-1035
-
-
Whitehouse, I.1
Rando, O.J.2
Delrow, J.3
Tsukiyama, T.4
-
46
-
-
32844468049
-
Histone arginine methylation and its dynamic regulation
-
Wysocka, J., C. D. Allis, and S. Coonrod. 2006. Histone arginine methylation and its dynamic regulation. Front. Biosci. 11:344-355.
-
(2006)
Front. Biosci.
, vol.11
, pp. 344-355
-
-
Wysocka, J.1
Allis, C.D.2
Coonrod, S.3
-
47
-
-
0032793066
-
Chromatin opening and transactivator potentiation by RAP1 in Saccharomyces cerevisiae
-
Yu, L., and R. H. Morse. 1999. Chromatin opening and transactivator potentiation by RAP1 in Saccharomyces cerevisiae. Mol. Cell. Biol. 19:5279-5288.
-
(1999)
Mol. Cell. Biol.
, vol.19
, pp. 5279-5288
-
-
Yu, L.1
Morse, R.H.2
-
48
-
-
34547404832
-
Exposing the core promoter is sufficient to activate transcription and alter coactivator requirement at RNR3
-
Zhang, H. S., and J. C. Reese. 2007. Exposing the core promoter is sufficient to activate transcription and alter coactivator requirement at RNR3. Proc. Natl. Acad. Sci. USA 104:8833-8838.
-
(2007)
Proc. Natl. Acad. Sci. USA
, vol.104
, pp. 8833-8838
-
-
Zhang, H.S.1
Reese, J.C.2
-
49
-
-
0344442779
-
Transcriptional regulation by histone ubiquitination and deubiquitination
-
DOI 10.1101/gad.1156403
-
Zhang, Y. 2003. Transcriptional regulation by histone ubiquitination and deubiquitination. Genes Dev. 17:2733-2740. (Pubitemid 37463282)
-
(2003)
Genes and Development
, vol.17
, Issue.22
, pp. 2733-2740
-
-
Zhang, Y.1
-
50
-
-
33644791356
-
Isolation of yeast nuclei and micrococcal nuclease mapping of nucleosome positioning
-
Zhang, Z., and J. C. Reese. 2006. Isolation of yeast nuclei and micrococcal nuclease mapping of nucleosome positioning. Methods Mol. Biol. 313:245-255.
-
(2006)
Methods Mol. Biol.
, vol.313
, pp. 245-255
-
-
Zhang, Z.1
Reese, J.C.2
-
51
-
-
23844531920
-
Molecular genetic analysis of the yeast repressor Rfx1/Crt1 reveals a novel two-step regulatory mechanism
-
Zhang, Z., and J. C. Reese. 2005. Molecular genetic analysis of the yeast repressor Rfx1/Crt1 reveals a novel two-step regulatory mechanism. Mol. Cell. Biol. 25:7399-7411.
-
(2005)
Mol. Cell. Biol.
, vol.25
, pp. 7399-7411
-
-
Zhang, Z.1
Reese, J.C.2
-
52
-
-
4544308621
-
Redundant mechanisms are used by Ssn6-Tup1 in repressing chromosomal gene transcription in Saccharomyces cerevisiae
-
Zhang, Z., and J. C. Reese. 2004. Redundant mechanisms are used by Ssn6-Tup1 in repressing chromosomal gene transcription in Saccharomyces cerevisiae. J. Biol. Chem. 279:39240-39250.
-
(2004)
J. Biol. Chem.
, vol.279
, pp. 39240-39250
-
-
Zhang, Z.1
Reese, J.C.2
-
53
-
-
3042551856
-
Ssn6-Tup1 requires the ISW2 complex to position nucleosomes in Saccharomyces cerevisiae
-
DOI 10.1038/sj.emboj.7600227
-
Zhang, Z., and J. C. Reese. 2004. Ssn6-Tup1 requires the ISW2 complex to position nucleosomes in Saccharomyces cerevisiae. EMBO J. 23:2246-2257. (Pubitemid 38833234)
-
(2004)
EMBO Journal
, vol.23
, Issue.11
, pp. 2246-2257
-
-
Zhang, Z.1
Reese, J.C.2
|