-
1
-
-
0018240421
-
A gene complex controlling segmentation in Drosophila
-
Lewis EB (1978) A gene complex controlling segmentation in Drosophila. Nature 276(5688):565-570.
-
(1978)
Nature
, vol.276
, Issue.5688
, pp. 565-570
-
-
Lewis, E.B.1
-
2
-
-
84876871047
-
Occupying chromatin: Polycomb mechanisms for getting to genomic targets, stopping transcriptional traffic, and staying put
-
Simon JA, Kingston RE (2013) Occupying chromatin: Polycomb mechanisms for getting to genomic targets, stopping transcriptional traffic, and staying put. Mol Cell 49(5):808-824.
-
(2013)
Mol Cell
, vol.49
, Issue.5
, pp. 808-824
-
-
Simon, J.A.1
Kingston, R.E.2
-
3
-
-
78751662908
-
The Polycomb complex PRC2 and its mark in life
-
Margueron R, Reinberg D (2011) The Polycomb complex PRC2 and its mark in life. Nature 469(7330):343-349.
-
(2011)
Nature
, vol.469
, Issue.7330
, pp. 343-349
-
-
Margueron, R.1
Reinberg, D.2
-
4
-
-
84863011309
-
PCGF homologs, CBX proteins, and RYBP define functionally distinct PRC1 family complexes
-
Gao Z, et al. (2012) PCGF homologs, CBX proteins, and RYBP define functionally distinct PRC1 family complexes. Mol Cell 45(3):344-356.
-
(2002)
Mol Cell
, vol.45
, Issue.3
, pp. 344-356
-
-
Gao, Z.1
-
5
-
-
0032828715
-
A generic protein purification method for protein complex characterization and proteome exploration
-
Rigaut G, et al. (1999) A generic protein purification method for protein complex characterization and proteome exploration. Nat Biotechnol 17(10):1030-1032.
-
(1999)
Nat Biotechnol
, vol.17
, Issue.10
, pp. 1030-1032
-
-
Rigaut, G.1
-
6
-
-
33644670152
-
An integrated mass spectrometrybased proteomic approach: Quantitative analysis of tandem affinity-purified in vivo cross-linked protein complexes (QTAX) to decipher the 26 S proteasome-interacting network
-
Guerrero C, Tagwerker C, Kaiser P, Huang L (2006) An integrated mass spectrometrybased proteomic approach: Quantitative analysis of tandem affinity-purified in vivo cross-linked protein complexes (QTAX) to decipher the 26 S proteasome-interacting network. Mol Cell Proteomics 5(2):366-378.
-
(2006)
Mol Cell Proteomics
, vol.5
, Issue.2
, pp. 366-378
-
-
Guerrero, C.1
Tagwerker, C.2
Kaiser, P.3
Huang, L.4
-
7
-
-
3042801308
-
SUZ12 is required for both the histone methyltransferase activity and the silencing function of the EED-EZH2 complex
-
Cao R, Zhang Y (2004) SUZ12 is required for both the histone methyltransferase activity and the silencing function of the EED-EZH2 complex. Mol Cell 15(1):57-67.
-
(2004)
Mol Cell
, vol.15
, Issue.1
, pp. 57-67
-
-
Cao, R.1
Zhang, Y.2
-
8
-
-
66249121737
-
AEBP2 as a potential targeting protein for polycomb repression complex PRC2
-
Kim H, Kang K, Kim J (2009) AEBP2 as a potential targeting protein for Polycomb Repression Complex PRC2. Nucleic Acids Res 37(9):2940-2950.
-
(2009)
Nucleic Acids Res
, vol.37
, Issue.9
, pp. 2940-2950
-
-
Kim, H.1
Kang, K.2
Kim, J.3
-
9
-
-
34648834735
-
Pcl-PRC2 is needed to generate high levels of H3-K27 trimethylation at Polycomb target genes
-
Nekrasov M, et al. (2007) Pcl-PRC2 is needed to generate high levels of H3-K27 trimethylation at Polycomb target genes. EMBO J 26(18):4078-4088.
-
(2007)
EMBO J
, vol.26
, Issue.18
, pp. 4078-4088
-
-
Nekrasov, M.1
-
10
-
-
42149149895
-
Ezh2 requires PHF1 to efficiently catalyze H3 lysine 27 trimethylation in vivo
-
Sarma K, Margueron R, Ivanov A, Pirrotta V, Reinberg D (2008) Ezh2 requires PHF1 to efficiently catalyze H3 lysine 27 trimethylation in vivo. Mol Cell Biol 28(8):2718-2731.
-
(2008)
Mol Cell Biol
, vol.28
, Issue.8
, pp. 2718-2731
-
-
Sarma, K.1
Margueron, R.2
Ivanov, A.3
Pirrotta, V.4
Reinberg, D.5
-
11
-
-
77951871731
-
The JARID2-PRC2 duality
-
Herz HM, Shilatifard A (2010) The JARID2-PRC2 duality. Genes Dev 24(9):857-861.
-
(2010)
Genes Dev
, vol.24
, Issue.9
, pp. 857-861
-
-
Herz, H.M.1
Shilatifard, A.2
-
12
-
-
55949124844
-
EZH1 mediates methylation on histone H3 lysine 27 and complements EZH2 in maintaining stem cell identity and executing pluripotency
-
Shen X, et al. (2008) EZH1 mediates methylation on histone H3 lysine 27 and complements EZH2 in maintaining stem cell identity and executing pluripotency. Mol Cell 32(4):491-502.
-
(2008)
Mol Cell
, vol.32
, Issue.4
, pp. 491-502
-
-
Shen, X.1
-
13
-
-
55949132133
-
Ezh1 and Ezh2 maintain repressive chromatin through different mechanisms
-
Margueron R, et al. (2008) Ezh1 and Ezh2 maintain repressive chromatin through different mechanisms. Mol Cell 32(4):503-518.
-
(2008)
Mol Cell
, vol.32
, Issue.4
, pp. 503-518
-
-
Margueron, R.1
-
14
-
-
79952135845
-
PRC2 complexes with JARID2, MTF2, and esPRC2p48 in ES cells to modulate ES cell pluripotency and somatic cell reprogramming
-
Zhang Z, et al. (2011) PRC2 complexes with JARID2, MTF2, and esPRC2p48 in ES cells to modulate ES cell pluripotency and somatic cell reprogramming. Stem Cells 29(2): 229-240.
-
(2011)
Stem Cells
, vol.29
, Issue.2
, pp. 229-240
-
-
Zhang, Z.1
-
15
-
-
84875477980
-
Reverse engineering a mouse embryonic stem cell-specific transcriptional network reveals a new modulator of neuronal differentiation
-
De Cegli R, et al. (2013) Reverse engineering a mouse embryonic stem cell-specific transcriptional network reveals a new modulator of neuronal differentiation. Nucleic Acids Res 41(2):711-726.
-
(2013)
Nucleic Acids Res
, vol.41
, Issue.2
, pp. 711-726
-
-
De Cegli, R.1
-
16
-
-
84871740411
-
Stoichiometry of chromatin-associated protein complexes revealed by label-free quantitative mass spectrometry-based proteomics
-
Smits AH, Jansen PW, Poser I, Hyman AA, Vermeulen M (2013) Stoichiometry of chromatin-associated protein complexes revealed by label-free quantitative mass spectrometry-based proteomics. Nucleic Acids Res 41(1):e28.
-
(2013)
Nucleic Acids Res
, vol.41
, Issue.1
-
-
Smits, A.H.1
Jansen, P.W.2
Poser, I.3
Hyman, A.A.4
Vermeulen, M.5
-
17
-
-
37549065184
-
Role of the PLDLS-binding cleft region of CtBP1 in recruitment of core and auxiliary components of the corepressor complex
-
Kuppuswamy M, et al. (2008) Role of the PLDLS-binding cleft region of CtBP1 in recruitment of core and auxiliary components of the corepressor complex. Mol Cell Biol 28(1):269-281.
-
(2008)
Mol Cell Biol
, vol.28
, Issue.1
, pp. 269-281
-
-
Kuppuswamy, M.1
-
18
-
-
82755176823
-
Corepressor protein CDYL functions as a molecular bridge between polycomb repressor complex 2 and repressive chromatin mark trimethylated histone lysine 27
-
Zhang Y, et al. (2011) Corepressor protein CDYL functions as a molecular bridge between polycomb repressor complex 2 and repressive chromatin mark trimethylated histone lysine 27. J Biol Chem 286(49):42414-42425.
-
(2011)
J Biol Chem
, vol.286
, Issue.49
, pp. 42414-42425
-
-
Zhang, Y.1
-
19
-
-
84892888891
-
Cdyl, a new partner of the inactive X chromosome and potential reader of H3K27me3 and H3K9me2
-
Escamilla-Del-Arenal M, et al. (2013) Cdyl, a new partner of the inactive X chromosome and potential reader of H3K27me3 and H3K9me2. Mol Cell Biol 33(24):5005-5020.
-
(2013)
Mol Cell Biol
, vol.33
, Issue.24
, pp. 5005-5020
-
-
Escamilla-Del-Arenal, M.1
-
20
-
-
79651471340
-
Histone methyltransferase G9a contributes to H3K27 methylation in vivo
-
Wu H, et al. (2011) Histone methyltransferase G9a contributes to H3K27 methylation in vivo. Cell Res 21(2):365-367.
-
(2011)
Cell Res
, vol.21
, Issue.2
, pp. 365-367
-
-
Wu, H.1
-
21
-
-
84892856196
-
The histone H3 lysine 9 methyltransferases G9a and GLP regulate Polycomb Repressive Complex 2-mediated gene silencing
-
10.1016/j.molcel.2013.12.005
-
Mozzetta C, et al. (2013) The histone H3 lysine 9 methyltransferases G9a and GLP regulate Polycomb Repressive Complex 2-mediated gene silencing. Mol Cell, 10.1016/j.molcel.2013.12.005.
-
(2013)
Mol Cell
-
-
Mozzetta, C.1
-
22
-
-
84870855250
-
Molecular basis for H3K36me3 recognition by the Tudor domain of PHF1
-
Musselman CA, et al. (2012) Molecular basis for H3K36me3 recognition by the Tudor domain of PHF1. Nat Struct Mol Biol 19(12):1266-1272.
-
(2012)
Nat Struct Mol Biol
, vol.19
, Issue.12
, pp. 1266-1272
-
-
Musselman, C.A.1
-
23
-
-
75349104610
-
Polycomb-like 2 associates with PRC2 and regulates transcriptional networks during mouse embryonic stem cell self-renewal and differentiation
-
Walker E, et al. (2010) Polycomb-like 2 associates with PRC2 and regulates transcriptional networks during mouse embryonic stem cell self-renewal and differentiation. Cell Stem Cell 6(2):153-166.
-
(2010)
Cell Stem Cell
, vol.6
, Issue.2
, pp. 153-166
-
-
Walker, E.1
-
24
-
-
84872347438
-
Tudor domains of the PRC2 components PHF1 and PHF19 selectively bind to histone H3K36me3
-
Qin S, et al. (2013) Tudor domains of the PRC2 components PHF1 and PHF19 selectively bind to histone H3K36me3. Biochem Biophys Res Commun 430(2):547-553.
-
(2013)
Biochem Biophys Res Commun
, vol.430
, Issue.2
, pp. 547-553
-
-
Qin, S.1
-
25
-
-
77955419051
-
Ubiquitin-specific proteases 7 and 11 modulate Polycomb regulation of the INK4a tumour suppressor
-
Maertens GN, El Messaoudi-Aubert S, Elderkin S, Hiom K, Peters G (2010) Ubiquitin-specific proteases 7 and 11 modulate Polycomb regulation of the INK4a tumour suppressor. EMBO J 29(15):2553-2565.
-
(2010)
EMBO J
, vol.29
, Issue.15
, pp. 2553-2565
-
-
Maertens, G.N.1
El Messaoudi-Aubert, S.2
Elderkin, S.3
Hiom, K.4
Peters, G.5
-
27
-
-
84873569148
-
Chromatin proteins captured by ChIP-mass spectrometry are linked to dosage compensation in Drosophila
-
Wang CI, et al. (2013) Chromatin proteins captured by ChIP-mass spectrometry are linked to dosage compensation in Drosophila. Nat Struct Mol Biol 20(2):202-209.
-
(2013)
Nat Struct Mol Biol
, vol.20
, Issue.2
, pp. 202-209
-
-
Wang, C.I.1
-
28
-
-
79551685675
-
A TALE nuclease architecture for efficient genome editing
-
Miller JC, et al. (2011) A TALE nuclease architecture for efficient genome editing. Nat Biotechnol 29(2):143-148.
-
(2011)
Nat Biotechnol
, vol.29
, Issue.2
, pp. 143-148
-
-
Miller, J.C.1
-
29
-
-
84876567971
-
RNA-programmed genome editing in human cells
-
Jinek M, et al. (2013) RNA-programmed genome editing in human cells. Elife 2: E00471.
-
(2013)
Elife
, vol.2
-
-
Jinek, M.1
-
30
-
-
78649807567
-
Phosphorylation of the PRC2 component Ezh2 is cell cycleregulated and up-regulates its binding to ncRNA
-
Kaneko S, et al. (2010) Phosphorylation of the PRC2 component Ezh2 is cell cycleregulated and up-regulates its binding to ncRNA. Genes Dev 24(23):2615-2620.
-
(2010)
Genes Dev
, vol.24
, Issue.23
, pp. 2615-2620
-
-
Kaneko, S.1
-
31
-
-
0038611015
-
Efficient biotinylation and single-step purification of tagged transcription factors in mammalian cells and transgenic mice
-
de Boer E, et al. (2003) Efficient biotinylation and single-step purification of tagged transcription factors in mammalian cells and transgenic mice. Proc Natl Acad Sci USA 100(13):7480-7485.
-
(2003)
Proc Natl Acad Sci USA
, vol.100
, Issue.13
, pp. 7480-7485
-
-
De Boer, E.1
|