|Glucose restriction inhibits skeletal myoblast differentiation by activating SIRT1 through AMPK-mediated regulation of Nampt|
M Fulco, Y Cen, P Zhao, EP Hoffman, MW McBurney, AA Sauve, ...
Developmental cell 14 (5), 661-673, 2008
|Sir2 regulates skeletal muscle differentiation as a potential sensor of the redox state|
M Fulco, RL Schiltz, S Iezzi, MT King, P Zhao, Y Kashiwaya, E Hoffman, ...
Molecular cell 12 (1), 51-62, 2003
|The Polycomb Ezh2 methyltransferase regulates muscle gene expression and skeletal muscle differentiation|
G Caretti, M Di Padova, B Micales, GE Lyons, V Sartorelli
Genes & development 18 (21), 2627-2638, 2004
|Twist is a potential oncogene that inhibits apoptosis|
R Maestro, AP Dei Tos, Y Hamamori, S Krasnokutsky, V Sartorelli, ...
Genes & development 13 (17), 2207-2217, 1999
|Differential roles of p300 and PCAF acetyltransferases in muscle differentiation|
PL Puri, V Sartorelli, XJ Yang, Y Hamamori, VV Ogryzko, BH Howard, ...
Molecular cell 1 (1), 35-45, 1997
|Regulation of histone acetyltransferases p300 and PCAF by the bHLH protein twist and adenoviral oncoprotein E1A|
Y Hamamori, V Sartorelli, V Ogryzko, PL Puri, HY Wu, JYJ Wang, ...
Cell 96 (3), 405-413, 1999
|Molecular mechanisms of myogenic coactivation by p300: direct interaction with the activation domain of MyoD and with the MADS box of MEF2C|
V Sartorelli, J Huang, Y Hamamori, L Kedes
Molecular and cellular biology 17 (2), 1010-1026, 1997
|eRNAs promote transcription by establishing chromatin accessibility at defined genomic loci|
K Mousavi, H Zare, S Dell’Orso, L Grontved, G Gutierrez-Cruz, A Derfoul, ...
Molecular cell 51 (5), 606-617, 2013
|Regulation of the p300 HAT domain via a novel activation loop|
PR Thompson, D Wang, L Wang, M Fulco, N Pediconi, D Zhang, W An, ...
Nature structural & molecular biology 11 (4), 308-315, 2004
|Acetylation of MyoD directed by PCAF is necessary for the execution of the muscle program|
V Sartorelli, PL Puri, Y Hamamori, V Ogryzko, G Chung, Y Nakatani, ...
Molecular cell 4 (5), 725-734, 1999
|The NAD+-Dependent SIRT1 Deacetylase Translates a Metabolic Switch into Regulatory Epigenetics in Skeletal Muscle Stem Cells|
JG Ryall, S Dell’Orso, A Derfoul, A Juan, H Zare, X Feng, D Clermont, ...
Cell stem cell 16 (2), 171-183, 2015
|TNF/p38α/polycomb signaling to Pax7 locus in satellite cells links inflammation to the epigenetic control of muscle regeneration|
D Palacios, C Mozzetta, S Consalvi, G Caretti, V Saccone, V Proserpio, ...
Cell stem cell 7 (4), 455-469, 2010
|DNA damage-dependent acetylation of p73 dictates the selective activation of apoptotic target genes|
A Costanzo, P Merlo, N Pediconi, M Fulco, V Sartorelli, PA Cole, ...
Molecular cell 9 (1), 175-186, 2002
|H3K4 mono-and di-methyltransferase MLL4 is required for enhancer activation during cell differentiation|
JE Lee, C Wang, S Xu, YW Cho, L Wang, X Feng, A Baldridge, V Sartorelli, ...
elife 2, e01503, 2013
|Muscle-specific expression of the cardiac alpha-actin gene requires MyoD1, CArG-box binding factor, and Sp1.|
V Sartorelli, KA Webster, L Kedes
Genes & Development 4 (10), 1811-1822, 1990
|Mir-214-dependent regulation of the polycomb protein Ezh2 in skeletal muscle and embryonic stem cells|
AH Juan, RM Kumar, JG Marx, RA Young, V Sartorelli
Molecular cell 36 (1), 61-74, 2009
|BACH2 represses effector programs to stabilize Treg-mediated immune homeostasis|
R Roychoudhuri, K Hirahara, K Mousavi, D Clever, CA Klebanoff, ...
Nature 498 (7455), 506-510, 2013
|STATs shape the active enhancer landscape of T cell populations|
G Vahedi, H Takahashi, S Nakayamada, H Sun, V Sartorelli, Y Kanno, ...
Cell 151 (5), 981-993, 2012
|Regulation of muscle regulatory factors by DNA‐binding, interacting proteins, and post‐transcriptional modifications|
PL Puri, V Sartorelli
Journal of cellular physiology 185 (2), 155-173, 2000
|Functional and morphological recovery of dystrophic muscles in mice treated with deacetylase inhibitors|
GC Minetti, C Colussi, R Adami, C Serra, C Mozzetta, V Parente, S Fortuni, ...
Nature medicine 12 (10), 1147-1150, 2006