GCE Publications
Displaying 1201 - 1225 of 1228 results
| Links to Article | Year | Article Title | Author(s) |
|---|---|---|---|
| Genetically encoding phosphotyrosine and its nonhydrolyzable analog in bacteria | X. Luo, G. Fu, R. Wang, X. Zhu, C. Zambaldo, R. Liu, T. Liu, X. Lyu, J. Du, W. Xuan | ||
| Histone recognition and large-scale structural analysis of the human bromodomain family | P. Filippakopoulos, S. Picaud, M. Mangos, T. Keates, J. Lambert, D. Barsyte-Lovejoy, I. Felletar, R. Volkmer, S. Muller, T. Pawson | ||
| Lysine Acetylation Goes Global: From Epigenetics to Metabolism and Therapeutics | I. Ali, R. Conrad, E. Verdin, M. Ott | ||
| Genetically Encoded Protein Phosphorylation in Mammalian Cells | V. Beránek, C. Reinkemeier, M. Zhang, A. Liang, G. Kym, J. Chin | ||
| A Subset of Human Bromodomains Recognizes Butyryllysine and Crotonyllysine Histone Peptide Modifications | E. Flynn, O. Huang, F. Poy, M. Oppikofer, S. Bellon, Y. Tang, A. Cochran | ||
| Lysine acetylation targets protein complexes and co-regulates major cellular functions | C. Choudhary, C. Kumar, F. Gnad, M. Nielsen, M. Rehman, T. Walther, J. Olsen, M. Mann | ||
| Genetically encoding Nε-acetyllysine in recombinant proteins | H. Neumann, S . Y. Peak-Chew, J. Chin | ||
| Development of activity-based probes for the protein deacylase Sirt1 | C. Goetz, D. Sprague, B. Smith | ||
| The growing landscape of lysine acetylation links metabolism and cell signalling | C. Choudhary, B. Weinert, Y. Nishida, E. Verdin, M. Mann | ||
| Expanding the Genetic Code of Yeast for Incorporation of Diverse Unnatural Amino Acids via a Pyrrolysyl-tRNA Synthetase/tRNA Pair | S. Hancock, R. Uprety, A. Deiters, J. Chin | ||
| Molecular Basis of Histone Tail Recognition by Human TIP5 PHD Finger and Bromodomain of the Chromatin Remodeling Complex NoRC | C. Tallant, E. Valentini, O. Fedorov, L. Overvoorde, F. Ferguson, P. Filippakopoulos, D. Svergun, S. Knapp, A. Ciulli | ||
| Functions and mechanisms of non-histone protein acetylation | T. Narita, B. Weinert, C. Choudhary | ||
| Expanding the genetic code of Mus musculus | S. Han, A. Yang, S. Lee, H.-W. Lee, C. Park, H.-S. Park | ||
| Stress-Dependent Regulation of FOXO Transcription Factors by the SIRT1 Deacetylase | A. Brunet, L. Sweeney, J. Sturgill, K. Chua, P. Greer, Y. Lin, H. Tran, S. Ross, R. Mostoslavsky, H . Y. Cohen | ||
| Targeting bromodomains: epigenetic readers of lysine acetylation | P. Filippakopoulos, S. Knapp | ||
| A genetically encoded 19F NMR probe for lysine acetylation | F. Zhang, Q. Zhou, G. Yang, L. An, F. Li, J. Wang | ||
| FOXO4 Is Acetylated upon Peroxide Stress and Deacetylated by the Longevity Protein hSir2SIRT1 | A. van der Horst, L. Tertoolen, L. de Vries-Smits, R. Frye, R. Medema, B. Burgering | ||
| Functions of bromodomain-containing proteins and their roles in homeostasis and cancer | T. Fujisawa, P. Filippakopoulos | ||
| Sir2 Deacetylases Exhibit Nucleophilic Participation of Acetyl-Lysine in NAD+ Cleavage | B. Smith, J. Denu | ||
| Regulation of FoxO activity by CBP/p300–mediated acetylation | L. van der Heide, M. Smidt | ||
| Bromodomains: a new target class for drug development | A. Cochran, A. Conery, R. Sims | ||
| Acetyl-lysine Analog Peptides as Mechanistic Probes of Protein Deacetylases | B. Smith, J. Denu | ||
| Regulation of FoxO transcription factors by acetylation and protein–protein interactions | H. Daitoku, J.-i. Sakamaki, A. Fukamizu |