| 11 - 12 |
Introduction: Posttranslational Protein Modification
Lin HN, Caroll KS |
| 43 - 112 |
Protein Lipidation: Occurrence, Mechanisms, Biological Functions, and Enabling Technologies
Jiang H, Zhang XY, Chen X, Aramsangtienchai P, Tong Z, Lin HN |
| 193 - 215 |
Regulatory Mechanisms and Novel Therapeutic Targeting Strategies for Protein Tyrosine Phosphatases
Yu ZH, Zhang ZY |
| 216 - 260 |
ADP-Ribosylation, a Multifaceted Posttranslational Modification Involved in the Control of Cell Physiology in Health and Disease
Luscher B, Butepage M, Eckei L, Krieg S, Verheugd P, Shilton BH |
| 261 - 292 |
Proteolytic Cleavage-Mechanisms, Function, and "Omic" Approaches for a Near-Ubiquitous Posttranslational Modification
Klein T, Eckhard U, Dufour A, Solis N, Overall CM |
| 293 - 322 |
Chemistry and Enzymology of Disulfide Cross-Linking in Proteins
Fass D, Thorpe C |
| 323 - 339 |
Enzymes Involved in AMPylation and deAMPylation
Casey AK, Orth K |
| 340 - 376 |
Lysine Acetylation Goes Global: From Epigenetics to Metabolism and Therapeutics
Ali I, Conrad RJ, Verdin E, Ott M |
| 377 - 461 |
Chemical Biology of H2S Signaling through Persulfidation
Filipovic MR, Zivanovic J, Alvarez B, Banerjee R |
| 462 - 1408 |
Biochemistry of Peroxynitrite and Protein Tyrosine Nitration
Ferrer-Sueta G, Campolo N, Trujillo M, Bartesaghi S, Carballa S, Romero N, Alvarez B, Radi R |
| 889 - 918 |
Ubiquitin-like Protein Conjugation: Structures, Chemistry, and Mechanism
Cappadocia L, Lima CD |
| 989 - 1068 |
Inhibitors of Protein Methyltransferases and Demethylases
Kaniskan HU, Martini ML, Jin J |
