Dysfunctional Conformational Dynamics Of Protein Kinase A Induced By A Lethal Mutant Of Phospholamban Hinder Phosphorylation, Jonggul Kim, Larry R. Masterson, Alessandro Cembran, Raffaello Verardi, Lei Shi, Jiali Gao, Susan S. Taylor, Gianluigi Veglia
Dec 2014
Dysfunctional Conformational Dynamics Of Protein Kinase A Induced By A Lethal Mutant Of Phospholamban Hinder Phosphorylation, Jonggul Kim, Larry R. Masterson, Alessandro Cembran, Raffaello Verardi, Lei Shi, Jiali Gao, Susan S. Taylor, Gianluigi Veglia
Larry Masterson
In the heart, phospholamban regulates Ca2+-ATPase function, controlling cardiac output. A single deletion (R14del) in the phospholamban recognition sequence kinase A is linked to the progression of familial dilated cardiomyopathy, a leading cause of death worldwide. Here, we provide the molecular mechanism for the sluggish phosphorylation of R14del by protein kinase A. We found that the R14 deletion affects the organization of the active site, which remains partially open and quite dynamic, preventing the formation of catalytically committed complex. We conclude that well-tuned structural and dynamic interplay between kinase and substrate is crucial for efficient phosphorylation. These results …
Synchronous Opening And Closing Motions Are Essential For Camp-Dependent Protein Kinase A Signaling, Atul K. Srivastava, Leanna R. Mcdonald, Alessandro Cembran, Jonggul Kim, Larry R. Masterson, Christopher L. Mcclendon, Susan S. Taylor, Gianluigi Veglia
Nov 2014
Synchronous Opening And Closing Motions Are Essential For Camp-Dependent Protein Kinase A Signaling, Atul K. Srivastava, Leanna R. Mcdonald, Alessandro Cembran, Jonggul Kim, Larry R. Masterson, Christopher L. Mcclendon, Susan S. Taylor, Gianluigi Veglia
Larry Masterson
Conformational fluctuations play a central role in enzymatic catalysis. However, it is not clear how the rates and the coordination of the motions affect the different catalytic steps. Here, we used NMR spectroscopy to analyze the conformational fluctuations of the catalytic subunit of the cAMP-dependent protein kinase (PKA-C), a ubiquitous enzyme involved in a myriad of cell signaling events. We found that the wild-type enzyme undergoes synchronous motions involving several structural elements located in the small lobe of the kinase, which is responsible for nucleotide binding and release. In contrast, a mutation (Y204A) located far from the active site desynchronizes the opening and …
Structure And Dynamics Of A Primordial Catalytic Fold Generated By In Vitro Evolution, Fa-An Chao, Aleardo Morelli, John C. Haugner Iii, Lewis Churchfield, Lei Shi, Larry R. Masterson, Ritimukta Sarangi, Gianluigi Veglia, Burckhard Seelig
Dec 2012
Structure And Dynamics Of A Primordial Catalytic Fold Generated By In Vitro Evolution, Fa-An Chao, Aleardo Morelli, John C. Haugner Iii, Lewis Churchfield, Lei Shi, Larry R. Masterson, Ritimukta Sarangi, Gianluigi Veglia, Burckhard Seelig
Larry Masterson
Engineering functional protein scaffolds capable of carrying out chemical catalysis is a major challenge in enzyme design. Starting from a noncatalytic protein scaffold, we recently generated a new RNA ligase by in vitro directed evolution. This artificial enzyme lost its original fold and adopted an entirely new structure with substantially enhanced conformational dynamics, demonstrating that a primordial fold with suitable flexibility is sufficient to carry out enzymatic function.
Conformational Equilibrium Of N-Myristoylated Camp-Dependent Protein Kinase A By Molecular Dynamics Simulations, Alessandro Cembran, Larry R. Masterson, Christopher L. Mcclendon, Susan S. Taylor, Jiali Gao, Gianluigi Veglia
Dec 2011
Conformational Equilibrium Of N-Myristoylated Camp-Dependent Protein Kinase A By Molecular Dynamics Simulations, Alessandro Cembran, Larry R. Masterson, Christopher L. Mcclendon, Susan S. Taylor, Jiali Gao, Gianluigi Veglia
Larry Masterson
The catalytic subunit of protein kinase A (PKA-C) is subject to several post- or cotranslational modifications that regulate its activity both spatially and temporally. Among those, N-myristoylation increases the kinase affinity for membranes and might also be implicated in substrate recognition and allosteric regulation. Here, we investigated the effects of N-myristoylation on the structure, dynamics, and conformational equilibrium of PKA-C using atomistic molecular dynamics simulations. We found that the myristoyl group inserts into the hydrophobic pocket and leads to a tighter packing of the A-helix against the core of the enzyme. As a result, the conformational dynamics of the A-helix …
