Michael J. Moore

TL;DR: The state-of-the-art in the area of molecular communication is presented by discussing its architecture, features, applications, design, engineering, and physical modeling and challenges and opportunities in developing networking mechanisms and communication protocols to create a network from a large number of bio-nanomachines for future applications are discussed.

TL;DR: The design of a molecular communication system based on intercellular calcium signaling networks is described and possible functionalities that may be achieved in such networks are described.

TL;DR: A layered architecture approach is applied to molecular communication, decomposes complex molecular communication functionality into a set of manageable layers, identifies basic functionalities of each layer, and develops a descriptive model consisting of key components of the layer for each layer.

TL;DR: This paper describes the design of an in vitro molecular communication system and evaluates various approaches to maximize the probability of information molecules reaching a receiver(s) and the rate of information reaching the receiver (s).

TL;DR: PDK1, or one of its homologs, is a likely candidate for the in vivo PKA kinase that phosphorylates Thr-197, and opens a new dimension in the thinking about this ubiquitous protein kinase and how it is regulated in the cell.