Synopses & Reviews
Intense study of the enigmatic myc proto-oncogene over the last 20 years has broadened our view of its functions and led to insights into transcriptional regulation as well as cancer etiology, cell proliferation, apoptosis, and organismal development. How can one gene be involved in so many aspects of cellular behavior? Of particular interest is the fact that the Myc protein functions as part of a network (comprising Myc, Max, and Mad proteins) whose specific interactions direct transcriptional activation or repression of a large number of target genes. The chapters in this volume examine both molecular and biological aspects of the Myc/Max/Mad network. Included are contributions concerning the regulation of its expression, the mechanisms underlying its diverse transcriptional activities, the structural bases for its critical interactions, and the nature of its target genes. Other chapters explore the evolution of the network, its role in development and genomic instability, and the evidence for a parallel transcriptional network. Overall, this volume provides a broad and current overview of research on a crucial group of transcription factors.
Synopsis
The Myc/Mad/Mad network is defined by, and functions through, the interactions between individual Myc and Mad family proteins with Max as well as by interactions between Myc and Mad family proteins with higher order co-repressor and co-activator complexes. The chapters included in this volume illustrate the complexities of the Myc/Max/Mad network and how its functions impinge on fundamental biological processes through regulation of transcription.
Synopsis
The Myc/Mad/Mad network is defined by, and functions through, the interactions between individual Myc and Mad family proteins with Max as well as by interactions between Myc and Mad family proteins with higher order co-repressor and co-activator complexes. The chapters included in this volume illustrate the complexities of the Myc/Max/Mad network and how its functions impinge on fundamental biological processes through regulation of transcription.
Table of Contents
Preface.- Making Myc.- Transcriptionsl Activation by the Myc Oncoprotein.- Mechanisms of Transcriptional Repression by Myc.- The Mad Side of the Max Network: Antagonising the Function of Myc and More.- Structural Aspects of Interactions within the Myc/Max/Mad Network.- Myc Target Transcriptomes.- c-Myc, Genome Instability, and Tumorigenesis: The Devil is in the Details .- Lessons Learned from Myc/Max/Mad Knockout Mice.- Myc/Max/Mad in Invertebrates. The Evolution of the Max Network.- The Mix Network: Evidence for a Parallel Max-like Transcriptional Network that Regulates Energy Metabolism.- Subject Index