What Sustains Life?

This book brings together three decades worth of collaborative research to address the question "What sustains life?" In part a scientific response to Schroedinger's work "What is Life?" Urry's text contains elements of memoir, history, and a solid, informative scientific core that will interest both the general reader, student, and professional researcher.

This book brings together three decades of collaborative research to address the question "What sustains life?" In part a scientific response to Schroedinger's work "What is Life?" Urry's text contains elements of memoir, history, and a solid, informative scientific core that will interest both the general reader, student, and professional researcher.

Contains elements of memoir, history, and a solid, informative scientific core Reflects three decades of collaborative research and analysis Intended for a broad readership, but useful for the professional researcher

Texte du rabat

What Sustains Life? How can something so seemingly improbable and fragile as life exist in such hardy and resilient forms? The question has inspired intrigue among curious humans, from physicists to theologians, for centuries. Fascinated by this question, Dr Dan W. Urry, Professor of Chemical Engineering and Materials Science at the University of Minnesota, St Paul, begins his investigation into the sustenance of life through an examination of the fundamental design of elastic-contractile model proteins. What does an understanding of these mechanisms lend to the comprehension of life itself? Encapsulating three decades of Dr. Urry's collaborative research and analysis, his initial investigation into the basis of life expands include an increasingly complex and diverse story that is part science, part personal memoir and wholly fascinating.

Contenu
What Sustains Life? An Overview.- The Pilgrimage: Highlights in Our Understanding of the Products and Components of Living Organisms.- Likelihood of Life's Protein Machines: Extravagant in Construction Yet Efficient in Function.- Consilient Mechanisms for Diverse Protein-based Machines: The Efficient Comprehensive Hydrophobic Effect.- On the Evolution of Protein-based Machines (Toward Complexity of Structure and Diversity of Function).- Biology Thrives Near a Movable Cusp of Insolubility.- Consilient Mechanisms for Protein-based machines of Biology.- Advanced Materials for the Future: Protein-based Materials with Potential to Sustain Individual Health and Societal Development.- Epilogue.