Rendering life molecular : models, modelers, and excitable matter
Author(s)
Bibliographic Information
Rendering life molecular : models, modelers, and excitable matter
(Experimental futures : technological lives, scientific arts, anthropological voices)
Duke University Press, 2015
- : pbk
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Note
Includes bibliographical references (p. [277]-298) and index
Description and Table of Contents
Description
What are living bodies made of? Protein modelers tell us that our cells are composed of millions of proteins, intricately folded molecular structures on the scale of nanoparticles. Proteins twist and wriggle as they carry out the activities that keep cells alive. Figuring out how to make these unruly substances visible, tangible, and workable is a challenging task, one that is not readily automated, even by the fastest computers. Natasha Myers explores what protein modelers must do to render three-dimensional, atomic-resolution models of these lively materials. Rendering Life Molecular shows that protein models are not just informed by scientific data: model building entangles a modeler's entire sensorium, and modelers must learn to feel their way through the data in order to interpret molecular forms. Myers takes us into protein modeling laboratories and classrooms, tracking how gesture, affect, imagination, and intuition shape practices of objectivity. Asking, 'What is life becoming in modelers' hands?' she tunes into the ways they animate molecules through their moving bodies and other media. In the process she amplifies an otherwise muted liveliness inflecting mechanistic accounts of the stuff of life.
Table of Contents
Preface ix
Acknowledgments xiii
Introduction 1
Part One. Laboratory Entanglements
1. Crystallographic Renderings 35
2. Tangible Media 74
3. Molecular Embodiments 99
Part Two. Ontics and Epistemics
4. Rending Representation 121
5. Remodeling Objectivity 136
Part Three. Forms of Life
6. Machinic Life 159
7. Lively Machines 182
8. Molecular Calisthenics 204
Conclusion: What Is Life Becoming? 230
Appendix: A Protein Primer 239
Notes 243
Bibliography 277
Index 299
by "Nielsen BookData"