Natasha Myers scite author profile

Care is a slippery word. Any attempt to define it will be exceeded by its multivocality in everyday and scholarly use. In its enactment, care is both necessary to the fabric of biological and social existence and notorious for the problems that it raises when it is defined, legislated, measured, and evaluated. What care looks and feels like is both context-specific and perspective-dependent. Yet, this elusiveness does not mean that it lacks importance. In our engagements with the worlds that we study, construct, and inhabit, we cannot but care: care is an essential part of being a researcher and a citizen. To properly invite you into this Special Issue, then, we need to say something about what we mean when we write about care.

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Molecular Embodiments and the Body-work of Modeling in Protein Crystallography

Myers

2008

Soc Stud Sci

196

108

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Protein molecules, those objects of increasing interest and investment in post-genomics research, are complex, three-dimensional structures made up of thousands of atoms. Protein crystallographers build atomic-resolution models of proteins using the techniques of X-ray diffraction. This ethnographic study of protein crystallography shows that becoming an expert crystallographer, and so making sense of such intricate objects, requires researchers to draw on their bodies as a resource to learn about, work with, and communicate precise molecular configurations. Contemporary crystallographic modeling relies intensively on interactive computer graphics technology, and requires active and prolonged handling and manipulation of the model onscreen throughout the often arduous process of model-building. This paper builds on both ethnographic observations of contemporary protein crystallographers and historical accounts of early molecular modeling techniques to examine the body-work of crystallographic modeling, in particular the corporeal practices through which modelers learn the intricate structures of protein molecules. Ethnographic observations suggest that, in the process of building and manipulating protein models, crystallographers also sculpt embodied models alongside the digital renderings they craft onscreen. Crystallographic modeling at the computer interface is thus not only a means of producing representations of proteins; it is also a means of training novice crystallographers' bodies and imaginations. Protein crystallographers' molecular embodiments thus offer a site for posing a new range of questions for studies of the visual cultures and knowledge practices in the computer-mediated life sciences.Keywords embodied practice, expertise and training, models, protein crystallography, scientific visualization, tacit knowledge Molecular Embodiments and the Body-work of Modeling in Protein Crystallography Natasha MyersA new biological actor is taking center-stage in post-genomic research: the protein molecule. As journals such as Science and Nature publish new protein structures almost weekly, life scientists can be seen turning from matters of code to matters of substance -that is, from spelling out linear gene sequences to inquiring after the three-dimensional materiality, structure, and function of the protein molecules that give body to cells. In employing new digital media, augmented computer power, and innovative techniques to build atomic-resolution models of proteins, protein crystallographers and other structural biologists are transforming the very forms of data that

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Involutionary Momentum: Affective Ecologies and the Sciences of Plant/Insect Encounters

Hustak¹,

Myers²

2012

367

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This essay puts forth a theory of “affective ecologies” encompassing plant, animal, and human interactions. The authors’ formulation of “involution” favors a coevolution of organisms that act not on competitive pressures but on affective relations. Drawing in particular from—and challenging—Darwinian and neo-Darwinian accounts of orchid-insect contact and controversial research on plant communication, Hustak and Myers demonstrate the interdependence of seemingly unrelated life forms. The evolving entity within this framework is not an individual organism but a community of organisms in communication with one another, exemplified by the transmission of information through chemical signaling among plants, which forces readers to question what it means to communicate. This relationality also begs a reconsideration of the dynamic between a human subject who conducts an experiment and an animal or plant object of study, which the essay approaches by showing how Darwin became a participant in his own orchid experiments. Taken together, these feminist readings of ecological and evolutionary phenomena result in the dissolution of species and even kingdom boundaries.

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Climate Change and the Integrity of Science

Sills¹,

Gleick²,

Adams³

et al. 2010

Science

141

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From the anthropocene to the planthroposcene: Designing gardens for plant/people involution

Myers¹

2017

History and Anthropology

181

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Natasha Myers

The politics of care in technoscience

Molecular Embodiments and the Body-work of Modeling in Protein Crystallography

Involutionary Momentum: Affective Ecologies and the Sciences of Plant/Insect Encounters

Climate Change and the Integrity of Science

From the anthropocene to the planthroposcene: Designing gardens for plant/people involution

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