Thirty years ago, the most likely place to find a biologist was standing at a laboratory bench, peering down a microscope, surrounded by flasks of chemicals and petri dishes full of bacteria. Today, you are just as likely to find him or her in a room that looks more like an office, poring over lines of code on computer screens. The use of computers in biology has radically transformed who biologists are, what they do, and how they understand life. In "Life Out of Sequence," Hallam Stevens looks inside this new landscape of digital scientific work.Stevens chronicles the emergence of...
Thirty years ago, the most likely place to find a biologist was standing at a laboratory bench, peering down a microscope, surrounded by flasks of che...
Thirty years ago, the most likely place to find a biologist was standing at a laboratory bench, peering down a microscope, surrounded by flasks of chemicals and petri dishes full of bacteria. Today, you are just as likely to find him or her in a room that looks more like an office, poring over lines of code on computer screens. The use of computers in biology has radically transformed who biologists are, what they do, and how they understand life. In Life Out of Sequence, Hallam Stevens looks inside this new landscape of digital scientific work. Stevens chronicles the emergence of...
Thirty years ago, the most likely place to find a biologist was standing at a laboratory bench, peering down a microscope, surrounded by flasks of che...
Ten years after the Human Genome Project's completion the life sciences stand in a moment of uncertainty, transition, and contestation. The postgenomic era has seen rapid shifts in research methodology, funding, scientific labor, and disciplinary structures. Postgenomics is transforming our understanding of disease and health, our environment, and the categories of race, class, and gender. At the same time, the gene retains its centrality and power in biological and popular discourse. The contributors to Postgenomics analyze these ruptures and continuities and place them in historical,...
Ten years after the Human Genome Project's completion the life sciences stand in a moment of uncertainty, transition, and contestation. The postgenomi...
Ten years after the Human Genome Project's completion the life sciences stand in a moment of uncertainty, transition, and contestation. The postgenomic era has seen rapid shifts in research methodology, funding, scientific labor, and disciplinary structures. Postgenomics is transforming our understanding of disease and health, our environment, and the categories of race, class, and gender. At the same time, the gene retains its centrality and power in biological and popular discourse. The contributors to Postgenomics analyze these ruptures and continuities and place them in historical,...
Ten years after the Human Genome Project's completion the life sciences stand in a moment of uncertainty, transition, and contestation. The postgenomi...
With Biotechnology and Society, Hallam Stevens offers an up-to-date primer to help us understand the interactions of biotechnology and society and the debates, controversies, fears, and hopes that have shaped how we think about bodies, organisms, and life in the twenty-first century. Stevens addresses such topics as genetically modified foods, cloning, and stem cells; genetic testing and the potential for discrimination; fears of (and, in some cases, hopes for) designer babies; personal genomics; biosecurity; and biotech art. Taken as a whole, the book presents a clear, authoritative...
With Biotechnology and Society, Hallam Stevens offers an up-to-date primer to help us understand the interactions of biotechnology and society ...