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  1. Pluralization through epistemic competition: scientific change in times of data-intensive biology.Fridolin Gross, Nina Kranke & Robert Meunier - 2019 - History and Philosophy of the Life Sciences 41 (1):1.
    We present two case studies from contemporary biology in which we observe conflicts between established and emerging approaches. The first case study discusses the relation between molecular biology and systems biology regarding the explanation of cellular processes, while the second deals with phylogenetic systematics and the challenge posed by recent network approaches to established ideas of evolutionary processes. We show that the emergence of new fields is in both cases driven by the development of high-throughput data generation technologies and the (...)
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  • The Sum of the Parts: Large-Scale Modeling in Systems Biology.Fridolin Gross & Sara Green - 2017 - Philosophy, Theory, and Practice in Biology 9 (10).
    Systems biologists often distance themselves from reductionist approaches and formulate their aim as understanding living systems “as a whole.” Yet, it is often unclear what kind of reductionism they have in mind, and in what sense their methodologies would offer a superior approach. To address these questions, we distinguish between two types of reductionism which we call “modular reductionism” and “bottom-up reductionism.” Much knowledge in molecular biology has been gained by decomposing living systems into functional modules or through detailed studies (...)
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  • Molecular evolution: concepts and the origin of disciplines.Edna Suárez-Díaz - 2009 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 40 (1):43-53.
    This paper focuses on the consolidation of Molecular Evolution, a field originating in the 1960s at the interface of molecular biology, biochemistry, evolutionary biology, biophysics and studies on the origin of life and exobiology. The claim is made that Molecular Evolution became a discipline by integrating different sorts of scientific traditions: experimental, theoretical and comparative. The author critically incorporates Timothy Lenoir’s treatment of disciplines , as well as ideas developed by Stephen Toulmin on the same subject. On their account disciplines (...)
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  • The Dilemma of Case Studies Resolved: The Virtues of Using Case Studies in the History and Philosophy of Science.Richard M. Burian - 2001 - Perspectives on Science 9 (4):383-404.
    Philosophers of science turned to historical case studies in part in response to Thomas Kuhn's insistence that such studies can transform the philosophy of science. In this issue Joseph Pitt argues that the power of case studies to instruct us about scientific methodology and epistemology depends on prior philosophical commitments, without which case studies are not philosophically useful. Here I reply to Pitt, demonstrating that case studies, properly deployed, illustrate styles of scientific work and modes of argumentation that are not (...)
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  • Recent science and its exploration: the case of molecular biology.Hans-Jörg Rheinberger - 2009 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 40 (1):6-12.
    This paper is about the interaction and the intertwinement between history of science as a historical process and history of science as the historiography of this process, taking molecular biology as an example. In the first part, two historical shifts are briefly characterized that appear to have punctuated the emergence of molecular biology between the 1930s and the 1980s, one connected to a new generation of analytical apparatus, the other to properly molecular tools. The second part concentrates on the historiography (...)
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  • Whose history is A guinea pig’s history?Karen A. Rader - 2008 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 39 (3):371-373.
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  • Historical and philosophical perspectives on experimental practice in medicine and the life sciences.Frank W. Stahnisch - 2005 - Theoretical Medicine and Bioethics 26 (5):397-425.
    The aim of this paper is to discuss a key question in the history and philosophy of medicine, namely how scholars should treat the practices and experimental hypotheses of modern life science laboratories. The paper seeks to introduce some prominent historiographical methods and theoretical approaches associated with biomedical research. Although medical scientists need no convincing that experimentation has a significant function in their laboratory work, historians, philosophers, and sociologists long neglected its importance when examining changes in medical theories or progress (...)
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  • That 70s show: regulation, evolution and development beyond molecular genetics.Edna Suárez-Díaz & Vivette García-Deister - 2015 - History and Philosophy of the Life Sciences 36 (4):503-524.
    This paper argues that the “long 1970s” (1969–1983) is an important though often overlooked period in the development of a rich landscape in the research of metabolism, development, and evolution. The period is marked by: shrinking public funding of basic science, shifting research agendas in molecular biology, the incorporation of new phenomena and experimental tools from previous biological research at the molecular level, and the development of recombinant DNA techniques. Research was reoriented towards eukaryotic cells and development, and in particular (...)
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  • Ontologically simple theories do not indicate the true nature of complex biological systems: three test cases.Michael Fry - 2020 - History and Philosophy of the Life Sciences 42 (2):1-44.
    A longstanding philosophical premise perceives simplicity as a desirable attribute of scientific theories. One of several raised justifications for this notion is that simple theories are more likely to indicate the true makeup of natural systems. Qualitatively parsimonious hypotheses and theories keep to a minimum the number of different postulated entities within a system. Formulation of such ontologically simple working hypotheses proved to be useful in the experimental probing of narrowly defined bio systems. It is less certain, however, whether qualitatively (...)
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  • Feminist Philosophy of Science.Lynn Hankinson Nelson - 2002 - In Peter K. Machamer & Michael Silberstein (eds.), The Blackwell guide to the philosophy of science. Malden, Mass.: Blackwell. pp. 312–331.
    This chapter contains sections titled: Highlights of Past Literature Current Work Future Work.
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  • Gene.Hans-Jörg Rheinberger - 2008 - Stanford Encyclopedia of Philosophy.
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  • Small RNA research and the scientific repertoire: a tale about biochemistry and genetics, crops and worms, development and disease.Sophie Juliane Veigl - 2021 - History and Philosophy of the Life Sciences 43 (1):1-25.
    The discovery of RNA interference in 1998 has made a lasting impact on biological research. Identifying the regulatory role of small RNAs changed the modes of molecular biological inquiry as well as biologists' understanding of genetic regulation. This article examines the early years of small RNA biology's success story. I query which factors had to come together so that small RNA research came into life in the blink of an eye. I primarily look at scientific repertoires as facilitators of rapid (...)
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  • How the techniques of molecular biology are developed from natural systems.Isobel Ronai - unknown
    A striking characteristic of the highly successful techniques in molecular biology is that they are derived from natural systems. RNA interference, for example, utilises a mechanism that evolved in eukaryotes to destroy foreign nucleic acid. Other examples include restriction enzymes, the polymerase chain reaction, green fluorescent protein and CRISPR-Cas. I propose that biologists exploit natural molecular mechanisms for their effectors’ activity and biological specificity. I also show that the developmental trajectory of novel techniques in molecular biology, such as RNAi, is (...)
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  • Sociobiology and philosophy of science.Patricia A. Williams - 1996 - Biology and Philosophy 11 (2):271-281.
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