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  1. An account of conserved functions and how biologists use them to integrate cell and evolutionary biology.Jeremy G. Wideman, Steve Elliott & Beckett Sterner - 2023 - Biology and Philosophy 38 (5):1-23.
    We characterize a type of functional explanation that addresses why a homologous trait originating deep in the evolutionary history of a group remains widespread and largely unchanged across the group’s lineages. We argue that biologists regularly provide this type of explanation when they attribute conserved functions to phenotypic and genetic traits. The concept of conserved function applies broadly to many biological domains, and we illustrate its importance using examples of molecular sequence alignments at the intersection of evolution and cell biology. (...)
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  • Moving Past the Systematics Wars.Beckett Sterner & Scott Lidgard - 2018 - Journal of the History of Biology 51 (1):31-67.
    It is time to escape the constraints of the Systematics Wars narrative and pursue new questions that are better positioned to establish the relevance of the field in this time period to broader issues in the history of biology and history of science. To date, the underlying assumptions of the Systematics Wars narrative have led historians to prioritize theory over practice and the conflicts of a few leading theorists over the less-polarized interactions of systematists at large. We show how shifting (...)
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  • Rate variation during molecular evolution: creationism and the cytochrome c molecular clock.R. Hofmann James - 2017 - Evolution: Education and Outreach 10 (1).
    Molecular clocks based upon amino acid sequences in proteins have played a major role in the clarification of evolutionary phylogenies. Creationist criticisms of these methods sometimes rely upon data that might initially seem to be paradoxical. For example, human cytochrome c differs from that of an alligator by 13 amino acids but differs by 14 amino acids from a much more closely related primate, Otolemur garnettii. The apparent anomaly is resolved by taking into consideration the variable substitution rate of cytochrome (...)
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  • Reconstructing the Last Common Ancestor: Epistemological and Empirical Challenges.Arturo Becerra, Edna Suárez-Díaz & Amadeo Estrada - 2022 - Acta Biotheoretica 70 (2):1-19.
    Reconstructing the genetic traits of the Last Common Ancestor and the Tree of Life are two examples of the reaches of contemporary molecular phylogenetics. Nevertheless, the whole enterprise has led to paradoxical results. The presence of Lateral Gene Transfer poses epistemic and empirical challenges to meet these goals; the discussion around this subject has been enriched by arguments from philosophers and historians of science. At the same time, a few but influential research groups have aimed to reconstruct the LCA with (...)
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  • Histories of molecules: Reconciling the past.Maureen A. O'Malley - 2016 - Studies in History and Philosophy of Science Part A 55 (C):69-83.
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  • The Molecular Basis of Evolution and Disease: A Cold War Alliance.Edna Suárez-Díaz - 2019 - Journal of the History of Biology 52 (2):325-346.
    This paper extends previous arguments against the assumption that the study of variation at the molecular level was instigated with a view to solving an internal conflict between the balance and classical schools of population genetics. It does so by focusing on the intersection of basic research in protein chemistry and the molecular approach to disease with the enactment of global health campaigns during the Cold War period. The paper connects advances in research on protein structure and function as reflected (...)
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  • Humanising and dehumanising pigs in genomic and transplantation research.James W. E. Lowe - 2022 - History and Philosophy of the Life Sciences 44 (4):1-27.
    Biologists who work on the pig (_Sus scrofa_) take advantage of its similarity to humans by constructing the inferential and material means to traffic data, information and knowledge across the species barrier. Their research has been funded due to its perceived value for agriculture and medicine. Improving selective breeding practices, for instance, has been a driver of genomics research. The pig is also an animal model for biomedical research and practice, and is proposed as a source of organs for cross-species (...)
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  • Flattening and Unpacking Human Genetic Variation in Mexico, Postwar to Present.Víctor Hugo Anaya-Muñoz, Vivette García-Deister & Edna Suárez-Díaz - 2017 - Science in Context 30 (1):89-112.
    ArgumentThis paper analyzes the research strategies of three different cases in the study of human genetics in Mexico – the work of Rubén Lisker in the 1960s, INMEGEN's mapping of Mexican genomic diversity between 2004 and 2009, and the analysis of Native American variation by Andrés Moreno and his colleagues in contemporary research. We make a distinction between an approach that incorporates multiple disciplinary resources into sampling design and interpretation (unpacking), from one that privileges pragmatic considerations over more robust multidisciplinary (...)
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  • A hapless mathematical contribution to biology: Chromosome inversions in Drosophila, 1937–1941.Eric Tannier - 2022 - History and Philosophy of the Life Sciences 44 (3):1-22.
    This is the story, told in the light of a new analysis of historical data, of a mathematical biology problem that was explored in the 1930s in Thomas Morgan’s laboratory at the California Institute of Technology. It is one of the early developments of evolutionary genetics and quantitative phylogeny, and deals with the identification and counting of chromosomal inversions in Drosophila species from comparisons of genetic maps. A re-analysis of the data produced in the 1930s using current mathematics and computational (...)
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