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  1. Evolution, Genetic Engineering, and Human Enhancement.Russell Powell, Guy Kahane & Julian Savulescu - 2012 - Philosophy and Technology 25 (4):439-458.
    There are many ways that biological theory can inform ethical discussions of genetic engineering and biomedical enhancement. In this essay, we highlight some of these potential contributions, and along the way provide a synthetic overview of the papers that comprise this special issue. We begin by comparing and contrasting genetic engineering with programs of selective breeding that led to the domestication of plants and animals, and we consider how genetic engineering differs from other contemporary biotechnologies such as embryo selection. We (...)
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  • If the Genome isn’t a God-like Ghost in the Machine, Then What is it?M. Blute - 2005 - Biology and Philosophy 20 (2-3):401-407.
    Implicit God-like and ghost-in-the-machine metaphors underlie much current thinking about genomes. Although many criticisms of such views exist, none have succeeded in substituting a different, widely accepted view. Viewing the genome with its protein packaging as a brain gets rid of Gods and ghosts while plausibly integrating machine and information-based views. While the ‘wetware’ of brains and genomes are very different, many fundamental principles of how they function are similar. Eukaryotic cells are compound entities in which case the nuclear genome (...)
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  • Cooperation in a Complex World: The Role of Proximate Factors in Ultimate Explanations. [REVIEW]Kim Sterelny - 2013 - Biological Theory 7 (4):358-367.
    Mayr’s distinction between proximate and ultimate explanation is justly famous, marking out a division of explanatory labor in biology. But while it is a useful heuristic in many cases, there are others in which proximate factors play an important role in shaping evolutionary trajectories, and in such cases, each project is sensitive to, and relevant to, the other. This general methodological claim is developed in the context of a discussion of human cooperation, and in particular, in a discussion on the (...)
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  • Varieties of parity.Ulrich E. Stegmann - 2012 - Biology and Philosophy 27 (6):903-918.
    A central idea of developmental systems theory is ‘parity’ or ‘symmetry’ between genes and non-genetic factors of development. The precise content of this idea remains controversial, with different authors stressing different aspects and little explicit comparisons among the various interpretations. Here I characterise and assess several influential versions of parity.
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  • Crick's notion of genetic information and the ‘central dogma’ of molecular biology.Predrag Šustar - 2007 - British Journal for the Philosophy of Science 58 (1):13-24.
    An assessment is offered of the recent debate on information in the philosophy of biology, and an analysis is provided of the notion of information as applied in scientific practice in molecular genetics. In particular, this paper deals with the dependence of basic generalizations of molecular biology, above all the ‘central dogma’, on the so-called ‘informational talk’ (Maynard Smith [2000a]). It is argued that talk of information in the ‘central dogma’ can be reduced to causal claims. In that respect, the (...)
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  • Development and microbiology.Aja Watkins - 2021 - Biology and Philosophy 36 (4):1-30.
    On the basis of findings from developmental biology, some researchers have argued that evolutionary theory needs to be significantly updated. Advocates of such a “developmental update” have, among other things, suggested that we need to re-conceptualize units of selection, that we should expand our view of inheritance to include environmental as well as genetic and epigenetic factors, that we should think of organisms and their environment as involved in reciprocal causation, and that we should reevaluate the rates of evolutionary change. (...)
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