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  1. Bridging the gap between developmental systems theory and evolutionary developmental biology†.Jason Scott Robert, Brian K. Hall & Wendy M. Olson - 2001 - Bioessays 23 (10):954-962.
    Many scientists and philosophers of science are troubled by the relative isolation of developmental from evolutionary biology. Reconciling the science of development with the science of heredity preoccupied a minority of biologists for much of the twentieth century, but these efforts were not corporately successful. Mainly in the past fifteen years, however, these previously dispersed integrating programmes have been themselves synthesized and so reinvigorated. Two of these more recent synthesizing endeavours are evolutionary developmental biology and developmental systems theory. While the (...)
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  • How genomic and developmental dynamics affect evolutionary processes.Gabriel Dover - 2000 - Bioessays 22 (12):1153-1159.
    Evolutionary genetics is concerned with natural selection and neutral drift, to the virtual exclusion of almost everything else. In its current focus on DNA variation, it reduces phenotypes to symbols. Varying phenotypes, however, are the units of evolution, and, if we want a comprehensive theory of evolution, we need to consider both the internal and external evolutionary forces that shape the development of phenotypes. Genetic systems are redundant, modular and subject to a variety of genomic mechanisms of “turnover” (transposition, gene (...)
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  • There's more to life than selection and neutrality.Gabby Dover - 1997 - Bioessays 19 (1):91-92.
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  • Simple sequences and the expanding genome.John M. Hancock - 1996 - Bioessays 18 (5):421-425.
    Recent analysis of the contribution of replication slippage to genome evolution shows that it has played a significant role in all species from eubacteria to humans. The overall level of repetition in genomes is related to genome size and to the degree of repetition that can be measured within individual ribosomai RNA genes, suggesting that the entire genome accepts simple sequences in a concerted manner when its size increases. Although coding sequences accept simple sequences much less readily than non‐coding sequences, (...)
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