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  1. Distributed Heredity and Development: a Heterarchical Perspective.Jana Švorcová - 2016 - Biosemiotics 9 (3):331-343.
    This review paper discusses the perspective of complex biological systems as applied to inheritance and ontogeny, focusing on the continuity of genetic, epigenetic and microbiotic inheritance. The informational processuality within this continuity can be used as to exemplify the insufficiency of hierarchical concepts in grasping the complex and integrated nature of biological processes. The argument follows Bruni and Giorgi in emphasizing that while structures and substrates are organized hierarchically, communicational processes are organized heterarchically. The essay also argues the insufficiency of (...)
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  • The biocommunication method: On the road to an integrative biology.Witzany Guenther - 2016 - Communicative and Integrative Biology 9:e1164374.
    Although molecular biology, genetics, and related special disciplines represent a large amount of empirical data, a practical method for the evaluation and overview of current knowledge is far from being realized. The main concepts and narratives in these fields have remained nearly the same for decades and the more recent empirical data concerning the role of noncoding RNAs and persistent viruses and their defectives do not fit into this scenario. A more innovative approach such as applied biocommunication theory could translate (...)
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  • (1 other version)RNA as the substrate for epigenome‐environment interactions.John S. Mattick - 2010 - Bioessays 32 (7):548-552.
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  • Evolution of eukaryotic genome architecture: Insights from the study of a rapidly evolving metazoan, Oikopleura dioica.Sreenivas Chavali, David A. De Lima Morais, Julian Gough & M. Madan Babu - 2011 - Bioessays 33 (8):592-601.
    Recent sequencing of the metazoan Oikopleura dioica genome has provided important insights, which challenges the current understanding of eukaryotic genome evolution. Many genomic features of O. dioica show deviation from the commonly observed trends in other eukaryotic genomes. For instance, O. dioica has a rapidly evolving, highly compact genome with a divergent intron‐exon organization. Additionally, O. dioica lacks the minor spliceosome and key DNA repair pathway genes. Even with a compact genome, O. dioica contains tandem repeats, comparable to other eukaryotes, (...)
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