2008
DOI: 10.1371/journal.pone.0002290
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Epigenetic Regulation of the Mammalian Cell

Abstract: BackgroundUnderstanding how mammalian cells are regulated epigenetically to express phenotype is a priority. The cellular phenotypic transition, induced by ionising radiation, from a normal cell to the genomic instability phenotype, where the ability to replicate the genotype accurately is compromised, illustrates important features of epigenetic regulation. Based on this phenomenon and earlier work we propose a model to describe the mammalian cell as a self assembled open system operating in an environment th… Show more

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Cited by 34 publications
(35 citation statements)
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“…The majority of coding sequences in the human genome lead to more than one peptide per sequence through diverse splicing of exons and each of these peptides may, through multiple folding opportunities, lead to more than one protein, which may be activated in a number of ways, for example, by phosphorylation. These proteins interact with each other according to the rules of engagement (information acquired upon folding and post-translational processes) to contribute to the output of the attractor [20]. These energy dissipative processes are symmetry-breaking and potentially give rise to emergent and irreducible (to the originating DNA sequences and indeed proteins) phenotypic properties.…”
Section: Discussionmentioning
confidence: 99%
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“…The majority of coding sequences in the human genome lead to more than one peptide per sequence through diverse splicing of exons and each of these peptides may, through multiple folding opportunities, lead to more than one protein, which may be activated in a number of ways, for example, by phosphorylation. These proteins interact with each other according to the rules of engagement (information acquired upon folding and post-translational processes) to contribute to the output of the attractor [20]. These energy dissipative processes are symmetry-breaking and potentially give rise to emergent and irreducible (to the originating DNA sequences and indeed proteins) phenotypic properties.…”
Section: Discussionmentioning
confidence: 99%
“…This implies that an epigenetic 2 mechanism for the regulation of the cell and a model for such has been proposed for mammalian cells [20] (applies to any eukaryotic cell) and compared with competing genetic regulatory mechanisms [7]. True replication, in contrast to the simple splitting of a cell into two, is favoured when it allows free energy to be consumed more effectively.…”
Section: Relevant Implicationsmentioning
confidence: 99%
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“…Upon the mapping of the genome, however, the subsequent revelations about epigenetic control processes have forever altered the central dogma by elucidating the crucial role of environmental cues, intrinsic signals, and cellular memory in evolution. [186][187][188] Revelations of how supposedly "junk DNA" and noncoding RNA are actually providing ongoing regulatory switching 189,190 ; with relational ifthen rules of engagement that ensure specific gene products are brought into action when and only when appropriate, 191 and mediating the very developmental morphology of an organism 192 as well as its behavior. Revelations of how epigenetic switching yields critical modifications during cellular stress responses, 100,[193][194][195][196] plays a key role in immune functioning, 197 and serves as modulators of neuronal responses, 198 of neural development and neuroplasticity.…”
Section: Purpose In Evolution?mentioning
confidence: 99%