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As human progenitor cells differentiate into neurons, the activities of many genes change; these changes are maintained within a narrow range, referred to as genome homeostasis. This process, which alters the synchronization of the entire expressed genome, is distorted in neurodevelopmental diseases such as schizophrenia. The coordinated gene activity networks formed by altering sets of genes comprise recurring coordination modules, governed by the entropy-controlling action of nuclear FGFR1, known to be associated with DNA topology. These modules can be modeled as energy-transferring circuits, revealing that genome homeostasis is maintained by reducing oscillations (noise) in gene activity while allowing gene activity changes to be transmitted across networks; this occurs more readily in neuronal committed cells than in neural progenitors. These findings advance a model of an “entangled” global genome acting as a flexible, coordinated homeostatic system that responds to developmental signals, is governed by nuclear FGFR1, and is reprogrammed in disease.
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Jornet, Josep Miquel; Bae, Yongho; Handelmann, Christopher Raymond; Decker, Brandon; Balcerak, Anna; Sangwan, Amit; Miao, Pei; Desai, Aesha; Feng, Liang; Stachowiak, Ewa K.; et al (, Proceedings of the IEEE)
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Stachowiak, Michal K.; Stachowiak, Ewa K.; Handelmann, Christopher; Decker, Brandon; Balcerak, Anna; Desai, Aesha; Bae, Yongho; Jornet, Josep M. (, Proceedings of the 5th ACM International Conference on Nanoscale Computing and Communication)
