Model reduction and stochastic analysis of the histone modification circuit

Bruno, Simone; Williams, Ruth; Vecchio, Domitilla Del

doi:10.23919/ecc55457.2022.9838047

Cited by 2 publications

(1 citation statement)

References 28 publications

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“…2F), it is possible to note that the probability distribution of gene expression levels is bimodal. Previous computational study suggests that this behavior can be obtained only for sufficiently small values of ε [42, 65]. Furthermore, our experimental results involving transfection of DNMT3A (Fig.…”

Section: Supplementary Information (Si)mentioning

confidence: 50%

Analog epigenetic cell memory by graded DNA methylation

Palacios,

Bruno,

Weiss

et al. 2024

Preprint

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DNA methylation and histone modifications mediate the long-term maintenance of gene expression states and are believed to be established in an all-or-none manner, allowing cells to maintain memory of silenced and active gene states. Here, we investigate whether these modifications can also enable memory of any gene expression level, and thus can equip cells with "analog memory". Surprisingly, we find that cells can maintain intermediate gene expression levels by grades of DNA methylation that remain stable over time. Our nucleosome modification model recapitulates this result when H3K9me3 does not catalyze the recruitment of DNA methylation and the remaining DNA methylation kinetics are slow. The observation that long-term memory is possible for any gene expression level deepens our understanding of epigenetic cell memory and potentially broadens our view of what constitutes a cell type.

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Section: Supplementary Information (Si)mentioning

confidence: 50%

Analog epigenetic cell memory by graded DNA methylation

Palacios,

Bruno,

Weiss

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

Asymmetric autocatalytic reactions and their stationary distribution

Gallinger,

Popovic

2024

R. Soc. Open Sci.

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We consider a general class of autocatalytic reactions, which has been shown to display stochastic switching behaviour (discreteness-induced transitions (DITs)) in some parameter regimes. This behaviour was shown to occur either when the overall species count is low or when the rate of inflow and outflow of species is relatively much smaller than the rate of autocatalytic reactions. The long-term behaviour of this class was analysed in Bibbona et al. (Bibbona et al. 2020 J. R. Soc. Interface 17 , 20200243 (doi:10.1098/rsif.2020.0243)) with an analytic formula for the stationary distribution in the symmetric case. We focus on the case of asymmetric autocatalytic reactions and provide a formula for an approximate stationary distribution of the model. We show this distribution has different properties corresponding to the distinct behaviour of the process in the three parameter regimes; in the DIT regime, the formula provides the fraction of time spent at each of the stable points.

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Model reduction and stochastic analysis of the histone modification circuit

Cited by 2 publications

References 28 publications

Analog epigenetic cell memory by graded DNA methylation

Analog epigenetic cell memory by graded DNA methylation

Asymmetric autocatalytic reactions and their stationary distribution

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