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arxiv: 1910.09491 · v1 · pith:NVTMJQCHnew · submitted 2019-10-21 · 🧬 q-bio.PE · physics.bio-ph· q-bio.BM· q-bio.MN

Physical constraints on epistasis

classification 🧬 q-bio.PE physics.bio-phq-bio.BMq-bio.MN
keywords epistasisphysicalglobalbiologicalcollectivedynamicsmechanisticmutation
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Living systems evolve one mutation at a time, but a single mutation can alter the effect of subsequent mutations. The underlying mechanistic determinants of such epistasis are unclear. Here, we demonstrate that the physical dynamics of a biological system can generically constrain epistasis. We analyze models and experimental data on proteins and regulatory networks. In each, we find that if the long-time physical dynamics is dominated by a slow, collective mode, then the dimensionality of mutational effects is reduced. Consequently, epistatic coefficients for different combinations of mutations are no longer independent, even if individually strong. Such epistasis can be summarized as resulting from a global non-linearity applied to an underlying linear trait, i.e., as global epistasis. This constraint, in turn, reduces the ruggedness of the sequence-to-function map. By providing a generic mechanistic origin for experimentally observed global epistasis, our work suggests that slow collective physical modes can make biological systems evolvable.

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