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  • Intracellular nucleosomes constrain a DNA linking number difference of -1.26 that reconciles the Lk paradox.

Intracellular nucleosomes constrain a DNA linking number difference of -1.26 that reconciles the Lk paradox.

Nature communications (2018-09-30)
Joana Segura, Ricky S Joshi, Ofelia Díaz-Ingelmo, Antonio Valdés, Silvia Dyson, Belén Martínez-García, Joaquim Roca
초록

The interplay between chromatin structure and DNA topology is a fundamental, yet elusive, regulator of genome activities. A paradigmatic case is the "linking number paradox" of nucleosomal DNA, which refers to the incongruence between the near two left-handed superhelical turns of DNA around the histone octamer and the DNA linking number difference (∆Lk) stabilized by individual nucleosomes, which has been experimentally estimated to be about -1.0. Here, we analyze the DNA topology of a library of mononucleosomes inserted into small circular minichromosomes to determine the average ∆Lk restrained by individual nucleosomes in vivo. Our results indicate that most nucleosomes stabilize about -1.26 units of ∆Lk. This value balances the twist (∆Tw  ≈ + 0.2) and writhe (∆Wr ≈ -1.5) deformations of nucleosomal DNA in terms of the equation ∆Lk = ∆Tw + ∆Wr. Our finding reconciles the existing discrepancy between theoretical and observed measurement of the ΔLk constrained by nucleosomes.

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Sigma-Aldrich
Nuclease micrococcal from Staphylococcus aureus, 100-300 units/mg protein
Sigma-Aldrich
Lyticase from Arthrobacter luteus, lyophilized powder, ≥2,000 units/mg protein, Protein ≥20 % by biuret