Plasmid DNA Undergoes Two Compaction Regimes under Macromolecular Crowding.

The laser light scattering experiments were performed to explore the role of dextran (size (d): 2.6, 6.9, and 17.0 nm) in compacting the plasmids (pBS: 2.9 kbps; pCMV-Tag2B: 4.3 kbps; and pET28a: 5.3 kbps) in vitro in the volume fraction (ϕ) range 0.01 to 0.15 of the macromolecular crowder. Two compaction regimes were observed in terms of the radius of gyration (Rg) for plasmid-dextran combinations, wherein the plasmid diffusivity is governed by normal diffusion and subdiffusion, respectively. Generalized scaling, Rg ∼ ϕ-1/(1+x), where x represents the conformational geometry of plasmids, is reported. The plasmid conformation depends on the crowder's size, with larger conformational changes observed in the presence of smaller crowders. The second virial coefficient (A2) and translational diffusion coefficient (Dt) indicate that entropically driven depletion of crowders, excluded volume, and interplasmid repulsive interactions govern plasmids' conformational changes, validated herein from the scaling of Dt with molecular weight.

Citation

Suparna Khatun, Anurag Singh, Kumari Shikha, Agneyo Ganguly, Amar Nath Gupta. Plasmid DNA Undergoes Two Compaction Regimes under Macromolecular Crowding. ACS macro letters. 2022 Feb 15;11(2):186-192

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PMID: 35574767

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