Abstract
This review delves into the reversible process of DNA compaction, vital for cellular functions like replication and transcription. The study highlights how various cations assist in the condensation of DNA chains, highlighting their specificity. The impact of the ionic environment on chromatin characteristics is discussed, emphasizing the roles of mono- and divalent cations in neutralizing DNA charge and promoting compaction. Trivalent ions induce significant compaction, while divalent ions also contribute, albeit less strongly. Charge inversion, facilitated by high concentrations of multivalent counterions, affects DNA condensation dynamics. Manipulating solution pH and dielectric constant can alter charge inversion bidirectionally. The hydrophobic effect driven by organic cations plays a crucial role in DNA compaction. The review underscores the implications of charge inversion, including macroscopic phase separation and DNA precipitation, driven by the binding of cationic micelles to DNA.
Published Version
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