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Spatiotemporal dynamics of protamine–DNA condensation revealed by high-speed atomic force microscopy

Goro Nishide, Keesiang Lim, Akiko Kobayashi, Yujia Qiu, Masaharu Hazawa, Toshio Ando, Yuki Okada, Richard W. Wong

2025Nucleic Acids Research11 citationsDOIOpen Access PDF

Abstract

Protamines (PRMs) play a crucial role in sperm chromatin condensation, replacing histones to form nucleo-PRM structures, specifically PRM-DNA complexes. Despite their importance in reproduction, the detailed mechanisms underlying PRM-mediated DNA condensation have remained elusive. In this study, we employed high-speed atomic force microscopy (HS-AFM) to directly visualize the real-time binding dynamics of PRM to DNA under physiological conditions. Our HS-AFM observations reveal that PRM insertion initiating the formation of DNA coils. Further, we observed a heterogeneous spatial distribution of PRM-induced DNA looping. With continuous PRM addition, DNA progresses through a series of folding transitions, forming coiled-like structures that evolve into clockwise spirals, rod-shaped intermediates, and ultimately toroid-like nanostructures. Based on these real-time observations, we propose the CARD (Coil-Assembly-Rod-Doughnut) model to describe the stepwise process of toroid formation during DNA condensation. Our findings underscore the versatility of HS-AFM in capturing the spatiotemporal dynamics of PRM-DNA interactions and provide critical insights into the molecular mechanisms driving PRM-induced chromatin compaction. This study advances our understanding of sperm chromatin architecture and offers a framework for future research into chromatin organization, reproductive biology, and nucleic acid therapeutics.

Topics & Concepts

ChromatinDNA condensationDNABiologyBiophysicsNucleosomeProtamineMolecular dynamicsNanotechnologyComputational biologyCell biologyGeneticsMaterials scienceChemistryBiochemistryGeneComputational chemistryHeparinTransfectionRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniquesDNA and Nucleic Acid Chemistry
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