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ATP-driven subunit turnover powers the processive mechanical work of a meiotic-clade AAA+ dislocase

Summary by researchsquare.com
AAA+ ATPases convert the chemical energy of ATP hydrolysis into mechanical work to remodel diverse cellular assemblies, driving essential biological processes. Canonically, these molecular motors are understood to function as stable oligomeric rings in which nucleotide turnover orchestrates coord...
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ATP-driven subunit turnover powers the processive mechanical work of a meiotic-clade AAA+ dislocase

AAA+ ATPases convert the chemical energy of ATP hydrolysis into mechanical work to remodel diverse cellular assemblies, driving essential biological processes. Canonically, these molecular motors are understood to function as stable oligomeric rings in which nucleotide turnover orchestrates coord...

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researchsquare.com broke the news in on Wednesday, January 28, 2026.
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