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The human ATAD5 has evolved unique structural elements to function exclusively as a PCNA unloader

Feng Wang, Qing He, Nina Y. Yao, Mike O’Donnell, Huilin Li

2024Nature Structural & Molecular Biology12 citationsDOIOpen Access PDF

Abstract

Humans have three different proliferating cell nuclear antigen (PCNA) clamp-loading complexes: RFC and CTF18-RFC load PCNA onto DNA, but ATAD5-RFC can only unload PCNA from DNA. The underlying structural basis of ATAD5-RFC unloading is unknown. We show here that ATAD5 has two unique locking loops that appear to tie the complex into a rigid structure, and together with a domain that plugs the DNA-binding chamber, prevent conformation changes required for DNA binding, likely explaining why ATAD5-RFC is exclusively a PCNA unloader. These features are conserved in the yeast PCNA unloader Elg1-RFC. We observe intermediates in which PCNA bound to ATAD5-RFC exists as a closed planar ring, a cracked spiral or a gapped spiral. Surprisingly, ATAD5-RFC can open a PCNA gap between PCNA protomers 2 and 3, different from the PCNA protomers 1 and 3 gap observed in all previously characterized clamp loaders.

Topics & Concepts

Proliferating cell nuclear antigenDNACell biologyDNA clampBiologyBiophysicsDNA polymeraseChemistryGeneticsReverse transcriptasePolymerase chain reactionGeneNuclear Structure and FunctionDNA Repair MechanismsRNA Research and Splicing
The human ATAD5 has evolved unique structural elements to function exclusively as a PCNA unloader | Litcius