Abstract
Chromatin-remodeling complexes are assembled around a catalytic subunit that contains a central ATPase domain and flanking sequences that recruit auxiliary subunits. The catalytic subunits of SWI/SNF remodelers recruit Arp7/9 through a helicase/SANT-associated (HSA) domain N-terminal to the ATPase domain. Arp7/9-containing remodelers also carry the auxiliary subunit Rtt102, but the role of this subunit is poorly understood. Here, we show that Rtt102 binds with nanomolar affinity to the Arp7/9 heterodimer and modulates its conformation and interactions with the ATPase subunit and nucleotide. When bound to Rtt102, Arp7/9 interacts with a shorter segment of the HSA domain. Structural analysis by small-angle x-ray scattering further shows that when bound to Rtt102, the complex of Arp7/9 with the catalytic subunit assumes a more stable compact conformation. We also found that Arp7, Arp9, and Arp7/9 interact very weakly with ATP, but Rtt102 promotes high-affinity ATP binding to a single site in the heterodimer. Collectively, the results establish a function for subunit Rtt102 as a stabilizing factor for the Arp7/9 heterodimer, enhancing its interaction with nucleotide and controlling the conformation of SWI/SNF remodelers in an Arp7/9-dependent manner.
Highlights
The function of subunit Rtt102 of SWI/SNF remodelers is largely unknown
We found that heterodimerization is required for binding of the actin-related proteins (Arps) to the HSA domain, because neither Arp7 nor Arp9 individually bound to the HSA fragment of Snf2 (Fig. 1F)
A role is emerging for actin and Arps, auxiliary subunits of SWI/SNF and INO80 remodelers, in nucleosome targeting [18, 21] and regulation of the catalytic activity [12, 19, 20]
Summary
The function of subunit Rtt102 of SWI/SNF remodelers is largely unknown. Results: Rtt102 induces a conformational change in the Arp7/9 heterodimer, promoting nucleotide binding and restricting binding of Arp7/9 to a shorter segment of the HSA domain. Chromatin-remodeling complexes are assembled around a catalytic subunit that contains a central ATPase domain and flanking sequences that recruit auxiliary subunits. The catalytic subunits of SWI/SNF remodelers recruit Arp7/9 through a helicase/SANT-associated (HSA) domain N-terminal to the ATPase domain. The results establish a function for subunit Rtt102 as a stabilizing factor for the Arp7/9 heterodimer, enhancing its interaction with nucleotide and controlling the conformation of SWI/SNF remodelers in an Arp7/9-dependent manner. Remodelers are large protein complexes that belong to four different families [2] They vary in their subunit composition, but all contain a catalytic subunit featuring a conserved helicase SF2 (superfamily 2) ATPase domain [7]. Actin and Arps are recruited to remodelers through interaction with an ϳ80-amino acid (aa) region N-terminal to the recA domains, known as the helicase/SANT-associated (HSA) domain [19]. In SWI/SNF family remodelers (RSC and SWI/SNF), the HSA domain binds Arp
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