Abstract
ATP-dependent chromatin remodeling proteins use the energy released from ATP hydrolysis to reposition nucleosomes in DNA-dependent processes. These proteins are classified as SF2 helicases. SMARCAL1, a member of this protein family, is known to modulate both DNA repair and transcription by specifically recognizing DNA molecules possessing double-strand to single-strand transition regions. Mutations in this gene cause a rare autosomal recessive disorder known as Schimke Immuno-Osseous Dysplasia (SIOD).Structural studies have shown that the ATP-dependent chromatin remodeling proteins possess two RecA-like domains termed as RecA-like domain 1 and RecA-like domain 2. Using Active DNA-dependent ATPase A domain (ADAAD), the bovine homolog of SMARCAL1, as a model system we had previously shown that the RecA-like domain 1 containing helicase motifs Q, I, Ia, II, and III are sufficient for ligand binding; however, the Rec A-like domain 2 containing motifs IV, V, and VI are needed for ATP hydrolysis. In the present study, we have focused on the motifs present in the RecA-like domain 2. Our studies demonstrate that the presence of an aromatic residue in motif IV is needed for interaction with DNA in the presence of ATP. We also show that the motif V is required for the catalytic efficiency of the protein and motif VI is needed for interaction with DNA in the presence of ATP. Finally, we show that the SIOD-associated mutation, R820H, present in motif VI results in loss of ATPase activity, and therefore, reduced response to DNA damage.
Highlights
The SWI2/SNF2 proteins, known as ATP-dependent chromatin remodeling proteins, utilize the energy released from ATP hydrolysis to mediate myriad functions in the cell [1,2,3,4,5]
Functional analysis in SWI2/SNF2 proteins has shown that motifs IV, V, and VI were important for ATP hydrolysis as well as for function [23]
It is not known whether these motifs mediate conformational integrity, or whether they are involved in ligand interaction or whether they are required for ATP hydrolysis
Summary
The SWI2/SNF2 proteins, known as ATP-dependent chromatin remodeling proteins, utilize the energy released from ATP hydrolysis to mediate myriad functions in the cell [1,2,3,4,5]. These proteins have been classified as helicases due to the presence of the conserved helicase motifs—Q, I, Ia, II, III, IV, V, and VI [6]. Motifs I and II are highly conserved between SWI2/SNF2 proteins and other helicases but motifs Ia and III show some structural differences between the two classes of proteins [9,11]. In case of RecA-like domain 2, motif IV is structurally conserved between the SWI2/SNF2 proteins and classical helicases but motifs V and VI show structural divergence [9]
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