Dissection of the ATPase active site of McdA reveals the sequential steps essential for carboxysome distribution
Autor: | Y Hoang, Pusparanee Hakim, Anthony G. Vecchiarelli |
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Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Adenosine Triphosphatases
Organelles Synechococcus Cytoplasm biology ATPase Ribulose-Bisphosphate Carboxylase Active site Cell Biology Articles Carbon Dioxide Cell biology Carbon Cycle Carboxysome Bacterial Proteins Catalytic Domain Organelle biology.protein Staphylococcal Protein A Molecular Biology |
Zdroj: | Molecular Biology of the Cell |
ISSN: | 1939-4586 1059-1524 |
Popis: | Carboxysomes, the most prevalent and well-studied anabolic bacterial microcompartment, play a central role in efficient carbon fixation by cyanobacteria and proteobacteria. In previous studies, we identified the two-component system called McdAB that spatially distributes carboxysomes across the bacterial nucleoid. Maintenance of carboxysome distribution protein A (McdA), a partition protein A (ParA)-like ATPase, forms a dynamic oscillating gradient on the nucleoid in response to the carboxysome-localized Maintenance of carboxysome distribution protein B (McdB). As McdB stimulates McdA ATPase activity, McdA is removed from the nucleoid in the vicinity of carboxysomes, propelling these proteinaceous cargos toward regions of highest McdA concentration via a Brownian-ratchet mechanism. How the ATPase cycle of McdA governs its in vivo dynamics and carboxysome positioning remains unresolved. Here, by strategically introducing amino acid substitutions in the ATP-binding region of McdA, we sequentially trap McdA at specific steps in its ATP cycle. We map out critical events in the ATPase cycle of McdA that allows the protein to bind ATP, dimerize, change its conformation into a DNA-binding state, interact with McdB-bound carboxysomes, hydrolyze ATP, and release from the nucleoid. We also find that McdA is a member of a previously unstudied subset of ParA family ATPases, harboring unique interactions with ATP and the nucleoid for trafficking their cognate intracellular cargos. |
Databáze: | OpenAIRE |
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