Lucia Prundeanu scite author profile

Lucia Prundeanu

2Publications

97Citation Statements Received

82Citation Statements Given

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105

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Wesleyan University

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Translocon “Pulling” of Nascent SecM Controls the Duration of Its Translational Pause and Secretion-Responsive secA Regulation

2003

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SecA is an ATPase and motor protein that drives protein translocation across the bacterial plasma membrane. In Escherichia coli SecA levels are regulated by the secretion needs of the cell utilizing secM, which encodes a secreted protein. Previous studies demonstrated that this regulation requires a translational pause within secM, whose duration regulates the accessibility of the secA Shine-Dalgarno sequence on secM secA mRNA. Here we provide evidence that translocon "pulling" of nascent SecM is what regulates the duration of the secM translational pause, and thus secA expression levels, thereby providing direct support for this model.

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Monomeric Yeast PCNA Mutants Are Defective in Interacting with and Stimulating the ATPase Activity of RFC

et al. 2002

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Yeast PCNA is a homo-trimeric, ring-shaped DNA polymerase accessory protein that can encircle duplex DNA. The integrity of this multimeric sliding DNA clamp is maintained through the protein-protein interactions at the interfaces of adjacent subunits. To investigate the importance of trimer stability for PCNA function, we introduced single amino acid substitutions at residues (A112T, S135F) that map to opposite ends of the monomeric protein. Recombinant wild-type and mutant PCNAs were purified from E. coli, and they were tested for their properties in vitro. Unlike the stable wild-type PCNA trimers, the mutant PCNA proteins behaved as monomers when diluted to low nanomolar concentrations. In contrast to what has been reported for a monomeric form of the beta clamp in E. coli, the monomeric PCNAs were compromised in their ability to interact with their associated clamp loader, replication factor C (RFC). Similarly, monomeric PCNAs were not effective in stimulating the ATPase activity of RFC. The mutant PCNAs were able to form mixed trimers with wild-type subunits, although these mixed trimers were unstable when loaded onto DNA. They were able to function as weak DNA polymerase delta processivity factors in vitro, and when the monomeric PCNA-41 (A112T, S135F double mutant) allele was introduced as the sole source of PCNA in vivo, the cells were viable and healthy. These pol30-41 mutants were, however, sensitive to UV irradiation and to the DNA damaging agent methylmethane sulfonate, implying that DNA repair pathways have a distinct requirement for stable DNA clamps.

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Lucia Prundeanu

Translocon “Pulling” of Nascent SecM Controls the Duration of Its Translational Pause and Secretion-Responsive secA Regulation

Monomeric Yeast PCNA Mutants Are Defective in Interacting with and Stimulating the ATPase Activity of RFC

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