Browsing by keyword "Thermus thermophilus"
Now showing items 1-5 of 5
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A DNA-guided Argonaute Protein Functions in DNA Replication in Thermus thermophilus [preprint]Argonaute proteins use nucleic acid guides to protect organisms against transposons and viruses. In the eubacterium Thermus thermophilus, the DNA-guided Argonaute TtAgo defends against transformation by DNA plasmids. Here, we report that TtAgo also participates in DNA replication. TtAgo binds small DNA guides derived from the chromosomal region where replication terminates and associates with proteins known to act in DNA replication. T. thermophilus deploys a single type II topoisomerase, gyrase. When gyrase is inhibited, T. thermophilus relies on TtAgo to complete replication of its circular genome; loss of both gyrase and TtAgo activity produces long filaments that fail to separate into individual bacteria. We propose that the primary role of TtAgo is to help T. thermophilus disentangle the catenated circular chromosomes made by DNA replication.
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An Automated Bayesian Pipeline for Rapid Analysis of Single-Molecule Binding Data [preprint]Single-molecule binding assays enable the study of how molecular machines assemble and function. Current algorithms can identify and locate individual molecules, but require tedious manual validation of each spot. Moreover, no solution for high-throughput analysis of single-molecule binding data exists. Here, we describe an automated pipeline to analyze single-molecule data over a wide range of experimental conditions. We benchmarked the pipeline by measuring the binding properties of the well-studied, DNA-guided DNA endonuclease, TtAgo, an Argonaute protein from the Eubacterium Thermus thermophilus. We also used the pipeline to extend our understanding of TtAgo by measuring the protein's binding kinetics at physiological temperatures and for target DNAs containing multiple, adjacent binding sites.
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Blasticidin S inhibits translation by trapping deformed tRNA on the ribosomeThe antibiotic blasticidin S (BlaS) is a potent inhibitor of protein synthesis in bacteria and eukaryotes. We have determined a 3.4-A crystal structure of BlaS bound to a 70StRNA ribosome complex and performed biochemical and single-molecule FRET experiments to determine the mechanism of action of the antibiotic. We find that BlaS enhances tRNA binding to the P site of the large ribosomal subunit and slows down spontaneous intersubunit rotation in pretranslocation ribosomes. However, the antibiotic has negligible effect on elongation factor G catalyzed translocation of tRNA and mRNA. The crystal structure of the antibiotic-ribosome complex reveals that BlaS impedes protein synthesis through a unique mechanism by bending the 3' terminus of the P-site tRNA toward the A site of the large ribosomal subunit. Biochemical experiments demonstrate that stabilization of the deformed conformation of the P-site tRNA by BlaS strongly inhibits peptidyl-tRNA hydrolysis by release factors and, to a lesser extent, peptide bond formation.
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Thermus thermophilus Argonaute Functions in the Completion of DNA ReplicationArgonautes (AGOs) are present in all domains of life. Like their eukaryotic counterparts, archaeal and eubacterial AGOs adopt a similar global architecture and bind small nucleic acids. In many eukaryotes, AGOs, guided by short RNA sequences, defend cells against transposons and viruses. In the eubacterium Thermus thermophilus, the DNA-guided Argonaute TtAgo defends against transformation by DNA plasmids. We find that TtAgo also participates in DNA replication. In vivo, TtAgo binds 15–18 nt DNA guides derived from the chromosomal region where replication terminates, and TtAgo complexed to short DNA guides enhances target finding and prefers to bind targets with full complementarity. Additionally, TtAgo associates with proteins known to act in DNA replication. When gyrase, the sole T. thermophilus type II topoisomerase, is inhibited, TtAgo allows the bacterium to finish replicating its circular genome. In contrast, loss of both gyrase and TtAgo activity slows growth and produces long, segmented filaments in which the individual bacteria are linked by DNA. Furthermore, wild-type T. thermophilus outcompetes an otherwise isogenic strain lacking TtAgo. Finally, at physiologic temperature in vitro, we find TtAgo possesses highest affinity for fully complementary targets. We propose that terminus-derived guides binding in such a fashion localize TtAgo, and that the primary role of TtAgo is to help T. thermophilus disentangle the catenated circular chromosomes generated by DNA replication.
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Thermus thermophilus Argonaute Functions in the Completion of DNA ReplicationIn many eukaryotes, Argonaute proteins, guided by short RNA sequences, defend cells against transposons and viruses. In the eubacterium Thermus thermophilus, the DNA-guided Argonaute TtAgo defends against transformation by DNA plasmids. Here, we report that TtAgo also participates in DNA replication. In vivo, TtAgo binds 15- to 18-nt DNA guides derived from the chromosomal region where replication terminates and associates with proteins known to act in DNA replication. When gyrase, the sole T. thermophilus type II topoisomerase, is inhibited, TtAgo allows the bacterium to finish replicating its circular genome. In contrast, loss of gyrase and TtAgo activity slows growth and produces long sausage-like filaments in which the individual bacteria are linked by DNA. Finally, wild-type T. thermophilus outcompetes an otherwise isogenic strain lacking TtAgo. We propose that the primary role of TtAgo is to help T. thermophilus disentangle the catenated circular chromosomes generated by DNA replication.
