Functional Mapping of the E. Coli Translational Machinery Using Single-molecule Tracking
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Molecular Biology
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The organization of the chromosomal DNA and ribosomes in living Escherichia coli is compared under two growth conditions: 'fast' (50 min doubling time) and 'slow' (147 min doubling time). Superresolution fluorescence microscopy reveals strong DNA-ribosome segregation in both cases. In both fast and slow growth, free ribosomal subunits evidently must circulate between the nucleoid (where they initiate co-transcriptional translation) and ribosome-rich regions (where most translation occurs). Single-molecule diffusive behavior dissects the ribosome copies into translating 70S polysomes and free 30S subunits, providing separate spatial distributions for each. In slow growth, ~21,000 total 30S copies/cell comprise ~65% translating 70S ribosomes and ~35% free 30S subunits. The ratio of 70S ribosomes to free 30S subunits is ~2.5 outside the nucleoid and ~0.50 inside the nucleoid. This new level of quantitative detail may motivate development of comprehensive, three-dimensional reaction-diffusion models of ribosome, DNA, mRNA and RNAP spatial distributions and dynamics within the E. coli cytoplasm.
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