Tyler M Earnest, Jonathan Lai, Ke Chen, Michael J Hallock, James R Williamson,
and Zaida Luthey-Schulten.
Towards a whole-cell model of ribosome biogenesis: Kinetic modeling
of SSU assembly.
Biophysical Journal, 109:1117-1135, 2015.
(PMC: PMC4576174)
EARN2015-ZLS
Central to all life is the assembly of the ribosome: a coordinated process
involving the hierarchical association of ribosomal proteins to the RNAs forming
the small and large ribosomal subunits. The process is further complicated by
effects arising from the intracellular heterogeneous environment and the location
of ribosomal operons within the cell. We provide a simplified model of ribosome
biogenesis in slow-growing Escherichia coli. Kinetic models of in vitro small-
subunit reconstitution at the level of individual protein/ribosomal RNA
interactions are developed for two temperature regimes. The model at low
temperatures predicts the existence of a novel
5'3'central assembly pathway, which we investigate
further using molecular dynamics. The high-temperature assembly network is
incorporated into a model of in vivo ribosome biogenesis in slow-growing E. coli.
The model, described in terms of reaction-diffusion master equations, contains
1336 reactions and 251 species that dynamically couple transcription and
translation to ribosome assembly. We use the Lattice Microbes software package
to simulate the stochastic production of mRNA, proteins, and ribosome
intermediates over a full cell cycle of 120 min. The whole-cell model captures the
correct growth rate of ribosomes, predicts the localization of early assembly
intermediates to the nucleoid region, and reproduces the known assembly
timescales for the small subunit with no modifications made to the embedded in
vitro assembly network.
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