Add to ORKGBacteria regulate their cellular resource allocation to enable fast growth-adaptation to a variety of environmental niches. We studied the ribosomal allocation, growth, and expression profiles of two sets of fast-growing mutants of Escherichia coli K-12 MG1655. Mutants with only three of the seven copies of ribosomal RNA operons grew faster than the wild-type strain in minimal media and show similar phenotype to previously studied fast-growing rpoB mutants. Comparing these two different regulatory perturbations (rRNA promoters or rpoB mutations), we show how they reshape the proteome for growth with a concomitant fitness cost. The fast-growing mutants shared downregulation of hedging functions and upregulated growth functions. They showed l...
<div><p>Microorganisms in nature are constantly subjected to a limited availability of resources and...
Thesis advisor: Michelle MeyerProkaryotic ribosomes are key to cell viability and an important area ...
Bacteria growing under different conditions experience a broad range of demand on the rate of protei...
Bacteria regulate their cellular resource allocation to enable fast growth-adaptation to a variety o...
Maximization of growth rate is an important fitness strategy for bacteria. Bacteria can achieve this...
Bacteria must constantly adapt their growth to changes in nutrient availability; yet despite large-s...
Cell growth is determined by substrate availability and the cell's metabolic capacity to assimilate ...
The abundance of proteins expressed in a particular environment are primary determinants of an organ...
<div><p>Cell growth is determined by substrate availability and the cell’s metabolic capacity to ass...
Pleiotropic regulatory mutations affect diverse cellular processes, posing a challenge to our unders...
In many bacteria, ribosomal proteins autogenously repress their own expression by interacting with R...
Background: In fast-growing bacteria, the genomic location of ribosomal protein (RP) genes is biased...
Here we present evidence that only five of the seven rRNA operons present in Escherichia coli are ne...
Many of the important changes in evolution are regulatory in nature. Sequenced bacterial genomes poi...
The temporal change of phenotypes during the adaptive process remains largely unexplored, as do the ...
<div><p>Microorganisms in nature are constantly subjected to a limited availability of resources and...
Thesis advisor: Michelle MeyerProkaryotic ribosomes are key to cell viability and an important area ...
Bacteria growing under different conditions experience a broad range of demand on the rate of protei...
Bacteria regulate their cellular resource allocation to enable fast growth-adaptation to a variety o...
Maximization of growth rate is an important fitness strategy for bacteria. Bacteria can achieve this...
Bacteria must constantly adapt their growth to changes in nutrient availability; yet despite large-s...
Cell growth is determined by substrate availability and the cell's metabolic capacity to assimilate ...
The abundance of proteins expressed in a particular environment are primary determinants of an organ...
<div><p>Cell growth is determined by substrate availability and the cell’s metabolic capacity to ass...
Pleiotropic regulatory mutations affect diverse cellular processes, posing a challenge to our unders...
In many bacteria, ribosomal proteins autogenously repress their own expression by interacting with R...
Background: In fast-growing bacteria, the genomic location of ribosomal protein (RP) genes is biased...
Here we present evidence that only five of the seven rRNA operons present in Escherichia coli are ne...
Many of the important changes in evolution are regulatory in nature. Sequenced bacterial genomes poi...
The temporal change of phenotypes during the adaptive process remains largely unexplored, as do the ...
<div><p>Microorganisms in nature are constantly subjected to a limited availability of resources and...
Thesis advisor: Michelle MeyerProkaryotic ribosomes are key to cell viability and an important area ...
Bacteria growing under different conditions experience a broad range of demand on the rate of protei...