期刊
MSYSTEMS
卷 4, 期 4, 页码 -出版社
AMER SOC MICROBIOLOGY
DOI: 10.1128/mSystems.00170-19
关键词
absolute quantitation; Caulobacter crescentus; ribosome profiling; vitamin B-12; cell cycle
类别
资金
- NIH [R35 GM124733]
- WSU startup funds
- WSU Chemical Biology Interface research experience award
Caulobacter crescentus is a model for the bacterial cell cycle which culminates in asymmetric cell division, yet little is known about the absolute levels of protein synthesis of the cellular parts needed to complete the cell cycle. Here we utilize ribosome profiling to provide absolute measurements of mRNA translation in C. crescentus, providing an important resource with quantitative genome-wide measurements of protein output across individual genes. Analysis of protein synthesis rates revealed similar to 4.5% of cellular protein synthesis is for genes related to vitamin B-12 import (btuB) and B-12-independent methionine biosynthesis (metE) when grown in common growth media lacking B-12. While its facultative B-12 lifestyle provides a fitness advantage in the absence of B-12, we find that it provides a fitness disadvantage of the cells in the presence of B-12, potentially explaining why many Caulobacter species have lost the metE gene and become obligates for B-12. IMPORTANCE Caulobacter crescentus is a model system of the bacterial cell cycle culminating in asymmetric cell division, with each daughter cell inheriting a distinct set of proteins. While a genetic network of master transcription factors coordinates the cell cycle timing of transcription for nearly 20% of Caulobacter genes, we lack knowledge of how many of each protein part encoded in the genome are synthesized. Therefore, to determine the absolute production rates across the genome, we performed ribosome profiling, providing, for the first time, a quantitative resource with measurements of each protein part needed to generate daughter cells. This resource furthers the goal of a systems-level understanding of the genetic network controlling asymmetric cell division. To highlight the utility of this data set, we probe the protein synthesis cost of a B-12 utilization pathway and provide new insights into Caulobacter's adaptation to its natural environments.
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