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4351064 
Journal Article 
Transcriptional Profiling Analysis of Bacillus subtilis in Response to High Levels of Fe(3.) 
Yu, WB; Ye, BC 
2016 
Yes 
Current Microbiology
ISSN: 0343-8651
EISSN: 1432-0991 
72 
653-662 
English 
26858131 
Iron is essential to microorganisms for its important biological function but could be highly toxic in excess. We have used genome-wide transcriptional analysis in Fe(3+)-treated (4 mM) Bacillus subtilis to reveal the effect of excess Fe(3+) on B. subtilis and characterized the potential pathways involved in Fe(3+) stress tolerance. A total of 366 and 400 genes were identified as significantly up-regulated and down-regulated, respectively. We found excess Fe(3+) had four major influences on B. subtilis: Fe(3+) resulted in oxidative stress and induced genes involved in oxidative stress resistance including the SigB-regulated genes, but the PerR regulon was not inducible in Fe(3+)-mediated oxidative stress except zosA; Fe(3+) significantly disturbed homeostasis of Mn(2+) and Zn(2+), and the mechanism was proposed in this article; the acidity of Fe(3+)-induced genes involved in acid consuming and production of bases and shifted B. subtilis to carbon starvation state; Fe(3+)-induced genes related to membrane remodeling (bkd operon), which prevents Fe(3+)'s incorporation to membrane lipids. Moreover, Fe(3+) repressed the stringent control response, consistent with the induction of stringent control in iron limitation, demonstrating that iron might be a signal in stringent control of B. subtilis. This study was the first to provide a comprehensive overview of the genetic response of B. subtilis to ecxess Fe(3+).