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The E. coli SufS-SufE sulfur transfer system is more resistant to oxidative stress than IscS-IscU.


ABSTRACT: During oxidative stress in Escherichiacoli, the SufABCDSE stress response pathway mediates iron-sulfur (Fe-S) cluster biogenesis rather than the Isc pathway. To determine why the Suf pathway is favored under stress conditions, the stress response SufS-SufE sulfur transfer pathway and the basal housekeeping IscS-IscU pathway were directly compared. We found that SufS-SufE cysteine desulfurase activity is significantly higher than IscS-IscU at physiological cysteine concentrations and after exposure to H(2)O(2). Mass spectrometry analysis demonstrated that IscS-IscU is more susceptible than SufS-SufE to oxidative modification by H(2)O(2). These important results provide biochemical insight into the stress resistance of the Suf pathway.

SUBMITTER: Dai Y 

PROVIDER: S-EPMC3511050 | biostudies-literature | 2012 Nov

REPOSITORIES: biostudies-literature

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The E. coli SufS-SufE sulfur transfer system is more resistant to oxidative stress than IscS-IscU.

Dai Yuyuan Y   Outten F Wayne FW  

FEBS letters 20121012 22


During oxidative stress in Escherichiacoli, the SufABCDSE stress response pathway mediates iron-sulfur (Fe-S) cluster biogenesis rather than the Isc pathway. To determine why the Suf pathway is favored under stress conditions, the stress response SufS-SufE sulfur transfer pathway and the basal housekeeping IscS-IscU pathway were directly compared. We found that SufS-SufE cysteine desulfurase activity is significantly higher than IscS-IscU at physiological cysteine concentrations and after exposu  ...[more]

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