2009
DOI: 10.1042/bj20090206
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IscA/SufA paralogues are required for the [4Fe-4S] cluster assembly in enzymes of multiple physiological pathways inEscherichia coliunder aerobic growth conditions

Abstract: SynopsisIscA/SufA paralogs are the members of the iron-sulfur cluster assembly machinery in Escherichia coli. While deletion of either IscA or SufA has only a mild effect on cell growth, deletion of both IscA and SufA results in a null-growth phenotype in minimal medium under aerobic growth conditions. Here we report that cell growth of the iscA/sufA double mutant (E. coli strain in which both iscA and sufA had been in-frame-deleted) can be partially restored by supplementing with BCAAs (branched-chain amino a… Show more

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Cited by 79 publications
(98 citation statements)
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“…In contrast, the suggested role of the A-type ISC assembly proteins as alternative Fe/S scaffold proteins that work in parallel to the Isu proteins seems unlikely in yeast. Rather, the Isa proteins and Iba57 form a specialized ISC subcomplex that operates downstream of the central components of the mitochondrial ISC assembly system and is specifically required for maturation of mitochondrial (27,32).…”
Section: Discussionmentioning
confidence: 99%
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“…In contrast, the suggested role of the A-type ISC assembly proteins as alternative Fe/S scaffold proteins that work in parallel to the Isu proteins seems unlikely in yeast. Rather, the Isa proteins and Iba57 form a specialized ISC subcomplex that operates downstream of the central components of the mitochondrial ISC assembly system and is specifically required for maturation of mitochondrial (27,32).…”
Section: Discussionmentioning
confidence: 99%
“…Escherichia coli harbors three canonical A-type proteins, IscA, SufA, and ErpA, and the non-canonical NfuA. Deletion of iscA is not associated with a clear phenotype, whereas that of ErpA or a double deletion of iscA and sufA results in strong growth defects (26,27). These phenotypes frequently aggravate under special growth conditions, such as iron limitation or oxidative stress, and are linked to the loss of function of crucial cellular Fe/S proteins (3, 21, 26 -33).…”
mentioning
confidence: 99%
“…In this respect, we can envision huInd1 as a specialized biogenesis factor which donates Fe/S clusters to specific apoproteins at the final stage of Fe/S protein maturation. Another interesting group of proteins playing a similar specialized role is yeast Isa1, Isa2, and Iba57 and the bacterial counterparts, all of which are dedicated to the maturation of aconitase-type and radical S-adenosylmethionine Fe/S proteins (18,32,64). It is likely that future studies will reveal several more proteins apart from the core Fe/S cluster biogenesis components that perform specialized functions, e.g., in specifically delivering Fe/S clusters to apoproteins both inside and outside mitochondria.…”
Section: Discussionmentioning
confidence: 99%
“…All pathways involve a cysteine desulfurase and a U-type and/or A-type scaffold protein capable of assembling both [2Fe-2S] and [4Fe-4S] clusters (3). U-type scaffold proteins, such as NifU and IscU, preferentially bind [2Fe-2S] clusters while Atype scaffold proteins, such as SufA and IscA, can bind [2Fe-2S] monomeric clusters, which then mature to [4Fe-4S]-containing proteins, as it is in the case of aconitase (23,37). More recent studies led to the observation that E. coli (1) and A. vinelandii (4) produce an additional protein involved in [Fe-S] biogenesis that was named NfuA.…”
mentioning
confidence: 99%