Abstract
In the second step of the molybdenum cofactor (Moco) biosynthesis in Escherichia coli, the l-cysteine desulfurase IscS was identified as the primary sulfur donor for the formation of the thiocarboxylate on the small subunit (MoaD) of MPT synthase, which catalyzes the conversion of cyclic pyranopterin monophosphate to molybdopterin (MPT). Although in Moco biosynthesis in humans, the thiocarboxylation of the corresponding MoaD homolog involves two sulfurtransferases, an l-cysteine desulfurase, and a rhodanese-like protein, the rhodanese-like protein in E. coli remained enigmatic so far. Using a reverse approach, we identified a so far unknown sulfurtransferase for the MoeB-MoaD complex by protein-protein interactions. We show that YnjE, a three-domain rhodanese-like protein from E. coli, interacts with MoeB possibly for sulfur transfer to MoaD. The E. coli IscS protein was shown to specifically interact with YnjE for the formation of the persulfide group on YnjE. In a defined in vitro system consisting of MPT synthase, MoeB, Mg-ATP, IscS, and l-cysteine, YnjE was shown to enhance the rate of the conversion of added cyclic pyranopterin monophosphate to MPT. However, YnjE was not an enhancer of the cysteine desulfurase activity of IscS. This is the first report identifying the rhodanese-like protein YnjE as being involved in Moco biosynthesis in E. coli. We believe that the role of YnjE is to make the sulfur transfer from IscS for Moco biosynthesis more specific because IscS is involved in a variety of different sulfur transfer reactions in the cell.
Highlights
In molybdenum cofactor (Moco) biosynthesis, sulfur is transferred from L-cysteine to MPT synthase, catalyzing the conversion of cPMP to MPT
In the second step of the molybdenum cofactor (Moco) biosynthesis in Escherichia coli, the L-cysteine desulfurase IscS was identified as the primary sulfur donor for the formation of the thiocarboxylate on the small subunit (MoaD) of MPT synthase, which catalyzes the conversion of cyclic pyranopterin monophosphate to molybdopterin (MPT)
Using the tandem affinity purification (TAP) method with MoaD fused to an N-terminal TAP tag, we were able to co-purify MoeB, which provided the first co-purification of this complex from E. coli cells and demonstrated that the method is suitable for our purposes
Summary
In Moco biosynthesis, sulfur is transferred from L-cysteine to MPT synthase, catalyzing the conversion of cPMP to MPT. YnjE was not an enhancer of the cysteine desulfurase activity of IscS This is the first report identifying the rhodanese-like protein YnjE as being involved in Moco biosynthesis in E. coli. It was of interest to identify whether, by analogy to Moco biosynthesis in humans, a rhodanese-like protein acts as a mediator between IscS and MoaD for the formation of the thiocarboxylate group of MPT synthase in conjunction with MoeB. In a defined in vitro system consisting of MPT synthase, MoeB, Mg-ATP, IscS, and L-cysteine, YnjE was shown to enhance the rate of the conversion of added cPMP to MPT This is the first report identifying the rhodanese-like protein YnjE to be involved in Moco biosynthesis in E. coli. Our studies suggest that YnjE has a mediator role in the thiocarboxylation reaction of MoaD in Moco biosynthesis and makes the sulfur transfer from IscS to MoaD more specific because IscS is involved in a variety of different sulfur transfer reactions in the cell
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