AI Article Synopsis
- Rhodoquinone (RQ) helps various bacteria and eukaryotes use fumarate as an electron acceptor in low-oxygen environments and is closely related to ubiquinone (UQ).
- The study focuses on the RquA protein from a mutant of Rhodospirillum rubrum, which is essential for synthesizing RQ from UQ.
- RquA acts like methyltransferases but uniquely uses S-adenosylmethionine (SAM) for an amino transfer reaction instead of methyl transfer, requiring manganese (Mn) as a cofactor, which distinguishes it from typical aminotransferases.
Article Abstract
Rhodoquinone (RQ) is a close analogue of ubiquinone (UQ) that confers diverse bacterial and eukaryotic taxa the ability to utilize fumarate as an electron acceptor in hypoxic conditions. The RquA protein, identified in a Rhodospirillum rubrum RQ-deficient mutant, has been shown to be required for RQ biosynthesis in bacteria. In this report, we demonstrate that RquA, homologous to SAM-dependent methyltransferases, is necessary and sufficient to catalyze RQ biosynthesis from UQ in vitro. Remarkably, we show that RquA uses SAM as the amino group donor in a substitution reaction that converts UQ to RQ. In contrast to known aminotransferases, RquA does not use pyridoxal 5'-phosphate (PLP) as a coenzyme, but requires the presence of Mn as a cofactor. As these findings reveal, RquA provides an example of a non-canonical SAM-dependent enzyme that does not catalyze methyl transfer, instead it uses SAM in an atypical amino transfer mechanism.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9814641 | PMC |
| http://dx.doi.org/10.1038/s42004-022-00711-6 | DOI Listing |
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