SummaryHere, we describe bsrG/SR4, a novel type I toxinantitoxin system from the SPb prophage region of the Bacillus subtilis chromosome. The 294-nucleotide bsrG RNA encodes a 38-amino-acid toxin, whereas SR4 is a 180-nucleotide antisense RNA that acts as the antitoxin. Both genes overlap by 123 nucleotides. BsrG expression increases at the onset of stationary phase. The sr4 promoter is 6-to 10-fold stronger than the bsrG promoter. Deletion of sr4 stabilizes bsrG mRNA and causes cell lysis on agar plates, which is due to the BsrG peptide and not the bsrG mRNA. SR4 overexpression could compensate cell lysis caused by overexpression of bsrG. SR4 interacts with the 3Ј UTR of bsrG RNA, thereby promoting its degradation. RNase III cleaves the bsrG RNA/SR4 duplex at position 185 of bsrG RNA, but is not essential for the function of the toxin-antitoxin system. Endoribonuclease Y and 3Ј-5Ј exoribonuclease R participate in the degradation of both bsrG RNA and SR4, whereas PnpA processes three SR4 precursors to the mature RNA. A heat shock at 48°C results in faster degradation and, therefore, significantly decreased amounts of bsrG RNA.
Disulfide bridges establish a fundamental element in the molecular architecture of proteins and peptides which are involved e.g., in basic biological processes or acting as toxins. NMR spectroscopy is one method to characterize the structure of bioactive compounds including cystine-containing molecules. Although the disulfide bridge itself is invisible in NMR, constraints obtained via the neighboring NMR-active nuclei allow to define the underlying conformation and thereby to resolve their functional background. In this mini-review we present shortly the impact of cysteine and disulfide bonds in the proteasome from different domains of life and give a condensed overview of recent NMR applications for the characterization of disulfide-bond containing biomolecules including advantages and limitations of the different approaches.
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