Dual-function AzuCR RNA modulates carbon metabolism

Bacteria have evolved small RNAs (sRNAs) to regulate numerous biological processes and stress responses. While sRNAs generally are considered to be "noncoding," a few have been found to also encode a small protein. Here we describe one such dual-function RNA that modulates carbon utilization in Escherichia coli. The 164nucleotide RNA was previously shown to encode a 28-amino acid protein (denoted AzuC). We discovered the membrane-associated AzuC protein interacts with GlpD, the aerobic glycerol-3-phosphate dehydrogenase, and increases dehydrogenase activity. Overexpression of the RNA encoding AzuC results in a growth defect in glycerol and galactose medium. The defect in galactose medium was still observed for a stop codon mutant derivative, suggesting a second role for the RNA. Consistent with this observation, we found that cadA and galE are repressed by base pairing with the RNA (denoted AzuR). Interestingly, AzuC translation interferes with the observed repression of cadA and galE by the RNA and base pairing interferes with AzuC translation, demonstrating that the translation and base-pairing functions compete.