[
Development,
2024]
Asymmetric cell divisions can produce daughter cells of different sizes, but it is unclear whether unequal cell cleavage is important for cell fate decisions. A new paper in Development explores the role of unequal cleavages in Caenorhabditis elegans embryos. To learn more about the story behind the paper, we caught up with first author Thomas Mullan and corresponding author Richard Poole, Associate Professor of Developmental Biology at University College London, UK.
[
J Bacteriol,
1998]
Providencia stuartii contains a chromosomal 2'-N-acetyltransferase [AAC(2')-Ia] involved in the O acetylation of peptidoglycan. The AAC(2')-Ia enzyme is also capable of acetylating and inactivating certain aminoglycosides and confers high-level resistance to these antibiotics when overexpressed. We report the identification of a locus in P. stuartii, designated aarF, that is required for the expression of AAC(2')-Ia. Northern (RNA) analysis demonstrated that aac(2')-Ia mRNA levels were dramatically decreased in a P. stuartii strain carrying an aarF::Cm disruption. The aarF::Cm disruption also resulted in a deficiency in the respiratory cofactor ubiquinone. The aarF locus encoded a protein that had a predicted molecular mass of 62,559 Da and that exhibited extensive amino acid similarity to the products of two adjacent open reading frames of unknown function (YigQ and YigR), located at 86 min on the Escherichia coli chromosome. An E. coli yigR::Kan mutant was also deficient in ubiquinone content. Complementation studies demonstrated that the aarF and the E. coli yigQR loci were functionally equivalent. The aarF or yigQR genes were unable to complement ubiD and ubiE mutations that are also present at 86 min on the E. coli chromosome. This result indicates that aarF (yigQR) represents a novel locus for ubiquinone production and reveals a previously unreported connection between ubiquinone biosynthesis and the regulation of gene expression.