Transfer RNA (tRNA) molecules are sumptuously decorated with evolutionary conserved
post-transcriptional nucleoside modifications that are essential for structural stability and …

Outer membrane vesicles (OMV) are proposed to mediate multiple functions during
pathogenesis and symbiosis. However, the mechanisms responsible for OMV formation …

Transfer RNA (tRNA) is an RNA molecule that carries amino acids to the ribosomes for
protein synthesis. These tRNAs function at the peptidyl (P) and aminoacyl (A) binding sites …

Post-transcriptional modifications can impact the stability and functionality of many different
classes of RNA molecules and are an especially important aspect of tRNA regulation. It is …

The success of bacterial pathogens depends on the coordinated expression of virulence
determinants. Regulatory circuits that drive pathogenesis are complex, multilayered, and …

Glucose-inhibited division protein (GidA), is a tRNA modification enzyme functioning
together with MnmE in the addition of a carboxymethylaminomethyl group to position 5 of the …

Pseudomonas aeruginosa gidA, which encodes a putative tRNA-modifying enzyme, is
associated with a variety of virulence phenotypes. Here, we demonstrated that P …

Glucose-inhibited division protein (GidA) plays a critical role in the growth, stress response,
and virulence of bacteria. However, how gidA may affect plant growth-promoting bacteria …

Ribonucleic acid (RNA) molecules consist of numerous chemically modified nucleosides
that are highly conserved in eukarya, archeae, and bacteria, while others are unique to each …

Abstract Lysobacter capsici X2-3, a plant growth-promoting rhizobacteria (PGPR), was
isolated from wheat rhizosphere and has inhibitory effects against a wide range of …