Misacylation of tRNA in prokaryotes: a re-evaluation

Misacylation of tRNA by a non-cognate amino acid is a natural phenomenon and occurs with a frequency of approximately 1 in 10,000 due to occasional mistakes in aminoacyl transfer RNA (tRNA) synthesis. In a number of prokaryotic organisms, misacylation of selenocysteinyl tRNA, glutaminyl tRNA and aspartyl tRNAs has particular physiological meaning. Recently, misacylation has emerged as a powerful tool for studying specific interactions between aa-tRNAs and associated protein factors. The present review provides an overview of the application of misacylated tRNA in research. Received 27 April 2005; received after revision 2 November 2005; accepted 5 December 2005     

Microbial activity in the terrestrial subsurface

Summary Little is known about the layers under the earth's crust. Only in recent years have techniques for sampling the deeper subsurface been developed to permit investigation of the subsurface environment. Prevailing conditions in the subsurface habitat such as nutrient availability, soil composition, redox potential, permeability and a variety of other factors can influence the microflora that flourish in a given environment. Microbial diversity varies between geological formations, but in general sandy soils support growth better than soils rich in clay. Bacteria predominate in subsurface sediments, while eukaryotes constitute only 1–2% of the microorganisms. Recent investigations revealed that most uncontaminated subsurface soils support the growth of aerobic heteroorganotrophic bacteria, but obviously anaerobic microorganisms also exist in the deeper subsurface habitat. The microorganisms residing below the surface of the earth are capable of degrading both natural and xenobiotic contaminants and can thereby adapt to growth under polluted conditions.