Manganese deficiency impairs ribonucleotide reduction but not DNA replication in Arthrobacter species

Abstract

Manganese deficiency induced unbalanced growth, filamentous morphology and a decrease of viability in Arthrobacter citreus ATCC 11624, A. globiformis ATCC 8010 and A. oxydans DSM 420. Under these conditions whole cells showed an inhibition of DNA formation but not of RNA synthesis. However, DNA replication still functioned when manganese-deficient cells were made permeable to and supplied with all four deoxyribonucleotides. The inhibition of DNA formation in-vivo could be traced back to impairment of DNA precursor biosynthesis as ribonucleotide reductase activity was distinctly reduced upon starvation of manganese. Both DNA formation in-vivo and ribonucleotide reductase activity were restored in the starved cultures by addition of Mn2+ but not of other divalent cations. In these manganese-reactivated cultures both processes were stimulated above the levels of the manganese-sufficient controls. Rifampicin or chloramphenicol (both 100 μg/ml) could not suppress the rapid manganese-reactivation of cultures starved of this cation. This suggests the presence of an inactive metal-deficient ribonucleotide reductase apoenzyme in manganese-deficient cells. The presence of a manganese-dependent ribonucleotide reduction in the genus Arthrobacter besides of Brevibacterium ammoniagenes and Micrococcus luteus indicates a broad distribution of this new type of metal catalysis for DNA precursor biosynthesis in the high GC% branch of the Gram-positive bacteria.