Link to home

Functional Genomic Analysis of Global Regulator NolR in Sinorhizobium meliloti

December 2005 , Volume 18 , Number  12
Pages  1,340 - 1,352

Hancai Chen , 1 Ke Gao , 1 Eva Kondorosi , 2 Adam Kondorosi , 2 and Barry G. Rolfe 1

1Australian Research Council Centre of Excellence for Integrative Legume Research, Genomic Interactions Group, Research School of Biological Sciences, Australian National University, Canberra ACT 0200, Australia; 2Institut des Sciences, Végétales, CNRS, Gif-Sur-Yvette Cedex, France

Go to article:
Accepted 19 August 2005.

NolR is a regulator of nodulation genes present in species belonging to the genera Rhizobium and Sinorhizobium. The expression of the nolR gene in Sinorhizobium meliloti AK631 was investigated in relation to stage of growth, availability of nutrients, and different environmental stimuli using the nolR::lacZ fusion report system. It has been shown that the nolR gene is regulated in a population-density-dependent fashion and influenced by a number of environmental stimuli, including nutrients, pH, and oxygen. Exploration of the physiological functions of NolR under various laboratory conditions has shown that NolR is required for the optimal growth of the bacteria on solid media, optimal survival of the bacteria in carbon-starved minimal medium, and after heat shock challenge. NolR also is involved in recipient-induced conjugative transfer of a plasmid. Proteome analysis of strain AK631 and its Tn5-induced nolR-deficient mutant EK698 revealed that a functional NolR induced significant differences in the accumulation of 20 polypeptides in peptide mass fingerprinting early-log-phase cultures and 48 polypeptides in stationary-phase cultures. NolR acted mainly as a repressor in the early-log-phase cultures, whereas it acted as both repressor and activator in the stationaryphase cultures. The NolR protein and 59 NolR-associated proteins have been identified by peptide mass fingerprinting. The NolR protein was differentially expressed only in the NolR+ wild-type strain AK631 but not in its NolR- derivative EK698, confirming that no functional NolR was produced in the mutant. The NolR-associated proteins have diverse functions in amino acid metabolism, carbohydrate metabolism, lipid metabolism, nucleotide metabolism, energy metabolism, metabolism of Co-factors, and cellular adaptation and transportation. These results further support our previous proposal that the NolR is a global regulatory protein which is required for the optimization of nodulation, bacterial growth and survival, and conjugative transfer of a plasmid.

Additional keywords: cellular functions, luteolin, protein networks, quorum sensing.

© 2005 The American Phytopathological Society