NORMAL GENOMIC

• Chivers PT, Sauer RT
• NikR is a ribbon-helix-helix DNA-binding protein.
• Protein Sci. 1999; 8: 2494-500
• Display abstract

• Escherichia coli NikR, a repressor with homologs in other bacteria and archaea, was identified as a potential new member of the ribbon-helix-helix (beta-alpha-alpha) family of transcription factors in profile based sequence searches and in structure prediction experiments. Biophysical and biochemical characterization of the N-terminal domain of NikR show that it has many features expected of a beta-alpha-alpha protein including alpha-helical content, dimeric solution form, concentration dependent thermal stability, and ability to bind DNA in sequence-specific manner. Mutation of a residue predicted to be important for DNA-binding reduces operator affinity but does not affect the secondary structure or stability of the protein.

• Poellinger KA, Lee JP, Parales JV Jr, Greenberg EP
• Intragenic suppression of a luxR mutation: characterization of an autoinducer-independent LuxR.
• FEMS Microbiol Lett. 1995; 129: 97-101
• Display abstract

• The Vibrio fischeri luminescence genes are activated by the LuxR protein and a diffusible signal termed the autoinducer. LuxR consists of two domains, a C-terminal transcriptional activator domain, and an N-terminal autoinducer-binding domain, which serves to regulate the function of the C-terminal domain. We have isolated and characterized an intragenic suppressor of a mutation that maps to the N-terminal domain and blocks autoinducer binding. The suppressor changes an alanine residue at position-221 in the C-terminal domain to a valine. In Escherichia coli, the suppressor allows partial activation of the V. fischeri luminescence genes although E. coli containing this protein remains unable to bind autoinducer. To further analyze the influence of the second-site mutation on luxR function, we constructed a luxR gene that coded for a protein with a wild-type N-terminal domain and with the ala-221 to val substitution in the C-terminal domain. This protein activated the luminescence genes in the presence or absence of autoinducer, and it bound autoinducer at levels comparable to the wild-type LuxR protein. Apparently, the alanine to valine substitution at position-221 allows activity of the C-terminal domain in a fashion independent of whether autoinducer is bound to the N-terminal domain.

• Reyrat JM, David M, Blonski C, Boistard P, Batut J
• Oxygen-regulated in vitro transcription of Rhizobium meliloti nifA and fixK genes.
• J Bacteriol. 1993; 175: 6867-72
• Display abstract

• Oxygen concentration regulates the expression of nitrogen fixation genes in the symbiotic bacterium Rhizobium meliloti. We demonstrate that two proteins, FixL and FixJ, that belong to the two-component family of regulatory proteins are necessary and sufficient for oxygen-regulated in vitro transcription of the two key regulatory genes, nifA and fixK. We show directly that FixJ is a transcriptional activator, working in conjunction with the RNA polymerase sigma 70 holoenzyme. Addition of FixL122, a soluble form of the sensor FixL protein, to the transcription assay enhanced FixJ transcriptional activity in response to low oxygen concentration. This enhancement of FixJ activity was correlated with FixJ phosphorylation.