Arac/XylS family of transcriptional regulators

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Microbiol. Mol. Biol. Rev., Dec 1997, 393-410, Vol 61, No. 4
Copyright © 1997, American Society for Microbiology

Arac/XylS family of transcriptional regulators [In Process Citation]

MT Gallegos, R Schleif, A Bairoch, K Hofmann and JL Ramos
Department of Biochemistry and Molecular and Cellular Biology of Plants, Consejo Superior de Investigaciones Cientificas, Estacion Experimental del Zaidin, Granada, Spain.

The ArC/XylS family of prokaryotic positive transcriptional regulators includes more than 100 proteins and polypeptides derived from open reading frames translated from DNA sequences. Members of this family are widely distributed and have been found in the gamma subgroup of the proteobacteria, low- and high-G + C-content gram-positive bacteria, and cyanobacteria. These proteins are defined by a profile that can be accessed from PROSITE PS01124. Members of the family are about 300 amino acids long and have three main regulatory functions in common: carbon metabolism, stress response, and pathogenesis. Multiple alignments of the proteins of the family define a conserved stretch of 99 amino acids usually located at the C-terminal region of the regulator and connected to a nonconserved region via a linker. The conserved stretch contains all the elements required to bind DNA target sequences and to activate transcription from cognate promoters. Secondary analysis of the conserved region suggests that it contains two potential alpha-helix-turn-alpha-helix DNA binding motifs. The first, and better-fitting motif is supported by biochemical data, whereas existing biochemical data neither support nor refute the proposal that the second region possesses this structure. The phylogenetic relationship suggests that members of the family have recruited the nonconserved domain(s) into a series of existing domains involved in DNA recognition and transcription stimulation and that this recruited domain governs the role that the regulator carries out. For some regulators, it has been demonstrated that the nonconserved region contains the dimerization domain. For the regulators involved in carbon metabolism, the effector binding determinants are also in this region. Most regulators belonging to the AraC/XylS family recognize multiple binding sites in the regulated promoters. One of the motifs usually overlaps or is adjacent to the -35 region of the cognate promoters. Footprinting assays have suggested that these regulators protect a stretch of up to 20 bp in the target promoters, and multiple alignments of binding sites for a number of regulators have shown that the proteins recognize short motifs within the protected region.

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Olekhnovich, I. N., Kadner, R. J. (2002). DNA-Binding Activities of the HilC and HilD Virulence Regulatory Proteins of Salmonella enterica Serovar Typhimurium. J. Bacteriol. 184: 4148-4160 [Abstract] [Full Text]
Teramoto, M., Ohnishi, K., Harayama, S., Watanabe, K. (2002). An AraC/XylS Family Member at a High Level in a Hierarchy of Regulators for Phenol-Metabolizing Enzymes in Comamonas testosteroni R5. J. Bacteriol. 184: 3941-3946 [Abstract] [Full Text]
Brodsky, I. E., Ernst, R. K., Miller, S. I., Falkow, S. (2002). mig-14 Is a Salmonella Gene That Plays a Role in Bacterial Resistance to Antimicrobial Peptides. J. Bacteriol. 184: 3203-3213 [Abstract] [Full Text]
Howard, V. J., Belyaeva, T. A., Busby, S. J. W., Hyde, E. I. (2002). DNA binding of the transcription activator protein MelR from Escherichia coli and its C-terminal domain. Nucleic Acids Res 30: 2692-2700 [Abstract] [Full Text]
Myers, J. M., Myers, C. R. (2002). Genetic Complementation of an Outer Membrane Cytochrome omcB Mutant of Shewanella putrefaciens MR-1 Requires omcB Plus Downstream DNA. Appl. Environ. Microbiol. 68: 2781-2793 [Abstract] [Full Text]
Nikolskaya, A. N., Galperin, M. Y. (2002). A novel type of conserved DNA-binding domain in the transcriptional regulators of the AlgR/AgrA/LytR family. Nucleic Acids Res 30: 2453-2459 [Abstract] [Full Text]
Tramonti, A., Visca, P., De Canio, M., Falconi, M., De Biase, D. (2002). Functional Characterization and Regulation of gadX, a Gene Encoding an AraC/XylS-Like Transcriptional Activator of the Escherichia coli Glutamic Acid Decarboxylase System. J. Bacteriol. 184: 2603-2613 [Abstract] [Full Text]
Brickman, T. J., Armstrong, S. K. (2002). Bordetella Interspecies Allelic Variation in AlcR Inducer Requirements: Identification of a Critical Determinant of AlcR Inducer Responsiveness and Construction of an alcR(Con) Mutant Allele. J. Bacteriol. 184: 1530-1539 [Abstract] [Full Text]
Munson, G. P., Holcomb, L. G., Alexander, H. L., Scott, J. R. (2002). In Vitro Identification of Rns-Regulated Genes. J. Bacteriol. 184: 1196-1199 [Abstract] [Full Text]

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