Organization of archaeal chromatin combines bacterial, eukaryotic, and unique characteristics. Many archaeal lineages harbor a wide diversity of small and highly expressed nucleoid-associated proteins, which are involved in DNA structuring. In Sulfolobales, representing model organisms within the Crenarchaeota, Sul7d, Cren7, Sul10a, and Sul12a are well-characterized nucleoid-associated proteins. Here, we combine evidence that the Lrs14 family of DNA binders is part of the repertoire of nucleoid-associated proteins in Sulfolobales. Lrs14-encoding genes are widespread within genomes of different members of the Sulfolobales, typically encoded as four to nine homologs per genome. The Lrs14 proteins harbor a winged helix-turn-helix DNA-binding domain and are typified by a coiled-coil dimerization. They are characterized by distinct sequence- and structure-based features, including redox-sensitive motifs and residues targeted for posttranslational modification, allowing a further classification of the family into five conserved clusters. Lrs14-like proteins have unique DNA-organizing properties. By binding to the DNA nonsequence specifically and in a highly cooperative manner, with a slight preference for AT-rich promoter regions, they introduce DNA kinks and are able to affect transcription of adjacent transcription units either positively or negatively. Genes encoding Lrs14-type proteins display considerable differential expression themselves in response to various stress conditions, with certain homologs being specific to a particular stressor. Taken together, we postulate that members of the Lrs14 family can be considered nucleoid-associated proteins in Sulfolobales, combining a DNA-structuring role with a global gene expression role in response to stress conditions.
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