RNA-Seq analysis and whole genome DNA-binding profile of the Vibrio cholerae histone-like nucleoid structuring protein (H-NS)

The data described in this article pertain to the genome-wide transcription profiling of a Vibrio cholerae mutant lacking the histone-like nucleoid structuring protein (H-NS) and the mapping of the H-NS chromosome binding sites [1, 2]. H-NS is a nucleoid-associated protein with two interrelated functions: organization of the bacterial nucleoid and transcriptional silencing [3]. Both functions require DNA binding and protein oligomerization [4, 5]. H-NS commonly silences the expression of virulence factors acquired by lateral gene transfer [6]. The highly pleiotropic nature of hns mutants in V. cholerae indicates that H-NS impacts a broad range of cellular processes such as virulence, stress response, surface attachment, biofilm development, motility and chemotaxis. We used a V. cholerae strain harboring a deletion of hns and a strain expressing H-NS tagged at the C-terminus with the FLAG epitope to generate datasets representing the hns transcriptome and DNA binding profile under laboratory conditions (LB medium, 37°C). The datasets are publicly available at the Gene Expression Omnibus (GEO) repository (http://www.ncbi.nlm.nih.gov/geo/) with accession numbers GSE62785 and GSE64249.