by Keyword: Nucleoid-associated proteins

Solano-Collado, Virtu, Hüttener, Márrio, Espinosa, Manuel, Juárez, Antonio, Bravo, Alicia, (2016). MgaSpn and H-NS: Two unrelated global regulators with similar DNA-binding properties Frontiers in Molecular Biosciences 3, Article 60

Global regulators play an essential role in the adaptation of bacterial cells to specific niches. Bacterial pathogens thriving in the tissues and organs of their eukaryotic hosts are a well-studied example. Some of the proteins that recognize local DNA structures rather than specific nucleotide sequences act as global modulators in many bacteria, both Gram-negative and -positive. To this class of regulators belong the H-NS-like proteins, mainly identified in γ-Proteobacteria, and the MgaSpn-like proteins identified in Firmicutes. H-NS and MgaSpn from Escherichia coli and Streptococcus pneumoniae, respectively, neither have sequence similarity nor share structural domains. Nevertheless, they display common features in their interaction with DNA, namely: (i) they bind to DNA in a non-sequence-specific manner, (ii) they have a preference for intrinsically curved DNA regions, and (iii) they are able to form multimeric complexes on linear DNA. Using DNA fragments from the hemolysin operon regulatory region of the E. coli plasmid pHly152, we show in this work that MgaSpn is able to recognize particular regions on extended H-NS binding sites. Such regions are either located at or flanked by regions of potential bendability. Moreover, we show that the regulatory region of the pneumococcal P1623B promoter, which is recognized by MgaSpn, contains DNA motifs that are recognized by H-NS. These motifs are adjacent to regions of potential bendability. Our results suggest that both regulatory proteins recognize similar structural characteristics of DNA.

JTD Keywords: Global transcriptional regulators, Nucleoid-associated proteins, Mga/AtxA family, Protein-DNA interactions, DNA bendability

Paytubia, S., Dietrich, M., Queiroz, M.H., Juárez, A., (2013). Role of plasmid- and chromosomally encoded Hha proteins in modulation of gene expression in E. coli O157:H7 Plasmid International Society for Plasmid Biology Meeting , Elsevier (Santander, Spain) 70 (1), 52-60

H-NS and Hha belong to the nucleoid-associated family of proteins and modulate gene expression in response to environmental stimuli. Genes coding for these proteins can be either chromosomally or plasmid-encoded. In this work, we analyse the regulatory role of the Hha protein encoded in the virulence plasmid of the enterohemorrhagic Escherichia coli O157:H7 (HhapO157). This plasmid is present in all clinical isolates of E. coli O157:H7 and contributes to virulence. Both, HhapO157 and E. coli O157:H7-chromosomal Hha (Hhachr) exhibit a significant degree of similarity. The hha gene from plasmid pO157 is transcribed from its own putative promoter and is overexpressed in a chromosomal hha mutant. As its chromosomal counterpart, HhapO157 is able to interact with H-NS. Remarkably, HhapO157 targets only a subset of the genes modulated by Hhachr. This has been evidenced by both assaying the ability of HhapO157 to complement expression of a specific operon (i.e., the haemolysin operon) and by comparing the global transcriptome of the wt strain and its hhap, hhac and hhapc mutant derivatives. HhapO157 and Hhachr share some common regulatory features, however they also display specific targeting of some genes and even a different modulatory role in some others.

JTD Keywords: E. coli O157:H7, Hha, H-NS, Plasmid, pO157, Nucleoid-associated proteins

Paytubi, S., Garcia, J., Juarez, A., (2011). Bacterial Hha-like proteins facilitate incorporation of horizontally transferred DNA Central European Journal of Biology , 6, (6), 879-886

Horizontal gene transfer (HGT), non-hereditary transfer of genetic material between organisms, accounts for a significant proportion of the genetic variability in bacteria. In Gram negative bacteria, the nucleoid-associated protein H-NS silences unwanted expression of recently acquired foreign DNA. This, in turn, facilitates integration of the incoming genes into the regulatory networks of the recipient cell. Bacteria belonging to the family Enterobacteriaceae express an additional protein, the Hha protein that, by binding to H-NS, potentiates silencing of HGT DNA. We provide here an overview of Hha-like proteins, including their structure and function, as well as their evolutionary relationship. We finally present available information suggesting that, by expressing Hha-like proteins, bacteria such as Escherichia coli facilitate HGT incorporation and hence, the impact of HGT in their genetic diversity.

JTD Keywords: Hha, H-NS, HGT DNA, Enterobacteria, Nucleoid-associated proteins, Enterica serovar typhimurium, Histone-like protein, h-ns, Escherichia-coli, Yersinia-enterocolitica, Salmonella-enterica