Many bacterial regulatory genes appear to be dispensable, as they can be deleted from the genome without loss of bacterial functionalities. In Helicobacter pylori, the hp1043 gene, also known as hsrA, is one of the transcriptional regulator that is essential for cell viability. This gene could not be deleted, nor the amount of protein modulated, supporting the hypothesis that HP1043 could be involved in the regulation of crucial cellular processes. Even though detailed structural data are available for the HP1043 protein, its targets are still ill-defined. Using Chromatin Immunoprecipitation-sequencing (ChIP-seq), one of the most powerful approaches to characterize protein-DNA interactions in vivo, we were able to identify genome-wide several new HP1043 binding sites. Moreover, in vitro DNA binding assays enabled precise mapping of the HP1043 binding sites on the new targets, revealing the presence of a conserved nucleotide sequence motif. Intriguingly, a significant fraction of the newly identified binding sites overlaps promoter regions controlling the expression of genes involved in translation. Accordingly, when protein translation was blocked, a significant induction of almost all HP1043 target genes was detected. These observations prompted us to propose HP1043 as a key regulator in H. pylori, likely involved in sensing and in coordinating the response to environmental conditions that provoke an arrest of protein synthesis. The essential role of HP1043 in coordinating central cellular processes is discussed.

ChIP-seq analysis of the Helicobacter pylory Transcriptional Regulatory Network involved in metal homeostasis control / E. Pinatel, A. Vannini, D. Roncarati, S. Puccio, V. Scarlato, C. Peano, A. Danielli. ((Intervento presentato al 11. convegno International Workshop on Pathogenesis and Host Response in Helicobacter Infections tenutosi a Helsingor nel 2014.

ChIP-seq analysis of the Helicobacter pylory Transcriptional Regulatory Network involved in metal homeostasis control

S. Puccio;
2014

Abstract

Many bacterial regulatory genes appear to be dispensable, as they can be deleted from the genome without loss of bacterial functionalities. In Helicobacter pylori, the hp1043 gene, also known as hsrA, is one of the transcriptional regulator that is essential for cell viability. This gene could not be deleted, nor the amount of protein modulated, supporting the hypothesis that HP1043 could be involved in the regulation of crucial cellular processes. Even though detailed structural data are available for the HP1043 protein, its targets are still ill-defined. Using Chromatin Immunoprecipitation-sequencing (ChIP-seq), one of the most powerful approaches to characterize protein-DNA interactions in vivo, we were able to identify genome-wide several new HP1043 binding sites. Moreover, in vitro DNA binding assays enabled precise mapping of the HP1043 binding sites on the new targets, revealing the presence of a conserved nucleotide sequence motif. Intriguingly, a significant fraction of the newly identified binding sites overlaps promoter regions controlling the expression of genes involved in translation. Accordingly, when protein translation was blocked, a significant induction of almost all HP1043 target genes was detected. These observations prompted us to propose HP1043 as a key regulator in H. pylori, likely involved in sensing and in coordinating the response to environmental conditions that provoke an arrest of protein synthesis. The essential role of HP1043 in coordinating central cellular processes is discussed.
No
Italian
4-lug-2014
Settore MED/07 - Microbiologia e Microbiologia Clinica
Poster
Intervento inviato
Comitato scientifico
Pubblicazione scientifica
International Workshop on Pathogenesis and Host Response in Helicobacter Infections
Helsingor
2014
11
Convegno internazionale
E. Pinatel, A. Vannini, D. Roncarati, S. Puccio, V. Scarlato, C. Peano, A. Danielli
ChIP-seq analysis of the Helicobacter pylory Transcriptional Regulatory Network involved in metal homeostasis control / E. Pinatel, A. Vannini, D. Roncarati, S. Puccio, V. Scarlato, C. Peano, A. Danielli. ((Intervento presentato al 11. convegno International Workshop on Pathogenesis and Host Response in Helicobacter Infections tenutosi a Helsingor nel 2014.
Prodotti della ricerca::14 - Intervento a convegno non pubblicato
info:eu-repo/semantics/conferenceObject
none
Conference Object
7
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/469894
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