Paolo Natale scite author profile

In bacteria, two major pathways exist to secrete proteins across the cytoplasmic membrane. The general Secretion route, termed Sec-pathway, catalyzes the transmembrane translocation of proteins in their unfolded conformation, whereupon they fold into their native structure at the trans-side of the membrane. The Twin-arginine translocation pathway, termed Tat-pathway, catalyses the translocation of secretory proteins in their folded state. Although the targeting signals that direct secretory proteins to these pathways show a high degree of similarity, the translocation mechanisms and translocases involved are vastly different.

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Cell age dependent concentration of Escherichia coli divisome proteins analyzed with ImageJ and ObjectJ

Vischer

et al. 2015

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The rod-shaped Gram-negative bacterium Escherichia coli multiplies by elongation followed by binary fission. Longitudinal growth of the cell envelope and synthesis of the new poles are organized by two protein complexes called elongasome and divisome, respectively. We have analyzed the spatio-temporal localization patterns of many of these morphogenetic proteins by immunolabeling the wild type strain MC4100 grown to steady state in minimal glucose medium at 28°C. This allowed the direct comparison of morphogenetic protein localization patterns as a function of cell age as imaged by phase contrast and fluorescence wide field microscopy. Under steady state conditions the age distribution of the cells is constant and is directly correlated to cell length. To quantify cell size and protein localization parameters in 1000s of labeled cells, we developed ‘Coli-Inspector,’ which is a project running under ImageJ with the plugin ‘ObjectJ.’ ObjectJ organizes image-analysis tasks using an integrated approach with the flexibility to produce different output formats from existing markers such as intensity data and geometrical parameters. ObjectJ supports the combination of automatic and interactive methods giving the user complete control over the method of image analysis and data collection, with visual inspection tools for quick elimination of artifacts. Coli-inspector was used to sort the cells according to division cycle cell age and to analyze the spatio-temporal localization pattern of each protein. A unique dataset has been created on the concentration and position of the proteins during the cell cycle. We show for the first time that a subset of morphogenetic proteins have a constant cellular concentration during the cell division cycle whereas another set exhibits a cell division cycle dependent concentration variation. Using the number of proteins present at midcell, the stoichiometry of the divisome is discussed.

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The keepers of the ring: regulators of FtsZ assembly

Ortiz

Natale

Cueto

et al. 2015

FEMS Microbiology Reviews

122

116

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FtsZ, a GTPase distributed in the cytoplasm of most bacteria, is the major component of the machinery responsible for division (the divisome) in Escherichia coli. It interacts with additional proteins that contribute to its function forming a ring at the midcell that is essential to constrict the membrane. FtsZ is indirectly anchored to the membrane and it is prevented from polymerizing at locations where septation is undesired. Several properties of FtsZ are mediated by other proteins that function as keepers of the ring. ZipA and FtsA serve to anchor the ring, and together with a set of Zap proteins, they stabilize it. The MinCDE and SlmA proteins prevent the polymerization of FtsZ at sites other than the midcell. Finally, ClpP degrades FtsZ, an action prevented by ZipA. Many of the FtsZ keepers interact with FtsZ through a central hub located at its carboxy terminal end.

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A Specific Role for the ZipA Protein in Cell Division

Pazos¹,

Natale²,

Vicente³

2013

Journal of Biological Chemistry

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Dynamic Interaction of the Escherichia coli Cell Division ZipA and FtsZ Proteins Evidenced in Nanodiscs

Hernández-Rocamora

Reija

Garcı́a

et al. 2012

Journal of Biological Chemistry

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Nonequilibrium fluctuations of lipid membranes by the rotating motor protein F ₁ F ₀ -ATP synthase

Almendro‐Vedia

Natale

Mell

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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SignificanceThe shape of biological membranes is constantly remodeled and maintained out of equilibrium by active proteins. The functional capacity of membrane deformation is mainly determined by the mechanical interplay between protein activity and bending elasticity. In our experiments, we find that ATP synthase, a rotating membrane protein that synthesizes the biochemical energy in cells through proton-pumping activity across the membrane, promotes localized nonequilibrium membrane fluctuations when reconstituted in giant lipid vesicles. The large membrane deformations emerge from the pumping action of rotating proteins clustered at specific emplacements in the membrane. Our results pave the way to new experimental realizations to explore the collective effects of rotating ATP synthases and their possible biological implications for biomembrane organization and protein functionality.

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Binding of SecA to the SecYEG Complex Accelerates the Rate of Nucleotide Exchange on SecA

Natale

Swaving²,

Does³

et al. 2004

Journal of Biological Chemistry

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The Escherichia coli divisome: born to divide

Natale

Pazos

Vicente

2013

Environmental Microbiology

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SummarySeptation in Escherichia coli involves complex molecular mechanisms that contribute to the accuracy of bacterial division. The proto-ring, a complex made up by the FtsZ, FtsA and ZipA proteins, forms at the beginning of the process and directs the assembly of the full divisome. Central to this complex is the FtsZ protein, a GTPase able to assemble into a ringlike structure that responds to several modulatory inputs including mechanisms to position the septum at midcell. The connection with the cell wall synthesising machinery stabilizes the constriction of the cytoplasmic membrane. Although a substantial amount of evidence supports this description, many details on how individual divisome elements are structured or how they function are subjected to controversial interpretations. We discuss these discrepancies arising from incomplete data and from technical difficulties imposed by the small size of bacteria. Future work, including more powerful imaging and reconstruction technologies, will help to clarify the missing details on the architecture and function of the bacterial division machinery.

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Paolo Natale

Sec- and Tat-mediated protein secretion across the bacterial cytoplasmic membrane—Distinct translocases and mechanisms

Cell age dependent concentration of Escherichia coli divisome proteins analyzed with ImageJ and ObjectJ

The keepers of the ring: regulators of FtsZ assembly

A Specific Role for the ZipA Protein in Cell Division

Dynamic Interaction of the Escherichia coli Cell Division ZipA and FtsZ Proteins Evidenced in Nanodiscs

Nonequilibrium fluctuations of lipid membranes by the rotating motor protein F ₁ F ₀ -ATP synthase

Binding of SecA to the SecYEG Complex Accelerates the Rate of Nucleotide Exchange on SecA

The Escherichia coli divisome: born to divide

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Paolo Natale

Sec- and Tat-mediated protein secretion across the bacterial cytoplasmic membrane—Distinct translocases and mechanisms

Cell age dependent concentration of Escherichia coli divisome proteins analyzed with ImageJ and ObjectJ

The keepers of the ring: regulators of FtsZ assembly

A Specific Role for the ZipA Protein in Cell Division

Dynamic Interaction of the Escherichia coli Cell Division ZipA and FtsZ Proteins Evidenced in Nanodiscs

Nonequilibrium fluctuations of lipid membranes by the rotating motor protein F 1 F 0 -ATP synthase

Binding of SecA to the SecYEG Complex Accelerates the Rate of Nucleotide Exchange on SecA

The Escherichia coli divisome: born to divide

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Nonequilibrium fluctuations of lipid membranes by the rotating motor protein F ₁ F ₀ -ATP synthase