Abstract Several recent discoveries reveal unexpected versatility of the bacterial and archaeal cytoskeleton systems that are involved in cell division and other processes based on membrane remodeling. Here we apply methods for distant protein sequence similarity detection, phylogenetic approaches, and genome context analysis to described two previously unnoticed families of the FtsZ-tubulin superfamily. One of these families is limited in its spread to Proteobacteria whereas the other is represented in diverse bacteria and archaea, and might be the key component of a novel, multicomponent membrane remodeling system that also includes a Von Willebrand A domain-containing protein, a distinct GTPase and membrane transport proteins of the OmpA...
We here report statistical analyses of 76 families of integral outer membrane pore-forming proteins ...
In the current model for bacterial cell division, the FtsZ protein forms a ring that marks the divis...
AbstractAtomic structures obtained by electron microscopy for tubulin, and by X-ray crystallography ...
The origin of the FtsZ/tubulin protein family was extremely relevant for life since these pro...
© 2017, Springer International Publishing AG. In comparison with bacteria and eukaryotes, the large ...
The origin of the FtsZ/tubulin protein family was extremely relevant for life since these proteins a...
The FtsZ protein is a polymer-forming GTPase which drives bacterial cell division and is structurall...
Abstract. The FtsZ protein is a polymer-forming GTPase which drives bacterial cell division and is s...
6 p.-2 fig.Self-assembling protein filaments are at the heart of cell function. Among them, tubulin-...
AbstractThe tubulin homolog FtsZ assembles a ring in bacteria and plays a key role in the machinery ...
AbstractA systematic comparative genomic analysis of all archaeal membrane proteins that have been p...
Cytoskeletal proteins form very important structures in eukaryotic cells. It was demonstrated in las...
Background. The origin and evolution of the homologous GTP-binding cytoskeletal proteins FtsZ typica...
9 p.-7 fig.-2 tab.We have studied the assembly and GTPase of purified FtsZ from the hyperthermophili...
Tubulin is a major component of the eukaryotic cytoskeleton, controlling cell shape, structure and d...
We here report statistical analyses of 76 families of integral outer membrane pore-forming proteins ...
In the current model for bacterial cell division, the FtsZ protein forms a ring that marks the divis...
AbstractAtomic structures obtained by electron microscopy for tubulin, and by X-ray crystallography ...
The origin of the FtsZ/tubulin protein family was extremely relevant for life since these pro...
© 2017, Springer International Publishing AG. In comparison with bacteria and eukaryotes, the large ...
The origin of the FtsZ/tubulin protein family was extremely relevant for life since these proteins a...
The FtsZ protein is a polymer-forming GTPase which drives bacterial cell division and is structurall...
Abstract. The FtsZ protein is a polymer-forming GTPase which drives bacterial cell division and is s...
6 p.-2 fig.Self-assembling protein filaments are at the heart of cell function. Among them, tubulin-...
AbstractThe tubulin homolog FtsZ assembles a ring in bacteria and plays a key role in the machinery ...
AbstractA systematic comparative genomic analysis of all archaeal membrane proteins that have been p...
Cytoskeletal proteins form very important structures in eukaryotic cells. It was demonstrated in las...
Background. The origin and evolution of the homologous GTP-binding cytoskeletal proteins FtsZ typica...
9 p.-7 fig.-2 tab.We have studied the assembly and GTPase of purified FtsZ from the hyperthermophili...
Tubulin is a major component of the eukaryotic cytoskeleton, controlling cell shape, structure and d...
We here report statistical analyses of 76 families of integral outer membrane pore-forming proteins ...
In the current model for bacterial cell division, the FtsZ protein forms a ring that marks the divis...
AbstractAtomic structures obtained by electron microscopy for tubulin, and by X-ray crystallography ...