Add to ORKGThe architecture of eukaryotic cells is underpinned by complex arrrays of microtubules that stem from an organizing center, referred to as the MTOC. With few exceptions, MTOCs consist of two basal bodies that anchor flagellar axonemes and different configurations of microtubular roots. Variations in the structure of this cytoskeletal system, also referred to as the ‘flagellar apparatus’, reflect phylogenetic relationships and provide compelling evidence for inferring the overall tree of eukaryotes. However, reconstructions and sub-sequent comparisons of the flagellar apparatus are challenging, because these studies require sophisticated microscopy, spatial reasoning and detailed terminology. In an attempt to understand the unifying features...
Dinoflagellates are a member of the Alveolata, and elucidation of the early evolution of alveolates ...
In an effort to better understand character evolution in the cytoskeleton (pellicle) of euglenid pro...
Eukaryotic cilia are complex, highly conserved microtubule-based organelles with a broad phylogeneti...
The microtubule axoneme is an iconic structure in eukaryotic cell biology and the defining structure...
The cytoskeleton is the hallmark of eukaryotic evolution. The molecular and architectural aspects of...
The eukaryotic cytoskeleton evolved from prokaryotic cytomotive filaments. Prokaryotic filament syst...
Abstract The microtubular cytoskeleton of higher plants diverges considerably from its animal counte...
Background: The genesis of the eukaryotes was a pivotal event in evolution and was accompanied by th...
I discuss eukaryotic deep phylogeny and reclassify the basal eukaryotic kingdom Protozoa and derived...
International audienceBackground: The midbody is a transient complex structure containing proteins i...
It is generally well accepted that eukaryotes evolved from the symbiosis of an archaeal host cell an...
The karyomastigont cytoskeletal pattern in which a nucleus is connected to motility organelles [1-5 ...
SummaryThe root of the eukaryote tree of life defines some of the most fundamental relationships amo...
The cytoskeleton is a system of intracellular filaments crucial for cell shape, division, and functi...
Eukaryotic flagella (synonymous with cilia) rely on a microtubule-based axoneme, together with acces...
Dinoflagellates are a member of the Alveolata, and elucidation of the early evolution of alveolates ...
In an effort to better understand character evolution in the cytoskeleton (pellicle) of euglenid pro...
Eukaryotic cilia are complex, highly conserved microtubule-based organelles with a broad phylogeneti...
The microtubule axoneme is an iconic structure in eukaryotic cell biology and the defining structure...
The cytoskeleton is the hallmark of eukaryotic evolution. The molecular and architectural aspects of...
The eukaryotic cytoskeleton evolved from prokaryotic cytomotive filaments. Prokaryotic filament syst...
Abstract The microtubular cytoskeleton of higher plants diverges considerably from its animal counte...
Background: The genesis of the eukaryotes was a pivotal event in evolution and was accompanied by th...
I discuss eukaryotic deep phylogeny and reclassify the basal eukaryotic kingdom Protozoa and derived...
International audienceBackground: The midbody is a transient complex structure containing proteins i...
It is generally well accepted that eukaryotes evolved from the symbiosis of an archaeal host cell an...
The karyomastigont cytoskeletal pattern in which a nucleus is connected to motility organelles [1-5 ...
SummaryThe root of the eukaryote tree of life defines some of the most fundamental relationships amo...
The cytoskeleton is a system of intracellular filaments crucial for cell shape, division, and functi...
Eukaryotic flagella (synonymous with cilia) rely on a microtubule-based axoneme, together with acces...
Dinoflagellates are a member of the Alveolata, and elucidation of the early evolution of alveolates ...
In an effort to better understand character evolution in the cytoskeleton (pellicle) of euglenid pro...
Eukaryotic cilia are complex, highly conserved microtubule-based organelles with a broad phylogeneti...