This paper reviews and extends ideas of eukaryotization by endosymbiosis. These ideas are put within an historical context of processes that may have led up to eukaryotization and those that seem to have resulted from this process. Our starting point for considering the emergence and development of life as an organized system of chemical reactions should in the first place be in accordance with thermodynamic principles and hence should, as far as possible, be derived from these principles. One trend to be observed is the ever-increasing complexity resulting in several layers of compartmentalization of the reaction system, either spatial (of which the eukaryotic cell is an example), or functional (as in the gradually deepening distinction be...
The origin of mitochondria is a unique and hard evolutionary problem, embedded within the origin of ...
The bottom-up approach (from the origin of life and on) provides deeper causal-historical under-stan...
The merging of two independent populations of heterotrophs and autotrophs into a single population o...
This paper reviews and extends ideas of eukaryotization by endosymbiosis. These ideas are put within...
International audienceThe cell of eukaryotic organisms (animals, plants, fungi) differs from that of...
Two major obstacles hinder the application of evolutionary theory to the origin of eukaryotes. The f...
Roughly 1.5-2.0 Gya, the eukaryotic cell evolved from an endosymbiosis of an archaeal host and prote...
AbstractThe bioenergetic organelles of eukaryotic cells, mitochondria and chloroplasts, are derived ...
Metabolic innovation has facilitated the radiation of microbes into almost every niche environment o...
In 1967 Lynn (Sagan) Margulis proposed that mitochondria, photosynthetic plastids and cilia were acq...
SummaryThe phenomenon of endosymbiosis, or one organism living within another, has deeply impacted t...
Abstract The origin of mitochondria is a unique and hard evolutionary problem, embedded within the o...
Abstract: Symbiogenesis overshadows the importance of other eukaryogenetic processes. By working on ...
Metabolic innovation has facilitated the radiation of microbes into almost every niche environment o...
The origin of eukaryotes is one of the big questions in evolution. Many different ideas about eukary...
The origin of mitochondria is a unique and hard evolutionary problem, embedded within the origin of ...
The bottom-up approach (from the origin of life and on) provides deeper causal-historical under-stan...
The merging of two independent populations of heterotrophs and autotrophs into a single population o...
This paper reviews and extends ideas of eukaryotization by endosymbiosis. These ideas are put within...
International audienceThe cell of eukaryotic organisms (animals, plants, fungi) differs from that of...
Two major obstacles hinder the application of evolutionary theory to the origin of eukaryotes. The f...
Roughly 1.5-2.0 Gya, the eukaryotic cell evolved from an endosymbiosis of an archaeal host and prote...
AbstractThe bioenergetic organelles of eukaryotic cells, mitochondria and chloroplasts, are derived ...
Metabolic innovation has facilitated the radiation of microbes into almost every niche environment o...
In 1967 Lynn (Sagan) Margulis proposed that mitochondria, photosynthetic plastids and cilia were acq...
SummaryThe phenomenon of endosymbiosis, or one organism living within another, has deeply impacted t...
Abstract The origin of mitochondria is a unique and hard evolutionary problem, embedded within the o...
Abstract: Symbiogenesis overshadows the importance of other eukaryogenetic processes. By working on ...
Metabolic innovation has facilitated the radiation of microbes into almost every niche environment o...
The origin of eukaryotes is one of the big questions in evolution. Many different ideas about eukary...
The origin of mitochondria is a unique and hard evolutionary problem, embedded within the origin of ...
The bottom-up approach (from the origin of life and on) provides deeper causal-historical under-stan...
The merging of two independent populations of heterotrophs and autotrophs into a single population o...