Abstract Background Loss of photosynthesis has occurred independently in several plant and algal lineages, and represents a major metabolic shift with potential consequences for the content and structure of plastid genomes. To investigate such changes, we sequenced the complete plastid genome of the parasitic, non-photosynthetic green alga, Helicosporidium. Results The Helicosporidium plastid genome is among the smallest known (37.5 kb), and like other plastids from non-photosynthetic organisms it lacks all genes for proteins that function in photosynthesis. Its reduced size results from more than just loss of genes, however; it has little non-coding DNA, with only one intron and tiny intergenic spaces, and no inverted repeat (no duplicated...
Background The plastid genomes of the green algal order Chlamydomonadales tend to e...
International audienceBackground: Heterokont algae, together with cryptophytes, haptophytes and some...
BACKGROUND: Helicosporidia are achlorophyllous, non-photosynthetic protists that are obligate parasi...
Background: Loss of photosynthesis has occurred independently in several plant and ...
A fragment of the Helicosporidium sp. (Chlorophyta: Trebouxiophyceae) plastid genome has been sequen...
Helicosporidia are single-celled obligate endoparasites of invertebrates. They have a unique morphol...
The evolution of an obligate parasitic lifestyle is often associated with genomic reduction, in part...
<div><p>The evolution of an obligate parasitic lifestyle is often associated with genomic reduction,...
The Helicosporidia are a unique group of pathogens found in diverse invertebrate hosts. They have be...
The evolution of an obligate parasitic lifestyle is often associated with genomic reduction, in part...
The thing about plastid genomes in nonphotosynthetic plants and algae is that they are usually very ...
The discovery of a nonphotosynthetic plastid in malaria and other apicomplexan parasites has sparked...
Comparative organelle genome studies of parasites can highlight genetic changes that occur during th...
Autotrophic eukaryotes have evolved by the endosymbiotic uptake of photosynthetic organisms. Interes...
Chloroplast genomes have undergone tremendous alterations through the evolutionary history of the gr...
Background The plastid genomes of the green algal order Chlamydomonadales tend to e...
International audienceBackground: Heterokont algae, together with cryptophytes, haptophytes and some...
BACKGROUND: Helicosporidia are achlorophyllous, non-photosynthetic protists that are obligate parasi...
Background: Loss of photosynthesis has occurred independently in several plant and ...
A fragment of the Helicosporidium sp. (Chlorophyta: Trebouxiophyceae) plastid genome has been sequen...
Helicosporidia are single-celled obligate endoparasites of invertebrates. They have a unique morphol...
The evolution of an obligate parasitic lifestyle is often associated with genomic reduction, in part...
<div><p>The evolution of an obligate parasitic lifestyle is often associated with genomic reduction,...
The Helicosporidia are a unique group of pathogens found in diverse invertebrate hosts. They have be...
The evolution of an obligate parasitic lifestyle is often associated with genomic reduction, in part...
The thing about plastid genomes in nonphotosynthetic plants and algae is that they are usually very ...
The discovery of a nonphotosynthetic plastid in malaria and other apicomplexan parasites has sparked...
Comparative organelle genome studies of parasites can highlight genetic changes that occur during th...
Autotrophic eukaryotes have evolved by the endosymbiotic uptake of photosynthetic organisms. Interes...
Chloroplast genomes have undergone tremendous alterations through the evolutionary history of the gr...
Background The plastid genomes of the green algal order Chlamydomonadales tend to e...
International audienceBackground: Heterokont algae, together with cryptophytes, haptophytes and some...
BACKGROUND: Helicosporidia are achlorophyllous, non-photosynthetic protists that are obligate parasi...