It has been argued that for certain lineages noncoding DNA expansion is a consequence of the increased random genetic drift associated with long-term escalations in organism size. But a lack of data has prevented the investigation of this hypothesis in most plastid-bearing protists. Here, using newly sequenced mitochondrial and plastid genomes, we explore the relationship between organelle DNA noncoding content and organism size within volvocine green algae. By looking at unicellular, colonial, and differentiated multicellular algae, we show that organelle DNA complexity scales positively with species size and cell number across the volvocine lineage. Moreover, silent-site genetic diversity data suggest that the volvocine species with the l...
A large amount of diversity in genomic size and content exists within the mitochondrial and plastid ...
The colonial volvocine algae span the full range of organizational complexity, from four-celled spec...
Background The plastid genomes of the green algal order Chlamydomonadales tend to e...
It has been argued that for certain lineages noncoding DNA expansion is a consequence of the increas...
It has been argued that for certain lineages, noncoding DNA expansion is a consequence of the increa...
Within the siphonous green algal order Bryopsidales, the size and gene arrangement of chloroplast ge...
Volvocalean green algae have among the most diverse mitochondrial and plastid DNAs (mtDNAs and ptDNA...
Within the siphonous green algal order Bryopsidales, the size and gene arrangement of chloroplast ge...
The thing about plastid genomes in nonphotosynthetic plants and algae is that they are usually very ...
<div><p>Volvocalean green algae have among the most diverse mitochondrial and plastid DNAs (mtDNAs a...
Prochnik SE, Umen J, Nedelcu AM, et al. Genomic analysis of organismal complexity in the multicellul...
Eukaryotic organisms exhibit tremendous variability in genome size with no apparent connection to th...
Red algae (Rhodophyta) underwent two phases of large-scale genome reduction during their early evolu...
Background: The magnitude of noncoding DNA in organelle genomes can vary significantly; it is argued...
[EN] Among the most intriguing mysteries in the evolutionary biology of photosynthetic organisms are...
A large amount of diversity in genomic size and content exists within the mitochondrial and plastid ...
The colonial volvocine algae span the full range of organizational complexity, from four-celled spec...
Background The plastid genomes of the green algal order Chlamydomonadales tend to e...
It has been argued that for certain lineages noncoding DNA expansion is a consequence of the increas...
It has been argued that for certain lineages, noncoding DNA expansion is a consequence of the increa...
Within the siphonous green algal order Bryopsidales, the size and gene arrangement of chloroplast ge...
Volvocalean green algae have among the most diverse mitochondrial and plastid DNAs (mtDNAs and ptDNA...
Within the siphonous green algal order Bryopsidales, the size and gene arrangement of chloroplast ge...
The thing about plastid genomes in nonphotosynthetic plants and algae is that they are usually very ...
<div><p>Volvocalean green algae have among the most diverse mitochondrial and plastid DNAs (mtDNAs a...
Prochnik SE, Umen J, Nedelcu AM, et al. Genomic analysis of organismal complexity in the multicellul...
Eukaryotic organisms exhibit tremendous variability in genome size with no apparent connection to th...
Red algae (Rhodophyta) underwent two phases of large-scale genome reduction during their early evolu...
Background: The magnitude of noncoding DNA in organelle genomes can vary significantly; it is argued...
[EN] Among the most intriguing mysteries in the evolutionary biology of photosynthetic organisms are...
A large amount of diversity in genomic size and content exists within the mitochondrial and plastid ...
The colonial volvocine algae span the full range of organizational complexity, from four-celled spec...
Background The plastid genomes of the green algal order Chlamydomonadales tend to e...