JSTOR Daily

Metabolic quirks and the colourful history of the Euglena gracilis secondary plastid

• Euglena spp. are phototrophic flagellates with considerable ecological presence and impact. Euglena gracilis harbours secondary green plastids, but an incompletely characterised proteome precludes ...
JSTOR Daily

Principles of plastid reductive evolution illuminated by nonphotosynthetic chrysophytes

The division of life into producers and consumers is blurred by evolution. For example, eukaryotic phototrophs can lose the capacity to photosynthesize, although they may retain vestigial plastids ...
EurekAlert!

Novel online analysis platform for plastid phylogenomics and comparative genomics

The plastid genome (plastome) represents an indispensable molecular resource for studying plant phylogeny and evolution. Although plastome size is much smaller than that of nuclear genomes, accurately ...
EurekAlert!

Discovering the genetic puzzle behind variegated leaves

Schematic diagram showing the formation of the A-type plastome in D. tasmanica through intermolecular recombination of the G-type plastome. The first recombination mediated by the 11-bp IRs merges two ...