All Outputs (2)

Enzymes of type II fatty acid synthesis and apicoplast differentiation and division in Eimeria tenella (2006)
Journal Article
Ferguson, D., Campbell, S. A., Henriquez, F., Phan, L., Mui, E., Richards, T., …Roberts, C. (2007). Enzymes of type II fatty acid synthesis and apicoplast differentiation and division in Eimeria tenella. International Journal for Parasitology, 37(1), 33-51. https://doi.org/10.1016/j.ijpara.2006.10.003

Apicomplexan parasites, Eimeria tenella, Plasmodium spp. and Toxoplasma gondii, possess a homologous plastid-like organelle termed the apicoplast, derived from the endosymbiotic enslavement of a photosynthetic alga. However, currently no eimerian nuc... Read More about Enzymes of type II fatty acid synthesis and apicoplast differentiation and division in Eimeria tenella.

Evolutionary Origins of the Eukaryotic Shikimate Pathway: Gene Fusions, Horizontal Gene Transfer, and Endosymbiotic Replacements (2006)
Journal Article
Richards, T. A., Dacks, J. B., Campbell, S. A., Blanchard, J. L., Foster, P. G., McLeod, R., …Roberts, C. W. (2006). Evolutionary Origins of the Eukaryotic Shikimate Pathway: Gene Fusions, Horizontal Gene Transfer, and Endosymbiotic Replacements. Eukaryotic Cell, 5(9), 1517-1531. https://doi.org/10.1128/ec.00106-06

Currently the shikimate pathway is reported as a metabolic feature of prokaryotes, ascomycete fungi, apicomplexans, and plants. The plant shikimate pathway enzymes have similarities to prokaryote homologues and are largely active in chloroplasts, sug... Read More about Evolutionary Origins of the Eukaryotic Shikimate Pathway: Gene Fusions, Horizontal Gene Transfer, and Endosymbiotic Replacements.