The phylogenetic and taxonomic implications of flagellar rootlet morphology among zoosporic fungi

Chytridiomycetous fungal zoospores contain a unique and intricate association of organelles, the 'microbody-lipid globule complex' (MLC). The spatial arrangement of organelles in the MLC appears important in the utilization of lipid globules for energy, but in addition, the structural association of organelles in the MLC reveals phylogenetic trends within this diverse group of organisms. Variations in the structure of the MLC correlate well with current phylogenetic concepts of aquatic fungi, yet suggest new relationships among these posteriorly uniflagellate zoospores. Based upon the organization of organelles in the MLC, 4 basic patterns of MLCs can be recognized, and these correspond to the 4 orders of Chytridiomycetes. The MLC in its simplest form consists of a microbody appressed to the edge of a lipid globule. In more highly organized MLCs, mitochondria subtend the microbody and a cisterna surmounts one side of the lipid globule. The organization and structure is still more complex in other MLCs where ER is elaborated into a tubular network of membranes or where small microbodies or mitochondria fuse into 'giant' organelles. The structural organization of the MLC provides an additional criterion by which the phylogeny of awuatic fungi can be evaluated.