Pucciniomycotina   (formerly Urediniomycetes)

Introduction

Members of the Pucciniomycotina are remarkably diverse, possessing a wide range of structural and ecological characters. One characteristic many of these fungi have in common, however, is their rather miniscule size, making them challenging to locate and study. The apparent lack of unifying structural features of many members of the Pucciniomycotina has presented a challenge to understanding their phylogenetic affiliations, and the relationships of many of these disparate taxa have been illuminated since 1995 through the acquisition of molecular sequence, biochemical and subcellular data.

The group contains approximately 7,400 species, distributed among approximately 215 genera, but will eventually be much larger as many cryptic species are recognized. More than 95% of the species and 75% of the genera in this group are placed in the Pucciniales (Pucciniomycetes), the plant parasitic rust fungi. The next largest orders, Septobasidiales (Pucciniomycetes) and Microbotryales (Microbotryomycetes), collectively constitute approximately 5% of the species and 4% of the genera. Nearly 20% of the rust genera and 60% of the nonrust genera are monotypic (containing only one species). The rust fungi and several of the yeasts have been more extensively studied than have other taxa, and the surprisingly large percentage of monotypic genera may be artificially high due to the limited research on these often obscure fungi.

The rusts are undeniably the most economically important fungi in this clade, as obligate parasites on a wide range of crop plants including cereal grains, legumes, and trees such as coffee, apple, and pine, where they can cause extensive reduction in yield and even host death. Other phytopathogenic Pucciniomycotina can be of economic importance, but on a much smaller scale than rust fungi. Species of Helicobasidium (Pucciniomycetes: Helicobasidiales) cause root rot diseases of many economically important plants such as asparagus, beet, mulberry, and pear. Microbotryum violaceum (Microbotryomycetes: Microbotryales) causes anther smut of plants in the Caryophyllaceae, while smut on buckwheat is caused by Sphacelotheca fagopyri (Microbotryomycetes: Microbotryales). These smuts are not closely related to the smuts in the Ustilaginomycotina with which they were confused until molecular sequence data became available.

For a more thorough overview of the Pucciniomycotina, see Swann et al. (2001); see Fell et al. (2001) for additional details of yeasts in the Pucciniomycotina.

Other Names for Pucciniomycotina   (formerly Urediniomycetes)

• A diverse group of fungi, including rusts, yeasts, smut-like and jelly-like fungi
• Urediniomycetes

References

Aime, M. C., P. B. Matheny, D. A. Henk, E. M. Frieders, R. H. Nilsson, M. Piepenbring, D. J. McLaughlin, L. J. Szabo, D. Begerow, J. P. Sampaio, R. Bauer, M. Weiß, F. Oberwinkler, and D. S. Hibbett. 2007. An overview of the higher-level classification of Pucciniomycotina based on combined analyses of nuclear large and small subunit rDNA sequences. Mycologia 98: 896–905.

Bauer, R., D. Begerow, J. P. Sampaio, M. Weiß, and F. Oberwinkler. 2006. The simple-septate basidiomycetes: a synopsis. Mycological Progress 5: 41–66.

Fell, J. W., T. Boekhout, A. Fonseca, and J. P. Sampaio. 2001. Basidiomycetous yeasts. Pages 3-35 in: D. J. McLaughlin, E. J. McLaughlin, and P. Lemke, eds., The Mycota. Vol. VII. Part B., Systematics and Evolution. Springer Verlag, Berlin.

Hibbett, D. S., M. Binder, J. F. Bischoff, M. Blackwell, P. F. Cannon, O. E. Eriksson, S. Huhndorf, T. James, P. M. Kirk, R. Lücking, T. Lumbsch, F. Lutzoni, P. B. Matheny, D. J. Mclaughlin, M. J. Powell, S. Redhead, C. L. Schoch, J. W. Spatafora, J. A. Stalpers, R. Vilgalys, M. C. Aime, A. Aptroot, R. Bauer, D. Begerow, G. L. Benny, L. A. Castlebury, P. W. Crous, Y.-C. Dai, W. Gams, D. M. Geiser, G. W. Griffith, C. Gueidan, D. L. Hawksworth, G. Hestmark, K. Hosaka, R. A. Humber, K. Hyde, J. E. Ironside, U. Kõljalg, C. P. Kurtzman, K.-H. Larsson, R. Lichtwardt, J. Longcore, J. Miądlikowska, A. Miller, J.-M. Moncalvo, S. Mozley-Standridge, F. Oberwinkler, E. Parmasto, V. Reeb, J. D. Rogers, C. Roux, L. Ryvarden, J. P. Sampaio, A. Schüßler, J. Sugiyama, R. G. Thorn, L. Tibell, W. A. Untereiner, C. Walker, Z. Wang, A. Weir, M. Weiß, M. M. White, K. Winka, Y.-J. Yao, and N. Zhang. 2007. A higher-level phylogenetic classification of the Fungi. Mycological Research 111: 509-547.

Swann, E. C., E. M. Frieders, and D. J. McLaughlin. 2001. Urediniomycetes. Pages 37-56 in: D. J. McLaughlin, E. J. McLaughlin, and P. Lemke, eds., The Mycota. Vol. VII. Part B, Systematics and Evolution. Springer-Verlag, Berlin.

Information on the Internet

• The Classification of Dimorphic Basidiomycetes. A brief overview of dimorphic taxa of basidiomycetes
• Profiles of Fungi: Rust Fungi. A nice overview of rust fungi
• Fungal/Insect Symbiosis and Commensalism, part 3. The Felt Fungi. A description and images of Septobasidium and its scale insect host
• The Fungus Tuberculina Leads a Double Life. The interesting life history of Helicobasidium (the phytoparasitic stage) and Tuberculina (the mycoparasitics stage)
• History of Microbotryum. A short description of the historical importance of Microbotryum violaceum
• Microbotryum violaceum: A fungus which causes a sexually transmitted disease in the Caryophyllaceae. Genoscope - Centre National de Séquençage.