Fuligo septica is a species of plasmodial slime mold. Often found on bark mulch in urban areas after heavy rain or excessive watering, it is commonly known as the "dog vomit slime mold" or "scrambled egg slime" because of its peculiar yellowish, bile-colored appearance.
Like many slime molds, the plasmodium is a multinucleate mass of undifferentiated cells that may move in an ameboid-like fashion during the search for nutrients. F. septica typically produces variably-colored plasmodia, that may be anywhere from white to yellow-grey, typically 2.5–20 cm (1.0–7.9 in) long and wide, and 1–3 cm (0.4–1.2 in) thick. Later, the plasmodium will transform into a sponge-like aethalium, analogous to the spore-bearing fruiting body of a mushroom. This aethalium eventually degrades, darkening in color, and releases its dark-colored spores. This species is known to have its spores dispersed by beetles (family lathridiidae).
Resistance to metal toxicity
Slime molds have a high resistance to toxic levels of metals; one author was prompted to write "The levels of Zn in Fuligo septica were so high (4,000–20,000 ppm) that it is difficult to understand how a living organism can tolerate them." The resistance to extreme levels of zinc appears to be unique to F. septica. The mechanism of this metal resistance is now understood: F. septica produces a yellow pigment called fuligorubin A, which has been shown to chelate metals and convert them to inactive forms.
Model of RNA processing
Introns are sections of DNA that must be properly cleaved, digested and processed prior to rendering functional rRNAs for protein synthesis. Because it has a large number of group I introns, F. septica is used as a model to understand the processing and evolution of RNA.
Extracts from F. septica show antibiotic activity against Bacillus subtilis and Candida albicans, and cytotoxic activity on KB cells (a cell line derived from a human carcinoma of the nasopharynx).
- ^ Armstrong, Marian (2007). Wildlife and Plants. Marshall Cavendish. pp. 998. ISBN 0761477101. http://books.google.com/books?id=jBh0jgWdWtsC&pg=PA998&dq=dog+vomit+slime+mold. Retrieved 9 December 2008.
- ^ Kambly PE. (1939). The color of myxomycete plasmodia. Botany 26(6): 386–390.
- ^ "Fuligo septica". http://www.messiah.edu/Oakes/fungi_on_wood/crust%20and%20parchment/species%20pages/Fuligo%20septica.htm. Retrieved 2008-12-08.
- ^ Blackwell M, Laman TG. (1982). Spore dispersal of Fuligo septica (Myxomycetes) by Lathridiid beetles. Mycotaxon 14(1): 58–60.
- ^ Santili J, Rockwell WJ, Collins RP. (1895). The significance of the spore of the Basidiomycetes (Mushrooms and their allies) in bronchial asthma and allergenic rhinitis. Annals of allergy 55: 469–471.
- ^ Gianini EH, Northy WT, Leathers CR. (1975). The allergenic significance of certain fungi rarely reported as allergens. Annals of Allergy 35: 372–376.
- ^ Setala A, Nuorteva P. (1989). High metal contents found in Fuligo septica L. Wiggers and some other slime molds (Myxomycetes). Karstenia 29(1): 37–44.
- ^ Zhulidov DA, Robarts RD, Zhulidov AV, Zhulidova OV, Markelov DA, Rusanov VA, Headley JV (2002). "Zinc accumulation by the slime mold Fuligo septica (L.) Wiggers in the former Soviet Union and North Korea". J. Environ. Qual. 31 (3): 1038–42. PMID 12026071. http://jeq.scijournals.org/cgi/pmidlookup?view=long&pmid=12026071. Retrieved 2008-12-08.
- ^ Latowski D, Lesiak A, Jarosz-Krzeminska E, Strzalka K. (2008). Fuligo septica, as a new model organism in studies on interaction between metal ions and living cells. Metal ions in Biology and Medicine and Medicine 10: 204–209
- ^ Lundblad EW, Einvik C, Rønning S, Haugli K, Johansen S (July 2004). "Twelve Group I introns in the same pre-rRNA transcript of the myxomycete Fuligo septica: RNA processing and evolution". Mol. Biol. Evol. 21 (7): 1283–93. doi:10.1093/molbev/msh126. PMID 15034133. http://mbe.oxfordjournals.org/cgi/pmidlookup?view=long&pmid=15034133. Retrieved 2008-12-08.
- ^ Haugen P, Coucheron DH, Rønning SB, Haugli K, Johansen S (2003). "The molecular evolution and structural organization of self-splicing group I introns at position 516 in nuclear SSU rDNA of myxomycetes". J. Eukaryot. Microbiol. 50 (4): 283–92. PMID 15132172.
- ^ Pereira EC, Cavalcanti LDH, Campos-Takaki GMD, Nascimento, Silene CD. (1992). Antibiotic and cytotoxic activities of crude extracts from Fuligo septica (L.) Wigg. and Tubifera microsperma (Berk. and Curt.) Martin (Myxomycetes). Revista de Ciencias Biomedicas 13(0): 23-32.