Summary
In view of limitations of current techniques for identifying and classifying fungi, consideration is given to the potential taxonomic value of molecular analysis. Particular attention is paid to macromolecules such as proteins, nucleic acids, and other polymeric components of fungi.
The advantages, though not all applicable to each method, of molecular analysis include the diversity of molecules and methods of analysis, the possibility of rapid analysis, restricted variability among isolates, relative insensitivity to environmental or morphogenetic changes, and application to fungi possessing few distinctive or reliable morphological characters.
The view is expressed that macromolecular data will make greater contributions to fungal taxonomy in the future. They are unlikely to replace present criteria completely for several reasons. For some groups they may be no easier to apply. They do not solve the problem of delimitation of taxa, and considerable attention to standardization of techniques will be necessary. Perhaps the most important reason is that such data do not completely describe an organism or provide all the information we may wish a classification to contain.
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Literature Cited
Alberghina, F. A. M. &S. R. Suskind. 1967. Ribosomes and ribosomal protein fromNeurosfora crassa I. Physical, chemical and immunochemical properties. Jour. Bacteriol.94: 630–649.
Alston, R. E. &B. L. Turner. 1963. Biochemical systematics. Prentice-Hall. New Jersey. xii + 404 pp.
Amos, R. E. &R. G. Burrell. 1967. Serological differentiation inCeratocystis. Phytopathology5: 32–34.
Ansley, S. G., L. L. Campbell, &P. S. Sypherd. 1969. Isolation and amino acid composition of ribosomal proteins fromBacillus stearothermophilus. Jour. Bacteriol.98: 568–572.
Aronson, J. M. 1965. The cell wall. p. 49–76.InAinsworth, G. C. &A. S.Sussman (eds.). The fungi, an advanced treatise. Vol. 1. Academic Press. New York. xvi + 748 pp.
Barron, G. L. 1968. The genera of hyphomycetes from soil. Williams & Wilkins Co. Baltimore. xiii + 364 pp.
Bartnicki-Garcia, S. 1968. Cell wall chemistry, morphogenesis, and taxonomy of fungi. Annu. Rev. Microbiol.22: 87–108.
Bent, K. J. 1967. Electrophoresis of proteins of 3Penicillum species on acrylamide gels. Jour. Gen. Microbiol.49: 195–200.
Burrell, R. G., C. W. Clayton, M. E. Gallegly, V. G. Lilly. 1965. Factors af fecting the antigenicity of the mycelium of three species ofPhytophthora. Phytopathology55: 1052–1053. (Abstr.)
Burton, K. 1965. Sequence determination in nucleic acids. p. 57–89.InCampbell, P.N. &G. D.Greville (eds.). Essays in biochemistry. Vol. 1. Academic Press. New York. × + 170 pp
Chang, L. O., A. M. Srb, &F. C. Steward. 1962. Electrophoretic separations of the soluble proteins ofNeurospora. Nature193: 756–759.
Cheeseman, G. C. &N. J. Berridge. 1959. The differentiation of bacterial species by paper chromatography VII. The use of electronic computation for the objective assessment of Chromatographic results. Jour. Appl. Bacteriol.22: 307–316. 316.
Clare, B. G. 1963. Starch-gel electrophoresis of proteins as an aid in identifying fungi. Nature200: 803–804.
—,N. T. Flentje, &M. R. Atkinson. 1968. Electrophoretic patterns of oxidoreductases and other proteins as criteria in fungal taxonomy. Aust. Jour. Biol. Sci.21: 275–295.
—. &G. A. Zentmyer. 1966. Starch gel electrophoresis of proteins from species ofPhytophthora. Phytopathology56: 1334–1335.
Crick, F. H. C. 1966. The genetic code III. Scientific American215: 55–62.
Deley, J. 1968. DNA base composition and hybridization in the taxonomy of phytopathogenic bacteria. Annu. Rev. Phytopathol.6: 63–90.
—,I. W. Park, R. Tijtgat, & J.Van Ermengem. 1966. DNA homology and taxonomy ofPseudomonas andXanthomonas. Jour. Gen. Microbiol.42: 43–56.
Dennen, D. W. &D. J. Neiderpruem. 1967. Regulation of glutamate dehydrogenases during morphogenesis ofSchizophyllum commune. Jour. Bacteriol.93: 904–913.
Dixon, G. H. 1966. Mechanisms of protein evolution. P. 147–204.In:P. N. Campbell &G. D. Greville (eds.). Essays in biochemistry. Vol. 2. Academic Press. New York. xiii + 227 pp.
Dowson, W. J. 1957. Plant diseases due to bacteria. The University Press, Cambridge. xv + 231 pp.
Dunwell, J. L., F. Ahmad, &A. H. Rose. 1961. Changes in the polysaccharide composition of yeast resulting from biotin deficiency. Biochem. Biophys. Acta51: 604–607.
Durbin, R. D. 1966. Comparative gel-electrophoretic investigation of the protein patterns ofSeptoria species. Nature210: 1186–1187.
Dutta, S. K., N. Richman, V. W. Woodward, &M. Mandel. 1967. Relatedness among species of fungi and higher plants measured by DNA hybridization and base ratios. Genetics57: 719–727.
Erwin, D. C., G. A. Zentmyer, J. Galindo &J. S. Niederhauser. 1963. Variation in the genusPhytophthora. Annu. Rev. Phytopathol.1: 375–396.
Franke, R. G., R. W. Balek, &L. Valentin. 1968. Taxonomic significance of isozyme patterns of some myxomycetes, order Physarales, produced with starch gel electrophoresis. Mycologia60: 331–339.
Frisch, Leonora (ed.). 1963. Cold Spring Harbor Symposia on Quantitative Biology. Vol. 28. Synthesis and structure of macromolecules. Cold Spring Harb. Lab. Quant. Biol. New York. xx + 610 pp.
Gill, H. S. &D. Powell. 1968(a). Polyacrylamide gel (disc) electrophoresis of physiologic races A-1 to A-8 ofPhytophthora fragariae. Phytopathology58: 722–723.
—. &D. Powell. 1968 (b). The use of polyacrylamide gel disc electrophoresis in delimiting three species ofPhytophthora. Phytopathol. Z.63: 23–29.
Gilmour, J. S. L. &S. M. Walters. 1964. Philosophy and classification. Vistas in Botany4: 1–22.
Gleason, F. H., R. A. Nolan, A. C. Wilson, &R. Emerson. 1966. D (-)—lactate dehydrogenase in lower fungi. Science152: 1272–1273.
Griffin, H. D. 1968. The genusCeratocystis in Ontario. Can. Jour. Bot.46: 689–718.
Hale, M. E. 1967. The biology of lichens. Edward Arnold. London. viii + 176 pp.
Hall, R. 1967. Proteins and catalase isoenzymes fromFusarium solani and their taxonomic significance. Aust. Jour. Biol. Sci.20: 419–428.
—. &G. A. Zentmyer. 1967. Intracellular and extracellular enzymes fromPhytophthora cinnamomi. Phytopathology57: 813. (Abstr.)
——, &D. C. Erwin. 1968. Acrylamide gel electrophoresis of proteins and taxonomy ofPhytophthora. Phytopathology58: 1052. (Abstr.)
———. 1969. Approach to taxonomy ofPhytophthora through acrylamide gel-electrophoresis of proteins. Phytopathology59: 770–774.
Hine, R. B. 1960. The occurrence of amino acids in four species ofPythium Mycologia52: 378–389.
Holley, R. W., J. Apgar, G. A. Everett, J. T. Madison, M. Marquisee, S. H. Merrill, J. R. Penswick, &A. Zamir. 1965. Structure of a ribonucleic acid. Science147: 1462–1465.
Hoyer, B. H., B. J. McCarthy, &E. T. Bolton. 1964. A molecular approach in the systematics of higher organisms. Science144: 959–967.
Imamoto.F., T. Yamane, &N. Sueoka. 1965. Existence of two phenylalanyl-sRNA synthetases inNeurospora crassa. Proc. Nat. Acad. Sci. U.S.A.53: 1456–1462.
Jukes, T. H. 1966. Indications for a common evolutionary origin shown in the primary structure of three transfer RNAs. Biochem. Biophys. Res. Commun.24: 744–749.
Kalab, M. &Z. Matlocha. 1966. Electrophoretic separation of soluble mushroom proteins in acrylamide gel. Planta Med.14: 126–130.
King, Joslyn M. 1966. Some aspects of the biology of the fungal symbiont ofSirex noctilio. Aust. Jour. Bot.14: 25–30.
Leone, C. A., (ed.). Taxonomic biochemistry and serology. Ronald Press. New York. × + 728 pp.
Lodder, J. &N. J. W. Kreger Vanrij. 1952. The yeasts, a taxonomic study. Inter-science Pub. Inc. New York. xi + 713 pp.
Macko, V., A. Novacky, &M. A. Stahmann. 1967. Protein and enzyme patterns from urediospores ofPuccinia graminis var.tritici. Phytopathol. Z.58: 122–127.
Madhosingh, C. 1964. A serological comparison of threeFusarium species. Can. Jour. Bot.42: 1143–1147.
Margoliash, E. 1963. Primary structure and evolution of cytochrome c. Proc. Nat. Acad. Sci. U.S.A.50: 672–679.
Marmur, J. &P. Doty. 1961. Thermal denaturation of deoxyribonucleic acids. Jour. Mol. Biol.3: 585–594.
—,S. Falkow, &M. Mandel. 1963. New approaches to bacterial taxonomy. Annu. Rev. Microbiol.17: 329–372.
McCombs, C. L. &N. N. Winstead. 1963. Mycelial protein comparisons of isolates of cucurbit anthracnose fungi. Phytopathology53: 882. (Abstr.)
McKillican, M. E. 1960. A survey of amino acid content of the uredospores of some races of wheat rust (Puccinia graminis). Can. Jour. Chem.32: 244–247.
Meyer, J. A., E. D. Garber, &Susan G. Shaeffer. 1964. Genetics of phytopathogenic fungi. XII. Detection of esterases and phosphatases in culture filtrates ofFusarium oxysporum andF. xylarioides by starch-gel zone electrophoresis. Bot. Gaz.125: 298–300.
Meyer, S. A. &H. J. Phaff. 1968. Isolation and base composition of DNA from various species of yeast. Bact. Proc. 18: (Abstr.)
Morton, D. J. &P. D. Dukes, 1967. Serological differentiation ofPythium aphanidermatum fromPhytophthora parasitica var.nicotianae andPh. parasitica. Nature213: 923–925.
Murray, I. G. 1968. Some aspects of the biochemical differentiation of pathogenic fungi: a review. Jour. Gen. Microbiol.52: 213–221.
Nakase, T., &K. Komagata. 1969. DNA base composition of the genusHansenula. Jour. Gen. Appl. Microbiol.15: 85–95.
Narain, A. 1966. Chemotaxonomic studies onUstilago avenae andUstilago kolleri. Phytopathology56: 1225–1228.
Nealson, K. H. &E. D. Garber. 1967. An electrophoretic survey of esterases, phosphatases, and leucine aminopeptidases in mycelial extracts of species ofAspergillus. Mycologia59: 330–336.
Nelson, R. R. 1965. Assessing biological relationships in the fungi. Phytopathology55: 823–826.
O–Brien, R. W. &B. J. Ralph. 1966. The cell wall composition and taxonomy of some basidiomycetes and ascomycetes. Ann. Bot. N.S.30: 831–843.
Oyama, V. I. &G. C. Carle. 1967. Pyrolysis gas chromatography application to life detection and chemotaxonomy. Jour. Gas Chromatogr.5: 151–154.
Parmeter, J. R. 1965. The taxonomy of sterile fungi. Phytopathology55: 826–828.
Peberdy, J. F. &Myfanwy Turner. 1968. The esterases ofMortierella ramanniana in relation to taxonomy. Jour. Gen. Microbiol.51: 303–312.
Perham, R. N. &J. I. Harris. 1963. Amino acid sequences around the reactive cysteine residue in glyceraldehyde-3-phosphate dehydrogenases. Jour. Molec. Biol.7: 316–320.
Reynolds, R. J., H. G. Hendrick, &M. G. Crum. 1967. Application of infrared spectroscopy to rapid identification of hydrocarbon-fuel contaminating microorganisms. Develop. Ind. Microbiol.8: 246–252.
Sanwal, B. D. &M. Lata. 1961. The occurrence of two different glutamic dehydrogenases inNeurospora. Can. Jour. Microbiol.7: 319–328.
Shaw, R. 1967. Fatty acids of fruiting bodies of Basidiomycetes. Nature213: 86–87.
Shechter, Y., J. W. Landau, Nina Dabrowa, &V. D. Newcomer. 1968. Comparative disc electrophoresis of proteins fromCandida species. Bact. Proc. 89: (Abstr.)
Shipton, W. A. &G. Fleischmann. 1969. Disc electrophoresis of proteins from uredospores of races ofPuccinia coronata f. sp.avenae. Phytopathology59: 883.
Sibley, C. G. 1962. The comparative morphology of protein molecules as data for classification. Syst. Zool.11: 108–118.
Sinclair, J. H., Barbara J. Stevens, P. Sanghavi, &M. Rabinowitz. 1967. Mitochondrial-satellite and circular DNA filaments in yeast. Science156: 1234–1237.
Slodki, M. E. &L. J. Wickerham. 1966. Extracellular polysaccharides and classification of the genusLipomyces. Jour. Gen. Microbiol.42: 381–385.
—— &R. J. Bandoni. 1966. Extracellular heteropolysaccharides fromCryptococcus andTremella: a possible taxonomic relationship. Can. Jour. Microbiol.12: 489–494.
Smith, Marilyn J., Claire M. Patik, &M. A. Rosinski. 1967. A comparison of cellulose production in the genusCeratocystis. Mycologia59: 965–969.
Snyder, W. C. &T. A. Toussoun. 1965. Current status of taxonomy inFusarium species and their perfect stages. Phytopathology55: 833–837.
Sokal, R. R. 1966. Numerical taxonomy. Scientific American215: 106–116.
Solomon, E. P., E. M. Johnson, &J. H. Gregg. 1964. Multiple forms of enzymes in a cellular slime mold during morphogenesis. Develop. Biol.9: 314–326.
Stenderup, A. &A. Leth Bak. 1968. Deoxyribonucleic acid base composition of some species within the genusCandida. Jour. Gen. Microbiol.52: 231–236.
Steward, F. C., R. F. Lyndon, &J. T. Barber. 1965. Acrylamide gel electrophoresis of soluble plant proteins: A study on pea seedlings in relation to development. Amer. Jour. Bot.52: 155–164.
Stipes, R. J. 1967. Disc electrophoresis of mycelial proteins fromCeratocystis species. Phytopathology57: 832. (Abstr.)
Storck, R. 1965. Nucleotide composition of nucleic acids of fungi I. Ribonucleic acids. Jour. Bacteriol.90: 1260–1264.
—. 1966. Nucleotide composition of nucleic acids of fungi II. Deoxyribonucleic acids. Jour. Bacteriol.91: 227–230.
—,C. J. Alexopoulos, &H. J. Phaff. 1969. Nucleotide composition of deoxyribonucleic acid of some species ofCryptococcus, Rhodotorula, andSporobolomyces. Jour. Bacteriol.98: 1069–1072.
Suerth, C. J. &E. H. Varney. 1968. Serological investigations of races 1–8 ofPhytophthora fragariae. Phytopathology58: 403. (Abstr.)
Swain, T. (ed.). 1966. Comparative phytochemistry. Academic Press. New York. xiii + 360 pp.
Tanaka, H. &H. J. Phaff. 1965. Enzymatic hydrolysis of yeast cell walls. I. Isolation of wall decomposing organisms and separation and purification of lytic enzymes. Jour. Bacteriol.89: 1570–1580.
Tsuchiya, T., S. Kawakita, M. Imai, &K. Miyagawa. 1966. Serological classification of the generaKloeckera andHanseniaspora. Jap. Jour. Exp. Med.36: 555–562.
Tulloch, A. P. 1964. The component fatty acids of oils found in spores of plant rusts and other fungi. Pt. IV. Can. Jour. Microbiol.10: 359–364.
—. &G. A. Ledingham. 1962. The component fatty acids of oils found in spores of plant rusts and other fungi. Pt. II. Can. Jour. Microbiol.8: 379–387
——. 1964. The component fatty acids of oils found in spores of plant rusts and other fungi. Pt. III. Can. Jour. Microbiol.10: 351–358.
Tyler, V. E., R. G. Benedict, &D. E. Stuntz. 1965. Chemotaxonomic significance of urea in the higher fungi. Lloydia28: 342–353.
Vaartaja, O. 1965. NewPythium species from South Australia. Mycologia57: 417–430.
Williams, C. A. &E. I. Tatum. 1966. Immunoelectrophoresis analysis of cytoplasmic proteins ofNeurospora crassa. Jour. Gen. Microbiol.44: 59–68.
Wilson, A. C. &N. O. Kaplan. 1964. Enzyme structure and its relation to taxonomy, p. 321–346.InLeone, C. A. (ed.). Taxonomic biochemistry and serology. Ronald Press. New York. × + 728 pp.
Zeldin, M. H. &J. M. Ward. 1963. Acrylamide electrophoresis and protein pattern during morphogenesis in a slime mould. Nature198: 389–390.
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Hall, R. Molecular approaches to taxonomy of fungi. Bot. Rev 35, 285–304 (1969). https://doi.org/10.1007/BF02858874
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DOI: https://doi.org/10.1007/BF02858874