Production of pectin-degrading enzymes by ericoid mycorrhizal fungi

SILVIA PEROTTO; JEAN DANIEL COISSON; IOLANDA PERUGINI; VALERIA COMETTI; PAOLA BONFANTE

doi:10.1046/j.1469-8137.1997.00627.x

Abstract

Production of enzymes which degrade plant cell wall macromolecules has been studied in relatively few ericoid fungal isolates, although these polymers are a major component of the organic litter and an important source of nutrients for these fungi. Our aims were to investigate whether the ability to degrade the wall pectic component, only reported for one isolate, is a general feature of ericoid fungi. Of about 35 isolates from different geographic regions, all were capable of growing on pectin as the sole carbon source. Polygalacturonase (PG) activity was detected to a different degree in the culture filtrates and independently of the fungal growth rate. Solid and liquid isoelectric focusing allowed separation and identification of several polygalacturonase isoforms. Among the fungal isolates investigated, those from the northern hemisphere produced mostly acidic isoforms, whereas isolates from South Africa secreted more abundantly basic isoforms. However, purification and biochemical characterization of several PG isoforms from the different isolates revealed an optimal activity in the acidic pH range for all the PG enzymes tested. Polygalacturonase enzymes seem to be an important component of the enzymatic arsenal secreted by ericoid fungi during their saprotrophic life. In addition, they could also play a role during root colonization, since penetration across the plant cell wall is a prerequisite for the establishment of endomycorrhizal symbiosis.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Ozinga, Wim A. Andel, Jelte Van and McDonnell-Alexander, Michael P. 1997. Nutritional soil heterogeneity and mycorrhiza as determinants of plant species diversity. Acta Botanica Neerlandica, Vol. 46, Issue. 3, p. 237.

Frazer, Lilyann Novak 1998. One stop mycology. Mycological Research, Vol. 102, Issue. 1, p. 103.

Varma, A. 1999. Mycorrhiza. p. 521.

Chambers, S. M. and Cairney, J. W. G. 1999. Ectomycorrhizal Fungi Key Genera in Profile. p. 1.

Bianciotto, V. and Bonfante, P. 1999. Mycorrhiza. p. 229.

Varma, A. 1999. Mycorrhiza. p. 373.

Balestrini, Raffaella Perotto, Silvia Gasverde, Elena Dahiya, Preeti Guldmann, Lise-Lotte Brewin, Nicholas J. and Bonfante, Paola 1999. Transcription of a Gene Encoding a Lectinlike Glycoprotein Is Induced in Root Cells Harboring Arbuscular Mycorrhizal Fungi in Pisum sativum. Molecular Plant-Microbe Interactions®, Vol. 12, Issue. 9, p. 785.

Martino, Elena Coisson, Jean Daniel Lacourt, Isabelle Favaron, Francesco Bonfante, Paola and Perotto, Silvia 2000. Influence of heavy metals on production and activity of pectinolytic enzymes in ericoid mycorrhizal fungi. Mycological Research, Vol. 104, Issue. 7, p. 825.

Martino, Elena Turnau, Katarzyna Girlanda, Mariangela Bonfante, Paola and Perotto, Silvia 2000. Ericoid mycorrhizal fungi from heavy metal polluted soils: their identification and growth in the presence of zinc ions. Mycological Research, Vol. 104, Issue. 3, p. 338.

Bergero, R. Perotto, S. Girlanda, M. Vidano, G. and Luppi, A. M. 2000. Ericoid mycorrhizal fungi are common root associates of a Mediterranean ectomycorrhizal plant (Quercus ilex). Molecular Ecology, Vol. 9, Issue. 10, p. 1639.

Perotto, Silvia Nepote-Fus, Paola Saletta, Laura Bandi, Claudio and Young, J. Peter W. 2000. A Diverse Population of Introns in the Nuclear Ribosomal Genes of Ericoid Mycorrhizal Fungi Includes Elements with Sequence Similarity to Endonuclease-Coding Genes. Molecular Biology and Evolution, Vol. 17, Issue. 1, p. 44.

Varma, A. Singh, A. Sudha Sahay, N. S. Sharma, J. Roy, A. Kumari, M. Rana, D. Thakran, S. Deka, D. Bharti, K. Hurek, T. Blechert, O. Rexer, K.-H. Kost, G. Hahn, A. Maier, W. Walter, M. Strack, D. and Kranner, I. 2001. Fungal Associations. p. 125.

Briggs, C. L. and Ashford, A. E. 2001. Structure and composition of the thick wall in hair root epidermal cells of Woollsia pungens. New Phytologist, Vol. 149, Issue. 2, p. 219.

Singh, Geeta and Mukerji, K. G. 2002. Techniques in Mycorrhizal Studies. p. 365.

Perotto, Silvia Girlanda, Mariangela and Martino, Elena 2002. Diversity and Integration in Mycorrhizas. p. 41.

Read, D. J. and Perez‐Moreno, J. 2003. Mycorrhizas and nutrient cycling in ecosystems – a journey towards relevance?. New Phytologist, Vol. 157, Issue. 3, p. 475.

Midgley, David J. Chambers, Susan M. and Cairney, John W. G. 2004. Utilisation of carbon substrates by multiple genotypes of ericoid mycorrhizal fungal endophytes from eastern Australian Ericaceae. Mycorrhiza, Vol. 14, Issue. 4, p. 245.

Read, David J Leake, Jonathan R and Perez-Moreno, Jesus 2004. Mycorrhizal fungi as drivers of ecosystem processes in heathland and boreal forest biomes. Canadian Journal of Botany, Vol. 82, Issue. 8, p. 1243.

Grelet, Gwen-Aëlle Meharg, Andrew A. and Alexander, Ian J. 2005. Carbon availability affects nitrogen source utilisation by Hymenoscyphus ericae. Mycological Research, Vol. 109, Issue. 4, p. 469.

Balestrini, R. Cosgrove, D. J. and Bonfante, P. 2005. Differential location of ?-expansin proteins during the accommodation of root cells to an arbuscular mycorrhizal fungus. Planta, Vol. 220, Issue. 6, p. 889.

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Production of pectin-degrading enzymes by ericoid mycorrhizal fungi

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Production of pectin-degrading enzymes by ericoid mycorrhizal fungi

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