Isolation of endophytic actinomycetes from roots and leaves of maize (Zea mays L.)

Araújo, Janete M. de; Silva, Adilson C. da; Azevedo, João L.

doi:10.1590/S1516-89132000000400016

Abstracts

Actinomycetes were isolated from surface sterilized leaves and roots of maize. A total of 53 isolates were obtained, 31 of them from leaves and 22 from roots. The genus Microbispora was the most frequently found followed by the genera Streptomyces and Streptosporangium. From the isolated actinomycetes, 43.4% showed antimicrobial activity against one or more tested bacteria and yeast.

Endophytes; maize; actinomycetes; Microbispora; Streptomyces; Streptosporangium

Microrganismos endofíticos são frequentemente encontrados no interior de plantas cultivadas. Embora vários tipos de microrganismos endofíticos tenham sido isolados de milho (Zea mays) não existiam dados sobre certos grupos de actinomicetos obtidos a partir desta espécie de planta cultivada. No presente trabalho, actinomicetos endofíticos foram isolados de folhas e raízes de milho. Um total de 53 isolados foram obtidos sendo 31 deles a partir de folhas e 22 a partir de raízes. O gênero Microbispora foi o mais frequente (62%), seguido dos gêneros Streptomyces e Streptosporangium. Dos actinomicetos isolados, 43,4% apresentaram atividade antimicrobiana contra um ou mais microrganismos ensaiado.

Isolation of endophytic actinomycetes from roots and leaves of maize (Zea mays L.)

Janete M. de Araújo¹, Adilson C. da Silva² and João L. Azevedo2^{^*} * Author for correspondence

¹Departamento de Antibióticos, Universidade Federal de Pernambuco, 50670-901, Recife - PE, Brazil;

2Escola Superior de Agricultura "Luiz de Queiroz", Universidade de São Paulo, Caixa postal 83 - 13400-970, Piracicaba - SP, Brazil

ABSTRACT

Actinomycetes were isolated from surface sterilized leaves and roots of maize. A total of 53 isolates were obtained, 31 of them from leaves and 22 from roots. The genus Microbispora was the most frequently found followed by the genera Streptomyces and Streptosporangium. From the isolated actinomycetes, 43.4% showed antimicrobial activity against one or more tested bacteria and yeast.

Key words: Endophytes, maize, actinomycetes, Microbispora, Streptomyces, Streptosporangium

INTRODUCTION

Endophytic microorganisms are those which inhabitat the internal part of plants, causing apparently no visible changes to their hosts. Although known since long time, their importance become evident only more recently when it was shown that they play specific roles as for instance, protecting the host-plants against insects and diseases. It has been found also that some endophytic microorganisms can produce valuable pharmaceutical substances of biotechnological interest (Strobel et al, 1996; Strobel & Long, 1998). The main roles of endophytic microorganisms are discussed in the reviews of ISaac (1992), Redlin & Carris (1996), Baldani et al (1997) and Azevedo (1998).

Actinomycetes are bacteria known to constitute a large part of the rhizosphere microbiota. Their isolation is an important step for screening of new bioactive compounds. Actinomycetes are also found inside plants but, excluding the coryneform bacteria, the only extensively studied species are from the genus Frankia, a nitrogen fixing bacteria of non-leguminous plants (Benson & Silvester, 1993) and a few species of the genus Streptomyces that are phytopathogens (Bradbury, 1986). Mundt & Hinckle (1976) isolated the genera Nocardia and Streptomyces from seed and ovules of 27 plant species. Sardi et al. (1992) isolated and observed by direct microscope examination endophytic actinomycetes from the roots of 28 plant species from the northwestern Italy. Most of the isolates were classified as Streptomyces but the genera Streptoverticillium, Nocardia, Micromonospora and Streptosporangium were also found. More recently Matsukuma et al, (1995) isolated few actinomycetes from leaves of Camellia japonica and citrus, Maitan (1998) observed rare actinomycetes isolated as endophytes of Solanum lycocarpum in middlewest Brazil and Matsumoto et al (1998) isolated also actinomycetes from fallen leaves and the genus Microbispora was the most frequently found, accounting for 44% of all isolates.

The presence of endophytic microorganisms in healthy crops has been demonstrated in maize. Although several fungi and bacteria species were reported, no actinomycetes were isolated (Fisher et al, 1992, Souza, 1996; Silva, 1997) and so far, no studies have been undertaken to assess the incidence of endophytic actinomycetes of this important species. The present work was carried out to isolate actinomycetes from roots and leaves of a variety of maize designated Piranão, widely cultivated in Brazil. Also the isolated actinomycetes were screened for antibiotic production against one yeast and three bacteria.

MATERIALS AND METHODS

Plant material: Seeds from the Zea mays variety Piranão were planted in a non fertilized soil, free from insecticides and other chemicals in an experimental field of the "Universidade Federal de Pernambuco ", Recife, located in a tropical area in the northeast Brazil during the summer and plants were sampled 7, 14 and 21 days after the emergence. Only plants exhibiting healthy vegetative growth were used.

External sterilization of leaves and roots: Two leaves and two segments of roots from each collected plant were used. Samples were sterilized according to FISHER et al. (1992) with modiifications (PEREIRA et al.,1993; 1999). They were washed in water following surface sterilization with ethanol 70% for 30 seconds and then treated with sodium hypochloride (3%-5% available chlorine) for 3 minutes. Samples were exaustively rinsed with sterile water. Sterility checks and reconstruction experiments showed that most or all epiphytic microorganisms were eliminated during this treatment. Each root was divided into pieces of ca. 1 cm and each leaf was divided into fragments of about 1 cm². Root and leaf fragments were assepticaly transferred to petri dishes containing starch-casein-agar medium (Kuster & Williams, 1964) and 2.5% water-agar medium. Nystatin and cycloheximide (50mg/ml of each) were added to both media to suppress fungal growth (Williams & Davies, 1965).Plates were incubated at 28° C for a maximum of three weeks. Actinomycetes growing on the media were isolated, purified and identified.

Identification of isolates: Each isolate was inoculated on specific ISP media (ISP 2, ISP 3, ISP 4 and ISP 5) according to Shirling & Gottlieb (1966) to determine cultural and micromorphological characteristics (Williams et al, 1989; Holt et al., 1994).. The chemical composition of the cell wall from the isolates was also determined (Lechevalier & Lechevalier, 1970; Goodfellow & Minnikin, 1985).

Antimicrobial activity: Antimicrobial activity against the bacteria Staphylococcus aureus,Micrococcus luteus, Bacillus subtilis and the yeast Candida albicans, all from the collection of the " Departamento de Antibióticos, Universidade Federal de Pernambuco " were tested on ISP 3 solid medium according to Ichikava at al. (1971). Results were scored after 24-48 hours incubation at 37° C.

RESULTS AND DISCUSSION

After a maximum of 21 days incubation, no microbial growth was observed on media inoculated with segments of leaves and roots derived from 7 day-old sampled plants. However, actinomycetes were observed emerging from roots and leaves segments of plants sampled 14 and 21 days after seed germination.The fact that actinomycetes were not isolated from plant tissues until after 7 days does not necessarily mean that they were not present; it could be that sufficient numbers were not present to allow isolation until this time. From a total of 53 isolates, 58.5% were obtained from leaves and the remaining 41.5% from roots. Results giving in Table 1 show that the most frequent genus found was Microbispora (33 isolates) followed by Streptomyces (6 isolates) and Streptosporangium (4 isolates). The remaining 10 isolates never bore reproductive structures and could not be identified. Sardi et al, (1992) found that from 499 endophytic actinomycetes isolated from 28 plant species about 96% Streptomyces, 0.2% Streptosporangium and no Microbispora were reported. Although it can be pointed out that the media used in the present work and also by Sardi et al. (1992) are know to select for a few known species which may underestimate total population size, our results agree with those of Matsumoto et al (1998) which found after isolation and identification of actinomycetes from fallen leaves, that the genus Microbispora was the most frequently found, accounting for 44% of all isolates.

Thumbnail

Results giving in Table 2 show that from the 53 isolates tested against bacteria and C. albicans, 23 of them (43.4%) presented antimicrobial activity against one or more microorganisms used. Antimicrobial activity was also found in endophytic actinomycetes (Sardi et al,1992 and Maitan,1998) and thus, actinomycetes may play a role protecting the plant host against pathogenic microorganisms.

Thumbnail

The results here described showed that actinomycetes can be isolated as endophytes not only inside maize roots but also inside leaves. The presence of actinomycetes mainly inside root tissues may play an important role in plant development and health. Several reports refer to actinomycetes acting in plant protection against pathogens and the influence of their metabolic products on plant growth and physiology (Katznelson & Cole, 1965 ; Gupta et al,1995 and Kolomiets et al, 1997). In the present work, the presence of actinomycetes inside roots and leaves of a widely cultivated crop and from a tropical region was confirmed. Certain genera isolated as maize endophytes by us, were also found in the roots of plants from temperate climate (Sardi et al, 1992; Matsumoto et al, 1998). Other genera as Streptosporangium seems to be more frequently found in maize, from a tropical region than in other plants from temperate climate. The results are also as indication of the endophytic diversity that can be found and explored for biotechnological purposes.

ACKNOWLEDGEMENTS

This work was supported by FAPESP (Fundação de Amparo à Pesquisa do Estado de Sâo Paulo, Brazil). We also would like to acknowledge CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico) for fellowships given to the authors.

RESUMO

Microrganismos endofíticos são frequentemente encontrados no interior de plantas cultivadas. Embora vários tipos de microrganismos endofíticos tenham sido isolados de milho (Zea mays) não existiam dados sobre certos grupos de actinomicetos obtidos a partir desta espécie de planta cultivada. No presente trabalho, actinomicetos endofíticos foram isolados de folhas e raízes de milho. Um total de 53 isolados foram obtidos sendo 31 deles a partir de folhas e 22 a partir de raízes. O gênero Microbispora foi o mais frequente (62%), seguido dos gêneros Streptomyces e Streptosporangium. Dos actinomicetos isolados, 43,4% apresentaram atividade antimicrobiana contra um ou mais microrganismos ensaiado.

Received: August 17, 1999;

Revised: September 15, 1999;

Accepted: December 27, 1999.

Azevedo, J.L.1998, Microrganismos endofíticos. In : Ecologia Microbiana (I.S Meloj. L. Azevedo, Edts.) Jaguariuna, Editora Embrapa. 117-137
Baldani, J.I.; Olivares, F.L.; Hemerly, A. S.; Reis Jr., F.B.; Oliveira, A. L. M.; Baldani, V.D. L.; Goi, S.R.; Reis V.M.; Dobereiner, J. 1997, Nitrogen-fixing endophytes: Recent advances in the association with graminaceous plants grown in the tropics. In : Biological Nitrogen Fixation for the 21^st Century (C. Elmerich; A. Konderosi; W.E. Newton, Edts.) Dordrecht, Kluvier, Academic Publishers. 203-296
Benson D. R.; Silvester, W.B. 1993, Biology of Frankia strains, actinomycete symbionts ofactinorhizal plants.Microbiol. Rev. 28: 293-319
Bradbury, J.F.1986, Guide to plant pathogenic bacteria London, CAB International Mycological Institute Publ.
Fisher, P.J.; Petrini, O.; Lappin-Scott, H. M.1992, The distribution of some fungal and bacteria endophytes in maize (Zea mays L.) New Phytol 122: 299-305
Goodfellow M.; Minnikin, D. E. Chemical Methods in Bacteria Systematics. London, Academic Press, 1985
Gupta, R.; Saxena, R.K.; Chaturverde, P.; Virdi, J. S. Chitinase production by Streptomyces viridificans: its potencial in fungi cell wall lysis. J. Appl. Bacteriol, 1995. 78: 378-383
Hallmann, J.; Quadt-Hallmann, A. ; Mahaffe, W.F.; Kloepper, J.W. 1997, Bacterial endophytes in agricultural crops. Can. J. Microbiol 43: 895-914
Holt, J.G.; Krieg, N.R.; Sneath, P.H. A.; Stanley,J.T.;Williams, S.T. Bergeys Manual of Determinative Bacteriology (9^th Ed.) Baltimore, Williams & Wilkins,1994
Ichikawa. T.; Ishikura, T. Ozaki, A.1971, Improvement of kasugomycin-producing strain by the agar piece method and the prototroph method. Folia Microbiol 16: 218-224
Isaac, S.Fungal-plant interactions London, Chapman & Hall, 1992.
Katznelson, H.; Cole S.E.Production of giberellin-like substances by bacteria and actinomycetes. Can. J. Microbiol 1965. 11: 733-741
Kolomiets, E.I.; Zdor, N. A. Romanovskaya, T.V.; Lobanok, A. G. Certain aspects of the phytoprotective activity of Streptomyces flavescens an antagonist of phytopathogenic fungi. Appl. Biochem. Microbiol. 1997 33: 451-454
Kuster, E.; Williams, S.T. , 1964. Selection of media for isolation of streptomycetes. Nature 202: 928-929
Lechevalier M.P.; Lechevalier H.1970, Chemical composition as a criterion in the classification of aerobic actinomycetes. Int. J. Syst. Bacteriol 20: 435-443
Leslie, J.F.; Pearson, C. A .S.; Nelson, P. E.; Tousson, T. A. 1990, Fusarium spp from corn,sorghum and soybean fields in the central and eastern United States. Phytopathology 80: 343-350
Maitan, V. R.1998, Isolamento e caracterização de actinomicetos endofíticos isolados de Solanum lycocarpum (lobeira) Goiânia, Tese de Mestrado, Universidade Federal de Goiás.
Matsukuma, S.; Okuda, T.; Watanabe, S. Isolation of actinomycetes from pine litter layers. Actinomycetol, 1995. 8: 57-65
Matsumoto, A.;Takahashi, Y.; Mochizuki, M; Seino, A.; Iwai, Y.; Omura, S. 1998, Characterization of actinomycetes isolated from fallen leaves. Actinomycetol. 12: 46-48
Mundt, J. O.; Hinckle, N. F. 1976, Bacteria within ovules and seeds. Appl. Environ. Microbiol 32: 694-698
Pereira, J. O, ; Azevedo, J.L.; Petrini, O. 1993, Endophytic fungi from stylosantes: a preliminary report. Mycologia 85: 362-364
Pereira, J.O.; Carneiro-Vieira, M.L.; Azevedo, J.L.1999, Endophytic fungi from Musa acuminata and their reintroduction in axenic plants. World J. Microbiol. Biotechnol 15: 47-51
Redlin, S. C.; Carris, L. M. 1996, Endophytic fungi in grasses and woody plants St. Paul, The American Phytopathological Society.
Sardi, P.; Saracchi, M.; Quaroni, B.; Borgonovi, G.E.; Merli, S. 1992, Isolation of endophytic Streptomyces strains from surface-sterilized roots. Appl. Environ. Microbiol 58: 2691-2693
Shirling, E. B.; Gottlieb, D. 1966, Methods of characterization of Streptomyces species. Int. J. Sys. Bacteriol 16: 313-349
Silva, A. C. 1997, Isolamento de fungos endofíticos de milho (Zea mays, L.) Piracicaba, Tese de Mestrado,Universidade de São Paulo, ESALQ.
Souza, A. 1996, Bactérias endofíticas de milho (Zea mays L.) e sua variabilidade genética analisada por RAPD Piracicaba, Tese de Mestrado, Universidade de São Paulo, ESALQ.
Stamford, T. L. M.; Coelho, L. C. B. B.; Araujo, J.M. 1997, Actinomicetos endofíticos isolados de tubérculos de jacatupé (Pachyrhisus erosus L., Urban) produtores de enzimas amilolíticas. Braz. J. Genet 20: 200
Strobel, G. A.; Hess, W.M.; Ford, E.; Sidhu, R.S.W.; Yang, X. 1996, Taxol from fungal endophytes and the issue of biodiversity. J. Ind. Microbiol 17: 417-423
Strobel, G. A.; Long, D. M. 1998, Endophytic microbes embody pharmaceutical potential. Amer. Soc. Microbiol News. 64: 263-268
Williams, S. T.; Davies F. L. 1965, Use of antibiotics for selective isolation and enumeration of actinomycetes in soil. J. Gen. Microbiol 38: 251-261
Williams, S. T.; Goodfellow, M.; Alderson, G. 1989, Genus Streptomyces In: Bergey 's Manual of Systematic Bacteriology, (S.T. Williams; M. E. Sharpe; J. Holt, Edts.) Baltimore, Williams and Wilkins. 4: 2452-2468

^*

Author for correspondence

Publication Dates

Publication in this collection
12 Mar 2007
Date of issue
2000

History

Accepted
27 Dec 1999
Reviewed
15 Sept 1999
Received
17 Aug 1999

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Azevedo, J.L.1998, Microrganismos endofíticos. In : Ecologia Microbiana (I.S Meloj. L. Azevedo, Edts.) Jaguariuna, Editora Embrapa. 117-137

[2] Baldani, J.I.; Olivares, F.L.; Hemerly, A. S.; Reis Jr., F.B.; Oliveira, A. L. M.; Baldani, V.D. L.; Goi, S.R.; Reis V.M.; Dobereiner, J. 1997, Nitrogen-fixing endophytes: Recent advances in the association with graminaceous plants grown in the tropics. In : Biological Nitrogen Fixation for the 21^st Century (C. Elmerich; A. Konderosi; W.E. Newton, Edts.) Dordrecht, Kluvier, Academic Publishers. 203-296

[3] Benson D. R.; Silvester, W.B. 1993, Biology of Frankia strains, actinomycete symbionts ofactinorhizal plants.Microbiol. Rev. 28: 293-319

[4] Bradbury, J.F.1986, Guide to plant pathogenic bacteria London, CAB International Mycological Institute Publ.

[5] Fisher, P.J.; Petrini, O.; Lappin-Scott, H. M.1992, The distribution of some fungal and bacteria endophytes in maize (Zea mays L.) New Phytol 122: 299-305

[6] Goodfellow M.; Minnikin, D. E. Chemical Methods in Bacteria Systematics. London, Academic Press, 1985

[7] Gupta, R.; Saxena, R.K.; Chaturverde, P.; Virdi, J. S. Chitinase production by Streptomyces viridificans: its potencial in fungi cell wall lysis. J. Appl. Bacteriol, 1995. 78: 378-383

[8] Hallmann, J.; Quadt-Hallmann, A. ; Mahaffe, W.F.; Kloepper, J.W. 1997, Bacterial endophytes in agricultural crops. Can. J. Microbiol 43: 895-914

[9] Holt, J.G.; Krieg, N.R.; Sneath, P.H. A.; Stanley,J.T.;Williams, S.T. Bergeys Manual of Determinative Bacteriology (9^th Ed.) Baltimore, Williams & Wilkins,1994

[10] Ichikawa. T.; Ishikura, T. Ozaki, A.1971, Improvement of kasugomycin-producing strain by the agar piece method and the prototroph method. Folia Microbiol 16: 218-224

[11] Isaac, S.Fungal-plant interactions London, Chapman & Hall, 1992.

[12] Katznelson, H.; Cole S.E.Production of giberellin-like substances by bacteria and actinomycetes. Can. J. Microbiol 1965. 11: 733-741

[13] Kolomiets, E.I.; Zdor, N. A. Romanovskaya, T.V.; Lobanok, A. G. Certain aspects of the phytoprotective activity of Streptomyces flavescens an antagonist of phytopathogenic fungi. Appl. Biochem. Microbiol. 1997 33: 451-454

[14] Kuster, E.; Williams, S.T. , 1964. Selection of media for isolation of streptomycetes. Nature 202: 928-929

[15] Lechevalier M.P.; Lechevalier H.1970, Chemical composition as a criterion in the classification of aerobic actinomycetes. Int. J. Syst. Bacteriol 20: 435-443

[16] Leslie, J.F.; Pearson, C. A .S.; Nelson, P. E.; Tousson, T. A. 1990, Fusarium spp from corn,sorghum and soybean fields in the central and eastern United States. Phytopathology 80: 343-350

[17] Maitan, V. R.1998, Isolamento e caracterização de actinomicetos endofíticos isolados de Solanum lycocarpum (lobeira) Goiânia, Tese de Mestrado, Universidade Federal de Goiás.

[18] Matsukuma, S.; Okuda, T.; Watanabe, S. Isolation of actinomycetes from pine litter layers. Actinomycetol, 1995. 8: 57-65

[19] Matsumoto, A.;Takahashi, Y.; Mochizuki, M; Seino, A.; Iwai, Y.; Omura, S. 1998, Characterization of actinomycetes isolated from fallen leaves. Actinomycetol. 12: 46-48

[20] Mundt, J. O.; Hinckle, N. F. 1976, Bacteria within ovules and seeds. Appl. Environ. Microbiol 32: 694-698

[21] Pereira, J. O, ; Azevedo, J.L.; Petrini, O. 1993, Endophytic fungi from stylosantes: a preliminary report. Mycologia 85: 362-364

[22] Pereira, J.O.; Carneiro-Vieira, M.L.; Azevedo, J.L.1999, Endophytic fungi from Musa acuminata and their reintroduction in axenic plants. World J. Microbiol. Biotechnol 15: 47-51

[23] Redlin, S. C.; Carris, L. M. 1996, Endophytic fungi in grasses and woody plants St. Paul, The American Phytopathological Society.

[24] Sardi, P.; Saracchi, M.; Quaroni, B.; Borgonovi, G.E.; Merli, S. 1992, Isolation of endophytic Streptomyces strains from surface-sterilized roots. Appl. Environ. Microbiol 58: 2691-2693

[25] Shirling, E. B.; Gottlieb, D. 1966, Methods of characterization of Streptomyces species. Int. J. Sys. Bacteriol 16: 313-349

[26] Silva, A. C. 1997, Isolamento de fungos endofíticos de milho (Zea mays, L.) Piracicaba, Tese de Mestrado,Universidade de São Paulo, ESALQ.

[27] Souza, A. 1996, Bactérias endofíticas de milho (Zea mays L.) e sua variabilidade genética analisada por RAPD Piracicaba, Tese de Mestrado, Universidade de São Paulo, ESALQ.

[28] Stamford, T. L. M.; Coelho, L. C. B. B.; Araujo, J.M. 1997, Actinomicetos endofíticos isolados de tubérculos de jacatupé (Pachyrhisus erosus L., Urban) produtores de enzimas amilolíticas. Braz. J. Genet 20: 200

[29] Strobel, G. A.; Hess, W.M.; Ford, E.; Sidhu, R.S.W.; Yang, X. 1996, Taxol from fungal endophytes and the issue of biodiversity. J. Ind. Microbiol 17: 417-423

[30] Strobel, G. A.; Long, D. M. 1998, Endophytic microbes embody pharmaceutical potential. Amer. Soc. Microbiol News. 64: 263-268

[31] Williams, S. T.; Davies F. L. 1965, Use of antibiotics for selective isolation and enumeration of actinomycetes in soil. J. Gen. Microbiol 38: 251-261

[32] Williams, S. T.; Goodfellow, M.; Alderson, G. 1989, Genus Streptomyces In: Bergey 's Manual of Systematic Bacteriology, (S.T. Williams; M. E. Sharpe; J. Holt, Edts.) Baltimore, Williams and Wilkins. 4: 2452-2468

Brasil

Brasil

Isolation of endophytic actinomycetes from roots and leaves of maize (Zea mays L.)

Abstracts

Publication Dates

History