Histopatological View of Maize Kernels Infected by Fusarium spp.

Abstract. Widiastuti A, Karlina ML, Dhanti KR, Chinta YD, Joko T, Suryanti, Wibowo A. 2020. Morphological and molecular identification of Fusarium spp. isolated from maize kernels in Java and Lombok, Indonesia. Biodiversitas 21: 2741-2750. Fungal contamination of maize is a serious problem in Indonesia. Fusarium spp. infect maize in the field will be continuing to contaminate in the post-harvest period even though disease symptoms are not always emerged. Some Fusarium spp. produced mycotoxins which are harmful to human and animal health. Aims of this research were to reveal the presence of Fusarium spp. from both symptomatic and unsymptomatic maize, and to identify them based on morphological characteristics and molecular analysis. Samples of maize were collected from maize cultivation areas in East Java (EJ), Central Java (CJ), West Java (WJ), Yogyakarta Special Province (DIY), and Lombok, West Nusa Tenggara. Fusarium spp. were isolated in a single spore method and cultured in potato dextrose agar (PDA) medium for morphological identification of macro-and microconidia. Molecular identification was conducted by PCR assay using species-specific primers. Furthermore, unidentified species were analyzed by DNA sequence. This research found four species of mycotoxigenic Fusarium isolated from maize-based on molecular identification, which were Fusarium verticillioides (15 isolates), F. proliferatum (6 isolates), F. graminearum (1 isolate) and F. asiaticum (1 isolate). This research showed a novel report of F. asiaticum infection on maize kernel in Indonesia.

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Occurrence of Fusarium spp. from Slovakia Maize Kernels

Cereal Research Communications ◽

10.1007/bf03543796 ◽

1997 ◽

Vol 25 (3) ◽

pp. 617-617 ◽

Cited By ~ 1

Author(s):

Antónia Šrobárová

Keyword(s):

Fusarium Spp ◽

Maize Kernels

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Influence of nitrogen rates and Fusarium verticillioides infection on Fusarium spp. and fumonisin contamination of maize kernels

Crop Protection ◽

10.1016/j.cropro.2021.105601 ◽

2021 ◽

Vol 144 ◽

pp. 105601

Author(s):

Vesna Krnjaja ◽

Violeta Mandić ◽

Zorica Bijelić ◽

Slavica Stanković ◽

Ana Obradović ◽

...

Keyword(s):

Fusarium Verticillioides ◽

Fusarium Spp ◽

Nitrogen Rates ◽

Maize Kernels

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Cultivar-Dependent Expression of a Maize Lipoxygenase Responsive to Seed Infesting Fungi

Molecular Plant-Microbe Interactions ◽

10.1094/mpmi.2001.14.8.980 ◽

2001 ◽

Vol 14 (8) ◽

pp. 980-987 ◽

Cited By ~ 62

Author(s):

Richard A. Wilson ◽

Harold W. Gardner ◽

Nancy P. Keller

Keyword(s):

Fatty Acid ◽

Linoleic Acid ◽

Expressed Sequence Tags ◽

Fusarium Spp ◽

Product Specificity ◽

Fatty Acid Derivatives ◽

Growth Development ◽

Maize Kernels ◽

Derivatives Of ◽

Expressed Sequence

Maize kernels are highly susceptible to Aspergillus spp. infection and aflatoxin (AF) contamination. Fatty acid signaling molecules appear to mediate the plant-fungal interaction by affecting the growth, development, and AF production of the fungus. In particular, fatty acid derivatives of the plant lipoxygenase (LOX) pathway are implicated in the Aspergillus spp.-seed interaction. The 9(S)-hydroperoxide derivative of linoleic acid promotes transcription of AF genes, whereas the 13(S)-hydroperoxide derivative decreases AF gene expression and production; both are sporulation factors. Our goal was to identify LOX genes responsive to Aspergillus spp. colonization and determine their specificities, 9(S)- or 13(S)-. Screening maize LOX expressed sequence tags (ESTs) identified one clone, cssap 92, which is highly expressed in Aspergillus spp.-infected seed susceptible to AF contamination and repressed in lines with resistance to AF contamination. The accumulation of cssap 92 transcript was similar during Fusarium spp. infection. The cDNA clone has 94% identity to the previously described L2 LOX gene from maize. Product-specificity analysis of the CSSAP 92 protein shows that it preferentially adds oxygen to carbon 9 of linoleic acid. Because 9(S)-hydroperoxy linoleic acid has been implicated as an aflatoxin-signaling molecule, it is possible that cssap 92 could be used as a biomarker that is indicative of AF resistance in maize lines.

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Detection of Mycotoxin-Encoding Genes in Fusarium spp. Isolated from Maize Kernels in Indonesia

Proceeding of the 1st International Conference on Tropical Agriculture ◽

10.1007/978-3-319-60363-6_11 ◽

2017 ◽

pp. 117-123

Author(s):

Kurnia Ritma Dhanti ◽

Ani Widiastuti ◽

Tri Joko

Keyword(s):

Fusarium Spp ◽

Maize Kernels ◽

Encoding Genes

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Variability of pathogenicity of Fusarium spp. originating from maize and wheat grains

Pesticidi i fitomedicina ◽

10.2298/pif0904259t ◽

2009 ◽

Vol 24 (4) ◽

pp. 259-269

Author(s):

Sonja Tancic ◽

Slavica Stankovic ◽

Jelena Levic

Keyword(s):

Seed Germination ◽

Germination Percentage ◽

Maize Seed ◽

Fusarium Spp ◽

Similar Reduction ◽

Wheat Grains ◽

Genus Fusarium ◽

Intraspecies Variability ◽

Maize Kernels

Differences in the pathogenicity of 93 isolates of seven species belonging to the genus Fusarium (F. graminearum, F. verticillioides, F. proliferatum, F. subglutinans, F. sporotrichioides, F. semitectum and F. equiseti), originating from maize kernels (61) and wheat grains (32), were examined based on the germination percentage of inoculated seeds. The studied species demonstrated inter- and intraspecies variability regarding the effects on maize seed germination. On the average, the greatest germination reduction was found in seeds inoculated with the spore suspensions of F. sporotrichioides and F. graminearum. A similar reduction was detected in seeds inoculated with F. proliferatum and F. subglutinans. The effect of F. subglutinans on seed germination reduction was higher compared to the two latter species, while the effects of F. semitectum and F. equiseti were smallest. The majority of isolates were of moderate pathogenicity, while the lowest number of isolates was either very pathogenic (7) or apathogenic (10). Pathogenicity of the isolates originating from wheat grains was generally lower than the pathogenicity of isolates originating from maize kernels, with the exception of F. sporotrichioides.

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Influence of growing Bt maize on Fusarium infection and mycotoxins content – a review

Plant Protection Science ◽

10.17221/36/2012-pps ◽

2012 ◽

Vol 48 (Special Issue) ◽

pp. S18-S24 ◽

Cited By ~ 4

Author(s):

J. Nedělník ◽

H. Lindušková ◽

M. Kmoch

Keyword(s):

European Corn Borer ◽

Animal Feed ◽

Fusarium Species ◽

Economic Losses ◽

Insect Damage ◽

Fusarium Spp ◽

Bt Maize ◽

Corn Borer ◽

Mycotoxigenic Fungi ◽

Maize Kernels

The literature linking Bt maize versus non-Bt maize and the changes in the fungal microflora spectrum and in the mycotoxins content have been summarised. The European corn borer reportedly promotes the infection of maize by Fusarium spp. Stalk and ear rots caused by Fusarium spp. are often related to mycotoxin accumulation in maize kernels. As a result, food and animal feed from maize are more severely contaminated with Fusarium mycotoxins: e.g. fumonisins (FUM), deoxynivalenol (DON), and zearalenone (ZEA). Mycotoxins in field maize lead annually economic losses of hundreds of millions of dollars in all regions of the world. The insecticidal proteins in genetically modified hybrid Bt maize reduce insect damage caused by certain Lepidopteran larvae, which in turn can reduce the infection of the grain by the mycotoxigenic fungi. Where such insect damage is a major factor in mycotoxin contamination, Bt maize can lower mycotoxin levels in many cases. The protection of maize plants against insect damage (European corn borer) through the use of Bt technology seems to be one of the ways to reduce the contamination of maize by Fusarium species and mycotoxins.

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Pathogenicity of Fumonisin-producing and Nonproducing Strains of Aspergillus Species in Section Nigri to Maize Ears and Seedlings

Plant Disease ◽

10.1094/pdis-01-17-0103-re ◽

2018 ◽

Vol 102 (2) ◽

pp. 282-291 ◽

Cited By ~ 3

Author(s):

G. P. Munkvold ◽

L. Weieneth ◽

R. H. Proctor ◽

M. Busman ◽

M. Blandino ◽

...

Keyword(s):

Seed Germination ◽

Seedling Growth ◽

Field Studies ◽

The United States ◽

Aspergillus Species ◽

Ear Rot ◽

Maize Seed ◽

Fusarium Spp ◽

Maize Kernels ◽

Maize Ear Rot

Species of Aspergillus section Nigri are commonly associated with maize kernels, and some strains can produce fumonisin mycotoxins. However, there is little information about the extent to which these fungi contribute to fumonisin contamination in grain, the damage they cause to maize ears, or their effects on maize seed germination and seedling health. We compared fumonisin-producing and nonproducing strains of A. niger, A. welwitschiae, A. phoenicis, A. tubingensis, and A. carbonarius from the United States and Italy in laboratory and field studies to assess their ability to contribute to fumonisin contamination, to cause maize ear rot, and to affect seed germination and seedling growth. In laboratory experiments, some strains of each Aspergillus species reduced germination or seedling growth, but there was high variability among strains within species. There were no consistent differences between fumonisin-producing and nonproducing strains. In field studies in Iowa and Illinois, strains were variable in their ability to cause ear rot symptoms, but this was independent of the ability of the Aspergillus strains to produce fumonisins. Contamination of grain with fumonisins was not consistently increased by inoculation with Aspergillus strains compared with the control, and was much greater in F. verticillioides-inoculated treatments than in Aspergillus-inoculated treatments. However, the ratio of the FB analogs FB2 and FB1 was altered by inoculation with some Aspergillus strains, indicating that FB2 production by Aspergillus strains occurred in the field. These results demonstrate the pathogenic capabilities of strains of Aspergillus in section Nigri, but suggest that their effects on maize ears and seedlings are not related to their ability to produce fumonisins, and that fumonisin contamination of grain caused by Aspergillus spp. is not as significant as that caused by Fusarium spp.

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