Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease
© 2014 Elsevier GmbH. Cassava is a starchy root crop for food and industrial applications in many countries around the world. Among the factors that affect cassava production, diseases remain the major cause of yield loss. Cassava anthracnose disease is caused by the fungus Colletotrichum gloeospori...
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th-mahidol.352052018-11-23T16:46:08Z Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease Nattaya Pinweha Thipa Asvarak Unchera Viboonjun Jarunya Narangajavana Mahidol University Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology © 2014 Elsevier GmbH. Cassava is a starchy root crop for food and industrial applications in many countries around the world. Among the factors that affect cassava production, diseases remain the major cause of yield loss. Cassava anthracnose disease is caused by the fungus Colletotrichum gloeosporioides. Severe anthracnose attacks can cause tip die-backs and stem cankers, which can affect the availability of planting materials especially in large-scale production systems. Recent studies indicate that plants over- or under-express certain microRNAs (miRNAs) to cope with various stresses. Understanding how a disease-resistant plant protects itself from pathogens should help to uncover the role of miRNAs in the plant immune system. In this study, the disease severity assay revealed different response to C. gloeosporioides infection in two cassava cultivars. Quantitative RT-PCR analysis uncovered the differential expression of the two miRNAs and their target genes in the two cassava cultivars that were subjected to fungal infection. The more resistant cultivar revealed the up-regulation of miR160 and miR393, and consequently led to low transcript levels in their targets, ARF10 and TIR1, respectively. The more susceptible cultivar exhibited the opposite pattern. The cis-regulatory elements relevant to defense and stress responsiveness, fungal elicitor responsiveness and hormonal responses were the most prevalent present in the miRNAs gene promoter regions. The possible dual role of these specific miRNAs and their target genes associated with cassava responses to C. gloeosporioides is discussed. This is the first study to address the molecular events by which miRNAs which might play a role in fungal-infected cassava. A better understanding of the functions of miRNAs target genes should greatly increase our knowledge of the mechanism underlying susceptibility and lead to new strategies to enhance disease tolerance in this economically important crop. 2018-11-23T09:32:21Z 2018-11-23T09:32:21Z 2015-02-01 Article Journal of Plant Physiology. Vol.174, (2015), 26-35 10.1016/j.jplph.2014.09.006 01761617 2-s2.0-84910672790 https://repository.li.mahidol.ac.th/handle/123456789/35205 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84910672790&origin=inward |
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Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology Nattaya Pinweha Thipa Asvarak Unchera Viboonjun Jarunya Narangajavana Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease |
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© 2014 Elsevier GmbH. Cassava is a starchy root crop for food and industrial applications in many countries around the world. Among the factors that affect cassava production, diseases remain the major cause of yield loss. Cassava anthracnose disease is caused by the fungus Colletotrichum gloeosporioides. Severe anthracnose attacks can cause tip die-backs and stem cankers, which can affect the availability of planting materials especially in large-scale production systems. Recent studies indicate that plants over- or under-express certain microRNAs (miRNAs) to cope with various stresses. Understanding how a disease-resistant plant protects itself from pathogens should help to uncover the role of miRNAs in the plant immune system. In this study, the disease severity assay revealed different response to C. gloeosporioides infection in two cassava cultivars. Quantitative RT-PCR analysis uncovered the differential expression of the two miRNAs and their target genes in the two cassava cultivars that were subjected to fungal infection. The more resistant cultivar revealed the up-regulation of miR160 and miR393, and consequently led to low transcript levels in their targets, ARF10 and TIR1, respectively. The more susceptible cultivar exhibited the opposite pattern. The cis-regulatory elements relevant to defense and stress responsiveness, fungal elicitor responsiveness and hormonal responses were the most prevalent present in the miRNAs gene promoter regions. The possible dual role of these specific miRNAs and their target genes associated with cassava responses to C. gloeosporioides is discussed. This is the first study to address the molecular events by which miRNAs which might play a role in fungal-infected cassava. A better understanding of the functions of miRNAs target genes should greatly increase our knowledge of the mechanism underlying susceptibility and lead to new strategies to enhance disease tolerance in this economically important crop. |
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Mahidol University |
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Mahidol University Nattaya Pinweha Thipa Asvarak Unchera Viboonjun Jarunya Narangajavana |
| format |
Article |
| author |
Nattaya Pinweha Thipa Asvarak Unchera Viboonjun Jarunya Narangajavana |
| author_sort |
Nattaya Pinweha |
| title |
Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease |
| title_short |
Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease |
| title_full |
Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease |
| title_fullStr |
Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease |
| title_full_unstemmed |
Involvement of miR160/miR393 and their targets in cassava responses to anthracnose disease |
| title_sort |
involvement of mir160/mir393 and their targets in cassava responses to anthracnose disease |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/35205 |
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1763488177649090560 |