Pfcyp51 exclusively determines reduced sensitivity to 14α-demethylase inhibitor fungicides in the banana black Sigatoka pathogen Pseudocercospora fijiensis
The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening occupational health and the environment. The 14α-Demethylase Inhibitors (DMIs) are important disease control fungicides, but they lose sensitivity...
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| Published in | PloS one Vol. 14; no. 10; p. e0223858 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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United States
Public Library of Science
17.10.2019
Public Library of Science (PLoS) |
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| Abstract | The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening occupational health and the environment. The 14α-Demethylase Inhibitors (DMIs) are important disease control fungicides, but they lose sensitivity in a rather gradual fashion, suggesting an underlying polygenic genetic mechanism. In spite of this, evidence found thus far suggests that P. fijiensis cyp51 gene mutations are the main responsible factor for sensitivity loss in the field. To better understand the mechanisms involved in DMI resistance, in this study we constructed a genetic map using DArTseq markers on two F1 populations generated by crossing two different DMI resistant strains with a sensitive strain. Analysis of the inheritance of DMI resistance in the F1 populations revealed two major and discrete DMI-sensitivity groups. This is an indicative of a single major responsible gene. Using the DMI-sensitivity scorings of both F1 populations and the generation of genetic linkage maps, the sensitivity causal factor was located in a single genetic region. Full agreement was found for genetic markers in either population, underlining the robustness of the approach. The two maps indicated a similar genetic region where the Pfcyp51 gene is found. Sequence analyses of the Pfcyp51 gene of the F1 populations also revealed a matching bimodal distribution with the DMI resistant. Amino acid substitutions in P. fijiensis CYP51 enzyme of the resistant progeny were previously correlated with the loss of DMI sensitivity. In addition, the resistant progeny inherited a Pfcyp51 gene promoter insertion, composed of a repeat element with a palindromic core, also previously correlated with increased gene expression. This genetic approach confirms that Pfcyp51 is the single explanatory gene for reduced sensitivity to DMI fungicides in the analysed P. fijiensis strains. Our study is the first genetic analysis to map the underlying genetic factors for reduced DMI efficacy. |
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| AbstractList | The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening occupational health and the environment. The 14α-Demethylase Inhibitors (DMIs) are important disease control fungicides, but they lose sensitivity in a rather gradual fashion, suggesting an underlying polygenic genetic mechanism. In spite of this, evidence found thus far suggests that P. fijiensis cyp51 gene mutations are the main responsible factor for sensitivity loss in the field. To better understand the mechanisms involved in DMI resistance, in this study we constructed a genetic map using DArTseq markers on two F1 populations generated by crossing two different DMI resistant strains with a sensitive strain. Analysis of the inheritance of DMI resistance in the F1 populations revealed two major and discrete DMI-sensitivity groups. This is an indicative of a single major responsible gene. Using the DMI-sensitivity scorings of both F1 populations and the generation of genetic linkage maps, the sensitivity causal factor was located in a single genetic region. Full agreement was found for genetic markers in either population, underlining the robustness of the approach. The two maps indicated a similar genetic region where the Pfcyp51 gene is found. Sequence analyses of the Pfcyp51 gene of the F1 populations also revealed a matching bimodal distribution with the DMI resistant. Amino acid substitutions in P. fijiensis CYP51 enzyme of the resistant progeny were previously correlated with the loss of DMI sensitivity. In addition, the resistant progeny inherited a Pfcyp51 gene promoter insertion, composed of a repeat element with a palindromic core, also previously correlated with increased gene expression. This genetic approach confirms that Pfcyp51 is the single explanatory gene for reduced sensitivity to DMI fungicides in the analysed P. fijiensis strains. Our study is the first genetic analysis to map the underlying genetic factors for reduced DMI efficacy. The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening occupational health and the environment. The 14α-Demethylase Inhibitors (DMIs) are important disease control fungicides, but they lose sensitivity in a rather gradual fashion, suggesting an underlying polygenic genetic mechanism. In spite of this, evidence found thus far suggests that P . fijiensis cyp51 gene mutations are the main responsible factor for sensitivity loss in the field. To better understand the mechanisms involved in DMI resistance, in this study we constructed a genetic map using DArTseq markers on two F1 populations generated by crossing two different DMI resistant strains with a sensitive strain. Analysis of the inheritance of DMI resistance in the F 1 populations revealed two major and discrete DMI-sensitivity groups. This is an indicative of a single major responsible gene. Using the DMI-sensitivity scorings of both F1 populations and the generation of genetic linkage maps, the sensitivity causal factor was located in a single genetic region. Full agreement was found for genetic markers in either population, underlining the robustness of the approach. The two maps indicated a similar genetic region where the Pfcyp51 gene is found. Sequence analyses of the Pfcyp51 gene of the F 1 populations also revealed a matching bimodal distribution with the DMI resistant. Amino acid substitutions in P . fijiensis CYP51 enzyme of the resistant progeny were previously correlated with the loss of DMI sensitivity. In addition, the resistant progeny inherited a Pfcyp51 gene promoter insertion, composed of a repeat element with a palindromic core, also previously correlated with increased gene expression. This genetic approach confirms that Pfcyp51 is the single explanatory gene for reduced sensitivity to DMI fungicides in the analysed P . fijiensis strains. Our study is the first genetic analysis to map the underlying genetic factors for reduced DMI efficacy. The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening occupational health and the environment. The 14α-Demethylase Inhibitors (DMIs) are important disease control fungicides, but they lose sensitivity in a rather gradual fashion, suggesting an underlying polygenic genetic mechanism. In spite of this, evidence found thus far suggests that P. fijiensis cyp51 gene mutations are the main responsible factor for sensitivity loss in the field. To better understand the mechanisms involved in DMI resistance, in this study we constructed a genetic map using DArTseq markers on two F1 populations generated by crossing two different DMI resistant strains with a sensitive strain. Analysis of the inheritance of DMI resistance in the F1 populations revealed two major and discrete DMI-sensitivity groups. This is an indicative of a single major responsible gene. Using the DMI-sensitivity scorings of both F1 populations and the generation of genetic linkage maps, the sensitivity causal factor was located in a single genetic region. Full agreement was found for genetic markers in either population, underlining the robustness of the approach. The two maps indicated a similar genetic region where the Pfcyp51 gene is found. Sequence analyses of the Pfcyp51 gene of the F1 populations also revealed a matching bimodal distribution with the DMI resistant. Amino acid substitutions in P. fijiensis CYP51 enzyme of the resistant progeny were previously correlated with the loss of DMI sensitivity. In addition, the resistant progeny inherited a Pfcyp51 gene promoter insertion, composed of a repeat element with a palindromic core, also previously correlated with increased gene expression. This genetic approach confirms that Pfcyp51 is the single explanatory gene for reduced sensitivity to DMI fungicides in the analysed P. fijiensis strains. Our study is the first genetic analysis to map the underlying genetic factors for reduced DMI efficacy.The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening occupational health and the environment. The 14α-Demethylase Inhibitors (DMIs) are important disease control fungicides, but they lose sensitivity in a rather gradual fashion, suggesting an underlying polygenic genetic mechanism. In spite of this, evidence found thus far suggests that P. fijiensis cyp51 gene mutations are the main responsible factor for sensitivity loss in the field. To better understand the mechanisms involved in DMI resistance, in this study we constructed a genetic map using DArTseq markers on two F1 populations generated by crossing two different DMI resistant strains with a sensitive strain. Analysis of the inheritance of DMI resistance in the F1 populations revealed two major and discrete DMI-sensitivity groups. This is an indicative of a single major responsible gene. Using the DMI-sensitivity scorings of both F1 populations and the generation of genetic linkage maps, the sensitivity causal factor was located in a single genetic region. Full agreement was found for genetic markers in either population, underlining the robustness of the approach. The two maps indicated a similar genetic region where the Pfcyp51 gene is found. Sequence analyses of the Pfcyp51 gene of the F1 populations also revealed a matching bimodal distribution with the DMI resistant. Amino acid substitutions in P. fijiensis CYP51 enzyme of the resistant progeny were previously correlated with the loss of DMI sensitivity. In addition, the resistant progeny inherited a Pfcyp51 gene promoter insertion, composed of a repeat element with a palindromic core, also previously correlated with increased gene expression. This genetic approach confirms that Pfcyp51 is the single explanatory gene for reduced sensitivity to DMI fungicides in the analysed P. fijiensis strains. Our study is the first genetic analysis to map the underlying genetic factors for reduced DMI efficacy. |
| Author | Arango Isaza, Rafael E Kema, Gert H J Schouten, Henk J Chong, Pablo Vichou, Aikaterini-Eleni Meijer, Harold J G |
| AuthorAffiliation | 4 Unidad de biotecnología (UNALMED-CIB), Corporación para Investigaciones Biológicas, Medellín, Colombia 3 Escuela de Biociencias, Faculta de Ciencias, Universidad Nacional de Colombia -Sede Medellín (UNALMED), Medellín, Colombia 1 ESPOL Polythecnic University, Escuela Superior Politécnica del Litoral, ESPOL, Centro de Investigaciones Biotecnológicas del Ecuador, Laboratorio de Fitopatología, Guayaquil, Ecuador Korea University, REPUBLIC OF KOREA 2 Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands |
| AuthorAffiliation_xml | – name: Korea University, REPUBLIC OF KOREA – name: 3 Escuela de Biociencias, Faculta de Ciencias, Universidad Nacional de Colombia -Sede Medellín (UNALMED), Medellín, Colombia – name: 4 Unidad de biotecnología (UNALMED-CIB), Corporación para Investigaciones Biológicas, Medellín, Colombia – name: 1 ESPOL Polythecnic University, Escuela Superior Politécnica del Litoral, ESPOL, Centro de Investigaciones Biotecnológicas del Ecuador, Laboratorio de Fitopatología, Guayaquil, Ecuador – name: 2 Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands |
| Author_xml | – sequence: 1 givenname: Pablo surname: Chong fullname: Chong, Pablo organization: Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands – sequence: 2 givenname: Aikaterini-Eleni surname: Vichou fullname: Vichou, Aikaterini-Eleni organization: Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands – sequence: 3 givenname: Henk J surname: Schouten fullname: Schouten, Henk J organization: Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands – sequence: 4 givenname: Harold J G orcidid: 0000-0002-0883-219X surname: Meijer fullname: Meijer, Harold J G organization: Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands – sequence: 5 givenname: Rafael E orcidid: 0000-0002-7276-6035 surname: Arango Isaza fullname: Arango Isaza, Rafael E organization: Unidad de biotecnología (UNALMED-CIB), Corporación para Investigaciones Biológicas, Medellín, Colombia – sequence: 6 givenname: Gert H J surname: Kema fullname: Kema, Gert H J organization: Laboratory of Phytopathology, Wageningen University and Research, The Netherlands, Wageningen, the Netherlands |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31622393$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1093_g3journal_jkad262 crossref_primary_10_1002_ps_6372 crossref_primary_10_1002_ps_7726 crossref_primary_10_1007_s00284_024_03707_8 crossref_primary_10_47280_RevFacAgron_LUZ__v39_n1_09 crossref_primary_10_1111_jph_13021 |
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| Copyright | 2019 Chong et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2019 Chong et al 2019 Chong et al |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Current address: Laboratory of Mycology, Department of Phytopathology, Benaki Phytopathological Institute, Kifisia, Athens, Greece Competing Interests: The authors have declared that no competing interests exist. |
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| Snippet | The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening... The haploid fungus Pseudocercospora fijiensis causes black Sigatoka in banana and is chiefly controlled by extensive fungicide applications, threatening... |
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| SubjectTerms | 14-alpha Demethylase Inhibitors - metabolism 14-alpha Demethylase Inhibitors - pharmacology Acid resistance Amino acids Ascomycota - drug effects Ascomycota - genetics Ascomycota - isolation & purification Biology and Life Sciences Black Sigatoka CYP51 gene Disease control Drug Resistance, Fungal - genetics Fungal Proteins - antagonists & inhibitors Fungal Proteins - genetics Fungal Proteins - metabolism Fungi Fungicides Fungicides, Industrial - metabolism Fungicides, Industrial - pharmacology Gene expression Gene mapping Genes Genetic analysis Genetic crosses Genetic factors Genetic Linkage Genetic markers Genomes Health risks Insertion Laboratories Markers Musa - metabolism Musa - microbiology Mutation Occupational health Pesticides Plant Diseases - microbiology Plant Leaves - metabolism Plant Leaves - microbiology Plant pathology Polygenic inheritance Population genetics Populations Progeny Promoter Regions, Genetic Pseudocercospora fijiensis Quantitative genetics Research and Analysis Methods Sensitivity analysis Sterol 14-Demethylase - chemistry Sterol 14-Demethylase - genetics Sterol 14-Demethylase - metabolism Sterols Strain analysis Studies |
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| Title | Pfcyp51 exclusively determines reduced sensitivity to 14α-demethylase inhibitor fungicides in the banana black Sigatoka pathogen Pseudocercospora fijiensis |
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