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Título
A Major Effect Gene Controlling Development and Pathogenicity in Botrytis cinerea Identified Through Genetic Analysis of Natural Mycelial Non-pathogenic Isolates
Autor(es)
Palabras clave
gray mold
bulked segregant analysis
genetic complementation
DNA binding domain
acetyl transferase
Clasificación UNESCO
2414 Microbiología
Fecha de publicación
2021
Citación
Acosta Morel, W., Anta Fernández, F., Baroncelli, R., Becerra, S., Thon, M.R., Kan, J.A.L.V., Díaz Mínguez, J.M. and Pérez Benito, E. (2021). A Major Effect Gene Controlling Development and Pathogenicity in Botrytis cinerea Identified Through Genetic Analysis of Natural Mycelial Non-pathogenic Isolates. Frontiers in Plant Science, 12:663870. https://doi.org/10.3389/fpls.2021.663870
Resumen
[EN]Botrytis cinerea is a necrotrophic plant pathogenic fungus with a wide host range.
Its natural populations are phenotypically and genetically very diverse. A survey of
B. cinerea isolates causing gray mold in the vineyards of Castilla y León, Spain,
was carried out and as a result eight non-pathogenic natural variants were identified.
Phenotypically these isolates belong to two groups. The first group consists of seven
isolates displaying a characteristic mycelial morphotype, which do not sporulate and is
unable to produce sclerotia. The second group includes one isolate, which sporulates
profusely and does not produce sclerotia. All of them are unresponsive to light. Crosses
between a representative mycelial non-pathogenic isolate and a highly aggressive field
isolate revealed that the phenotypic differences regarding pathogenicity, sporulation
and production of sclerotia cosegregated in the progeny and are determined by a
single genetic locus. By applying a bulked segregant analysis strategy based on
the comparison of the two parental genomes the locus was mapped to a 110 kb
region in chromosome 4. Subcloning and transformation experiments revealed that
the polymorphism is an SNP affecting gene Bcin04g03490 in the reference genome
of B. cinerea. Genetic complementation analysis and sequencing of the Bcin04g03490
alleles demonstrated that the mutations in the mycelial isolates are allelic and informed
about the nature of the alterations causing the phenotypes observed. Integration of the
allele of the pathogenic isolate into the non-pathogenic isolate fully restored the ability to
infect, to sporulate and to produce sclerotia. Therefore, it is concluded that a major effect
gene controlling differentiation and developmental processes as well as pathogenicity
has been identified in B. cinerea. It encodes a protein with a GAL4-like Zn(II)2Cys6
binuclear cluster DNA binding domain and an acetyltransferase domain, suggesting
a role in regulation of gene expression through a mechanism involving acetylation of
specific substrates.
URI
DOI
10.3389/fpls.2021.663870
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