Two Sibling Species of the Botrytis cinerea Complex, transposa and vacuma, Are Found in Sympatry on Numerous Host Plants

Giraud, Tatiana; Fortini, Dominique; Levis, Caroline; Lamarque, C.; Leroux, Pierre; LoBuglio, Katherine F.; Brygoo, Yves

doi:10.1094/phyto.1999.89.10.967

Cited by 133 publications

(144 citation statements)

References 18 publications

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“…1 and 2). In combination with previous genetic studies, this suggests that B. cinerea is not reproducing in a clonal manner and, instead, is allowing for extensive recombination from either meiotic or mitotic processes to generate a large pool of diversity (Amselem et al 2011;Fournier and Giraud 2008;Fournier et al 2002;Giraud et al 1997Giraud et al , 1999Ma and Michailides 2005;Munoz et al 2002;Rowe and Kliebenstein 2007;Staats and van Kan 2012). This genetic diversity and its phenotypic consequences among the isolates could be what allows B. cinerea to infect such a large number of potential plant hosts.…”

Section: Discussionmentioning

confidence: 79%

“…B. cinerea is a necrotrophic fungal plant pathogen with an extremely broad host range and is responsible for postharvest crop loss across the globe (Williamson et al 2007). Further, B. cinerea is known to have a large amount of standing genetic variation (Aguileta et al 2012;Alfonso et al 2000;Atwell et al 2015;Baraldi et al 2002;Fournier and Giraud 2008;Fournier et al 2002;Giraud et al 1997Giraud et al , 1999Ma and Michailides 2005;Munoz et al 2002;Rowe and Kliebenstein 2007;Staats and van Kan 2012). Several studies have shown that this genetic diversity within B. cinerea not only contributes to differential virulence in planta (Calpas et al 2006;Denby et al 2004;Rowe and Kliebenstein 2008;Schumacher et al 2012) but can also contribute to the development of fungicide resistant genotypes (Kretschmer et al 2009).…”

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confidence: 99%

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Expansive Phenotypic Landscape of Botrytis cinerea Shows Differential Contribution of Genetic Diversity and Plasticity

Corwin

Subedy

Eshbaugh

et al. 2016

MPMI

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Section: Discussionmentioning

confidence: 79%

mentioning

confidence: 99%

Expansive Phenotypic Landscape of Botrytis cinerea Shows Differential Contribution of Genetic Diversity and Plasticity

Corwin

Subedy

Eshbaugh

et al. 2016

MPMI

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“…Initial molecular investigation of French and Chilean populations of B. cinerea had shown that the species is composed of two sympatric species, transposa and vacuma, characterized by the presence of two transposable elements, Boty and Flipper, or by absence of both of them (Giraud et al, 1997(Giraud et al, , 1999Muñoz et al, 2002). Afterwards, boty (containing only Boty) (Giraud et al, 1999;Muñoz et al, 2002;Vaczy, 2009;Fekete et al, 2012) and flipper (containing only Flipper) (Albertini et al, 2002;Beever & Weeds, 2004;Isenegger et al, 2008;Vaczy, 2009;Fekete et al, 2012) isolates were found, suggesting a more complex population structure of B. cinerea than it was previously recognized. Additional molecular studies of different nuclear genes have shown that B. cinerea population is grouped in two genetic entities -Group I and Group II.…”

Section: Introductionmentioning

confidence: 99%

Botrytis cinerea in raspberry in Serbia I: Morphological and molecular characterization

Tanović

Hrustić

Mihajlović

et al. 2014

Pesticidi i fitomedicina

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SuMMaryMorphological and molecular characterisation of 130 isolates of Botrytis cinerea, derived from raspberry fruit originating from six commercial fields in a raspberry growing region of Serbia (locations: Požega, Prilike, Arilje, Ivanjica, Šabac and Valjevo) was performed. The results showed that all isolates formed white, uniform, aerial mycelia with entire margin on PDA medium. First morphological differences among the isolates appeared after six days of incubation. Three-week old isolates were grouped into eight distinct morphological types -four mycelial and four sclerotial. Mostly, they were of sclerotial type (81.5%) and the most frequently found was an S3 type, which formed large irregularly placed sclerotia. This type was dominant in five of six investigated locations and represented 45-65% of the isolates. The least frequent was the mycelial type M3 (0.7% of the isolates) characterized by mycelial masses.The presence of Boty and/or Flipper transposons was detected in isolates originating from all investigated locations. It was discovered that the B. cinerea population in raspberry in Serbia, besides the well-described genetically isolated sympatric species transposa (43.1%) and vacuma (10.8%), contains also another two, boty (44.6%) and flipper (1.5%) species with only one transposon (either Boty or Flipper) in the genome. In addition, it was revealed that all isolates from raspberry collected in Serbia, transposa, vacuma, boty or flipper, are sensitive or weakly resistant to fenhexamid and therefore belong to the B. cinerea genetical Group II.

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“…Based on the presence or absence of the transposons Boty and Flipper in the genome, two sub-populations, transposa and vacuma, have been reported in B. cinerea (Giraud et al, 1997(Giraud et al, , 1999Levis et al, 1997). The transposable elements Boty and Flipper were described for the first time by Diolez et al (1995) and Levis et al (1997), respectively.…”

Section: Survival Inoculum Sources and Dispersalmentioning

confidence: 99%

“…Transposa isolates carry Boty and Flipper, whereas both of these transposable elements are absent in vacuma isolates (Giraud et al, 1997). Isolates carrying either Boty or Flipper in the B. cinerea genome have also been described (De Miccolis Angelini et al, 2003;Giraud et al, 1999;Muñoz, et al, 2002). In addition, the presence of Boty and Flipper has been found in Chilean populations of B. cinerea that affect table grapes, and transposa is the most common isolate (Esterio et al, 2011).…”

Section: Survival Inoculum Sources and Dispersalmentioning

confidence: 99%

Gray mold caused by Botrytis cinerea limits grape production in Chile

2015

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by Botrytis cinerea is a major disease of grapes (Vitis vinifera) that substantially reduces the yield and quality of grape production in temperate and humid regions of the world. B. cinerea is a necrotrophic fungus that attacks the non-lignified aerial organs of grapes; in particular, berries are highly susceptible during ripening. The polycyclic nature and exponential progress exhibited by GM at the beginning of the its epidemic, as well as the abundant inoculum production, the high dissemination efficiency, the wide host range and the high genetic variability of B. cinerea, explain the difficulties encountered in attempting to control GM. At present, integrated disease management, including cultural and chemical control, is the main control strategy. These control measures can be used to reduce the initial inoculum or to lower the disease infection rate. However, control measures that reduce the infection rate are the most effective means of controlling GM. Important progress toward understanding the complexity of the biology and epidemiology of this pathogen has occurred in recent decades. This has allowed the improvement and development of more effective and sustainable control strategies against B. cinerea. This review article provides a recent update regarding grape GM, with special emphasis on Chilean production conditions.

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Two Sibling Species of the Botrytis cinerea Complex, transposa and vacuma, Are Found in Sympatry on Numerous Host Plants

Cited by 133 publications

References 18 publications

Expansive Phenotypic Landscape of Botrytis cinerea Shows Differential Contribution of Genetic Diversity and Plasticity

Expansive Phenotypic Landscape of Botrytis cinerea Shows Differential Contribution of Genetic Diversity and Plasticity

Botrytis cinerea in raspberry in Serbia I: Morphological and molecular characterization

Gray mold caused by Botrytis cinerea limits grape production in Chile

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