Variations in the sensitivity of different primers for detecting Wolbachia in Anastrepha (diptera: tephritidae)

Marcon, Helena Sanches; Coscrato, Virgínia E.; Selivon, Denise; Perondini, André Luiz Paranhos; Marino, Celso Luís

doi:10.1590/s1517-83822011000200046

Cited by 22 publications

(16 citation statements)

References 26 publications

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“…Such patterns could be explained by cytoplasmic incompatibility driven by the presence/absence of different strains of Wolbachia . In the fraterculus species group, A. ludens does not carry the bacterial symbiont (Martinez et al ., ), A. suspensa (Jeyaprakash & Hoy, ) and A. obliqua (Coscrato et al ., ) do, whereas cryptic species of A. fraterculus can display single and double strain infections (Selivon et al ., ; Cáceres et al ., ; Coscrato et al ., ; Marcon et al ., ). Novel strategies for area‐wide pest management take advantage of Wolbachia induction of cytoplasmic incompatibility for the development of the incompatible insect technique (IIT) (Sadiraki & Bourtzis, ).…”

Section: Discussionmentioning

confidence: 99%

Experimental hybridization and reproductive isolation between two sympatric species of tephritid fruit flies in the Anastrepha fraterculus species group

et al. 2017

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Among tephritid fruit flies, hybridization has been found to produce local adaptation and speciation, and in the case of pest species, induce behavioral and ecological alterations that can adversely impact efficient pest management. The fraterculus species group within Anastrepha (Diptera: Tephritidae), is a rapidly radiating aggregate, which includes cryptic species complexes, numerous sister species, and several pest species. Molecular studies have highlighted the possibility of introgression between A. fraterculus and A. obliqua. Reproductive isolation has been studied among morphotypes of the A. fraterculus species complex as a tool for species delimitation. Here we examined the existence and strength of prezygotic and postzygotic isolation between sympatric populations of two closely related species within the highly derived fraterculus group (A. fraterculus and A. obliqua), coexisting in nature. Although adults of both species showed a strong tendency for assortative mating, a small proportion of hybrid pairings in both directions were observed. We also observed asymmetric postzygotic isolation, with one hybrid cross displaying a strong reduction in fecundity and F1 egg fertility. Survival was greater for the progeny of homotypic and hybrid crosses in the maternal host. There was a marked female biased sex ratio distortion for both F1 hybrid adults. Hybridization between A. fraterculus and A. obliqua in nature may be difficult but possible; these two species display stronger reproductive isolation than all pairs of species previously examined in the A. fraterculus species complex. Asymmetric postzygotic isolation is suggestive of Wolbachia mediated cytoplasmic incompatibilities that may be exploited in area-wide pest management.

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Section: Discussionmentioning

confidence: 99%

Experimental hybridization and reproductive isolation between two sympatric species of tephritid fruit flies in the Anastrepha fraterculus species group

et al. 2017

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“…Some morphotypes of the A. fraterculus species complex have been found to carry single and even double infections of Wolbachia (Selivon et al, 2002;C aceres et al, 2009;Coscrato et al, 2009;Marcon et al, 2011), although several morphotypes have not been examined yet. They further conclude that a nuclear-cytoplasmic interaction may be at play because the cross of identical genotypes (F1 9 F1) did not result in reduced egg hatch.…”

Section: Discussionmentioning

confidence: 99%

“…We detected very similar patterns between the Andean morphotype and the four other A. fraterculus morphotypes (Mexican, Brazil-1, Brazil-3, Peruvian). Some morphotypes of the A. fraterculus species complex have been found to carry single and even double infections of Wolbachia (Selivon et al, 2002;C aceres et al, 2009;Coscrato et al, 2009;Marcon et al, 2011), although several morphotypes have not been examined yet. Post-zygotic isolation patterns in our study could be suggestive of cytoplasmic incompatibility due to Wolbachia, a hypothesis that could be corroborated by screening flies from the morphotypes evaluated here.…”

Section: Smithmentioning

confidence: 99%

“…In general, heterotypic crosses in one male-female direction result in a reduction of F1 egg hatch, which vary in degree (Selivon et al, 1999(Selivon et al, , 2005C aceres et al, 2009;Rull et al, 2013) and some morphotypes have been found to carry Wolbachia infections (Selivon et al, 2002;C aceres et al, 2009;Coscrato et al, 2009;Marcon et al, 2011). In general, heterotypic crosses in one male-female direction result in a reduction of F1 egg hatch, which vary in degree (Selivon et al, 1999(Selivon et al, , 2005C aceres et al, 2009;Rull et al, 2013) and some morphotypes have been found to carry Wolbachia infections (Selivon et al, 2002;C aceres et al, 2009;Coscrato et al, 2009;Marcon et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

“…All of the examined morphotypes display some degree of post-zygotic (postcopulatory) isolation. In general, heterotypic crosses in one male-female direction result in a reduction of F1 egg hatch, which vary in degree (Selivon et al, 1999(Selivon et al, , 2005C aceres et al, 2009;Rull et al, 2013) and some morphotypes have been found to carry Wolbachia infections (Selivon et al, 2002;C aceres et al, 2009;Coscrato et al, 2009;Marcon et al, 2011). Also, hybrid crosses in one direction between adults of some morphotypes have been found to produce an F1 female-biased progeny (Selivon et al, 1999).…”

Section: Introductionmentioning

confidence: 99%

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Ongoing speciation within the Anastrepha fraterculus cryptic species complex: the case of the Andean morphotype

Devescovi

Abraham

Roriz

et al. 2014

Entomologia Exp Applicata

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The Anastrepha fraterculus (Wiedemann) (Diptera: Tephritidae) cryptic species complex is currently composed of seven taxonomically recognized morphotypes. Both, pre‐ and post‐zygotic isolation has been documented among four of these morphotypes, revealing that in fact they appear to be distinct biological entities. In order to progress in the full delimitation of species within the complex, we examined reproductive isolation between a Colombian population of the Andean morphotype and populations belonging to four other morphotypes spanning from Mexico to Argentina. Flies from the Andean morphotype exhibited strong pre‐zygotic mating isolation through temporal partitioning of mating activity. Post‐zygotic isolation was observed for crosses of males of all morphotypes and Andean morphotype females, yet most of the F1 hybrid ♂ × F1 hybrid ♀ self‐crosses showed normal levels of fertility, a finding suggesting a nuclear–cytoplasmic interaction according to previous studies. Overall, the Andean morphotype within the complex also appears to be a distinct biological entity. We discuss the implications of these findings for the understanding of speciation mechanisms in the Neotropical genus Anastrepha.

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Wolbachia strains in cryptic species of the Anastrepha fraterculus complex (Diptera, Tephritidae) along the Neotropical Region

Prezotto

Perondini

Hernández‐Ortiz

et al. 2017

Systematic and Applied Microbiology

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Infection by Wolbachia was described previously in eleven species of Anastrepha fruit flies some of which are important pests of fruticulture. One such species is the nominal Anastrepha fraterculus, the South American fruit fly, which actually comprises a complex of cryptic species. The suggestions of using Wolbachia for the control of these pest species, make imperative a more precise characterization of the existing strains of the bacteria. In this study, population samples of the A. fraterculus complex from Brazil, Argentina, Peru, Ecuador, Colombia, Guatemala and Mexico were analyzed for Wolbachia infection. The bacteria were genotyped by the MLST and WSP Typing methodologies. All samples were infected with Wolbachia of supergroup "A". For each of the five MLST genes, unique as well as already known alleles were detected. Nineteen sequence types for the concatenated sequences of the five MLST genes, and twenty wsp alleles were found in the samples. Host-specific haplotypes, shared strains among distinct hosts, and more than one strain of Wolbachia were found in some population samples. Recombination among the MLST genes and intragenic recombination between wsp haplotypes was rare. Phylogenetic analysis showed a great similarity among the Wolbachia strains in the A. fraterculus complex. However, some strains of Wolbachia are found throughout the Neotropical Region and there are specific strains in determined geographical areas.

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Variations in the sensitivity of different primers for detecting Wolbachia in Anastrepha (diptera: tephritidae)

Cited by 22 publications

References 26 publications

Experimental hybridization and reproductive isolation between two sympatric species of tephritid fruit flies in the Anastrepha fraterculus species group

Experimental hybridization and reproductive isolation between two sympatric species of tephritid fruit flies in the Anastrepha fraterculus species group

Ongoing speciation within the Anastrepha fraterculus cryptic species complex: the case of the Andean morphotype

Wolbachia strains in cryptic species of the Anastrepha fraterculus complex (Diptera, Tephritidae) along the Neotropical Region

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