Bacterial community associated to the pine wilt disease insect vectors Monochamus galloprovincialis and Monochamus alternatus

Alves, Marta; Pereira, Anabela; Matos, Pedro; Henriques, Joana; Vicente, Cláudia S. L.; Aikawa, Takuya; Hasegawa, Koichi; Nascimento, Francisco X.; Mota, Manuel; Correia, António; Henriques, Isabel

doi:10.1038/srep23908

Cited by 29 publications

(34 citation statements)

References 52 publications

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“…Larval development occurs entirely within the host, requires at least several months, and can kill trees ( Allison et al 2004 ). Bacterial communities associated with subcortically feeding beetles are known to play important roles in facilitating larvae in surviving and developing within their host plants ( Douglas 2009 ; Scully et al 2013 , 2014 ; Alves et al 2016 ). Bacterial communities are reported to contribute to their host beetles’ reproductive success, community interactions and niche diversification ( Cardoza et al 2006 , Scott et al 2008 , Douglas 2009 , Morales-Jiménez et al 2013 ).…”

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confidence: 99%

Bacterial Communities Associated With the Pine Wilt Disease Vector Monochamus alternatus (Coleoptera: Cerambycidae) During Different Larval Instars

Raffa

et al. 2017

Journal of Insect Science

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We investigated the influence of larval instar on the structure of the gut bacterial community in the Japanese pine sawyer, Monochamus alternatus (Hope; Coleoptera: Cerambycidae). The diversity of the gut bacterial community in early, phloem-feeding larvae is significantly higher than in later, wood-feeding larvae. Many of these associates were assigned into a few taxonomic groups, of which Enterobacteriaceae was the most abundant order. The predominant bacterial genus varied during the five instars of larval development. Erwinia was the most abundant genus in the first and fifth instars, Enterobacter was predominant in the third and fourth instars, and the predominant genus in the second instars was in the Enterobacteriaceae (genus unclassified). Actinobacteria were reported in association with M. alternatus for the first time in this study. Cellulomonadaceae (Actinobacteria) was the second most abundant family in the first instar larvae (10.6%). These data contribute to our understanding of the relationships among gut bacteria and M. alternatus, and could aid the development of new pest control strategies.

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Bacterial Communities Associated With the Pine Wilt Disease Vector Monochamus alternatus (Coleoptera: Cerambycidae) During Different Larval Instars

Raffa

et al. 2017

Journal of Insect Science

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“…Monochamus alternatus (Cerambycidae: Coleoptera) is a species of sapro-xylophagous sawyer beetles (Vicente et al, 2012) that cause significant losses to pine trees (Alves et al, 2016). Moreover, it serves as a main vector of Bur†Contributed equally to this work *Corresponding authors (Lilin Zhao, email: zhaoll@ioz.ac.cn; Jianghua Sun, email: sunjh@ioz.ac.cn) saphelenchus xylophilus, a causal organism of pine wilt disease (PWD), for its tree-to-tree dispersal (Mamiya and Enda, 1972).…”

Section: Introductionmentioning

confidence: 99%

Differential immune responses of Monochamus alternatus against symbiotic and entomopathogenic fungi

Zhang

Meng

Ning

et al. 2017

Sci. China Life Sci.

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Monochamus alternatus, the main vector beetles of invasive pinewood nematode, has established a symbiotic relationship with a native ectotrophic fungal symbiont, Sporothrix sp. 1, in China. The immune response of M. alternatus to S. sp. 1 in the coexistence of beetles and fungi is, however, unknown. Here, we report that immune responses of M. alternatus pupae to infection caused by ectotrophic symbiotic fungus S. sp. 1 and entomopathogenic fungus Beauveria bassiana differ significantly. The S. sp. 1 did not kill the beetles while B. bassiana killed all upon injection. The transcriptome results showed that the numbers of differentially expressed genes in M. alternatus infected with S. sp. 1 were 2-fold less than those infected with B. bassiana at 48 hours post infection. It was noticed that Toll and IMD pathways played a leading role in the beetle's immune system when infected by symbiotic fungus, but upon infection by entomopathogenic fungus, only the Toll pathway gets triggered actively. Furthermore, the beetles could tolerate the infection of symbiotic fungi by retracing their Toll and IMD pathways at 48 h. This study provided a comprehensive sequence resource of M. alternatus transcriptome for further study of the immune interactions between host and associated fungi.Monochamus alternatus, symbiotic fungus, Beauveria bassiana, RNA-seq, immune signaling pathway Citation:Zhang, W., Meng, J., Ning, J., Qin, P., Zhou, J., Zou, Z., Wang, Y., Jiang, H., Ahmad, F., Zhao, L., and Sun, J. (2017). Differential immune responses of Monochamus alternatus against symbiotic and entomopathogenic fungi. Sci China Life Sci 60, 902-910.

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“…Most of the rare OTUs are from Proteobacteria (44%; 514 out of 1163), followed by OTUs from Firmicutes (26%; 304 out of 1163), Actinobacteria (18.5%; 215 out of 1163), Chloroflexi (3.4%; 39 out of 1163) and Bacteroidetes (2.9%; 34 out of 1163). Other rare, low abundance OTUs are assigned to Acidobacteria, Verrucomicrobia, Plantomycetes, Mollicutes and several Archeal phyla (Funaro et al 2011, Abdul Rahman et al 2015, Alves et al 2016). There was moderate statistical support for differences in the α-diversity (number and evenness) of OTUs in beetles collected in the different geographic locations (Kruskal-Wallis χ 2 =11.9, df = 6, P = 0.06), but there is no clear geographic factor underlying these differences (Figure 2).…”

Section: Resultsmentioning

confidence: 99%

Bacterial communities of herbivores and pollinators that have co-evolved Cucurbita spp

Shapiro

Youngblom

Scully

et al. 2019

Preprint

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Insects, like all animals, are exposed to diverse environmental microbes throughout their life cycle. Yet, we know little about variation in the microbial communities associated with the majority of wild, unmanaged insect species. Here, we use a 16S rRNA gene metabarcoding approach to characterize temporal and geographic variation in the gut bacterial communities of herbivores (Acalymma vittatum and A. trivittatum) and pollinators (Eucera (Peponapis) pruinosa) that have co-evolved with the plant genus Cucurbita (pumpkin, squash, zucchini and gourds). Overall, we find high variability in the composition of bacterial communities in squash bees and beetles collected from different geographic locations and different time points throughout a growing season. Still, many of the most common OTUs are shared in E. (P.) pruinosa, A. vittatum and A. trivittatum. This suggests these insects may be exposed to similar environmental microbial sources while foraging on the same genus of host plants, and that similar microbial taxa may aid in digestion of Cucurbita plant material. The striped cucumber beetle A. vittatum can also transmit Erwinia tracheiphila, the causal agent of bacterial wilt of cucurbits. We find that few field-collected A. vittatum individuals have detectable E. tracheiphila, and when this plant pathogen is detected, it comprises less than 1% of the gut bacterial community. Together, these results are consistent with previous studies showing that plant feeding insects have highly variable gut bacterial communities, and provides a first step towards understanding the spatiotemporal variation in the microbial communities associated with herbivores and pollinators that depend on Cucurbita host plants.

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Bacterial community associated to the pine wilt disease insect vectors Monochamus galloprovincialis and Monochamus alternatus

Cited by 29 publications

References 52 publications

Bacterial Communities Associated With the Pine Wilt Disease Vector Monochamus alternatus (Coleoptera: Cerambycidae) During Different Larval Instars

Bacterial Communities Associated With the Pine Wilt Disease Vector Monochamus alternatus (Coleoptera: Cerambycidae) During Different Larval Instars

Differential immune responses of Monochamus alternatus against symbiotic and entomopathogenic fungi

Bacterial communities of herbivores and pollinators that have co-evolved Cucurbita spp

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