Distribution and phylogeny of Wolbachia strains in wild mosquito populations in Sri Lanka

Nugapola, N. W. Nalaka P.; Silva, W. A. Priyanka P. de; Karunaratne, S.H.P.P.

doi:10.1186/s13071-017-2174-9

Cited by 47 publications

(66 citation statements)

References 46 publications

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“…Interestingly in Sri Lanka, 3/3 (100%) of Ma. uniformis individuals amplified the wsp gene 52 but in our study all seven individuals failed to amplify wsp. Ma.…”

Section: Discussioncontrasting

confidence: 56%

Diverse novel residentWolbachiastrains in Culicine mosquitoes from Madagascar

Jeffries

Tantely

Raharimalala

et al. 2018

Preprint

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Wolbachia endosymbiotic bacteria are widespread throughout insect species and Wolbachia transinfected inAedes mosquito species has formed the basis for biocontrol programs as Wolbachia strains inhibit arboviral replication and can spread through populations. Resident strains in wild Culicine mosquito populations (the vectors of most arboviruses) requires further investigation given resident strains can also affect arboviral transmission. As Madagascar has a large diversity of both Culicine species and has had recent arboviral outbreaks, an entomology survey was undertaken, in five ecologically diverse sites, to determine the Wolbachia prevalence. We detected diverse novel resident Wolbachia strains within the Aedeomyia, Culex, Ficalbia, Mansonia and Uranotaenia genera. Wolbachia prevalence rates and strain characterisation through Sanger sequencing with multilocus sequence typing (MLST) and phylogenetic analysis revealed significant diversity and we detected co-infections with the environmentally acquired bacterial endosymbiont Asaia.Mosquitoes were screened for major arboviruses to investigate if any evidence could be provided for their potential role in transmission and we report the presence of Rift Valley fever virus in three Culex species:Culex tritaeniorhynchus, Culex antennatus and Culex decens. The implications of the presence of resident Wolbachia strains are discussed and how the discovery of novel strains can be utilized for applications in the development of biocontrol strategies.

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“…Interestingly in Sri Lanka, 3/3 (100%) of Ma. uniformis individuals amplified the wsp gene 52 but in our study all seven individuals failed to amplify wsp. Ma.…”

Section: Discussioncontrasting

confidence: 56%

Diverse novel residentWolbachiastrains in Culicine mosquitoes from Madagascar

Jeffries

Tantely

Raharimalala

et al. 2018

Preprint

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“…gambiae . Previous studies had reported no observed natural Wolbachia infection in this mosquito vector 26-31 ; however, the endosymbiont was successfully detected in An. gambiae from Burkina Faso, West Africa using an optimized wsp protocol 32,33 .…”

Section: Discussionmentioning

confidence: 80%

“…With the recognition of about 65% of known insects to be naturally infected with Wolbachia including those mosquito species from the genera of Aedes, Culex, Mansonia , major mosquito vectors of diseases such as Ae. aegypti and Anopheline mosquitoes were reported not to possess this endosymbiont 26-31 . It led to the belief that the presence of Wolbachia endosymbiont could be the reason why many of the mosquito species are considered to be weak vectors 23 .…”

Section: Introductionmentioning

confidence: 99%

Detection ofWolbachiain Field-Collected Mosquito Vector,Aedes aegypti

Carvajal

Hashimoto

Harnandika

et al. 2018

Preprint

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11It was the impression from past literature that Wolbachia is not naturally found in Ae. aegypti. 12 However, there are have been reports that recently reveals the presence of this endosymbiont 13 in this mosquito vector. With this, our study presents additional support of Wolbachia 14 infection in Ae. aegypti by screening field-collected adult mosquitoes using Wolbachia-15 specific 16S rDNA and its surface protein (wsp) makers under optimized PCR conditions. 16 From a total of 672 Ae. aegpyti adult mosquito samples collected in Metropolitan Manila, 17 Philippines, 113 (16.8%) and 89 (13.2%) individual mosquito samples were determined to 18 be Wolbachia infected using the wsp and 16S rDNA markers, respectively. The Ae. aegpyti 19 wsp sample sequences were similar or identical to five known Wolbachia strains belonging 20 to supergroups A or B while majority of 16S rDNA sample sequences were similar to strains 21 belonging to supergroup B. Overall, 80 (11.90%) individual mosquito samples revealed to 22 show positive amplifications in both markers and 69.0% showed congruence in supergroup 23 identification (supergroup B). Our findings illustrate that the infection status of Wolbachia 24 in Ae. aegypti may appear common than previously recognized. 26Mosquitoes are considered to be medically important insects because of their capacity 27 to carry notable human disease pathogens 1 . Among the known mosquito vectors, Aedes 28 aegypti is an efficient and dangerous mosquito vector because of its ability to carry 29 significant arboviral diseases such as Dengue, Chikungunya, Yellow Fever and Zika 2,3 . 30Despite the development of vaccines, these arboviral diseases are considered to be the leading 31 cause of global disease burden 4 and thus, targeting the mosquito vector is deemed to be the 32 primary control and prevention. A considerable number of vector control strategies had been 33 implemented, but the disease burden continues to increase. Novel and newer approaches are 34 being developed that shows promising outcomes in vector and disease control and one of 35 which is the utilization of the intracellular bacterial endosymbiont, Wolbachia 7-9 . 36Wolbachia is a naturally occurring endosymbiont which can be maternally inherited 37 and cause different reproductive alterations in its host to increase their transmission to the 38 next generation 10-12 . In insects, it is estimated to be naturally present in 60-65% of known 39 species 13 . As to date, there are 17 identified major clades or supergroups (A-Q) where a 40 majority are known to infect arthropods such as insects, arachnids, and crustaceans 14 . The 41 pathogenic effects of Wolbachia in its host are well-studied and determined to cause sperm-42 egg incompatibility, parthenogenesis, cytoplasmic incompatibility, and feminization 11,15 . 43 Therefore, utilizing these effects towards medically-important mosquito vectors, such as Ae. 44 aegypti, has taken great research strides in the past two decades. The discovery of a virulent 45 Wolbachi...

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“…The genus Asaia, first discovered in plant nectar, is an excellent candidate [166]; it is localized in many organs of mosquitoes, and can disperse inside the mosquito body through the haemolymph [165,167]. Its distribution in the mosquito population is made possible through several mechanisms (co-feeding, sexual mating, paternal, maternal, and horizontal transmission) [168][169][170]. Asaia bacteria may be genetically modified in order to be recolonised in a new host, resulting in spread within wild populations [166].…”

Section: Asaiamentioning

confidence: 99%

Mosquito-Borne Diseases Emergence/Resurgence and How to Effectively Control It Biologically

2020

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Deadly pathogens and parasites are transmitted by vectors and the mosquito is considered the most threatening vector in public health, transmitting these pathogens to humans and animals. We are currently witnessing the emergence/resurgence in new regions/populations of the most important mosquito-borne diseases, such as arboviruses and malaria. This resurgence may be the consequence of numerous complex parameters, but the major cause remains the mismanagement of insecticide use and the emergence of resistance. Biological control programmes have rendered promising results but several highly effective techniques, such as genetic manipulation, remain insufficiently considered as a control mechanism. Currently, new strategies based on attractive toxic sugar baits and new agents, such as Wolbachia and Asaia, are being intensively studied for potential use as alternatives to chemicals. Research into new insecticides, Insect Growth Regulators, and repellent compounds is pressing, and the improvement of biological strategies may provide key solutions to prevent outbreaks, decrease the danger to at-risk populations, and mitigate resistance.Pathogens 2020, 9, 310 2 of 26 are not used at all, and those that are still in the test or design phase but are very promising, which we suggest to be considered in the biological control of mosquito-borne diseases.

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Distribution and phylogeny of Wolbachia strains in wild mosquito populations in Sri Lanka

Cited by 47 publications

References 46 publications

Diverse novel residentWolbachiastrains in Culicine mosquitoes from Madagascar

Diverse novel residentWolbachiastrains in Culicine mosquitoes from Madagascar

Detection ofWolbachiain Field-Collected Mosquito Vector,Aedes aegypti

Mosquito-Borne Diseases Emergence/Resurgence and How to Effectively Control It Biologically

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