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ObjectiveTo investigate the infection and genotypes of Wolbachia in Aedes albopictus. MethodsAdult and larval samples of Aedes albopictus were collected from different residential and wild areas from 2020 to 2021, Wolbachia surface protein (wsp) gene was amplified and genotyped for wAlbA and wAlbB by PCR, and sequenced for phylogenetic analysis. The difference of detection rate among different habitats, male and female adult mosquitoes, adult and larvae was compared by χ2 analysis. ResultsThe detection rate of Wolbachia in adult and larvae of Aedes albopictus were 43.5% (77/177) and 70.4% (190/270), respectively, with a statistically significant difference (χ2=32.086,P<0.001), and wAlbA and wAlbB were mainly detected together. The detection rate of Wolbachia in female and male Aedes albopictus were 50.7% (76/150) and 3.7% (1/27), respectively, with a statistically significant difference(χ2=20.533,P<0.001). The detection rate of adult Aedes albopictus in Songjiang wild area, residential area and Hongkou residential area were 91.7% (55/60), 18.8% (22/117) and 41.7% (30/72), respectively, with a statistically significant difference (χ2=54.322,P<0.001). Genotyping and phylogenetic analysis showed that adult and larvae of Aedes albopictus infected with Wolbachia were mainly wAlb A and wAlb B. In addition, some sequences formed clades independently, and the genetic distance from other sequences was relatively large. ConclusionInfection of Wolbachia in Aedes albopictus is relatively common in Songjiang District. The main genotypes are wAlb A and wAlb B and there may be other subtypes, which are worthy of further exploration and research.
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Objective To investigate the infection and genotypes of Wolbachia in common mosquito species in Henan Province, so as to provide insights into management of mosquito-borne diseases. Methods Aedes, Culex and Anopheles samples were collected from cowsheds, sheepfolds and human houses in Puyang, Nanyang City and Xuchang cities of Henan Province from July to September, 2022, and the infection of Wolbachia was detected. The 16S rDNA and wsp genes of Wolbachia were amplified and sequenced. Sequence alignment was performed using the BLAST software, and the obtained 16S rDNA gene sequence was compared with the sequence of the 16S rDNA gene in GenBank database. In addition, the phylogenetic trees were created based on 16S rDNA and wsp gene sequences using the software MEGA 11.0. Results A total 506 female adult mosquitoes were collected from three sampling sites in Nanyang, Xuchang City and Puyang cities from July to September, 2022. The overall detection of Wolbachia was 45.1% (228/506) in mosquitoes, with a higher detection rate in A. albopictus than in Cx. pipiens pallens [97.9% (143/146) vs. 50.6% (85/168); χ2 = 88.064, P < 0.01]. The detection of Wolbachia in Cx. pipiens pallens was higher in Xuchang City (96.8%, 62/64) than in Nanyang (15.6%, 7/45) and Puyang cities (27.1%, 16/59) (χ2 = 89.950, P < 0.01). The homologies of obtained Wolbachia 16S rDNA and wsp gene sequences were 95.3% to 100.0% and 81.7% to 99.8%. Phylogenetic analysis based on wsp gene sequences showed Wolbachia supergroups A and B in mosquito samples, with wAlbA and wMors strains in supergroup A and wPip and wAlbB strains in supergroup B. Wolbachia strain wAlbB infection was detected in A. albopictus in Puyang and Nanyang Cities, while Wolbachia strain wPip infection was identified in A. albopictus in Xuchang City. Wolbachia strain wAlbA infection was detected in Cx. pipiens pallens sampled from three cities, and one Cx. pipiens pallens was found to be infected with Wolbachia strain wMors in Nanyang City. Conclusions Wolbachia infection is commonly prevalent in Ae. albopictus and Cx. pipiens pallens from Henan Province, and Wolbachia strains wAlbB and wAlbA are predominant in Ae. albopictus, while wPip strain is predominant in Cx. pipiens pallens. This is the first report to present Wolbachia wMors strain infection in Cx. pipiens pallens in Henan Province.
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Aim To rapidly prepare and purify hydrogen sulfide specific fluorescent probe (WSP-5), establish and optimize the fluorescent probe method for the determination of hydrogen sulfide in animal tissues, and verify the applicability of the method in the model of malignant pleural effusion. Methods The preparation solvent of fluorescent probe reaction solution, DMSO addition volume, pH, reaction solution solvent and reaction solution volume, sample pretreatment temperature, grinding times, and standing time after grinding were investigated. The mouses model of malignant pleural effusion was established with S-180 ascites tumor cells, and the concentration of hydrogen sulfide in various organs and tissues of the model animal was measured. Results After optimization, silica gel and dextran gel were used as stationary phases, dichloromethane methanol formic acid (60: 1: 0.1, V/V/V) and dichloromethane methanol (1: 1, V/V) were used as eluents for separation and purification, and the first eluting component was taken to prepare WSP-5 with a purity of more than 700 mg. Animal tissue samples and sodium hydrosulfide standard solution were added with 5 times of cold reaction solution, after low temperature vibration grinding, highspeed centrifugation, the supernatant was incubated in dark for 12 hours, the fluorescence intensity was measured by fluorescent microplate reader. Hydrogen sulfide concentration was calculated according to the standard curve. The LOD of this method was about 0. 6 |JLmol • L
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Objective: To study the impact of Wolbachia surface protein (WSP) on reactive oxygen species (ROS) level inethanol (EtOH)-exposed HepG2 cells.Materials and Methods: Increase in ROS level was induced in HepG2 cells by subjecting HepG2 cells toEtOH exposure. Impact of WSP on ROS level was examined by staining of intracellular ROS in cells usingthe specific ROS-detecting dye 2ʹ, 7ʹ-dichlorodihydrofluorescein diacetate (H2DCFDA), followed by flowcytometric analysis.Results and Conclusion: Flow cytometry analysis using H2DCFDA-based staining study of ROS level inHepG2 cells revealed that EtOH caused oxidative stress in HepG2 cells by inducing production of high levelsof ROS. However, EtOH-induced increased ROS production in cells decreased with treatment of WSP.From the current study, we can culminate that WSP provides cytoprotective action against EtOH-inducedincreased ROS production and oxidative stress in HepG2 cells by decreasing ROS production. This will beof significance for the treatment of EtOH-related liver ailments. Thus, this article emphasizes that WSP withprotecting ability could be used as a powerful therapeutic drug to treat EtOH-related liver ailments.
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Aim: To examine the protein-protein interaction of Wolbachia Surface Protein (WSP of Uzifly) with six proteins involved in Ethanol-induced toxicity and the proteins involved in its cytoprotective process in HepG2 cell line (CYP2E1, Superoxide dismutase, Catalase, Death-associated protein kinase1, Alcohol dehydrogenases (Alpha/beta/gamma) and Cytochrome-C) and to study real time molecular dynamics. Methodology: Modelled structure of WSP of Uzifly was retrieved from our laboratory archive. The proteins involved in the Ethanol-induced toxicity and the proteins involved in its cytoprotective process in HepG2 cell line were chosen based on the literature study. The six proteins like CYP2E1, Superoxide dismutase, Catalase, Death-associated protein kinase1, Alcohol dehydrogenases (Alpha/beta/gamma) and Cytochrome-C which are involved in the Ethanol-induced toxicity and the proteins involved in its cytoprotective process in HepG2 cell line were retrieved from PDB database with ID: PDB (3T3Z), PDB (2C9V), PDB (1DGG), PDB (2YAK), PDB (1U3W) and PDB (3NWV) respectively. Docking study was processed using ZDOCK and the best poses of protein were sorted using rDock. Finally, the atomic level interaction was studied for the best-scored protein-protein complex. The best complex was further subjected to molecular dynamics simulation to study its stability using standard dynamics cascade tool. Results: From the results, it was observed that three proteins such as Cytochrome-C, CYP2E1 and Superoxide dismutase have more favourable shape complementarity for WSP binding to exhibit the cytoprotective process. However, the interaction analysis was done only for the top complex, Cytochrome-C-WSP. Time dependent parameter analysis of best complex Cytochrome-C-WSP showed that root-mean-square deviation (RMSD) values initially deviated but it was stabilized at the end of 1ns dynamics. The radius of gyration (Rg) during dynamics was within the limit. Conclusion: This insilico study revealed that WSP has cytoprotective potential and therapeutical application.
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Individual, naturally occurring Phlebotomus mongolensis and Phlebotomus caucasicus from Iran were screened for infections with the maternally inherited intracellular Rickettsia-like bacterium Wolbachia pipientis via targeting a major surface protein gene (wsp). The main objective of this study was to determine if W. pipientis could be detected in these species. The sandflies were screened using polymerase chain reaction to amplify a fragment of the Wolbachia surface protein gene. The obtained sequences were edited and aligned with database sequences to identify W. pipientis haplotypes. Two strains of Wolbachia were found. Strain Turk 54 (accession EU780683) is widespread and has previously been reported in Phlebotomus papatasi and other insects. Strain Turk 07 (accession KC576916) is a novel strain, found for first time in the two sister species. A-group strains of W. pipientis occur throughout much of the habitat of these sandflies. It is possible that Wolbachia is transferred via horizontal transmission. Horizontal transfer could shed light on sandfly control because Wolbachia is believed to drive a deleterious gene into sandflies that reduces their natural population density. With regard to our findings in this study, we can conclude that one species of sandfly can be infected with different Wolbachia strains and that different species of sandflies can be infected with a common strain.
Subject(s)
Animals , Insect Vectors/microbiology , Phlebotomus/microbiology , Wolbachia/genetics , Base Sequence , Iran , Leishmaniasis, Cutaneous/transmission , Molecular Sequence Data , Polymerase Chain Reaction , Wolbachia/isolation & purificationABSTRACT
Wolbachia are endosymbiont bacteria of the family Rickettsiacea that are widespread in invertebrates and occur between 20 percent and 60 percent of Neotropical insects. These bacteria are responsible for reproductive phenomena such as cytoplasmic incompatibility, male killing, feminization and parthenogenesis. Supergroups A and B of Wolbachia are common in insects and can be identified using primers for 16S rDNA, ftsZ and wsp; these primers vary in their ability to detect Wolbachia. The ftsZ primer was the first primer used to detect Wolbachia in Anastrepha fruit flies. The primers for 16S rDNA, ftsZ and wsp and the corresponding PCR conditions have been optimized to study the distribution of Wolbachia and their effect on the biology of Anastrepha in Brazil. In this work, we examined the ability of these primers to detect Wolbachia in Anastrepha populations from three regions in the State of São Paulo, southeastern Brazil. All of the samples were positive for Wolbachia supergroup A when screened with primers for 16S A rDNA and wsp A; the wsp B primer also gave a positive result, indicating cross-reactivity. The ftsZ primer showed a poor ability to detect Wolbachia in Anastrepha and generated false negatives in 44.9 percent of the samples. These findings indicate that reliable PCR detection of Wolbachia requires the use of primers for 16S rDNA and wsp to avoid cross-reactions and false negatives, and that the ftsZ primer needs to be redesigned to improve its selectivity.