Nome |
# |
Population genomics of the Asian tiger mosquito, Aedes albopictus: insights into the recent worldwide invasion, file e0ff0073-7493-9bac-e053-1705fe0af019
|
199
|
Paratransgenesis to control malaria vectors: a semi-field pilot study, file e0ff0072-8c94-9bac-e053-1705fe0af019
|
186
|
Latitudinal Diversity of Culex pipiens Biotypes and Hybrids in Farm, Peri-Urban, and Wetland Habitats in Europe, file e0ff0072-d55e-9bac-e053-1705fe0af019
|
170
|
Molecular Diagnosis of Malaria Infection: A Survey in a Hospital in Central Italy, file e0ff0072-fe3a-9bac-e053-1705fe0af019
|
157
|
Intra-instar larval cannibalism in Anopheles gambiae (s.s.) and Anopheles stephensi (Diptera: Culicidae), file e0ff0072-d644-9bac-e053-1705fe0af019
|
154
|
Community analysis of the abundance and diversity of mosquito species (Diptera: Culicidae) in three European countries at different latitudes, file e0ff0072-ff3d-9bac-e053-1705fe0af019
|
154
|
Mutual exclusion of Asaia and Wolbachia in the reproductive organs of mosquito vectors, file e0ff0072-6a9d-9bac-e053-1705fe0af019
|
140
|
A yeast strain associated to Anopheles mosquitoes produces a toxin able to kill malaria parasites, file e0ff0072-8c96-9bac-e053-1705fe0af019
|
140
|
Engineered mosquitoes to fight mosquito borne diseases: not a merely technical issue, file e0ff0073-2109-9bac-e053-1705fe0af019
|
127
|
Phylogenomics Reveals that Asaia Symbionts from Insects Underwent Convergent Genome Reduction, Preserving an Insecticide-Degrading Gene, file e0ff0074-c392-9bac-e053-1705fe0af019
|
118
|
Genome Reduction in the Mosquito Symbiont Asaia, file e0ff0073-b014-9bac-e053-1705fe0af019
|
110
|
Identification of a Killer Toxin from Wickerhamomyces anomalus with β-Glucanase Activity, file e0ff0074-152b-9bac-e053-1705fe0af019
|
108
|
Asaia Activates Immune Genes in Mosquito Eliciting an Anti-Plasmodium Response: Implications in Malaria Control, file e0ff0073-e10d-9bac-e053-1705fe0af019
|
96
|
Chimeric symbionts expressing a Wolbachia protein stimulate mosquito immunity and inhibit filarial parasite development, file e0ff0074-28cd-9bac-e053-1705fe0af019
|
92
|
Estimating bacteria diversity in different organs of nine species of mosquito by next generation sequencing, file e0ff0073-7c88-9bac-e053-1705fe0af019
|
84
|
Insecticide Exposure Triggers a Modulated Expression of ABC Transporter Genes in Larvae of Anopheles gambiae s.s., file e0ff0073-cec4-9bac-e053-1705fe0af019
|
82
|
Barcoded Asaia bacteria enable mosquito in vivo screens and identify novel systemic insecticides and inhibitors of malaria transmission, file e0ff0074-e399-9bac-e053-1705fe0af019
|
80
|
Wickerhamomyces anomalus in Mosquitoes: A Promising Yeast-Based Tool for the “Symbiotic Control” of Mosquito-Borne Diseases, file e0ff0074-ae32-9bac-e053-1705fe0af019
|
75
|
Biting midge dynamics and bluetongue transmission: a multiscale model linking catch data with climate and disease outbreaks, file e0ff0074-e26d-9bac-e053-1705fe0af019
|
69
|
Editorial: Microbiota: A Consequential Third Wheel in the Mosquito-Pathogen Relationship, file 4d0f6fcb-d329-41d9-9266-200433c50687
|
66
|
Mosquito/microbiota interactions: from complex relationships to biotechnological perspectives., file e0ff0072-5188-9bac-e053-1705fe0af019
|
47
|
A rapid qPCR method to investigate the circulation of the yeast Wickerhamomyces anomalus in humans, file e0ff0072-858e-9bac-e053-1705fe0af019
|
40
|
Inhibition of Asaia in Adult Mosquitoes Causes Male-Specific Mortality and Diverse Transcriptome Changes, file e0ff0074-44ce-9bac-e053-1705fe0af019
|
37
|
Isolation of a Wickerhamomyces anomalus yeast strain from the sandfly Phlebotomus perniciosus, displaying the killer phenotype, file e0ff0073-6799-9bac-e053-1705fe0af019
|
36
|
Bacterial Symbionts in Ceratitis capitata, file ef3edb0e-f45d-4129-b9f2-b69c0614a0af
|
27
|
Community analysis of the abundance and diversity of biting midge species (Diptera: Ceratopogonidae) in three European countries at different latitudes, file e0ff0073-cdac-9bac-e053-1705fe0af019
|
24
|
Formulation and Safety Tests of a Wickerhamomyces anomalus–Based Product: Potential Use of Killer Toxins of a Mosquito Symbiotic Yeast to Limit Malaria Transmission, file e0ff0074-da1d-9bac-e053-1705fe0af019
|
23
|
Wolbachia in Aedes koreicus: Rare Detections and Possible Implications, file e0ff0074-f401-9bac-e053-1705fe0af019
|
20
|
DETECTION OF STREPTOCOCCUS EQUI DNA IN RHIPICEPHALUS BURSA TICKS FROM SOUTHERN ITALY, file e0ff0073-02af-9bac-e053-1705fe0af019
|
19
|
Killer yeasts exert anti-plasmodial activities against the malaria parasite Plasmodium berghei in the vector mosquito Anopheles stephensi and in mice, file e0ff0073-de6e-9bac-e053-1705fe0af019
|
19
|
A draft genome sequence of an invasive mosquito: an Italian Aedes albopictus, file e0ff0072-65fc-9bac-e053-1705fe0af019
|
11
|
Tripartite interactions comprising yeast-endobacteria systems in the gut of vector mosquitoes, file e955c494-5787-479f-a64b-ad987ef57fde
|
8
|
A killer yeast strain harboured in malaria vectors: new insights in the mosquito biology and possible implications in the malaria transmission blocking., file e0ff0072-e5c0-9bac-e053-1705fe0af019
|
6
|
Molecular evidence for multiple infections as revealed by typing of Asaia bacterial symbionts of four mosquito species., file e0ff0073-0b94-9bac-e053-1705fe0af019
|
4
|
Acetic acid bacteria, new emerging symbionts of insects., file e0ff0073-0b99-9bac-e053-1705fe0af019
|
4
|
Temporal dynamics of the ABC
transporter response to insecticide
treatment: insights from the malaria
vector Anopheles stephensi, file e0ff0072-5fd2-9bac-e053-1705fe0af019
|
3
|
Interactions between Asaia, Plasmodium and Anopheles: new insights into mosquito symbiosis and implications in malaria symbiotic control., file e0ff0072-62aa-9bac-e053-1705fe0af019
|
3
|
Comment to: Which saint to pray for fighting against COVID? A short survey, file e0ff0074-e94a-9bac-e053-1705fe0af019
|
3
|
Mosquito-bacteria symbiosis: the case of Anopheles gambiae and Asaia, file e0ff0072-4df2-9bac-e053-1705fe0af019
|
2
|
Deciphering microbiota associated to Rhynchophorus ferrugineus in Italian
samples: a preliminary study, file e0ff0072-4e97-9bac-e053-1705fe0af019
|
2
|
Paternal transmission of symbiotic bacteria in malaria vectors, file e0ff0072-4f6e-9bac-e053-1705fe0af019
|
2
|
Delayed larval development in Anopheles mosquitoes deprived of Asaia bacterial symbionts., file e0ff0072-5187-9bac-e053-1705fe0af019
|
2
|
Molecular typing of bacteria of the genus Asaia in malaria vector
Anopheles arabiensis Patton, 1905, file e0ff0072-520f-9bac-e053-1705fe0af019
|
2
|
null, file e0ff0072-5db3-9bac-e053-1705fe0af019
|
2
|
Mosquitoes can harbour yeasts of clinical significance and contribute to their environmental dissemination, file e0ff0073-677e-9bac-e053-1705fe0af019
|
2
|
Ceratitis capitata Bacterial Symbionts: Implications in Insect Control, file e0ff0074-dd10-9bac-e053-1705fe0af019
|
2
|
Different mosquito species host Wickerhamomyces anomalus (Pichia anomala): perspectives on vector-borne diseases symbiotic control., file e0ff0072-477f-9bac-e053-1705fe0af019
|
1
|
null, file e0ff0072-4782-9bac-e053-1705fe0af019
|
1
|
Asaia, a versatile acetic acid bacterial symbiont, capable of cross-colonizing insects of phylogenetically distant genera and orders., file e0ff0072-48b5-9bac-e053-1705fe0af019
|
1
|
"The yeast Wickerhamomyces anomalus (Pichia anomala) inhabits the midgut and reproductive organs of the Asian malaria vector Anopheles stephensi", file e0ff0072-4e52-9bac-e053-1705fe0af019
|
1
|
"The yeast Wickerhamomyces anomalus (Pichia anomala) inhabits the midgut and reproductive organs of the Asian malaria vector Anopheles stephensi", file e0ff0072-4e53-9bac-e053-1705fe0af019
|
1
|
Paternal transmission of symbiotic bacteria in malaria vectors, file e0ff0072-4f6d-9bac-e053-1705fe0af019
|
1
|
Acetic Acid Bacteria Genomes Reveal Functional Traits for Adaptation to Life in Insect Guts, file e0ff0072-5c24-9bac-e053-1705fe0af019
|
1
|
How heterogeneous is the involvement of ABC transporters against insecticides?, file e0ff0072-8582-9bac-e053-1705fe0af019
|
1
|
Gene expression modulation of ABC transporter genes in response to permethrin in adults of the mosquito malaria vector Anopheles stephensi., file e0ff0072-d941-9bac-e053-1705fe0af019
|
1
|
Identification and molecular analysis of mid-gut mucin gene in Anopheles stephensi (Diptera: Culicidae), file e0ff0072-d9c8-9bac-e053-1705fe0af019
|
1
|
Asaia, a transformable bacterium, associated with Scaphoideus titanus, the vector of "flavescence doree", file e0ff0073-0cb1-9bac-e053-1705fe0af019
|
1
|
Insect-bacterial mosaic produces peptidoglycan in mealybug, file e0ff0073-ff40-9bac-e053-1705fe0af019
|
1
|
The killer yeast wickerhamomyces anomalus is a potential new tool for the symbiotic control of malaria, file e0ff0073-ff87-9bac-e053-1705fe0af019
|
1
|
null, file e0ff0074-e5e6-9bac-e053-1705fe0af019
|
1
|
Wolbachia and Asaia Distribution among Different Mosquito Vectors Is Affected by Tissue Localization and Host Species, file e2439c4a-9246-4d63-b6b4-7715280bb1f9
|
1
|
Totale |
2.772 |