Tsetse immune responses and trypanosome transmission: implications for the development of tsetse-based strategies to reduce trypanosomiasis
about
Expression and extracellular release of a functional anti-trypanosome Nanobody® in Sodalis glossinidius, a bacterial symbiont of the tsetse flyMassive genome erosion and functional adaptations provide insights into the symbiotic lifestyle of Sodalis glossinidius in the tsetse host.A surface transporter family conveys the trypanosome differentiation signalAdult midgut expressed sequence tags from the tsetse fly Glossina morsitans morsitans and expression analysis of putative immune response genesWhat can we hope to gain for trypanosomiasis control from molecular studies on tsetse biology ?The development of Trypanosoma brucei within the tsetse fly midgut observed using green fluorescent trypanosomes.Mammalian African trypanosome VSG coat enhances tsetse's vector competenceDiversity, evolution and medical applications of insect antimicrobial peptidesExamining the tsetse teneral phenomenon and permissiveness to trypanosome infectionWolbachia, Sodalis and trypanosome co-infections in natural populations of Glossina austeni and Glossina pallidipesTsetse flies: genetics, evolution, and role as vectorsGrandeur Alliances: Symbiont Metabolic Integration and Obligate Arthropod HematophagyEpithelial innate immunity. A novel antimicrobial peptide with antiparasitic activity in the blood-sucking insect Stomoxys calcitrans.Adult blood-feeding tsetse flies, trypanosomes, microbiota and the fluctuating environment in sub-Saharan Africa.Infection Dynamics and Immune Response in a Newly Described Drosophila-Trypanosomatid Association.Analysis of fat body transcriptome from the adult tsetse fly, Glossina morsitans morsitans.Infections with immunogenic trypanosomes reduce tsetse reproductive fitness: potential impact of different parasite strains on vector population structure.Characterization of the antimicrobial peptide attacin loci from Glossina morsitans.A cysteine protease is critical for Babesia spp. transmission in Haemaphysalis ticks.Differentially expressed genes in the cuticle and hemolymph of the silkworm, Bombyx mori, injected with the fungus Beauveria bassiana.Genetic diversity and population structure of the tsetse fly Glossina fuscipes fuscipes (Diptera: Glossinidae) in Northern Uganda: Implications for vector controlTsetse EP protein protects the fly midgut from trypanosome establishment.Insect antimicrobial peptides and their applications.Tsetse immune system maturation requires the presence of obligate symbionts in larvae.The peritrophic matrix mediates differential infection outcomes in the tsetse fly gut following challenge with commensal, pathogenic, and parasitic microbes.Attenuation of the sensing capabilities of PhoQ in transition to obligate insect-bacterial association.Post eclosion age predicts the prevalence of midgut trypanosome infections in Glossina.Sodalis glossinidius prevalence and trypanosome presence in tsetse from Luambe National Park, Zambia.Gene discovery and differential expression analysis of humoral immune response elements in female Culicoides sonorensis (Diptera: Ceratopogonidae).The influence of sex and fly species on the development of trypanosomes in tsetse flies.Trypanosoma cruzi immune response modulation decreases microbiota in Rhodnius prolixus gut and is crucial for parasite survival and development.Transcriptome of the plant virus vector Graminella nigrifrons, and the molecular interactions of maize fine streak rhabdovirus transmission.Immune response of Anopheles gambiae to the early sporogonic stages of the human malaria parasite Plasmodium falciparum.Midgut expression of immune-related genes in Glossina palpalis gambiensis challenged with Trypanosoma brucei gambiense.Trypanosome infection establishment in the tsetse fly gut is influenced by microbiome-regulated host immune barriers.Population dynamics of male-killing and non-male-killing spiroplasmas in Drosophila melanogaster.Essential roles for GPI-anchored proteins in African trypanosomes revealed using mutants deficient in GPI8Trypanosome Transmission Dynamics in Tsetse.Insect immunity and its implication in mosquito-malaria interactions.Antimicrobial peptide killing of African trypanosomes.
P2860
Q21246029-BE887191-5444-4B4D-86DC-04AA88D7BDFAQ22065743-E24F0A5E-65EA-458D-A2C3-51EAAC4E1FCAQ24656663-4ED0A7E4-DF14-44C9-8C1D-3A899E116314Q24792829-C82F662D-EFE1-4802-A37D-7083EE1545B3Q24798840-B3EE8C82-4B60-42B1-8BED-8E2459F24C94Q24799534-81835BED-B0C4-478B-BE96-37B33C14D677Q26314596-4787F049-0ACC-4EC5-8A62-4DD0D69671DAQ26751067-C62A6DA3-437D-4C76-B028-706372E9AFABQ26992085-F10D49AC-550D-4230-9AAC-C7573560A3E7Q28681561-00ED53BA-642B-4ABA-A895-1FE08D665543Q28755223-E2D0503A-E70D-41A1-B626-48A6915AD7C8Q30250055-B3A1FAC0-B79D-491E-8151-2746103070A5Q30861178-98AE2831-B664-49C4-98B9-34D2157AD89AQ30877850-6D070903-0381-401E-A9F9-119C1AF9181EQ30993739-B86337D9-66E4-48BB-94F8-7C373ACDBB34Q33253849-2F5DC837-9710-41C0-94C6-85A653B0E8C9Q33323394-DCC4B652-1211-4A6F-8DE2-B8A7A3796987Q33334206-890F9F4F-89E0-4A5F-A1D8-365DEC9DC2E2Q33335117-AB5450A4-24FC-419D-A2C2-A5196C43A218Q33587720-EDC4F896-6BE7-47ED-96A9-07F2284EF4CDQ33657997-3620A49F-5442-4F9A-8555-1C3E6FE34A2EQ33706127-31C659F9-764E-4EF9-B72D-A2DEA64802A7Q33850532-F7A30DB9-2500-4DE4-ACCB-8864D00D8169Q33927329-B43587D9-814A-4C13-97C0-976DCD4784A3Q33935679-2EBDC276-A363-4A2E-AEE6-32C57C497F9CQ34071399-2DE2872C-2A21-487D-A1D6-6EC209F917B8Q34075480-D4DF04D3-4385-4070-BF29-C9C18D46674CQ34130063-F0575C4D-FCB1-428E-B111-B5FC7EC5D8EAQ34151410-23079F2D-FD65-41F3-8E07-98AE93DAC520Q34163927-F9AF8685-1F09-491D-B50D-788C1CF5CD9DQ34264795-F725279C-75E3-4B1B-969B-17DDCC2EC4DBQ34342163-81BE1AA6-63D6-48F8-9E9A-1EE242B44954Q34427362-888B4B9B-38CC-4D4C-8666-A209AF5D7DC6Q34481108-73410DF3-A65B-471F-AA2A-02A8414FA33FQ34699736-E64413A9-AE18-4FED-AA12-D824B1202037Q34767609-0921F0C2-DBE6-4E6E-88D0-198BDC995EE7Q34814046-53B0E212-A858-4F8D-A52D-8795BC164A88Q34858657-2FA5888E-5DEF-4612-87BA-FEA29B123B0FQ35050920-E3913160-5881-42F5-A013-54FDCBEA6D8CQ35112654-D815777D-5522-4EE3-A44F-65707A438606
P2860
Tsetse immune responses and trypanosome transmission: implications for the development of tsetse-based strategies to reduce trypanosomiasis
description
2001 nî lūn-bûn
@nan
2001 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@ast
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@en
type
label
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@ast
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@en
prefLabel
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@ast
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@en
P2093
P2860
P356
P1476
Tsetse immune responses and tr ...... gies to reduce trypanosomiasis
@en
P2093
P2860
P304
12648-12653
P356
10.1073/PNAS.221363798
P407
P50
P577
2001-10-09T00:00:00Z