about
From the cell biology to the development of new chemotherapeutic approaches against trypanosomatids: dreams and realityLarval food quantity affects the capacity of adult mosquitoes to transmit human malariaHere, There, and Everywhere: The Ubiquitous Distribution of the Immunosignaling Molecule Lysophosphatidylcholine and Its Role on Chagas DiseaseMonitoring of the Parasite Load in the Digestive Tract of Rhodnius prolixus by Combined qPCR Analysis and Imaging Techniques Provides New Insights into the Trypanosome Life CycleGenetics and evolution of triatomines: from phylogeny to vector control.Origin, evolution and function of the hemipteran perimicrovillar membrane with emphasis on Reduviidae that transmit Chagas disease.Cloning and characterization of a trypsin-encoding cDNA of the human body louse Pediculus humanus.Active transcription and ultrastructural changes during Trypanosoma cruzi metacyclogenesis.Inefficient complement system clearance of Trypanosoma cruzi metacyclic trypomastigotes enables resistant strains to invade eukaryotic cellsTcI/TcII co-infection can enhance Trypanosoma cruzi growth in Rhodnius prolixus.Sex-dependent infection causes nonadditive effects on kissing bug fecundity.Nucleolar accumulation of RNA binding proteins induced by Actinomycin D is functional in Trypanosoma cruzi and Leishmania mexicana but not in T. bruceiProtein synthesis attenuation by phosphorylation of eIF2α is required for the differentiation of Trypanosoma cruzi into infective forms.Trypanosoma cruzi gene expression in response to gamma radiation.Different infective forms trigger distinct immune response in experimental Chagas diseaseTrypanosoma cruzi immune response modulation decreases microbiota in Rhodnius prolixus gut and is crucial for parasite survival and development.SUMOylation of paraflagellar rod protein, PFR1, and its stage-specific localization in Trypanosoma cruzi.Acidocalcisomes and the contractile vacuole complex are involved in osmoregulation in Trypanosoma cruzi.Impact of protozoan cell death on parasite-host interactions and pathogenesisBioluminescent imaging of Trypanosoma cruzi infection in Rhodnius prolixusCapacity of mosquitoes to transmit malaria depends on larval environment.Oxidative stress and DNA lesions: the role of 8-oxoguanine lesions in Trypanosoma cruzi cell viability.Proliferation and differentiation of Trypanosoma cruzi inside its vector have a new trigger: redox status.Rhodnius prolixus interaction with Trypanosoma rangeli: modulation of the immune system and microbiota population.Experimental evidence of biological interactions among different isolates of Trypanosoma cruzi from the Chaco RegionRole of Δ1-pyrroline-5-carboxylate dehydrogenase supports mitochondrial metabolism and host-cell invasion of Trypanosoma cruzi.A high-affinity putrescine-cadaverine transporter from Trypanosoma cruziLysophosphatidylcholine: A Novel Modulator of Trypanosoma cruzi TransmissionTrypanosoma cruzi, etiological agent of Chagas disease, is virulent to its triatomine vector Rhodnius prolixus in a temperature-dependent manner.Hyperosmotic stress induces aquaporin-dependent cell shrinkage, polyphosphate synthesis, amino acid accumulation, and global gene expression changes in Trypanosoma cruzi.Dibenzylideneacetones Are Potent Trypanocidal Compounds That Affect the Trypanosoma cruzi Redox SystemThe Trypanosoma cruzi Diamine Transporter Is Essential for Robust Infection of Mammalian Cells.Differential pattern of infection of sylvatic nymphs and domiciliary adults of Triatoma infestans with Trypanosoma cruzi genotypes in ChileTowards an understanding of the interactions of Trypanosoma cruzi and Trypanosoma rangeli within the reduviid insect host Rhodnius prolixus.Trypanosoma rangeli interactions within the vector Rhodnius prolixus: a mini review.Lysine acetylation: elucidating the components of an emerging global signaling pathway in trypanosomes.Everybody loves sugar: first report of plant feeding in triatominesTrypanosoma cruzi infection is enhanced by vector saliva through immunosuppressant mechanisms mediated by lysophosphatidylcholineQuantification by real-time PCR of Trypanosoma cruzi DNA in samples of Triatoma infestans used in xenodiagnosis of chronic Chagas disease patientsTrypanosoma cruzi: adaptation to its vectors and its hosts.
P2860
Q24798821-09EDCDC0-A024-46EC-944F-252AAF4723C3Q26314572-735C43B1-4152-4B56-A505-92445A6C230EQ26765838-D2778562-29FB-443D-95B8-C67D1EDE399BQ27303915-F3C320FF-557D-43B9-AAEA-EFF476AD5C94Q27686966-4643DE80-78F8-47A6-91DA-5ACDCE18D1A6Q30382188-63B8AB0B-4EF4-43B8-87EB-711CA8699AD0Q31036403-1286008D-D6DF-45CE-8DD0-D2B1DC09027AQ33324141-256A0C63-C274-4671-92CB-4F8343F90BC3Q33543089-D1EE78F3-BB67-420A-9283-AE16E98E2B81Q33589393-B13C5042-635A-4D38-98E9-69527B04AD92Q33694377-FFF8D4D2-AC44-4FF9-AD48-5454AABEBE83Q34014508-92D8A175-AAEA-4E9F-B8C5-72E46C384E69Q34082958-FFA61B35-D10B-407A-8631-6EBA93C12EC9Q34128482-6E7A92B5-900E-4F82-B46F-64B4B7EB9B90Q34193529-5624692F-BC9F-4487-9EE5-772EC270D36CQ34264795-AC264D66-67D1-4C5A-B3A1-4CD9FEA86F47Q34277846-36EA6424-1747-4433-A213-9B45294F1F98Q34355949-EF6CDA0F-1701-4261-AFD1-0DF872268A90Q34413807-DB6D0A69-9142-4F55-91C6-8FC6AE3498BAQ34422027-DD6BAFC0-04A5-46D3-BD9C-4490EEC9597DQ34753551-2BDF1304-3C48-4CFA-B33E-20E936279201Q34779088-292BCDF9-E6F1-4A75-9C12-41220B6C9455Q35073631-E944CED9-5998-4CF9-9AC4-B2FD31422952Q35149409-CD738255-0227-4504-8238-0074771B7977Q35195691-59B21F90-387D-4271-BC46-A0179B0242B2Q35199430-D72D1907-393A-45B6-9D99-8E0FB31AB8D8Q35241956-5E740A07-282F-4498-A26C-79DCB1A6F5D4Q35503605-52F52F14-51C8-4CD6-BFC6-3928387E01D3Q35582224-569B9CA2-E22D-4D8C-8FEA-9EE83ACAF7E0Q35626082-7C584C09-8870-4D09-8A24-9E21E8D64C4AQ35848992-E1B55E1D-8B76-4966-A353-42D4AE591317Q35981043-34F6F26F-2875-4F2A-83A5-83E9BD0C5CE8Q36213271-DFDDC7BB-FFA4-43E7-B494-5C9936809679Q36243029-5FF74539-9BB3-4D70-B290-27C402AF4755Q36267980-641080C2-B8B0-493E-AEF9-9A347A08477DQ36316016-B99D6409-C29A-4192-99BA-23BE93B3802FQ36634101-DC9ECCC1-DC2A-4F24-BA86-511944704F31Q36974519-3938CE0C-D3C7-457A-B228-F6DFA2F2123CQ37064544-5D851543-CA21-4011-960A-FB74F28BD381Q37224052-8396609F-1202-4E9B-87F2-146010893F93
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
The development of Trypanosoma cruzi in triatominae.
@ast
The development of Trypanosoma cruzi in triatominae.
@en
The development of Trypanosoma cruzi in triatominae.
@nl
type
label
The development of Trypanosoma cruzi in triatominae.
@ast
The development of Trypanosoma cruzi in triatominae.
@en
The development of Trypanosoma cruzi in triatominae.
@nl
prefLabel
The development of Trypanosoma cruzi in triatominae.
@ast
The development of Trypanosoma cruzi in triatominae.
@en
The development of Trypanosoma cruzi in triatominae.
@nl
P1476
The development of Trypanosoma cruzi in triatominae.
@en
P2093
P304
P356
10.1016/S0169-4758(00)01724-5
P577
2000-09-01T00:00:00Z