The role of phosphoglycans in Leishmania-sand fly interactions
about
Innate immunity against Leishmania infectionsOpen and closed structures of the UDP-glucose pyrophosphorylase from Leishmania majorLeishmania-sand fly interactions controlling species-specific vector competenceDisruption of mannose activation in Leishmania mexicana: GDP-mannose pyrophosphorylase is required for virulence, but not for viability.Sand fly-Leishmania interactions: long relationships are not necessarily easyCharacterization of the lectin from females of Phlebotomus duboscqi sand flies.Contribution of electron and confocal microscopy in the study of Leishmania-macrophage interactions.A novel role for Stat1 in phagosome acidification and natural host resistance to intracellular infection by Leishmania majorLeishmania major glycosylation mutants require phosphoglycans (lpg2-) but not lipophosphoglycan (lpg1-) for survival in permissive sand fly vectors.Genetic and phenotypic diversity in Burkholderia: contributions by prophage and phage-like elements.Stage-specific adhesion of Leishmania promastigotes to sand fly midguts assessed using an improved comparative binding assay.Transmission of cutaneous leishmaniasis by sand flies is enhanced by regurgitation of fPPG.A lipophosphoglycan-independent development of Leishmania in permissive sand flies.A CRISPR Cas9 high-throughput genome editing toolkit for kinetoplastidsLeishmania major survival in selective Phlebotomus papatasi sand fly vector requires a specific SCG-encoded lipophosphoglycan galactosylation pattern.Genetic metabolic complementation establishes a requirement for GDP-fucose in Leishmania.Role of inhibitors of serine peptidases in protecting Leishmania donovani against the hydrolytic peptidases of sand fly midgutMolecular epidemiology for vector research on leishmaniasis.Proteophosphoglycan confers resistance of Leishmania major to midgut digestive enzymes induced by blood feeding in vector sand flies.Regulated degradation of an endoplasmic reticulum membrane protein in a tubular lysosome in Leishmania mexicana.The immunomodulatory factors of bloodfeeding arthropod saliva.Secretory pathway of trypanosomatid parasites.Leishmania LPG3 encodes a GRP94 homolog required for phosphoglycan synthesis implicated in parasite virulence but not viabilityIdentification of a disulfide isomerase protein of Leishmania major as a putative virulence factor.Trichomonas vaginalis lipophosphoglycan mutants have reduced adherence and cytotoxicity to human ectocervical cellsPathogen-derived oligosaccharides improve innate immune response to intracellular parasite infectionLipophosphoglycan is a virulence factor distinct from related glycoconjugates in the protozoan parasite Leishmania major.The role(s) of lipophosphoglycan (LPG) in the establishment of Leishmania major infections in mammalian hosts.Molecular diagnosis of leishmaniasis.Influence of the Microenvironment in the Transcriptome of Leishmania infantum Promastigotes: Sand Fly versus Culture.The role of leishmania proteophosphoglycans in sand fly transmission and infection of the Mammalian host.Development of Leishmania (Leishmania) infantum chagasi in its natural sandfly vector Lutzomyia longipalpisLeishmania major UDP-sugar pyrophosphorylase salvages galactose for glycoconjugate biosynthesisLeishmania development in sand flies: parasite-vector interactions overview.Recent developments in the molecular, biochemical and functional characterization of GPI8 and the GPI-anchoring mechanism [review].Unusual galactofuranose modification of a capsule polysaccharide in the pathogenic yeast Cryptococcus neoformans.Probing elongating and branching β-D-galactosyltransferase activities in Leishmania parasites by making use of synthetic phosphoglycansGenomic Appraisal of the Multifactorial Basis for In Vitro Acquisition of Miltefosine Resistance in Leishmania donovaniThe flagellar protein FLAG1/SMP1 is a candidate for Leishmania-sand fly interactionRegulated expression of the Leishmania major surface virulence factor lipophosphoglycan using conditionally destabilized fusion proteins.
P2860
Q27010187-9A711643-6C8D-4D32-B33A-40C58BE3B525Q27643832-BBA15E65-521A-4D92-8430-4067E6FF6F9BQ28212067-C8E700A5-587D-4B92-BB67-BF49D95785F9Q28343727-778626CA-64E5-4461-913F-078C684E4CB2Q28662255-B00D168E-B0B7-439D-8027-CE649D826933Q30873438-7986867D-6EE3-453F-A428-7FB5E5720C33Q31125463-4F6935EC-8360-40D7-B0B0-49F91C9515AFQ33432700-728FD4D4-B5ED-4BD4-876B-12907702CB1AQ33525007-B5A94148-303E-4931-A711-1C15698F47AFQ33643800-5C42624B-7C45-4ADD-B466-6C2DB8902038Q33691595-7C2A1D9E-7309-4F80-AAF5-8AEDDBAFE2F8Q33714994-6445D10D-B993-4DE8-8B74-B507D0B54166Q33732048-645486E1-BD02-46A6-B58A-DE4DCEF4EC54Q33748131-6CF024FA-13E2-4584-B267-A890BDE9B8C7Q33750020-AF09EBC0-AB9E-42AD-93CA-381C8D027BEBQ33826510-E30C03EE-EA12-4C3E-9A66-483E70C31AE4Q33827420-934F7465-BB83-4351-AE6B-B46E29D6BF6CQ33858828-9EAEEC0A-959C-40A7-8FC9-7783D510FD43Q33938758-2F8BD7F9-E5BD-45FB-BE06-CCA8174796A7Q33944073-631041F7-1EBD-455E-A1A6-0BCCC3E44703Q33962295-DAF30C16-91B1-4C22-AF8F-FFDB826C1B53Q33969495-685E8112-9BBB-4FA2-81D4-EBB090F8E6C0Q34090960-1EF73A30-DA35-4F2C-BEF9-5F38717F844FQ34126878-B3864DEE-3417-432D-BFC4-A47ACB7C2DFBQ34144011-C13B8F3A-4EAE-4579-8FBD-521D365E8400Q35167881-DBD634D6-A0DA-439F-9F2A-58DA22AE3B87Q35202576-D3F5A79D-D4E4-4A89-99F1-85D6C51AA011Q35234866-EEEC8EE9-F0FE-4135-80AD-CA7BE77D4934Q35543915-A0CA8F45-5053-4CEC-93D2-7C4D02D1FC31Q36013075-7D477A4A-8DB3-466E-A84F-4DAC5D5C6185Q36063617-9FE5785E-4139-4257-9CD0-E4537E628583Q36112212-20C36F5F-9071-4F88-876D-9B7485D9F671Q36488276-B4F83C7A-0F03-45C6-B211-41320B5E948BQ36499194-76D6DDFD-2218-4ECC-BC52-6E73ADB912B8Q36511643-8AD9C326-AEC4-4F99-804D-C401A00B1EAEQ36779547-70139C79-FFC0-4021-914B-FB139102BD8CQ36860461-C1DCEA3C-6B7E-4F4E-82E1-593A0C8256CEQ37023262-71E2D670-6B60-4F64-B7B9-9C03AAF9AE9EQ37081332-8691CF57-4198-40EC-B371-FC85E4F8C035Q37183118-135AF76C-D85F-44E4-8638-A224E3EFE299
P2860
The role of phosphoglycans in Leishmania-sand fly interactions
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2000
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The role of phosphoglycans in Leishmania-sand fly interactions
@en
The role of phosphoglycans in Leishmania-sand fly interactions.
@nl
type
label
The role of phosphoglycans in Leishmania-sand fly interactions
@en
The role of phosphoglycans in Leishmania-sand fly interactions.
@nl
prefLabel
The role of phosphoglycans in Leishmania-sand fly interactions
@en
The role of phosphoglycans in Leishmania-sand fly interactions.
@nl
P2093
P2860
P356
P1476
The role of phosphoglycans in Leishmania-sand fly interactions
@en
P2093
P2860
P304
P356
10.1073/PNAS.97.1.406
P407
P577
2000-01-01T00:00:00Z