Analysis of Plasmodium falciparum diversity in natural infections by deep sequencingPlasmodium falciparum erythrocyte invasion: combining function with immune evasionBasigin is a receptor essential for erythrocyte invasion by Plasmodium falciparumA plethora of Plasmodium species in wild apes: a source of human infection?Origin of the human malaria parasite Plasmodium falciparum in gorillasGenomic analysis of local variation and recent evolution in Plasmodium vivax.Revealing the sequence and resulting cellular morphology of receptor-ligand interactions during Plasmodium falciparum invasion of erythrocytesA novel SNARE complex implicated in vesicle fusion with the endoplasmic reticulum.Identification of the MNN2 and MNN5 mannosyltransferases required for forming and extending the mannose branches of the outer chain mannans of Saccharomyces cerevisiae.Study of Plasmodium falciparum DHHC palmitoyl transferases identifies a role for PfDHHC9 in gametocytogenesisSemaphorin-7A is an erythrocyte receptor for P. falciparum merozoite-specific TRAP homolog, MTRAPGlobal analysis of apicomplexan protein S-acyl transferases reveals an enzyme essential for invasionBiochemical analysis of the Plasmodium falciparum erythrocyte-binding antigen-175 (EBA175)-glycophorin-A interaction: implications for vaccine designEffects of calcium signaling on Plasmodium falciparum erythrocyte invasion and post-translational modification of gliding-associated protein 45 (PfGAP45)Plasmodium falciparum secretory pathway: characterization of PfStx1, a plasma membrane Qa-SNAREBinding of Plasmodium falciparum Merozoite Surface Proteins DBLMSP and DBLMSP2 to Human Immunoglobulin M Is Conserved among Broadly Diverged Sequence VariantsPfSET10, a Plasmodium falciparum methyltransferase, maintains the active var gene in a poised state during parasite divisionAtypical mitogen-activated protein kinase phosphatase implicated in regulating transition from pre-S-Phase asexual intraerythrocytic development of Plasmodium falciparumPlasmodium vivax vaccine research - we've only just begunBiochemical and functional analysis of two Plasmodium falciparum blood-stage 6-cys proteins: P12 and P41Phosphoinositide metabolism links cGMP-dependent protein kinase G to essential Ca²⁺ signals at key decision points in the life cycle of malaria parasitesThe origins of malaria: there are more things in heaven and earth …Multigenomic Delineation of Plasmodium Species of the Laverania Subgenus Infecting Wild-Living Chimpanzees and Gorillas.Phenotypic variation of Plasmodium falciparum merozoite proteins directs receptor targeting for invasion of human erythrocytesP113 is a merozoite surface protein that binds the N terminus of Plasmodium falciparum RH5A member of the Plasmodium falciparum PHIST family binds to the erythrocyte cytoskeleton component band 4.1A novel multiple-stage antimalarial agent that inhibits protein synthesisRH5-Basigin interaction plays a major role in the host tropism of Plasmodium falciparum.Genomes of cryptic chimpanzee Plasmodium species reveal key evolutionary events leading to human malaria.Genome sequencing of chimpanzee malaria parasites reveals possible pathways of adaptation to human hosts.Plasmodium falciparum-like parasites infecting wild apes in southern Cameroon do not represent a recurrent source of human malariaTowards a comprehensive Plasmodium falciparum merozoite cell surface and secreted recombinant protein library.Extreme mutation bias and high AT content in Plasmodium falciparum.The effect of malaria and intestinal helminth coinfection on birth outcomes in Kumasi, Ghana.Asymptomatic Plasmodium vivax infections induce robust IgG responses to multiple blood-stage proteins in a low-transmission region of western Thailand.An adaptable two-color flow cytometric assay to quantitate the invasion of erythrocytes by Plasmodium falciparum parasites.Malaria, intestinal helminths and other risk factors for stillbirth in GhanaLimited variation in vaccine candidate Plasmodium falciparum Merozoite Surface Protein-6 over multiple transmission seasonsFunctional Profiling of a Plasmodium Genome Reveals an Abundance of Essential Genes.Evolution of human-chimpanzee differences in malaria susceptibility: relationship to human genetic loss of N-glycolylneuraminic acid
P50
Q20901697-7058F0DB-02F0-4065-A5F5-3C9587BDA3C8Q21131363-2DBB33F6-B925-4D20-BD67-4AEC3DAA00AEQ24297064-CA095D57-0BFD-49C2-891B-F3A8E16A59F9Q24600538-47FFED06-787E-4253-A796-52507B4162EFQ24631176-EEC7A17F-49DB-4686-B4BF-3E19C357965AQ27149930-E4CBCFA0-E401-4373-A84B-68F5CE9AF64BQ27321307-64FD259B-5260-40F9-91F2-76A3713AA7CBQ27936824-E055FCDA-1A04-41A9-AB46-B7C1DDE01563Q27938568-61A91A97-9970-4002-8D42-B9673FA92F30Q27972686-11A92E06-BFA0-4BAE-8FDD-388EB44382D0Q27972850-82BF7CDB-F4F1-41DE-9570-F7E55C1B7C07Q27972945-775B4BBE-F665-4F1F-BC9A-066D686CF84FQ27973510-D659015D-6F76-4615-A138-2D1336CC36D2Q27973622-B3C95262-BC4B-4CE2-8322-C6035C780773Q27974433-E0EA17C7-C95F-4B89-844C-1F7DD2E4A1D2Q27974543-2408C9B9-C2B3-4288-8B8A-CD26AF6F7B10Q27974692-7FCADEB0-1158-428C-A5C0-A02E61D01D72Q27974726-B2F0DF01-0B0A-40AB-9870-B89EC9BAF137Q28079136-296605EF-3629-4C55-B90F-F8636C45C602Q28481599-E9ADEB6B-2A0F-4733-AD9F-2252869E222CQ28540347-AE173437-23FE-48A1-BF8D-B84697AEC690Q28648241-84CCE85F-EF30-4C7E-9503-C808FCC95251Q28830288-2981BC69-C120-48E4-B19E-5B4EB88EC991Q30042170-F1FD6358-42A8-4482-BE2A-E6A7F3CD579AQ30042821-76301F0F-8FC6-4706-AE45-3EDB612AB1B8Q30043144-9F0D5A6E-BBAD-457F-B618-7E6C999639F8Q30044020-17CCDC12-07C0-4FD5-9B0F-E0242D72D91EQ30356310-E976671C-6AD9-4BA4-AAB3-7E6FBDA4F236Q30385381-69A6DE45-C256-4442-B5EE-C62AB0343239Q30430428-F7E910F1-0D8B-44C9-9DA8-7F7399E34113Q31075031-800F44E2-8035-4367-A460-3F349D60B088Q31153899-97FDA92E-B27D-4DE5-8812-98AD89F24EC2Q33558392-45031589-61A8-4CC0-9464-3C8CA81E9017Q33578805-B041A410-3A88-4137-BA2A-F54A56AA3087Q33617694-7B06298C-5AE9-4F5D-9DA5-CE0FE23F850BQ33703948-7DC490DB-DAA3-4758-AE0E-2B0E56BFCEC5Q33771921-10B7EDBF-8ED0-4CA1-9CEA-A6EBFF3DD249Q33898582-7004566B-5393-4CF1-901B-A82D9E0283DEQ33902615-9621C420-EB33-4FCC-A37E-42C3E524A73AQ33943886-7C76C48A-5C13-421C-88A9-887D9A98D200
P50
description
bioloog
@nl
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Julian Rayner
@ast
Julian Rayner
@en
Julian Rayner
@es
Julian Rayner
@fr
Julian Rayner
@nl
Julian Rayner
@sl
type
label
Julian Rayner
@ast
Julian Rayner
@en
Julian Rayner
@es
Julian Rayner
@fr
Julian Rayner
@nl
Julian Rayner
@sl
altLabel
Julian C Rayner
@en
prefLabel
Julian Rayner
@ast
Julian Rayner
@en
Julian Rayner
@es
Julian Rayner
@fr
Julian Rayner
@nl
Julian Rayner
@sl
P21
P31
P496
0000-0002-9835-1014
P569
2000-01-01T00:00:00Z