Proteolysis at a specific extracellular residue implicates integral membrane CLAG3 in malaria parasite nutrient channels
about
Proteomic analysis reveals novel proteins associated with the Plasmodium protein exporter PTEX and a loss of complex stability upon truncation of the core PTEX component, PTEX150The Stapled AKAP Disruptor Peptide STAD-2 Displays Antimalarial Activity through a PKA-Independent MechanismMalaria Parasite CLAG3, a Protein Linked to Nutrient Channels, Participates in High Molecular Weight Membrane-Associated Complexes in the Infected ErythrocyteThe Plasmodium falciparum rhoptry protein RhopH3 plays essential roles in host cell invasion and nutrient uptakePlasmodium falciparum parasites deploy RhopH2 into the host erythrocyte to obtain nutrients, grow and replicateHigh guanidinium permeability reveals dehydration-dependent ion selectivity in the plasmodial surface anion channel.The conserved clag multigene family of malaria parasites: essential roles in host-pathogen interactionRsite: a computational method to identify the functional sites of noncoding RNAsA CLAG3 mutation in an amphipathic transmembrane domain alters malaria parasite nutrient channels and confers leupeptin resistance.An essential dual-function complex mediates erythrocyte invasion and channel-mediated nutrient uptake in malaria parasites.Expression of the Plasmodium falciparum Clonally Variant clag3 Genes in Human Infections.Targeting Channels and Transporters in Protozoan Parasite Infections.CLAG3 Self-Associates in Malaria Parasites and Quantitatively Determines Nutrient Uptake Channels at the Host Membrane.Malaria parasite proteins involved in nutrient channels at the host erythrocyte membrane: advances and questions for future researchDiverse target gene modifications in Plasmodium falciparum using Bxb1 integrase and an intronic attB
P2860
Q27972947-6E49CBEE-2B89-4568-A38A-13E772552547Q28547465-8B5EF04E-F1DA-4EFB-A4CA-DE3C976F4A6CQ28550247-3310C9BB-423D-4F46-9754-5FBDCAAC5363Q30039603-E2C71174-828D-49E7-901C-42C9E4791B2AQ30039619-4166B0AA-364D-43B4-8582-9AC6C1EDD838Q34162179-898D96EA-D685-4E32-A61D-26699751F892Q35033540-A06D8E61-A7DC-47C5-92FB-CAAD47463B3CQ35182964-C17356A8-B5E8-4656-A799-EE1408742468Q35609409-9263D8B9-625E-4ECA-A988-A1E9A31F3253Q37699084-0DB94976-0B27-4058-ACFE-A22FBB23300AQ39253313-CCAA030E-57ED-4FB5-BA7E-14BBA6B132CDQ52594992-611B38BD-971D-4D57-8A52-1075A4226E72Q55313077-543A90FD-FF0F-4184-8208-C918EE4933D3Q56441922-117B5E0B-E623-443F-8DDF-E2C90D73575AQ58548047-2A19849F-7AE1-45C5-9FFD-6628C33E2730
P2860
Proteolysis at a specific extracellular residue implicates integral membrane CLAG3 in malaria parasite nutrient channels
description
2014 nî lūn-bûn
@nan
2014 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Proteolysis at a specific extr ...... ria parasite nutrient channels
@ast
Proteolysis at a specific extr ...... ria parasite nutrient channels
@en
type
label
Proteolysis at a specific extr ...... ria parasite nutrient channels
@ast
Proteolysis at a specific extr ...... ria parasite nutrient channels
@en
prefLabel
Proteolysis at a specific extr ...... ria parasite nutrient channels
@ast
Proteolysis at a specific extr ...... ria parasite nutrient channels
@en
P2093
P2860
P921
P1433
P1476
Proteolysis at a specific extr ...... ria parasite nutrient channels
@en
P2093
Kempaiah Rayavara
Sanjay A Desai
Wang Nguitragool
P2860
P304
P356
10.1371/JOURNAL.PONE.0093759
P407
P577
2014-04-03T00:00:00Z