scholarly article | Q13442814 |
P356 | DOI | 10.1042/BC20070076 |
P8608 | Fatcat ID | release_zjrglfch6fg5ljelop7xifxysa |
P932 | PMC publication ID | 2663041 |
P698 | PubMed publication ID | 17995454 |
P50 | author | Vern Carruthers | Q42718560 |
P2093 | author name string | Isabelle Coppens | |
Susannah D Brydges | |||
Jill M Harper | |||
Fabiola Parussini | |||
P2860 | cites work | Toxoplasma MIC2 is a major determinant of invasion and virulence | Q27320169 |
Binding of the Golgi sorting receptor muclin to pancreatic zymogens through sulfated O-linked oligosaccharides | Q28591204 | ||
Processing and targeting of granule proteins in human neutrophils | Q28611911 | ||
Rapid redistribution of Golgi proteins into the ER in cells treated with brefeldin A: evidence for membrane cycling from Golgi to ER | Q29615171 | ||
Microtubule-dependent retrograde transport of proteins into the ER in the presence of brefeldin A suggests an ER recycling pathway | Q29620187 | ||
Nuclear-encoded proteins target to the plastid in Toxoplasma gondii and Plasmodium falciparum | Q30041439 | ||
Molecular characterization of TgMIC5, a proteolytically processed antigen secreted from the micronemes of Toxoplasma gondii | Q30967151 | ||
A Toxoplasma gondii rhoptry protein associated with host cell penetration has unusual charge asymmetry. | Q33207269 | ||
Toxoplasma gondii: conserved protein machinery in an unusual secretory pathway? | Q33878626 | ||
Mix and match modules: structure and function of microneme proteins in apicomplexan parasites. | Q34167780 | ||
Molecular characterization of a 23-kilodalton major antigen secreted by Toxoplasma gondii | Q34308254 | ||
Microneme proteins: structural and functional requirements to promote adhesion and invasion by the apicomplexan parasite Toxoplasma gondii. | Q34375972 | ||
A plastid of probable green algal origin in Apicomplexan parasites. | Q34738267 | ||
Rapid invasion of host cells by Toxoplasma requires secretion of the MIC2-M2AP adhesive protein complex | Q35019075 | ||
A cleavable propeptide influences Toxoplasma infection by facilitating the trafficking and secretion of the TgMIC2-M2AP invasion complex | Q35128202 | ||
The protozoan parasite Toxoplasma gondii targets proteins to dense granules and the vacuolar space using both conserved and unusual mechanisms | Q36255436 | ||
Toxoplasma gondii expressed sequence tags: insight into tachyzoite gene expression | Q36841712 | ||
Recycling of Raft-associated prohormone sorting receptor carboxypeptidase E requires interaction with ARF6. | Q37155177 | ||
Biogenesis of secretory granules. Implications arising from the immature secretory granule in the regulated pathway of secretion | Q37345058 | ||
Two conserved amino acid motifs mediate protein targeting to the micronemes of the apicomplexan parasite Toxoplasma gondii | Q39455769 | ||
Constitutive and regulated secretion of proteins | Q39683816 | ||
Expression of pro-Muclin in pancreatic AR42J cells induces functional regulated secretory granules | Q40403521 | ||
The C-terminus of prohormone convertase 2 is sufficient and necessary for Raft association and sorting to the regulated secretory pathway | Q40545679 | ||
An alternate targeting pathway for procathepsin L in mouse fibroblasts | Q40740821 | ||
Targeted deletion of MIC5 enhances trimming proteolysis of Toxoplasma invasion proteins | Q40929404 | ||
Host cell invasion by Toxoplasma gondii | Q41712109 | ||
PEPSINOGEN B: THE ZYMOGEN OF PEPSIN B | Q42191991 | ||
Toxoplasma gondii ADP-ribosylation factor 1 mediates enhanced release of constitutively secreted dense granule proteins | Q43559405 | ||
Characterization of a family of rhoptry proteins of Toxoplasma gondii | Q43935447 | ||
Molecular characterisation of an expressed sequence tag locus of Toxoplasma gondii encoding the micronemal protein MIC2. | Q48054253 | ||
Secretion of surfactant protein C, an integral membrane protein, requires the N-terminal propeptide | Q50336430 | ||
Golgi biogenesis in Toxoplasma gondii | Q59098607 | ||
Constitutive Calcium-independent Release ofToxoplasma gondiiDense Granules Occurs through the NSF/SNAP/SNARE/Rab Machinery | Q59178752 | ||
TgM2AP participates in Toxoplasma gondii invasion of host cells and is tightly associated with the adhesive protein TgMIC2 | Q63409182 | ||
Mobilization of intracellular calcium stimulates microneme discharge in Toxoplasma gondii | Q63409196 | ||
Modification of tryptophan residues in trypsin, α-chymotrypsin and pepsinogen | Q71193512 | ||
Differential membrane targeting of the secretory proteins GRA4 and GRA6 within the parasitophorous vacuole formed by Toxoplasma gondii | Q73022377 | ||
The prodomain of a secreted hydrophobic mini-protein facilitates its export from the endoplasmic reticulum by hitchhiking on sorting receptors | Q73444643 | ||
Sequential protein secretion from three distinct organelles of Toxoplasma gondii accompanies invasion of human fibroblasts | Q73478363 | ||
Targeting to rhoptry organelles of Toxoplasma gondii involves evolutionarily conserved mechanisms | Q73949950 | ||
The pro region of Toxoplasma ROP1 is a rhoptry-targeting signal | Q74402776 | ||
Processing of Toxoplasma ROP1 protein in nascent rhoptries | Q77676237 | ||
P433 | issue | 4 | |
P921 | main subject | Toxoplasma gondii | Q131003 |
P1104 | number of pages | 12 | |
P304 | page(s) | 253-264 | |
P577 | publication date | 2008-04-01 | |
P1433 | published in | Biology of the Cell | Q1254604 |
P1476 | title | A transient forward-targeting element for microneme-regulated secretion in Toxoplasma gondii | |
P478 | volume | 100 |
Q37501232 | A Critical Role for Toxoplasma gondii Vacuolar Protein Sorting VPS9 in Secretory Organelle Biogenesis and Host Infection |
Q30573321 | A dynamin is required for the biogenesis of secretory organelles in Toxoplasma gondii |
Q64913718 | Calcium negatively regulates secretion from dense granules in Toxoplasma gondii. |
Q34016345 | Cathepsin L occupies a vacuolar compartment and is a protein maturase within the endo/exocytic system of Toxoplasma gondii |
Q37635978 | Cathepsin proteases in Toxoplasma gondii |
Q34788697 | Cell cycle-dependent, intercellular transmission of Toxoplasma gondii is accompanied by marked changes in parasite gene expression |
Q35046321 | Forward targeting of Toxoplasma gondii proproteins to the micronemes involves conserved aliphatic amino acids |
Q37446287 | Genetic evidence that an endosymbiont-derived endoplasmic reticulum-associated protein degradation (ERAD) system functions in import of apicoplast proteins |
Q50045452 | Intersection of Endocytic and Exocytic Systems in Toxoplasma gondii. |
Q39756124 | Molecular signals in the trafficking of Toxoplasma gondii protein MIC3 to the micronemes |
Q30044113 | Motility precedes egress of malaria parasites from oocysts |
Q36579600 | Non-canonical maturation of two papain-family proteases in Toxoplasma gondii |
Q55236860 | Plasmodium falciparum dipeptidyl aminopeptidase 3 activity is important for efficient erythrocyte invasion by the malaria parasite. |
Q35034166 | Protein trafficking through the endosomal system prepares intracellular parasites for a home invasion |
Q37684373 | Rhoptry protein 5 (ROP5) Is a Key Virulence Factor in Neospora caninum |
Q27656389 | Toxoplasma gondii Cathepsin L Is the Primary Target of the Invasion-inhibitory Compound Morpholinurea-leucyl-homophenyl-vinyl Sulfone Phenyl |
Q36869985 | Toxoplasma gondii Tic20 is essential for apicoplast protein import |
Q34316176 | Toxoplasma gondii transmembrane microneme proteins and their modular design |
Q36796400 | Unconventional endosome-like compartment and retromer complex in Toxoplasma gondii govern parasite integrity and host infection |
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