scholarly article | Q13442814 |
P50 | author | Tomoko Ishino | Q59389026 |
Naohito Tokunaga | Q80286525 | ||
P2093 | author name string | Motomi Torii | |
Takafumi Tsuboi | |||
Mayumi Tachibana | |||
Kazuhiro Matsuoka | |||
Minami Baba | |||
Mamoru Nozaki | |||
P2860 | cites work | Merozoite surface proteins of the malaria parasite: The MSP1 complex and the MSP7 family | Q21147068 |
Phosphorylation of immunity-related GTPases by a Toxoplasma gondii-secreted kinase promotes macrophage survival and virulence | Q24617053 | ||
Identification of the moving junction complex of Toxoplasma gondii: a collaboration between distinct secretory organelles | Q24814719 | ||
Toxoplasma gondii Sporozoites Invade Host Cells Using Two Novel Paralogues of RON2 and AMA1 | Q27679546 | ||
Single-cell RNA-seq reveals hidden transcriptional variation in malaria parasites | Q53218289 | ||
Plasmodium RON12 localizes to the rhoptry body in sporozoites | Q57049291 | ||
Rhoptry neck protein 2 expressed in Plasmodium sporozoites plays a crucial role during invasion of mosquito salivary glands | Q57279985 | ||
Rhoptry neck protein 11 has crucial roles during malaria parasite sporozoite invasion of salivary glands and hepatocytes. | Q65007306 | ||
A new mathematical model for relative quantification in real-time RT-PCR | Q27860781 | ||
Independent roles of apical membrane antigen 1 and rhoptry neck proteins during host cell invasion by apicomplexa | Q27972557 | ||
Apical expression of three RhopH1/Clag proteins as components of the Plasmodium falciparum RhopH complex | Q27972716 | ||
Characterization of a conserved rhoptry-associated leucine zipper-like protein in the malaria parasite Plasmodium falciparum | Q27972927 | ||
Identification and stoichiometry of glycosylphosphatidylinositol-anchored membrane proteins of the human malaria parasite Plasmodium falciparum | Q27973463 | ||
Rhoptry neck protein RON2 forms a complex with microneme protein AMA1 in Plasmodium falciparum merozoites | Q27973957 | ||
Localisation and timing of expression of putative Plasmodium berghei rhoptry proteins in merozoites and sporozoites | Q27974464 | ||
High-efficiency transfection and drug selection of genetically transformed blood stages of the rodent malaria parasite Plasmodium berghei | Q28296322 | ||
Export of a Toxoplasma gondii rhoptry neck protein complex at the host cell membrane to form the moving junction during invasion | Q28474820 | ||
Phosphorylation of mouse immunity-related GTPase (IRG) resistance proteins is an evasion strategy for virulent Toxoplasma gondii | Q28476607 | ||
PlasmoDB: a functional genomic database for malaria parasites | Q29618004 | ||
The Plasmodium falciparum rhoptry protein RhopH3 plays essential roles in host cell invasion and nutrient uptake | Q30039603 | ||
Plasmodium falciparum parasites deploy RhopH2 into the host erythrocyte to obtain nutrients, grow and replicate | Q30039619 | ||
Plasmodial ortholog of Toxoplasma gondii rhoptry neck protein 3 is localized to the rhoptry body | Q30040634 | ||
Characterization of a membrane-associated rhoptry protein of Plasmodium falciparum | Q30041651 | ||
Characterisation of PfRON6, a Plasmodium falciparum rhoptry neck protein with a novel cysteine-rich domain | Q30043019 | ||
Subcompartmentalisation of proteins in the rhoptries correlates with ordered events of erythrocyte invasion by the blood stage malaria parasite | Q30043467 | ||
TRAP is necessary for gliding motility and infectivity of plasmodium sporozoites | Q30044862 | ||
AMA1 and MAEBL are important for Plasmodium falciparum sporozoite infection of the liver | Q30044955 | ||
CelTOS, a novel malarial protein that mediates transmission to mosquito and vertebrate hosts | Q30045410 | ||
Localization of apical sushi protein in Plasmodium falciparum merozoites | Q30049480 | ||
Characterisation of the rhoph2 gene of Plasmodium falciparum and Plasmodium yoelii | Q30765884 | ||
Differential transcriptome profiling identifies Plasmodium genes encoding pre-erythrocytic stage-specific proteins | Q33198612 | ||
Interaction between Plasmodium falciparum apical membrane antigen 1 and the rhoptry neck protein complex defines a key step in the erythrocyte invasion process of malaria parasites | Q33825130 | ||
Functional Profiling of a Plasmodium Genome Reveals an Abundance of Essential Genes | Q33902615 | ||
The Plasmodium eukaryotic initiation factor-2alpha kinase IK2 controls the latency of sporozoites in the mosquito salivary glands | Q33979926 | ||
Levels of circumsporozoite protein in the Plasmodium oocyst determine sporozoite morphology | Q34086386 | ||
Toxoplasma rhoptry protein 16 (ROP16) subverts host function by direct tyrosine phosphorylation of STAT6. | Q34121309 | ||
Subversion of host cellular functions by the apicomplexan parasites | Q34314006 | ||
The rhoptry proteins ROP18 and ROP5 mediate Toxoplasma gondii evasion of the murine, but not the human, interferon-gamma response. | Q34325516 | ||
A Plasmodium sporozoite protein with a membrane attack complex domain is required for breaching the liver sinusoidal cell layer prior to hepatocyte infection. | Q34385805 | ||
Proteomic analysis of rhoptry organelles reveals many novel constituents for host-parasite interactions in Toxoplasma gondii | Q34432069 | ||
The repeat region of the circumsporozoite protein is critical for sporozoite formation and maturation in Plasmodium | Q34600916 | ||
Malaria parasite clag3 genes determine channel-mediated nutrient uptake by infected red blood cells | Q35017627 | ||
ATF6beta is a host cellular target of the Toxoplasma gondii virulence factor ROP18. | Q35102296 | ||
Liver invasion by malarial parasites--how do malarial parasites break through the host barrier? | Q35939878 | ||
Toxoplasma and Plasmodium protein kinases: roles in invasion and host cell remodelling | Q36191387 | ||
A combined transcriptome and proteome survey of malaria parasite liver stages | Q36423509 | ||
A rapid and scalable density gradient purification method for Plasmodium sporozoites | Q36527101 | ||
Wheat germ cell-free system-based production of malaria proteins for discovery of novel vaccine candidates | Q36539678 | ||
Total and putative surface proteomics of malaria parasite salivary gland sporozoites. | Q36832448 | ||
Distinct malaria parasite sporozoites reveal transcriptional changes that cause differential tissue infection competence in the mosquito vector and mammalian host | Q36959930 | ||
Kiss and spit: the dual roles of Toxoplasma rhoptries | Q37024471 | ||
RALP1 is a rhoptry neck erythrocyte-binding protein of Plasmodium falciparum merozoites and a potential blood-stage vaccine candidate antigen | Q37264788 | ||
Host-cell invasion by malaria parasites: insights from Plasmodium and Toxoplasma. | Q37286565 | ||
An essential dual-function complex mediates erythrocyte invasion and channel-mediated nutrient uptake in malaria parasites | Q37699084 | ||
Plasmodium rhoptry proteins: why order is important | Q38097552 | ||
CD81 is required for rhoptry discharge during host cell invasion by Plasmodium yoelii sporozoites | Q38998250 | ||
Expression and localization of rhoptry neck protein 5 in merozoites and sporozoites of Plasmodium yoelii | Q39284969 | ||
Functional analysis of epigenetic regulation of tandem RhopH1/clag genes reveals a role in Plasmodium falciparum growth | Q39757366 | ||
Gliding motility powers invasion and egress in Apicomplexa. | Q40068658 | ||
The rhoptry neck protein RON4 re-localizes at the moving junction during Toxoplasma gondii invasion | Q40347379 | ||
A Plasmodium berghei reference line that constitutively expresses GFP at a high level throughout the complete life cycle | Q40492912 | ||
The Plasmodium falciparum clag9 gene encodes a rhoptry protein that is transferred to the host erythrocyte upon invasion | Q42459315 | ||
Development of Infectivity by the Plasmodium berghei Sporozoite | Q44140643 | ||
Selection by flow-sorting of genetically transformed, GFP-expressing blood stages of the rodent malaria parasite, Plasmodium berghei. | Q47829242 | ||
The RhopH complex is transferred to the host cell cytoplasm following red blood cell invasion by Plasmodium falciparum | Q47868921 | ||
The high molecular mass rhoptry protein, RhopH1, is encoded by members of the clag multigene family in Plasmodium falciparum and Plasmodium yoelii | Q47896181 | ||
Super-resolution dissection of coordinated events during malaria parasite invasion of the human erythrocyte | Q47970034 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | ImageQuant | Q112270642 |
P921 | main subject | Plasmodium berghei | Q65021 |
P304 | page(s) | 316 | |
P577 | publication date | 2019-09-10 | |
P1433 | published in | Frontiers in Cellular and Infection Microbiology | Q27724376 |
P1476 | title | Expression and Localization Profiles of Rhoptry Proteins in Plasmodium berghei Sporozoites | |
P478 | volume | 9 |
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