Model RNG2 as a molecular tether for conoid apical anchorage.

Illustration of the consequences of RNG2 depletion on the apical complex structure of Toxoplasma gondii tachyzoites.

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Auteur principal:	Romuald Haase (22339777) (author)
Autres auteurs:	Bingjian Ren (22676577) (author), Albert Tell i Puig (22676580) (author), Alessandro Bonavoglia (19415718) (author), Jean-Baptiste Marq (375239) (author), Rémy Visentin (22676583) (author), Nicolas Dos Santos Pacheco (22676586) (author), Bohumil Maco (383443) (author), Ricardo Mondragón-Flores (10737057) (author), Oscar Vadas (2416228) (author), Dominique Soldati-Favre (79026) (author)
Publié:	2025
Sujets:	Biophysics Biochemistry Microbiology Cell Biology Physiology Infectious Diseases Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified toxoplasma gondii </ remains apically anchored heterologous expression systems div >< p apical polar ring biochemical analysis revealed proper conoid anchorage ensures conoid functionality less parasites revealed host cell invasion enable parasite motility controlling parasite motility although rng2 depletion intact conoid organelle organelle traverses intact protein conditional depletion biochemical properties detached conoid gliding motility unstable protein undergoes extrusion two structures strong candidate striking detachment still unclear rng2 tethers rng2 led rng2 emerges rhoptries follow resilient bridge protein localized plasma membrane pivotal protein likely facilitate large coiled immunoelectron microscopy functional activity enabling rng2 electron tomography dependent extrusion critical role concatenated assemblies comprehensive mutagenesis coil domains calcium waves
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author	Romuald Haase (22339777)
author2	Bingjian Ren (22676577) Albert Tell i Puig (22676580) Alessandro Bonavoglia (19415718) Jean-Baptiste Marq (375239) Rémy Visentin (22676583) Nicolas Dos Santos Pacheco (22676586) Bohumil Maco (383443) Ricardo Mondragón-Flores (10737057) Oscar Vadas (2416228) Dominique Soldati-Favre (79026)
author2_role	author author author author author author author author author author
author_facet	Romuald Haase (22339777) Bingjian Ren (22676577) Albert Tell i Puig (22676580) Alessandro Bonavoglia (19415718) Jean-Baptiste Marq (375239) Rémy Visentin (22676583) Nicolas Dos Santos Pacheco (22676586) Bohumil Maco (383443) Ricardo Mondragón-Flores (10737057) Oscar Vadas (2416228) Dominique Soldati-Favre (79026)
author_role	author
dc.creator.none.fl_str_mv	Romuald Haase (22339777) Bingjian Ren (22676577) Albert Tell i Puig (22676580) Alessandro Bonavoglia (19415718) Jean-Baptiste Marq (375239) Rémy Visentin (22676583) Nicolas Dos Santos Pacheco (22676586) Bohumil Maco (383443) Ricardo Mondragón-Flores (10737057) Oscar Vadas (2416228) Dominique Soldati-Favre (79026)
dc.date.none.fl_str_mv	2025-11-24T18:31:15Z
dc.identifier.none.fl_str_mv	10.1371/journal.pbio.3003506.g008
dc.relation.none.fl_str_mv	https://figshare.com/articles/figure/Model_RNG2_as_a_molecular_tether_for_conoid_apical_anchorage_/30697380
dc.rights.none.fl_str_mv	CC BY 4.0 info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv	Biophysics Biochemistry Microbiology Cell Biology Physiology Infectious Diseases Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified toxoplasma gondii </ remains apically anchored heterologous expression systems div >< p apical polar ring biochemical analysis revealed proper conoid anchorage ensures conoid functionality less parasites revealed host cell invasion enable parasite motility controlling parasite motility although rng2 depletion intact conoid organelle organelle traverses intact protein conditional depletion biochemical properties detached conoid gliding motility unstable protein undergoes extrusion two structures strong candidate striking detachment still unclear rng2 tethers rng2 led rng2 emerges rhoptries follow resilient bridge protein localized plasma membrane pivotal protein likely facilitate large coiled immunoelectron microscopy functional activity enabling rng2 electron tomography dependent extrusion critical role concatenated assemblies comprehensive mutagenesis coil domains calcium waves
dc.title.none.fl_str_mv	Model RNG2 as a molecular tether for conoid apical anchorage.
dc.type.none.fl_str_mv	Image Figure info:eu-repo/semantics/publishedVersion image
description	<p>Illustration of the consequences of RNG2 depletion on the apical complex structure of <i>T</i>oxoplasma <i>gondii</i> tachyzoites.</p>
eu_rights_str_mv	openAccess
id	Manara_9a9271fa3165fb5691db5459692de3c1
identifier_str_mv	10.1371/journal.pbio.3003506.g008
network_acronym_str	Manara
network_name_str	ManaraRepo
oai_identifier_str	oai:figshare.com:article/30697380
publishDate	2025
repository.mail.fl_str_mv
repository.name.fl_str_mv
repository_id_str
rights_invalid_str_mv	CC BY 4.0
spelling	Model RNG2 as a molecular tether for conoid apical anchorage.Romuald Haase (22339777)Bingjian Ren (22676577)Albert Tell i Puig (22676580)Alessandro Bonavoglia (19415718)Jean-Baptiste Marq (375239)Rémy Visentin (22676583)Nicolas Dos Santos Pacheco (22676586)Bohumil Maco (383443)Ricardo Mondragón-Flores (10737057)Oscar Vadas (2416228)Dominique Soldati-Favre (79026)BiophysicsBiochemistryMicrobiologyCell BiologyPhysiologyInfectious DiseasesEnvironmental Sciences not elsewhere classifiedBiological Sciences not elsewhere classifiedPhysical Sciences not elsewhere classifiedtoxoplasma gondii </remains apically anchoredheterologous expression systemsdiv >< papical polar ringbiochemical analysis revealedproper conoid anchorageensures conoid functionalityless parasites revealedhost cell invasionenable parasite motilitycontrolling parasite motilityalthough rng2 depletionintact conoid organelleorganelle traversesintact proteinconditional depletionbiochemical propertiesdetached conoidgliding motilityunstable proteinundergoes extrusiontwo structuresstrong candidatestriking detachmentstill unclearrng2 tethersrng2 ledrng2 emergesrhoptries followresilient bridgeprotein localizedplasma membranepivotal proteinlikely facilitatelarge coiledimmunoelectron microscopyfunctional activityenabling rng2electron tomographydependent extrusioncritical roleconcatenated assembliescomprehensive mutagenesiscoil domainscalcium waves<p>Illustration of the consequences of RNG2 depletion on the apical complex structure of <i>T</i>oxoplasma <i>gondii</i> tachyzoites.</p>2025-11-24T18:31:15ZImageFigureinfo:eu-repo/semantics/publishedVersionimage10.1371/journal.pbio.3003506.g008https://figshare.com/articles/figure/Model_RNG2_as_a_molecular_tether_for_conoid_apical_anchorage_/30697380CC BY 4.0info:eu-repo/semantics/openAccessoai:figshare.com:article/306973802025-11-24T18:31:15Z
spellingShingle	Model RNG2 as a molecular tether for conoid apical anchorage. Romuald Haase (22339777) Biophysics Biochemistry Microbiology Cell Biology Physiology Infectious Diseases Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified toxoplasma gondii </ remains apically anchored heterologous expression systems div >< p apical polar ring biochemical analysis revealed proper conoid anchorage ensures conoid functionality less parasites revealed host cell invasion enable parasite motility controlling parasite motility although rng2 depletion intact conoid organelle organelle traverses intact protein conditional depletion biochemical properties detached conoid gliding motility unstable protein undergoes extrusion two structures strong candidate striking detachment still unclear rng2 tethers rng2 led rng2 emerges rhoptries follow resilient bridge protein localized plasma membrane pivotal protein likely facilitate large coiled immunoelectron microscopy functional activity enabling rng2 electron tomography dependent extrusion critical role concatenated assemblies comprehensive mutagenesis coil domains calcium waves
status_str	publishedVersion
title	Model RNG2 as a molecular tether for conoid apical anchorage.
title_full	Model RNG2 as a molecular tether for conoid apical anchorage.
title_fullStr	Model RNG2 as a molecular tether for conoid apical anchorage.
title_full_unstemmed	Model RNG2 as a molecular tether for conoid apical anchorage.
title_short	Model RNG2 as a molecular tether for conoid apical anchorage.
title_sort	Model RNG2 as a molecular tether for conoid apical anchorage.
topic	Biophysics Biochemistry Microbiology Cell Biology Physiology Infectious Diseases Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified toxoplasma gondii </ remains apically anchored heterologous expression systems div >< p apical polar ring biochemical analysis revealed proper conoid anchorage ensures conoid functionality less parasites revealed host cell invasion enable parasite motility controlling parasite motility although rng2 depletion intact conoid organelle organelle traverses intact protein conditional depletion biochemical properties detached conoid gliding motility unstable protein undergoes extrusion two structures strong candidate striking detachment still unclear rng2 tethers rng2 led rng2 emerges rhoptries follow resilient bridge protein localized plasma membrane pivotal protein likely facilitate large coiled immunoelectron microscopy functional activity enabling rng2 electron tomography dependent extrusion critical role concatenated assemblies comprehensive mutagenesis coil domains calcium waves

Model RNG2 as a molecular tether for conoid apical anchorage.

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