Philippe Bastin

Efficiency and specificity of RNA interference generated by intra- and intermolecular double stranded RNA in Trypanosoma brucei.

Novel roles for the flagellum in cell morphogenesis and cytokinesis of trypanosomes.

TbAGO1, an argonaute protein required for RNA interference, is involved in mitosis and chromosome segregation in Trypanosoma brucei.

[The flagellum: from cell motility to morphogenesis].

Functional complementation of RNA interference mutants in trypanosomes.

The flagellum of trypanosomes.

Conserved and specific functions of axoneme components in trypanosome motility.

Basal body positioning is controlled by flagellum formation in Trypanosoma brucei.

The Argonaute protein TbAGO1 contributes to large and mini-chromosome segregation and is required for control of RIME retroposons and RHS pseudogene-associated transcripts.

Intraflagellar transport and functional analysis of genes required for flagellum formation in trypanosomes.

Flagellum elongation is required for correct structure, orientation and function of the flagellar pocket in Trypanosoma brucei.

The flagellum-mitogen-activated protein kinase connection in Trypanosomatids: a key sensory role in parasite signalling and development?

A novel function for the atypical small G protein Rab-like 5 in the assembly of the trypanosome flagellum.

Loss-of-function mutations in the human ortholog of Chlamydomonas reinhardtii ODA7 disrupt dynein arm assembly and cause primary ciliary dyskinesia.

Kinesin 9 family members perform separate functions in the trypanosome flagellum.

Tools for analyzing intraflagellar transport in trypanosomes.

The ciliary pocket: an endocytic membrane domain at the base of primary and motile cilia.

The peculiarities of flagella in parasitic protozoa.

Cyclosporin A treatment of Leishmania donovani reveals stage-specific functions of cyclophilins in parasite proliferation and viability.

Molecular bases of cytoskeleton plasticity during the Trypanosoma brucei parasite cycle.

1001 model organisms to study cilia and flagella.

The ciliary pocket: a once-forgotten membrane domain at the base of cilia.

Quantitative proteome profiling informs on phenotypic traits that adapt Leishmania donovani for axenic and intracellular proliferation.

[The importance of model organisms to study cilia and flagella biology].

ALBA proteins are stage regulated during trypanosome development in the tsetse fly and participate in differentiation.

NUP-1 Is a large coiled-coil nucleoskeletal protein in trypanosomes with lamin-like functions.

A new asymmetric division contributes to the continuous production of infective trypanosomes in the tsetse fly.

Intraflagellar transport proteins cycle between the flagellum and its base.

Trypanosoma brucei FKBP12 differentially controls motility and cytokinesis in procyclic and bloodstream forms.

Apoptotic marker expression in the absence of cell death in staurosporine-treated Leishmania donovani.

Molecular basis of tubulin transport within the cilium by IFT74 and IFT81.

Forward motility is essential for trypanosome infection in the tsetse fly.

Flagellar adhesion in Trypanosoma brucei relies on interactions between different skeletal structures in the flagellum and cell body.

Getting to the heart of intraflagellar transport using Trypanosoma and Chlamydomonas models: the strength is in their differences.

More than meets the eye: understanding Trypanosoma brucei morphology in the tsetse.

Boarder control on the IFT train.

Proteomic analysis of intact flagella of procyclic Trypanosoma brucei cells identifies novel flagellar proteins with unique sub-localization and dynamics.

The Leishmania donovani chaperone cyclophilin 40 is essential for intracellular infection independent of its stage-specific phosphorylation status.

The GTPase IFT27 is involved in both anterograde and retrograde intraflagellar transport.

The intraflagellar transport dynein complex of trypanosomes is made of a heterodimer of dynein heavy chains and of light and intermediate chains of distinct functions.

[Elongation of the axoneme and dynamics of intraflagellar transport].

Generation of a nanobody targeting the paraflagellar rod protein of trypanosomes.

Social motility in African trypanosomes: fact or model?

Imaging intraflagellar transport in trypanosomes.

The more we know, the more we have to discover: an exciting future for understanding cilia and ciliopathies.

Scanning transmission electron microscopy through-focal tilt-series on biological specimens.

The Flagellar Arginine Kinase in Trypanosoma brucei Is Important for Infection in Tsetse Flies.

IFT81, encoding an IFT-B core protein, as a very rare cause of a ciliopathy phenotype.

Flagellar membranes are rich in raft-forming phospholipids.

Intraflagellar transport is required for the maintenance of the trypanosome flagellum composition but not its length.

Escalation of Commitment in Treatment Decisions Near the End of Life.