scholarly article | Q13442814 |
P2093 | author name string | David M Engman | |
Joann M Taylor | |||
Melvin D Daniels | |||
Conrad L Epting | |||
Brian T Emmer | |||
P2860 | cites work | Evolution of the EF-hand family of proteins | Q28238216 |
A tightly regulated inducible expression system for conditional gene knock-outs and dominant-negative genetics in Trypanosoma brucei | Q29617358 | ||
Flagellar motility contributes to cytokinesis in Trypanosoma brucei and is modulated by an evolutionarily conserved dynein regulatory system | Q30477309 | ||
Eliminating human African trypanosomiasis: where do we stand and what comes next? | Q33321396 | ||
Antigenic variation in trypanosomes: enhanced phenotypic variation in a eukaryotic parasite | Q34084350 | ||
Identification, purification and properties of clone-specific glycoprotein antigens constituting the surface coat ofTrypanosoma brucei | Q34260836 | ||
The acidocalcisome | Q34264878 | ||
Hyperactivation of mammalian spermatozoa: function and regulation | Q34380419 | ||
Biology and mechanism of trypanosome cell motility | Q35102895 | ||
Calcium regulation in protozoan parasites | Q35206897 | ||
Hydrolysis products of cAMP analogs cause transformation of Trypanosoma brucei from slender to stumpy-like forms. | Q35539852 | ||
Axenic culture of African trypanosome bloodstream forms | Q35846319 | ||
Regulation of innate and acquired immunity in African trypanosomiasis | Q36265002 | ||
A gene from the variant surface glycoprotein expression site encodes one of several transmembrane adenylate cyclases located on the flagellum of Trypanosoma brucei | Q36963334 | ||
Trypanosoma rhodesiense: analysis of the genetic control of resistance among mice. | Q37081236 | ||
Flagellar membrane localization via association with lipid rafts | Q37271610 | ||
Cultivation and in vitro cloning or procyclic culture forms of Trypanosoma brucei in a semi-defined medium. Short communication | Q39295878 | ||
The properties and function of the glycosylphosphatidylinositol-phospholipase C in Trypanosoma brucei | Q41758665 | ||
Identification of a palmitoyl acyltransferase required for protein sorting to the flagellar membrane | Q41874749 | ||
The gene family of EF-hand calcium-binding proteins from the flagellum of Trypanosoma brucei | Q41997018 | ||
The predominant calcimedins from Trypanosoma brucei comprise a family of flagellar EF-hand calcium-binding proteins | Q42801385 | ||
The Trypanosoma brucei cAMP phosphodiesterases TbrPDEB1 and TbrPDEB2: flagellar enzymes that are essential for parasite virulence | Q43583090 | ||
Functional genomics in Trypanosoma brucei identifies evolutionarily conserved components of motile flagella. | Q46151100 | ||
Antigenic variation in clones of animal-infective Trypanosoma brucei derived and maintained in vitro | Q46582495 | ||
A flagellum-specific calcium sensor. | Q46691141 | ||
Flagellar motility is required for the viability of the bloodstream trypanosome | Q47219440 | ||
RNAit: an automated web-based tool for the selection of RNAi targets in Trypanosoma brucei. | Q53863631 | ||
Rapid isolation of DNA from trypanosomatid protozoa using a simple 'mini-prep' procedure. | Q54656629 | ||
Hydrodynamic Flow-Mediated Protein Sorting on the Cell Surface of Trypanosomes | Q56656155 | ||
Identification of calcium binding sites in the trypanosome flagellar calcium-acyl switch protein | Q57363778 | ||
Protein transport and flagellum assembly dynamics revealed by analysis of the paralysed trypanosome mutant snl-1 | Q61540312 | ||
Flagellar wave reversal in the kinetoplastid flagellate Crithidia oncopelti | Q67988790 | ||
A novel flagellar Ca2+-binding protein in trypanosomes | Q69550442 | ||
Detection of calcium binding proteins by 45Ca autoradiography on nitrocellulose membrane after sodium dodecyl sulfate gel electrophoresis | Q71327260 | ||
Comparison of the effects of immune killing mechanisms on Trypanosoma brucei parasites of slender and stumpy morphology | Q72588084 | ||
Inhibition of Trypanosoma brucei gene expression by RNA interference using an integratable vector with opposing T7 promoters | Q73025256 | ||
P433 | issue | 6 | |
P921 | main subject | Trypanosoma brucei | Q33244 |
P304 | page(s) | 934-942 | |
P577 | publication date | 2010-04-23 | |
P1433 | published in | Eukaryotic Cell | Q5408685 |
P1476 | title | Calflagin inhibition prolongs host survival and suppresses parasitemia in Trypanosoma brucei infection | |
P478 | volume | 9 |
Q44381469 | (1)H, (15)N, and (13)C chemical shift assignments of the calflagin Tb24 flagellar calcium binding protein of Trypanosoma brucei. |
Q37833124 | 1001 model organisms to study cilia and flagella |
Q34308377 | Acylation in trypanosomatids: an essential process and potential drug target |
Q37307047 | Bloodstream form pre-adaptation to the tsetse fly in Trypanosoma brucei. |
Q36103902 | Cell Surface Proteomics Provides Insight into Stage-Specific Remodeling of the Host-Parasite Interface in Trypanosoma brucei |
Q35982663 | Characterization of Calflagin, a Flagellar Calcium-Binding Protein from Trypanosoma congolense |
Q37767911 | Composition and sensory function of the trypanosome flagellar membrane |
Q37286649 | Differential protein expression throughout the life cycle of Trypanosoma congolense, a major parasite of cattle in Africa |
Q39146927 | Dynamic protein S-palmitoylation mediates parasite life cycle progression and diverse mechanisms of virulence |
Q30698901 | Extracellular Vesicles from Trypanosoma brucei Mediate Virulence Factor Transfer and Cause Host Anemia |
Q26776334 | Flagellar membrane proteins in kinetoplastid parasites |
Q37711560 | Giant FAZ10 is required for flagellum attachment zone stabilization and furrow positioning in Trypanosoma brucei. |
Q34739483 | Global analysis of protein palmitoylation in African trypanosomes. |
Q60952459 | Gluconeogenesis is essential for trypanosome development in the tsetse fly vector |
Q35497694 | Independent analysis of the flagellum surface and matrix proteomes provides insight into flagellum signaling in mammalian-infectious Trypanosoma brucei |
Q34057290 | Insect stage-specific receptor adenylate cyclases are localized to distinct subdomains of the Trypanosoma brucei Flagellar membrane |
Q55608132 | Membrane Proteins in Trypanosomatids Involved in Ca2+ Homeostasis and Signaling. |
Q30611967 | Motility and more: the flagellum of Trypanosoma brucei |
Q30389430 | Mouse infection and pathogenesis by Trypanosoma brucei motility mutants |
Q27673628 | NMR structure of the calflagin Tb24 flagellar calcium binding protein ofTrypanosoma brucei |
Q30582839 | Proteomic analysis of intact flagella of procyclic Trypanosoma brucei cells identifies novel flagellar proteins with unique sub-localization and dynamics |
Q34428853 | Social motility of African trypanosomes is a property of a distinct life-cycle stage that occurs early in tsetse fly transmission. |
Q41662254 | The Lipid Raft Proteome of African Trypanosomes Contains Many Flagellar Proteins |
Q35562663 | Trypanosoma brucei metacaspase 4 is a pseudopeptidase and a virulence factor |
Q35000637 | Trypanosoma brucei: Two mitogen activated protein kinase kinases are dispensable for growth and virulence of the bloodstream form |