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1.
PLoS One ; 2(5): e437, 2007 May 09.
Artículo en Inglés | MEDLINE | ID: mdl-17487282

RESUMEN

To perform their multiple functions, cilia and flagella are precisely positioned at the cell surface by mechanisms that remain poorly understood. The protist Trypanosoma brucei possesses a single flagellum that adheres to the cell body where a specific cytoskeletal structure is localised, the flagellum attachment zone (FAZ). Trypanosomes build a new flagellum whose distal tip is connected to the side of the old flagellum by a discrete structure, the flagella connector. During this process, the basal body of the new flagellum migrates towards the posterior end of the cell. We show that separate inhibition of flagellum assembly, base-to-tip motility or flagella connection leads to reduced basal body migration, demonstrating that the flagellum contributes to its own positioning. We propose a model where pressure applied by movements of the growing new flagellum on the flagella connector leads to a reacting force that in turn contributes to migration of the basal body at the proximal end of the flagellum.


Asunto(s)
Tipificación del Cuerpo , Flagelos , Trypanosoma brucei brucei/fisiología , Animales , Modelos Teóricos
2.
Mol Biochem Parasitol ; 152(2): 123-31, 2007 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-17270289

RESUMEN

Trypanosomatids are widespread parasites that cause three major tropical diseases. In trypanosomatids, as in most other organisms, acetylation is a common protein modification that is important in multiple, diverse processes. This paper describes a new member of the Trypanosoma cruzi acetyltransferase family. The gene is single copy and orthologs are also present in the other two sequenced trypanosomatids, Trypanosoma brucei and Leishmania major. This protein (TcAT-1) has the essential motifs present in members of the GCN5-related acetyltransferase (GNAT) family, as well as an additional motif also found in some enzymes from plant and animal species. The protein is evolutionarily more closely related to this group of enzymes than to histone acetyltransferases. The native protein has a cytosolic cellular location and is present in all three life-cycle stages of the parasite. The recombinant protein was shown to have autoacetylation enzymatic activity.


Asunto(s)
Acetiltransferasas/química , Trypanosoma cruzi/enzimología , Acetilación , Acetiltransferasas/genética , Acetiltransferasas/metabolismo , Secuencia de Aminoácidos , Animales , Citoplasma/metabolismo , Genes Protozoarios , Datos de Secuencia Molecular , Filogenia , Poliadenilación , Estructura Secundaria de Proteína , ARN Mensajero/metabolismo , Proteínas Recombinantes/química , Proteínas Recombinantes/metabolismo , Alineación de Secuencia , Análisis de Secuencia de Proteína , Trypanosoma cruzi/genética , Trypanosoma cruzi/metabolismo
3.
J Cell Sci ; 119(Pt 16): 3443-55, 2006 Aug 15.
Artículo en Inglés | MEDLINE | ID: mdl-16882690

RESUMEN

The Trypanosoma brucei flagellum is unusual as it is attached along the cell body and contains, in addition to an apparently conventional axoneme, a structure called the paraflagellar rod, which is essential for cell motility. Here, we investigated flagellum behaviour in normal and mutant trypanosome cell lines where expression of genes encoding various axoneme proteins (PF16, PF20, DNAI1, LC2) had been silenced by RNAi. First, we show that the propulsive wave (normally used for forward motility) is abolished in the absence of outer dynein arms, whereas the reverse wave (normally used for changing direction) still occurs. Second, in contrast to Chlamydomonas--but like metazoa, the central pair adopts a fixed orientation during flagellum beating. This orientation becomes highly variable in central-pair- and outer-dynein-arm-mutants. Third, the paraflagellar rod contributes to motility by facilitating three-dimensional wave propagation and controlling cell shape. Fourth, motility is required to complete the last stage of cell division in both insect and bloodstream stages of the parasite. Finally, our study also reveals the conservation of molecular components of the trypanosome flagellum. Coupled to the ease of reverse genetics, it raises the interest of trypanosomes as model organisms to study cilia and flagella.


Asunto(s)
Cilios/metabolismo , Flagelos/metabolismo , Proteínas Protozoarias/metabolismo , Trypanosoma brucei brucei/fisiología , Animales , Proteínas Protozoarias/antagonistas & inhibidores , Proteínas Protozoarias/genética , ARN Interferente Pequeño/farmacología
4.
Mol Biochem Parasitol ; 147(1): 30-8, 2006 May.
Artículo en Inglés | MEDLINE | ID: mdl-16481054

RESUMEN

As a part of the Trypanosoma cruzi genome project, 239 genetic markers were hybridised to PFGE separated DNA from T. cruzi, in order to determine the number and size of chromosomes and to aid the assembly of the genome sequence. We used three strains, T. cruzi IIe CL Brener (the genome project reference strain) and two T. cruzi I strains, Sylvio X10/7 and CAI/72, to perform a comparative study of their karyotypes and to determine marker linkage. A densitometry analysis of the separations estimated the total chromosome numbers to be 55 in CL Brener and 57 in the two other strains. In all, 45 markers hybridised to single chromosomal bands and 103 markers to two bands in CL Brener, while the number of markers in Sylvio X10/7 and CAI/72 were 102/68 and 61/105, respectively. Size differences between homologous chromosomes were often large, up to 1900 kb (173%). The average difference was 36% for CL Brener and 23.5% for the T. cruzi I strains. Larger differences in CL Brener are consistent with a recent hybrid origin. Forty markers distributed into 15 linkage groups were found to identify specific chromosomes or chromosomes pairs. While the same markers are generally linked in all three strains, the sizes of the chromosomes vary extensively, indicating large chromosomal rearrangements. These data provide valuable information for the finishing of the CL Brener genome sequence.


Asunto(s)
Mapeo Cromosómico/métodos , Genoma de Protozoos/genética , Trypanosoma cruzi/genética , Animales , Bandeo Cromosómico , ADN Complementario/genética , Electroforesis en Gel de Campo Pulsado , Marcadores Genéticos , Cariotipificación , Proteínas Protozoarias/genética , Trypanosoma cruzi/clasificación
5.
Science ; 309(5733): 409-15, 2005 Jul 15.
Artículo en Inglés | MEDLINE | ID: mdl-16020725

RESUMEN

Whole-genome sequencing of the protozoan pathogen Trypanosoma cruzi revealed that the diploid genome contains a predicted 22,570 proteins encoded by genes, of which 12,570 represent allelic pairs. Over 50% of the genome consists of repeated sequences, such as retrotransposons and genes for large families of surface molecules, which include trans-sialidases, mucins, gp63s, and a large novel family (>1300 copies) of mucin-associated surface protein (MASP) genes. Analyses of the T. cruzi, T. brucei, and Leishmania major (Tritryp) genomes imply differences from other eukaryotes in DNA repair and initiation of replication and reflect their unusual mitochondrial DNA. Although the Tritryp lack several classes of signaling molecules, their kinomes contain a large and diverse set of protein kinases and phosphatases; their size and diversity imply previously unknown interactions and regulatory processes, which may be targets for intervention.


Asunto(s)
Genoma de Protozoos , Proteínas Protozoarias/genética , Análisis de Secuencia de ADN , Trypanosoma cruzi/genética , Animales , Enfermedad de Chagas/tratamiento farmacológico , Enfermedad de Chagas/parasitología , Reparación del ADN , Replicación del ADN , ADN Mitocondrial/genética , ADN Protozoario/genética , Genes Protozoarios , Humanos , Meiosis , Proteínas de la Membrana/química , Proteínas de la Membrana/genética , Proteínas de la Membrana/fisiología , Familia de Multigenes , Proteínas Protozoarias/química , Proteínas Protozoarias/fisiología , Recombinación Genética , Secuencias Repetitivas de Ácidos Nucleicos , Retroelementos , Transducción de Señal , Telómero/genética , Tripanocidas/farmacología , Tripanocidas/uso terapéutico , Trypanosoma cruzi/química , Trypanosoma cruzi/fisiología
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