Your search keyword '"Fabienne Girard-Misguich"' showing total 2 results

1. Eimeria tenella enolase and pyruvate kinase: a likely role in glycolysis and in others functions

Author

Marylène Péroval, Marie Labbé, Pierre Péry, Fabienne Girard-Misguich, and Christiane Bourdieu

Subjects

Enolase, Molecular Sequence Data, Pyruvate Kinase, Fluorescent Antibody Technique, Apicomplexa, Schizogony, Mice, Complementary DNA, parasitic diseases, Animals, Glycolysis, Amino Acid Sequence, chemistry.chemical_classification, Mice, Inbred BALB C, biology, cDNA library, Coccidiosis, Sequence Analysis, DNA, DNA, Protozoan, biology.organism_classification, Culture Media, Infectious Diseases, Enzyme, chemistry, Biochemistry, Sporozoites, Phosphopyruvate Hydratase, Parasitology, Female, DNA, Circular, Sequence Alignment, Pyruvate kinase, Eimeria tenella

Abstract

Two cDNA codings for glycolytic enzymes were cloned from a cDNA library constructed from the schizont stage of the avian parasite Eimeria tenella. Enolase and pyruvate kinase cDNA were fully sequenced and compared with sequences of enzymes from other organisms. Although these enzymes were already detected in the sporozoite stage, their expression was enhanced during the first schizogony in accordance with the anaerobic conditions of this part of the life cycle of the parasite. Under activating conditions, microscopic observations suggest that these glycolytic enzymes were relocalised inside sporozoites and moreover were in part secreted. The enzymes were also localised at the apex of the first generation of merozoites. Enolase was partly observed inside the nucleus of sporozoites and schizonts. Taken together, these results suggest that glycolytic enzymes not only have a function in glycolysis during anaerobic intracellular stages but may also participate in the invasion process and, for enolase, in the control of gene regulation.

Published

2006

2. Towards a reference map of Eimeria tenella sporozoite proteins by two-dimensional electrophoresis and mass spectrometry

Author

Jean François Chich, Damarys Loew, Patrick de Venevelles, Fabienne Girard-Misguich, Pierre Péry, Wolfgang Faigle, Marie Labbé, Unité de recherche Virologie et Immunologie Moléculaires (VIM (UR 0892)), Institut National de la Recherche Agronomique (INRA), Laboratoire de Spectrométrie de Masse Protéomique, and Institut Curie [Paris]

Subjects

MASS SPECTROMETRY, Proteomics, REFERENCE MAP, Gene prediction, Molecular Sequence Data, Antigens, Protozoan, Computational biology, Genome, Eimeria, 030308 mycology & parasitology, Apicomplexa, 03 medical and health sciences, Sequence Analysis, Protein, parasitic diseases, Consensus Sequence, Animals, Electrophoresis, Gel, Two-Dimensional, Amino Acid Sequence, Intestinal Diseases, Parasitic, Peptide sequence, Poultry Diseases, 030304 developmental biology, 0303 health sciences, biology, Base Sequence, Coccidiosis, Immunogenicity, Genome project, biology.organism_classification, Molecular biology, TWO-DIMENSIONAL ELECTROPHORESIS, Infectious Diseases, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Sporozoites, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Parasitology, Chickens, Eimeria tenella

Abstract

International audience; Eimeria tenella is a parasite of great importance as a disease causing agent in the poultry industry. Until recently, biological studies have focused on specific proteins, some of which play an important role in the parasite life cycle. Post-genomic studies will make it possible to understand the complexity of the parasites and their interactions with host cells. Here we present a systematic reference map of the proteins from E. tenella sporozoites. The proteins expressed at the sporozoite stage were resolved between isoelectric points 3–10 and 4–7. They were systematically identified using mass spectrometry and 16 known Eimeria sporozoite proteins were identified on two-dimensional maps. Peptide fragmentation data from mass spectrometry were compared to single and consensus expression sequence tags in databases and to the E. tenella genome (not annotated). Among the set of unknown proteins analysed, 12 new assignments were proposed on the basis of similarities with Apicomplexa proteins. In order to define sporozoite proteins as potential targets for coccidiosis therapy, proteins were studied according to their relative abundance and immunogenicity in the sporozoite. Immunoblots of sporozoite 2D maps with chicken sera were performed and approximately 50 proteins were defined as antigens. It was shown that abundance and immunogenicity are not related in the sporozoite stage. Perspectives of gene prediction and completion of the genome annotation by a proteomic approach is discussed.

Published

2004