Your search keyword '"P. Chetrit"' showing total 5 results

1. Lack of mitochondrial and nuclear-encoded subunits of complex I and alteration of the respiratory chain in Nicotiana sylvestris mitochondrial deletion mutants.

Author

Gutierres S, Sabar M, Lelandais C, Chetrit P, Diolez P, Degand H, Boutry M, Vedel F, de Kouchkovsky Y, and De Paepe R

Subjects

Amino Acid Sequence, Electron Transport, Glycine metabolism, Molecular Sequence Data, NAD(P)H Dehydrogenase (Quinone) metabolism, Oxygen metabolism, Sequence Deletion, Sequence Homology, Amino Acid, Cell Nucleus metabolism, Mitochondria metabolism, Mutation, NAD(P)H Dehydrogenase (Quinone) genetics, Plants, Toxic, Nicotiana genetics

Abstract

We previously have shown that Nicotiana sylvestris cytoplasmic male sterile (CMS) mutants I and II present large mtDNA deletions and that the NAD7 subunit of complex I (the main dehydrogenase of the mitochondrial respiratory chain) is absent in CMS I. Here, we show that, despite a large difference in size in the mtDNA deletion, CMS I and II display similar alterations. Both have an impaired development from germination to flowering, with partial male sterility that becomes complete under low light. Besides NAD7, two other complex I subunits are missing (NAD9 and the nucleus-encoded, 38-kDa subunit), identified on two-dimensional patterns of mitochondrial proteins. Mitochondria isolated from CMS leaves showed altered respiration. Although their succinate oxidation through complex II was close to that of the wild type, oxidation of glycine, a priority substrate of plant mitochondria, was significantly reduced. The remaining activity was much less sensitive to rotenone, indicating the breakdown of Complex I activity. Oxidation of exogenous NADH (coupled to proton gradient generation and partly sensitive to rotenone) was strongly increased. These results suggest respiratory compensation mechanisms involving additional NADH dehydrogenases to complex I. Finally, the capacity of the cyanide-resistant alternative oxidase pathway was enhanced in CMS, and higher amounts of enzyme were evidenced by immunodetection.

Published

1997

2. Cytoplasmic male sterility is associated with large deletions in the mitochondrial DNA of two Nicotiana sylvestris protoclones.

Author

Chetrit P, Rios R, De Paepe R, Vitart V, Gutierres S, and Vedel F

Subjects

Blotting, Southern, Cells, Cultured, Chromosome Deletion, Cloning, Molecular, Cosmids, Cytoplasm metabolism, Models, Genetic, Protoplasts, Recombination, Genetic, Reproduction genetics, Restriction Mapping, Nicotiana physiology, Transcription, Genetic, DNA, Mitochondrial genetics, Mutation, Plants, Toxic, Nicotiana genetics

Abstract

Two cytoplasmic male-sterile plants (CMSI and CMSII) were obtained by protoplast culture in Nicotiana sylvestris. Both plants showed large deletions (up to 50 kb) in their mitochondrial DNA. Restriction maps of the reorganized regions suggested that the deletions occurred via two homologous recombination events (rec. 1 and rec. 2) in the parental mitochondrial genome. With the exception of nad5, no mitochondrial DNA polymorphism could be detected between parental and CMS lines using different heterologous genes probes. A sequence homologous to the Oenothera nad5 mitochondrial gene was located close to the CMSI-specific rec. 2 region. Moreover, a cDNA probe corresponding to total mitochondrial RNA from the parent line was found to hybridize to mitochondrial DNA fragments involved in the rec. 1 event common to both CMS lines, suggesting that rec. 1 lies in a transcribed region. Cytoplasmic male sterility in the Nicotiana sylvestris CMS mutants could be due either to gene deletion or to a regulatory effect of such a deletion on mitochondrial gene expression, rather than to the presence of specific polypeptides as has been shown in the T cytoplasm of maize, or in CMS Petunia.

Published

1992

3. [Hyperprolactinemia and male hypogonadism. Physiopathological value of the gonadotropin-releasing hormone pump].

Author

Fenichel P, Chetrit P, and Harter M

Subjects

Adult, Humans, Male, Gonadotropin-Releasing Hormone administration & dosage, Hyperprolactinemia physiopathology, Hypogonadism physiopathology

Published

1986

4. Mitochondrial DNA polymorphism induced by protoplast fusion in Cruciferae.

Author

Chetrit P, Mathieu C, Vedel F, Pelletier G, and Primard C

Abstract

The mitochondrial genomes of five rapeseed somatic hybrid plants, which combine in a first experimentBrassica napus chloroplasts and a cytoplasmic male sterility trait coming fromRaphanus sativus, and in a second experiment chloroplasts of a triazine resistantB. compestris and a cytoplasmic male sterility trait fromR. sativus, were analyzed by restriction endonucleases. Restriction fragment patterns indicate that these genomes differ from each other and from both parents. The presence of new bands in the somatic hybrid mitochondrial DNA restriction patterns is evidence of mitochondrial recombination in somatic hybrid cells. In both parental and somatic hybrid plants large quantitative variations in a mitochondrial plasmid-like DNA have been observed. Our results suggest that the cytoplasmic support for male sterility is located in the chromosomal mitochondrial DNA instead of the plasmid-like DNA.

Published

1985

5. A cross-hybridization method for DNA mapping with photobiotin-labeled probes.

Author

Chetrit P, Gaudin V, de Courcel A, and Vedel F

Subjects

Affinity Labels, Electrophoresis, Agar Gel, Azides, Biotin analogs & derivatives, DNA analysis, DNA Probes, Nucleic Acid Hybridization

Abstract

An efficient procedure combining the Southern Cross method described by H. Potter and D. Dressler (1986, Gene 48, 229-239) and the use of nonradioactive reporter molecules which allows fast restriction mapping of DNA molecules up to 40 kb is described. In this method, photobiotin-labeled fragments for one restriction enzyme cross-hybridize with at least five unlabeled digests transferred onto nylon membranes. Hybridization spots are revealed on recipient membranes at a homologous fragment cross, allowing direct restriction map construction. In comparison with 32P "cross-blot" hybridization, photobiotin labeling is safer, faster, and easier to dispose of.

Published

1989