[Radiation biology of structurally different Drosophila melanogaster genes. Report I. The vestigial gene: molecular characteristic of "point" mutations].

G) as shown by the sequencing. Therefore, gamma-rays and neutrons seem to be significant environmental agents increasing the SNP risk for the population through their action on the germ cells. The results obtained are also discussed within the framework of the track structure theory and the notion of quite different chromatin organization in somatic and germ cells. -->
Substance Nomenclature: 0 (Drosophila Proteins)
0 (Nuclear Proteins)
0 (Nucleosomes)
0 (vg protein, Drosophila)
9007-49-2 (DNA)
Entry Date(s): Date Created: 20120816 Date Completed: 20121002 Latest Revision: 20190524
Update Code: 20231215
PMID: 22891545
Autor: Aleksandrov ID, Afanas'eva KP, Aleksandrova MV, Lapidus IL
Jazyk: ruština
Zdroj: Radiatsionnaia biologiia, radioecologiia [Radiats Biol Radioecol] 2012 May-Jun; Vol. 52 (3), pp. 234-46.
Abstrakt: The screening of PCR-detected DNA alterations in 9 spontaneous and 59 gamma-ray-, neutron - or neutron + gamma-ray-induced Drosophila vestigial (vg) gene/"point" mutations was carried out. The detected patterns of existence or absence of either of 16 overlapping fragments into which vg gene (15.1 kb, 8 exons, 7 introns) was divided enable us to subdivide all mutants into 4 classes: (i) PCR+ (40.7%) without the detected changes; (ii) "single-site" (33.9%) with the loss of a single fragment; (iii) partial detections (15.2%) as a loss of 2-9 adjacent fragments and (iv) "cluster" mutants (10.2%) having 2-3 independent changes of(ii) and/or (iii) classes. All spontaneous mutants except one were found to be classified as (ii) whereas radiation-induced mutants are represented by all 4 classes whose interrelation is determined by the dose and radiation quality. In particular, the efficacy of neutrons was found to be nine times as large as that of gamma-rays under the "cluster" mutant induction. Essentially, the distribution of DNA changes along the gene is uneven. CSGE-assay of PCR+-exon 3 revealed DNA heteroduplexes in 5 out of 17 PCR+-mutants studied, 2 of which had small deletions (5 and 11 b) and 3 others made transitions (A --> G) as shown by the sequencing. Therefore, gamma-rays and neutrons seem to be significant environmental agents increasing the SNP risk for the population through their action on the germ cells. The results obtained are also discussed within the framework of the track structure theory and the notion of quite different chromatin organization in somatic and germ cells.
Databáze: MEDLINE
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