Sex hormones and cardiovascular risk in male mining workers living in the European North

Age-related decrease in blood concentration of testosterone and dehydroepiandrosterone sulfate was found in mining workers living in the European North. The correlation analysis reveals associations of both hormones with biological age and testosterone with plasma lipid profile. The age dependence of cardiovascular risk and the hormonal mechanisms of its development are discussed.     

Gene RAD31 is identical to gene MEC1 of yeast Saccharomyces cerevisiae

The earlier identified gene RAD31 was mapped on the right arm of chromosome II in the region of gene MEC1 localization. Epistatic analysis demonstrated that the rad31 mutation is an allele of the MEC1 gene, which allows further designation of the rad31 mutation as mec1-212. Mutation mec1-212, similar to deletion alleles of this gene, causes sensitivity to hydroxyurea, disturbs the check-point function, and suppresses UV-induced mutagenesis. However, this mutation significantly increases the frequency of spontaneous canavanine-resistance mutations induced by disturbances in correcting errors of DNA replication and repair, which distinguishes it from all identified alleles of gene MEC1.     

Gene <Emphasis Type="Italic">RAD31</Emphasis> is identical to gene <Emphasis Type="Italic">MEC1</Emphasis> of yeast <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

The earlier identified gene RAD31 was mapped on the right arm of chromosome II in the region of gene MEC1 localization. Epistatic analysis demonstrated that the rad31 mutation is an allele of the MEC1 gene, which allows further designation of the rad31 mutation as mec1-212. Mutation mec1-212, similar to deletion alleles of this gene, causes sensitivity to hydroxyurea, disturbs the check-point function, and suppresses UV-induced mutagenesis. However, this mutation significantly increases the frequency of spontaneous canavanine-resistance mutations induced by disturbances in correcting errors of DNA replication and repair, which distinguishes it from all identified alleles of gene MEC1.     

The Structure of a Conserved Region of Porcine Genome,Represented in Human Genome by Chromosome 17

Radiation mapping of nine genes (H3F3B, HLR1, MYL4,STAT5B, THRA1, TOP2A, MCP1, NF1, and MPO) to porcine chromosome 12 was carried out. Also, subchromosomal location of the NF1 gene along with the two loci containing the DNA sequences homologous to the DNA of the two human BAC clones was determined. The NF1 position was ascertained via microdissection of chromosome 12 with subsequent PCR amplification of the gene fragment with specific primers. BAC clones were mapped using FISH. Comparative analysis of the gene order in porcine chromosome 12 and in the homologous human chromosome 17 was performed. It was demonstrated that the gene orders in these chromosomes differed relative to the position of the MPO gene.     

The structure of a conserved region of porcine genome, represented in human genome by chromosome 17

Radiation mapping of nine genes (H3F3B, HLR1, MYL4, STAT5B, THRA1, TOP2A, MCP1, NF1, and MPO) to porcine chromosome 12 was carried out. Also, subchromosomal location of the NF1 gene along with the two loci containing the DNA sequences homologous to the DNA of the two human BAC clones was determined. The NF1 position was ascertained via microdissection of chromosome 12 with subsequent PCR amplification of the gene fragment with specific primers. BAC clones were mapped using FISH. Comparative analysis of the gene order in porcine chromosome 12 and in the homologous human chromosome 17 was performed. It was demonstrated that the gene orders in these chromosomes differed relative to the position of the MPO gene.     

RAD29 and RAD31--new genes from Saccharomyces cerevisiae yeasts, participating in control of DNA repair. II. Clarification of possible functions of these genes

Possible functions of previously described genes RAD29 and RAD31 involved in DNA repair were determined by analyzing the interaction between these genes and mutations in the genes of the three basic epistatic groups: RAD3 (nucleotide excision repair), RAD6 (error-prone mutagenic repair system), RAD52 (recombination repair pathway), and also the apn1 mutation that blocks the synthesis of major AP endonuclease (base excision repair). The results obtained in these studies and the estimation of the capability for excision repair of lesions induced by 8-metoxipsoralen and subsequent exposure to long-wavelength UV light in mutants for these genes led to the assumption that the RAD29 and RAD31 genes are involved in yeast DNA repair control.     

RAD29 and RAD31--new genes from Saccharomyces cerevisiae yeasts, participating in control of DNA repair. Isolation and genetic study of mutants

Base excision repair (BER) and nucleotide excision repair (NER) are two main cellular responses to DNA damage induced by various physical and chemical factors. After exposure of the strain that carries the NER-blocking rad2 mutation to UV light, several mutants hypersensitive to the UV light lethal action and simultaneously sensitive to methylmethanesulphonate (MMS) were isolated. Two of these mutants (Uvs64 and Uvs212) were examined in detail. The mutants were found to carry recessive, monogenically inherited lesions that had pleiotropic, though different, phenotypes: both mutants were also sensitive to nitrous acid (HNO2), whereas Uvs212 was sensitive to hydrogen peroxide as well. Moreover, the homozygote for the uvs212 mutation, but not for uvs64, blocks the sporulation. Since the mutations examined were not allelic to any of the known rad mutations that cause MMS sensitivity or to each other, it is concluded that two new genes involved in the control of yeast DNA repair were detected. Furthermore, these genes were mapped to different regions of the right arm of chromosome 2 where repair genes were not found. Thus, two new genes, designated RAD29(UVS64) and RAD31(UVS212) and probably involved in base excision repair, were identified.