Taxonomy and cytology of the genus Ornithogalum (Liliaceae) in East Africa

The following taxa are represented in East Africa (Kenya, Tanzania, Uganda): Ornithogalum donaldsonii (Rendle) Greenway (2n=20), O. gracillimum R. E. Fries, O. tenuifolium Delaroche ssp. sordidum (Bak.) Stedje comb. nov. (2n=16), and O. tenuifolium Delaroche ssp. robustum Stedje ssp. nov. (2n = 12).     

Influence of protein deficiency on the inhibition of hepatic microsomal detoxication by methyl mercury in two rat strains

N- and C-oxygenation of N,N-dimethylaniline was studied in liver microsomes from 2 rat strains (Wistar, Strain R and Sprague-Dawley) subjected to protein deprivation and methyl mercury pretreatment, separately and in combination. A striking interstrain difference was observed. Strain R microsomes from 2 rat strains (Wistar, Strain R and Sprague-Dawley) subjected to tion, but little effect after methyl mercury pretreatment. With Sprague-Dawley microsomes, C-oxygenation was slightly reduced after both treatments. N-oxygenation was little affected in either strain. Methyl mercury treatment of protein deprived rats strongly inhibited C-oxygenation in microsomes from both strains, with N-oxygenation being unaffected in strain R microsomes whereas markedly reduced in microsomes from Sprague-Dawley.     

Influence of cystein deficiency on the inhibition of hepatic microsomal detoxication by methyl mercury in two rat strains

Two rat strains, Wistar, strain R and Sprague--Dawley, were subjected to cystein deficiency and methyl mercury pretreatment, both separately and in combination, after which the hepatic microsomal N- and C-oxygenation of N,N-dimethylaniline (DMA) was studied. Cystein deficiency caused a reduction in C-oxygenation in strain R microsomes, and this reduction was nearly doubled by methyl mercury pretreatment of the depleted rats. Methyl mercury pretreatment per se of strain R rats on the standard diet gave no effect. By contrast microsomes from cystein deficient SpD rats showed no statistically significant decrease in C-oxygenation, and cystein deficiency did not further enhance the inhibitory effect obtained with methyl mercury pretreatment alone. N-oxygenation was not significantly affected by any treatment of the two strains.     

Use of DNA probes in the diagnosis and treatment of periodontitis --a case series

Aggressive periodontitis is characterized by rapid attachment and bone loss with no underlying systemic disease and is associated with specific bacteria like Actinobacillus actinomycetemcomitans (Aa) and Porphyromonas gingivalis (Pg). In this case series 25 patients were diagnosed with aggressive periodontitis by the aid of DNA probes for Aa and Pg and other periodontal pathogens. The use of DNA probes for the detection of periodontal pathogens may aid in the diagnosis and treatment of aggressive periodontitis. Clinical experience suggests that lowering periodontal pathogens to undetectable levels could improve the long-term stability of periodontal health.     

Urea uptake and urease activity in Corynebacterium glutamicum

When Corynebacterium glutamicum is grown with a sufficient nitrogen supply, urea crosses the cytoplasmic membrane by passive diffusion. A permeability coefficient for urea diffusion of 9 × 10^–7 cm s^–1 was determined. Under conditions of nitrogen starvation, an energy-dependent urea uptake system was synthesized. Carrier-mediated urea transport was catalyzed by a secondary transport system linked with proton motive force. With a K _m for urea of 9 μM, the affinity of this uptake system was much higher than the affinity of urease towards its substrate (K _m approximately 55 mM urea). The maximum uptake velocity depended on the expression level and was relatively low [2–3.5 nmol min^–1 (mg dry wt.)^–1]. Received: 11 August 1997 / Accepted: 2 December 1997     

Mercury and selenium distribution in human kidney cortex

Concentration of mercury and selenium were analyzed in tissue fractions of human kidney cortex samples from seven autopsy cases. Total mercury content ranged between 0.3–9.0 nmol Hg/g wet wt. Between 27–61% of the total mercury was found in the 105,000g supernatant of the tissue homogenate from six cases. In kidney cortex from the seventh case, a deceased dentist with the highest concentration of mercury, only 3% of the total mercury was found in the 105,000g supernatant and about 88% in a SDS-insoluble fraction. In this fraction the molar ratio between mercury and selenium was close to 1∶1. This study supports results from previous animal studies and indicates that mercury in human kidney cortex could be deposited in forms with different solubility. It could be of importance to speciate different forms of mercury in tissues according to solubility and association to selenium when interpretations of mercury concentrations are made.     

Mutagenicity testing on chinese hamster V79 cells treated in the in vitro liver perfusion system. Comparative investigation of different in vitro metabolising systems with dimethylnitrosamine and benzo[a]pyrene.

A comparative study of three in vitro metabolising systems was performed in combination with Chinese hamster V79 cells, at which point mutation to 6-thioguanine resistance was scored. The three metabolising systems used were: (1) rat liver microsomal fraction (S9-mix); (2) feeder layer of primary embryonic golden hamster cells, according to Hubermann's system; (3) in vitro perfusion of rat liver according to the system of Beije et al. As model substances dimethylnitrosamine (DMN) and benzo[a]pyrene (BP) was used. The liver perfusion was more efficient than S9-mix as an activating system of DMN, while the feeder layer of embryonic cells was unable to activate this compound. The activation of DMN with S9-mix was dependent on the presence of NADP. By exposing the target cells in the liver perfusion at different distances from the liver the biological half life of the active metabolite of DMN could be estimated to less than 5 s. With BP the three metabolising systems showed reversed results as compared with DMN--both the feeder layer cells and S9-mix activated BP, the feeder layer cells being most efficient. With liver perfusion, the perfusate itself was totally negative. Only the bile showed a week mutagenic effect. These results are in accordance with the notion that intact liver cells perform both an activation and a subsequent deactivation of BP. Because of the importance of hepatic bio-transformation in chemical mutagenesis and carcinogenesis it is emphasied that a liver perfusion system could be used in a testing protocol for genotoxic effects as a valuable tool in order to analyse the mechanism of action of mutagenic and carcinogenic compounds detected in other test systems, for instance bacterial/microsomal tests.