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631.
Andersom Milech Einhardt Sandro Ferreira Lillian Mathias Oliveira Dimas Mendes Ribeiro Fabrício Ávila Rodrigues 《Physiologia plantarum》2020,170(4):592-606
Nickel (Ni) and glyphosate (Gl) are able to reduce the symptoms of Asian soybean rust (ASR), caused by Phakopsora pachyrhizi, in soybean. However, their combined effects on the energy balance and ethylene metabolism of soybean plants infected with this fungus has not been elucidated. Therefore, the effects of Ni, Gl, and the combination of Ni + Gl on ASR development, photosynthetic capacity, sugar concentrations, and ethylene concentrations in plants of a Gl-resistant cultivar, uninfected or infected with P. pachyrhizi, were investigated. Inoculated plants supplied with Ni had the highest foliar Ni concentration in all the treatments. Gl had a negative effect on the foliar Ni concentration in Ni-sprayed plants. The ASR severity was reduced in plants sprayed with Ni and Gl. Carotenoid and chlorophyll concentrations were higher in inoculated Ni, Gl, and Ni + Gl plants than in control plants. Based on the chlorophyll a fluorescence parameters, the photosynthetic apparatus of the control inoculated plants was damaged, and the least amount of energy was directed to the photochemistry process in these plants. The reduced capacity of the photosynthetic mechanism to capture light and use the energy absorbed by photosystem II in inoculated plants was reflected in their reduced capacity to process CO2, as indicated by the high internal CO2 concentrations and low rates of net carbon assimilation. The low sugar concentrations in inoculated plants from the control treatment were linked to their reduced photosynthetic capacity due to the high ASR severity. In uninfected plants, the ethylene concentration was not affected by Ni or Gl, while the ethylene concentration decreased in inoculated plants; this decrease was more pronounced in plants from the control treatment than in treated inoculated plants. In conclusion, this study sheds light on the role played by both Ni and Gl in ASR control from a physiological perspective. Soybean plants exposed to Ni and Gl were able to maintain high ethylene concentrations and photosynthetic capacity during the P. pachyrhizi infection process; as a result, these plants consumed less of their reserves than inoculated plants not treated with Ni or Gl. 相似文献
632.
Deborah J. Briggs Jean S. Smith Francis L. Mueller James Schwenke Rolan D. Davis Chandra R. Gordon Kristen Schweitzer Lillian A. Orciari Pamela A. Yager Charles E. Rupprecht 《Biologicals》1998,26(4):347-355
Levels of rabies virus neutralizing antibody in sera from dogs and cats were titrated to endpoint by the Rapid Fluorescent Focus Inhibition Test (RFFIT) and retested by the RFFIT and the Fluorescent Antibody Virus Neutralization test (FAVN). The two tests were compared for their ability to detect the 0.5 international units/ml (I.U.) of antibody required by the World Health Organization and the Office International des Epizooties as the minimum response for proof of rabies immunization. No difference was observed in sensitivity or specificity for either method in tests of 168 sera from unvaccinated animals or 70 sera from vaccinated animals with high levels of neutralizing antibody (an initial RFFIT titre of > or = 1.0 I.U.). Test to test variation occurred for results obtained by both RFFIT and FAVN for 95 sera from vaccinated animals with low to moderate levels of neutralizing antibody (RFFIT titre < 1.0 I.U.). No significant differences were detected for the 95 sera in the frequency for one methodology more often than the other to have a positive response (> or = 0.5 I.U.), nor were significant differences detected for the symmetry (P = 0.43) or the marginal homogeneity (P = 0.39) of results obtained by the two methods. Both methods can adequately identity unvaccinated animals, but false positive and false negative results are possible for either method when a single test is used to measure the antibody response of low-responding vaccinated animals. Nucleotide sequence analysis identified several amino acid differences in stocks of the challenge rabies virus from different laboratories. The small differences in neutralizing antibody titre that may result from mutations in the challenge virus are not important for evaluating immunity induced by vaccines which are themselves prepared from a variety of different rabies virus strains, but differences in the challenge virus, rather than differences in methodology, may account for at least some of the discrepant results reported in inter-laboratory surveys. Comparative studies of serological methods for measuring rabies antibodies should use well-characterized unpassaged virus stocks obtained from a single reference laboratory. 相似文献
633.
The concentration of p-tyramine in the rat striatum was increased significantly by intraperitoneal injection of phenelzine (5 or 100 mg/kg). Unlike other monoamine oxidase (MAO) inhibitors, phenelzine had no effect on p-tyramine levels in the first 1-2 h following injection. The high dose of phenelzine increased the p-tyramine levels much more than the low dose. In addition, the high dose of phenelzine increased striatal p-tyrosine levels significantly 12 h after injection. Further studies showed that phenelzine inhibited the tyrosine aminotransferase activity of rat liver homogenates; the IC50 was 50 microM. Phenelzine also inhibited the aromatic L-amino acid decarboxylase activity of rat brain homogenate with an IC50 of 25 microM. Following intraperitoneal injection of 100 mg/kg phenelzine, the initial concentration of phenelzine in the striatum appears to be high enough to inhibit aromatic L-amino acid decarboxylase. It is suggested that the multiple enzyme inhibition caused by administration of high doses of phenelzine accounts for its unusual effects on striatal p-tyramine levels compared with other MAO inhibitors, i.e., its initial lack of effect on p-tyramine levels followed later by very large increases in p-tyramine levels. 相似文献