Comparative characteristics of stress-resistant and non-stress-resistant individual profiles

The article presents typical profiles of stress-resistant and non-stress-resistant individuals by certain components. Summarizing the factor analysis substantive elements, we identified four leading components of the internal structure of indicators of personality stress relationships by the informative weight of variables: personal; social; typological, and behavioral. We found out that stress-resistant individuals are characterized by a high level of balance, confidence and activity, emotional and volitional self-control, low levels of stress, personal and situational anxiety, high levels of motivation, general and professional internality, readiness for activity, high level of functional system. Stress-resistant individuals are characterized by a high level of assertiveness, activity, prosociality, the search for social contacts and social support. At the same time, the typical profile of non-stressful individuals is characterized by inverse patterns - a significantly lower level of direct and indirect indicators of stress resistance, among the behavioral strategies for overcoming stress typical in the profile were manipulative actions, avoidance actions, aggressive actions.

Distribution Differences in the EPSPS Gene in Chromosomes Between Glyphosate-Resistant and -Susceptible Goosegrass (Eleusine indica)

Glyphosate is a popular herbicide used to control goosegrass [Eleusine indica (L.) Gaertn.], one of the most troublesome weeds in cotton fields. However, high selection pressure has led to some populations being difficult to control in cotton fields in China. In this study, levels of glyphosate resistance were quantified and 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) amplification was confirmed. In addition, distribution of the EPSPS gene among the chromosomes was also investigated using fluorescence in situ hybridization (FISH) methodology. One population (AHCZ) was confirmed to be glyphosate resistant with a resistance index of 3.4 and significantly reduced shikimate accumulation compared to susceptible population. All examined individuals exhibited no mutations in the EPSPS gene in AHCZ. Expression and copy numbers of EPSPS in the AHCZ population were 5.7 and 15.4 times higher, respectively, than in the susceptible population. A positive correlation was identified between signal intensities of primary anti-EPSPS antibody and copy numbers of the EPSPS protein, as indicated by immunoblot analysis. FISH results revealed that, in mitotic metaphase chromosomes, signals were observed dispersed across two sets of homologous chromosomes in a resistant individual (copy number = 31), while in susceptible individuals, signals were only partially detected in one set of homologous chromosomes. In interphase nuclei, EPSPS signals were brightest in resistant individual compared to those that were susceptible. In conclusion, one E. indica population from a cotton field in the Anhui Province has evolved resistance to glyphosate, and EPSPS gene amplification was confirmed as the resistant mechanism.

Resistance Against Basil Downy Mildew in Ocimum Species

Downy mildew, caused by the oomycete Peronospora belbahrii, is a devastating disease of sweet basil. In this study, 113 accessions of Ocimum species (83 Plant Introduction entries and 30 commercial entries) were tested for resistance against downy mildew at the seedling stage in growth chambers, and during three seasons, in the field. Most entries belonging to O. basilicum were highly susceptible whereas most entries belonging to O. americanum, O. kilimanadascharicum, O. gratissimum, O. campechianum, or O. tenuiflorum were highly resistant at both the seedling stage and the field. Twenty-seven highly resistant individual plants were each crossed with the susceptible sweet basil ‘Peri’, and the F1 progeny plants were examined for disease resistance. The F1 plants of two crosses were highly resistant, F1 plants of 24 crosses were moderately resistant, and F1 plants of one cross were susceptible, suggesting full, partial, or no dominance of the resistance gene(s), respectively. These data confirm the feasibility of producing downy mildew-resistant cultivars of sweet basil by crossing with wild Ocimum species.

Determination of the influence of dispersion pattern of pesticide-resistant individuals on the reliability of resistance estimates using different sampling plans

Pesticide resistance monitoring includes resistance detection and subsequent documentation/ measurement. Resistance detection would require at least one (≥1) resistant individual(s) to be present in a sample to initiate management strategies. Resistance documentation, on the other hand, would attempt to get an estimate of the entire population (≥90%) of the resistant individuals. A computer simulation model was used to compare the efficiency of simple random and systematic sampling plans to detect resistant individuals and to document their frequencies when the resistant individuals were randomly or patchily distributed. A patchy dispersion pattern of resistant individuals influenced the sampling efficiency of systematic sampling plans while the efficiency of random sampling was independent of such patchiness. When resistant individuals were randomly distributed, sample sizes required to detect at least one resistant individual (resistance detection) with a probability of 0.95 were 300 (1%) and 50 (10% and 20%); whereas, when resistant individuals were patchily distributed, using systematic sampling, sample sizes required for such detection were 6000 (1%), 600 (10%) and 300 (20%). Sample sizes of 900 and 400 would be required to detect ≥90% of resistant individuals (resistance documentation) with a probability of 0.95 when resistant individuals were randomly dispersed and present at a frequency of 10% and 20%, respectively; whereas, when resistant individuals were patchily distributed, using systematic sampling, a sample size of 3000 and 1500, respectively, was necessary. Small sample sizes either underestimated or overestimated the resistance frequency. A simple random sampling plan is, therefore, recommended for insecticide resistance detection and subsequent documentation.

Plot-to-plot, row-to-row and plant-to-plant outcrossing studies in oilseed rape

Unidirectional outcrossing rates were assessed between neighboring plots, rows (spaced 40, 80 and 120 cm apart) and plants of oilseed rape (Brassica napus L.) grown in simulated plant breeding field trials, using the transgenic dominant bromoxynil herbicide resistance gene as a marker. Bromoxynil susceptible (pollen recipient) plots, rows and plants were planted in the field and surrounded by bromoxynil-resistant plots, rows and plants, respectively. The field trials were conducted at Winnipeg, Carman, and Portage la Prairie, Manitoba, in 1996 and 1997. Seed produced on the susceptible plots and rows was harvested and then planted in the field the following year with all emerged seedlings sprayed at 750 g a.i. ha–1 bromoxynil to identify resistant individuals. Approximately 420 000 seedlings were screened in 1997 and 1998 with 23 816 resistant individuals identified, each resistant individual being the result of an outcrossing event. The overall mean plot-to-plot outcrossing rate was 4.0% (± 0.23). The overall mean row-to-row outcrossing rate was 9.5% (± 0.62) for the 40-cm row spacing, 5.6% (± 0.37) for the 80-cm row spacing and 3.9% (± 0.25) for the 120-cm row spacing. For the plant-to-plant trials, seed produced on the susceptible plants was harvested and then a sample was planted in the greenhouse with all emerged seedlings sprayed at 560 g a.i. ha–1 bromoxynil to identify resistant individuals. The overall mean plant-to-plant outcrossing rate was 21.0% (± 1.73). Outcrossing rates of this magnitude have significant implications for all oilseed rape breeding programs. Methods to minimize outcrossing are discussed. Key words: Brassica napus L., outcrossing rates, transgenic dominant bromoxynil resistance marker

HERPES ENCEPHALITIS IN CEBUS MONKEYS

Herpes virus which ordinarily produces in Cebus olivaceus monkeys an acutely fatal encephalitis closely resembling in time, symptoms and pathology the acute, herpetic disease of rabbits may—in more resistant individual monkeys—lead to a more prolonged malady which, while unquestionably produced with herpes virus, simulates with considerable accuracy the human disease of acute encephalitis, in symptoms, in course and in pathological changes.