Thus, plasmin(ogen) regulates both complement and coagulation, the two central cascade systems of a vertebrate organism. This complement-inhibitory activity of plasmin provides a new explanation why pathogenic microbes utilize plasmin(ogen) for immune evasion and tissue penetration.”
“Night-time
leaf conductance (g(night)) and transpiration may have several adaptive benefits related to plant water, nutrient and carbon relations. Little is known, however, about genetic variation in g(night) and whether this variation correlates with other gas exchange traits related to water use and/or native habitat climate. We investigated g(night) in 12 natural accessions and LBH589 mouse three near isogenic lines (NILs) of Arabidopsis thaliana. Genetic variation in g(night) was found for the natural accessions, and g(night) was negatively correlated with native habitat atmospheric vapour pressure deficit (VPD(air)), suggesting lower g(night) may be favoured by natural selection in drier habitats. However, there were also significant genetic
correlations of g(night) with daytime gas exchange traits expected to affect plant fitness [i.e. daytime leaf conductance, photosynthesis and intrinsic water-use efficiency (WUE(i))], indicating that selection on daytime gas exchange traits may result in indirect selection on g(night). The comparison LY333531 order of three NILs to their parental genotypes identified one quantitative trait locus (QTL) contributing to variation in g(night). Further characterization of genetic variation in g(night) within and among populations and species, and of associations with other traits and
native habitats will be needed to understand g(night) as a putatively adaptive trait.”
“To compare the accommodative amplitude (AA), facility (AF), and lag between dominant and non-dominant eyes.\n\nSeventy students [mean learn more (SD) age: 21.2 (1.7) years, range 18-25] from Zahedan University of Medical Sciences were selected. Retinoscopy and subjective refraction was used to determine the refractive error. The hole-in-the card method was used to determine eye dominance. The accommodative amplitude (AA) was measured in the dominant and non-dominant eye using the push-up method, and accommodative facility (AF) using +/- 2.00 dioptre flipper lenses at 40 cm. Accommodative lag was determined using monocular estimate method (MEM) retinoscopy at 40 cm.\n\nThe right eye was dominant in 53 subjects (75.7 %). There was no significant difference in refractive error (sphere, cylinder, and spherical equivalent) between dominant and non-dominant eyes. The mean (SD) for the AA, AF, and lag in dominant eyes was 12.48 (2.56) dioptres, 12.45 (4.83) cycles per minute, and 0.80 (0.27) dioptres respectively. The mean (SD) for the AA, AF, and lag in non-dominant eyes was 12.16 (2.37) dioptres, 12.20 (4.88) cycles per minute, and 0.83 (0.28) dioptres respectively.