Wistar strain rats were randomly divided

into 4 dietary groups and fed their respective diets for 21 d: a diet containing 0.3% P and 0.5% Ca (C), a diet containing 1.5% P and 0.5% Ca (HP), a diet containing 0.3% P and 1.0% Ca (HCa), or a diet containing 1.5% P and 1.0% Ca (HPCa). Compared to the C group, the high-P diet increased serum parathyroid hormone concentration, markers of bone turnover, receptor activator of NF-kappa B ligand mRNA expression of the femur, kidney Ca and P concentrations, urinary N-acetyl-beta-D-glucosaminidase activity, and urinary beta(2)-microglobulin excretion, and decreased bone mineral content and bone mineral density of the femur and tibia. Dietary Ca supplementation DAPT improved the parameters of bone metabolism and kidney function in rats fed the high-P diet, while there were no significant differences in kidney Ca or P concentrations between the HP and HPCa groups. These results suggest that dietary Ca supplementation prevented the bone loss and decline in kidney function induced by a high-P diet, whereas dietary Ca supplementation did not affect kidney mineral concentrations in rats fed the high-P diet.”
“Young naive domestic chicks readily attack green insects and

avoid insects painted red but ON-01910 order show no discrimination of the same colours when applied to fruit-like objects, a discrimination that

has been depicted as context-dependent preference. To study the neural representation of such preference we performed bilateral telencephalectomy on 1-day-old domestic chicks and tested them on an unlearned prey discrimination paradigm. Here we show that following complete decerebration, young domestic chicks preferentially peck at red fruit versus red insects and tend to choose green insects over green fruit indistinguishably from unoperated chicks. The present study provides the first direct evidence that sophisticated context-dependent, unlearned selleck chemical colour preference is processed by subtelencephalic areas of an amniote species. (C) 2008 Elsevier Inc. All rights reserved.”
“In sea urchins, the nuclear accumulation of beta-catenin in micromeres and macromeres at 4th and 5th cleavage activates the developmental gene regulatory circuits that specify all of the vegetal tissues (i.e. skeletogenic mesoderm, endoderm and non-skeletogenic mesoderm). Here, through the analysis of maternal Frizzled receptors as potential contributors to these processes, we found that, in Paracentrotus lividus, the receptor Frizzled1/2/7 is required by 5th cleavage for beta-catenin nuclearisation selectively in macromere daughter cells.