Mercury flux to sediments of Lake Tahoe, California-Nevada

Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here by permission of Springer for personal use, not for redistribution. The definitive version was published in Water, Air, & Soil Pollution 210 (2010): 399-407, doi:10.1007/s11270-009-0262-y.We report estimates of mercury (Hg) flux to the sediments of Lake Tahoe, California-Nevada: 2 and 15-20 µg/m2/yr in preindustrial and modern sediments, respectively. These values result in a modern to preindustrial flux ratio of 7.5-10, which is similar to flux ratios recently reported for other alpine lakes in California, and greater than the value of 3 typically seen worldwide. We offer plausible hypotheses to explain the high flux ratios, including (1) proportionally less photoreduction and evasion of Hg with the onset of cultural eutrophication and (2) a combination of enhanced regional oxidation of gaseous elemental Hg and transport of the resulting reactive gaseous Hg to the surface with nightly downslope flows of air. If either of these mechanisms is correct, it could lead to local/regional solutions to lessen the impact of globally increasing anthropogenic emissions of Hg on Lake Tahoe and other alpine ecosystems.Funding was provided by Miami University, EPA-STAR, the Postdoctoral Scholar Program at Woods Hole Oceanographic Institution, and the USGS

Cooperation between the ribosomal proteins L5 and L11 in the p53 pathway

MDM2 is a ubiquitin ligase that plays a key role in regulating the stability of the p53 tumor suppressor protein. Several proteins have been shown to activate the p53 pathway by interacting with and inhibiting the E3 function of MDM2, thereby leading to an accumulation of p53. These include the alternate reading frame (ARF) proteins and the ribosomal proteins L5 and L11. We found that when overexpressed alone, L11 is much less potent in inhibiting MDM2 than p14(ARF). However, L11 cooperates with L5, resulting in a robust inhibition of the E3 activity of MDM2, and a stabilization and activation of p53 approaching that achieved by p14(ARF). We further showed that the ability of L11 to bind the 5S rRNA is important for the cooperation with L5, and a mutant L11, which cannot bind the 5S rRNA, cannot cooperate with L5 in inhibiting MDM2