Characteristics of vision loss in this family include early chronic optic nerve edema, and progressive vision loss, particularly central and color vision. Despite numerous medical and ophthalmic evaluations, no diagnosis has been discovered. (C) 2012 Wiley Periodicals, Inc.”
“Background: We have previously reported that cancer incidence for
lung, female breast, and colon and rectum for Hispanics decreases with increasing percentage of Hispanics at the 3 census tract. In contrast, cervical cancer incidence increases BIBF 1120 order with increasing percentage of Hispanics at the census tract.\n\nMethods: In this study, we investigate the hypothesis that Hispanics living in census tracts with high percentages of Hispanics are diagnosed with more advanced cancer, with respect to tumor size and stage of diagnosis. Data from the Surveillance, Epidemiology, and End Results registry and the U.S. Census Bureau were used to estimate the odds of diagnosis at a “late” stage (II, III, IV) versus “early” stage (1) and breast cancer tumor size among Hispanics as a function of census tract percent Hispanic. Hispanic ethnicity in the Surveillance, Epidemiology, and End Results registry was identified by medical record review and Hispanic surname lists. The study also used income of Hispanics living
in the census tract and controlled for age at diagnosis and gender.\n\nResults: We found that Hispanics living in neighborhoods Blebbistatin in vivo with higher density of Hispanic populations were more likely find more to be diagnosed with late-stage breast, cervical, or colorectal cancer, and to have a larger
tumor size of breast cancer.\n\nConclusions: Our findings suggest that the benefits of lower cancer incidence in high tract percent Hispanics are partially offset by poorer access and reduced use of screening in conjunction with lower income, poorer health insurance coverage, and language barriers typical of these communities. (Cancer Epidemiol Biomarkers Prev 2008;17(11):2931-6)”
“Evolution of proteins involves sequence changes that are frequently localized at loop regions, revealing their important role in natural evolution. However, the development of strategies to understand and imitate such events constitutes a challenge to design novel enzymes in the laboratory. In this study, we show how to adapt loop swapping as semiautonomous units of functional groups in an enzyme with the (beta/alpha)(8)-barrel and how this functional adaptation can be measured in vivo. To mimic the natural mechanism providing loop variability in antibodies, we developed an overlap PCR strategy. This includes introduction of sequence diversity at two hinge residues, which connect the new loops with the rest of the protein scaffold, and we demonstrate that this is necessary for a successful exploration of functional sequence space.