Hispanic youth have the highest risk for obesity, making this population a key priority for early childhood interventions to prevent the development of adult obesity and its consequences. Involving parents in these interventions is essential to support positive long-term physical activity and nutrition habits. Interventions in the past have engaged parents by providing information about nutrition and fruit and vegetable intake through written materials or text such as newsletters and text messages. The Sustainability via Active Garden Education (SAGE) intervention used gardening and interactive activities to teach preschool children ages 3-5 about healthy eating and physical activity. It aimed to increase physical activity and fruit and vegetable intake in preschool children as well as improve related parenting practices. The intervention utilized newsletters to engage parents by promoting opportunities to increase physical activity and fruit and vegetable intake for their children at home. The newsletters also encouraged parents to discuss what was learned during the SAGE lessons with their children. The purpose of this paper is to describe the content of the newsletters and determine the parent perception of the newsletters through parent survey responses. This can help inform future childhood obesity interventions and parent engagement.
The photophysical properties of ethidium in a variety of organic solvents, as well as several dsDNAs, were measured. We report that the fluorescence quantum yield of intercalated ethidium is .30(.03), which falls between previous stated measurements of .14 and .60. We believe this to be the most accurately measured fluorescence quantum yield to date, as verified by Strickler-Berg analyses, which exhibit excellent agreement with experimental fluorescence lifetimes. A marked hypochromism upon binding to DNA is noted due to interactions of the dye’s and nucleobases’ respective π-stacks. This more than counteracts the expected increase in transition dipole due to increased conjugation caused by twisting of the phenyl moiety upon intercalation.
The reduced volume cylinder model was tested by the quenching of the fluorescence of an intercalator (ethidium bromide) by a groove binder (methyl viologen). We report that the model is not accurate over a relevant range of DNA concentrations.