Filtering by
- All Subjects: Rubisco
- All Subjects: tobacco
- Creators: Wachter, Rebekka M.
- Creators: Lodha, Pratishtha
- Creators: Pearson, Jennifer
Preparations of labeled Rubisco and Rca were utilized in a FRET-based binding assay. Although initial data looked promising, this approach was not fruitful, as no true FRET signal was observed. One possibility is that under the conditions tested, Rca is not able to undergo the structural reorganizations necessary to achieve binding-competent conformations. Rca may also be asymmetric, leading to less stable binding of an already weak interaction.
To better understand the structural adjustments of Rca, subunit exchange between different oligomeric species was examined. It was discovered that subunit exchange is nucleotide dependent, with ADP giving the fastest exchange, ATP giving slower exchange and ATPS inhibiting exchange. Manganese, like ADP, destabilizes subunit-subunit interactions for rapid and facile exchange between oligomers. Three different types of assemblies were deduced from the rates of subunit exchange: rigid types with extremely slow dissociation of individual protomers, tight assemblies with the physiological substrate ATP, and loose assemblies that provide fast exchange due to high ADP.
Information gained about Rca subunit exchange can be used to reexamine the physical interaction between Rubisco and Rca using the FRET-binding assay. These binding assays will provide insight into Rca states able to interact with Rubisco, as well as define conditions to generate bound states for structural analysis. In combination with assembly assays, subunit exchange assays and reactivation studies will provide critical information about the structure/function relationship of Rca in the presence of different nucleotides. Together, these FRET-based assays will help to characterize the Rca regulation mechanism and provide valuable insight into the Rubisco reactivation mechanism.
Due to the COVID-19 pandemic, declared in March of 2020, there have been many lifestyle changes which have likely influenced tobacco smoking behavior. Such lifestyle changes include lockdowns, stay at home orders, reduction in social cues related to smoking, increased stress, and boredom among other things. This study utilized a cross-sectional survey which looked into these behaviors, primarily perceived risk to COVID-19, and determined if there is an association between perceived risk and education level/race. Education level is a proxy for income and material resources, therefore making it more likely that people with lower levels of education have fewer resources and higher perceived risk to negative effects of COVID-19. Additionally, people of color are often marginalized in the medical community along with being the target of heavy advertising by tobacco companies which have likely impacted risk to COVID-19 as well.