Molecular Biology Commons^™

Conserved Regions Mediate Interactions Between Canonical Nox Domains, Akua Acheampong

Symposium of Student Scholars

NAPDH oxidase (NOXes) are membrane-bound enzymes that generate reactive oxygen species (ROS) that play a role in immune response and signaling. Misregulation of NOXes is implicated in various human pathologies. NOXes contain a catalytic core comprised of a heme-containing transmembrane (TM) domain and a cytoplasmic dehydrogenase (DH) domain that binds FAD and NADPH. Several conserved regions at the interface of the TM and DH domains in eukaryotic NOXes have been suggested to mediate enzyme function and activity. In 2017, researchers successfully purified SpNox, a bona fide NOX homolog from Streptococcus pneumoniae and verified its NOX properties. SpNox’s robust activity in …

Creating A Protein Chimera To Study Regulation Of Muscle Diversity, Shannon Scarboro

Symposium of Student Scholars

Creating a protein chimera to study regulation of muscle diversity.

Body muscles are made of many individual super-cells, called muscle fibers, that have distinct properties and determine every individual’s strength and endurance. Initially all muscle fibers have identical characteristics, but become differentiated into specific types in adults. The mechanism of such transition is not well understood, despite its obvious importance for shaping human physicality.

Remarkable conservation of the muscle tissue enables us to use fruit flies to study the mechanisms of muscle fiber diversity. We hypothesized that the transcription factor Mef2 acts as a molecular switch that activates structural genes …

Probing Interactions Between Canonical Nox Domains, Akua Acheampong

Master of Science in Integrative Biology Theses

NAPDH oxidase enzymes (NOXes) reduce molecular oxygen to superoxide and other ROS. NOXes contain a catalytic core comprising a heme-containing transmembrane (TM) domain and a cytoplasmic dehydrogenase (DH) domain that binds the substrate NADPH and the cofactor. Previously, NOXes were only characterized in eukaryotes, but have recently been identified in prokaryotes, namely bacteria. Due to their constitutive activity and solubility in detergent, bacterial NOXes, such as Streptococcus Pneumoniae NOX, have emerged as a model for studying NOXes. Past research studies in NOXes have identified conserved, putative interacting regions at the interface of the TM and DH domains: the TM B-loop, …