With the ability to rapidly screen and manipulate genomes, the in depth study of the functional actors of biology—metabolites and proteins—is necessary to understand complex biochemistry in developmental and disease states. The analytical processes by which biological information is gained from metabolomics and proteomics experiments must also evolve with our...
Burkitt lymphoma (BL) is a B cell cancer that develops primarily in children and is associated with Epstein-Barr virus (EBV). The EBV latent membrane protein 2A (LMP2A) drives BL in part by providing constitutively active pro-survival signaling. A double transgenic mouse model of BL expressing LMP2A and the oncogene MYC...
In this thesis I focus on two topics: planet-disk interaction and solar convection. These two seemingly separate topics are connected via a similar separation of timescales. Planets excite spiral waves in their disks on fast timescales compared to the time for the disk to viscously adjust to the angular momentum...
By showing how the heteroglot and tentative nature of medieval normative worlds furnishes a salutary alternative to contemporary epistemologies of the globe, this dissertation contributes to critical theory that deconstructs the globe as a modern concept defined as a transparent space of circulation and exchange. While studies of the global...
To survive, animals, including human beings, have developed an amazing ability to learn the constantly changing environment. Specifically, detecting specific odorants in a noisy, variable background is crucial for finding food and water, mating, and avoiding potential dangers. For this purpose, rodents have developed an olfactory system that is powerful...
This dissertation aims to redefine the concept of pain as it appears in literary studies and demonstrate how the new definition garners insight into the interwovenness of literature and physiology in the mid-eighteenth century. It challenges the claim that pain is opposed to language by adopting a new materialist concept...
Modeling the mechanical performance of metal produced with additive manufacturing (AM) has proven to be a challenging task. In the as-built state, these materials have been shown to exhibit strong heterogeneity and anisotropy. Even after post-processing, such as heat treatment or hot isostatic pressing and depending on the alloy, some...
Molecules are highly social: they recognize one another and form bonds with those they are attracted to and repel those they are not. Some molecules establish strong bonds, while others form weak, transient associations. These interactions are ubiquitous in Nature and are integral to life. For at the basis of...
The application of formal multilayer networks (MLNs)—networks which contain multiple types of relationships, data types, or other additional features of complexity and connectivity—has recently become popular in many fields. Areas of study ranging from social science to biology have utilized MLNs to explore, describe, and analyze interconnected complex systems. MLNs...
Metal Additive manufacturing (AM) processes build 3D objects by heating and consolidating material in a point-by-point manner. Unlike traditional manufacturing methods, AM allows the material properties of each point in the build to vary by controlling process conditions locally. The process parameters can be considered as inputs to the AM...