Publications by authors named "Brady O'Boyle"
Catalytic signaling outputs of protein kinases are dynamically regulated by an array of structural mechanisms, including allosteric interactions mediated by intrinsically disordered segments flanking the conserved catalytic domain. The doublecortin-like kinases (DCLKs) are a family of microtubule-associated proteins characterized by a flexible C-terminal autoregulatory 'tail' segment that varies in length across the various human DCLK isoforms. However, the mechanism whereby these isoform-specific variations contribute to unique modes of autoregulation is not well understood.
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- Protein kinases are regulated by structural mechanisms, particularly through allosteric interactions linked to disordered segments near their catalytic domains.
- The study focuses on Doublecortin Like Kinases (DCLKs), which have a unique C-terminal tail that varies among human isoforms, impacting their autoregulation mechanisms.
- By analyzing the evolutionary features, splice variants, and specific interactions of the DCLKs, the research highlights how changes in the C-tail can alter protein stability and activity, suggesting potential pathways for developing new modulators for DCLK1.
Protein language models, trained on millions of biologically observed sequences, generate feature-rich numerical representations of protein sequences. These representations, called sequence embeddings, can infer structure-functional properties, despite protein language models being trained on primary sequence alone. While sequence embeddings have been applied toward tasks such as structure and function prediction, applications toward alignment-free sequence classification have been hindered by the lack of studies to derive, quantify and evaluate relationships between protein sequence embeddings.
View Article and Find Full Text PDFPseudokinases regulate diverse cellular processes associated with normal cellular functions and disease. They are defined bioinformatically based on the absence of one or more catalytic residues that are required for canonical protein kinase functions. The ability to define pseudokinases based on primary sequence comparison has enabled the systematic mapping and cataloging of pseudokinase orthologs across the tree of life.
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- Over the last 20 years, two dangerous viruses (SARS-CoV-1 and SARS-CoV-2) were discovered to jump from animals to humans, causing serious illness and highlighting the need for new medicines to fight them.
- Scientists studied a specific part of a bat coronavirus (PLpro) to understand how these viruses work and what makes them different, which could help in creating better treatments.
- They developed 30 new drug-like compounds that could block the action of PLpro in these viruses and ran tests to see how effective and safe these new medicines might be.
Post-translational modification of host and viral proteins by ubiquitin and ubiquitin-like proteins plays a key role in a host's ability to mount an effective immune response. Avian species lack a ubiquitin-like protein found in mammals and other non-avian reptiles; interferon stimulated gene product 15 (ISG15). ISG15 serves as a messenger molecule and can be conjugated to both host and viral proteins leading them to be stabilized, degraded, or sequestered.
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