A curated selection of my academic publications, reflecting a sustained commitment to research, data generation, and evidence-based analysis. These works encompass both individual and collaborative efforts to examine complex scientific questions and contribute meaningful insights. Together, they form the scholarly foundation of my professional journey. If any article is behind a paywall or inaccessible, please contact me for a copy.
Publications & Presentations
In Silico Exploration and Experimental Validation: A Story of Protein Discovery, Aggregation and Degradation (Ph.D. Thesis here)
Structure prediction and network analysis of chitinases from the Cape sundew, Drosera capensis (here)
Sequence comparison, molecular modeling, and network analysis predict structural diversity in cysteine proteases from the Cape sundew, Drosera capensis (here)
Protein structure networks provide insight into active site flexibility in esterase/lipases from the carnivorous plant Drosera capensis (here)
Network Hamiltonian models reveal pathways to amyloid fibril formation (here)
Network-Based Classification and Modeling of Amyloid Fibrils (here)
Algorithms for Parameterizing Network Hamiltonians for Simulations of Amyloid Fibril Self-assembly (here)
Resonance assignments toward solution-state NMR structure determination of novel box jellyfish protein (here)
Crystallin Proteins from Aquatic Organisms: Stability and Function in the Lens and Beyond (here)
Biophysical characterization and solution-state structure determination using NMR of J2 crystallin: Novel eye lens protein from the box jellyfish (ACS)
Topological coarse-graining: Building ultra efficient computer models of aggregation using network Hamiltonians (ACS)
Network-Based Modeling of Amyloid Fibril Formation (Biophysical Journal)
Sequence comparison, molecular modeling, and network analysis predict structural diversity in cysteine proteases from the Cape sundew, Drosera capensis (Computational and Structural Biotechnology Journal)
Leveraging molecular modeling, experimental chemistry and bioinformatics to discover and characterize novel proteins (ACS)
NMR structure determination and biophysical characterization of J2 crystallin- a unique eye lens protein from the box jellyfish (Experimental Nuclear Magnetic Resonance Conference)
Protein Discovery and Characterization using Molecular Modeling, Experimental Chemistry and Bioinformatics (Biophysical Journal)
Design and Construction of a static ssNMR Probe for the Investigation of Oriented Membrane Samples and Single Crystals (Experimental Nuclear Magnetic Resonance Conference)
Design and Construction of ssNMR Probes for the Investigation of Oriented Solids and Liquids (Rocky Mountain Conference)
Network Hamiltonians for Modeling Amyloid Fibril Formation (SoCal Theoretical Conference)
Publications & Presentations
In Silico Exploration and Experimental Validation: A Story of Protein Discovery, Aggregation and Degradation (Ph.D. Thesis here)
Structure prediction and network analysis of chitinases from the Cape sundew, Drosera capensis (here)
Sequence comparison, molecular modeling, and network analysis predict structural diversity in cysteine proteases from the Cape sundew, Drosera capensis (here)
Protein structure networks provide insight into active site flexibility in esterase/lipases from the carnivorous plant Drosera capensis (here)
Network Hamiltonian models reveal pathways to amyloid fibril formation (here)
Network-Based Classification and Modeling of Amyloid Fibrils (here)
Algorithms for Parameterizing Network Hamiltonians for Simulations of Amyloid Fibril Self-assembly (here)
Resonance assignments toward solution-state NMR structure determination of novel box jellyfish protein (here)
Crystallin Proteins from Aquatic Organisms: Stability and Function in the Lens and Beyond (here)
Biophysical characterization and solution-state structure determination using NMR of J2 crystallin: Novel eye lens protein from the box jellyfish (ACS)
Topological coarse-graining: Building ultra efficient computer models of aggregation using network Hamiltonians (ACS)
Network-Based Modeling of Amyloid Fibril Formation (Biophysical Journal)
Sequence comparison, molecular modeling, and network analysis predict structural diversity in cysteine proteases from the Cape sundew, Drosera capensis (Computational and Structural Biotechnology Journal)
Leveraging molecular modeling, experimental chemistry and bioinformatics to discover and characterize novel proteins (ACS)
NMR structure determination and biophysical characterization of J2 crystallin- a unique eye lens protein from the box jellyfish (Experimental Nuclear Magnetic Resonance Conference)
Protein Discovery and Characterization using Molecular Modeling, Experimental Chemistry and Bioinformatics (Biophysical Journal)
Design and Construction of a static ssNMR Probe for the Investigation of Oriented Membrane Samples and Single Crystals (Experimental Nuclear Magnetic Resonance Conference)
Invited Talks
The fascinating story of Drosera capensis- 1st Annual Gilliam Biomedical Research Conference, School of Biological Sciences
Protein Discovery and Characterization using Molecular Modeling, Experimental Chemistry and Bioinformatics- Princeton University
Protein Discovery and Characterization using Molecular Modeling, Experimental Chemistry and Bioinformatics- Columbia University
Structure Prediction and Network Analysis of Enzymes from Carnivorous Plant Drosera capensis- Women in Statistics and Data Science Conference