Mounting evidence indicates that known schizophrenia susceptibility genes regulate dendritic spines supports the model that perturbations in the molecular network underlying spine plasticity are crucially involved in the pathogenesis of schizophrenia. The Rac1- and RhoA-guanine nucleotide exchange factor (GEF) kalirin is critical for spine morphogenesis on cortical pyramidal neurons, and...
Biopolymers are polymers synthesized by living organisms. Depending on the monomeric units, biopolymers can be classified as polynucleotides (e.g., DNA and RNA), polypeptides (e.g., protein), polysaccharides (e.g., cellulose) and so on. Biopolymers not only play an essential role in nature, but also have wide applications in various fields of industry...
RNA-Sequencing (RNA-Seq) is a powerful high-throughput tool to profile transcriptional activities in cells. The observed read counts can be biased by various factors such that they do not accurately represent the true relative abundance of mRNA transcript abundance. Normalization is a critical step to ensure unbiased comparison of gene expression...
This dissertation presents research on solid oxide fuel cell (SOFC) cathodes. It specifically covers two main topics: the electrochemical performance of porous two-phase composite cathodes, and the degradation mechanisms of porous single-phase mixed conducting cathodes. Current-voltage measurement and electrochemical impedance spectroscopy were used extensively to evaluate the cell performance. The...
Self-assembly is an important process in biological system to build various bioactive structures from small amphiphilic molecules. The structural versatility of amphiphile self- assembly also provides a unique platform for the design of functional soft materials with controllable structural features. However, little is known about the correlation between external stimuli,...
Ultrafast, multi-dimensional coherent spectroscopy (MD-CS) has enabled scientists to probe fundamental aspects of chemical and photo-physical reactions on the nanosecond to femtosecond timescales. Using MD-CS, scientific contributions ranging from increased understanding of energy transfer in photosynthetic biological proteins to correlating the motion of electrons in semiconductors have been achieved. Concurrent...
One of the main drivers of complexity in a service system is the dependence between different random variables describing the system. For example, the queue lengths at different time points and the waiting times of different items (jobs, customers) in queue are strongly dependent. To reduce dependence-related complexities, it is...
Patterning hierarchical structures in three-dimension (3D) has created nature-inspired functional surfaces. Gecko feet structures have been mimicked for reversible adhesive properties, shark skin for reduced drag, and lotus leaves for self-cleaning surfaces. Rational design of out-of-plane patterns across multiple length scales is crucial because each micro- and nano-feature has different...
My dissertation consists of two chapters that empirically study policy-related questions in applied microeconomics by using structural econometric modeling developed in industrial organization. In the first chapter, I study the welfare effects of a cap-and-trade program. I develop an equilibrium framework that incorporates forward-looking behavior and transaction costs. In the...
The ability to efficiently sense and respond to molecular signals is crucial for any organism's survival. Sensitive, specific and timely, microbial sensing systems provide an excellent starting point for the engineering of single-celled organisms to detect new molecules of human interest. Towards this goal, our lab pursues the engineering of...