I study the mechanisms that regulate and underlie ciliary development in animals (Drosophila in particular). While cilia are ubiquitous on animal cells and intriguing for their fantastic ultrastructure, they have only recently been recognized as having fundamental roles in development and human disease. In my lab we...
Research in my lab is focused on investigating patterns of change underlying animal diversity. We employ a wide range of experimental approaches to explore the molecular genetic relationship between genotype and phenotype from both developmental and evolutionary perspectives. Current work in the lab primarily use cultures of the lobate...
Our fundamental goal is to understand how neurons communicate in circuits to establish an appropriate level of activity that produces a robust, stable behavior. Our approach is to analyze in detail a model neural circuit that controls egg-laying behavior in the nematode C. elegans. We are taking advantage of the optical clarity and powerful...
Determining the mechanisms by which genes influence behavior is the central goal of my research program. The genome-sequencing revolution has identified thousands of genetic mutations that cause neurological disorders that impact human behavior. For any given disorder, mutations in hundreds of different genes can similarly affect behavior, and...
I am interested in sensory neurobiology with the primary focus on the sense of hearing. My Previous work emphasized on central auditory processing, sound localization, and ultrasonic detection in fish. The current research of my lab is to use the zebrafish (Danio rerio) to model hearing disorders in humans. The zebrafish has become an...
I completed my undergraduate degree in Germany and pursued a PhD at the Helmholtz Center Munich, in collaboration with the Technical University Munich. My PhD research focused on investigating the role of cell-cell adhesion molecules in cerebellar development, utilizing advanced in vivo time-lapse imaging technologies. Subsequently, I conducted...