What governs how fast we age? Why do some biological processes stop working earlier than others? And what is happening at the molecular and cellular level as some organisms age while others continue to thrive?
Although seemingly philosophical in nature, these questions address one of the major mysteries of biology, the process of aging. With recent developments in genetics, molecular biology, and genomics, we now have the possibility of addressing these questions at the molecular level. Because our ultimate goal is not simply to extend lifespan, but to improve overall health, we must identify the genes associated with biological functions that we typically associate with quality of life. The goal of our laboratory's work is to understand the molecular mechanisms governing longevity and maintenance of the biological processes that exhibit age-related decline.
Recent Publications
Perhaps the most devastating decline with age is the loss of memory. Therefore, identifying mechanisms to restore memory function with age is critical. Using C. elegans associative learning and memory assays, we identified a gain-of-function G signaling pathway mutant that forms a long-term (cAMP response element binding protein …
Cognitive decline is a major deficit that arises with age in humans. While some research on the underlying causes of these problems can be done in humans, harnessing the strengths of small model systems, particularly those with well-studied longevity mutants, such as the nematode C. elegans, will accelerate progress. Here we review the…
Presynaptic protein synthesis is important in the adult central nervous system; however, the set of mRNAs localized to presynaptic areas has yet to be identified in any organism. We differentially labeled somatic and synaptic compartments nervous system-wide in adult C. elegans and isolated synaptic regions for deep sequencing. Analysis of the…
Contact information
Carl Icahn Lab 140
Princeton University
Princeton NJ, 08540
Lab phone: 609-258–9505