Postdoctoral Fellow, Nile Lab - Ubiquitin/UBL Chemical Biology

Calico (Calico Life Sciences LLC) is an Alphabet-founded research and development company whose mission is to harness advanced technologies and model systems to increase our understanding of the biology that controls human aging. Calico will use that knowledge to devise interventions that enable people to lead longer and healthier lives. Calico’s highly innovative technology labs, its commitment to curiosity-driven discovery science and, with academic and industry partners, its vibrant drug-development pipeline, together create an inspiring and exciting place to catalyze and enable medical breakthroughs. The Calico Postdoctoral Fellowship Program We are seeking ambitious early career scientists to join us in our mission to increase our understanding of the biology that controls human aging. This is a unique opportunity for individuals to distinguish themselves in aging research, deepen scientific training, and develop research independence. The Postdoctoral Fellowship is a fixed-term educational assignment (three years with a potential fourth year extension) with rolling start dates. Postdoctoral Fellows are fully integrated into Calico's labs and community. The program is designed to train individuals to become independent investigators in an academic or industry setting upon successful completion of the assignment. Fellows will receive regular feedback and guidance from their mentor(s) and participate in a formal annual review process to review project progress and individual performance and provide career coaching. About the Nile Lab The Nile Lab investigates the fundamental mechanisms by which E3 ubiquitin ligases recognize, modify, and regulate substrates. We aim to understand the biochemical and biophysical principles governing ubiquitin/UBL signaling, how E3s achieve specificity, how their activity is modulated, and how these insights can inform systematic strategies to redirect E3-ligase activity through chemical biology. Our research emphasizes rigorous protein biochemistry, including protein purification, quantitative mechanistic studies, and the reconstitution of multi-component systems in vitro, while connecting these insights back to cellular context. We use a wide range of approaches such as structural biology, chemical biology, directed-evolution/selection technologies, and advanced imaging or biophysical methods. We welcome proposals that address core questions in ubiquitin signaling through rigorous biochemical experimentation and creative approaches. Ideal candidates will be highly quantitative, intellectually fearless, and collaborative team players who thrive in a multidisciplinary environment.