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FREE Background Report. Princeton NJ — Neuroscientist Michael Berry spends much of his time pondering circuits — not the electronic sort that appear on a computer chip, but the biological sort that brain cells form to accomplish the still poorly understood calculations involved in thinking. Ongoing research has identified a lengthening list of biological molecules and structures involved in neural signaling and of interactions among them. Icahn Laboratory - 140. msl2@princeton.edu. Dynamical Chaos ... Princeton, New Jersey 08540 United States Phone: +1 609 258 4900 Directions Europe. Ricardo Mallarino. To this end, my laboratory studies the function of the vertebrate retina – a system of neurons simple enough to be approached quantitatively, but complex enough to hold many mysteries. Yet, we do not understand what most of this biological circuitry "does" in the context of the int...The brain is an organ of bewildering complexity. Whitepages people search is the most trusted directory. The organization of cellular stress response networks and repair mechanisms Virology meets Proteomics: Cellular Host Defense versus Virus Immune EvasionThe cell biology of tissue polarity and epithelial patterningSmall-molecule-mediated interactions in complex microbial communitiesModulation of host cell processes by adenoviral gene productsRNA biology meets developmental biology: post-transcriptional gene regulation in Drosophila developmentBacterial cell biology: fundamentals of cytoskeletal dynamics, polarity, and mitosisSystems and Synthetic Biology of Photosynthetic OrganismsStructural biology and mechanisms of signal transduction in stress and immune responsesHow noncoding regions of the genome function to control the differential patterns of gene expression, both spatial and temporal, that define cell behaviorCRISPR-based technologies for studying viral and cellular RNAGenetic, epigenetic, and environmental interactions with child development and healthMolecular architecture and function of the microtubule cytoskeletonQuantitative approaches for understanding mammalian preimplantation embryo formationControl of gene expression and early development in Drosophila melanogasterUnderstanding and controlling complex cell behaviorsEmbryonic development of Drosophila melanogaster