Audience: General Public

  • BIC 2026 | UC Systemwide Bioengineering Symposium

    BIC 2026 | UC Systemwide Bioengineering Symposium

    The 26th Annual UC Systemwide Bioengineering Symposium (BIC 2026) is taking place at UC Santa Cruz on August 22-23, 2026. The event will bring together faculty, researchers, students, industry representatives, non-profit organizations, and other stakeholders to explore bioengineering & AI in the heart of the redwood forest. BIC 2026 will foster new collaborations and showcase…

  • Xu, D. (BMEB) – Interplay Between CENP-A, DNA Methylation, and H3K9me3 in Defining Centromere Identity

    Xu, D. (BMEB) – Interplay Between CENP-A, DNA Methylation, and H3K9me3 in Defining Centromere Identity

    Centromeres ensure proper chromosome segregation during cell division, yet the organization and regulation of centromeric chromatin within satellite DNA arrays remain incompletely understood. Here, we leverage the complete diploid human genome benchmark (T2T-HG002) to provide a detailed study of centromeric sequence and chromatin architecture on individual haplotypes. Using adaptive-sampling-enriched, ultra-long-read DiMeLo-seq, we achieve single-molecule chromatin…

  • Wildlife Cameras and Other Methods for Assessing Backyard Biodiversity

    Wildlife Cameras and Other Methods for Assessing Backyard Biodiversity

    Home gardens, small farms, and wildland-agricultural interfaces can often be areas of increased water, food, and habitat resources for wildlife. Many people are interested in seeing wildlife on their properties, from the common visitors to the elusive wanderers. Come learn about how to monitor for wildlife in your own backyard, as well as the ecology,…

  • Insurance, Risk, and Resilience in a Changing World

    Insurance, Risk, and Resilience in a Changing World

    Climate change is reshaping every system it touches. This panel examines one that most people haven’t much considered in climate terms: insurance. When the industry built to share risk retreats from it, the consequences fall hardest on communities least able to absorb them. Three panelists examine what that failure looks like from the inside, where…

  • UCSC French and Japanese Student Performance Evening

    Students from the French and Japanese programs at UCSC present an evening of theater and music performances.

  • Figuerres, S. (ECE) – Ion Transport Mechanisms for Bioelectronics

    Figuerres, S. (ECE) – Ion Transport Mechanisms for Bioelectronics

    Ion transfer as the movement of charged species across spaces and interfaces is the basis of signaling in nearly all biological systems. My research is grounded in the idea that precise control over ion transfer enables direct manipulation of biological function. Specifically, I focus on how ion transport can be engineered to regulate both collective…

  • Morey, C. (BMEB) – Innovations in Interdependence: Genomic and Functional Evolution in Invertebrates and Their Intracellular Symbionts

    Morey, C. (BMEB) – Innovations in Interdependence: Genomic and Functional Evolution in Invertebrates and Their Intracellular Symbionts

    Intracellular symbionts are microorganisms, such as bacteria, that live within host cells. These associations are widespread throughout the invertebrate tree of life, and can perform a diversity of key metabolic, immune-response, or other functions that the host is dependent on for survival or reproduction. Intracellular symbioses allow both the host and the symbiont to occupy…

  • Okamoto, F. (BMEB) – Improving read-to-pangenome alignment in complicated genomic regions

    Okamoto, F. (BMEB) – Improving read-to-pangenome alignment in complicated genomic regions

    Many genetics pipelines start by aligning sequencing reads to a reference genome. Aligners attempt to find the position in the reference sequence which best matches the read sequence, but this breaks down when the reads come from a sample with variation relative to the reference. A proposed alternative, pangenome graphs, is supposed to fix such…

  • Bose, S. (ECE) – Learning-Augmented Optimization, Control, and Inference in Modern Power Systems

    Bose, S. (ECE) – Learning-Augmented Optimization, Control, and Inference in Modern Power Systems

    The electric grid is essential to modern society, and recent developments such as renewable energy sources (RESs), battery energy storage systems (ESSs), and microgrids (MGs) have necessitated novel computational methods for planning and operations. Machine learning offers a promising lever here, both as an accelerator for and proxy to traditional optimization-based problems. In this thesis,…

  • Imlau Dagostini, J. (CSE) – Intent-Driven Orchestration for Scientific Computing

    Imlau Dagostini, J. (CSE) – Intent-Driven Orchestration for Scientific Computing

    The growing complexity of high-performance computing (HPC) systems poses a fundamental challenge for domain scientists, whose primary objective is to obtain scientifically valid results rather than to optimize resource utilization. Modern leadership-class facilities combine heterogeneous CPUs, GPUs, and specialized accelerators across systems that simultaneously support traditional scientific simulations and AI-driven workloads. This creates a vast,…

Last modified: Jun 17, 2026