ABSTRACT Center for Live Cell Genomics We will build new methodology and capacity for large-scale, long-term, inexpensive, modular, customizable, shared, Internet-of-Things-controlled, reproducible live cell culture and tissue-based experimental genomics disease models. Tissue models include traditional cell culture as well as organoid and primary tissue explants obtained from surgery or biopsy. Organoid factories supporting tissue growth and maintenance will be integrated with external and on-chip electro-optofluidic analytical modules to become part of an ecosystem that is modeled after open-source software. It will use commodity sensors, cameras, and computers linked in platforms flexibly designed using simple 3D printing, molding, etching and milling techniques potentially available at any institution. This will stimulate rapid innovation in experimental platforms for tissue culture. We will push this technology and use its best-in-class capabilities to make progress in neurodevelopment and pediatric cancer, addressing big questions. What genes contribute most importantly and specifically to human brain development? How do they go wrong in neurodevelopmental disease or brain injury? What specific molecular pathways are disrupted in individual pediatric cancer cases? How can we test pathway-specific treatments in a tissue model specific to each patient? Our education and outreach plans include a training program to develop a diverse and inclusive cohort of undergraduate students trained in genomic science through secondary school and community college outreach as well as coding workshops and research-based laboratory classes for UCSC undergraduates to develop core competencies. Participation in these activities serve as a basis for training graduate students and postdocs in inclusive pedagogy and mentorship. We are also developing a one-stop information hub to form an online community and to share our technology through immersive webinars and tutorials aimed at a broader audience with a range of expertise from the general public to scientists and clinicians at research institutions. Our work will enable significant advances in neuroscience and cancer research and education, stimulate a new open-source culture in cell biology and genomics, and democratize scientific and educational access beyond elite institutions, extending sharing projects like NHGRI ANvIL beyond data and code to include experiments and Internet-connected experimental platforms.