Science Education Research for Pre-Service Elementary School Teachers
Dermot Donnelly, California State University-Fresno
This CURE focuses on supporting pre-service elementary school teachers to investigate predictors of peers' intentions to teach science in their future practice.

Redesign of BIOL 1A Lab
Tricia Van Laar, California State University-Fresno

Determining the Calcium and Magnesium Ions in Water (Total Water Hardness)
Candice Cortney, California State University-Fresno
CHEM 1AL is laboratory course that introduces laboratory methods in general chemistry for undergraduates who have declared, or interested in, a science major. The CURE research for this laboratory will be centered around students determining the total hardness of water from different sources of water (i.e. bottled, filtered, tap). This CURE design will span across seven consecutive weeks and this will allow students to plan, propose, implement, analyze, and present their results. Implementing a CURE design into this course will give students experience with research and reinforce proper laboratory techniques.

TRANSFER STUDENT CURE: Multi-organismal genomic analysis of molecular determinants of protein assembly.
Dylan Murray, University of California-Davis

Mutant Frogs, Hormones, & Genes: Using gene editing to investigate the molecular basis for hormone regulated development
Carla Fresquez, University of California-Davis
Students will investigate a most remarkable example of hormone action in nature: amphibian metamorphosis. They'll observe development of our model, Xenopus laevis, from fertilized egg to swimming tadpole, at which point they can simply add thyroid hormone to induced early metamorphosis. In this iteration of the CURE, students will characterize TALEN induced thyroid hormone receptor mutant lines, including the development of simple and reproducible PCR screening methods for genotyping the large numbers of embryos that result from mating in Xenopus, an advantage of the system if rapid genotyping can be developed. At the conclusion of the CURE, students will appreciate the amphibian life cycle and how the same hormone can cause drastically different cellular, tissue, and organ changes. They will also contribute directly to research on the role of different receptors in mediating those changes, specifically developing rapid PCR screening methods to identify tadpoles with genome editing induced mutations in specific receptor types.

Polymer/Materials Structure-Property Relationship Investigations for General Chemistry Students
Zuleikha Kurji, Saint Marys College of California

Beyond the acronym: Employing data science to improve engagement in STEM
Pamela Reynolds, University of California-Davis
Forbes magazine ranked UC Davis as the "best value college for women in STEM." Let's investigate why, together! In this hands-on Course-based Undergraduate Research Experience (CURE), you will leverage computational tools and methodologies to explore, analyze and design solutions to maximize discoverability and engagement with STEM offerings right here at UC Davis. Community-based tools like the UC Davis STEM portal help students and members of the broader community discover and connect with opportunities in science, technology, engineering and math. How do we define STEM, and how do people interface with the diversity of offerings at our university? Through this seminar you will learn about web scraping, text mining, natural language processing, and user interface design as you work on projects to optimize search functionality and increase content management automation for the Portal, which serves as a single point of entry for catalogued information related to STEM initiatives, clubs, programs and events on campus. This research will be used to improve the discoverability and accessibility of our university's resources, and identify new opportunities for multidisciplinary research and engagement with STEM. The data we collect and workflows designed in this class will contribute to research in the digital humanities and philosophy of science regarding the shape of the discourse surrounding STEM in academia. It will also have a direct application in helping our students and broader community discover new resources and opportunities. Students will be required to work both individually and collaboratively in groups, and to share their learning with each other. This class is open to first-year freshman and transfer students from all majors. You do not need to be a computer scientist to be successful in this course, but you should be comfortable using a computer and have prior exposure to programming (R, Python, etc.). Your instructor team is looking forward to supporting your learning and engagement with research in this class!

Visualizing protein aggregates involved in human disease
Whitney Duim, University of California-Davis

Genes to Ecosystems
Laci Gerhart-Barley, University of California-Davis