Designing Authentic Undergraduate Experiences in Research (DAUER)
Joseph Ross, California State University-Fresno
In this research experience, students will learn about how inheritance of diverse genetic material from their parents can impact the health (fecundity) of offspring. Students will design experiments to mate pairs of populations from a diverse global collection of microscopic worms and measure and compare the fecundities of their hybrid offspring.

Using R to Build Powerful Predictive Models for Kaggle Competitions
Earvin Balderama, California State University-Fresno

Introduction to Mathematical Proofs - Journey into the unknown
Tamas Forgacs, California State University-Fresno
This CURE processes traditional elements of a proofs course through student research initiated by problems posed in various mathematics journals aimed at the general mathematics community. Students are tasked with solving these problems, and generalize their answers in suitable ways.

Brain Mapping of Psychiatric Disorders
Chris Miller, California State University-Fresno
This course will introduce students to the neuroscience of psychiatric disorders by guiding them through the process of conducting a meta-analysis of fMRI studies of a particular psychiatric disorder of their choice.

Going from big genomics data, to useful data, to experiments in diabetes
Talitha Van der Meulen, University of California-Davis
In diabetes, blood glucose levels are too high and people with diabetes suffer from severe side-effects that include cardiovascular disease, renal failure and blindness. Our lab is interested in studying the different cell types in the pancreatic islet that together regulate blood glucose levels. Our ultimate goal is to understand how human islet cells function and change in health and diabetes and then use this knowledge to contribute to a cure for or treatment of diabetes. In this CURE, students will become familiar with using so-called "omics" data and translating the data into a testable experiment that they will perform. The experiments will be done in the context of diabetes research that is ongoing in the Huising lab at UC Davis. Currently, we have large sets of information about gene expression at the mRNA level in healthy alpha, beta, and delta cells of the mouse pancreatic islet. Students will use bioinformatics techniques to process these sets and compare expression among these cell types during the first half of the course. For the second half, they will use this comparison to select a gene whose expression they will verify at the protein level in mouse pancreatic islets using fluorescent staining of tissue slices, followed by imaging and image-quantification. This process is a first step towards our ultimate goal of studying human islet cells. Once we have tools verified in mouse tissue, we can then apply these to human tissues. Therefore, we ask students to present their validation to the Huising lab.

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!

Probe the Effect of Physical Graphene Hole Morphology on its Acidity
Michael Groves, California State University-Fullerton
The purpose of this activity is to create and submit a job to a scheduler on a high-performance computing resource and conclude if the job relaxed to below a given threshold. We will also test how changing the requested resources affects the time to complete the job.

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