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1. Integrating cancer biology into course-based undergraduate research: A structured four-year curriculum for STEM students

   Flowers, L (July 2025, International journal of science and research)

   Course-based undergraduate research experiences (CUREs) are a proven pedagogical approach to enhance undergraduate science process skills, knowledge, and competency outcomes by implementing a course-based faculty-mentored undergraduate research plan. CUREs are budget-friendly teaching and training practices that address the shortage of apprenticeship-style laboratory opportunities resulting from resource constraints. Effective CUREs implementations enable every science, technology, engineering, and math (STEM) major in the course, department, unit, or school to engage in real-world research activities, as CUREs integrate seamlessly into required lecture and laboratory courses within the curriculum. All CUREs encompass opportunities for undergraduates to participate in discovery-based, collaborative, iterative research projects that are important to the scientific community and society. A greater understanding of cancer development and cancer progression remains a significant challenge for society, given the number of cancer-related deaths worldwide each year. Additionally, given the diverse types of cancers that affect men and women, as well as the potential anti-tumor proliferation strategies yet to be discovered, an exploration in cancer biology presents a unique opportunity for undergraduates to produce novel findings that may lead to publications contributing to the field. This article outlines a technique for faculty to facilitate the execution of a cancer biology CUREs project that involves all student classifications. The extent to which participation in CUREs enhances undergraduate career readiness factors warrants further investigation. 

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2. Bridging Trade-Offs between Traditional and Course-Based Undergraduate Research Experiences by Building Student Communication Skills, Identity, and Interest

   https://doi.org/10.1128/jmbe.00156-21  

   Burmeister, Alita R.; Dickinson, Katie; Graham, Mark J. (September 2021, Journal of Microbiology & Biology Education)

   null (Ed.)

   ABSTRACT Undergraduate research plays an important role in the development of science students. The two most common forms of undergraduate research are those in traditional settings (such as internships and research-for-credit in academic research labs) and course-based undergraduate research experiences (CUREs). Both of these settings offer many benefits to students, yet they have unique strengths and weaknesses that lead to trade-offs. Traditional undergraduate research experiences (UREs) offer the benefits of personalized mentorship and experience in a professional setting, which help build students’ professional communication skills, interest, and scientific identity. However, UREs can reach only a limited number of students. On the other end of the trade-off, CUREs offer research authenticity in a many-to-one classroom research environment that reaches more students. CUREs provide real research experience in a collaborative context, but CUREs are not yet necessarily equipping students with all of the experiences needed to transition into a research lab environment outside the classroom. We propose that CURE instructors can bridge trade-offs between UREs and CUREs by deliberately including learning goals and activities in CUREs that recreate the benefits of UREs, specifically in the areas of professional communication, scientific identify, and student interest. To help instructors implement this approach, we provide experience- and evidence-based guidance for student-centered, collaborative learning opportunities. 

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3. Implementation of Asynchronous Educational Modules to Improve Student Understanding of Statistical Analysis in STEM Undergraduate Courses

   https://doi.org/10.22158/fet.v4n2p108  

   Barber, Sophia; Ibargüen, Sophia; Sharp, Chloe; Teng, Janet; Kim, Daisy; Luu, Richard; Ashcroft, Jared; Chang-Hou, Yu-Chung (March 2021, Frontiers in Education Technology)

   Due to the COVID-19 pandemic, many undergraduate students have been given no other option but to take their classes remotely. This has provided many challenges for both students and instructors, especially in the STEM field due to the required laboratory coursework. For this reason, alternative methods of distance learning are needed to optimize student laboratory experiences. The sudden transition to a remote format and adjusting to a new learning environment has proven to be difficult for both students and faculty. It has also been established throughout the pandemic that students perform substantially worse in on-line coursework compared with traditional, in-person classes. Students in a general chemistry course were introduced to innovative asynchronous lab modules that could be performed at home with the additional opportunity of conducting statistical analysis tests. These modules utilize discussion boards, graphing assessments, and labs to teach students how to perform different statistical tests and to familiarize students with the DataClassroom, Google Sheets, and Microsoft Excel platforms. This asynchronous learning format will promote both overall student engagement in STEM courses and student understanding of statistical analysis, thus exhibiting the potential to implement these modules in future undergraduate STEM coursework. 

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4. A plant mutant screen CURE integrated with core biology concepts showed effectiveness in course design and students' perceived learning gains

   https://doi.org/10.1002/bmb.21865  

   Liu, Jinjie; Benning, Christoph (January 2025, Biochemistry and Molecular Biology Education)

   Abstract Course‐based undergraduate research experiences (CUREs) provide students with valuable opportunities to engage in research in a classroom setting, expanding access to research opportunities for undergraduates, fostering inclusive research and learning environments, and bridging the gap between the research and education communities. While scientific practices, integral to the scientific discovery process, have been widely implemented in CUREs, there have been relatively few reports emphasizing the incorporation of core biology concepts into CURE curricula. In this study, we present a CURE that integrates core biology concepts, including genetic information flow, phenotype–genotype relationships, mutations and mutants, and structure–function relationships, within the context of mutant screening and gene loci identification. The design of this laboratory course aligns with key CURE criteria, as demonstrated by data collected through the laboratory course assessment survey (LCAS). The survey of undergraduate research experiences (SURE) demonstrates students' learning gains in both course‐directed skills and transferrable skills following their participation in the CURE. Additionally, concept survey data reflect students' self‐perceived understanding of the aforementioned core biological concepts. Given that genetic mutant screens are central to the study of gene function in biology, we anticipate that this CURE holds potential value for educators and researchers who are interested in designing and implementing a mutant screen CURE in their classrooms. This can be accomplished through independent research or by establishing partnerships between different units or institutions. 

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5. Authentic Scientific Research through an Undergraduate Ecology Course

   https://doi.org/10.1525/abt.2023.85.6.336  

   Burgin, Stephen R.; Siepielski, Adam M. (August 2023, The American Biology Teacher)

   Undergraduate science students who volunteer within a research laboratory group, or participate in funded research opportunities, in general are those who have the opportunity to engage in authentic research. In this article, we report the findings from two different iterations of a semester-long collaboration between a biology faculty member and a science education faculty member at a major research institution in the Southeastern United States. Specifically, the faculty members designed an ecology laboratory course for upper-level undergraduate students (primarily biology majors) where they would engage in an original and highly authentic ecological research project. The goal of this course was to have students explicitly learn about the nature of science (NOS), and authentic scientific practices such as inquiry and experimentation in the context of their own research. In the second year of the course, the global COVID-19 pandemic forced us to modify our approach to accomplish the same goals, but now in a remote and online format. Using questionnaires, concept inventories, and semi-structured interviews, the impact of the course on students’ understandings of NOS, inquiry, and experimentation, in addition to their perspectives on the experience within the course compared to prior laboratory coursework, was investigated. We found that students showed modest gains in each of the aforementioned desirable outcomes. These gains were generally comparable in both face-to-face and remote course settings. Additionally, students shared with us their preference for authentic laboratory work as compared with the typical laboratory work with its given research question and step-by-step instructions. Our research demonstrates what is possible in both face-to-face and remote undergraduate laboratory courses in biology and the positive impact that was observed in our students. We hope it serves as a model for other scientists and science educators as they collaborate to design authentic research-based coursework for undergraduate biology students. 

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