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1. Innovate and empower: the malate dehydrogenase course-based undergraduate research experiences and community of practice

   https://doi.org/10.1042/EBC20230074  

   DeChenne-Peters, Sue Ellen; Scheuermann, Nicole L; Parente, Amy D; Zhang, Jing (October 2024, Essays in Biochemistry)

   Provost, Joseph; Cornely, Kathleen; Parente, Amy; Peterson, Celeste; Springer, Amy (Ed.)

   Abstract College science programs exhibit high rates of student attrition, especially among Students of Color, women, members of the LGBTQ+ community, and those with disabilities. Many of the reasons students choose to leave or feel pushed out of science can be mitigated through participation in faculty-mentored research. However, faculty resources are limited, and not every student has access to faculty mentoring due to systemic or structural barriers. By bringing authentic scientific research into the classroom context, course-based undergraduate research experiences (CUREs) expand the number of students who participate in research and provide benefits similar to faculty-mentored research. Instructors also benefit from teaching CUREs. Using a systematic review of 14 manuscripts concerning the Malate Dehydrogenase CUREs Community (MCC) and malate dehydrogenase (MDH) CUREs, we demonstrate that CUREs can be implemented flexibly, are authentic research experiences, generate new scientific discoveries, and improve student outcomes. Additionally, CURE communities offer substantial advantages to faculty wishing to implement CUREs. 

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2. Effectiveness of Course-Based Undergraduate Research Within the General Chemistry Classroom and Their Potential Role in the Cultivation of Modern Polymaths

   https://doi.org/10.5923/j.jlce.20210901.01  

   Gunn, P; Ashcroft, J (March 2021, Journal of laboratory chemical education)

   Course-Based Undergraduate Research Experiences or CUREs promote student-centered learning through infusion of research principles within an undergraduate course. This is an ideal pedagogy for use in General Chemistry. CUREs provide access to research experience to a broader audience, which increases engagement and success. A CURE model was implemented in a second semester General Chemistry course at Pasadena City College, a Hispanic serving institution (HSI) community college. Student success rate in the CURE chemistry classroom increased by over 20% and students’ completion rates increased over 5%. In addition, success, and completion rates of Hispanic students in the class showed no achievement gap and an over 10% higher completion rate compared to students that took the non-CURE chemistry course. CUREs also had the added benefit of providing more populous groups of undergraduates with opportunities to get a taste of real-world working scenarios that would normally be reserved for upper-level graduate students. Adopting CUREs as an integral part of an institutions’ learning strategies promotes student engagement that will bridge the gaps in traditional learning, but also facilitate development of the essential soft skills required in the collaborative environment that is commonplace in working professional settings. The potential role and relationship of CUREs implementation regarding the revival and cultivation of polymathy among future students as well as its implications on the future of academic instruction based on connections made from historical and interdisciplinary observations are also explores. 

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3. Responsible and ethical conduct of research (RECR) diagnostic survey using case scenarios from biology course-based undergraduate research experiences (CUREs)

   https://doi.org/10.1128/jmbe.00119-23  

   Monthofer, Elizabeth G; Ito, Jewel M; Battaglia, Samantha; Diaz-Martinez, Laura A (December 2023, Journal of Microbiology & Biology Education)

   ABSTRACT Course-based undergraduate research experiences (CUREs) are increasingly becoming the first, and perhaps only, research experience for many biology students. Responsible and ethical conduct of research (RECR) is crucial for the integrity of scientific research and essential for students to have an understanding of the scientific process at any academic level. However, there is a current lack of RECR education in biology CUREs. To understand the level of RECR knowledge and skills in undergraduate students, we created a diagnostic survey that uses case scenarios designed to illustrate RECR issues in the CURE classroom. Analysis of students’ responses indicated that the overall percentage of students who are able to effectively use RECR terminology and identify the impact of RECR violations on science integrity and ultimately on society is low. Furthermore, some students equated RECR violations to academic dishonesty, indicating difficulties separating the research and academic aspects of CUREs. This diagnostic tool can aid instructors in identifying gaps in student RECR knowledge for the subsequent development of RECR educational interventions, particularly to ensure the integrity of the research performed in CURE settings. 

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4. GIFTS: Making Research Experiences Meaningful through Critical Self-Reflection

   DeCrescenzo, Peter; Jangha, S. (June 2023, American Society of Engineering Education)

   In this Great Ideas for Teaching Students (GIFTS) paper, we offer learning outcomes that we are beginning to recognize from our eight-week research experience for undergraduates (REU). There are four characteristics that have been found to be essential to success in Science, Technology, Engineering, and Mathematics (STEM) fields: a strong sense of STEM identity, scientific self-efficacy, a sense of belonging, and a psychological sense of community. This is especially true for first-year and transfer students pursuing STEM undergraduate degrees. A variety of studies have been published that go into detail about why these characteristics in particular have such a significant effect on student performance and retention. This paper will present Critical Self-Reflection as a practical way to integrate development of these characteristics into student research experiences to foster experiential learning that goes beyond increasing technical skills. STEM students are not often trained to critically self-reflect on their experiences in classroom and research settings. An inability for undergraduates to reflect intentionally on their experiences creates greater risk for attrition from STEM disciplines. Curated reflective experiences in collaborative learning settings can offer professional development opportunities to enhance students’ social and technical communication skills. There are four phases within the scaffolded Critical Self-Reflection framework: Learning to Reflect, Reflection for Action, Reflection in Action, and Reflection on Action. When applying the evidence-based practice, STEM undergraduate researchers describe their perceptions via three activities: creating a legacy statement, participating in facilitated dialogue sessions, and writing curated reflection journal entries within an REU. Through critical self-reflection exercises, we are beginning to find growth of first-year and transfer STEM undergraduates in the following areas: understanding of their role in the lab; confidence in their researcher identity; expression of agency; observation and communication skills; and intentionality for action. Participating in this self-reflection allows students to make meaning of their experience enabling them to hone the aforementioned characteristics that creates a pathway from their undergraduate experience to undergraduate degree completion, graduate degree attainment, and to the STEM workforce. 

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5. Length of course-based undergraduate research experiences (CURE) impacts student learning and attitudinal outcomes: A study of the Malate dehydrogenase CUREs Community (MCC)

   https://doi.org/10.1371/journal.pone.0282170  

   DeChenne-Peters, Sue Ellen; Rakus, John F.; Parente, Amy D.; Mans, Tamara L.; Eddy, Rebecca; Galport, Nicole; Koletar, Courtney; Provost, Joseph J.; Bell, J. Ellis; Bell, Jessica K. (March 2023, PLOS ONE)

   Rumain, Barbara T. (Ed.)

   Course-based undergraduate research experiences (CUREs) are laboratory courses that integrate broadly relevant problems, discovery, use of the scientific process, collaboration, and iteration to provide more students with research experiences than is possible in individually mentored faculty laboratories. Members of the national Malate dehydrogenase CUREs Community (MCC) investigated the differences in student impacts between traditional laboratory courses (control), a short module CURE within traditional laboratory courses (mCURE), and CUREs lasting the entire course (cCURE). The sample included approximately 1,500 students taught by 22 faculty at 19 institutions. We investigated course structures for elements of a CURE and student outcomes including student knowledge, student learning, student attitudes, interest in future research, overall experience, future GPA, and retention in STEM. We also disaggregated the data to investigate whether underrepresented minority (URM) outcomes were different from White and Asian students. We found that the less time students spent in the CURE the less the course was reported to contain experiences indicative of a CURE. The cCURE imparted the largest impacts for experimental design, career interests, and plans to conduct future research, while the remaining outcomes were similar between the three conditions. The mCURE student outcomes were similar to control courses for most outcomes measured in this study. However, for experimental design, the mCURE was not significantly different than either the control or cCURE. Comparing URM and White/Asian student outcomes indicated no difference for condition, except for interest in future research. Notably, the URM students in the mCURE condition had significantly higher interest in conducting research in the future than White/Asian students. 

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