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1. Twitter: More than Tweets for Undergraduate Student Researchers

   https://doi.org/10.1128/jmbe.00326-21  

   Reyna, Nathan S.; Pruett, Christin; Morrison, Mike; Fowler, Jennifer; Pandey, Sumali; Hensley, Lori (April 2022, Journal of Microbiology & Biology Education)

   ABSTRACT During the COVID-19 pandemic, biology educators were forced to think of ways to communicate with their students, engaging them in science and with the scientific community. For educators using course-based undergraduate research experiences (CUREs), the challenge to have students perform real science, analyze their work, and present their results to a larger scientific audience was difficult as the world moved online. Many instructors were able to adapt CUREs utilizing online data analysis and virtual meeting software for class discussions and synchronous learning. However, interaction with the larger scientific community, an integral component of making science relevant for students and allowing them to network with other young scientists and experts in their fields, was still missing. Even before COVID-19, a subset of students would travel to regional or national meetings to present their work, but most did not have these opportunities. With over 300 million active users, Twitter provided a unique platform for students to present their work to a large and varied audience. The Cell Biology Education Consortium hosted an innovative scientific poster session entirely on Twitter to engage undergraduate researchers with one another and with the much broader community. The format for posting on this popular social media platform challenged students to simplify their science and make their points using only a few words and slides. Nineteen institutions and over one hundred students participated in this event. Even though these practices emerged as a necessity during the COVID-19 pandemic, the Twitter presentation strategy shared in this paper can be used widely. 

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2. A Versatile Semester-Long Course-Based Undergraduate Research Experience using Optogenetics and RNAi to Identify Genes Important for Synapse Function

   https://doi.org/10.59390/XZQL5300  

   Luth, Eric S; Juo, Peter (December 2023, Journal of Undergraduate Neuroscience Education)

   Compared to traditional teaching laboratory activities, course-based undergraduate research experiences (CUREs) can increase student engagement and confidence, improve scientific literacy, enhance critical thinking, and promote accessibility in STEM. Here we describe a versatile CURE for an upper-level Neurobiology course that incorporates genetic, molecular, cellular, and behavioral experiments into a semester-long investigation to identify genes important for glutamate synapse formation or function in C. elegans. Following introduction to the CURE approach and basic C. elegans techniques, students construct their own low-cost optogenetics rigs, which we describe in detail here, to activate a mechanosensory escape reflex via photostimulation. They then perform a small-scale RNAi screen with this light-activated behavioral readout. Once a gene of interest is identified, students submit a proposal to investigate the role of this gene in nervous system function and spend the rest of the semester carrying out follow-up experiments using mutant strains. We also describe ways in which this CURE can be modified depending on the pedagogical objectives, availability of materials, or research interests of the instructor. Participating in this lab significantly enhanced students' abilities to see themselves as STEM professionals and prompted students to report substantial gains in skills critical for entry into and success in graduate and medical schools. In addition to the benefits CUREs provide to students, faculty benefit from the generation of preliminary data and training of students for potential independent research projects. 

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3. Ultra-Short Presentations with Immediate in-Class Public Feedback to Enhance Skill Development with Low Class Time and Instructor Time

   https://doi.org/10.1080/87567555.2021.1913395  

   Heideman, Paul D.; Laury, Jessica. E. (May 2021, College Teaching)

   The development of oral presentation skills requires multiple opportunities to present and receive focused feedback. In typical discipline-based and general-education courses, class time is precious, and even when oral presentations are part of a course, students may receive only one or two opportunities to present with feedback. Here we describe an approach to develop presentation skills with ultra-short, one-minute presentations followed immediately by brief, supportive, focused, public in-class instructor feedback. Feedback is offered as one positive comment (one thing I liked) and one targeted goal for improvement (one thing to work on). The short time frame maximizes the number of iterative cycles of practice, feedback, and implementation of feedback. This approach was used with students in several semester-long courses offering three to eight opportunities to present. Students took anonymous surveys immediately after the experience and again up to two and a half years post-experience. Over 95% reported that they learned a great deal about how to improve their own presentations by watching other presentations and hearing the instructor’s immediate feedback. Respondents reported lasting gains in skills, increased confidence in their public speaking abilities, and all would recommend the experience to others. 

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4. Hydrothermal Synthesis and Characterization of Titanosilicate ETS-10: Preparation for Research Integrated Inorganic Chemistry Laboratory Course

   Ismail, M. N. (May 2020, Journal of chemical education)

   Hydrothermal synthesis and characterization of titanosilicate ETS-10 was used as a means to prepare students for a research-focused independent term project as part of a 200-level descriptive inorganic chemistry course. Students spent the first 7 weeks of the course learning synthesis and characterization techniques that are common for metal oxide systems. In the second half of the semester, students led their own independent term projects as part of this research integrated laboratory course. All students successfully synthesized their materials and characterized their products independently. At the completion of the course, students submitted a journal-style report as well as presented their findings at a department poster session. The students were assessed through Student Assessment of their Learning Gains (SALG) surveys which showed enhancement in understanding and all-around research skills. The feasibility of learning advanced instrumentation that is not typically used in an undergraduate lab setting was demonstrated through this course. 

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5. 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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