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If undertaken, these endeavors ultimately benefit educators across the globe by not only equipping them with various pedagogical tools and resources for their online instruction but also by establishing international partnerships and collaborations.Career and professional development competencies are critical for biomedical PhD and postdoctoral training. In the current educational landscape, programs that meet these competencies are offered and attended in an ad hoc manner. During the COVID-19 pandemic and the accompanying switch to virtual learning, our team observed a surge in interest for our weekly nonsequential programs. In this study, we surveyed our learners to better understand motivators for attending these programs during the pandemic and to identify barriers for participating in such events before and during Work-from-Home. Our data indicate that conflict with research responsibilities, time spent to get to the event location, and planning time to attend are all significant barriers to engagement. AG-270 Notably, feelings of being overwhelmed, which increased slightly during the pandemic, stood out as an identified barrier. Per our results, the virtual format was an attraction. While 58% of respondents would prefer to access professional development programs virtually in the future, almost 42% indicated a preference for in-person events when normalcy resumes, as the physical presence of an instructor and of peers result in a deeper engagement. Our collective analysis here suggests that learners will benefit from a hybrid or combination of synchronous and asynchronous career and professional development programming in the future, even postpandemic, to reduce identified barriers. Alongside hybrid learning engagements, we strongly recommend structured time for learners to enhance their professional competencies, enabled by a commitment from departments and faculty mentors to bring equity in professional skill building and foster a life-long growth mindset.Although many science education researchers have investigated developing science education at the K-12 levels to meet the needs of underrepresented students in science, far fewer have considered how shifts to online instruction in undergraduate science courses might provide insights into better supporting the achievement of students from diverse backgrounds at the university level. This case study aims to fill this gap by engaging in a reflective interdisciplinary "deep dive" into the instruction of one biochemistry professor at a designated Hispanic Serving Institution (HSI), across two distinct modalities face-to-face and online. The findings reported here suggest that the use of formative assessments and student feedback surveys, as well as responsive instructional strategies, facilitate access to and comprehension of complex material in the online modality, without diminishing achievement. Additionally, the reflective collaboration deployed methodologically in this study highlights how higher education faculty can marshal intellectual resources across distinct disciplines to identify and develop responsive pedagogy in advanced science courses at the university level.In March 2020, the COVID-19 pandemic altered instructional and learning strategies at institutions across the globe. This emergency transition to remote instruction (ETRI) resulted in ambiguity regarding what to teach, how to teach, and instructor and student workload. We report on a survey-based study of 44 community college (CC) faculty at 16 institutions, with the aim of documenting how our CC faculty colleagues perceived the ETRI, the challenges they faced, and the resources that were-or would have been-most helpful. We conclude with recommendations, in the words of participating faculty, to address prevailing concerns voiced by these instructors namely, the lack of student-faculty interactions in the online space, concerns about student access to resources, and the demand for authentic research and lab experiences.Course-based undergraduate research experiences (CUREs) provide students with ample opportunity to engage in the scientific process and are increasingly replacing more traditional cookbook-style laboratory exercises in the undergraduate biology curriculum. The COVID-19 pandemic has highlighted the difficulty of implementing these projects during times of crisis. The quick transition to online learning during the pandemic afforded us a unique opportunity to develop an alternative version of our CURE for the online environment and to compare the efficacy of our CURE on learning gains in online versus in-person learning situations. Compared with a previous semester, our data suggest no significant differences in learning gains between students who participated in a hands-on CURE and an online CURE. Taken together the data suggests an avenue for CURE implementation even while teaching in online or hybrid formats. We discuss strategies that made the CURE successful in the online format and offer suggestions for how to adapt such activities for online or hybrid courses.The COVID-19 pandemic has forced higher-education institutions to shift to nearly 100% online delivery of didactic coursework nationally. Besides the stress and isolation that many students experience simply due to the physical distancing requirements imposed by the crisis, students new to learning in an online environment may feel further isolated and disengaged from the course content. Consequently, we explored the use of an existing online social networking tool, Instagram, to enhance students' engagement with online course material. In this study, students enrolled in both undergraduate and graduate online science courses were invited to participate. Course instructors posted materials related to the topics covered in the course weekly sessions, including links to news reports, cartoons, and short quizzes. At the conclusion of each course, a questionnaire focusing on the students' experience was distributed to all participants. Results from the survey showed that the weekly Instagram posts allowed students to feel more engaged with the course content and connected with the course instructors and classmates. However, some students reported that the posts were not helpful or that they did not feel comfortable using social networking tools for education purposes due to privacy concerns. In this article, we provide tips for how to improve the effectiveness of using social networking tools to augment didactic online courses.

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