Using memes to promote student engagement and classroom community during remote learning.

As colleges moved to online teaching during the COVID-19 pandemic, many instructors found it difficult to maintain student engagement and classroom community in the virtual environment. We developed a semester-long activity for a molecular biology research methodology course where students created, and shared original memes related to course content with peers through group chat. Surveys and semi-structured interviews revealed that the exercise was effective in promoting student engagement, a sense of community, and relieving stress.

A digital module-based experiential learning in protein biochemistry during the COVID-19 pandemic paradigm.

Experiential learning is compromised in meeting the educational demands of our students during the challenging time of the COVID-19 pandemic. A more inclusive, flexible, and objective-oriented experiential learning environment is required. In this context, module-based experiential learning that is executable on a digital platform was designed. The learning module focused on protein biochemistry, contained a combination of asynchronous and synchronous activities categorized into 'Knowledge Hub' and 'Lab-based Movie', across 5 weeks. Digital and module-based experiential learning provides equitable, inclusive, and flexible access to students at remote locations. Furthermore, it is an objective-oriented and highly organized experiential learning framework that encourages students to engage and participate more in the learning process.

SARS-CoV-2 virtual biochemistry labs on bioinformatics and drug design.

Colleges and universities are learning to provide relevant virtual lab experiences for students due to the COVID-19 pandemic. Even schools attempting in-person instruction often need to utilize virtual experiences for students absent due to quarantine or illness. Much of biochemistry is amenable to molecular visualization and/or computational study; however, many faculty face learning how to utilize new computational and molecular visualization software. We present a set of virtual lab exercises with detailed instructions to engage students in the discovery of novel antiviral compounds against the SARS-CoV-2 main protease.

Using online simulations to teach biochemistry laboratory content during COVID-19.

At the University of South Australia (UniSA), Biochemistry is a second year undergraduate course. The student cohort is diverse, with students enrolled in courses with a laboratory focus, such as Laboratory Medicine, Medical Science, Nutrition and Food Science and Pharmaceutical Science. The course is taught in a traditional manner, with weekly lectures, fortnightly tutorials and three practical sessions. In response to the growing numbers of COVID-19 cases, in mid-March the University leadership moved to cease face-to-face teaching. By this time, 58 of 96 students had completed the first two (of three) face-to-face laboratory practicals. In response to this decision, teaching of all practical based content was moved online for all students. The first question was, how do we teach practical content online? And secondly, how do we teach hands-on skills? The first question was addressed using a suite of online simulations, progressively developed since 2013. Simulations are widely used and shown to be useful as teaching aids in STEM. A total of five simulations were introduced each covering key aspects of laboratory practice, including fundamental mathematical skills, reading, and setting a pipette, basic Biochemistry assays, protein quantification, and enzyme kinetics. The second issue of teaching hands on skills was addressed once restrictions were eased. Students were invited to attend the laboratory to learn the kinesthetic skills with instructor guidance. Both approaches used proved to be highly effective and can be readily adapted not only to teaching Biochemistry, but any aspect of science education.