Displaying all 4 publications

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  1. Rusydi F, Madinah R, Puspitasari I, Mark-Lee WF, Ahmad A, Rusydi A
    Biochem Mol Biol Educ, 2021 03;49(2):216-227.
    PMID: 32897655 DOI: 10.1002/bmb.21433
    The fundamental mechanism of biochemistry lies on the reaction kinetics, which is determined by the reaction pathways. Interestingly, the reaction pathway is a challenging concept for undergraduate students. Experimentally, it is difficult to observe, and theoretically, it requires some degree of physics knowledge, namely statistical and quantum mechanics. However, students can utilize computational methods to study the reaction kinetics without paying too much attention but not wholly neglecting the comprehension of physics. We hereby provided an approach to study the reaction kinetics based on density-functional calculations. We particularized the study of the isomerization case involving five molecules at three different temperatures and emphasized the importance of the transition state in the study of reaction kinetics. The results we presented were in good agreement with the experiments and provided useful insights to assist students in the application of their knowledge into their research.
    Matched MeSH terms: Biochemistry/education*
  2. Yap MKK
    Biochem Mol Biol Educ, 2023 Jan;51(1):77-80.
    PMID: 36194083 DOI: 10.1002/bmb.21680
    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.
    Matched MeSH terms: Biochemistry/education
  3. Tyler L, Kennelly PJ, Engelman S, Block KF, Bobenko JC, Catalano J, et al.
    Biochem Mol Biol Educ, 2024;52(1):58-69.
    PMID: 37815098 DOI: 10.1002/bmb.21789
    We present as a case study the evolution of a series of participant-centered workshops designed to meet a need in the life sciences education community-the incorporation of best practices in the assessment of student learning. Initially, the ICABL (Inclusive Community for the Assessment of Biochemistry and Molecular Biology/BMB Learning) project arose from a grass-roots effort to develop material for a national exam in biochemistry and molecular biology. ICABL has since evolved into a community of practice in which participants themselves-through extensive peer review and reflection-become integral stakeholders in the workshops. To examine this evolution, this case study begins with a pilot workshop supported by seed funding and thoughtful programmatic assessment, the results of which informed evidence-based changes that, in turn, led to an improved experience for the community. Using participant response data, the case study also reveals critical features for successful workshops, including participant-centered activities and the value of frequent peer review of participants' products. Furthermore, we outline a train-the-trainer model for creating a self-renewing community by bringing new perspectives and voices into an existing core leadership team. This case study, then, offers a blueprint for building a thriving, evolving community of practice that not only serves the needs of individual scientist-educators as they seek to enhance student learning, but also provides a pathway for elevating members to positions of leadership.
    Matched MeSH terms: Biochemistry/education
  4. Barling PM, Ramasamy P
    Clin Teach, 2011 Mar;8(1):37-42.
    PMID: 21324071 DOI: 10.1111/j.1743-498X.2010.00419.x
    This paper presents our experience of running a special study module (SSM) in the second semester of the first year of our 5-year medical programme, worth 10 per cent of that semester's assessment, in which each student constructs an individually selected model illustrating a specific aspect of the teaching course.
    Matched MeSH terms: Biochemistry/education
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