Undergraduate biology students’ molecular-level understanding of stochastic (also referred to as random or noisy) processes found in biological systems is often limited to those examples discussed in class. Therefore, students frequently display little ability to accurately transfer their knowledge to other contexts. Furthermore, elaborate tools to assess students’ understanding of these stochastic processes are missing, despite the fundamental nature of this concept and the increasing evidence demonstrating its importance in biology. Thus, we developed the Molecular Randomness Concept Inventory (MRCI), an instrument composed of nine multiple-choice questions based on students’ most prevalent misconceptions, to quantify students’ understanding of stochastic processes in biological systems. The MRCI was administered to 67 first-year natural science students in Switzerland. The psychometric properties of the inventory were analyzed using classical test theory and Rasch modeling. Moreover, think-aloud interviews were conducted to ensure response validity. Results indicate that the MRCI yields valid and reliable estimations of students’ conceptual understanding of molecular randomness in the higher educational setting studied. Ultimately, the performance analysis sheds light on the extent and the limitations of students’ understanding of the concept of stochasticity on a molecular level.

Vol. 22, No. 2

June 01, 2023

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History

Submitted: 23 May 2022

Revised: 24 January 2023

Accepted: 3 February 2023

Information

© 2023 S. Tobler et al. CBE—Life Sciences Education © 2023 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 4.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/4.0).

This project is funded by the Future Learning Initiative at ETH Zurich ( www.fli.ethz.ch). We thank the Learning Sciences and Higher Education research group members and Mike Klymkowsky for critically reading an early draft of the article. Further, we thank Professors Jacob Corn, Wolf-Dietrich Hardt, Karsten Weis, and Alex Widmer for supporting the study announcement to the classes, Professor Julia Vorholt-Zambelli and Carmen Fischer-Romero for supporting the recruitment of biology doctoral students, the biology and non-biology graduate students for taking the MRCI assessment and for correcting the MRCI translation, respectively, and the undergraduate students at ETH Zurich for participating in this study. All studies were approved by the Ethics Commission of ETH Zurich, Switzerland (2021-N-12 and 2021-N-142).

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