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1. Common Interests Without Common Expertise: Reflections on Early-career Experiences in Cross-Disciplinary Research

   https://doi.org/10.1093/icb/icad035  

   Chan, Kit_Yu_Karen; Wheeler, Jeanette_D (May 2023, Integrative And Comparative Biology)

   Synopsis Cross-disciplinary research enables us to tackle complex problems that require expertise from different fields. Such collaborations involve researchers who have different perspectives, communication styles, and knowledge bases, and can produce results far greater than the sum of their parts. However, in an era of increasing scientific specialization, there exist many barriers for students and early-career researchers (ECRs) interested in training and undertaking interdisciplinary research endeavors. This perspective examines the challenges that students and ECRs perceive and experience in cross-disciplinary work and proposes pathways to create more inclusive and welcoming research environments. This work emerges from a National Science Foundation (NSF)-funded workshop held during the Society for Integrative and Comparative Biology (SICB) Annual Meeting in January 2023 in Austin, TX. The workshop brought together seasoned interdisciplinary scientists with undergraduate and graduate students to identify and discuss perceived challenges through small group discussions and experience sharing. Through summarizing a range of student concerns about embarking on careers as interdisciplinary scientists and identifying ways to dismantle institutional and lab management-level barriers, we aim to promote an inclusive and collaborative problem-solving environment for scientists of all experience levels. 

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2. Bioelectricity in Development, Regeneration, and Cancers” Cell Bio 2023: A Joint Meeting of the American Society of Cell Biology and European Molecular Biology Organization December 2–6, 2023, in Boston, MA, USA

   Pai, Vaibhav; Zhang, GuangJun; Levin, Michael (March 2024, Bioelectricity)

   Cell Bio conferences—organized jointly by the American Society of Cell Biology (ASCB) and European Molecular Biology Organization (EMBO)—showcase a diverse global community of the brightest researchers in Cell Biology and in emerging interdisciplinary topics, including bioelectricity. In this report, we briefly overview the Cell Bio 2023 subgroup meeting “Bioelectricity in Development, Regeneration, and Cancers.” This subgroup meeting featured 12 talks (7 Principal Investigators and 5 junior scientists) exploring the role of bioelectricity in endogenous and diseased states in model systems ranging from cells in culture to single-cell organisms such as yeast all the way to mammalian systems (including tools and technology developed for exploring bioelectricity and electrotaxis in cells and tissues). The subgroup meeting concluded with a discussion on the current challenges and opportunities for the field of bioelectricity. 

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3. The Whole is Greater Than the Sum of Its Parts: Large-scale Phenomena Arising from Small-scale Biophysical Processes

   https://doi.org/10.1093/icb/icad115  

   Wheeler, Jeanette_D; Chan, Kit_Yu_Karen (August 2023, Integrative And Comparative Biology)

   Synopsis The symposium “Large-scale biological phenomena arising from small-scale biophysical processes” at the SICB 2023 Annual General Meeting focused on the cross-disciplinary exploration of emergent phenomena in biology. Interactions between cells or organisms at small scales within a system can govern patterns occurring at larger scales in space, time, or biological complexity. This theme recurs in many sub-disciplines of biology, including cell and developmental biology, evolution, and ecology. This symposium, and the associated special issue introduced here, showcases a wide range of cross-disciplinary collaborations among biologists, physicists, and engineers. Technological advancements in microscopy and microfluidics, as well as complementary advances in mathematical modeling and associated theory demonstrate the timeliness of this issue. This introduction seeks to provide useful background information to place the studies within this issue in a broader biophysical context and highlight similarities in ideas and approaches across systems and sub-disciplines. We hope to demonstrate that cross-disciplinary research linking small-scale biophysics to larger-scale emergent phenomena can help us understand problems ranging from single-cell behaviors to tissue formation and function, evolution of form, and the dynamics of communities. 

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4. Introduction to The Symposium: “The Role of Mechanosensation in Robust Locomotion”

   https://doi.org/10.1093/icb/icad088  

   Stanchak, Kathryn_E; Katz, Hilary_R (July 2023, Integrative And Comparative Biology)

   Synopsis Mechanosensory information is a critical component of organismal movement control systems. Understanding the role mechanosensation plays in modulating organismal behavior requires inherently multidisciplinary research programs that reach across biological scales. Recently, there have been rapid advances in discerning how mechanosensory mechanisms are integrated into neural control systems and the impact mechanosensory information has on behavior. Thus, the Symposium “The Role of Mechanosensation in Robust Locomotion” at the 2023 Annual Meeting of the Society for Integrative and Comparative Biology was convened to discuss these recent advances, compare and contrast different systems, share experimental advice, and inspire collaborative approaches to expand and synthesize knowledge. The diverse set of speakers presented on a variety of vertebrate, invertebrate, and robotic systems. Discussion at the symposium resulted in a series of manuscripts presented in this issue that address issues facing the broader field, mechanisms of mechanosensation, organismal function and biomechanics, and sensing in ecological and social contexts. 

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5. Best Practices of Bioinspired Design: Key Themes and Challenges

   https://doi.org/10.1093/icb/icac143  

   Wissa, Aimy; Alleyne, Marianne; Barley, William C.; Suarez, Andrew V. (September 2022, Integrative And Comparative Biology)

   Synopsis Bioinspired design (BID) is an interdisciplinary research field that can lead to innovations to solve technical problems. There have been many attempts to develop a framework to de-silo engineering and biology and implement processes to enable BID. In January of 2022, we organized a symposium at the 2022 Society of Integrative and Comparative Biology Annual Meeting to bring together educators and practitioners of BID. The symposium aimed to (a) consolidate best practices in teaching bioinspiration, (b) create and sustain effective multidisciplinary teams, (c) summarize best approaches to conduct problem-based or solution-driven fundamental research, and (d) bring BID innovations to market. During the symposium, several themes emerged. Here we highlight three critical themes that need to be addressed for BID to become a truly interdisciplinary strategy that benefits all stakeholders and results in innovation. First, there is a need for a usable methodology that leads to proper abstraction of biological principles for engineering design. Second, the utilization of engineering models to test biological hypotheses is essential for the continued engagement of biologists in BID. Third, there is a necessity of proven team-science strategies that will lead to successful collaborations between engineers and biologists. Accompanying this introduction is a variety of perspectives and research articles highlighting best practices in BID research and product development and guides that can highlight the challenges and facilitate interdisciplinary collaborations in the field of BID. 

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