This article examines the evolution of bioethics over the past four decades since the publication of John Harris’ seminal work, “The Value of Life” (1985). It argues that while the core principles articulated by Harris remain relevant, bioethics has undergone significant transformation across four key domains. First, the expanding frontiers of biotechnology have necessitated engagement with complex issues beyond individual clinical ethics. Second, there has been a widening of the circle of moral concern to encompass nonhuman animals, disability rights, and global health equity. Third, bioethics has become increasingly entangled with public policy and governance. Finally, the field has seen substantial academic proliferation and institutionalization. These developments have pushed bioethics to adapt its frameworks and methodologies while maintaining fidelity to foundational principles. This article concludes by considering the future challenges and opportunities for bioethics in an increasingly complex technological and social landscape.

Single-molecule techniques to analyze proteins and other biomolecules involving labels and tethers have allowed for new understanding of the underlying biophysics; however, the impact of perturbation from the labels and tethers has recently been shown to be significant in several cases. New approaches are emerging to measure single proteins through light scattering without the need for labels and ideally without tethers. Here, the approaches of interference scattering, plasmonic scattering, microcavity sensing, nanoaperture optical tweezing, and variants are described and compared. The application of these approaches to sizing, oligomerization, interactions, conformational dynamics, diffusion, and vibrational mode analysis is described. With early commercial successes, these approaches are poised to have an impact in the field of single-molecule biophysics.

Bio-Futures for Transplanetary Habitats (BFfTH) is a Special Interest Group within the Hub for Biotechnology in the Built Environment that aims to explore and enable interdisciplinary research on transplanetary habitats and habitats within extreme environments through an emphasis on the biosocial and biotechnological relations. BFfTH organized the online and onsite networking symposium BFfTH to examine how emerging biotechnologies, living materials, and more-than-human life can be implemented in habitat design and mission planning. The two-day symposium aimed to serve as a catalyst in establishing an international network and to support the development of novel methodologies to move beyond discipline-specific approaches. The symposium consisted of five sessions, including Mycelium for Mars and Novel Biotechnologies for Space Habitats. This opinion paper presents key outcomes and trends from these sessions, a moderated panel, and informal discussions. The identified research trends explored the use of biotechnology and biodesign to enhance safety, sustainability, habitability, reliability, crew efficiency, productivity, and comfort in extreme environments on Earth and off-world. Beyond design and engineering, the symposium also examined sociotechnical imaginaries, focusing on desired experiences and characteristics of life and technology in transplanetary futures. Some of the specific topics included innovative material-driven processes for transplanetary habitat design, socio-political and ethical implications, and technology transfer for sustainable living on Earth. The outcomes emphasize the necessity for advancing biosocial and biotechnological research from an interdisciplinary perspective in order to ethically and meaningfully enable transplanetary futures. Such a focus not only addresses future off-world challenges but also contributes to immediate ecological and architectural innovations, promoting a symbiotic relationship between space exploration and sustainability on Earth.

This Research Communication investigates how well U.S. dairy farmers understand the voting behaviour and willingness to pay of consumers for products with production traits relevant to animal health, welfare and biotechnology. Accurately understanding consumer behaviour is key to making sound production decisions and reducing risks. Comparing survey data with the literature shows that U.S. dairy farmers correctly assess consumer attitudes and behaviour over animal welfare practices like pain-controlled dehorning but could improve knowledge of attitudes towards antibiotic use and novel biotechnologies like gene editing.

Cuba faces a dilemma between continuing its current portfolio of biotechnology drugs and vaccines with lower profitability or renewing its product portfolio with the associated costs and risks.

This study assesses Latin America and Caribbean countries’ capacity to innovate new pharmaceuticals, defined as developing new drugs and vaccines, repurposing existing drugs, and inventing around patents to produce new drug variations. Vaccine innovation includes reengineering existing vaccines, developing new manufacturing methods, and the clinical development of unapproved vaccine candidates initiated elsewhere.

This study contributes to the research on central–local relations in China by examining local dynamics and defiance. Drawing on the case of a provincial government's defiance against a central policy – Heilongjiang province's 2016 ban on genetically modified organisms (GMOs) – this study shows that despite the unprecedented recentralization push in recent years, local defiance still exists and persists. In addition, this study finds that the Heilongjiang provincial government managed to reduce potential political backlash by feeding the public distrust of GMOs, exploiting the internal divide and central ambiguity over GMOs and, more importantly, skilfully framing its GMO ban as part of its efforts to implement Xi Jinping's Green Development Concept.

Public concern regarding the use of herbicides in urban areas (e.g., golf courses, parks, lawns) is increasing. Thus, there is a need for alternative methods for weed control that are safe for the public, effective against weeds, and yet selective to turfgrass and other desirable species. New molecular tools such as ribonucleic acid interference (RNAi) have the potential to meet all those requirements, but before these technologies can be implemented, it is critical to understand the perceptions of key stakeholders to facilitate adoption as well as regulatory processes. With this in mind, turfgrass system managers, such as golf course superintendents and lawn care providers, were surveyed to gain insight into the perception and potential adoption of RNAi technology for weed management. Based on survey results, turfgrass managers believe that cost of weed management and time spent managing weeds are the main challenges faced in their fields. When considering new weed management tools, survey respondents were most concerned about cost, efficacy, and efficiency of a new product. Survey respondents were also optimistic toward RNAi for weed management and would either use this technology in their own fields or be willing to conduct research to develop RNAi herbicides. Although respondents believed that the general public would have some concerns about this technology, they did not believe this to be the most important factor for them when choosing new weed management tools. The need for new herbicides to balance weed control challenges and public demands is a central factor for turfgrass managers’ willingness to use RNAi-based weed control in turfgrass systems. They believe their clientele will be accepting of RNAi tools, although further research is needed to investigate how a wider range of stakeholders perceive RNAi tools for turfgrass management more broadly.

Primordial germ cells transplantation is a unique approach for conservation and reconstitution of endangered fish species. This study aimed to establish techniques to culture dechorionated embryos in different incubation systems and also to determine anaesthetic concentration for fish recipients in the larval stage for subsequent primordial germ cell transplantation. Intact and dechorionated embryos were divided into three incubation systems: (1) a control group with manual replacement of the solution; (2) a closed environment with high oxygen with manual replacement of the solution; and (3) constant solution recirculation. This combination resulted in six treatments. For the evaluation of anaesthetics for larvae, the concentrations evaluated were 19.5 mM, 24.4 mM, 29.3 mM, and 34.2 mM of 2-phenoxyethanol. Anaesthesia concentration and recovery at different stages were evaluated. For transplantation, primordial germ cells of Astyanax altiparanae were transplanted into anaesthetised larvae (1 dph) of Prochilodus lineatus. Better results were obtained in the recirculation system for dechorionated embryos of P. lineatus for hatching (54.18%) and normal morphology (50.06%). The 2-phenoxyethanol anaesthetic with a dose of 29.3 mM resulted in shorter induction times, in addition to the recovery time between 5 and 10 min. By using this anaesthetic concentration at transplantation, GFP-positive cells were seen in two recipients, but the cells did not proliferate. This study established an effective incubation system for the development of the dechorionated embryo and determined an effective anaesthetic concentration for P. lineatus larvae. In addition, micromanipulation and transplantation of primordial germ cells in neotropical species were conducted for the first time.