Visioning synthetic futures for yeast research within the context of current global techno‐political trends

Dixon, Thomas A.; Walker, Roy S. K.; Pretorius, Isak S.

doi:10.1002/yea.3897

Cited by 2 publications

(3 citation statements)

References 93 publications

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“…Emerging trends and future directions in this interdisciplinary field are shaping the landscape of research and development, offering novel solutions to global challenges. Dixon, Walker, and Pretorius (2023) explore the future of yeast research within the context of current global techno-political trends. They emphasize that yeast research, particularly in Saccharomyces cerevisiae, is entering a new era of scholarship with new scientific tools and questions.…”

Section: The Interplay Of Biology and Engineering In Drug Developmentmentioning

confidence: 99%

“…The authors envision that synthetic yeast futures will encompass both basic and applied science questions of intense interest to government and non-government funding sources. This vision highlights the potential of synthetic biology to address global challenges and turn them into research opportunities (Dixon, Walker, & Pretorius, 2023). Sun and Zhong (2019) discuss biomacromolecules in emerging biological and medical science and technology.…”

Section: The Interplay Of Biology and Engineering In Drug Developmentmentioning

confidence: 99%

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Synthetic Biology and Its Potential in U.S. Medical Therapeutics: A Comprehensive Review: Exploring the Cutting-Edge Intersections of Biology and Engineering in Drug Development and Treatments

Francisca Chibugo Udegbe,

Ogochukwu Roseline Ebulue,

Charles Chukwudalu Ebulue

et al. 2024

Eng. sci. technol. j.

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This study provides a comprehensive review of the cutting-edge intersections of biology and engineering in the realm of medical therapeutics, focusing on the advancements and applications of synthetic biology. The main objectives were to explore the historical evolution, define the scope, and analyze the current state-of-the-art in synthetic biology, particularly in drug development and treatment strategies. The methodology employed a systematic literature review and content analysis, utilizing a range of academic databases to gather relevant peer-reviewed articles published between 2013 and 2023. Key findings revealED that synthetic biology, through the integration of engineering principles and biological systems, has led to significant innovations in medical therapeutics. These include the development of novel drug delivery systems, targeted therapies, and personalized medicine approaches. The study highlights the challenges and limitations in current synthetic biology approaches, such as ethical concerns, regulatory hurdles, and the need for interdisciplinary collaboration. The future landscape of synthetic biology in medicine is marked by both challenges and prospects. The field holds immense potential for addressing complex diseases and enhancing healthcare delivery, yet faces significant challenges in ethical considerations and regulatory frameworks. Strategic recommendations are provided for researchers, industry leaders, and policymakers, emphasizing the need for continuous innovation, ethical applications, and comprehensive regulatory strategies. Finally, synthetic biology stands as a transformative force in medical therapeutics, with the potential to revolutionize healthcare. Future research should focus on overcoming current limitations and exploring new applications, ensuring the field's continued advancement and contribution to global healthcare. Keywords: Synthetic Biology, Medical Therapeutics, Drug Development, Bioengineering.

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Section: The Interplay Of Biology and Engineering In Drug Developmentmentioning

confidence: 99%

Section: The Interplay Of Biology and Engineering In Drug Developmentmentioning

confidence: 99%

Synthetic Biology and Its Potential in U.S. Medical Therapeutics: A Comprehensive Review: Exploring the Cutting-Edge Intersections of Biology and Engineering in Drug Development and Treatments

Francisca Chibugo Udegbe,

Ogochukwu Roseline Ebulue,

Charles Chukwudalu Ebulue

et al. 2024

Eng. sci. technol. j.

View full text Add to dashboard Cite

show abstract

“…The study of these synthetic communities generates invaluable information on the contribution of the community to the overall ecosystem function. However, there are still several limitations, including how to manage the knowledge acquired in synthetic communities when dealing with naturally established communities, intercellular communication between single and multiple species, and how cell consortia can be optimised or controlled in the long term [250,251]. Once the functionalities provided by specific taxa are identified, it is necessary to investigate how the population dynamics of these taxa and of different microbial strains respond to different agricultural practices.…”

Section: Towards Smart Farming: Microbiota As a Nature-based Solution...mentioning

confidence: 99%

Microbiota Ecosystem Services in Vineyards and Wine: A Review

García-Izquierdo,

Colino-Rabanal,

Tamame

et al. 2024

Agronomy

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The domestication of vines started in Asia 11,000 years ago, although it was not until the 19th century that oenology was established as a scientific discipline thanks to the research of Louis Pasteur on the role of microorganisms in wine fermentation. At the present time, the progression in next-generation sequencing (NGS) technologies is helping to facilitate the identification of microbial dynamics during winemaking. These advancements have aided winemakers in gaining a more comprehensive understanding of the role of microbiota in the fermentation process, which, in turn, is ultimately responsible for the delivery of provisioning (wine features and its production), regulating (such as carbon storage by vineyards, regulation of soil quality, and biocontrol of pests and diseases) or cultural (such as aesthetic values of vineyard landscapes, scholarly enjoyment of wine, and a sense of belonging in wine-growing regions) ecosystem services. To our knowledge, this is the first review of the state of knowledge on the role of microbiota in the delivery of ecosystem services in the wine sector, as well as the possibility of valuing them in monetary terms by operating logic chains, such as those suggested by the SEEA-EA framework. This paper concludes with a review of management practices that may enhance the value of microbiota ecosystem services and the role of smart farming in this task.

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Visioning synthetic futures for yeast research within the context of current global techno‐political trends

Cited by 2 publications

References 93 publications

Synthetic Biology and Its Potential in U.S. Medical Therapeutics: A Comprehensive Review: Exploring the Cutting-Edge Intersections of Biology and Engineering in Drug Development and Treatments

Synthetic Biology and Its Potential in U.S. Medical Therapeutics: A Comprehensive Review: Exploring the Cutting-Edge Intersections of Biology and Engineering in Drug Development and Treatments

Microbiota Ecosystem Services in Vineyards and Wine: A Review

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