Software System Design to Support Scale in Mammalian Cell Line Engineering [0.03%]
用于支持哺乳动物细胞系工程规模的软件系统设计
David W McClymont,Baird McIlwraith,Althea Green et al.
David W McClymont et al.
Cell line engineering (CLE) is the process of gene editing cell lines for a variety of purposes including research and development or bioproduction processes. Traditionally, CLE workflows have been manual and low throughput. Here, we descri...
Jacob Beal,Tessa Alexanian
Jacob Beal
Although there is broad agreement among biosecurity experts that nucleic acid synthesis providers should screen orders for potential threats, there is no agreed upon mechanism to verify whether a provider is implementing effective screening...
Plant Cell Strain Improvement Through Engineering Biology for Industrial Plant Cell Culture [0.03%]
工程生物学在植物细胞工业培养中的应用及植物细胞菌种的优化筛选
Yuan Li,Andrew Mark Hall-Ponselè
Yuan Li
Plant cell culture (PCC) presents a promising and sustainable alternative to traditional agricultural methods for producing specialty bioactive compounds. However, its widespread industrial application has been hindered by challenges such a...
If You're Not Thinking About Intellectual Property, You're Not Thinking About Impact [0.03%]
不考虑知识产权 就是不考虑影响力
Sara L Holland
Sara L Holland
Many of us went into research to do something good-to cure cancer or to save the world-and in engineering biology, we really are doing that, solving some of the world's most pressing problems, from plastic degradation to chemical manufactur...
Synthetic and Engineering Biology in Australia: Advances in Infrastructure, Coordination and Impact [0.03%]
澳大利亚合成与工程生物学:基础设施、协调及影响方面的新进展
Robert E Speight
Robert E Speight
Synthetic and engineering biology in Australia is a vibrant and expanding area, with the potential to contribute to Australian priorities, industry growth and international initiatives. This paper provides a progress update on the field in ...
Synthetic biology in Mexico: Brief history, current landscape, and perspectives towards a bio-based economy [0.03%]
墨西哥的合成生物学:从简史、现状到生物经济愿景的概述
Uriel E Barboza-Pérez,Ma de L Pérez-Zavala,José E Barboza-Corona
Uriel E Barboza-Pérez
Synthetic biology (SynBio) makes biology easier by leveraging engineering principles and other disciplines to design and construct biological systems with novel or enhanced functions. SynBio has led to the development of more sustainable bi...
Engineering biology and automation-Replicability as a design principle [0.03%]
工程生物学和自动化——以可重复性为设计原则
Matthieu Bultelle,Alexis Casas,Richard Kitney
Matthieu Bultelle
Applications in engineering biology increasingly share the need to run operations on very large numbers of biological samples. This is a direct consequence of the application of good engineering practices, the limited predictive power of cu...
Sébastien Lambertucci,Faye Deakin
Sébastien Lambertucci
Breakthroughs in engineering biology will solve the challenges facing humanity, by harnessing life itself. Standing in the way of these breakthroughs are the technical challenges of collecting the requisite data. Data variability and reprod...
Routes to industrial scalability to maximise investment in engineering biology in the UK-A bioplastics small and medium-sized enterprise perspective [0.03%]
英国工程生物学投资最大化的工业规模化道路——生物塑料中小企业视角
Amy Switzer,Laima Šusta,Paul Mines
Amy Switzer
Focus on engineering biology is at the forefront of the UK government's objectives, being one of their five critical technologies (the others being quantum technologies, artifical intelligence, semiconductors, and future telecommunications)...
David Bell
David Bell
Since joining SynbiCITE, the national centre for translating synthetic biology, a decade ago as the lone analytical chemist, the centre has gone from limited lab space to playing its part in securing funding, growth and development of more ...