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New food sources and production systems:a comparison of international regulations and China’s advancements in novel foods with synthetic biology
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作者 Xin Liu Di Wu +1 位作者 Yi Shao Yongning Wu 《Food Science and Human Wellness》 SCIE CAS CSCD 2024年第5期2519-2542,共24页
The global shift towards sustainable food systems has sparked innovations in food sources and production systems,including cell-based meat,plant-based food products,precision fermentation,and 3D food printing.These ad... The global shift towards sustainable food systems has sparked innovations in food sources and production systems,including cell-based meat,plant-based food products,precision fermentation,and 3D food printing.These advancements pose regulatory challenges and opportunities,with China emerging as a critical player in adopting and regulating new food technologies.This review explores the international landscape of new food sources and production systems(NFPS),focusing on China’s role and regulatory approaches compared to global practices.Through this comparative analysis,we aim to contribute to the ongoing dialogue on food safety regulation,offering insights and recommendations for policymakers,industry stakeholders,and researchers engaged in the global food system’s evolution.This comprehensive overview underscores the dynamic nature of regulatory frameworks governing NFPS,highlighting the international efforts to ensure food safety,consumer protection,and the sustainable evolution of the food industry. 展开更多
关键词 New food sources Food production system Food safety International regulation synthetic biology China
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Exploration on Teaching Reform of Synthetic Biology Course Based on the New Engineering Concept
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作者 Jie CHENG Shunyang HU +3 位作者 Fangkun YU Jiamin ZHANG Bingliang LIU Yin ZHANG 《Agricultural Biotechnology》 2024年第3期86-89,共4页
Synthetic biology is a new frontier of life science,which aims to design,transform and even synthesize organisms with engineering design concept.Doing a good job in the teaching of"synthetic biology"is of gr... Synthetic biology is a new frontier of life science,which aims to design,transform and even synthesize organisms with engineering design concept.Doing a good job in the teaching of"synthetic biology"is of great significance to the cultivation and reserve of biotechnology professionals in China,and also has an important impact on students' employment competitiveness.Under the background of"new engineering",the course reform of"synthetic biology"was carried out in terms of the construction of teaching staff,teaching methods,students' participation and the innovation of course content,and specific reform suggestions were put forward,hoping to effectively promote the sustainable development of"synthetic biology"and effectively improve the quality of education. 展开更多
关键词 Teaching reform synthetic biology Teaching innovation Teaching methods
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Current advances of biocontainment strategy in synthetic biology 被引量:1
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作者 Xueying Zhu Zhaoyang Zhang +1 位作者 Bin Jia Yingjin Yuan 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2023年第4期141-151,共11页
Synthetic biotechnology has led to the widespread application of genetically modified organisms(GMOs)in biochemistry, bioenergy, and therapy. However, the uncontrolled spread of GMOs may lead to genetic contamination ... Synthetic biotechnology has led to the widespread application of genetically modified organisms(GMOs)in biochemistry, bioenergy, and therapy. However, the uncontrolled spread of GMOs may lead to genetic contamination by horizontal gene transfer, resulting in unpredictable biosafety risks. To deal with these challenges, many effective methods have been developed for biocontainment. In this article, we summarize and discuss recent advances in biocontainment strategies from three aspects: DNA replication, transcriptional regulation, and protein translation. We also briefly introduce the efforts in the biocontainment convention, such as the recent publication of the Tianjin Biosecurity Guidelines for the Code of Conduct for Scientists. 展开更多
关键词 Genetically modified organisms(GMOs) Biocontainment BIOSECURITY synthetic biology Molecular biology BIOTECHNOLOGY
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Food synthetic biology-driven protein supply transition: From animal-derived production to microbial fermentation 被引量:4
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作者 Yanfeng Liu Xiaomin Dong +5 位作者 Bin Wang Rongzhen Tian Jianghua Li Long Liu Guocheng Du Jian Chen 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第2期29-36,共8页
Animal-derived protein production is one of the major traditional protein supply methods,which continues to face increasing challenges to satisfy global needs due to population growth,augmented individual protein cons... Animal-derived protein production is one of the major traditional protein supply methods,which continues to face increasing challenges to satisfy global needs due to population growth,augmented individual protein consumption,and aggravated environmental pollution.Thus,ensuring a sustainable protein source is a considerable challenge.The emergence and development of food synthetic biology has enabled the establishment of cell factories that effectively synthesize proteins,which is an important way to solve the protein supply problem.This review aims to discuss the existing problems of traditional protein supply and to elucidate the feasibility of synthetic biology in the process of protein synthesis.Moreover,using artificial bioengineered milk and artificial bioengineered eggs as examples,the progress of food protein supply transition based on synthetic biology has been systematically summarized.Additionally,the future of food synthetic biology as a potential source of protein has been also discussed.By strengthening and innovating the application of food synthetic biology technologies,including genetic engineering and high-throughput screening methods,the current limitations of artificial foods for protein synthesis and production should be addressed.Therefore,the development and industrial production of new food resources should be explored to ensure safe,high-quality,and sustainable global protein supply. 展开更多
关键词 Artificial food BIOTECHNOLOGY Food processing Food synthetic biology Protein source Protein supply
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Efficient production of chemicals from microorganism by metabolic engineering and synthetic biology 被引量:2
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作者 Yang Zhang Jing Yu +7 位作者 Yilu Wu Mingda Li Yuxuan Zhao Haowen Zhu Changjing Chen Meng Wang Biqiang Chen Tianwei Tan 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第2期14-28,共15页
The use of traditional chemical catalysis to produce chemicals has a series of drawbacks,such as high dependence on fossil resources,high energy consumption,and environmental pollution.With the development of syntheti... The use of traditional chemical catalysis to produce chemicals has a series of drawbacks,such as high dependence on fossil resources,high energy consumption,and environmental pollution.With the development of synthetic biology and metabolic engineering,the use of renewable biomass raw materials for chemicals synthesis by constructing efficient microbial cell factories is a green way to replace traditional chemical catalysis and traditional microbial fermentation.This review mainly summarizes several types of bulk chemicals and high value-added chemicals using metabolic engineering and synthetic biology strategies to achieve efficient microbial production.In addition,this review also summarizes several strategies for effectively regulating microbial cell metabolism.These strategies can achieve the coupling balance of material and energy by regulating intracellular material metabolism or energy metabolism,and promote the efficient production of target chemicals by microorganisms. 展开更多
关键词 CHEMICALS synthetic biology Metabolic regulation Microbial cell factory
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Cell-free synthetic biology in the new era of enzyme engineering 被引量:1
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作者 Nan Jiang Lianju Ma Yuan Lu 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2020年第11期2810-2816,共7页
With the gradual rise of enzyme engineering,it has played an essential role in synthetic biology,medicine,and biomanufacturing.However,due to the limitation of the cell membrane,the complexity of cellular metabolism,t... With the gradual rise of enzyme engineering,it has played an essential role in synthetic biology,medicine,and biomanufacturing.However,due to the limitation of the cell membrane,the complexity of cellular metabolism,the difficulty of controlling the reaction environment,and the toxicity of some metabolic products in traditional in vivo enzyme engineering,it is usually problematic to express functional enzymes and produce a high yield of synthesized compounds.Recently,cell-free synthetic biology methods for enzyme engineering have been proposed as alternative strategies.This cell-free method has no limitation of the cell membrane and no need to maintain cell viability,and each biosynthetic pathway is highly flexible.This property makes cell-free approaches suitable for the production of valuable products such as functional enzymes and chemicals that are difficult to synthesize.This article aims to discuss the latest advances in cell-free enzyme engineering,assess the trend of this developing topical filed,and analyze its prospects. 展开更多
关键词 Cell-free synthetic biology Enzyme engineering Metabolic engineering
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An international comprehensive benchmarking analysis of synthetic biology in China from 2015 to 2020
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作者 Meiru Jiang Cong Chen +2 位作者 Tao Chen Chao Zhao Zhiwen Wang 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2022年第8期211-226,共16页
As a new interdisciplinary field,synthetic biology has led to valuable innovations in the fields of medicine,chemistry,agriculture,energy and environment.In this paper,we systematically review the development status o... As a new interdisciplinary field,synthetic biology has led to valuable innovations in the fields of medicine,chemistry,agriculture,energy and environment.In this paper,we systematically review the development status of global synthetic biology in the past six years,and make an in-depth benchmarking analysis of the field in China.With the aid of Scopus and SciVal,we analyze the scholarly output of synthetic biology in the world and individual countries,including publication distribution,popular journals and eminent institutions.Furthermore,the research focus and concepts,citation impact and collaborations are also examined using numerical index methods such as the field-weighted citation impact(FWCI)and relative activity index(RAI),showing the differences between data more intuitively.This study aims to offer a comprehensive understanding of the research status of synthetic biology in China and the world,offering a benchmarked overview of the results as a reference to guide the development of this field in the future. 展开更多
关键词 synthetic biology SCOPUS SciVal OUTPUT Citation impact COLLABORATION
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Synthetic Biology Construct of Ebola Virus in Bacteria Surrogate Is Stable and Safe for Rapid Detection Studies in a BSL-2 Laboratory Setting
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作者 Nwadiuto Esiobu Douglas Holmes +2 位作者 Chad Coarsey Waseem Asghar Bodhi Stone 《Advances in Microbiology》 2022年第1期25-41,共17页
Rapid detection of virulent pathogens during an outbreak is critical for public health advisories and control of the disease in a population. While many molecular techniques for point of care and clinical diagnosis ab... Rapid detection of virulent pathogens during an outbreak is critical for public health advisories and control of the disease in a population. While many molecular techniques for point of care and clinical diagnosis abound, the US experience with the COVID-19 testing in the early stages of the pandemic underscores the critical importance of determining the appropriate target gene(s) with in-built controls that reliably detect pathogens with high sensitivity and specificity. Assays and research for diagnostics and therapy could be slowed during an epidemic because access to the required BSL-3 and BSL-4 laboratories are limited. So, during the 2014 West Africa Ebola outbreak, we tested the hypothesis that using synthetic cDNA of Ebolavirus in a bacteria surrogate (fit for all lab settings), would remain unmutated and safe after several generations, serving as an effective positive control in research settings, self test and point-of-care detection platforms. Primers were designed for the detection and quantification of the nucleoprotein (NP) gene of the 2014 Makona Ebola strain (KR781608.1, 733 - 1332 bp). To test the stability of artificially inserted translation arrest in the Orf of the model gene, it was edited to include three STOP codons in the RNA transcript using SNAP GENE. The segment was then spliced into a high copy number plasmid, cloned into One Shot<sup>TM</sup> TOP10 <i>Escherichia coli</i> (Invitrogen), and tested for stability and safety by periodic subculture, extraction and sequencing. Unlike COVID-19, rapid detection of blood-borne etiologies like Ebola requires optimized protocols for blood matrix. Using real-time PCR and newly designed primer pairs, the EBOV surrogate was detected and enumerated in human blood and regular broth and buffers. Based on aligned sequence analysis, the EBOV synthetic NP gene was stable (>99.9999% similarity coefficient) for at least 3 months. Detection sensitivity in broth and blood was at least 100 cells/ml or about 5.8 × 10<sup>3</sup> to 7.3 × 10<sup>3</sup> virion equivalents per ml. While the developments of transcription-and-replication-competent virus like particles (trVLP) have made it possible to study the infection and replication cycles of virulent pathogens in BSL-2 laboratories, the simplicity of our model and the reproducibility of detection and enumeration show the utility of synthetic bio-components as positive controls for point of care diagnostic tools. The inserted stop codons remained intact after many generations, suggesting that expressed virulent proteins can be easily silenced in synthetic biology models for research in BSL-1 and 2 and a wide range of pathogens. Synthetic bio-components can thereby aid further research by reducing costs and improving safety for workers and stakeholders. 展开更多
关键词 Ebola Virus synthetic biology BIOSAFETY POINT-OF-CARE Rapid Detection Plasmid Vector
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Synthetic biology approaches for improving the specificity and efficacy of cancer immunotherapy
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作者 Bo Zhu Hang Yin +4 位作者 Di Zhang Meiling Zhang Xiaojuan Chao Luca Scimeca Ming-Ru Wu 《Cellular & Molecular Immunology》 SCIE CAS CSCD 2024年第5期436-447,共12页
Immunotherapy has shown robust efficacy in treating a broad spectrum of hematological and solid cancers.Despite the transformative impact of immunotherapy on cancer treatment,several outstanding challenges remain.Thes... Immunotherapy has shown robust efficacy in treating a broad spectrum of hematological and solid cancers.Despite the transformative impact of immunotherapy on cancer treatment,several outstanding challenges remain.These challenges include on-target off-tumor toxicity,systemic toxicity,and the complexity of achieving potent and sustainable therapeutic efficacy.Synthetic biology has emerged as a promising approach to overcome these obstacles,offering innovative tools for engineering living cells with customized functions.This review provides an overview of the current landscape and future prospects of cancer immunotherapy,particularly emphasizing the role of synthetic biology in augmenting its specificity,controllability,and efficacy.We delineate and discuss two principal synthetic biology strategies:those targeting tumor surface antigens with engineered immune cells and those detecting intratumoral disease signatures with engineered gene circuits.This review concludes with a forwardlooking perspective on the enduring challenges in cancer immunotherapy and the potential breakthroughs that synthetic biology may contribute to the field. 展开更多
关键词 synthetic biology Cancer immunotherapy Gene circuit Gene therapy Adoptive cell therapy.
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An integrative database and its application for plant synthetic biology research
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作者 Chenfei Tian Jianhua Li +5 位作者 Yuhan Wu Guangyi Wang Yixin Zhang Xiaowei Zhang Yuwei Sun Yong Wang 《Plant Communications》 SCIE CSCD 2024年第5期123-133,共11页
Plant synthetic biology research requires diverse bioparts that facilitate the redesign and construction of new-to-nature biological devices or systems in plants.Limited by few well-characterized bioparts for plant ch... Plant synthetic biology research requires diverse bioparts that facilitate the redesign and construction of new-to-nature biological devices or systems in plants.Limited by few well-characterized bioparts for plant chassis,the development of plant synthetic biology lags behind that of its microbial counterpart.Here,we constructed a web-based Plant Synthetic BioDatabase(PSBD),which currently categorizes 1677 catalytic bioparts and 384 regulatory elements and provides information on 309 species and 850 chemicals.Online bioinformatics tools including local BLAST,chem similarity,phylogenetic analysis,and visual strength are provided to assist with the rational design of genetic circuits for manipulation of gene expression in planta.We demonstrated the utility of the PSBD by functionally characterizing taxadiene synthase 2 and its quan-titative regulation in tobacco leaves.More powerful synthetic devices were then assembled to amplify the transcriptional signals,enabling enhanced expression offlavivirus non-structure 1 proteins in plants.The PSBD is expected to be an integrative and user-centered platform that provides a one-stop service for diverse applications in plant synthetic biology research. 展开更多
关键词 plant synthetic biology bioparts bioinformatics tools REGULATION genetic circuits
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Regulatory RNAs in Bacillus subtilis:A review on regulatory mechanism and applications in synthetic biology
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作者 Anqi Peng Guobin Yin +5 位作者 Wenjie Zuo Luyao Zhang Guocheng Du Jian Chen Yang Wang Zhen Kang 《Synthetic and Systems Biotechnology》 SCIE CSCD 2024年第2期223-233,共11页
Bacteria exhibit a rich repertoire of RNA molecules that intricately regulate gene expression at multiple hierarchical levels,including small RNAs(sRNAs),riboswitches,and antisense RNAs.Notably,the majority of these r... Bacteria exhibit a rich repertoire of RNA molecules that intricately regulate gene expression at multiple hierarchical levels,including small RNAs(sRNAs),riboswitches,and antisense RNAs.Notably,the majority of these regulatory RNAs lack or have limited protein-coding capacity but play pivotal roles in orchestrating gene expression by modulating transcription,post-transcription or translation processes.Leveraging and redesigning these regulatory RNA elements have emerged as pivotal strategies in the domains of metabolic engineering and synthetic biology.While previous investigations predominantly focused on delineating the roles of regulatory RNA in Gram-negative bacterial models such as Escherichia coli and Salmonella enterica,this review aims to summarize the mechanisms and functionalities of endogenous regulatory RNAs inherent to typical Gram-positive bacteria,notably Bacillus subtilis.Furthermore,we explore the engineering and practical applications of these regulatory RNA elements in the arena of synthetic biology,employing B.subtilis as a foundational chassis. 展开更多
关键词 Regulatory RNA devices Small RNAs RIBOSWITCHES synthetic biology Bacillus subtilis
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Engineering pluripotent stem cells with synthetic biology for regenerative medicine
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作者 Yihuan Mao Siqi Wang +1 位作者 Jiazhen Yu Wei Li 《Medical Review》 2024年第2期90-109,共20页
Pluripotent stem cells(PSCs),characterized by self-renewal and capacity of differentiating into three germ layers,are the programmable building blocks of life.PSC-derived cells and multicellular systems,particularly o... Pluripotent stem cells(PSCs),characterized by self-renewal and capacity of differentiating into three germ layers,are the programmable building blocks of life.PSC-derived cells and multicellular systems,particularly organoids,exhibit great potential for regenerative medicine.However,this field is still in its infancy,partly due to limited strategies to robustly and precisely control stem cell behaviors,which are tightly regulated by inner gene regulatory networks in response to stimuli from the extracellular environment.Synthetic receptors and genetic circuits are powerful tools to customize the cellular sense-and-response process,suggesting their underlying roles in precise control of cell fate decision and function reconstruction.Herein,we review the progress and challenges needed to be overcome in the fields of PSC-based cell therapy and multicellular system generation,respectively.Furthermore,we summarize several well-established synthetic biology tools and their applications in PSC engineering.Finally,we highlight the challenges and perspectives of harnessing synthetic biology to PSC engineering for regenerative medicine. 展开更多
关键词 pluripotent stem cell regenerative medicine PSC-based cell therapy multicellular systems synthetic biology
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Engineering the next generation of theranostic biomaterials with synthetic biology
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作者 Xiang Wang Qianyi Liang +3 位作者 Yixuan Luo Jianwen Ye Yin Yu Fei Chen 《Bioactive Materials》 SCIE 2024年第2期514-529,共16页
Biomaterials have evolved from inert materials to responsive entities,playing a crucial role in disease diagnosis,treatment,and modeling.However,their advancement is hindered by limitations in chemical and mechanical ... Biomaterials have evolved from inert materials to responsive entities,playing a crucial role in disease diagnosis,treatment,and modeling.However,their advancement is hindered by limitations in chemical and mechanical approaches.Synthetic biology enabling the genetically reprograming of biological systems offers a new paradigm.It has achieved remarkable progresses in cell reprogramming,engineering designer cells for diverse applications.Synthetic biology also encompasses cell-free systems and rational design of biological molecules.This review focuses on the application of synthetic biology in theranostics,which boost rapid development of advanced biomaterials.We introduce key fundamental concepts of synthetic biology and highlight frontier applications thereof,aiming to explore the intersection of synthetic biology and biomaterials.This integration holds tremendous promise for advancing biomaterial engineering with programable complex functions. 展开更多
关键词 Theranostic biomaterials synthetic biology Genetic circuit Programmable Living
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Enabling technology and core theory of synthetic biology 被引量:7
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作者 Xian-En Zhang Chenli Liu +8 位作者 Junbiao Dai Yingjin Yuan Caixia Gao Yan Feng Bian Wu Ping Wei Chun You Xiaowo Wang Tong Si 《Science China(Life Sciences)》 SCIE CAS CSCD 2023年第8期1742-1785,共44页
Synthetic biology provides a new paradigm for life science research(“build to learn”)and opens the future journey of biotechnology(“build to use”).Here,we discuss advances of various principles and technologies in... Synthetic biology provides a new paradigm for life science research(“build to learn”)and opens the future journey of biotechnology(“build to use”).Here,we discuss advances of various principles and technologies in the mainstream of the enabling technology of synthetic biology,including synthesis and assembly of a genome,DNA storage,gene editing,molecular evolution and de novo design of function proteins,cell and gene circuit engineering,cell-free synthetic biology,artificial intelligence(AI)-aided synthetic biology,as well as biofoundries.We also introduce the concept of quantitative synthetic biology,which is guiding synthetic biology towards increased accuracy and predictability or the real rational design.We conclude that synthetic biology will establish its disciplinary system with the iterative development of enabling technologies and the maturity of the core theory. 展开更多
关键词 synthetic biology quantitative synthetic biology genome synthesis and assembly DNA storage molecular evolution de novo design computer-aided design cell engineering gene circuit chassis cell artificial intelligent(AI) biofoundry
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Synthetic biology identifies the minimal gene set required for paclitaxel biosynthesis in a plant chassis 被引量:9
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作者 Youjun Zhang Lorenz Wiese +6 位作者 Hao Fang Saleh Alseekh Leonardo Perez de Souza Federico Scossa John Molloy Mathias Christmann Alisdair R.Fernie 《Molecular Plant》 SCIE CSCD 2023年第12期1951-1961,共11页
The diterpenoid paclitaxel(Taxol)is a chemotherapy medication widely used as a first-line treatment against several types of solid cancers.The supply of paclitaxel from natural sources is limited.However,missing knowl... The diterpenoid paclitaxel(Taxol)is a chemotherapy medication widely used as a first-line treatment against several types of solid cancers.The supply of paclitaxel from natural sources is limited.However,missing knowledge about the genes involved in several specific metabolic steps of paclitaxel biosynthesis has rendered it difficult to engineer the full pathway.In this study,we used a combination of transcriptomics,cell biology,metabolomics,and pathway reconstitution to identify the complete gene set required for the heterologous production of paclitaxel.We identified the missing steps from the current model of paclitaxel biosynthesis and confirmed the activity of most of the missing enzymes via heterologous expression in Nicotiana benthamiana.Notably,we identified a new C4β-C20 epoxidase that could overcome the first bottleneck of metabolic engineering.We used both previously characterized and newly identified oxomutases/epoxidases,taxane 1β-hydroxylase,taxane 9aα-hydroxylase,taxane 9α-dioxygenase,and phenylalanine-CoA ligase,to successfully biosynthesize the key intermediate baccatin Ill and to convert baccatin Ill into paclitaxel in N.benthamiana.In combination,these approaches establisha metabolic route to taxoidbiosynthesis and provide insights into the unique chemistry that plants use to generate complex bioactive metabolites. 展开更多
关键词 paclitaxel biosynthesis synthetic biology baccatin Ill biosynthesis TAXUS
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Making small molecules in plants:A chassis for synthetic biology-based production of plant natural products 被引量:4
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作者 Xinyu Liu Peijun Zhang +1 位作者 Qiao Zhao Ancheng C.Huang 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2023年第2期417-443,共27页
Plant natural products have been extensively exploited in food,medicine,flavor,cosmetic,renewable fuel,and other industrial sectors.Synthetic biology has recently emerged as a promising means for the cost-effective an... Plant natural products have been extensively exploited in food,medicine,flavor,cosmetic,renewable fuel,and other industrial sectors.Synthetic biology has recently emerged as a promising means for the cost-effective and sustainable production of natural products.Compared with engineering microbes for the production of plant natural products,the potential of plants as chassis for producing these compounds is underestimated,largely due to challenges encountered in engineering plants.Knowledge in plant engineering is instrumental for enabling the effective and efficient production of valuable phytochemicals in plants,and also paves the way for a more sustainable future agriculture.In this manuscript,we briefly recap the biosynthesis of plant natural products,focusing primarily on industrially important terpenoids,alkaloids,and phenylpropanoids.We further summarize the plant hosts and strategies that have been used to engineer the production of natural products.The challenges and opportunities of using plant synthetic biology to achieve rapid and scalable production of high-value plant natural products are also discussed. 展开更多
关键词 BIOSYNTHESIS natural products plant engineering synthetic biology
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Degradation strategies of pesticide residue:From chemicals tosynthetic biology 被引量:2
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作者 Bi Ruomeng Ou Meihao +10 位作者 Zhou Siru Geng Shichen Zheng Yixian Chen Junhong Mo Ruijie Li Yuan Xiao Gezhi Chen Xingyu Zhai Shiyi Zhang Aihui Fang Baishan 《Synthetic and Systems Biotechnology》 SCIE CSCD 2023年第2期302-313,共12页
The past 50 years have witnessed a massive expansion in the demand and application of pesticides.However,pesticides are difficult to be completely degraded without intervention hence the pesticide residue could pose a... The past 50 years have witnessed a massive expansion in the demand and application of pesticides.However,pesticides are difficult to be completely degraded without intervention hence the pesticide residue could pose a persistent threat to non-target organisms in many aspects.To aim at the problem of the abuse of pesticide products and excessive pesticide residues in the environment,chemical and biological degradation methods are widely developed but are scaled and insufficient to solve such a pollution.In recent years,bio-degradative tools instructed by synthetic biological principles have been further studied and have paved a way for pesticide degradation.Combining the customized design strategy and standardized assembly mode,the engineering bacteria for multi-dimensional degradation has become an effective tool for pesticide residue degradation.This review introduces the mechanisms and hazards of different pesticides,summarizes the methods applied in the degradation of pesticide residues,and discusses the advantages,applications,and prospects of synthetic biology in degrading pesticide residues. 展开更多
关键词 synthetic biology DEGRADATION REMEDIATION Biological engineering Pesticide residue
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Next-generation synthetic biology approaches for the accelerated discovery of microbial natural products 被引量:1
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作者 Lei Li 《Engineering Microbiology》 2023年第1期49-55,共7页
Microbial natural products(NPs)and their derivates have been widely used in health care and agriculture during the past few decades.Although large-scale bacterial or fungal(meta)genomic mining has revealed the tremend... Microbial natural products(NPs)and their derivates have been widely used in health care and agriculture during the past few decades.Although large-scale bacterial or fungal(meta)genomic mining has revealed the tremendous biosynthetic potentials to produce novel small molecules,there remains a lack of universal approaches to link NP biosynthetic gene clusters(BGCs)to their associated products at a large scale and speed.In the last ten years,a series of emerging technologies have been established alongside the developments in synthetic biology to engineer cryptic metabolite BGCs and edit host genomes.Diverse computational tools,such as antiSMASH and PRISM,have also been simultaneously developed to rapidly identify BGCs and predict the chemical structures of their products.This review discusses the recent developments and trends pertaining to the accelerated discovery of microbial NPs driven by a wide variety of next-generation synthetic biology approaches,with an emphasis on the in situ activation of silent BGCs at scale,the direct cloning or refactoring of BGCs of interest for heterologous expression,and the synthetic-bioinformatic natural products(syn-BNP)approach for the guided rapid access of bioactive non-ribosomal peptides. 展开更多
关键词 Natural products synthetic biology Silent BGCs Large-scale discovery Peptide synthesis
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Biotechnological and food synthetic biology potential of platform strain:Bacillus licheniformis
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作者 Hehe He Qianqian Yu +3 位作者 Zhongyang Ding Liang Zhang Guiyang Shi Youran Li 《Synthetic and Systems Biotechnology》 SCIE CSCD 2023年第2期281-291,共11页
Bacillus licheniformis is one of the most characteristic Gram-positive bacteria.Its unique genetic background and safety characteristics make it have important biologic applications in the food industry,including,the ... Bacillus licheniformis is one of the most characteristic Gram-positive bacteria.Its unique genetic background and safety characteristics make it have important biologic applications in the food industry,including,the biosyn-thesis of high value-added bioproducts,probiotic functions,biological treatment of wastes derived from food production,etc.In this review,these recent advances are summarized and presented systematically for the first time.In addition,we highlight synthetic biology strategies as a potential driver of developing this strain for wider and more efficient application in the food industry.Finally,we present the current challenges faced and provide our unique perspective on relevant future research directions.In summary,this review will provide an illumi-nating and comprehensive perspective that will allow an in-depth understanding of B.licheniformis and promote its more effective development in the food industry. 展开更多
关键词 Bacillus licheniformis Food industry BIOTECHNOLOGY synthetic biology Biomanufacturing
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Enhanced depolluting capabilities of microbial bioelectrochemical systems by synthetic biology
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作者 Le Tao Maoyong Song Guibin Jiang 《Synthetic and Systems Biotechnology》 SCIE CSCD 2023年第3期341-348,共8页
Microbial bioelectrochemical system(BES)is a promising sustainable technology for the electrical energy recovery and the treatment of recalcitrant and toxic pollutants.In microbial BESs,the conversion of harmful pollu... Microbial bioelectrochemical system(BES)is a promising sustainable technology for the electrical energy recovery and the treatment of recalcitrant and toxic pollutants.In microbial BESs,the conversion of harmful pollutants into harmless products can be catalyzed by microorganisms at the anode(Type I BES),chemical catalysts at the cathode(Type II BES)or microorganisms at the cathode(Type III BES).The application of synthetic biology in microbial BES can improve its pollutant removing capability.Synthetic biology techniques can promote EET kinetics,which is helpful for microbial anodic electro-respiration,expediting pollutant removing not only at the anode but also at the cathode.They offer tools to promote biofilm development on the electrode,enabling more microorganisms residing on the electrode for subsequent catalytic reactions,and to overexpress the pollutant removing-related genes directly in microorganisms,contributing to the pollutant decomposition.In this work,based on the summarized aspects mentioned above,we describe the major synthetic biology strategies in designing and improving the pollutant removing capabilities of microbial BES.Lastly,we discuss challenges and perspectives for future studies in the area. 展开更多
关键词 Microbial bioelectrochemical system Extracellular electron transfer synthetic biology Pollutant removing
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