☆ 4.7 Review

Merging automation and fundamental discovery into the design-build-test-learn cycle of nontraditional microbes

TRENDS IN BIOTECHNOLOGY (2022)

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Article Biotechnology & Applied Microbiology

Carbon-negative production of acetone and isopropanol by gas fermentation at industrial pilot scale

Fungmin Eric Liew et al.

Summary: We have developed a carbon-negative fermentation route for producing acetone and isopropanol from waste gas, which fixes carbon and has a negative carbon footprint. By engineering acetogens, we achieved sustainable, high-efficiency, high-selectivity chemicals production.

NATURE BIOTECHNOLOGY (2022)

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Review Biotechnology & Applied Microbiology

Rhodotorula toruloides: an ideal microbial cell factory to produce oleochemicals, carotenoids, and other products

Yu Zhao et al.

Summary: The demand for clean energy sources has led researchers to explore the use of microorganisms as substitutes for fossil fuels. Rhodotorula toruloides, a non-conventional oleaginous yeast, has shown the potential to produce biofuel feedstock by accumulating intracellular lipids. However, the cost of SCO-based biodiesel is currently not competitive with petroleum diesel. Therefore, efforts are being made to reduce the cost of SCO production through genetic modification of R. toruloides strains and the utilization of low-cost biomass. Additionally, optimization of fermentation and SCO recovery processes are being studied. Recent advancements include the development of new R. toruloides strains through metabolic engineering and synthetic biology methods to produce value-added chemicals. Overall, R. toruloides shows promise as a microbial cell factory for the production of biochemicals.

WORLD JOURNAL OF MICROBIOLOGY & BIOTECHNOLOGY (2022)

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Review Biochemical Research Methods

Synthetic metabolism for biohalogenation

Antonin Cros et al.

Summary: We suggest that deploying synthetic metabolism tailored for biohalogenation presents a unique opportunity for economically attractive and environmentally friendly organohalide production.

CURRENT OPINION IN BIOTECHNOLOGY (2022)

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Review Biotechnology & Applied Microbiology

Exploiting unconventional prokaryotic hosts for industrial biotechnology

Bastian Blombach et al.

Summary: Developing cost-efficient biotechnological processes is a major challenge. Progress in genetic engineering and synthetic biology tools has made microbial systems promising hosts, but improving intrinsic properties remains a challenge.

TRENDS IN BIOTECHNOLOGY (2022)

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Review Biochemical Research Methods

Engineering Native and Synthetic Pathways in Pseudomonas putida for the Production of Tailored Polyhydroxyalkanoates

Mariela P. Mezzina et al.

Summary: The article discusses the importance of polyhydroxyalkanoates (PHAs) as renewable, biodegradable, biocompatible materials and the potential of using Pseudomonas cell factories for customized PHA production. Novel PHA materials have the potential to disrupt existing and future market segments, but currently face challenges that hinder their wide adoption.

BIOTECHNOLOGY JOURNAL (2021)

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Review Biotechnology & Applied Microbiology

Approaches to genetic tool development for rapid domestication of non-model microorganisms

Lauren A. Riley et al.

Summary: Non-model microorganisms with complex phenotypes are crucial for biofuel and chemical production, but lack of robust genetic tools has hindered progress. Overcoming barriers such as the Restriction-Modification systems, new and efficient genetic transformation tools and methods are being developed to accelerate genome engineering for biotechnology.

BIOTECHNOLOGY FOR BIOFUELS (2021)

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Review Biotechnology & Applied Microbiology

Machine learning for metabolic engineering: A review

Christopher E. Lawson et al.

Summary: The review introduces how machine learning can make metabolic engineering more predictable, provides examples and advice, discusses various applications, and examines future prospects.

METABOLIC ENGINEERING (2021)

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Review Multidisciplinary Sciences

Applications, challenges, and needs for employing synthetic biology beyond the lab

Sierra M. Brooks et al.

Summary: Current developments in synthetic biology are not immediately applicable outside of the controlled laboratory environment. In this Perspective, the authors outline the advances and challenges the field faces in operating in resource limited and off-the-grid scenarios.

NATURE COMMUNICATIONS (2021)

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Review Biotechnology & Applied Microbiology

Omics-Driven Biotechnology for Industrial Applications

Bashar Amer et al.

Summary: Biomanufacturing, a key component of biotechnology, utilizes biological systems to produce commercial bioproducts which are of interest to various industries. Technologies like synthetic biology and metabolic engineering heavily rely on omics driven systems biology for research and development, aiding in the establishment of industrial biomanufacturing platforms. These technologies have a significant impact on the production of biofuels, bioproducts, agricultural and food biotechnology, as well as current COVID-19 research.

FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY (2021)

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Article Biotechnology & Applied Microbiology

Multiomics Data Collection, Visualization, and Utilization for Guiding Metabolic Engineering

Somtirtha Roy et al.

Summary: Biology has evolved from a descriptive science to a design science, utilizing computational tools to predict bioengineering outcomes by integrating multiomics data. By uploading, visualizing, and outputting data to online repositories, and training machine learning algorithms to recommend new strain designs, improvements in production can be achieved in bioengineered strains.

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Review Biochemistry & Molecular Biology

The Design-Build-Test-Learn cycle for metabolic engineering of Streptomycetes

Christopher M. Whitford et al.

Summary: Streptomycetes are important producers of specialized metabolites with great potential for biosynthesis. With the emergence of antimicrobial resistance crisis and the need for sustainable production, there is a renewed interest in exploring and engineering the biosynthetic potential of streptomycetes.

MICROBIAL CELL FACTORIES-BOOK (2021)

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Article Biotechnology & Applied Microbiology

Ultra-fast proteomics with Scanning SWATH

Christoph B. Messner et al.

Summary: The Scanning SWATH method accelerates mass spectrometric duty cycles to yield quantitative proteomes in combination with short gradients and high-flow chromatography, increasing precursor identifications by approximately 70% compared to conventional methods. This approach has been successfully demonstrated in drug mode-of-action screening and plasma proteomics studies, capturing the mode of action of specific drugs and identifying new biomarkers associated with COVID-19 severity. These results demonstrate significant acceleration and increased depth in fast proteomic experiments, facilitating proteomic drug screens and clinical studies.

NATURE BIOTECHNOLOGY (2021)

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Cofactor Specificity of Glucose-6-Phosphate Dehydrogenase Isozymes in Pseudomonas putida Reveals a General Principle Underlying Glycolytic Strategies in Bacteria

Daniel Christoph Volke et al.

mSystems (2021)

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Integration of Proteomics and Metabolomics Into the Design, Build, Test, Learn Cycle to Improve 3-Hydroxypropionic Acid Production in Aspergillus pseudoterreus

Kyle R. Pomraning et al.

Summary: Integrated multi-omic analyses were used to identify metabolic pathways and factors limiting the overproduction of 3-hydroxypropionic acid in the filamentous fungus Aspergillus pseudoterreus, leading to a significant improvement in yield and potential for industrial scale biomanufacturing of organic acids.

FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY (2021)

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Prototyping of microbial chassis for the biomanufacturing of high-value chemical targets

Christopher J. Robinson et al.

Summary: Metabolic engineering technologies have been successfully employed for the engineering and optimization of industrial host strains over the past three decades. Design-Build-Test-Learn pipelines are being established to rapidly deliver diverse chemical targets through iterative optimization of microbial production strains. Biofoundries are using in silico tools for genetic design and combinatorial design of experiments to optimize selection within the potential design space based on multi-criteria objectives.

BIOCHEMICAL SOCIETY TRANSACTIONS (2021)

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Advances in metabolic engineering of Corynebacterium glutamicum to produce high-value active ingredients for food, feed, human health, and well-being

Sabrina Wolf et al.

Summary: Corynebacterium glutamicum is a soil microbe widely used in industrial biotechnology for its high productivity and yield in synthesizing amino acids and bulk chemicals. Through metabolic engineering, this microbe can produce over 30 high-value active ingredients, ranging from signature flavor molecules to polymers for regenerative medicine.

MICROBIAL CELL FACTORIES-BOOK (2021)

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Towards robust Pseudomonas cell factories to harbour novel biosynthetic pathways

Nora Lisa Bitzenhofer et al.

Summary: Species of the Pseudomonas clade possess multiple stress response mechanisms to cope with harmful chemicals, including built-in cell envelope stress response and effective export machineries for harmful compounds.

MICROBIAL CELL FACTORIES-BOOK (2021)

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Production of proteins and commodity chemicals using engineered Bacillus subtilis platform strain

Quanwei Zhang et al.

Summary: Bacillus subtilis, as a microbial platform, has been widely used in the field of biopharmaceuticals due to its advantages including mature genetic editing methods and efficient protein secretion systems. By employing metabolic engineering and synthetic biology strategies, B. subtilis platform strains can achieve the production of valuable proteins and chemicals.

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Computational design and analysis of modular cells for large libraries of exchangeable product synthesis modules

Sergio Garcia et al.

Summary: ModCell-HPC is a computational method for designing modular cells for large libraries of products, allowing for the rapid generation of production strains through exchangeable production modules. This method enables the identification and design of versatile modular cells with few genetic manipulations, capable of producing multiple molecules in a growth-coupled manner. The use of a highly-parallel and multi-objective evolutionary algorithm in ModCell-HPC facilitates the elucidation of modular design properties and enhances the efficiency and generalizability of modular cell design in biocatalysis.

METABOLIC ENGINEERING (2021)

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Constraint-based metabolic control analysis for rational strain engineering

Sophia Tsouka et al.

Summary: The Network Response Analysis (NRA) is a novel framework for rational genetic strain design that integrates various analysis methods and constraints, providing a sophisticated alternative to traditional Metabolic Control Analysis (MCA) for metabolic engineering optimization. It allows for the incorporation of physiological data and the generation of multiple alternative optimal strategies given user-defined boundaries and objectives.

METABOLIC ENGINEERING (2021)

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Review Biochemistry & Molecular Biology

Rhodococcus as Biofactories for Microbial Oil Production

Hector M. Alvarez et al.

Summary: Bacteria belonging to the Rhodococcus genus have the ability to produce significant amounts of triacylglycerols (TAG) and can be considered as oleaginous microorganisms. They possess specific physiological properties and molecular mechanisms that differentiate them from other microorganisms. These bacteria can degrade a wide range of carbon sources and utilize industrial wastes for oil production. Studying genetic and metabolic approaches can help improve their ability to produce fatty acids.

MOLECULES (2021)

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Growth-coupled selection of synthetic modules to accelerate cell factory development

Enrico Orsi et al.

Summary: Synthetic biology has revolutionized the ability to redesign microbial metabolic networks by combining metabolic pathway-modularization with growth-coupled selection schemes. This powerful tool enables deep rewiring of cell factories' biochemistry for rational bioproduction.

NATURE COMMUNICATIONS (2021)

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Review Chemistry, Multidisciplinary

Towards the sustainable discovery and development of new antibiotics

Marcus Miethke et al.

Summary: There is a growing demand for novel antimicrobials to treat infections caused by multidrug-resistant bacterial pathogens, but there is currently a lack of investment in this field. New agents with innovative chemistry and modes of action are urgently needed to combat the public health threat posed by antimicrobial resistance. The consortium proposes short-term and long-term solutions to overcome urgent limitations in research and funding, aiming to bridge the gap between academic, industrial, and political stakeholders to improve the ability to discover and develop new antibiotics.

NATURE REVIEWS CHEMISTRY (2021)

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Article Chemistry, Physical

Combinatorial pathway balancing provides biosynthetic access to 2-fluoro-cis,cis-muconate in engineered Pseudomonas putida

Nicolas T. Wirth et al.

Summary: This study successfully engineered Pseudomonas putida to convert fluorinated benzoates into 2-fluoro-cis,cis-muconate (2-FMA) by harnessing the native enzymatic machinery. By adjusting metabolic activities in response to fluorinated effectors, the engineered bacteria achieved high efficiency biosynthesis of 2-FMA. This demonstrates how synthetic biology can expand the diversity of nature's biochemical catalysis.

CHEM CATALYSIS (2021)

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Article Biotechnology & Applied Microbiology

Accelerated genome engineering of Pseudomonas putida by I-SceI?mediated recombination and CRISPR-Cas9 counterselection

Nicolas T. Wirth et al.

MICROBIAL BIOTECHNOLOGY (2020)

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Metabolic engineering for the synthesis of polyesters: A 100-year journey from polyhydroxyalkanoates to non-natural microbial polyesters

So Young Choi et al.

METABOLIC ENGINEERING (2020)

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Synthetic Biology and Genome-Editing Tools for Improving PHA Metabolic Engineering

Xu Zhang et al.

TRENDS IN BIOTECHNOLOGY (2020)

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Multimodal Microorganism Development: Integrating Top-Down Biological Engineering with Bottom-Up Rational Design

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Review Agricultural Engineering

Sustainable production of bio-based chemicals and polymers via integrated biomass refining and bioprocessing in a circular bioeconomy context

Sofia Maria Ioannidou et al.

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Metabolic Engineering of Escherichia coli for Natural Product Biosynthesis

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Improved betulinic acid biosynthesis using synthetic yeast chromosome recombination and semi-automated rapid LC-MS screening

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NATURE COMMUNICATIONS (2020)

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Intersecting Xenobiology and Neometabolism To Bring Novel Chemistries to Life

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CHEMBIOCHEM (2020)

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Industrial biotechnology ofPseudomonas putida: advances and prospects

Anna Weimer et al.

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Fatty Acid and Alcohol Metabolism in Pseudomonas putida: Functional Analysis Using Random Barcode Transposon Sequencing

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Daniel C. Volke et al.

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John M. Pryor et al.

PLOS ONE (2020)

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Metabolic engineering strategies toward production of biofuels

Kyeong Rok Choi et al.

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Maciej B. Holowko et al.

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Multi-Omics Analysis of the Effect of cAMP on Actinorhodin Production in Streptomyces coelicolor

Katsuaki Nitta et al.

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Synthetic control of plasmid replication enables target- and self-curing of vectors and expedites genome engineering of Pseudomonas putida

Daniel C. Volke et al.

METABOLIC ENGINEERING COMMUNICATIONS (2020)

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Tools and strategies of systems metabolic engineering for the development of microbial cell factories for chemical production

Yoo-Sung Ko et al.

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Engineering Escherichia coli towards de novo production of gatekeeper (2S)-flavanones: naringenin, pinocembrin, eriodictyol and homoeriodictyol

Mark S. Dunstan et al.

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Chasing bacterial chassis for metabolic engineering: a perspective review from classical to non-traditional microorganisms

Patricia Calero et al.

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Yeast Systems Biology: Model Organism and Cell Factory

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Evolutionary Approaches for Engineering Industrially Relevant Phenotypes in Bacterial Cell Factories

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Lessons from Two Design-Build-Test-Learn Cycles of Dodecanol Production in Escherichia coli Aided by Machine Learning

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The power of synthetic biology for bioproduction, remediation and pollution control: The UN's Sustainable Development Goals will inevitably require the application of molecular biology and biotechnology on a global scale

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Synthetic biology for manufacturing chemicals: constraints drive the use of non-conventional microbial platforms

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Engineering microbial cell factories: Metabolic engineering of Corynebacterium glutamicum with a focus on non-natural products

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Production of natural products through metabolic engineering of Saccharomyces cerevisiae

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Engineering microbial cell factories: Metabolic engineering of Corynebacterium glutamicum with a focus on non-natural products

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