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Carbon recycling with synthetic CO2 fixation pathways

CURRENT OPINION IN BIOTECHNOLOGY (2024)

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Synthetic anaplerotic modules for the direct synthesis of complex molecules from CO2

Christoph Diehl et al.

Summary: Anaplerosis, a feature of metabolism, has been applied to synthetic in vitro metabolic networks to achieve carbon-positive synthesis of compounds. In this research, anaplerotic strategies were used to access a new-to-nature CO2-fixation pathway and successfully produce 6-deoxyerythronolide B. This work demonstrates the design and customization of anaplerotic modules to enhance and expand synthetic capabilities in complex in vitro reaction networks.

NATURE CHEMICAL BIOLOGY (2023)

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Article Biotechnology & Applied Microbiology

Paving the way for synthetic C1-Metabolism in Pseudomonas putida through the reductive glycine pathway

Lyon Bruinsma et al.

Summary: In this study, the carbon metabolism of the industrially important bacterium Pseudomonas putida was engineered to utilize one-carbon compounds such as methanol, formate, and CO2 as sustainable microbial feedstocks for the production of chemicals and fuels. The functionality of the C1-assimilation module was demonstrated and successfully extended to include methanol and CO2. This research lays the foundation for further engineering P. putida as a sustainable and versatile cell factory that can utilize formate, methanol, and CO2 as sole feedstocks.

METABOLIC ENGINEERING (2023)

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Article Biotechnology & Applied Microbiology

Co-cultivation of Saccharomyces cerevisiae strains combines advantages of different metabolic engineering strategies for improved ethanol yield

Aafke C. A. van Aalst et al.

Summary: This study explores the potential advantages of co-cultivating engineered S. cerevisiae strains in anaerobic bioreactor batch cultures. Co-cultivating these strains can reduce byproduct formation and improve ethanol yields, and the co-cultures can completely remove acetate in the medium that mimics industrial feedstocks.

METABOLIC ENGINEERING (2023)

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Article Biochemistry & Molecular Biology

Functional expression of RuBisCO reduces CO2 emission during fermentation by engineered Saccharomyces cerevisiae

Sujeong Park et al.

Summary: This study developed a mixotrophic CO2-fixing Saccharomyces cerevisiae by constructing a CO2-fixation pathway and increasing the gene copy number of ribulose-1,5-bisphosphate carboxylase-oxygenase. The resulting yeast strain exhibited increased ethanol concentration and yield and reduced CO2 emissions during xylose fermentation.

PROCESS BIOCHEMISTRY (2023)

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Article Biotechnology & Applied Microbiology

Quantification and mitigation of byproduct formation by low-glycerol-producing Saccharomyces cerevisiae strains containing Calvin-cycle enzymes

Aafke C. A. van Aalst et al.

Summary: In slow-growing anaerobic cultures, it was found that the introduction of Calvin-cycle enzymes in Saccharomyces cerevisiae strain can improve ethanol production but also lead to the formation of excessive acetaldehyde and acetate. By reducing the expression level of RuBisCO and PRK and using a growth rate-dependent promoter, the production of acetaldehyde and acetate can be reduced and glycerol production efficiency can be increased.

BIOTECHNOLOGY FOR BIOFUELS AND BIOPRODUCTS (2023)

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Review Biochemical Research Methods

C2 feedstock-based biomanufacturing of value-added chemicals

Xiaoqiang Ma et al.

Summary: This review highlights the promising waste-processing technologies for providing C2 feedstocks compatible with microbial fermentation and analyzes recent metabolic engineering works to improve the utilization efficiency of acetate, ethanol, or ethylene glycol.

CURRENT OPINION IN BIOTECHNOLOGY (2022)

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Article Biotechnology & Applied Microbiology

Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris

Thomas Gassler et al.

Summary: Synthetic biology offers multiple pathways for converting CO2 into biomass or bio-chemicals, reducing the unsustainable use of organic feedstocks that contribute to climate change. The use of industrial organisms like Pichia pastoris allows for the development of novel bioproduction platforms with reduced reliance on alternative food production resources. By rewiring the central carbon metabolism and utilizing reverse genetic engineering, it is possible to enhance the autotrophic growth of microbes and explore potential applications for producing value-added products using CO2.

METABOLIC ENGINEERING (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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Article Multidisciplinary Sciences

Conversion of CO2 into organic acids by engineered autotrophic yeast

Michael Baumschabl et al.

Summary: The increase of CO2 emissions is one of the main causes of the current climate crisis. Utilizing CO2 as a feedstock for chemical synthesis is important for establishing industrial processes independent of agricultural resources.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2022)

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Article Multidisciplinary Sciences

Engineering nonphotosynthetic carbon fixation for production of bioplastics by methanogenic archaea

Kershanthen Thevasundaram et al.

Summary: The conversion of CO2 to value-added products allows capture and recycling of greenhouse gas emissions. Methanogenic archaea offer a potential route for non-photosynthetic CO2 fixation and microbial fermentation to synthesize chemicals. By engineering Methanococcus maripaludis, an autotrophic microbial species, the production of value-added chemicals from CO2 can be optimized.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2022)

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Article Geosciences, Multidisciplinary

Global Carbon Budget 2022

Pierre Friedlingstein et al.

Summary: Accurately assessing anthropogenic carbon dioxide emissions is crucial for understanding the global carbon cycle, developing climate policies, and predicting climate change. This article describes the methodologies and data used to quantify the components of the global carbon budget and their uncertainties. The data for 2021 shows an increase in fossil fuel and land-use change emissions, as well as the impacts of the atmosphere, ocean, and terrestrial biosphere on carbon absorption.

EARTH SYSTEM SCIENCE DATA (2022)

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Article Chemistry, Physical

A new-to-nature carboxylation module to improve natural and synthetic CO2 fixation

Marieke Scheffen et al.

Summary: The development of a new enzyme GCC with improved catalytic efficiency is a key step towards enhancing carbon efficiency in various processes. By combining active-site design and engineering of other enzymes, a carboxylation module was created, which can be interfaced with natural metabolism and CO2 fixation, providing new opportunities for biotechnology and agriculture.

NATURE CATALYSIS (2021)

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Article Chemistry, Multidisciplinary

Stepwise optimization of genetic RuBisCO-equipped Escherichia coli for low carbon-footprint protein and chemical production

Shih- Tan et al.

Summary: The study focuses on enhancing CO2 assimilation capability in E. coli by introducing RuBisCO and PRK genes along with the CRISPRi system. This led to improved efficiency in simultaneous CO2 recycling and production of high-value molecules. The genetically engineered RuBisCO-equipped E. coli has the potential to be a low-carbon microbial cell factory with significant environmental benefits.

GREEN CHEMISTRY (2021)

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Article Biotechnology & Applied Microbiology

The industrial yeast Pichia pastoris is converted from a heterotroph into an autotroph capable of growth on CO2

Thomas Gassler et al.

NATURE BIOTECHNOLOGY (2020)

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Article Biochemistry & Molecular Biology

Growth of E. coli on formate and methanol via the reductive glycine pathway

Seohyoung Kim et al.

NATURE CHEMICAL BIOLOGY (2020)

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Chaperone Machineries of Rubisco - The Most Abundant Enzyme

Manajit Hayer-Hartl et al.

TRENDS IN BIOCHEMICAL SCIENCES (2020)

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Review Chemistry, Physical

Third-generation biorefineries as the means to produce fuels and chemicals from CO2

Zihe Liu et al.

NATURE CATALYSIS (2020)

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Article Biochemistry & Molecular Biology

Highly active rubiscos discovered by systematic interrogation of natural sequence diversity

Dan Davidi et al.

EMBO JOURNAL (2020)

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Power-to-Protein: Carbon Fixation with Renewable Electric Power to Feed the World

Akanksha Mishra et al.

JOULE (2020)

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Pollution to products: recycling of 'above ground' carbon by gas fermentation

Michael Kopke et al.

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The reductive glycine pathway allows autotrophic growth of Desulfovibrio desulfuricans

Irene Sanchez-Andrea et al.

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Functional reconstitution of a bacterial CO2 concentrating mechanism in Escherichia coli

Avi Flamholz et al.

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Awakening a latent carbon fixation cycle in Escherichia coli

Ari Satanowski et al.

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Replacing the Calvin cycle with the reductive glycine pathway in Cupriavidus necator

Stijn T. de Vries et al.

METABOLIC ENGINEERING (2020)

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Article Biotechnology & Applied Microbiology

Ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO)-mediated de novo synthesis of glycolate-based polyhydroxyalkanoate in Escherichia coli

Ken'ichiro Matsumoto et al.

JOURNAL OF BIOSCIENCE AND BIOENGINEERING (2019)

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Article Biochemical Research Methods

Core Catalysis of the Reductive Glycine Pathway Demonstrated in Yeast

Jorge Gonzalez de la Cruz et al.

ACS SYNTHETIC BIOLOGY (2019)

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Article Biochemistry & Molecular Biology

Conversion of Escherichia coli to Generate All Biomass Carbon from CO2

Shmuel Gleizer et al.

CELL (2019)

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Modular engineering for efficient photosynthetic biosynthesis of 1-butanol from CO2 in cyanobacteria

Xufeng Liu et al.

ENERGY & ENVIRONMENTAL SCIENCE (2019)

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Complex Chaperone Dependence of Rubisco Biogenesis

Robert H. Wilson et al.

BIOCHEMISTRY (2018)

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Optimizing anaerobic growth rate and fermentation kinetics in Saccharomyces cerevisiae strains expressing Calvin-cycle enzymes for improved ethanol yield

Ioannis Papapetridis et al.

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Towards sustainable feedstocks: A guide to electron donors for microbial carbon fixation

Nico Joannes Claassens et al.

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An engineered Calvin-Benson-Bassham cycle for carbon dioxide fixation in Methylobacterium extorquens AM1

Lennart Schada von Borzyskowski et al.

METABOLIC ENGINEERING (2018)

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Exceeding the theoretical fermentation yield in mixotrophic Rubisco-based engineered Escherichia coli

I-Ting Tseng et al.

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Engineering synergetic CO2-fixing pathways for malate production

Guipeng Hu et al.

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Electrical-biological hybrid system for CO2 reduction

Yohei Tashiro et al.

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L-SCRaMbLE as a tool for light-controlled Cre-mediated recombination in yeast

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In Vivo Assimilation of One-Carbon via a Synthetic Reductive Glycine Pathway in Escherichia coli

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Carboxysome encapsulation of the CO2-fixing enzyme Rubisco in tobacco chloroplasts

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A modified serine cycle in Escherichia coli coverts methanol and CO2 to two-carbon compounds

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Recycling Carbon Dioxide during Xylose Fermentation by Engineered Saccharomyces cerevisiae

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Engineering carbon fixation in E. coil: from heterologous RuBisCO expression to the Calvin-Benson-Bassham cycle

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Sugar Synthesis from CO2 in Escherichia coli

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Lauren T. Cordova et al.

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Rubisco-based engineered Escherichia coli for in situ carbon dioxide recycling

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Carbon dioxide fixation by Calvin-Cycle enzymes improves ethanol yield in yeast

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Synthetic non-oxidative glycolysis enables complete carbon conservation

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Expression of the sub-pathways of the Chloroflexus aurantiacus 3-hydroxypropionate carbon fixation bicycle in E. coli: Toward horizontal transfer of autotrophic growth

Matthew D. Mattozzi et al.

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A survey of carbon fixation pathways through a quantitative lens

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Review Microbiology

Alternative Pathways of Carbon Dioxide Fixation: Insights into the Early Evolution of Life?

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Design and analysis of synthetic carbon fixation pathways

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