Nature Search

Screening microbially produced Δ⁹-tetrahydrocannabinol using a yeast biosensor workflow

Microbial production of cannabinoids promises a cheaper and more sustainable route to these important therapeutic molecules, but strain improvement and screening is challenging. Here, the authors develop a yeast-based Δ9-tetrahydrocannabinol (THC) biosensor for screening microbial mutant libraries.

William M. Shaw
Yunfeng Zhang
Tom Ellis
ResearchOpen Access20 Sept 2022
Nature Communications

Volume: 13, P: 1-10
Genetically encoding phosphotyrosine and its nonhydrolyzable analog in bacteria

A propeptide strategy increases uptake of phosphotyrosine and a nonhydrolyzable analog to facilitate their incorporation into proteins by recombinant methods, aided by a specific aminoacyl-tRNA synthetase with a reconfigured active site.

Xiaozhou Luo
Guangsen Fu
Feng Wang
Research12 Jun 2017
Nature Chemical Biology

Volume: 13, P: 845-849
Elucidation of genes enhancing natural product biosynthesis through co-evolution analysis

The authors develop a metabolic engineering strategy for improving polyketide production of industrial interest and discovering new natural products in bacteria.

Xinran Wang
Ningxin Chen
Xiaozhou Luo
Research12 Apr 2024
Nature Metabolism

Volume: 6, P: 933-946
Superselective embolic particle guidance in vessel networks via shape-adaptive acoustic manipulation

Interventional embolization is essential for cancer treatment, but it lacks submillimeter vessel selectivity. Here, the authors show an embolic particle steering in micro-vessel networks via shape-adaptive acoustic manipulation and achieve superselective embolization.

Yucheng Luo
Qiu Yin
Zhichao Ma
ResearchOpen Access02 Jan 2025
Nature Communications

Volume: 16, P: 1-12
UniKP: a unified framework for the prediction of enzyme kinetic parameters

Prediction of enzyme kinetic parameters is essential for designing and optimising enzymes for various biotechnological and industrial applications. Here, authors presented a prediction framework (UniKP), which improves the accuracy of predictions for three enzyme kinetic parameters.

Han Yu
Huaxiang Deng
Xiaozhou Luo
ResearchOpen Access11 Dec 2023
Nature Communications

Volume: 14, P: 1-13
Robust enzyme discovery and engineering with deep learning using CataPro

Enzyme kinetic parameter prediction is a challenge in enzyme discovery and engineering. Here, the authors train a robust deep learning model CataPro to predict enzyme kinetic parameters and validate its practicality through wet-lab experiments.

Zechen Wang
Dongqi Xie
Liangzhen Zheng
ResearchOpen Access20 Mar 2025
Nature Communications

Volume: 16, P: 1-16
Engineering yeast for the de novo synthesis of jasmonates

The chemical synthesis of jasmonates is typically low yielding and can be laborious, whereas their extraction can be costly or environmentally hazardous. Now a de novo biosynthesis of jasmonic acid and its derivatives, methyl jasmonate and jasmonoyl isoleucine, is reported, using an engineered baker’s yeast.

Hongting Tang
Shumin Lin
Xiaozhou Luo
Research13 Nov 2023
Nature Synthesis

Volume: 3, P: 224-235
Direct observation of nanoscale dynamics of ferroelectric degradation

Space charges or injected charges dominate the ferroelectric degradation, however, its physics insight remains unclear. Here, the authors reveal the nature of ferroelectric degradation in nanodevices and the role of the injected charges in polarization reversal.

Qianwei Huang
Zibin Chen
Xiaozhou Liao
ResearchOpen Access07 Apr 2021
Nature Communications

Volume: 12, P: 1-7
Author Correction: Complete biosynthesis of cannabinoids and their unnatural analogues in yeast

Xiaozhou Luo
Michael A. Reiter
Jay D. Keasling
Amendments and Corrections17 Mar 2020
Nature

Volume: 580, P: E2
Metabolic engineering of yeast for the production of carbohydrate-derived foods and chemicals from C_1–3 molecules

Low-carbon chemicals generated from CO₂ provide a possible path to improve the sustainability of microbial bioproduction of food and chemicals. Now, using a metabolic engineering approach, yeast is engineered to produce glucose, myo-inositol, glucosamine, sucrose and starch from C_1–3 molecules.

Hongting Tang
Lianghuan Wu
Tao Yu
Research05 Dec 2023
Nature Catalysis

Volume: 7, P: 21-34
Atomically precise gold nanoclusters at the molecular-to-metallic transition with intrinsic chirality from surface layers

Chiral metal nanoclusters prepared from achiral ligands generally contain chiral kernel structures. Here, the authors report an alternative type of gold nanoclusters whose intrinsic chirality arises solely from the arrangement of the organic components on their surface.

Li-Juan Liu
Fahri Alkan
Jian He
ResearchOpen Access26 Apr 2023
Nature Communications

Volume: 14, P: 1-12
Engineering consortia by polymeric microbial swarmbots

Most attempts to co-cultivate the artificial microbial communities fail mostly due to the mismatched rates of consumption and production of nutrients among subpopulations. Here, the authors develop a microbial swarmbot mediated spatial segregation method to assemble stably coexisting consortia with both flexibility and precision.

Lin Wang
Xi Zhang
Zhuojun Dai
ResearchOpen Access05 Jul 2022
Nature Communications

Volume: 13, P: 1-13
Constructing phase boundary in AgNbO₃ antiferroelectrics: pathway simultaneously achieving high energy density and efficiency

Dielectric capacitors are widely used in electronic systems but they possess inferior energy density in comparison with other electrochemical energy storage. Here, the authors construct a diffused phase boundary to simultaneously achieve high energy storage density and efficiency in AgNbO₃antiferroelectrics.

Nengneng Luo
Kai Han
Yuezhou Wei
ResearchOpen Access24 Sept 2020
Nature Communications

Volume: 11, P: 1-10
Complete biosynthesis of cannabinoids and their unnatural analogues in yeast

Genetic engineering of yeast enables the production of cannabinoids and cannabinoid analogues from the simple sugar galactose, without the need to cultivate Cannabis.

Xiaozhou Luo
Michael A. Reiter
Jay D. Keasling
Research27 Feb 2019
Nature

Volume: 567, P: 123-126
Strong and ductile titanium–oxygen–iron alloys by additive manufacturing

Combining alloy design with additive manufacturing process design creates α–β titanium–oxygen–iron alloys that are both strong and ductile, with the potential to revitalize off-grade sponge titanium and thereby reduce the carbon footprint of the titanium industry.

Tingting Song
Zibin Chen
Ma Qian
ResearchOpen Access31 May 2023
Nature

Volume: 618, P: 63-68
Giant room temperature compression and bending in ferroelectric oxide pillars

In materials science, it is a well-accepted fact that metals are generally ductile, and ceramics are always brittle. Here, the authors observe high level of plasticity and excellent elasticity in perovskite oxide under compression and bending with diameter of 2.1 μm.

Ying Liu
Xiangyuan Cui
Julie M. Cairney
ResearchOpen Access17 Jan 2022
Nature Communications

Volume: 13, P: 1-9

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