Mengying Shan scite author profile

8-Hydroxygeraniol, an important component of insect sex pheromones and defensive secretions, can be used as a potential biological insect repellent in agriculture. Microbial production provides sustainable and green means to efficiently gain 8hydroxygeraniol. The conversion of geraniol to 8-hydroxygeraniol by P450 geraniol-8-hydroxylase (G8H) was regarded as the bottleneck for 8-hydroxygeraniol production. Herein, an integrated strategy consisting of the fitness between G8H and cytochrome P450 reductase (CPR), endoplasmic reticulum (ER) engineering, and reduced nicotinamide adenine dinucleotide phosphate (NADPH) supply is implemented to enhance the production of 8-hydroxygeraniol in Saccharomyces cerevisiae. The titer of 8hydroxygeraniol was gradually increased by 2.1-fold (up to 158.1 mg/L). Moreover, dehydrogenase ADH6 and reductase ARI1 responsible for the reduction of 8-hydroxygeraniol toward shunt products were also deleted, elevating 8-hydroxygeraniol production to 238.9 mg/L at the shake flask level. Consequently, more than 1.0 g/L 8-hydroxygeraniol in S. cerevisiae was achieved in 5.0 L fedbatch fermentation by a carbon restriction strategy, which was the highest-reported titer in microbes so far. Our work not only provides a sustainable way for de novo biosynthesis of 8-hydroxygeraniol but also sets a good reference in P450 engineering in microbes.

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Effects of Bacillus subtilis transglutaminase treatment on the functional properties of whey protein

Liu

et al. 2019

LWT

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Development of a Pichia pastoris whole-cell biocatalyst with overexpression of mutant lipase I PCL^G47I from Penicillium cyclopium for biodiesel production

et al. 2018

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Penicillium cyclopium lipase I (PCL) is a thermolabile triacylglycerol lipase with very low activity against monoacylglycerols, and there have been no reports on the transesterification of oil to produce biodiesel.A mutant PCL G47I with an improved thermostability was previously obtained through replacing Gly47 with Ile in PCL. In this study, a novel Pichia pastoris whole-cell biocatalyst (WCB) with overexpression of PCL G47I was constructed and characterized for biodiesel production from soybean oil. The optimum conditions for biodiesel preparation were 1 g soybean oil, 1 : 2 initial oil/methanol molar ratio with 3 times methanol addition of 1 : 0.75 oil/methanol molar ratio at 4 h intervals, 7% water content, 400 U lipase, temperature of 25 C, and reaction time of 20 h. Under the optimum conditions, the FAME yield reached 60.7% and remained 47.3% after 4 batch cycles, and no glycerol was generated as a byproduct.These findings indicated that this WCB is a promising biocatalyst for biodiesel production in a relatively cost-effective manner. Additionally, the resulting enzymatic process may provide a potential method for biodiesel production at an industrial scale.

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One-Pot Efficient Bioconversion of Crocetin from Zeaxanthin via a Dual-Enzyme System

Shan

Yao

Liang

et al. 2023

ACS Sustainable Chem. Eng.

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Saffron contains pharmacologic active compounds and a large number of flavor compounds. Both originate from carotenoids by biocatalyzed oxidation. Crocetin in saffron exhibits various attractive bioactivities and could be considered in the treatment of various diseases including cancer, coronary heart disease, and hypertension. However, powerful strategies for the efficient and sustainable source of crocetin are lacking. To address this issue, we demonstrated a one-pot approach to bioconversion of crocetin from zeaxanthin via a dual-enzyme system consisting of carotenoid cleavage dioxygenase 2 (CsCCD2-M1 (R192F/S323A)) and aldehyde dehydrogenase (SynALD) with optimized protein expression and reaction system. Meanwhile, it was observed that the byproduct 3-hydroxy-β-apo-8′-carotenoic acid (3-HACA) severely accumulated due to the imbalance in the activity of the CsCCD2-M1 and SynALD. A suitable molar ratio of 6:1 and the optimized dual-enzyme reaction conditions were developed to eliminate 3-HACA completely. Consequently, the efficient biosynthesis of crocetin (1.48 mg/L/h) and an 80.8% conversion rate of crocetin within 2 h were accomplished after scaling up the optimized system by 10 000 times. Moreover, over 34% of enzyme activity was still retained in the residual enzyme system after three times of recycling. This study not only provides a sustainable means of crocetin production in vitro but also presents a new insight into the rapid construction of one-pot synthesis of high-value compounds with complex structures.

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Mengying Shan

Characterization of transglutaminase from Bacillus subtilis and its cross-linking function with a bovine serum albumin model

Systematic Engineering to Enhance 8-Hydroxygeraniol Production in Yeast

Effects of Bacillus subtilis transglutaminase treatment on the functional properties of whey protein

Development of a Pichia pastoris whole-cell biocatalyst with overexpression of mutant lipase I PCL^G47I from Penicillium cyclopium for biodiesel production

One-Pot Efficient Bioconversion of Crocetin from Zeaxanthin via a Dual-Enzyme System

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Mengying Shan

Characterization of transglutaminase from Bacillus subtilis and its cross-linking function with a bovine serum albumin model

Systematic Engineering to Enhance 8-Hydroxygeraniol Production in Yeast

Effects of Bacillus subtilis transglutaminase treatment on the functional properties of whey protein

Development of a Pichia pastoris whole-cell biocatalyst with overexpression of mutant lipase I PCLG47I from Penicillium cyclopium for biodiesel production

One-Pot Efficient Bioconversion of Crocetin from Zeaxanthin via a Dual-Enzyme System

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Product

Resources

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Development of a Pichia pastoris whole-cell biocatalyst with overexpression of mutant lipase I PCL^G47I from Penicillium cyclopium for biodiesel production