Yi Zhou scite author profile

New types of asymmetric functionalizations of alkenes are highly desirable for chemical synthesis. Here, we develop three novel types of regio- and enantioselective multiple oxy- and amino-functionalizations of terminal alkenes via cascade biocatalysis to produce chiral α-hydroxy acids, 1,2-amino alcohols and α-amino acids, respectively. Basic enzyme modules 1–4 are developed to convert alkenes to (S)-1,2-diols, (S)-1,2-diols to (S)-α-hydroxyacids, (S)-1,2-diols to (S)-aminoalcohols and (S)-α-hydroxyacids to (S)-α-aminoacids, respectively. Engineering of enzyme modules 1 & 2, 1 & 3 and 1, 2 & 4 in Escherichia coli affords three biocatalysts over-expressing 4–8 enzymes for one-pot conversion of styrenes to the corresponding (S)-α-hydroxyacids, (S)-aminoalcohols and (S)-α-aminoacids in high e.e. and high yields, respectively. The new types of asymmetric alkene functionalizations provide green, safe and useful alternatives to the chemical syntheses of these compounds. The modular approach for engineering multi-step cascade biocatalysis is useful for developing other new types of one-pot biotransformations for chemical synthesis.

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Regio‐ and Stereoselective Oxidation of Styrene Derivatives to Arylalkanoic Acids via One‐Pot Cascade Biotransformations

Zhou

Seet

et al. 2017

Adv Synth Catal

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Green and selective oxidation methodsa re highly desired in chemical synthesisa nd manufacturing. In this work, we have developedabiocatalytic method for the regio-and stereoselective oxidation of styrene derivatives into arylacetic and( S)-2-arylpropionic acids via ao ne-pot epoxidation-isomerization-oxidation sequence.T his was done via the engineering of Escherichia coli (StyABC-EcALDH)c oexpressing styrene monooxygenase (SMO), styrene oxide isomerase (SOI) and aldehyde dehydrogenase (EcALDH)a sa na ctive and easily available wholecell catalyst. Regioselective oxidation of styrene and 11 substituted styrenes using the E. coli cells wasperformed in ao ne-pot set-up,p roducing 12 phenylacetic acids in bothh igh conversion and high yield. Engineering of E. coli (StyABC-ADH9v1) coexpressing SMO,S OI andA DH9v1 (a mutated alcohol dehydrogenase) led to biocatalystsc apable of regio-and stereoselective oxidation of a-methylstyrene derivatives to the corresponding chiral acids.O ne-pot asymmetric synthesis of 4( S)-2-arylpropionic acids was achieved in good conversion and excellent ee with the E. coli cells.T his is an ew type of asymmetric alkene oxidation to give chiral acids with no chemical counterpart thus far. Thec ascade bio-oxidation operates under mild conditions,u ses molecular oxygen, exhibitsv ery high regio-and enantioselectivity,a nd gives high conversion, thus providing ag reena nd efficientm ethod for the synthesiso fa rylacetic acids and (S)-2-arylpropionic acids directly from easily available styrenes.

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Cascade Biocatalysis for Sustainable Asymmetric Synthesis: From Biobased l‐Phenylalanine to High‐Value Chiral Chemicals

Zhou

2016

Angew Chem Int Ed

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Sustainable synthesis of useful and valuable chiral fine chemicals from renewable feedstocks is highly desirable but remains challenging. Reported herein is a designed and engineered set of unique non-natural biocatalytic cascades to achieve the asymmetric synthesis of chiral epoxide, diols, hydroxy acid, and amino acid in high yield and with excellent ee values from the easily available biobased l-phenylalanine. Each of the cascades was efficiently performed in one pot by using the cells of a single recombinant strain over-expressing 4-10 different enzymes. The cascade biocatalysis approach is promising for upgrading biobased bulk chemicals to high-value chiral chemicals. In addition, combining the non-natural enzyme cascades with the natural metabolic pathway of the host strain enabled the fermentative production of the chiral fine chemicals from glucose.

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Chemo-enzymatic cascades to produce cycloalkenes from bio-based resources

Zhou

Gerngross

et al. 2019

Nat Commun

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Engineered enzyme cascades offer powerful tools to convert renewable resources into valueadded products. Man-made catalysts give access to new-to-nature reactivities that may complement the enzyme's repertoire. Their mutual incompatibility, however, challenges their integration into concurrent chemo-enzymatic cascades. Herein we show that compartmentalization of complex enzyme cascades within E. coli whole cells enables the simultaneous use of a metathesis catalyst, thus allowing the sustainable one-pot production of cycloalkenes from oleic acid. Cycloheptene is produced from oleic acid via a concurrent enzymatic oxidative decarboxylation and ring-closing metathesis. Cyclohexene and cyclopentene are produced from oleic acid via either a six-or eight-step enzyme cascade involving hydration, oxidation, hydrolysis and decarboxylation, followed by ring-closing metathesis. Integration of an upstream hydrolase enables the usage of olive oil as the substrate for the production of cycloalkenes. This work highlights the potential of integrating organometallic catalysis with whole-cell enzyme cascades of high complexity to enable sustainable chemistry.

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Does seeding density affect in vitro mineral nodules formation in novel composite scaffolds?

Zhou

Sae‐Lim

Chou

et al. 2006

J Biomedical Materials Res

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This study investigated the human alveolar osteoblasts (AOs) proliferation and extracellular matrix formation at seeding density of 0.05, 0.1, 0.2, 0.4, and 0.8 million (M) per 3x4x4 mm3 on medical grade polycaprolactone-tricalcium phosphate (mPCL-TCP) scaffolds designed for bone regeneration. Over 80-90% of the initial seeded cells were retained in the scaffolds after 24 h. AOs bridged over pores at density of 0.2M/scaffold and below, but formed cell balls at density of 0.4M/scaffold and above. At seeding density of 0.2M and below, cell proliferation increased with time having DNA content peaked to 1600 ng/scaffold at day 21 and 28, respectively, whereas at 0.4 and 0.8M, the corresponding DNA content decreased to 1600 ng in 28 days. At day 7, higher alkaline phosphatase (ALP) activity and higher osteocalcin (OCN) secretion were detected at 0.2M/scaffold and below. After 28 days, multilayered cell-sheet formation and collagen fibers were observed at all densities. ALP and OCN in matrix and mineral nodules were found mainly at the border of AOs-scaffold construct. These findings demonstrated that the density of 0.2M and below per 3 x 4 x 4 mm(3) scaffold resulted in better cell proliferation and extracellular matrix synthesis, potentially resulting in better mineralized tissue formation.

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Yi Zhou

Highly regio- and enantioselective multiple oxy- and amino-functionalizations of alkenes by modular cascade biocatalysis

Regio‐ and Stereoselective Oxidation of Styrene Derivatives to Arylalkanoic Acids via One‐Pot Cascade Biotransformations

Cascade Biocatalysis for Sustainable Asymmetric Synthesis: From Biobased l‐Phenylalanine to High‐Value Chiral Chemicals

Chemo-enzymatic cascades to produce cycloalkenes from bio-based resources

Does seeding density affect in vitro mineral nodules formation in novel composite scaffolds?

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