Polyelectrolyte-doped microcapsules(PDM)was fabricated by coaxial electrospray of a mixture of glycerol and water containing 10 mg/mL cationic polyelectrolyte poly(allylamine hydrochloride)(PAH)fed as the core phase s...Polyelectrolyte-doped microcapsules(PDM)was fabricated by coaxial electrospray of a mixture of glycerol and water containing 10 mg/mL cationic polyelectrolyte poly(allylamine hydrochloride)(PAH)fed as the core phase solution,and a N,N-dimethylacetylamide solution of 10 wt%polyurethane fed as the shell phase solution.Multienzyme system involving Candida Antarctica lipase B(CALB),glucose oxidase(GOD),and horseradish peroxidase(HRP)for cascade reaction was assembled in the PDM at three different places,namely,surface,shell,and lumen.Placing of enzyme inside aqueous lumen of the PDM was realized by in situ encapsulation through adding the enzyme in the core-phase solution for coaxial electrospray.By ion-pairing of enzyme with cationic surfactant CTAB,an organic soluble enzyme-CTAB complex was prepared,so that in situ embedding of enzyme in the shell of the PDM was realized by adding it into the shell phase solution.Surface attachment of enzymes was achieved by layer-by-layer(LbL)technology,which is based on the ion-exchange interactions between oppositely charged enzymes and PAH that was doped in PDM.The enzyme-decorated microcapsule was then studied as a microbioreactor,in which 1-Oxododecyla-α-glucopyranoside was converted by CALB to glucose,which was oxidised by GOD to gluconolactone in a second step.The hydrogen peroxide produced was then used by HRP to oxidize ABTS to form coloured radical cation ABTS•+for activity analysis.The successful fabrication of the PDM and precise localization of enzymes in the PDM by different strategies were fully characterized.By varying the immobilization strategy,totally six PDM bioreactors with three enzymes precisely positional assembled in different strategies were constructed and their activities for the cascade reaction were investigated and compared.The PDM micro-bioreactor prepared by novel electrospray technologies provide a smart platform for positional assembly of multi-enzyme cascade reaction in a precise and well-controlled manner.展开更多
A novel synthesis of C2-spiroindoline derivatives based on the cascade reaction of 2-aryl-3H-indoles with cyclo- propanols is presented. The formation of product involves Rh(III)-catalyzed aryl C(sp2)—H bond alkylati...A novel synthesis of C2-spiroindoline derivatives based on the cascade reaction of 2-aryl-3H-indoles with cyclo- propanols is presented. The formation of product involves Rh(III)-catalyzed aryl C(sp2)—H bond alkylation of 2-aryl- 3H-indole, which is followed by intramolecular spiroannulation. In this tandem process, cyclopropanol acts as not only an alkylating agent but also a masked nucleophile to take part in the construction of the spirocyclic scaffold. Meanwhile, air acts as an economical and sustainable oxidant to promote the regeneration of the active catalyst. By using this method, hybrid compounds containing the central scaffolds of some clinical drugs were prepared effectively. In general, this newly developed method has advantages such as easily obtainable substrates, concise synthetic procedure, excellent atom-economy, good compatibility with diverse functional groups and ready scalability.展开更多
Wound healing in diabetic patients presents significant challenges due to heightened risks of bacterial infection,elevated glucose levels,and insufficient angiogenesis.Nanozymes are widely employed for wound healing,b...Wound healing in diabetic patients presents significant challenges due to heightened risks of bacterial infection,elevated glucose levels,and insufficient angiogenesis.Nanozymes are widely employed for wound healing,but most current nanozyme systems exhibit only moderate activity limited by incompatible reaction microenvironments including p H and hydrogen peroxide(H_(2)O_(2))concentration.Herein,a glucoseactivated nanozyme hydrogel was developed using bovine serum albumin(BSA)-modified gold nanoparticles(Au NPs)attached to a two-dimensional(2D)metal-organic framework(MOF)(Cu-TCPP(Fe)@Au@BSA)by an in situ growth method.The Au NPs function as a glucose oxidase(GOx)-like enzyme,converting glucose to gluconic acid and H_(2)O_(2),triggering the peroxidase(POD)-like activity of Cu-TCPP(Fe)to produce hydroxyl radicals(·OH),effectively eliminating bacteria.Additionally,the modification of BSA reduces the Au NP size,enhancing enzyme activity.Both in vitro and in vivo tests demonstrate that this nanozyme hydrogel can be activated by the microenvironment to lower blood glucose,eliminate bacterial infections,and promote epithelial formation and collagen deposition,thus accelerating diabetic wound healing effectively.The multifunctional nanozyme hydrogel dressing developed in this study presents a promising therapeutic approach to enhance diabetic wound healing.展开更多
A composite metal-organic frameworks(MOFs)structure,designated as Co-hmta@La-salen,was synthesized through coordination interactions between a one-dimensional lanthanum MOFs(La-salen)with high density of uncoordinated...A composite metal-organic frameworks(MOFs)structure,designated as Co-hmta@La-salen,was synthesized through coordination interactions between a one-dimensional lanthanum MOFs(La-salen)with high density of uncoordinated imine(-CH=N-)groups and a cobalt-based MOFs(Co-hmta)structure prepared using hydrogen bonding stacking with hexamethylenetetramine(hmta)as the organic ligand.Subsequently,the Co-hmta@La-salen composite was chosen as a template for the pyrolysis process to synthesize a La(OH)_(3)supported metallic Co catalyst incorporating carbon-nitrogen(Co/La(OH)_(3)-CNhmta)catalyst.The catalytic results show that Co/La(OH)_(3)-CN-hmta(54%and 46%selectivity for aniline and N-phenylbenzylamine,respectively)displays superior cascade performance compared to classic Co/La(OH)_(3)-CN-nit catalyst(69%and 31%selectivity for aniline and N-phenylbenzylamine,respectively).Moreover,the kinetic test results indicate that N-alkylation is the rate-limiting step of the overall cascade reaction.The Co/La(OH)_(3)-CN-hmta catalyst can be separated from the reaction system using a magnet,and it also exhibits good cyclic stability.All of these suggest that the“MOFs plus MOFs via coordination”templating method can be employed as an efficient strategy for the preparation of supported catalysts.展开更多
Multi-enzyme complexes are the results of natural evolution to facilitate cascade biocatalysis.Through enzyme colocalization within a complex,the transfer efficiency of reaction intermediates between adjacent cascade ...Multi-enzyme complexes are the results of natural evolution to facilitate cascade biocatalysis.Through enzyme colocalization within a complex,the transfer efficiency of reaction intermediates between adjacent cascade enzymes can be promoted,resulting in enhanced overall reaction efficiency.Inspired by nature,a variety of approaches have been developed for the assembly of artificial multi-enzyme complexes with different spatial organizations,aiming at improving the catalytic efficiency of enzyme cascade.A recent trend of this research area is the creation of enzyme complexes with a controllable spatial organization which helps with the mechanistic studies and bears the potential to further increase metabolic productivity.In this review,we summarize versatile strategies for the assembly of artificial multi-enzyme complexes,followed by an inspection of the mechanistic studies of artificial multi-enzyme complexes for their enhancement of catalytic efficiency.Furthermore,we provide some highlighted in vivo,ex vivo,and in vitro examples that demonstrate the ability of artificial multi-enzyme complexes for enhancing the overall production efficiency of value-added compounds.Recent research progress has revealed the great biotechnological potential of artificial multi-enzyme complexes as a powerful tool for biomanufacturing.展开更多
An efficient Cu catalyzed selective arylation/annulation cascade reaction of 2-alkynylanilines with diaryliodonium salts was developed.This reaction was selective to N-arylation instead of C-arylation,which provides a...An efficient Cu catalyzed selective arylation/annulation cascade reaction of 2-alkynylanilines with diaryliodonium salts was developed.This reaction was selective to N-arylation instead of C-arylation,which provides a simple synthetic method for N-aryl indoles.展开更多
1-Indenones are important scaffolds in natural products, biologically active molecules as well as functional materials. Recently, radical cascade cyclization has emerged as an efficient and powerful strategy for the c...1-Indenones are important scaffolds in natural products, biologically active molecules as well as functional materials. Recently, radical cascade cyclization has emerged as an efficient and powerful strategy for the construction of valuable and versatile functionalized 1-indenones. In this review, the recent advances of this rapidly growing area were summarized. The selected examples have been classified according to the type of reaction substrates such as 1,3-diarylpropynones, 2-alkynylbenzonitriles, arylpropynols, 1,5-enynes and 2-alkynylated bromocinnamates.展开更多
We report a turn-on fluorescent probe for H2S through a cascade reaction using a new trap group 4- (bromomethyl)benzoate, based on excited-state intramolecular proton transfer (ESIPT) sensing mechanism. The probe ...We report a turn-on fluorescent probe for H2S through a cascade reaction using a new trap group 4- (bromomethyl)benzoate, based on excited-state intramolecular proton transfer (ESIPT) sensing mechanism. The probe showed good selectivity and high sensitivity towards H2S and it was capable of detecting and imaging H2S in living HeLa cells, indicating its potential biological applications.展开更多
A highly stereoselective asymmetric cascade cyclization reaction between o-hydroxycinnamaldehydes and diphenylphosphine oxide has been achieved with 84%-99% ee and 7:1-20:1 dr under the catalysis of L-diarylprolinol...A highly stereoselective asymmetric cascade cyclization reaction between o-hydroxycinnamaldehydes and diphenylphosphine oxide has been achieved with 84%-99% ee and 7:1-20:1 dr under the catalysis of L-diarylprolinol silyl ether. This reaction provides a facile access to highly enantioenriched 4- diphenylphosphinyl chroman-2-ols. It also represents a novel organocatalytic asymmetric phospha- Michael addition of α,β-unsaturated aldehydes with pentavalent P-nucleophiles.展开更多
Selective detection of multiple analytes in a compact design with dual-modality and theranostic features presents great challenges. Herein, we wish to report a coumarin-thiazolidine masked D-penicillamine based dual-m...Selective detection of multiple analytes in a compact design with dual-modality and theranostic features presents great challenges. Herein, we wish to report a coumarin-thiazolidine masked D-penicillamine based dual-modality fluorescent probe COU-DPA-1 for selective detection, differentiation, and detoxification of multiple heavy metal ions(Ag^(+), Hg^(2+), Cu^(2+)). The probe shows divergent fluorescence(FL)/circular dichroism(CD) responses via divergent bond-cleavage cascade reactions(metal ion promoted C-S cleavage and hydrolysis at two distinctive cleavage sites): FL “turn-off” and CD “turn-on” for Ag+(no hydrolysis), FL “turn-on” and CD “turn-off” for Hg^(+)(imine hydrolysis), and FL “self-threshold ratiometric” and CD “turn-off” for excess Cu^(2+)(lactone and imine hydrolysis), providing the first example of a fluorescence/CD dual-modality probe for multiple species with complimentary responses. Moreover, the bond-cleavage cascade reactions also lead to the formation of D-penicillamine heavy metal ion complexes for potential detoxification treatments.展开更多
Organoselenium and pyrazole compounds are important scaffolds in pharmaceutical molecules.Herein,an electrochemical multicomponent one-pot cascade reaction of hydrazide,pentane-2,4-diones and diselenides has been esta...Organoselenium and pyrazole compounds are important scaffolds in pharmaceutical molecules.Herein,an electrochemical multicomponent one-pot cascade reaction of hydrazide,pentane-2,4-diones and diselenides has been established to construct 4-selenylacylpyrazoles.It is worth noting that for this efficient and green protocol,neither metal catalysts nor external oxidants are required.Moreover,this process exhibits step economy,ease of scale up and high yields to deliver various 4-selenylacylpyrazoles.展开更多
An N-heterocyclic carbene(NHC)-catalysed retro-aldol/aldol cascade reaction of spirooxindole-basedβ-hydroxyaldehyde has been developed.The ring opening-closure process enables the diastereodivergent synthesis of spir...An N-heterocyclic carbene(NHC)-catalysed retro-aldol/aldol cascade reaction of spirooxindole-basedβ-hydroxyaldehyde has been developed.The ring opening-closure process enables the diastereodivergent synthesis of spirocyclopentaneoxindole products with four consecutive stereocenters by simply changing the reaction solvents(THF or DCE).The Michael/aldol/retro-aldol/aldol sequential protocol allows the diastereodivergent synthesis of spirocyclopentaneoxindoles from 3-substituted oxindole andα,β-unsaturated aldehyde under the relay catalysis of a chiral secondary amine and an NHC catalyst.Moreover,four stereoisomers of the product can be selectively provided by using different combinations of a chiral secondary amine and a solvent.展开更多
The cascade reactions of alkyl α-diazoesters and ynones using Al(OTf)_(3) as the catalyst are described.A series of 4-substituted pyrazoles were obtained via [3+2] cycloaddition,1,5-ester shift,1,3-H shift,and N-H in...The cascade reactions of alkyl α-diazoesters and ynones using Al(OTf)_(3) as the catalyst are described.A series of 4-substituted pyrazoles were obtained via [3+2] cycloaddition,1,5-ester shift,1,3-H shift,and N-H insertion process.Deuterium labelling experiments,kinetic studies and control experiments were carried out for the rationalization of the mechanism.展开更多
Intramolecular end-to-end reactions of long-chain linear precursors remain challenging due to their inherent tendency to undergo intermolecular reactions.Herein,we investigated the cascade hydrolysis and intramolecula...Intramolecular end-to-end reactions of long-chain linear precursors remain challenging due to their inherent tendency to undergo intermolecular reactions.Herein,we investigated the cascade hydrolysis and intramolecular cyclization reactions of three vips with varying lengths within the well-defined nanocavities of cavitands in aqueous solution.Driven by hydrophobic effect,these vips were encapsulated within the dimeric capsules,adopting distinct conformations and orientations due to spatial constraints.Specifically,the shorter vip maintained an extended linear geometry,whereas the longer vips adopted a folded binding mode.Upon initiating the reaction,the terminal residue of the shorter vip displayed lower reactivity,while the longer vips,preorganized within the cavity,underwent efficient cyclization,resulting in significant differences in reaction kinetics.Furthermore,electrostatic potential fields played a critical role in modulating reaction rates,with the positively charged cavitand accelerating the reaction more efficiently compared to its negatively charged counterpart,likely due to stabilization of the anionic transition state.This study provides an effective strategy for designing enzymemimetic nanoreactors through the utilization of well-defined nanospaces.展开更多
Constructing high-performance nanozymes for specific biomolecules is crucial but challenging for practical applications and fundamental research.Herein,through the examination of the catalytic reaction paths of natura...Constructing high-performance nanozymes for specific biomolecules is crucial but challenging for practical applications and fundamental research.Herein,through the examination of the catalytic reaction paths of natural nicotinamide adenine dinucleotide(NADH)oxidase(NOX),a novel and efficient single-atom rhodium catalyst(Rh1/NC)was developed to mimic NOX.The Rh_(1)/NC demonstrated the ability to catalyze the dehydrogenation of NADH and transfer electrons to O_(2)to generate H_(2)O_(2)through the typical two-electron pathway.Furthermore,our findings revealed that Rh_(1)/NC exhibits the ability to catalyze the conversion of produced H_(2)O_(2)into OH under mildly acidic conditions.This process amplifies the oxidation of NADH,showcasing NADH peroxidase-like activity(NPx-like).As a paradigm,this unique dual enzyme-like property of Rh_(1)/NC with a positive feedback effect holds significance in disrupting cancer cellular homeostasis.Rh_(1)/NC can effectively consume NADH via cascade biocatalytic reactions within cancer cells,further triggering the elevation of reactive oxygen species(ROS),leading to impaired oxidative phosphorylation and decreased mitochondrial membrane potential,thus damaging the adenosine triphosphate(ATP)synthesis.The resulting'domino effect'interferes with the energy metabolism homeostasis of cancer cells,ultimately promoting cell apoptosis.This study provides potential guidance for the rational design of materials with greater capabilities.展开更多
A novel type of palladium-catalyzed cascade cyclization-coupling reaction has been found. Reaction of N, N-diallylbenzoylamide 1 with benzyl halides 2 afforded the corresponding dihydropyrroles 3 in moderate to excel...A novel type of palladium-catalyzed cascade cyclization-coupling reaction has been found. Reaction of N, N-diallylbenzoylamide 1 with benzyl halides 2 afforded the corresponding dihydropyrroles 3 in moderate to excellent yields.展开更多
Bridged polycyclic lactams are important structural units in organic functional materials,natural products,and pharmaceuticals.A flexible and efficient anion cascade reaction was developed for the preparation of bridg...Bridged polycyclic lactams are important structural units in organic functional materials,natural products,and pharmaceuticals.A flexible and efficient anion cascade reaction was developed for the preparation of bridged polycyclic lactams from readily available malonamides and 1,4‑dien-3-ones.Various highly substituted bridged polycyclic lactams were synthesized in good to excellent yields by tandem nucleophilic sequences in the presence of t BuOK in commercially available EtOH solvent at 60℃.Notably,the simple reactions can be run on a gram scale.Mechanistically,bis-Michael addition reaction and hemiaminalization reactions are involved in the tandem transformation.展开更多
A novel and efficient approach for the straightforward synthesis of biologically significant acenaphtho[1,2-b]quinoline derivatives in good yields utilizing CuI as a catalyst with a broad array of substrates has been ...A novel and efficient approach for the straightforward synthesis of biologically significant acenaphtho[1,2-b]quinoline derivatives in good yields utilizing CuI as a catalyst with a broad array of substrates has been developed. The strategy features as a CuI-catalyzed cascade reaction involving the formation of two new C–C bonds and one new C–N bond with high atom economy. A proposed mechanism for the reaction is described.展开更多
The access to high-density hydrocarbon fuels from biomass for the reduction of dependence on fossil resources has been a research highlight in recent years. It is well known that cycloalkanes are the components of fue...The access to high-density hydrocarbon fuels from biomass for the reduction of dependence on fossil resources has been a research highlight in recent years. It is well known that cycloalkanes are the components of fuels with higher energy density than straight or branched alkanes. Herein, we developed a new catalytic pattern to synthesize dimethyltetradecahydroanthracenes(DMTHA), a kind of tricyclic alkane, from biomass-derived isoprene and p-benzoquinone via a cascade Diels-Alder reaction followed by a hydrodeoxygenation reaction. Vanadium supported on titanium dioxide(V-TiO_(2)) was applied to catalyze the cascade Diels-Alder reaction and it was disclosed that V with appropriate V^(4+)/V^(5+) ratio on the surface of TiO_(2) could activate quinones. Experimental tests showed that the heating value of final products was up to 45.7 MJ/kg. The development of new high-density fuel molecules is a long-term trend for the future renewable and sustainable fuel energy application.展开更多
An efficient method has been developed for the cascade synthesis of azo[1,2-a]indolones from azoles and2-fluoroaldehydes based on an iron-catalyzed SNAr and a direct acylation reaction.A number of azo[1,2-a]indolones ...An efficient method has been developed for the cascade synthesis of azo[1,2-a]indolones from azoles and2-fluoroaldehydes based on an iron-catalyzed SNAr and a direct acylation reaction.A number of azo[1,2-a]indolones containing different azole rings and substituents were obtained in good yields.展开更多
基金The authors thank the support from the National Natural Science Foundation of China(Grant No.21676276).
文摘Polyelectrolyte-doped microcapsules(PDM)was fabricated by coaxial electrospray of a mixture of glycerol and water containing 10 mg/mL cationic polyelectrolyte poly(allylamine hydrochloride)(PAH)fed as the core phase solution,and a N,N-dimethylacetylamide solution of 10 wt%polyurethane fed as the shell phase solution.Multienzyme system involving Candida Antarctica lipase B(CALB),glucose oxidase(GOD),and horseradish peroxidase(HRP)for cascade reaction was assembled in the PDM at three different places,namely,surface,shell,and lumen.Placing of enzyme inside aqueous lumen of the PDM was realized by in situ encapsulation through adding the enzyme in the core-phase solution for coaxial electrospray.By ion-pairing of enzyme with cationic surfactant CTAB,an organic soluble enzyme-CTAB complex was prepared,so that in situ embedding of enzyme in the shell of the PDM was realized by adding it into the shell phase solution.Surface attachment of enzymes was achieved by layer-by-layer(LbL)technology,which is based on the ion-exchange interactions between oppositely charged enzymes and PAH that was doped in PDM.The enzyme-decorated microcapsule was then studied as a microbioreactor,in which 1-Oxododecyla-α-glucopyranoside was converted by CALB to glucose,which was oxidised by GOD to gluconolactone in a second step.The hydrogen peroxide produced was then used by HRP to oxidize ABTS to form coloured radical cation ABTS•+for activity analysis.The successful fabrication of the PDM and precise localization of enzymes in the PDM by different strategies were fully characterized.By varying the immobilization strategy,totally six PDM bioreactors with three enzymes precisely positional assembled in different strategies were constructed and their activities for the cascade reaction were investigated and compared.The PDM micro-bioreactor prepared by novel electrospray technologies provide a smart platform for positional assembly of multi-enzyme cascade reaction in a precise and well-controlled manner.
文摘A novel synthesis of C2-spiroindoline derivatives based on the cascade reaction of 2-aryl-3H-indoles with cyclo- propanols is presented. The formation of product involves Rh(III)-catalyzed aryl C(sp2)—H bond alkylation of 2-aryl- 3H-indole, which is followed by intramolecular spiroannulation. In this tandem process, cyclopropanol acts as not only an alkylating agent but also a masked nucleophile to take part in the construction of the spirocyclic scaffold. Meanwhile, air acts as an economical and sustainable oxidant to promote the regeneration of the active catalyst. By using this method, hybrid compounds containing the central scaffolds of some clinical drugs were prepared effectively. In general, this newly developed method has advantages such as easily obtainable substrates, concise synthetic procedure, excellent atom-economy, good compatibility with diverse functional groups and ready scalability.
基金supported by the National Natural Science Foundation of China Project(No.22208321)the China Postdoctoral Science Foundation Project(No.2022M720130)+1 种基金the Key Scientific Research Project of Henan Province High Education Institutions(No.24A350018)the Natural Science Foundation of Henan Province-Outstanding Youth Foundation(No.232300421058)。
文摘Wound healing in diabetic patients presents significant challenges due to heightened risks of bacterial infection,elevated glucose levels,and insufficient angiogenesis.Nanozymes are widely employed for wound healing,but most current nanozyme systems exhibit only moderate activity limited by incompatible reaction microenvironments including p H and hydrogen peroxide(H_(2)O_(2))concentration.Herein,a glucoseactivated nanozyme hydrogel was developed using bovine serum albumin(BSA)-modified gold nanoparticles(Au NPs)attached to a two-dimensional(2D)metal-organic framework(MOF)(Cu-TCPP(Fe)@Au@BSA)by an in situ growth method.The Au NPs function as a glucose oxidase(GOx)-like enzyme,converting glucose to gluconic acid and H_(2)O_(2),triggering the peroxidase(POD)-like activity of Cu-TCPP(Fe)to produce hydroxyl radicals(·OH),effectively eliminating bacteria.Additionally,the modification of BSA reduces the Au NP size,enhancing enzyme activity.Both in vitro and in vivo tests demonstrate that this nanozyme hydrogel can be activated by the microenvironment to lower blood glucose,eliminate bacterial infections,and promote epithelial formation and collagen deposition,thus accelerating diabetic wound healing effectively.The multifunctional nanozyme hydrogel dressing developed in this study presents a promising therapeutic approach to enhance diabetic wound healing.
基金Project supported by the Natural Science Foundation of Jiangsu Province (BK20210066)Natural Science Foundation of Heilongjiang Province (ZD2022E007).
文摘A composite metal-organic frameworks(MOFs)structure,designated as Co-hmta@La-salen,was synthesized through coordination interactions between a one-dimensional lanthanum MOFs(La-salen)with high density of uncoordinated imine(-CH=N-)groups and a cobalt-based MOFs(Co-hmta)structure prepared using hydrogen bonding stacking with hexamethylenetetramine(hmta)as the organic ligand.Subsequently,the Co-hmta@La-salen composite was chosen as a template for the pyrolysis process to synthesize a La(OH)_(3)supported metallic Co catalyst incorporating carbon-nitrogen(Co/La(OH)_(3)-CNhmta)catalyst.The catalytic results show that Co/La(OH)_(3)-CN-hmta(54%and 46%selectivity for aniline and N-phenylbenzylamine,respectively)displays superior cascade performance compared to classic Co/La(OH)_(3)-CN-nit catalyst(69%and 31%selectivity for aniline and N-phenylbenzylamine,respectively).Moreover,the kinetic test results indicate that N-alkylation is the rate-limiting step of the overall cascade reaction.The Co/La(OH)_(3)-CN-hmta catalyst can be separated from the reaction system using a magnet,and it also exhibits good cyclic stability.All of these suggest that the“MOFs plus MOFs via coordination”templating method can be employed as an efficient strategy for the preparation of supported catalysts.
基金supported by the National Natural Science Foundation of China(21778073)。
文摘Multi-enzyme complexes are the results of natural evolution to facilitate cascade biocatalysis.Through enzyme colocalization within a complex,the transfer efficiency of reaction intermediates between adjacent cascade enzymes can be promoted,resulting in enhanced overall reaction efficiency.Inspired by nature,a variety of approaches have been developed for the assembly of artificial multi-enzyme complexes with different spatial organizations,aiming at improving the catalytic efficiency of enzyme cascade.A recent trend of this research area is the creation of enzyme complexes with a controllable spatial organization which helps with the mechanistic studies and bears the potential to further increase metabolic productivity.In this review,we summarize versatile strategies for the assembly of artificial multi-enzyme complexes,followed by an inspection of the mechanistic studies of artificial multi-enzyme complexes for their enhancement of catalytic efficiency.Furthermore,we provide some highlighted in vivo,ex vivo,and in vitro examples that demonstrate the ability of artificial multi-enzyme complexes for enhancing the overall production efficiency of value-added compounds.Recent research progress has revealed the great biotechnological potential of artificial multi-enzyme complexes as a powerful tool for biomanufacturing.
基金supported by the Intercollegiate Key Scientific Research Projects of Henan Province(15A150018)~~
文摘An efficient Cu catalyzed selective arylation/annulation cascade reaction of 2-alkynylanilines with diaryliodonium salts was developed.This reaction was selective to N-arylation instead of C-arylation,which provides a simple synthetic method for N-aryl indoles.
基金the financial support from the National Natural Science Foundation of China(No.21501010)Key Research Projects of Universities in Henan Province(No. 19A350011)+1 种基金2017 Science and Technology Innovation Team in Henan Province(No. 22120001)Major Scientific and Technological Projects in Henan Province(No. 181100310500)
文摘1-Indenones are important scaffolds in natural products, biologically active molecules as well as functional materials. Recently, radical cascade cyclization has emerged as an efficient and powerful strategy for the construction of valuable and versatile functionalized 1-indenones. In this review, the recent advances of this rapidly growing area were summarized. The selected examples have been classified according to the type of reaction substrates such as 1,3-diarylpropynones, 2-alkynylbenzonitriles, arylpropynols, 1,5-enynes and 2-alkynylated bromocinnamates.
基金financially supported by the 973 Program (No.2013CB933800)National Natural Science Foundation of China (Nos.21525206,21402216,21272243)the Fundamental Research Funds for the Central Universities and Beijing Municipal Commission of Education
文摘We report a turn-on fluorescent probe for H2S through a cascade reaction using a new trap group 4- (bromomethyl)benzoate, based on excited-state intramolecular proton transfer (ESIPT) sensing mechanism. The probe showed good selectivity and high sensitivity towards H2S and it was capable of detecting and imaging H2S in living HeLa cells, indicating its potential biological applications.
基金Financial support from the National Natural Science Foundation of China(Nos. 21472096, J1103306)
文摘A highly stereoselective asymmetric cascade cyclization reaction between o-hydroxycinnamaldehydes and diphenylphosphine oxide has been achieved with 84%-99% ee and 7:1-20:1 dr under the catalysis of L-diarylprolinol silyl ether. This reaction provides a facile access to highly enantioenriched 4- diphenylphosphinyl chroman-2-ols. It also represents a novel organocatalytic asymmetric phospha- Michael addition of α,β-unsaturated aldehydes with pentavalent P-nucleophiles.
基金supported by the National Natural Science Foundation of China (Nos. 21577037 and 21738002)the State Key Laboratory of Bioreactor Engineering, Shanghai Natural Science Fund (No. 20ZR1414700)+2 种基金Shanghai Sailing Program (No. 19YF1412500)Natural Science Basic Research Program of Shaanxi (No. 2019JQ-924)Key Breeding Program by Collaborative Innovation Center of Green Manufacturing Technology for Traditional Chinese Medicine in Shaanxi Province (No. 2019XT-1-03)。
文摘Selective detection of multiple analytes in a compact design with dual-modality and theranostic features presents great challenges. Herein, we wish to report a coumarin-thiazolidine masked D-penicillamine based dual-modality fluorescent probe COU-DPA-1 for selective detection, differentiation, and detoxification of multiple heavy metal ions(Ag^(+), Hg^(2+), Cu^(2+)). The probe shows divergent fluorescence(FL)/circular dichroism(CD) responses via divergent bond-cleavage cascade reactions(metal ion promoted C-S cleavage and hydrolysis at two distinctive cleavage sites): FL “turn-off” and CD “turn-on” for Ag+(no hydrolysis), FL “turn-on” and CD “turn-off” for Hg^(+)(imine hydrolysis), and FL “self-threshold ratiometric” and CD “turn-off” for excess Cu^(2+)(lactone and imine hydrolysis), providing the first example of a fluorescence/CD dual-modality probe for multiple species with complimentary responses. Moreover, the bond-cleavage cascade reactions also lead to the formation of D-penicillamine heavy metal ion complexes for potential detoxification treatments.
基金Project supported by the Young Talent Fund of Association for Science and Technology in Shaanxi(No.20220609)the Natural Science Foundation Research Project of Shaanxi Province(No.2025JC-YBQN-129)+3 种基金the Science and Technology Planning Project of Yan City(No.2022SLSFGG-005)the National College Students'Innovation and Entrepreneurship Training Program(No.202510719063)the Youth Innovation Team Project of Shaanxi Provincial Education Department(No.23JP193)the Youth Innovation Team of Shaanxi Universities。
文摘Organoselenium and pyrazole compounds are important scaffolds in pharmaceutical molecules.Herein,an electrochemical multicomponent one-pot cascade reaction of hydrazide,pentane-2,4-diones and diselenides has been established to construct 4-selenylacylpyrazoles.It is worth noting that for this efficient and green protocol,neither metal catalysts nor external oxidants are required.Moreover,this process exhibits step economy,ease of scale up and high yields to deliver various 4-selenylacylpyrazoles.
基金financial support from Ministry of Science and Technology of China (No.2019ZX09721001-008)National Natural Science Foundation of China (Nos.81773890,22001024,82073997)the “Thousand Talents Program” of Sichuan Province and Xinglin Scholar Research Premotion Project of CDUTCM。
文摘An N-heterocyclic carbene(NHC)-catalysed retro-aldol/aldol cascade reaction of spirooxindole-basedβ-hydroxyaldehyde has been developed.The ring opening-closure process enables the diastereodivergent synthesis of spirocyclopentaneoxindole products with four consecutive stereocenters by simply changing the reaction solvents(THF or DCE).The Michael/aldol/retro-aldol/aldol sequential protocol allows the diastereodivergent synthesis of spirocyclopentaneoxindoles from 3-substituted oxindole andα,β-unsaturated aldehyde under the relay catalysis of a chiral secondary amine and an NHC catalyst.Moreover,four stereoisomers of the product can be selectively provided by using different combinations of a chiral secondary amine and a solvent.
基金supported by the National Natural Science Foundation of China(Nos.21625205 and U19A2014)。
文摘The cascade reactions of alkyl α-diazoesters and ynones using Al(OTf)_(3) as the catalyst are described.A series of 4-substituted pyrazoles were obtained via [3+2] cycloaddition,1,5-ester shift,1,3-H shift,and N-H insertion process.Deuterium labelling experiments,kinetic studies and control experiments were carried out for the rationalization of the mechanism.
基金funded by the National Natural Science Foundation of China(Nos.22271154,M-0411)the China Postdoctoral Science Foundation(No.2023M731658)+2 种基金the Science Fund for Distinguished Young Scholars of Jiangsu Province(No.BK20240078)the Innovation Support Program of Jiangsu Province(No.BZ2023055)the High-Performance Computing Platform of Peking Uniersity。
文摘Intramolecular end-to-end reactions of long-chain linear precursors remain challenging due to their inherent tendency to undergo intermolecular reactions.Herein,we investigated the cascade hydrolysis and intramolecular cyclization reactions of three vips with varying lengths within the well-defined nanocavities of cavitands in aqueous solution.Driven by hydrophobic effect,these vips were encapsulated within the dimeric capsules,adopting distinct conformations and orientations due to spatial constraints.Specifically,the shorter vip maintained an extended linear geometry,whereas the longer vips adopted a folded binding mode.Upon initiating the reaction,the terminal residue of the shorter vip displayed lower reactivity,while the longer vips,preorganized within the cavity,underwent efficient cyclization,resulting in significant differences in reaction kinetics.Furthermore,electrostatic potential fields played a critical role in modulating reaction rates,with the positively charged cavitand accelerating the reaction more efficiently compared to its negatively charged counterpart,likely due to stabilization of the anionic transition state.This study provides an effective strategy for designing enzymemimetic nanoreactors through the utilization of well-defined nanospaces.
基金financially supported by the National Natural Science Foundation of China(No.22207066)Taishan Scholars Program of Shandong Province(No.TS201712065)+2 种基金the Academic Promotion Program of Shandong First Medical University(No.2019QL009)the Science and Technology Funding from Jinan(No.2020GXRC018)the Traditional Chinese Medicine Science and Technology Project of Shandong Province(No.Q-2022142)。
文摘Constructing high-performance nanozymes for specific biomolecules is crucial but challenging for practical applications and fundamental research.Herein,through the examination of the catalytic reaction paths of natural nicotinamide adenine dinucleotide(NADH)oxidase(NOX),a novel and efficient single-atom rhodium catalyst(Rh1/NC)was developed to mimic NOX.The Rh_(1)/NC demonstrated the ability to catalyze the dehydrogenation of NADH and transfer electrons to O_(2)to generate H_(2)O_(2)through the typical two-electron pathway.Furthermore,our findings revealed that Rh_(1)/NC exhibits the ability to catalyze the conversion of produced H_(2)O_(2)into OH under mildly acidic conditions.This process amplifies the oxidation of NADH,showcasing NADH peroxidase-like activity(NPx-like).As a paradigm,this unique dual enzyme-like property of Rh_(1)/NC with a positive feedback effect holds significance in disrupting cancer cellular homeostasis.Rh_(1)/NC can effectively consume NADH via cascade biocatalytic reactions within cancer cells,further triggering the elevation of reactive oxygen species(ROS),leading to impaired oxidative phosphorylation and decreased mitochondrial membrane potential,thus damaging the adenosine triphosphate(ATP)synthesis.The resulting'domino effect'interferes with the energy metabolism homeostasis of cancer cells,ultimately promoting cell apoptosis.This study provides potential guidance for the rational design of materials with greater capabilities.
文摘A novel type of palladium-catalyzed cascade cyclization-coupling reaction has been found. Reaction of N, N-diallylbenzoylamide 1 with benzyl halides 2 afforded the corresponding dihydropyrroles 3 in moderate to excellent yields.
基金National Natural Science Foundation of China(NSFC,Nos.21772032,21877206,and 22101074)the 111 Project(No.D17007)+3 种基金Excellent Youth Foundation of Henan Scientific Committee(No.222300420012)China Postdoctoral Science Foundation(No.2019M660173)the Natural Science Foundation of Henan Province(No.202300410233)Henan Key Laboratory of Organic Functional Molecules and Drug Innovation for financial support。
文摘Bridged polycyclic lactams are important structural units in organic functional materials,natural products,and pharmaceuticals.A flexible and efficient anion cascade reaction was developed for the preparation of bridged polycyclic lactams from readily available malonamides and 1,4‑dien-3-ones.Various highly substituted bridged polycyclic lactams were synthesized in good to excellent yields by tandem nucleophilic sequences in the presence of t BuOK in commercially available EtOH solvent at 60℃.Notably,the simple reactions can be run on a gram scale.Mechanistically,bis-Michael addition reaction and hemiaminalization reactions are involved in the tandem transformation.
基金the National Key Technology R&D Program‘‘New Drug Innovation’’of China(No.2013ZX09402103)
文摘A novel and efficient approach for the straightforward synthesis of biologically significant acenaphtho[1,2-b]quinoline derivatives in good yields utilizing CuI as a catalyst with a broad array of substrates has been developed. The strategy features as a CuI-catalyzed cascade reaction involving the formation of two new C–C bonds and one new C–N bond with high atom economy. A proposed mechanism for the reaction is described.
基金the National Key R&D Program of China (2019YFC1905303, 2018YFB1501600)the National Natural Science Foundation of China (21908218, 21872139)DICP Grant (I201944) for providing financial support to do this scientific research。
文摘The access to high-density hydrocarbon fuels from biomass for the reduction of dependence on fossil resources has been a research highlight in recent years. It is well known that cycloalkanes are the components of fuels with higher energy density than straight or branched alkanes. Herein, we developed a new catalytic pattern to synthesize dimethyltetradecahydroanthracenes(DMTHA), a kind of tricyclic alkane, from biomass-derived isoprene and p-benzoquinone via a cascade Diels-Alder reaction followed by a hydrodeoxygenation reaction. Vanadium supported on titanium dioxide(V-TiO_(2)) was applied to catalyze the cascade Diels-Alder reaction and it was disclosed that V with appropriate V^(4+)/V^(5+) ratio on the surface of TiO_(2) could activate quinones. Experimental tests showed that the heating value of final products was up to 45.7 MJ/kg. The development of new high-density fuel molecules is a long-term trend for the future renewable and sustainable fuel energy application.
基金financially supported by the Natural Science Foundation of China(Nos.21302135 and 21272169)Taizhou Science & Technology program(No.111ZD02)
文摘An efficient method has been developed for the cascade synthesis of azo[1,2-a]indolones from azoles and2-fluoroaldehydes based on an iron-catalyzed SNAr and a direct acylation reaction.A number of azo[1,2-a]indolones containing different azole rings and substituents were obtained in good yields.
