Letters
Acid-Promoted Carbosulfenylation of 1,6-Dienes: Selective Synthesis of Dehydropiperidines Scaffolds
Arunachalam Kesavan - ,
Akshaya Kumar Sahu - , and
Pazhamalai Anbarasan *
An efficient method for the acid-catalyzed carbosulfenylation of 1,6-diene has been achieved employing N-(aryl/alkylthio)succinimides as a thiolating reagent. The reaction involves the generation of an episulfonium ion followed by intramolecular trapping with alkenes, which offers access to diverse thiolated dehydropiperidines in good yield. In addition, the synthesis of dihydropyran and cyclohexene derivatives, as well as the conversion of the arylthiol moiety to useful functional groups, were also demonstrated.
Cascade C–H Activation and Defluorinative Annulation of 2-Arylbenzimidazoles with α-Trifluoromethyl-α-diazoketones: Modular Assembly of 6-Fluorobenzimidazo[2,1-a]isoquinolines
Zhongkang Dong - ,
Hengzhi Zhang - ,
Baiquan Wang - , and
Bin Li *
A novel Ru-catalyzed redox-neutral [4+2] cyclization of 2-arylbenzimidazoles with α-trifluoromethyl-α-diazoketones has been achieved through sequential C–H activation and defluorinative annulation. This synthetic protocol unlocks modular and expeditious access to 6-fluorobenzimidazo[2,1-a]isoquinolines with high efficiency and excellent functional group compatibility. The resultant monofluorinated heterocyclic products can readily diversified by various nucleophiles.
Chemo- and Diastereoselective Synthesis of Spirooxindole-pyrazolines and Pyrazolones via P(NMe2)3-Mediated Substrate-Controlled Annulations of Azoalkenes with α-Dicarbonyl Compounds
Yunfeng Du - ,
Yuefei Liu - ,
Hongyu Guo *- ,
Rongfang Liu *- , and
Rong Zhou *
P(NMe2)3-mediated substrate-controlled annulations of azoalkenes with α-dicarbonyl compounds are reported, where the azoalkenes serve as either four or five-atom synthons chemoselectively. The azoalkene participates in annulation with isatins as a four-atom synthon to furnish the spirooxindole-pyrazolines, whereas it functions as a novel five-atom synthon in annulation with aroylformates, thereby leading to chemo- and stereoselective formation of pyrazolones. The synthetic utilities of the annulations have been demonstrated, and a novel TEMPO-mediated decarbonylation reaction is unveiled.
Regioselective Alkenylation of Five-Membered Heteroarenes via a Dual 1,3-Sulfur Rearrangement
Jia Li - ,
Mingming Mao - ,
Kang Dong - ,
Rui-Peng Li - ,
Xi Chen - , and
Shouchu Tang *
Herein, we report a protocol for the stereoselective C–H alkenylation of five-membered heteroarenes including pyrroles (containing free NH pyrrole), thiophenes, and furans with 1,3-dithiane derivatives through dual 1,3-sulfur rearrangements. The site-selective and regioselective alkenylation of the five-membered heteroarenes proceeded in good yields via vinyl thionium ions to produce C2 or C5 Heck-type products, respectively.
Asymmetric Synthesis of Bicyclic Isoxazolines via Dearomative Cycloaddition of 4-Nitroisoxazoles with Zwitterionic π-Allyl Palladium Species
Taiki Morita - ,
Non Ito - , and
Hiroyuki Nakamura *
Enantioselective dearomative cycloadditions of 4-nitroisoxazoles with vinylethylene carbonate (2) proceeded in the presence of Pd2(dba)3 and (S)-DTBM-SEGPHOS to give the corresponding bicyclic isoxazolines 3 and 4 in good to high yields with excellent enantioselectivities (≤99% ee). This synthetic approach could be applied to N-tosyl vinyl aziridine and 2-methylidenetrimethylene carbonate. Further transformations of the resulting cycloadducts 4a and 4i yielded not only its derivatives 10 and 11 but also the novel tetracyclic skeleton 12.
Selective Cleavage of Lignin Model Compounds via a Reverse Biosynthesis Mechanism
Sang Mi Suh - ,
Subramanian Jambu - ,
Mason T. Chin - , and
Tianning Diao *
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Selective depolymerization of lignin remains a significant challenge in biomass conversion. The biosynthesis of lignin involves the polymerization of monolignol building blocks through oxidative radical coupling reactions. A strategy for lignin degradation leverages photoredox deoxygenative radical formation to trigger reverse biosynthesis, which cleaves model compounds of the β-O-4 and β-5-β-O-4 linkages to produce monolignols, precursors to flavoring compounds. This mild method preserves important oxygen functionality and serves as a platform for achieving selective lignin depolymerization.
N-Difluoromethylthiophthalimide Reagents for Modular Synthesis of Diversified α-Difluoromethylthiolated Ketones
Junqing Liang - ,
Wen Fu - ,
Lefeng Dong - ,
Cong Zhou - ,
Qinglong Yuan - ,
Wenning Chang - ,
Wu-Lin Yang *- ,
Xiaoyong Xu - ,
Xusheng Shao - , and
Zhong Li *
The compounds featuring α-difluorothiomethylated ketone skeleton derivatives are of particular interest in pharmaceuticals and agrochemicals. Herein, we designed novel electrophilic N-difluoromethylthiophthalimide reagents that can be easily prepared with commercially available and economical chemicals. These reagents could smoothly react with various nucleophiles, such as Grignard reagents, boronic acids, β-keto esters, and anilines, which affords structurally diverse α-difluoromethylthiolated ketones in good to excellent yields. The formal synthesis of active antifungal compounds positively confirmed the practicability of these reagents.
Gold(I)-Catalyzed Regioselective Hydroarylation of Propiolic Acid with Arylboronic Acids
Kolimi Sayyad Basha - and
Rengarajan Balamurugan *
A gold-catalyzed intermolecular hydroarylation involving arylboronic acid has been disclosed. This carboxylic acid-directed arylation is highly regioselective and occurs at the less electrophilic carbon to afford α-aryl acrylic acids in attractive yields. This protocol offers easy access to NSAID precursors.
Atroposelective Synthesis of N–N Axially Chiral Bipyrroles via Rhodium-Catalyzed C–H Insertion Reaction
Changkai Wang - and
Jiangtao Sun *
An atroposelective synthesis of bipyrroles with an axially chiral N–N bond has been established via a rhodium-catalyzed C–H bond insertion reaction to provide the desired atropisomers in good yields (up to 97% yield) with good to excellent enantioselectivities (up to 99% ee).
Central-to-Axial Chirality: Asymmetric Organocatalytic Synthesis of Axially Chiral Chalcones via Exocyclic Dihydronaphthalenes
Ankit Yadav - ,
Mamta Gill - , and
Vinod K. Singh *
Asymmetric synthesis of an unprecedented exocyclic dihydronaphthalene and an axially chiral naphthalene chalcone has been disclosed. Good to excellent asymmetric induction is achieved. The success is attributed to the unusual formation of exocyclic dihydronaphthalene, which plays a crucial role in ensuring axial chirality. This is the first report of exocyclic molecules capable of enabling the synthesis of axially chiral chalcones via stepwise asymmetric vinylogous domino double-isomerization using secondary amine catalysis.
Chiral Discrimination of Nitrile Compounds Using a 19F-Labeled Palladium Probe
Guangxing Gu - ,
Yue Yue - ,
Chenyang Wang - ,
Wei Zhang - ,
Jian Wu - ,
Ya Li *- , and
Yanchuan Zhao *
This study presents a 19F-labeled cyclopalladium probe for the rapid discrimination of chiral nitriles in pharmaceuticals, natural products, and agrochemicals. The probe binds reversibly to chiral nitriles, generating distinct 19F nuclear magnetic resonance signals for each enantiomer and enabling quick determination of enantiocomposition. The method allows for simultaneous detection of seven pairs of enantiomeric nitriles and application in assessing the enantiomeric excess of an asymmetric C–H cyanation reaction.
Synthetic Analogs of the Sponge Sesterterpenoid Alotaketal C are Potent Inhibitors of SARS-CoV-2 Omicron BA.1 and BA.5 Infections of Human Lung Cells
Polina Blagojevic - ,
Jimena Perez-Vargas - ,
Kunzhong Jian - ,
David E. Williams - ,
Ivan Villanueva - ,
Connor A. H. Thompson - ,
Siobhan Ennis - ,
Masahiro Niikura - ,
Ian Tietjen - ,
François Jean *- , and
Raymond J. Andersen *
The protein kinase C-activating sponge natural product alotaketal C (1) potently inhibits the infection of human Calu-3 lung cells by SARS-CoV-2 Omicron BA.1 and BA.5 variants. Simplified analogs of 1 have been synthesized and tested for anti-SARS-CoV-2 activity providing SAR data for the antiviral pharmacophore of 1. Analogs 19 and 23, which are missing the C-11 substituents in 1 and have modified C-13 appendages, are ∼2- to 7-fold more potent than 1 and have equal or larger selectivity indices.
Copper(I) Iodide Catalyzed [3 + 3] Annulation of Iodonium Ylides with Pyridinium 1,4-Zwitterionic Thiolates for the Synthesis of 1,4-Oxathiin Scaffolds
Àlex Díaz-Jiménez - ,
Stuart C. D. Kennington - ,
Anna Roglans - , and
Anna Pla-Quintana *
This publication is Open Access under the license indicated. Learn More
The selective assembly of the 1,4-oxathiin nucleus has been treated as a powerful strategy to access this scaffold present in molecules with very interesting properties. In this study, the chameleon-like reactivity of pyridinium 1,4-zwitterionic thiolates is exploited to assemble the 1,4-oxathiin core through a [3 + 3] annulation. The optimal annulation partner has been found to be the iodonium ylide of the cyclic 1,3-diketones. The developed protocol allows the synthesis of a variety of bicyclic 1,4-oxathiin derivatives under very mild conditions under copper(I) iodide catalysis. Access to benzoannulated 1,4-oxathiins has been achieved through iodine-mediated aromatization of the initially obtained bicyclic compounds.
Visible-Light-Induced Copper-Catalyzed Intermolecular Three-Component Difluoroalkyl Thiocyanidation of Alkenes
Zhaoming Hu - ,
Yanzhao Wang - ,
Kaiji Wang - ,
Jingjing Wu *- , and
Fanhong Wu *
In this report, we develop a new strategy for visible-light-induced, copper-catalyzed three-component difluoroalkyl thiocyanidation of alkenes to construct a series of important difluorothiocyanate compounds. The new approach can also be applied to perfluorothiocyanate compounds, even target molecules containing drug/natural product skeletons. Mechanistic studies provide that the copper complex plays a dual role, as both the photoredox catalyst for electron transfer and the cross-coupling catalyst for C–SCN bond formation.
Rh(III)-Catalyzed ortho-C–H Amidation of Naphthalene and Perylene Monoimides
Tapasi Chand - ,
Laxmikanta Khamari - ,
Saptarshi Mukherjee *- , and
Manmohan Kapur *
The direct formation of a C–N bond at the ortho-position of naphthalene monoimides (NMI) and perylene monoimides (PMI) is reported herein using dioxazolones as the amide source. This method affords direct access to ortho-amino NMI and PMI through an amidation and deprotection sequence. One-pot telescopic bay-bromination of ortho-amino PMIs was also achieved. The ortho-amidated NMIs and PMIs, accessed by the current methodology, show significant red shifts in their absorption and fluorescence spectra compared with the NMI and PMI alone. An improvement in the quantum yield and fluorescence lifetime was observed by the incorporation of pivalamide groups at the ortho-positions of NMI and PMI.
Construction of a Bicyclo[2.2.2]octene Skeleton via a Visible-Light-Mediated Radical Cascade Reaction of Amino Acid Derivatives with N-(2-Phenyl)benzoyl Groups
Yuki Yoshida - ,
Haruka Takeuchi - ,
Kohei Nakagawa - ,
Toshiki Fujii - ,
Norihito Arichi - ,
Shinya Oishi - ,
Hiroaki Ohno *- , and
Shinsuke Inuki *
Bridged polycyclic ring systems constitute the core structures of numerous natural products and biologically active molecules. We found that simple biphenyl substrates derived from amino acids participate in a radical cascade reaction under visible light irradiation in the presence of [Ir{dF(CF3)ppy}2(dtbpy)]PF6 to enable the direct construction of bicyclo[2.2.2]octene structures. Isotopic labeling experiments suggested that intramolecular hydrogen atom transfer is involved in the cascade processes.
Mild Installation of Piperidines on 4-Alkylpyridines
Jiaqi Shi - ,
Faizan Rasheed - ,
Dan Fishlock - , and
Arturo Orellana *
We report a mild method for the synthesis of scaffolds bearing 4-pyridine and 4-piperidine moieties joined by a substituted methylene group. The method exploits the latent nucleophilicity of 4-alkylpyridines and the inherent electrophilicity of pyridines. 4-Alkylpyridines are transformed into nucleophilic alkylidene dihydropyridines (ADHPs) through a soft enolization approach using triethyl amine and chloroformate reagents. HCl is used to promote the addition of ADHPs to pyridine, yielding an adduct bearing pyridine and protected dihydropyridine fragments. Transfer hydrogenation delivers the desired compounds in good yields.
Chemically Synthetic d-Sortase Enables Enzymatic Ligation of d-Peptides
Ruichao Ding - ,
Wei-Wei Shi - , and
Ji-Shen Zheng *
We have described the chemical synthesis of d-Sortase A in large quantity and high purity by a hydrazide ligation strategy. The d-Sortase was fully active toward d-peptides and D/L hybrid proteins, and the ligation efficiency was unaffected by the chirality of the C-terminus substrate. This study points toward using d-sortase ligation as a modern ligation method for d-proteins and D/L hybrid proteins and expands the chemical protein synthesis toolbox in biotechnology.
Modulable Photocatalyzed Strategies for the Synthesis of α-C-Glycosyl Alanine Analogues via the Giese Reaction with Dehydroalanine Derivates
Lorenzo Poletti - ,
Alessandro Massi - ,
Daniele Ragno - ,
Federico Droghetti - ,
Mirco Natali - ,
Carmela De Risi - ,
Olga Bortolini - , and
Graziano Di Carmine *
This publication is Open Access under the license indicated. Learn More
Herein, we present the α-selective Giese reaction between pyranosyl/furanosyl bromides and dehydroalanine analogues, which provides access to a library of highly valuable α-C-glycosyl alanines. The key C-glycosyl radical is generated through photocatalysis by either the new generation copper(I) complex [(DPEPhos)(bcp)Cu]PF6 or [Ru(bpy)3](BF4)2. The reactions proceed smoothly, affording the desired α-C-glycosyl alanines in up to 99% yield when diethyl 1,4-dihydro-2,6-dimethyl-3,5-pyridinedicarboxylate [Hantzsch ester (HE)] is used as an additive. N,N-Diisopropylethylamine (DIPEA) has been selected as a reductant in both protocols. A mechanistic study by means of transient absorption spectroscopy unveils a halogen-atom transfer (XAT) process in C-glycosyl radical formation.
Dual-Way-Switchable Ester Rotaxanes Constructed Using the Recognition of Malonate Diesters
Min-Xuan Zhang - ,
Hung-Te Cheng - , and
Sheng-Hsien Chiu *
Malonate diesters can thread into the cavity of a di(ethylene glycol)-containing macrocycle under the templating effect of a Na+ ion; the corresponding rotaxanes can be synthesized with good efficiency by applying several stoppering reactions. A molecular switch, in which the interlocked macrocycle was moved between two rarely used stations (i.e., malonate and TAA) through the addition of acid/base and the presence/absence of Na+ ions, was constructed using this new recognition system.
Genome-Directed Discovery of Bicyclic Cinnamoyl-Containing Nonribosomal Peptides with Anticoronaviral Activity from Streptomyces griseus
Yihong Li - ,
Xiaotian Ding - ,
Yu Du - ,
Yihua Li - ,
Weicong Ren - ,
Yuan Lu - ,
Yuanyuan Shi - ,
Hongmin Sun - ,
Lifei Wang - ,
Yuhuan Li - ,
Xingxing Li *- ,
Yunying Xie *- , and
Bin Hong *
Two novel cinnamoyl-containing nonribosomal peptides (CCNPs) grisgenomycin A and B were identified in Streptomyces griseus NBRC 13350 (CGMCC 4.5718) and ATCC 12475, through genome mining using conserved adjacent LuxR family regulators as probes and activators. Notably, grisgenomycins represent a new group of bicyclic decapeptides featuring an unprecedented C–C bond between the tryptophan carbocycle and the cinnamoyl group. A plausible biosynthetic pathway for grisgenomycins was deduced by a bioinformatics analysis. Grisgenomycins exhibited activity against human coronaviruses at the micromolar level.
N1-Allylation of Arylhydrazines via a Palladium-Catalyzed Allylic Substitution
Xiaojing Wang - ,
Xiaoshuo Wang - ,
Shubing Shu - ,
Jianchao Liu *- ,
Qi Liu - ,
Tao Wang *- , and
Zhenming Zhang *
A direct and efficient method for constructing N,N-disubstituted hydrazines via a palladium-catalyzed allylic substitution of allyl acetates with arylhydrazines as nucleophiles has been developed. This method is highly selective in terms of both chemo- and regio-selectivity and is carried out under an open-air system with the use of the DPPPy phosphine ligand. Additionally, this reaction is compatible with a wide variety of substrates, including those bearing reactive groups such as Cl, Br, and I, to afford various N1-allylation products in moderate to good yields under simple and mild reaction conditions.
Synthesis of Piperidin-4-one Derivatives via α-Imino Rhodium Carbene-Initiated 1,2-Aryl/Alkyl Migration and Annulation
Xiaojing Xu - ,
Huan Luo - ,
Jiayi Shen - ,
Jing Chen - ,
Jie Ye - ,
Ze-Feng Xu *- , and
Chuan-Ying Li *
Valuable piperidin-4-one derivatives were synthesized in excellent yields via an α-imino carbene-initiated cascade reaction involving 1,2-aryl/alkyl migration and annulation. The excellent selectivity of alkyl migration was attributed to the neighboring group participation of 2-bromoethyl. Features such as high efficiency, excellent migrating selectivity, broad substrate scope, and convenient one-pot procedure qualified this protocol as an effective tool for piperidine derivative synthesis. The product could be transformed to a bioactive molecule easily. The migration-annulation reaction of α-imino carbene provided a powerful strategy for heterocycle construction.
Total Synthesis of Racemic Thieno[3,2-f]thiochromene Tricarboxylate, a Luciferin from Marine Polychaeta Odontosyllis undecimdonta
Yaroslav V. Bolt - ,
Maxim A. Dubinnyi - ,
Veronika V. Litvinenko - ,
Alexey A. Kotlobay - ,
Olga A. Belozerova - ,
Renata I. Zagitova - ,
Vladimir I. Shmygarev - ,
Oleg N. Yatskin - ,
Elena B. Guglya - ,
Vadim S. Kublitski - ,
Mikhail S. Baranov - ,
Ilia V. Yampolsky - ,
Zinaida M. Kaskova *- , and
Aleksandra S. Tsarkova *
We report the first total synthesis of racemic Odontosyllis undecimdonta luciferin, a thieno[3,2-f]thiochromene tricarboxylate comprising a 6-6-5-fused tricyclic skeleton with three sulfur atoms in different electronic states. The key transformation is based on tandem condensation of bifunctional thiol-phosphonate, obtained from dimethyl acetylene dicarboxylate, with benzothiophene-6,7-quinone. The presented convergent approach provides the synthesis of the target compound with a previously unreported fused heterocyclic core in 11 steps, thus allowing for unambiguous confirmation of the chemical structure of Odontosyllis luciferin by 2D-NMR spectroscopy.
A Light-Promoted Innate Trifluoromethylation of Pyridones and Related N-Heteroarenes
Ashley Dang-Nguyen - ,
Kristine C. Legaspi - ,
Connor T. McCarty - ,
Diane K. Smith - , and
Jeffrey Gustafson *
This publication is Open Access under the license indicated. Learn More
We report a practical, light-mediated perfluoroalkylation using Langlois’ reagent (sodium trifluoromethylsulfinate) that proceeds in the absence of any photocatalyst or additives. This method has allowed for the facile functionalization of pyridones and related N-heteroarenes such as azaindole. This protocol is operationally simple, uses readily available materials, and is tolerable for electron-neutral and -rich functional pyridones. Cyclic voltammetry was utilized as a mechanistic probe, and preliminary data suggest the reaction may involve an electrophilic radical mechanism.
Second-Generation Total Synthesis of Prorocentin
Kenzo Yahata - ,
Raphael J. Zachmann - , and
Alois Fürstner *
This publication is Open Access under the license indicated. Learn More
After a recent total synthesis had resolved all issues surrounding the constitution and stereostructure of prorocentin, it was possible to devise a new approach aiming at an improved supply of this scarce marine natural product; this compound is a cometabolite of the prototypical phosphatase inhibitor okadaic acid but still awaits detailed biological profiling. The revised entry starts from 2-deoxy-d-glucose; keys to success were a telescoped hemiacetal reduction/acetal cleavage and an exquisitely selective gold/Brønsted acid-cocatalyzed spiroacetalization.
Synthesis of Fluorinated Pyrrolo[2,1-a]isoquinolines through Decarboxylative/Dehydrofluorinative [3 + 2] Cycloaddition Aromatization of Isoquinolinium N-Ylides with Difluoroenoxysilanes
Wenxue Xi - ,
Yiheng Zhang - ,
Haijian Wu - ,
Jinshan Li - ,
Yurong Wang *- ,
Jianguo Yang - ,
Zhiming Wang - , and
Weijun Yao *
A decarboxylative/dehydrofluorinative formal [3 + 2] cycloaddition aromatization of isoquinolinium N-ylides with difluoroenoxysilanes has been developed. This methodology provides a facile and straightforward synthetic pathway to afford highly functionalized fluorinated pyrrolo[2,1-a]isoquinolines in good to excellent yields under mild conditions. Moreover, gram-scale and synthetic derivatization experiments for the late-stage functionalization of drug molecules have also been demonstrated.
Pyrroloindoline/Pyridoindoline Synthesis via C3-Dearomative Arylation/Cyclization of Tryptamine/Homotryptamine Derivatives Using Palladium–Dihydroxyterphenylphosphine Catalyst
Miyuki Yamaguchi *- ,
Ryoya Hagiwara - ,
Hana Muto - ,
Kanami Gayama - ,
Hideyuki Konishi - , and
Kei Manabe *
A palladium–dihydroxyterphenylphosphine (DHTP) catalyst was successfully applied to the dearomative C3-arylation of tryptamine derivatives with aryl nonaflates. The intramolecular cyclization of the resulting 3,3-disubstituted indolenines afforded C3a-arylated pyrroloindolines in one pot. We postulate that the formation of complexes between the lithium salts of DHTP and the tryptamine derivative is the key to promoting selective arylation at the C3-position of the indole ring. Furthermore, reactions using homotryptamine derivatives successfully provided C4a-arylated pyridoindolines.
The O2-Mediated Cross-Dehydrogenative Coupling: Rose Bengal-Catalyzed Direct Oxidative α-Acyloxylation of Ketones
Yunsheng Zhu - ,
Shengjie Song - ,
Lijun Zheng - , and
Jianjun Li *
A general and facile approach for the direct oxidative α-acyloxylation of ketones using molecular oxygen as the oxidant is developed. This method avoids the use of excessive peroxides and expensive metal catalysts, affording a variety of α-acyloxylated ketones in satisfactory yields. Experimental studies indicate that the reaction proceeds via a radical pathway. Additionally, α-hydroxy ketones could be obtained by changing the solvent.
Approach to Seven-Membered Carbocycles via a Lewis Acid Catalyzed Intramolecular Michael Addition of Allenone
Chunyu Han - ,
Yuanye Dang - ,
Lin Mo - ,
Ruofei Zhao - ,
Zhengning Wang - , and
Junfeng Zhao *
A straightforward strategy for constructing seven-membered carbocycles by employing a Lewis acid catalyzed intramolecular Michael addition of allenones is reported. It offers atom-economic access to synthetically important furan-fused bi- or tricyclic frameworks containing seven-membered carbocycles, which are widely found in natural products possessing various bioactivities. A number of seven-membered carbocycle-containing polycyclic frameworks bearing diverse functional groups were prepared in good to excellent yields. Furthermore, the application potential of this strategy was exemplified by the construction of the key skeletons of Caribenol A and Frondosin B.
Solvent-Dependent Rhodium-Catalyzed Divergent Hydrofunctionalization of Trifluoromethylalkenes
Jun-Han Ma - ,
Philippe Jubault - ,
Samuel Couve-Bonnaire - ,
Li-Wen Xu *- , and
Jean-Philippe Bouillon *
We report a rhodium-catalyzed anti-Markovnikov regioselective hydrosilylation of trifluoromethylalkenes with substituted silanes giving various α-trifluoromethyl-β-silanes in good to excellent yields. The hydrogenation products were obtained via the same key intermediate treated with methanol as a protic solvent. Both transformations had a broad functional tolerance and were expected to facilitate the construction of complex α-trifluoromethyl compounds.
Deaminative Addition of Alkylpyridinium Salt to Aldehyde
Yu Huang - ,
Zhengqiang Liu - , and
Wenbo H. Liu *
Here we show that a primary amine can engage in the nucleophilic addition to an aldehyde to synthesize an alcohol following preactivation of the amine. The enabling reagent for this radical-polar crossover process is CrCl2. This reaction is selective for aldehydes and compatible with numerous functional groups, which are not tolerated under classical Grignard-type conditions. Complementary to the well-established imine synthesis, this deaminative alcohol synthesis can broadly expand the chemical space constructed by aldehydes and amines.
The Development of DNA-Compatible S-Glycosyl Transformations
Qingyi Zhao - ,
Yandan Bao - ,
Dawen Niu *- ,
Xuan Wang *- , and
Xiaojie Lu *
In this study, we revealed two distinct S-glycosyl transformations in a DNA-encoded library (DEL)-compatible environment. The first approach involves 2-chloro-1,3-dimethylimidazolidinium chloride (DMC)-mediated S-glycosylation, which is facilitated by the coupling of unprotected sugar units with the thiol residue of the DNA-linked compounds. However, this methodology falls short of the requirement for DEL construction due to its limited substrate scope. We further investigated a photoinduced DNA-compatible S-glycosyl transformation through a radical process. In this alternative approach, allyl sugar sulfones serve as sugar donors and are conjugated to DNA-linked compounds upon irradiation with green light. Encouragingly, this on-DNA glycosyl chemistry demonstrated excellent compatibility with functional groups presented in both sugar units and peptides, affording the desired DNA-linked glycosyl derivatives with good to excellent conversions. This pioneering DNA-compatible S-glycosyl transformation represents a valuable tool, facilitating the preparation of glycosyl DELs and offering avenues for the exploration of sugar-incorporated delivery systems.
Interrupted Click Reaction with CuCF2CF3 Reagent: Synthesis of 5-Pentafluoroethyl 1,2,3-Triazoles
Zhengjie Fu - ,
Xinkan Yang - , and
Gavin Chit Tsui *
We herein describe a three-component interrupted click reaction to synthesize novel 5-pentafluoroethyl 1,2,3-triazoles in one step from readily available terminal alkynes and azides. The key reagent [CuCF2CF3], prepared from the low-cost gas pentafluoroethane, demonstrates an orthogonal reactivity in facilitating cycloaddition rather than previously reported radical reactions. Reaction conditions are mild by using air as a green oxidant.
Iridium-Catalyzed Asymmetric Transfer Hydrogenation of 1-Aryl-1-alkylethenes with Ethanol
Xixia Tang - ,
Lu Qian - ,
Guixia Liu *- , and
Zheng Huang *
Asymmetric transfer hydrogenation of 1-aryl-1-alkylethenes with ethanol was developed with a chiral (PCN)Ir complex as the precatalyst, featuring high enantioselectivities, good functional group tolerance, and operational simplicity. The method is further applied to formal intramolecular asymmetric transfer hydrogenation of alkenols without an external H-donor, producing a tertiary stereocenter and remote ketone group simultaneously. The utility of the catalytic system was highlighted by gram scale synthesis and the synthesis of the key precursor of (R)-xanthorrhizol.
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