Single‐Flask Multicomponent Palladium‐Catalyzed α,γ‐Coupling of Ketone Enolates: Facile Preparation of Complex Carbon Scaffolds

A three‐component palladium‐catalyzed reaction sequence has been developed in which γ‐substituted α,β‐unsaturated products are obtained in a single flask by an α‐alkenylation with either a subsequent γ‐alkenylation or γ‐arylation of a ketone enolate. Coupling of a variety of electronically and structurally different components was achieved in the presence of a Pd/Q‐Phos catalyst (2 mol %), usually at 22 °C with yields of up to 85 %. Most importantly, access to these products is obtained in one simple operation in place of employing multiple reactions.     

Synthesis of Strained γ‐Lactams by Palladium(0)‐Catalyzed C(sp3)−H Alkenylation and Application to Alkaloid Synthesis

A variety of strained α‐alkylidene‐γ‐lactams were synthesized by palladium(0)‐catalyzed intramolecular C(sp³)?H alkenylation from easily accessible acyclic and monocyclic bromoalkene precursors. These lactams are valuable intermediates for accessing various classes of mono‐ and bicylic alkaloids containing a pyrrolidine ring, as illustrated with the synthesis of an advanced model of the marine natural product plakoridine A and of the indolizidine alkaloid δ‐coniceine.     

Synthesis of ent‐Ketorfanol via a C–H Alkenylation/Torquoselective 6π Electrocyclization Cascade

The asymmetric synthesis of ent‐ketorfanol from simple and commercially available precursors is reported. A Rh^I‐catalyzed intramolecular C? H alkenylation/torquoselective 6π electrocyclization cascade provides a fused bicyclic 1,2‐dihydropyridine as a key intermediate. Computational studies were performed to understand the high torquoselectivity of the key 6π electrocyclization. The computational results demonstrate that a conformational effect is responsible for the observed selectivity. The ketone functionality and final ring are introduced in a single step by a redox‐neutral acid‐catalyzed rearrangement of a vicinal diol to give the requisite carbonyl, followed by intramolecular Friedel–Crafts alkylation.     

Pd(II)‐Catalyzed Tandem Enantioselective Methylene C(sp3)−H Alkenylation–Aza‐Wacker Cyclization to Access β‐Stereogenic γ‐Lactams

Herein, we describe an unprecedented cascade reaction to β‐stereogenic γ‐lactams involving Pd(II)‐catalyzed enantioselective aliphatic methylene C(sp³)?H alkenylation–aza‐Wacker cyclization through syn‐aminopalladation. Readily available 3,3′‐substituted BINOLs are used as chiral ligands, providing the corresponding γ‐lactams with broad scope and high enantioselectivities (up to 98 % ee).     

Efficient Synthesis of Pyrrolo[2,1‐a]isoquinoline and Pyrrolo[1,2‐a]quinoline Derivatives via One‐pot Two‐step Metal‐catalyzed Three‐component Reactions

A sequential one‐pot two‐step reaction for efficient synthesis of pyrrolo[2,1‐a]isoquinoline and pyrrolo[1,2‐a]quinoline derivatives in good yields has been successfully developed. The reaction included firstly Cu‐catalyzed three‐component reaction of isoquinoline (quinoline), acetylenedicarboxylate and alkynylbenzene and then Pd‐catalyzed intramolecular C(sp)‐C(sp²) coupling reaction of initially formed 1‐alkenyl‐2‐alkynyl‐1,2‐dihydroisoquinoline (1,2‐dihydroquinoline).     

Synthesis of Chiral β‐Lactams by Pd‐Catalyzed Enantioselective Amidation of Methylene C(sp3)–H Bonds

A Pd(II)‐catalyzed enantioselective intramolecular amidation of both benzylic and unbiased methylene C(sp³)?H bonds for the straightforward synthesis of chiral β‐lactams from aliphatic carboxamides is reported. The combination of 2‐pyridinylisopropyl (PIP) auxiliary with 3,3’‐substituted BINOL ligands is crucial for the enhancement of both reactivity and enantiocontrol of differentiating unbiased methylene C(sp³)?H bonds. The desired chemoselective C—N reductive elimination was achieved by employing 2‐fluoro‐1‐iodo‐4‐nitrobenzene as oxidant.     

Visible‐Light‐Induced Palladium‐Catalyzed Generation of Aryl Radicals from Aryl Triflates

A mild visible‐light‐induced Pd‐catalyzed intramolecular C?H arylation of amides is reported. The method operates by cleavage of a C(sp²)?O bond, leading to hybrid aryl Pd‐radical intermediates. The following 1,5‐hydrogen atom translocation, intramolecular cyclization, and rearomatization steps lead to valuable oxindole and isoindoline‐1‐one motifs. Notably, this method provides access to products with readily enolizable functional groups that are incompatible with traditional Pd‐catalyzed conditions.     

Synthesis of Tetracyclic Analogues of Calcitriol (1α,25‐Dihydroxyvitamin D3) with Side‐Chain‐Locked Spatial Orientations at C(20)

We present our first results on the synthesis of a new class of conformationally restricted vitamin D analogues bearing an extra five‐membered ring formed by linking C(18) and C(21). Two analogues of calcitriol ( 1 ) with unsaturations at the extra ring and the lateral chain were prepared. The triene system was introduced by the convergent Wittig Horner approach developed by Lythgoe [8] and F. Hoffmann‐La Roche [9]. The key steps in the preparation of the requisite fragments were: i) the long‐distance functionalization of ketal 11 at C(18), ii) the ring closure on 15 through an intramolecular aldol condensation to give the α,β‐unsaturated ketone 10 , and iii) the Pd‐catalyzed installation of the side chains.     

Palladium(II)‐Catalyzed Tandem Synthesis of Acenes Using Carboxylic Acids as Traceless Directing Groups

A straightforward synthetic strategy for generating useful anthracene derivatives was developed involving palladium(II)‐catalyzed tandem transformation with carboxylic acids as traceless directing groups. Carboxyl‐directed C‐H alkenylation, carboxyl‐directed secondary C‐H activation and rollover, intramolecular C?C bond formation, and decarboxylative aromatization are proposed as the key steps in the tandem reaction pathway. This novel synthetic route utilizes a broad range of substrates and provides a convenient synthetic tool that allows access to acenes.     

Pd0‐Catalyzed Intramolecular α‐Arylation of Sulfones: Domino Reactions in the Synthesis of Functionalized Tetrahydroisoquinolines

A new strategy for the synthesis of tetrahydroisoquinolines based on the Pd⁰‐catalyzed intramolecular α‐arylation of sulfones is reported. The combination of this Pd‐catalyzed reaction with intermolecular Michael and aza‐Michael reactions allows the development of two‐ and three‐step domino processes to synthesize diversely functionalized scaffolds from readily available starting materials.     

Alkenylation of C(sp3)−H Bonds by Zincation/Copper‐Catalyzed Cross‐Coupling with Iodonium Salts

α‐Vinylation of phosphonates, phosphine oxides, sulfones, sulfonamides, and sulfoxides has been achieved by selective C?H zincation and copper‐catalyzed C(sp³)?C(sp²) cross‐coupling reaction using vinylphenyliodonium salts. The vinylation transformation proceeds in high efficiency and stereospecificity under mild reaction conditions. This zincative cross‐coupling reaction represents a general alkenylation strategy, which is also applicable for α‐alkenylation of esters, amides, and nitriles in the synthesis of β,γ‐unsaturated carbonyl compounds.     

Rhodium(III)‐Catalyzed Intramolecular Redox‐Neutral Annulation of Tethered Alkynes: Formal Total Synthesis of (±)‐Goniomitine

A Rh^III‐catalyzed intramolecular redox‐neutral atom‐economic annulation of a tethered alkyne has been developed to efficiently construct 2‐amidealkyl indoles with completely reversed regioselectivity by a C?H activation pathway. Furthermore, using the Rh^III‐catalyzed C?H activation/annulation as a key step, a one‐pot synthesis of pyrido[1,2‐a]indoles has also been developed and applied to a highly efficient formal total synthesis of (±)‐goniomitine.     

A Convergent Synthetic Strategy towards Oligosaccharides containing 2,3,6‐Trideoxypyranoglycosides

A de novo synthetic strategy for the production of oligosaccharides containing 2,3,6‐trideoxypyranoglycoside is reported. The key event is the Pd‐catalyzed asymmetric diastereoselective hydroalkoxylation of ene‐alkoxyallene‐linked glycosidic fragments. The utility of this approach was demonstrated by the activation‐free, stereodivergent, and convergent synthesis of various 2‐deoxyoligosaccharides, as well as their aglycon conjugates.     

Pd(0)‐Catalyzed Direct C−H Functionalization of 2‐H‐4‐Benzylidene Imidazolones: Friendly and Large‐Scale Access to GFP and Kaede Protein Fluorophores

The first one‐pot synthesis of N‐substituted 2‐H‐4‐benzylidene imidazolones and their subsequent palladium‐catalyzed and copper‐assisted direct C2?H arylation and alkenylation with aryl‐ and alkenylhalides are described. This innovative synthesis is step‐economical, azide‐free, high yielding, highly flexible in the introduction of a variety of electronically different groups, and can be operated on large‐scale. Moreover, the method allows direct access to C2‐arylated or alkenylated imidazolone‐based green fluorescent protein (GFP) and Kaede protein fluorophores, including ortho‐hydroxylated models.     

Electrochemical Palladium‐Catalyzed Intramolecular C—H Amination of 2‐Amidobiaryls for Synthesis of Carbazoles

The synthesis of carbazoles based on the electrochemical Pd‐catalyzed intramolecular C—H amination of 2‐amidobiaryls through oxidative cross coupling has been achieved under mild reaction conditions. The reaction can be carried out in undivided cell without the addition of external chemical oxidant. Besides good functional group compatibility, the desired carbazoles can be scaled up and modified easily. Compared with previous methods, this protocol affords a simple and sustainable avenue for the construction of carbazoles.     

Asymmetric Total Syntheses of (−)‐α‐Lycorane, (−)‐Zephyranthine,and Formal Synthesis of (+)‐Clivonine

An asymmetric route to (−)‐α‐lycorane and (−)‐zephyranthine, and a formal total synthesis of (+)‐clivonine were achieved. A pivotal intermediate, which serves as a potent precursor for the divergent syntheses of these natural products, was accessed by a diastereoselective Pd‐catalyzed cinnamylation of an N ‐tert ‐butanesulfinyl imine.     

Asymmetric Total Synthesis of (−)‐Maoecrystal V

The asymmetric total synthesis of (?)‐maoecrystal V, a novel cytotoxic pentacyclic ent‐kaurane diterpene, has been accomplished. Key steps of the current strategy involve an early‐stage semipinacol rearrangement reaction for the construction of the C10 quaternary stereocenter, a rhodium‐catalyzed intramolecular O?H insertion reaction, and a sequential Wessely oxidative dearomatization/intramolecular Diels–Alder reaction to forge the pentacyclic framework of maoecrystal V.     

Enantioselective Total Synthesis of (+)‐Steenkrotin A and Determination of Its Absolute Configuration

The first enantioselective total synthesis of (+)‐steenkrotin A has been achieved in 18 steps and 4.2 % overall yield. The key features of the strategy entail a Rh‐catalyzed O?H bond insertion followed by an intramolecular carbonyl‐ene reaction, two sequential SmI₂‐mediated Ueno–Stork and ketyl–olefin cyclizations, and a cascade intramolecular aldol condensation/vinylogous retro‐aldol/aldol process with inversion of the relative configuration at the C7 position. The absolute configuration of (+)‐steenkrotin A was determined based on the stepwise construction of the stereocenters during the total synthesis.     

Enantioselective Pd‐Catalyzed Allylic Alkylation Reactions of Dihydropyrido[1,2‐a]indolone Substrates: Efficient Syntheses of (−)‐Goniomitine, (+)‐Aspidospermidine,and (−)‐Quebrachamine

The successful application of dihydropyrido[1,2‐a]indolone (DHPI) substrates in Pd‐catalyzed asymmetric allylic alkylation chemistry facilitates rapid access to multiple alkaloid frameworks in an enantioselective fashion. Strategic bromination at the indole C3 position greatly improved the allylic alkylation chemistry and enabled a highly efficient Negishi cross‐coupling downstream. The first catalytic enantioselective total synthesis of (?)‐goniomitine, along with divergent formal syntheses of (+)‐aspidospermidine and (?)‐quebrachamine, are reported herein.     

Enantioselective Pd‐Catalyzed Allylic Alkylation Reactions of Dihydropyrido[1,2‐a]indolone Substrates: Efficient Syntheses of (−)‐Goniomitine, (+)‐Aspidospermidine,and (−)‐Quebrachamine

The successful application of dihydropyrido[1,2‐a]indolone (DHPI) substrates in Pd‐catalyzed asymmetric allylic alkylation chemistry facilitates rapid access to multiple alkaloid frameworks in an enantioselective fashion. Strategic bromination at the indole C3 position greatly improved the allylic alkylation chemistry and enabled a highly efficient Negishi cross‐coupling downstream. The first catalytic enantioselective total synthesis of (−)‐goniomitine, along with divergent formal syntheses of (+)‐aspidospermidine and (−)‐quebrachamine, are reported herein.