Stereoselective Synthesis of Tetrahydroindolizines through the Catalytic Formation of Pyridinium Ylides from Diazo Compounds

Day, Jonathan; McKeever‐Abbas, Ben; Dowden, James

doi:10.1002/anie.201511047

Cited by 69 publications

(26 citation statements)

References 33 publications

(49 reference statements)

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“…Importantly, catalyst loadings as low as 0.01 mol‐% could be used (Scheme b). The Dowden group reported In 2016 on the iron‐catalyzed ylide formation of ethyl diazoacetate with N ‐heterocycles, which undergo a subsequent [2+3] cycloaddition reaction with dipolarophiles yielding important indolizidine heterocycles (Scheme d) . Despite these advances, enantioselective applications using organometallic iron complexes remained elusive and the application of engineered enzymatic catalysts should theoretically enable asymmetric rearrangement reactions.…”

Section: Applications Of Iron Catalysts In Carbene Transfer Reactionsmentioning

confidence: 99%

Iron‐porphyrin Catalyzed Carbene Transfer Reactions – an Evolution from Biomimetic Catalysis towards Chemistry‐inspired Non‐natural Reactivities of Enzymes

Weissenborn

Koenigs

2020

ChemCatChem

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Bioinspired, synthetic porphyrin complexes are important catalysts in organic synthesis and play a pivotal role in efficient carbene transfer reactions. The advances in this research area stimulated recent, “chemo‐inspired” developments in biocatalysis. Today, both synthetic iron complexes and enzymes play an important role to conduct carbene transfer reactions. The advances and potential developments in both research areas are discussed in this concept article.

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Section: Applications Of Iron Catalysts In Carbene Transfer Reactionsmentioning

confidence: 99%

Iron‐porphyrin Catalyzed Carbene Transfer Reactions – an Evolution from Biomimetic Catalysis towards Chemistry‐inspired Non‐natural Reactivities of Enzymes

Weissenborn

Koenigs

2020

ChemCatChem

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“…The 1,3-dipolar cycloaddition of pyridinium ylides with electrophilic alkenes was recently applied by Dowden and co-authors [107,108] to the synthesis of tetrahydroindolizidines. In the first paper [107], pyridinium ylides were generated in situ by a reaction of the corresponding pyridinium salt, using triethylamine as the base in dichloromethane (DCM), and then reacted with 3-alkenyloxindoles, obtaining the desired products in good or very good yields (Scheme 30).…”

Section: Pyridinium Ylidesmentioning

confidence: 99%

“…The resulting cycloadducts showed the same relative stereochemistry of biologically active oxindole alkaloids, especially isorhynchophylline and strychnofoline. Shortly after [108], the same group reported the generation of pyridinium ylides via metallocarbenes instead of the typically employed methodology, namely the deprotonation of the corresponding salts, avoiding the production of a stoichiometric amount of the conjugate-acid waste and the alkylation step of the pyridine derivatives.…”

Section: Pyridinium Ylidesmentioning

confidence: 99%

Nucleophilic Dearomatization of Activated Pyridines

2018

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Amongst nitrogen heterocycles of different ring sizes and oxidation statuses, dihydropyridines (DHP) occupy a prominent role due to their synthetic versatility and occurrence in medicinally relevant compounds. One of the most straightforward synthetic approaches to polysubstituted DHP derivatives is provided by nucleophilic dearomatization of readily assembled pyridines. In this article, we collect and summarize nucleophilic dearomatization reactions of - pyridines reported in the literature between 2010 and mid-2018, complementing and updating previous reviews published in the early 2010s dedicated to various aspects of pyridine chemistry. Since functionalization of the pyridine nitrogen, rendering a (transient) pyridinium ion, is usually required to render the pyridine nucleus sufficiently electrophilic to suffer the attack of a nucleophile, the material is organized according to the type of N-functionalization. A variety of nucleophilic species (organometallic reagents, enolates, heteroaromatics, umpoled aldehydes) can be productively engaged in pyridine dearomatization reactions, including catalytic asymmetric implementations, providing useful and efficient synthetic platforms to (enantioenriched) DHPs. Conversely, pyridine nitrogen functionalization can also lead to pyridinium ylides. These dipolar species can undergo a variety of dipolar cycloaddition reactions with electron-poor dipolarophiles, affording polycyclic frameworks and embedding a DHP moiety in their structures.

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“…[11,16] Typical synthetic approaches to these products include cyclizations with synthetic pyridine or pyrrole derivatives, [17][18][19] substitution on preformed indolizines, [20] or 1,3-dipolar cycloaddition with pyridinium ylides. [21] 2 can be considered as tabilized, mesoionic analogue to these latter 1,3-dipoles,and offers the ability to incorporate ar ange of aryl, heteroaryl and alkyl units into the 3-indolizine position from simple imines.Asan illustration of the utility of this approach, ester-substituted indolizines such as 5 (Scheme 3) has been shown by Lan and Yout ob es trong blue emitting materials of use in fluorescence imaging. [20a] In contrast to its synthesis by substitution [a] 2 formed as in Table 2 on pre-synthesized indolizines, 5 can be directly generated from 3a,animine and an alkyne.Inaddition to forming 5,the systematic tuning of each the substrates can in principle allow access to arange of new variants of these products,and from reagents that are either commercially available (e.g.…”

Section: As Illustrated Inmentioning

confidence: 99%

Development and Cycloaddition Reactivity of a New Class of Pyridine‐Based Mesoionic 1,3‐Dipole

et al. 2016

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We describe here the development and structural characterization of an ew type of mesoionic 1,3-dipole,w hich can be generated in the one-step reaction of imines with pyridine-or quinoline-based acid chlorides.C oupling the formation of these dipoles with alkyne cycloaddition can open ag eneral and modular route to synthesize indolizines from combinations of available and diversifiable building blocks.

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Stereoselective Synthesis of Tetrahydroindolizines through the Catalytic Formation of Pyridinium Ylides from Diazo Compounds

Cited by 69 publications

References 33 publications

Iron‐porphyrin Catalyzed Carbene Transfer Reactions – an Evolution from Biomimetic Catalysis towards Chemistry‐inspired Non‐natural Reactivities of Enzymes

Iron‐porphyrin Catalyzed Carbene Transfer Reactions – an Evolution from Biomimetic Catalysis towards Chemistry‐inspired Non‐natural Reactivities of Enzymes

Nucleophilic Dearomatization of Activated Pyridines

Development and Cycloaddition Reactivity of a New Class of Pyridine‐Based Mesoionic 1,3‐Dipole

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