An Update on Direct C–H Bond Functionalization of Nitrogen-Containing Fused Heterocycles

Aziz, Jessy; Piguel, Sandrine

doi:10.1055/s-0036-1590859

Cited by 25 publications

(11 citation statements)

References 71 publications

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“…Aziz and Piguel, in their mini-review published in 2017, studied C-H arylations of heterocycles, in which imidazo[1,2-a]pyrimidines played a major role. Some examples were provided (43). (See Figures 45-54).…”

Section: Review About C-h Arylationmentioning

confidence: 99%

Formation and Uses of Imidazo[1,2-a]pyrimidines and Related Compounds: A Review Comprising Years 2000-2021

Kobak

Akkurt

2022

Journal of the Turkish Chemical Society Section A: Chemistry

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Section: Review About C-h Arylationmentioning

confidence: 99%

Formation and Uses of Imidazo[1,2-a]pyrimidines and Related Compounds: A Review Comprising Years 2000-2021

Kobak

Akkurt

2022

Journal of the Turkish Chemical Society Section A: Chemistry

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“…In early years, most of the functionalization reactions of imidazo[1, 2‐ a ]pyridine are palladium and copper based catalytic systems to form C−C,C−S,C−Se,C−N,C−P bonds at C‐3 position [32,33] . However with contemporary developments, a variety of transition metals are used for C−H functionalization at different positions of imidazopyridine scaffold [34] . The carbon‐carbon and carbon‐heteroatom bond formation of imidazo[1, 2‐ a ]pyridine is carried out by transition metal‐based catalysts (Pd, Cu, Rh, Fe, V, Ru, Ir, Co, Mn, Zn), metal‐free catalysts (PIDA, iodine, DEAD, DMAP, etc.)…”

Section: Functionalization Reactions Of Imidazo[1 2‐a]pyridinementioning

confidence: 99%

Recent Developments in Transition‐Metal‐Catalyzed Regioselective Functionalization of Imidazo[1, 2‐a]pyridine

Konwar

Bora

2021

ChemistrySelect

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Imidazo[1,2‐a]pyridine is an important nitrogen‐containing heterocycle from biological as well as pharmaceutical point of view. In recent years, regioselective functionalization of C−H bond of imidazo[1,2‐a]pyridine is extensively carried out using various transition metal‐based catalysts. Alkenylation, arylation, dual dehydrogenative annulations, formylation, thiolation, aminomethylation, dicarbonylation, phosphonylation along with other significant reactions are the progress in the field of functionalization of imidazopyridine. Most of these functionalizations are done at the C‐3 position of imidazo[1,2‐a]pyridine scaffold and in addition to that development towards C‐5 regioselectivity is also available. In this review, our aim is to present the recent advances for the functionalization of imidazo[1,2‐a]pyridine employing transition metal catalysts under significant reaction conditions.

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“…Natural heterocycles or their derivatives have attracted extensive attention because of their diverse biological activities. − Several heterocycles synthesized in laboratories have successfully passed clinical trials and have been used as approved drugs. − Hence, increasing efforts have been devoted to the development of concise synthetic routes to generate new bioactive heterocycles. − As a preferred strategy, direct selective C–H bond functionalization has been adopted in heterocyclic chemistry. − However, it is still challenging to control the regio- and stereoselectivity in the synthesis of heterocycles. − Cytochrome P450s (P450s) are versatile monoxygenases that can directly activate inert C–H bonds effectively, generating new skeletons with diversified bioactivities. − Actually, owing to the highly active catalytic intermediates and relaxed substrate specificity, except for the major products, P450s also can generate other novel heterocycle structures as the minor product, which also exhibited a potentially considerable pharmaceutical effect. ,− However, as the minor product, the biocatalysis of reactions leading to those minor heterocycles with novel structures is still difficult, also hindering their opportunities for drug discovery development.…”

Section: Introductionmentioning

confidence: 99%

Kinetic Solvent Isotope Effect in P450-Mediated Cyclization in Indolactams: Evidence for Branched Reactions and Guide for Their Modulation in Heterocycle Chemoenzymatic Synthesis

et al. 2022

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Cytochrome P450s demonstrate potential as biocatalysts for selective C−H bond functionalization in heterocycle synthesis. P450 monooxygenase (HinD) can catalyze cyclization for the biosynthesis of indolactam-like natural products. Moreover, the modification of N13 in the substrates leads to the formation of 6/5/6 tricyclic products as the minor product, which demonstrates potential for cancer treatment. However, the biosynthesis of indole-fused 6/5/6 tricyclic products is challenging as relatively few studies focus on the modulation of the minor products from P450 reactions to become dominant products for their bioproduction. Here, the isotopically sensitive branching method was employed to identify the conversion to 6/5/6 tricyclic products as the minor branch in wild-type HinD catalysis, originating from a common intermediate, in addition to the formation of 9-membered indolactam. The observed large kinetic solvent isotope effect (∼5.6) revealed that catalytic flow between two branches is sensitive and that the original minor product can be inverted to the dominant product by directing catalytic flow from the original major branch to the minor branch. Finally, 6/5/6 tricyclic products can be modulated and chemoenzymatically prepared as the major product. Data offer an insight into the rational design for the chemo-enzymatic synthesis of heterocyclic compounds.

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An Update on Direct C–H Bond Functionalization of Nitrogen-Containing Fused Heterocycles

Cited by 25 publications

References 71 publications

Formation and Uses of Imidazo[1,2-a]pyrimidines and Related Compounds: A Review Comprising Years 2000-2021

Formation and Uses of Imidazo[1,2-a]pyrimidines and Related Compounds: A Review Comprising Years 2000-2021

Recent Developments in Transition‐Metal‐Catalyzed Regioselective Functionalization of Imidazo[1, 2‐a]pyridine

Kinetic Solvent Isotope Effect in P450-Mediated Cyclization in Indolactams: Evidence for Branched Reactions and Guide for Their Modulation in Heterocycle Chemoenzymatic Synthesis

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