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Start Over Author "Harish Jangra" Journal angewandte chemie
4 results on '"Harish Jangra"'

1. Stereoselective and Stereospecific Triflate‐Mediated Intramolecular Schmidt Reaction: Ready Access to Alkaloid Skeletons**

Author

Philippe Renaud, Hendrik Zipse, Remo Arnold, Robin Marc Schärer, Ajoy Kapat, Harish Jangra, Florence Giornal, Erich Nyfeler, and Lars Gnägi

Subjects
Stereochemistry, alkaloids, 010402 general chemistry, 01 natural sciences, azides, Catalysis, chemistry.chemical_compound, Stereospecificity, 540 Chemistry, Schmidt reaction, Azepine, Racemization, Research Articles, azabicyclic compounds, 010405 organic chemistry, stereochemistry, Iminium, General Chemistry, General Medicine, Alkaloid Synthesis, 0104 chemical sciences, 3. Good health, chemistry, Intramolecular force, 570 Life sciences, biology, Stereoselectivity, Azide, Research Article
Abstract

The stereoselectivity and stereospecificity of the triflate‐mediated intramolecular Schmidt reaction of substituted 3‐(1‐azidocyclohexyl)propanol derivatives leading to octahydro‐1H‐pyrrolo[1,2‐a]azepine, the structural skeleton of several important families of alkaloids such as the Stemona alkaloids, has been examined. The reaction involves an initial intramolecular SN2 reaction between the azide moiety and the triflate affording an intermediate spirocyclic aminodiazonoium salt that undergoes the expected 1,2‐shift/N2‐elimination followed by hydride‐mediated iminium salt reduction. Remarkably, chiral alcohols are converted to the azabicyclic derivative with no or limited racemization. The initial asymmetric alcohol center controls the diastereoselectivity of the whole process, leading to the formation of one out of the four possible diastereoisomers of disubstituted octahydro‐1H‐pyrrolo[1,2‐a]azepine. The origin of the stereoselectivity is rationalized based on theoretical calculations. The concise synthesis of (−)‐(cis)‐3‐propylindolizidine and (−)‐(cis)‐3‐butyllehmizidine, two alkaloids found in the venom of workers of the ant Myrmicaria melanogaster, is reported., Enantiomerically enriched azabicyclic compounds found in several important families of alkaloids can be prepared by a remarkably stereospecific and stereoselective intramolecular Schmidt reaction. The initial asymmetric alcohol center controls the whole process, leading to the formation of one out of up to four possible diastereoisomers with inversion of the configuration at the original asymmetric center.

Published
2021
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2. A Predictive Model Towards Site‐Selective Metalations of Functionalized Heterocycles, Arenes, Olefins, and Alkanes using TMPZnCl⋅LiCl

Author

Paul Knochel, Shu‐Mei Yang, Moritz Balkenhohl, Ilya S. Makarov, Hendrik Zipse, and Harish Jangra

Subjects
010405 organic chemistry, Metalation, Chemistry, Regioselectivity, heteroarenes, General Chemistry, General Medicine, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Catalysis, 0104 chemical sciences, amides, Deprotonation, Predictive Models, Site selective, acidity, Research Articles, Research Article, zinc organometallics
Abstract

The development of a predictive model towards site‐selective deprotometalation reactions using TMPZnCl⋅LiCl is reported (TMP=2,2,6,6‐tetramethylpiperidinyl). The pK a values of functionalized N‐, S‐, and O‐heterocycles, arenes, alkenes, or alkanes were calculated and compared to the experimental deprotonation sites. Large overlap (>80 %) between the calculated and empirical deprotonation sites was observed, showing that thermodynamic factors strongly govern the metalation regioselectivity. In the case of olefins, calculated frozen state energies of the deprotonated substrates allowed a more accurate prediction. Additionally, various new N‐heterocycles were analyzed and the metalation regioselectivities rationalized using the predictive model., Metalation site prediction: The use of simple pK a calculations allowed a reliable prediction of metalation sites in various heterocycles, arenes, olefins, and alkanes, employing the mild base TMPZnCl⋅LiCl. Using this predictive model, also unexplored N‐heterocycles were investigated, and the obtained deprotonation sites rationalized readily.

Published
2020
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