59746-41-7Relevant academic research and scientific papers
Cobalt(iii)-catalyzed C-H amidation of: N, N -dialkyl thiobenzamides by sulfur coordination
Gao, Pengpeng,Zhang, Xiaohui,Zheng, Qing-Zhong
supporting information, p. 10332 - 10336 (2021/12/17)
An efficient inexpensive cobalt(iii)-catalyzed intermolecular amidation of N,N-dialkyl thiobenzamides with 1,4,2-dioxazol-5-ones via C-H bond activation is described. The reaction proceeds with high functional group tolerance under external oxidant free conditions, providing a straightforward approach for the direct modification of thioamide derivatives, which are prevalent organic motifs found in vital biological and pharmaceutical molecules. This journal is
Iron/tetramethylethylenediamine-catalyzed ambient-temperature coupling of alkyl grignard reagents and aryl chlorides
Rushworth, Philip J.,Hulcoop, David G.,Fox, David J.
, p. 9517 - 9521 (2013/10/08)
Tetramethylethylenediamine (TMEDA) acts as cheap and readily removed ligand in the iron-catalyzed coupling of alkyl Grignard reagents and activated aryl chlorides. The use of TMEDA allows for low ligand and iron catalyst loading as well as an increased reaction concentration and an ambient reaction temperature on a mole scale.
A new paradigm for biohydroxylation by Beauveria bassiana ATCC 7159
Holland, Herbert L.,Morris, Terence A.,Nava, Phillip J.,Zabic, Mirjana
, p. 7441 - 7460 (2007/10/03)
The biohydroxylation of a series of amides and related amino, keto and hydrocarbon substrates by the fungal biocatalyst Beauveria bassiana ATCC 7159 has been examined. The product distributions, together with data obtained from selective inhibition experiments using the cyt.P-450 inhibitors isosafrole, 1-aminobenzotriazole and phenylacetylene, suggest that B. bassiana contains a range of hydroxylase enzymes with different substrate specificities. A paradigm is presented for the interpretation of the results of microbial hydroxylation and for the application of existing active site models for B. bassiana.
