While the Glaser-Hay coupling of terminal alkynes is a useful reaction, several issues associated with chemoselectivity preclude its widespread application in synthetic chemistry. To address these issues, a solid-supported Glaser-Hay methodology was developed to afford only asymmetric diyne products. This methodology was then applied to a series of immobilized alkynes with a diverse set of soluble alkynes to generate an array of heterocoupled products in high yields and purities.
The introduction of exogenous DNA into Escherichia coli is a cornerstone of molecular biology. Herein, we investigate two new mechanisms for bacterial transformation involving either the use of microwave irradiation or a freeze-thaw protocol in liquid nitrogen. Ultimately, both methods afforded successful transfer of plasmid DNA into bacterial cells, with the freeze-thaw technique yielding efficiencies of~10 5 . More importantly, both techniques effectively eliminated the need for the preparation of competent cells.
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