Klaus Bergander scite author profile

This is the first report on the biosynthesis of a hitherto unknown, sulfurcontaining polyester and also the first report on a bacterial polymer containing sulfur in the backbone. The Gram-negative polyhydroxyalkanoate (PHA)-accumulating bacterium Ralstonia eutropha synthesized a copolymer of 3-hydroxybutyrate and 3-mercaptopropionate, poly(3HB-co-3MP), when 3-mercaptopropionic acid or 3,3'-thiodipropionic acid was provided as carbon source in addition to fructose or gluconic acid under nitrogen-limited growth conditions. The peculiarity of this polymer was the occurrence of thioester linkages derived from the thiol groups of 3MP and the carboxyl groups of 3MP or 3HB, respectively, which occurred in addition to the common oxoester bonds of PHAs. Depending on the cultivation conditions and the feeding regime, poly(3HB-co-3MP) contributed up to 19 % of the cellular dry weight, with a molar fraction of 3MP of up to 43 %. The chemical structure of poly(3HB-co-3MP) was confirmed by GC/MS, IR spectroscopy, 1 H-and 13 C-NMR spectroscopy, and elemental sulfur analysis. The identification of this novel biopolymer reveals a new quality regarding the substrate range of PHA synthases and their capability for the synthesis of technically interesting polymers.

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Functional‐Group Tolerance in Frustrated Lewis Pairs: Hydrogenation of Nitroolefins and Acrylates

Greb

et al. 2013

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Reversible Carbon Dioxide Binding by Simple Lewis Base Adducts with Electron-Rich Phosphines

et al. 2016

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For the efficient utilization of carbon dioxide as feedstock in chemical synthesis, low-energy-barrier CO2 activation is a valuable tool. We report a metal-free approach to reversible CO2 binding under mild conditions based on simple Lewis base adducts with electron-rich phosphines. Variable-temperature NMR studies and DFT calculations reveal almost thermoneutral CO2 binding with low-energy barriers or stable CO2 adduct formation depending on the phosphines donor ability. The most basic phosphine forms an air-stable CO2 adduct that was used as phosphine transfer agent, providing a convenient access to transition-metal complexes with highly electron-rich phosphine ligands relevant to catalysis.

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IBiox[(−)-menthyl]: A Sterically Demanding Chiral NHC Ligand

et al. 2009

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An exceedingly sterically demanding, rigid, and chiral NHC ligand, IBiox[(-)-menthyl] (1), was prepared and structurally characterized. With a buried volume of approximately 50%, this ligand arguably represents one of the most sterically demanding monodentate ligands. The ability to use aryl chloride substrates in intramolecular palladium-catalyzed alpha-arylations reveals its unique reactivity. Moreover, C(2)-symmetric 1 allows the highly enantioselective formation of oxindoles with up to 99% ee.

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Klaus Bergander

Rapid intramolecular heterolytic dihydrogen activation by a four-membered heterocyclic phosphane–borane adduct

Identification of a new class of biopolymer: bacterial synthesis of a sulfur-containing polymer with thioester linkages

Functional‐Group Tolerance in Frustrated Lewis Pairs: Hydrogenation of Nitroolefins and Acrylates

Reversible Carbon Dioxide Binding by Simple Lewis Base Adducts with Electron-Rich Phosphines

IBiox[(−)-menthyl]: A Sterically Demanding Chiral NHC Ligand

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