[reaction: see text] The ionic liquid butylmethylimidazolium tetrachloroferrate (bmim-FeCl(4)) was found to be a very effective and completely air stable catalyst for the biphasic Grignard cross-coupling with primary and secondary alkyl halides bearing beta-hydrogens. After simply decanting the product in the ethereal layer, the ionic liquid catalyst was successfully recycled four times.
Brevetoxin A is the most potent neurotoxin secreted by Gymnodinium breve Davis, a marine organism often associated with harmful algal blooms known as 'red tides'. The compound, whose mechanism of action involves binding to and opening of sodium channels, is sufficiently toxic to kill fish at concentrations of nanograms per ml and, after accumulation in filter-feeding shellfish, to poison human consumers. The precise pathway by which nature constructs brevetoxin A is at present unknown, but strategies for its total synthesis have been contemplated for some time. The synthetic challenge posed by brevetoxin A reflects the high complexity of its molecular structure: 10 oxygen atoms and a chain of 44 carbon atoms are woven into a polycyclic macromolecule that includes 10 rings (containing between 5 and 9 atoms) and 22 stereogenic centres. Particularly challenging are the 7-, 8- and 9-membered rings which allow the molecule to undergo slow conformational changes and force a 90 degrees twist at one of its rings. Here we describe the successful incorporation of methods that were specifically developed for the construction of these rings into an overall strategy for the total synthesis of brevetoxin A in its naturally occurring form. The convergent synthesis reported here renders this scarce neurotoxin synthetically available and, more importantly, allows the design and synthesis of analogues for further biochemical studies.
We present the application of ionic liquid-aqueous micellar solutions as isolation media for the pharmaceutically active ingredient piperine from black pepper. Several surface-active ionic liquids including a biodegradable betaine derivative were used for the extraction of piperine, and a strong correlation between extraction yield and the critical micelle concentration of the respective ionic liquid was found. A scaled strategy for the isolation of piperine was developed that allowed recovery and recycling of the aqueous ionic liquid micellar solution for five runs without any loss in extraction efficiency.
We investigated the valorisation of limonene containing waste product orange peel, and performed a biocatalytic cascade for the production of chiral carvolactone solely in water.
N5-Methyltetrahydromethanopterin:coenzyme M methyltransferase (Mtr) from Methanobacterium thermoautotrophicum strain Marburg is a membrane-associated enzyme complex which catalyzes an energy-conserving, sodium-ion-translocating step in methanogenesis from H2 and CO2. We report here that the complex is composed of eight different subunits for which evidence was obtained at the protein, DNA and RNA levels: (a) SDS/PAGE of the purified complex revealed the presence of eight different polypeptides of apparent molecular masses of 34 (MtrH), 28 (MtrE), 24 (MtrC), 23 (MtrA), 21 (MtrD), 13 (MtrG), 12.5 (MtrB) and 12 kDa (MtrF). The N-terminal amino acid sequences of the 12-, 12.5- and 13-kDa polypeptides, which had previously not been accessible, were determined; (b) cloning and sequencing of the corresponding genes revealed the presence of the eight mtr genes organized in a 4.9-kbp gene cluster in the order mtrEDCBAFGH; (c) Northern-blot analysis revealed the presence of a 5-kbp transcript. DNA probes derived from the mtrE and mtrH genes hybridized to the transcript, indicating that the eight mtr genes are organized in a transcription unit. By primer extension, the 5' end of the mtrEDC-BAFGH mRNA was analyzed. The mtr operon was found to be located between the methyl-coenzyme M reductase I operon (mcr) and a downstream open reading frame predicted to encode a Na+/Ca2+, K+ exchanger.
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