Enantioselective Total Synthesis of the Morphogen (-)-Thallusin and Mediated Uptake of Fe(III) into the Green Seaweed Ulva.

A fully enantioselective, catalytic synthesis of the algal morphogen (-)-thallusin using polyene cyclization chemistry is reported. The synthesis features dedicated precursor design, introduction of a TMS-substituted arene as a regioselective terminator, very high enantiomer excess (ee) on gram scale, and productive scaffold functionalization. Furthermore, an ee determination methodology of thallusin samples was developed, and the ee of biosynthesized thallusin was determined.

Direct C-H Cyanation by ICN Formed : Nannozinone B.

A novel method for C-H cyanation of different pyrans, pyrroles, indoles, and acyclic nucleophilic double bonds using TMSCN, NIS, and Zn(OTf) as a catalyst is described. The transformation is conducted under mild conditions tolerating a variety of functional groups. Zn(OTf) is likely to serve a dual catalytic role as an activator for TMSCN and for the cyanogen iodide generated .

Thallusin Quantification in Marine Bacteria and Algae Cultures.

Thallusin, a highly biologically active, phytohormone-like and bacterial compound-inducing morphogenesis of the green tide-forming macroalga Ulva (Chlorophyta), was determined in bacteria and algae cultures. A sensitive and selective method was developed for quantification based on ultra-high-performance liquid chromatography coupled with electrospray ionization and a high-resolution mass spectrometer. Upon C18 solid phase extraction of the water samples, thallusin was derivatized with iodomethane to inhibit the formation of Fe−thallusin complexes interfering with the chromatographic separation.

Stereoselective Total Synthesis of (-)-Thallusin for Bioactivity Profiling.

Chemical mediators are key compounds for controlling symbiotic interactions in the environment. Here, we disclose a fully stereoselective total synthesis of the algae differentiation factor (-)-thallusin that utilizes sophisticated 6-endo-cyclization chemistry and effective late-stage sp -sp -couplings using non-toxic reagents. An EC of 4.

Multigram-scale total synthesis of (±)-ambreinolide by a diastereoselective polyene cyclization.

Ambreinolide is a natural terpenoid with great value for perfume industry and natural product synthesis. Herein we report a novel total synthesis of ambreinolide on multigram-scale that employs a regio- and diastereoselective, high yielding, proton-initiated polyene cyclization using a catalyst easily generated in situ. Molecular structures were unambiguously confirmed by X-ray crystallography.

First Ring-Expanded Maytansin Lactone Accessed by a New Mutasynthetic Variant.

A multiblocked mutant strain (ΔAHBA and Δasm12, asm21) of Actinosynnema pretiosum, the producer of the highly toxic maytansinoid ansamitocin, has been used for the mutasynthetic production of new proansamitocin derivatives. The use of mutant strains that are blocked in the biosynthesis of an early building block as well as in the expression of two tailoring enzymes broadens the scope of chemo-biosynthetic access to new maytansinoids. Remarkably, a ring-expanded macrolactone derived from ansamitocin was created for the first time.