Total Synthesis of RNA-Polymerase Inhibitor Ripostatin B and 15-Deoxyripostatin A

Keep me skipped: A highly convergent total synthesis of ripostatin?B, an inhibitor of the bacterial RNA polymerase, is described. The key steps to construct and avoid isomerization of the skipped triene are a double Stille cross-coupling reaction and a ring-closing metathesis. Furthermore, 15-deoxyripostatin?A, a stable and conformationally locked analogue of ripostatin?A (see scheme, 15-OH group red), was prepared and tested in?vivo.     

Organocatalytic Synthesis of Higher‐Carbon Sugars: Efficient Protocol for the Synthesis of Natural Sedoheptulose and d‐Glycero‐l‐galacto‐oct‐2‐ulose

Herein we report a short and efficient protocol for the synthesis of naturally occurring higher‐carbon sugars—sedoheptulose (d‐altro‐hept‐2‐ulose) and d‐glycero‐l‐galacto‐oct‐2‐ulose—from readily available sugar aldehydes and dihydroxyacetone (DHA). The key step includes a diastereoselective organocatalytic syn‐selective aldol reaction of DHA with d‐erythrose and d‐xylose, respectively. The methodology presented can be expanded to the synthesis of various higher sugars by means of syn‐selective carbon–carbon‐bond‐forming aldol reactions promoted by primary‐based organocatalysts. For example, this methodology provided useful access to d‐glycero‐d‐galacto‐oct‐2‐ulose and 1‐deoxy‐d‐glycero‐d‐galacto‐oct‐2‐ulose from d‐arabinose in high yield (85 and 74 %, respectively) and high stereoselectivity (99:1).     

On the Reach of Chemical Synthesis: Creation of a Mini‐Pipeline from an Academic Laboratory

In this retrospective, we recall some select cases of synergy between very challenging chemical synthesis and the identification of promising new candidates for pharmaceutics development. The progression from targets, often referred to as small molecules, to those of a size commonly associated with biologics (including glycoproteins) is also charted.     

Total synthesis of (+)-batzelladine A and (-)-batzelladine D, and identification of their target protein

Asymmetric total synthesis of batzelladine A (1) and batzelladine D (2) has been achieved. Our synthesis of batzelladines features 1) stereoselective construction of the cyclic guanidine system by means of successive 1,3-dipolar cycloaddition reaction and subsequent cyclization, 2) direct esterification of the bicyclic carboxylic acid 35 with the guanidine alcohol 8 or 59 to construct the whole carbon skeleton of batzelladines, and 3) one-step formation of the alpha,beta-unsaturated aldehyde 53 from the primary alcohol 47 with tetra-n-propylammoniumperruthenate (TPAP), providing an efficient route to the left-hand bicyclic guanidine alcohol of batzelladine A (1). With the synthetic compounds 1 and 2 in hand, their target protein was examined by using immobilized CD4 and gp120 affinity gels. The results indicated that batzelladines A (1) and D (2) bind specifically to CD4.     

The Total Synthesis of (±)‐Fumimycin

The antibiotic agent fumimycin has been synthesized for the first time. This natural product was found to inhibit the bacterial peptide deformylase and may represent a lead structure to a class of novel antibacterials. Our synthetic strategy towards fumimycin involved the following steps: Dakin oxidation of an aldehyde functionality, conversion of an oxime through radical fragmentation to form an N‐diphenylphosphoryl group, construction of an α‐trisubstituted amine by 1,2‐addition to a ketimine, a Claisen rearrangement with subsequent transition‐metal‐catalyzed olefin isomerization to install a propenyl chain and final amidation.