Insight into the Mechanism of the Acylation of Alcohols with Acid Anhydrides Catalyzed by Phosphoric Acid Derivatives

Kinetic resolution of 1,1'-binaphthyl-2,2'-diamine derivatives by chiral calcium phosphate-catalyzed acylation

1,1'-Binaphthyl-2,2'-diamine (BINAM) is a useful axially chiral compound. The kinetic resolution of BINAM is one of the most crucial methods for synthesizing chiral BINAM. We have developed a chiral calcium phosphate-catalyzed kinetic resolution of BINAM by utilizing an acylation reaction to produce a mono-amide. The kinetic resolution of BINAM derivatives was achieved by using isobutyric anhydride in the presence of chiral calcium phosphate and 4-morpholinopyridine with up to s = 127. 6,6'-Substituted BINAM derivatives were also applicable for this reaction. The resulting mono-acylated BINAM could be transformed into BINAM by hydrolysis under acidic conditions.

One-Pot Synthesis of Amphipathic Esters for Demulsification of Water-in-Crude Oil Emulsions

The current work aims to synthesize new amphipathic compounds, TGHA and PGHA, and investigate their demulsification performance (DP) in water-in-crude oil emulsions. Their chemical structures, thermal stability, interfacial activity, and micelle formation were investigated by different techniques. The bottle test method was used to investigate the effect of demulsifier concentration, water content, temperature, and demulsification time (DT) on the DP of TGHA and PGHA compared to a commercial demulsifier (CD). The results indicated that these parameters have a noticeable impact on the DP of TGHA and PGHA. The results also showed that TGHA exhibited higher DP than PGHA at all investigated parameters, which could be explained by increasing its hydrophobicity due to lower oxyethylene units in its structure than PGHA. An increase in these units means increased hydrophilicity, which led to obstruction of PGHA molecule diffusion in crude oil as a continuous phase. Moreover, TGHA gave a comparable DP with CD, as it gave a higher DP and shorter DT than CD at a higher water content (50%), while the latter achieved the highest DP and the shortest DT at a low water content (10%).

Re-evaluation and a Structure-Activity Relationship Study for the Selective Anti-anaerobic Bacterial Activity of Luminamicin toward Target Identification

Luminamicin (1) isolated in 1985, is a macrodiolide compound exhibiting selective antibacterial activity against anaerobes. However, the antibacterial activity of 1 was not fully examined. In this research, re-evaluation of the antibacterial activity of 1 revealed that 1 is a narrow spectrum and potent antibiotic againstClostridioides difficile(C. difficile) and effective against fidaxomicin resistantC. difficilestrain. This prompted us to obtain luminamicin resistantC. difficilestrains for the determination of the molecular target of 1 inC. difficile. Sequence analysis of 1-resistantC. difficileindicated that the mode of action of 1 differs from that of fidaxomicin. This is because no mutation was observed in RNA polymerase and mutations were observed in a hypothetical protein and cell wall protein. Furthermore, we synthesized derivatives from 1 to study the structure-activity relationship. This research indicated that the maleic anhydride and the enol ether moieties seem to be pivotal functional groups to maintain the antibacterial activity againstC. difficileand the 14-membered lactone may contribute to taking an appropriate molecular conformation.