甲基化
计算机科学
计算生物学
生物
遗传学
基因
作者
Aleksandra Helbik-Maciejewska,Agata Gitlin‐Domagalska,Mladena Glavaš,Natalia Ptaszyńska,Dawid Dębowski,Anna Łęgowska,Krzysztof Rolka
标识
DOI:10.1021/acs.joc.5c00083
摘要
Backbone N-methylation is a pivotal peptide modification that enhances lipophilicity, metabolic stability, and binding affinity or specificity, thereby improving bioactive peptides' bioavailability. Substitution of a backbone amide hydrogen with a methyl group is a three-step procedure which is fully integrated with solid-phase peptide synthesis strategy and usually takes about 4 h. We have revolutionized this process by optimizing the method and slashing the total N-methylation procedure time from 4 h to just 40 min. Moreover, we demonstrate that N-methylation can be equally efficient regardless of the laboratory equipment used, such as a standard laboratory shaker, microwave synthesizer, or common ultrasonic bath. Our study not only results in acceleration of the N-methylation process during solid-phase peptide synthesis but also offers a flexible choice of laboratory equipment, making peptide modifications more efficient and achievable.
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