Thieme Cheminar #32
糖科学的新兴趋势 第二部分
Emerging Trends in Glycoscience, Part #2
碳水化合物是最丰富和最重要的生物分子之一,在化学、生物学和医学中有着广泛的应用。专题“糖科学的新兴趋势”全面概述了合成碳水化合物化学日益增长的重要性。
Synthesis于2024年第7期出版"糖科学的新趋势" 特刊,探讨了碳水化合物的化学和酶合成以及其化学和治疗方面的最新进展。本期特刊汇集了研究碳水化合物新方面(包括其合成和应用)的专家的贡献。涵盖的主题多种多样,从基于碳水化合物的分子支架到其在化学生物学、催化、材料科学和药物化学中的重要性。这些贡献将增强读者对碳水化合物化学和生物学现状的理解,并为具有药理学重要性的基于碳水化合物的分子的开发提供见解。阅读本期全部论文请 👉 点击这里。
在本次Thieme Cheminar上,两位演讲嘉宾将分享他们的最新研究。
时间及注册方式
Thieme Cheminar
2024年11月12日 周二
23:00 北京时间
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Abstract
Thieme Cheminar
1. Advances in Chemoenzymatic Synthesis of Sialosides
Xi Chen
University of California, Davis
Sialic acids (Sias) are monosaccharides belonging to a subfamily of nonulosonic acids (NulOs), which are nine-carbon alpha-keto acids found in nature. Sias are expressed by animals of the deuterostome lineage and by some pathogenic bacteria. They are the terminal residues on sialosides including sialyl glycans and sialyl glycoconjugates which play important roles in molecular recognition in biological systems. Sialosides in natural are structurally diverse with variations on the sialic acid forms (more than 50 have been found in nature), sialyl linkages, and underlying glycan and glycoconjugate structures. Sialosides containing natural occurring and non-natural modifications on the sialic acids are being developed as novel probes, potential diagnostics and therapeutics. An efficient strategy to access these biomedically important synthetic targets is chemoenzymatic synthesis. Sialyltransferase-catalyzed enzymatic sialylation of diverse underlying structures that are synthesized by chemical or chemoenzymatic approaches is increasingly implemented in a growing number of laboratories. This talk will discuss strategies for developing streamlined chemoenzymatic synthesis of complex sialoside targets with the consideration of chemoenzymatic synthetic process design, the design and the synthesis of sialyltransferase acceptor substrates, and enzyme engineering.
2. From Stereocontrolled Glycosylation to Automated Chemical Synthesis
Alexei Demchenko
Saint Louis University
From the building blocks of nature to disease-battling pharmaceuticals, carbohydrates have had a profound impact on evolution, society, economy, and human health. Numerous applications of these essential biomolecules in many areas of science and technology exist, most of which can be found at the forefront of therapeutic agent and diagnostic platform development. Although carbohydrates are desirable for the pharmaceutical and biomedical communities, these molecules are very challenging targets for chemists because of the need for functionalization, protecting and leaving group manipulations, controlling anomeric stereoselectivity, separation, and analysis. The development of practical methods for the synthesis of building blocks, chemical glycosylation, and glycan assembly represent demanding areas of research. At the core of this presentation is the development of new methods, strategies, and technologies for chemical synthesis of glycans. These tools will be discussed along with recent results related to the development of new glycosylation reactions, methods for controlling stereoselectivity, and HPLC-based automated synthesis. The effectiveness of methods developed will be illustrated by the synthesis of glycopharmaceuticals. This work has been generously supported by grants from the National Institutes of Health.
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