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Development of New Strategies for the Synthesis of Bacterial Carbohydrates

细菌碳水化合物合成新策略的开发

基本信息

批准号：
1954451
负责人：
WEIPING TANG
金额：
$ 45万
依托单位：
University of Wisconsin-Madison
依托单位国家：
美国
项目类别：
Continuing Grant
财政年份：
2020
资助国家：
美国
起止时间：
2020-08-15 至 2024-07-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1954451&HistoricalAwards=false
关键词：
Development New Strategies Synthesis Bacterial

项目摘要

With this award, the Chemical Synthesis Program of the Division of Chemistry is supporting Professor Weiping Tang of the Pharmaceutical Sciences Division of the University of Wisconsin-Madison to develop a systematic way to make bacterial carbohydrates from common precursors. Carbohydrates play important roles in inflammation, infection, cancer metastasis, and many other fundamentally important biological processes. The development of efficient methods to synthesize bacterial carbohydrates from simple, common starting materials is of value for the study of biological processes that involve these compounds. Unfortunately, bacteria use several hundred building blocks for carbohydrate synthesis that are not readily available; this is in contrast to humans and other mammals that use fewer than a dozen such building blocks. Bacterial carbohydrates need to be individually synthesized and then linked into oligomers, which is a time-consuming and technically challenging process. Professor Tang and his research team are developing synthetic strategies to address this roadblock and streamline the process for making these important compounds. These studies are also providing scientific training to graduate students and postdoctoral researchers, as well as younger generations of students traditionally underrepresented in STEM disciplines. Professor Tang actively participates in several collaborations where undergraduate and high school students partake in academic research and develop a lifelong appreciation for science. The Tang Research group is developing de novo synthesis strategies to systematically prepare a variety of bacterial carbohydrates with a high degree of stereocontrol over the glycosidic bond. In one focus area, a transition metal-catalyzed C-H amination approach is being optimized for the synthesis aminosugars and their derivatives. Simultaneously, this investigation is also providing insight in how to use C-H amination reactions in complex settings. In a second focus area, stereoselective reduction of enones followed by olefin functionalization is providing a route to rare deoxy sugars. These studies are simultaneously advancing glycoscience and synthetic organic chemistry while facilitating the study of important biological processes in bacteria. The program is also impacting chemical education at multiple levels: graduate students area gaining synthetic expertise and participating in mentoring activities that prepare them for leading positions in industry and academia, and underrepresented undergraduate and high school students and gaining hands-on experience and exposure to cutting-edge research.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

有了这个奖项，化学系的化学合成项目正在支持威斯康星大学麦迪逊分校药物科学系的Weiping Tang教授开发一种系统的方法，从常见的前体中制造细菌碳水化合物。碳水化合物在炎症、感染、癌症转移和许多其他基本重要的生物过程中起着重要作用。开发从简单、常见的起始材料合成细菌碳水化合物的有效方法对于研究涉及这些化合物的生物过程具有价值。不幸的是，细菌使用数百种不容易获得的碳水化合物合成构件;这与人类和其他哺乳动物使用不到12种此类构件形成对比。细菌碳水化合物需要单独合成，然后连接成低聚物，这是一个耗时且具有技术挑战性的过程。唐教授和他的研究团队正在开发合成策略来解决这一障碍，并简化制造这些重要化合物的过程。这些研究还为研究生和博士后研究人员以及传统上在STEM学科中代表性不足的年轻一代学生提供科学培训。唐教授积极参与多个合作项目，让本科生和高中生参与学术研究，并培养对科学的终身欣赏。Tang研究小组正在开发从头合成策略，以系统地制备对糖苷键具有高度立体控制的各种细菌碳水化合物。在一个重点领域，过渡金属催化的C-H胺化方法正在优化用于合成氨基糖及其衍生物。同时，这项研究也为如何在复杂环境中使用C-H胺化反应提供了见解。在第二个重点领域，立体选择性还原烯酮，然后进行烯烃官能化，提供了一条路线，以罕见的脱氧糖。这些研究同时推进了糖科学和合成有机化学，同时促进了细菌中重要生物过程的研究。该计划还在多个层面上影响化学教育：研究生区域获得综合专业知识，并参加指导活动，为他们在工业和学术界的领导地位做好准备，和代表性不足的本科生和高中生，并获得实践经验和接触切割-该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查进行评估，被认为值得支持的搜索.