Boddu S Ramakrishna, Neha Rani, Hengfu Xu, Cyrus Alan-Lee, H Bernhard Schlegel, Hien M Nguyen
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The 1,2-<i>cis</i> stereoselectivity of <i>O</i>-products depends on the nature of the electrophile, while <i>S</i>-products are obtained with excellent 1,2-<i>cis</i> stereoselectivity, irrespective of the furanose structure. The displaced bromide ion from the glycosyl electrophile influences the reaction's reactivity and stereoselectivity. Alcohol-OH forms a stronger hydrogen bond with bromide ion than thiol-SH, contributing to the difference in their reactivity. The energy difference between forming <i>S</i>-furanoside and <i>O</i>-furanoside transition states is 3.7 kcal mol<sup>-1</sup>, supporting the increased reactivity of alcohol over thiol. The difference in transition state energies between the major and minor <i>S</i>-product is greater than that for the major and minor <i>O</i>-product. This is consistent with experimental data showing how thiol is more stereoselective than alcohol. The catalyst and reaction conditions utilized for the generation of 1,2-<i>cis O</i>-furanosides in our prior studies are found to be unsuitable for the synthesis of 1,2-<i>cis S</i>-furanosides. In the present study, a highly reactive phenanthroline catalyst and specific reaction conditions have been developed to achieve stereoselective <i>S</i>-linked product formation.</p>","PeriodicalId":96,"journal":{"name":"Organic & Biomolecular Chemistry","volume":" ","pages":""},"PeriodicalIF":2.9000,"publicationDate":"2024-11-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11582804/pdf/","citationCount":"0","resultStr":"{\"title\":\"Why is thiol unexpectedly less reactive but more selective than alcohol in phenanthroline-catalyzed 1,2-<i>cis O</i>- and <i>S</i>-furanosylations?\",\"authors\":\"Boddu S Ramakrishna, Neha Rani, Hengfu Xu, Cyrus Alan-Lee, H Bernhard Schlegel, Hien M Nguyen\",\"doi\":\"10.1039/d4ob01593b\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The lack of catalytic stereoselective approaches for producing 1,2-<i>cis S</i>-furanosides emphasizes the critical need for further research in this area. Herein, we present a stereoselective <i>S</i>-furanosylation method, utilizing a 4,7-dipiperidine-substituted phenanthroline catalyst. This developed protocol fills a gap in the field, enabling the coupling of cysteine residues and thiols with furanosyl bromide electrophiles. The process allows for stereoselective access to 1,2-<i>cis S</i>-furanosides. Through computational and experimental investigations, thiol is found to be less reactive than alcohol but exhibits greater stereoselectivity. The 1,2-<i>cis</i> stereoselectivity of <i>O</i>-products depends on the nature of the electrophile, while <i>S</i>-products are obtained with excellent 1,2-<i>cis</i> stereoselectivity, irrespective of the furanose structure. The displaced bromide ion from the glycosyl electrophile influences the reaction's reactivity and stereoselectivity. Alcohol-OH forms a stronger hydrogen bond with bromide ion than thiol-SH, contributing to the difference in their reactivity. The energy difference between forming <i>S</i>-furanoside and <i>O</i>-furanoside transition states is 3.7 kcal mol<sup>-1</sup>, supporting the increased reactivity of alcohol over thiol. The difference in transition state energies between the major and minor <i>S</i>-product is greater than that for the major and minor <i>O</i>-product. This is consistent with experimental data showing how thiol is more stereoselective than alcohol. The catalyst and reaction conditions utilized for the generation of 1,2-<i>cis O</i>-furanosides in our prior studies are found to be unsuitable for the synthesis of 1,2-<i>cis S</i>-furanosides. 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引用次数: 0
摘要
由于缺乏生产 1,2-顺式 S-呋喃糖苷的催化立体选择性方法,因此亟需在这一领域开展进一步的研究。在此,我们介绍了一种利用 4,7-二哌啶取代菲罗啉催化剂的立体选择性 S-呋喃糖基化方法。该方法填补了该领域的空白,实现了半胱氨酸残基和硫醇与呋喃糖基溴化物亲电体的偶联。该工艺可立体选择性地获得 1,2-顺式 S-呋喃糖苷。通过计算和实验研究发现,硫醇的反应性比醇低,但立体选择性更高。O 型产物的 1,2-顺式立体选择性取决于亲电子体的性质,而 S 型产物则具有极佳的 1,2-顺式立体选择性,与呋喃糖的结构无关。从亲电基移位的溴离子会影响反应的反应性和立体选择性。与硫醇-SH 相比,醇-OH 与溴离子形成的氢键更强,这也是它们反应性不同的原因。形成 S-呋喃糖苷和 O-呋喃糖苷过渡态之间的能量差为 3.7 kcal mol-1,这支持了醇的反应性比硫醇更强。主要 S 产物和次要 S 产物的过渡态能量差异大于主要 O 产物和次要 O 产物的过渡态能量差异。这与实验数据一致,表明硫醇的立体选择性高于酒精。在我们之前的研究中,用于生成 1,2-顺式 O-呋喃糖苷的催化剂和反应条件不适合合成 1,2-顺式 S-呋喃糖苷。在本研究中,我们开发了一种高活性菲罗啉催化剂和特定的反应条件,以实现立体选择性 S-连接产物的生成。
Why is thiol unexpectedly less reactive but more selective than alcohol in phenanthroline-catalyzed 1,2-cis O- and S-furanosylations?
The lack of catalytic stereoselective approaches for producing 1,2-cis S-furanosides emphasizes the critical need for further research in this area. Herein, we present a stereoselective S-furanosylation method, utilizing a 4,7-dipiperidine-substituted phenanthroline catalyst. This developed protocol fills a gap in the field, enabling the coupling of cysteine residues and thiols with furanosyl bromide electrophiles. The process allows for stereoselective access to 1,2-cis S-furanosides. Through computational and experimental investigations, thiol is found to be less reactive than alcohol but exhibits greater stereoselectivity. The 1,2-cis stereoselectivity of O-products depends on the nature of the electrophile, while S-products are obtained with excellent 1,2-cis stereoselectivity, irrespective of the furanose structure. The displaced bromide ion from the glycosyl electrophile influences the reaction's reactivity and stereoselectivity. Alcohol-OH forms a stronger hydrogen bond with bromide ion than thiol-SH, contributing to the difference in their reactivity. The energy difference between forming S-furanoside and O-furanoside transition states is 3.7 kcal mol-1, supporting the increased reactivity of alcohol over thiol. The difference in transition state energies between the major and minor S-product is greater than that for the major and minor O-product. This is consistent with experimental data showing how thiol is more stereoselective than alcohol. The catalyst and reaction conditions utilized for the generation of 1,2-cis O-furanosides in our prior studies are found to be unsuitable for the synthesis of 1,2-cis S-furanosides. In the present study, a highly reactive phenanthroline catalyst and specific reaction conditions have been developed to achieve stereoselective S-linked product formation.