Stereocontrolled Synthesis of α-Xylofuranosides Using a Conformationally Restricted Donor

Zhang, Li; Shen, Kaizhi; Taha, Hashem A.; Lowary, Todd L.

doi:10.1021/acs.joc.8b00410

Cited by 21 publications

(24 citation statements)

References 34 publications

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“…For these ions it appears that the “two‐conformer model” falls short in providing an adequate explanation to account for the (lack of) stereoselectivity and that more oxocarbenium ion conformations have to be taken into account as product‐forming intermediates. Further insight into the structure of glycosyl oxocarbenium ions and the trajectories of nucleophiles that attack these will lead to a better understanding of the S N 1 side of the glycosylation reaction mechanism continuum and this can eventually pave the way to a new stereoselective glycosylation methodology …”

Section: Resultsmentioning

confidence: 99%

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Furanosyl Oxocarbenium Ion Conformational Energy Landscape Maps as a Tool to Study the Glycosylation Stereoselectivity of 2‐Azidofuranoses, 2‐Fluorofuranoses and Methyl Furanosyl Uronates

Vorm

Hansen

Rijssel

et al. 2019

Chemistry A European J

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The 3D shape of glycosyl oxocarbenium ions determines their stability and reactivity and the stereochemical course of S N 1 reactions taking place on these reactive intermediates is dictated by the conformation of these species. The nature and configuration of functional groups on the carbohydrate ring affect the stability of glycosyl oxocarbenium ions and control the overall shape of the cations. We herein map the stereoelectronic substituent effects of the C2‐azide, C2‐fluoride and C4‐carboxylic acid ester on the stability and reactivity of the complete suite of diastereoisomeric furanoses by using a combined computational and experimental approach. Surprisingly, all furanosyl donors studied react in a highly stereoselective manner to provide the 1,2‐ cis products, except for the reactions in the xylose series. The 1,2‐ cis selectivity for the ribo ‐, arabino ‐ and lyxo ‐configured furanosides can be traced back to the lowest‐energy 3 E or E 3 conformers of the intermediate oxocarbenium ions. The lack of selectivity for the xylosyl donors is related to the occurrence of oxocarbenium ions adopting other conformations.

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Section: Resultsmentioning

confidence: 99%

“…Further insighti nto the structure of glycosylo xocarbenium ions and the trajectories of nucleophiles that attack these will lead to ab etter understanding of the S N 1s ide of the glycosylationr eactionm echanism continuum and this can eventually pave the way to a new stereoselective glycosylation methodology. [57]…”

Section: Resultsmentioning

confidence: 99%

Furanosyl Oxocarbenium Ion Conformational Energy Landscape Maps as a Tool to Study the Glycosylation Stereoselectivity of 2‐Azidofuranoses, 2‐Fluorofuranoses and Methyl Furanosyl Uronates

Vorm

Hansen

Rijssel

et al. 2019

Chemistry A European J

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“…This is in part because both extraction and purification processes are unspecific (Rahlwes et al, 2019). Recent studies have demonstrated that glycoconjugate synthesis could be an alternative method to study the structural and physical characteristics of LAM (Zhang et al, 2018;Chang et al, 2019). In this context, the generation of synthetic molecules makes the study of LAM as an Mtb virulence factor more accessible (Gao et al, 2014).…”

Section: Lam: Origin and Structurementioning

confidence: 99%

Lipoarabinomannan as a Point-of-Care Assay for Diagnosis of Tuberculosis: How Far Are We to Use It?

2021

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Tuberculosis (TB) is still a severe public health problem; the current diagnostic tests have limitations that delay treatment onset. Lipoarabinomannan (LAM) is a glycolipid that is a component of the cell wall of the bacillus Mycobacterium tuberculosis, the etiologic agent of TB. This glycolipid is excreted as a soluble form in urine. The World Health Organization has established that the design of new TB diagnostic methods is one of the priorities within the EndTB Strategy. LAM has been suggested as a biomarker to develop diagnostic tests based on its identification in urine, and it is one of the most prominent candidates to develop point-of-care diagnostic test because urine samples can be easily collected. Moreover, LAM can regulate the immune response in the host and can be found in the serum of TB patients, where it probably affects a wide variety of host cell populations, consequently influencing the quality of both innate and adaptive immune responses during TB infection. Here, we revised the evidence that supports that LAM could be used as a tool for the development of new point-of-care tests for TB diagnosis, and we discussed the mechanisms that could contribute to the low sensitivity of diagnostic testing.

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“…[24] The cis ‐glycosidic linkage in the first galactose‐connected arabinose required the use of non‐participating O ‐protection, while the latter arabinose has a trans ‐glycosidic linkage and, therefore, requires participating O ‐protection for synthesis [25] . According to a report by Lowary and co‐workers, the cis ‐glycosylation is possible when a conformationally restricted O ‐xylylene‐protected donor is used [26, 27] . We adapted this approach and started the synthesis from l ‐arabinose ( 10 ) in a Fischer glycosylation in methanol, the product of which was subsequently benzoylated.…”

Section: Figurementioning

confidence: 99%

“…[25] According to ar eport by Lowary and co-workers, the cis-glycosylationi sp ossible when ac onformationally restricted O-xylylene-protected donor is used. [26,27] We adapted Figure 1. Illustration of partial structures of AG identified by Brecker and coworkers using symbol nomenclature for glycans (A).…”

mentioning

confidence: 99%

Total Synthesis of a Partial Structure from Arabinogalactan and Its Application for Allergy Prevention

Krumb

Jäger

Voss

et al. 2020

Chemistry A European J

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Arabinogalactan, a microheterogeneous polysaccharide occurring in plants, is known for its allergy‐protective activity, which could potentially be used for preventive allergy treatment. New treatment options are highly desirable, especially in a preventive manner, due to the constant rise of atopic diseases worldwide. The structural origin of the allergy‐protective activity of arabinogalactan is, however, still unclear and isolation of the polysaccharide is not feasible for pharmaceutical applications due to a variation of the activity of the natural product and contaminations with endotoxins. Therefore, a pentasaccharide partial structure was selected for total synthesis and subsequently coupled to a carrier protein to form a neoglycoconjugate. The allergy‐protective activity of arabinogalactan could be reproduced with the partial structure in subsequent in vivo experiments. This is the first example of a successful simplification of arabinogalactan with a single partial structure while retaining its allergy‐preventive potential.

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Stereocontrolled Synthesis of α-Xylofuranosides Using a Conformationally Restricted Donor

Cited by 21 publications

References 34 publications

Furanosyl Oxocarbenium Ion Conformational Energy Landscape Maps as a Tool to Study the Glycosylation Stereoselectivity of 2‐Azidofuranoses, 2‐Fluorofuranoses and Methyl Furanosyl Uronates

Furanosyl Oxocarbenium Ion Conformational Energy Landscape Maps as a Tool to Study the Glycosylation Stereoselectivity of 2‐Azidofuranoses, 2‐Fluorofuranoses and Methyl Furanosyl Uronates

Lipoarabinomannan as a Point-of-Care Assay for Diagnosis of Tuberculosis: How Far Are We to Use It?

Total Synthesis of a Partial Structure from Arabinogalactan and Its Application for Allergy Prevention

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