Synthesis Of Nucleosides

化学 核糖 胞苷 尿嘧啶 胞嘧啶 核苷酸 核酸 鸟苷 嘧啶 立体化学 鸟嘌呤 核糖核酸 胸腺嘧啶 自然发生 尿苷 核苷 核苷酸 DNA 有机化学 生物化学 基因 生物 遗传学
作者
Helmut Vorbrüggen,Carmen Ruh‐Pohlenz
出处
期刊:Organic Reactions [American Chemical Society]
卷期号:: 1-630 被引量:98
标识
DOI:10.1002/0471264180.or055.01
摘要

Abstract This chapter deals with the synthesis of nucleosides (e.g., the formation of N ‐glycosides of sugars such as D ‐ribose or 2‐deoxy‐D‐ribose with heterocyclic nitrogen bases). The methods of nucleoside synthesis have been treated in a number of reviews and monographs. It is now generally accepted that nucleosides were among the first organic compounds formed at the start of evolution in the early history of our planet earth. To support this point, guanine and adenine were heated with D ‐ribose in seawater, which contains the Lewis acid magnesium chloride as catalyst. One thus obtained the nucleosides guanosine and adenosine together with comparable yields of unnatural α‐nucleosides. The latter were gradually photoanomerized to the thermodynamically more stable compounds in overall yields of 5–6%. The furanose form of ribose reacts faster than the pyranose form. Corresponding syntheses of the pyrimidine nucleosides uridine and cytidine from uracil , cytosine and ribose are more problematic and remain an enigma. The recent conversion of glycolaldehyde‐ O ‐phosphate and formaldehyde to ribose‐2,4‐di‐ O ‐phosphate might give new insights into the prebiotic syntheses of uridine and cytidine. The evidence and hypotheses for these prebiotic conversions and the evolution of RNA, as well as the implications of an “RNA World,” have been reviewed. These RNA nucleosides are reduced in vivo as 5′‐ O ‐diphosphates by ribonucleotide reductases to the corresponding 2′‐deoxynucleosides—the building blocks of DNA such as 2′‐deoxyguanosine. The thermodynamically controlled synthesis of these four building blocks of RNA has implications for the design of efficient, high yielding, new methods for the synthesis of the naturally occurring nucleosides, nucleoside antibiotics, and modified nucleosides that may serve as antimetabolites to fight viral and parasitic diseases and cancer. The nucleoside rings in this chapter are depicted arbitrarily in the anti conformation, as occurs predominantly in the crystal and solution (based primarily on NOE‐ 1 H‐ and 13 C‐NMR measurements) forms of pyrimidine nucleosides. Only a few nucleosides, such as 6‐methyluridine, occur with the heterocyclic ring predominantly in the syn conformation. The synthesis of C ‐nucleosides has been reviewed previously and is not covered in this review.
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