氘标记花青素的简化流式光合作用。

IF 0.9 4区 医学 Q4 BIOCHEMICAL RESEARCH METHODS
Torben Lund, Niels Jacob Krake, Poul Erik Hansen, Fatima AlZahraa Alatraktchi
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引用次数: 0

摘要

通过简化的水中流动光合作用,从氘标记的酚嗪甲硫酸盐制备出克级规模的氘标记焦花青素。主要产物是质子化红色形式的焦花青素-d3(Pyo-d3-H+),收率为 85%。核磁共振的量子化学计算证明氮-10 是质子化的。通过 LC-MS 和 NMR 对光解过程中的副产物和光解混合物的稳定性进行了仔细鉴定。确定了四种副产物:9% 的异构体、4% 的 8-羟基花青素-d3、0.4% 的 1-羟基酚嗪和 1% 的酚嗪。Pyo-d3-H+ 产物在 8°C 的光解溶液中可稳定存放 2.5 年。用萨里法从红色光解溶液中分离出了纯净的蓝色芘氰-d3 粉末,收率为 94%。在铜绿假单胞菌培养物中加入 Pyo-d3-H+ (100 μM)和商用花青素(100 μM)的红色光解溶液,显示出相同的生长曲线,表明光解溶液中的微量杂质不会影响细菌的生长行为。质子化氘标记的焦花青素可直接用于生物实验,因此该方法对生物学家来说非常简单实用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simplified Flow Photosynthesis of Deuterium-Labeled Pyocyanin.

Deuterium-labeled pyocyanin was prepared from deuterium-labeled phenazine methosulfate in gram scale by a simplified flow photosynthesis in water. The main product was the protonated red form of pyocyanin-d3 (Pyo-d3-H+) in 85 % yield. Quantum chemical calculations of NMR support that nitrogen-10 is protonated. The by-products of the photolysis and the stability of the photolysis mixture were carefully characterized by LC-MS and NMR. Four by-products were identified: An isomer of pyocyanin-d3 (9%), 8-hydroxypyocyanin-d3 (4%), 1-hydroxyphenazine (0.4%), and phenazine (1%). The Pyo-d3-H+ product was stable in the photolysis solution after storage at 8°C for 2.5 years. Pure blue pyocyanin-d3 powder was isolated from the red photolysis solution by the Surrey method in 94 % yield. The addition of the red photolysis solution of Pyo-d3-H+ (100 μM) and commercial pyocyanin (100 μM) to Pseudomonas aeruginosa cultures showed the same growth curves demonstrating that the minor impurities in the photolysis solution do not affect the growth behavior of the bacteria. The protonated deuterium-labeled pyocyanin may be used directly in biological experiments, which make the methodology extremely simple and useful for biologists.

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来源期刊
CiteScore
3.30
自引率
0.00%
发文量
57
审稿时长
1 months
期刊介绍: The Journal of Labelled Compounds and Radiopharmaceuticals publishes all aspects of research dealing with labeled compound preparation and applications of these compounds. This includes tracer methods used in medical, pharmacological, biological, biochemical and chemical research in vitro and in vivo. The Journal of Labelled Compounds and Radiopharmaceuticals devotes particular attention to biomedical research, diagnostic and therapeutic applications of radiopharmaceuticals, covering all stages of development from basic metabolic research and technological development to preclinical and clinical studies based on physically and chemically well characterized molecular structures, coordination compounds and nano-particles.
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