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Microbiological degradation of bile acids. The preparation of hexahydroindane derivatives as substrates for studying cholic acid degradation.胆汁酸的微生物降解。作为研究胆酸降解底物的六氢茚衍生物的制备。
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本文引用的文献

1
MECHANISMS OF STEROID OXIDATION BY MICROORGANISMS. IV. SECO INTERMEDIATES.微生物对类固醇氧化的机制。IV. 开环中间体。
Biochemistry. 1963 Nov-Dec;2:1238-43. doi: 10.1021/bi00906a011.
2
The synthesis of (-)-sandaracopimaradiene from androstane derivatives.
J Chem Soc Perkin 1. 1966;20:1847-56. doi: 10.1039/j39660001847.
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8-Azasteroids. 3. 8-Azaestrogens and 8-aza-19-norandrogens.
J Org Chem. 1966 May;31(5):1489-95. doi: 10.1021/jo01343a040.
4
(+)-(5R)-methyl-4-oxo-octane-1,8-dioic acid, microbiological degradation product from rings C and D of cholic acid.(+)-(5R)-甲基-4-氧代辛烷-1,8-二酸,胆酸C环和D环的微生物降解产物。
Biochem J. 1969 Mar;112(1):127-8. doi: 10.1042/bj1120127.
5
[Isolation of deoxybilianic acid, phenylacetic acid and ferulic acid from normal human urine].[从正常人尿液中分离脱氧胆酸、苯乙酸和阿魏酸]
Hoppe Seylers Z Physiol Chem. 1970 Sep;351(9):1151-3.
6
Microbiological degradation of bile acids. Ring A cleavage and 7alpha, 12alpha-dehydroxylation of cholic acid by Arthrobacter simplex.胆汁酸的微生物降解。简单节杆菌对胆酸的A环裂解及7α,12α-去羟基化作用。
Biochem J. 1969 Nov;115(2):249-56. doi: 10.1042/bj1150249.
7
Microbiological transformation of bile acids.胆汁酸的微生物转化
Adv Lipid Res. 1973;11:143-92. doi: 10.1016/b978-0-12-024911-4.50011-8.
8
Microbiological degradation of bile acids. Nitrogenous hexahydroindane derivatives formed from cholic acid by Streptomyces rubescens.胆汁酸的微生物降解。由红色链霉菌从胆酸形成的含氮六氢茚衍生物。
Biochem J. 1976 Dec 15;160(3):745-55. doi: 10.1042/bj1600745.
9
Microbiological degradation of bile acids. The preparation of some hypothetical metabolites involved in cholic acid degradation.胆汁酸的微生物降解。一些参与胆酸降解的假设性代谢产物的制备。
Biochem J. 1976 Mar 15;154(3):577-87. doi: 10.1042/bj1540577.
10
Microbiological degradation of bile acids. The preparation of hexahydroindane derivatives as substrates for studying cholic acid degradation.胆汁酸的微生物降解。作为研究胆酸降解底物的六氢茚衍生物的制备。
Biochem J. 1977 Jun 15;164(3):709-14. doi: 10.1042/bj1640709.

胆汁酸的微生物降解。由红色链霉菌对3-(3aα-六氢-7aβ-甲基-1,5-二氧代茚满-4α-基)丙酸形成的代谢产物。

Microbiological degradation of bile acids. Metabolites formed from 3-(3a alpha-hexahydro-7a beta-methyl-1,5-dioxoindan-4 alpha-yl) propionic acid by Streptomyces rubescens.

作者信息

Hashimoto S, Hayakawa S

出版信息

Biochem J. 1977 Jun 15;164(3):715-26. doi: 10.1042/bj1640715.

DOI:10.1042/bj1640715
PMID:883963
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1164852/
Abstract
  1. The metabolism of 3-(3a alpha-hexahydro-7a beta-methyl-1,5-dioxoindan-4 alpha-yl)propionic acid (III), which is a possible precursor of 2,3,4,6,6a beta, 7,8,9,9a alpha,9b beta-decahydro-6a beta-methyl-1H-cyclopenta[f]quinoline-3,7-dione (II) formed from cholic acid (I) by streptomyces rubescens, was investigated by using the same organism. 2. This organism effected amide bond formation, reduction of the carbonyl groups, trans alpha beta-desaturation and R-oriented beta-hydroxylation of the propionic acid side chain and skeleton cleavage, and the following metabolites were isolated as these forms or their derivatives: compound (II), 1,2,3,4 a beta,-5,6,6a beta,7,8,9a alpha,9b beta-dodecahydro-6a beta -methylcyclopental[f][1]benzopyran-3,7-dione (IVa), (1R)-1,2,3,4a beta,5,6,6a beta,7,8,9.9a alpha,9b beta-dodecahydro-1-hydroxy-6a beta-methylcyclopenta[f][1]benzopyran-3,7-dione (IVb), (E)-3-(3aalpha-hexahydro-5 alpha-hydroxy-7a beta-methyl-l-oxo-indan-4 alpha-yl)prop-2-enoic acid (V), (+)-(5R)-5-methyl-4-oxo-octane-1,8-dioic acid (VI), 3-(4-hydroxy-5-methyl-2-oxo-2H-pyran-6-yl)propionic acid (VII) and 3-(3a alpha-hexahydro-1 beta-hydroxy-7a beta-methyl-5-oxoindan-4 alpha-yl)propionic acid (VIII). The metabolites (IVb), (V), (VI) and (VII) were new compounds, and their structures were established by chemical synthesis. 3. The question of whether these metabolites are true degradative intermediates is discussed, and a degradative pathway of compound (III) to the possible precursor of compound (VII), 7-carboxy-4-methyl-3,5-dioxoheptanoyl-CoA (IX), is tentatively proposed. The further degradation of compound (IX) to small fragments is also considered.
摘要
  1. 研究了3-(3aα-六氢-7aβ-甲基-1,5-二氧代茚满-4α-基)丙酸(III)的代谢情况,它可能是由红链霉菌作用于胆酸(I)形成的2,3,4,6,6aβ,7,8,9,9aα,9bβ-十氢-6aβ-甲基-1H-环戊并[f]喹啉-3,7-二酮(II)的前体,研究采用的是同一微生物。2. 该微生物实现了酰胺键的形成、羰基的还原、丙酸侧链的反式αβ-去饱和化和R-取向的β-羟基化以及骨架裂解,并以这些形式或其衍生物分离出了以下代谢产物:化合物(II)、1,2,3,4aβ,-5,6,6aβ,7,8,9aα,9bβ-十二氢-6aβ-甲基环戊并[f][1]苯并吡喃-3,7-二酮(IVa)、(1R)-1,2,3,4aβ,5,6,6aβ,7,8,9.9aα,9bβ-十二氢-1-羟基-6aβ-甲基环戊并[f][1]苯并吡喃-3,7-二酮(IVb)、(E)-3-(3aα-六氢-5α-羟基-7aβ-甲基-1-氧代茚满-4α-基)丙-2-烯酸(V)、(+)-(5R)-5-甲基-4-氧代辛烷-1,8-二酸(VI)、3-(4-羟基-5-甲基-2-氧代-2H-吡喃-6-基)丙酸(VII)和3-(3aα-六氢-1β-羟基-7aβ-甲基-5-氧代茚满-4α-基)丙酸(VIII)。代谢产物(IVb)、(V)、(VI)和(VII)是新化合物,其结构通过化学合成确定。3. 讨论了这些代谢产物是否为真正的降解中间体这一问题,并初步提出了化合物(III)到化合物(VII)可能的前体7-羧基-4-甲基-3,5-二氧代庚酰辅酶A(IX)的降解途径。还考虑了化合物(IX)进一步降解为小片段的情况。