烟曲霉弗里斯菌菌丝体中六氢植醇、泛醌和麦角固醇生物合成的立体化学
The stereochemistry of hexahydroprenol, ubiquinone and ergosterol biosynthesis in the mycelium of Aspergillus fumigatus Fresenius.
作者信息
Stone K J, Hemming F W
出版信息
Biochem J. 1967 Jul;104(1):43-56. doi: 10.1042/bj1040043.
Abstract
- The mycelium of Aspergillus fumigatus has been shown to incorporate mevalonate into squalene, ubiquinone, ergosterol and hexahydroprenol. 2. The (3)H/(14)C ratio in ubiquinone, biosynthesized from [2-(14)C-(4R)-4-(3)H(1)]mevalonate, is the same as in the squalene; essentially no (3)H was incorporated from [2-(14)C-(4S)-4-(3)H(1)]mevalonate, indicating the biosynthesis of biogenetically trans-isoprene units. 3. The (3)H/(14)C ratio for ergosterol (from ;4R-mevalonate') was 3:5, showing that the proton at C-24 is not lost during alkylation of the side chain; it probably migrates to C-25. 4. As (3)H from both mevalonates was incorporated into the hexahydroprenols the biosynthesis of both cis- and trans-isoprene units must occur. 5. The saturated omega- and psi-isoprene units are shown to be biogenetically trans, as are two of the unsaturated residues. 6. The saturated alpha- and unsaturated beta-isoprene residues are both biogenetically cis. 7. An inexplicable loss of approximately half of the olefinic protons from the cis-portion of hexahydroprenol occurs; possible reasons for this loss are discussed. 8. Increase in chain length of the hexahydroprenols is by a cis addition. 9. A biosynthesis of hexahydroprenols by addition of cis-isoprene units to all-trans-geranylgeranyl pyrophosphate, or a dihydro or tetrahydro derivative thereof, is suggested.
摘要
- 烟曲霉的菌丝体已被证明能将甲羟戊酸掺入角鲨烯、泛醌、麦角固醇和六氢法呢醇中。2. 由[2-(14)C-(4R)-4-(3)H(1)]甲羟戊酸生物合成的泛醌中的(3)H/(14)C比值与角鲨烯中的相同;基本上没有(3)H从[2-(14)C-(4S)-4-(3)H(1)]甲羟戊酸中掺入,这表明生物合成中存在生物遗传的反式异戊二烯单元。3. 麦角固醇(来自“4R-甲羟戊酸”)的(3)H/(14)C比值为3:5,表明在侧链烷基化过程中C-24位的质子没有丢失;它可能迁移到了C-25位。4. 由于两种甲羟戊酸中的(3)H都掺入到了六氢法呢醇中,所以顺式和反式异戊二烯单元的生物合成肯定都会发生。5. 饱和的ω-和ψ-异戊二烯单元以及两个不饱和残基在生物遗传上都是反式的。6. 饱和的α-异戊二烯残基和不饱和的β-异戊二烯残基在生物遗传上都是顺式的。7. 六氢法呢醇顺式部分的烯丙基质子大约损失了一半,原因不明;文中讨论了这种损失可能的原因。8. 六氢法呢醇链长的增加是通过顺式加成实现的。9. 有人提出,六氢法呢醇是通过将顺式异戊二烯单元加到全反式香叶基香叶基焦磷酸或其二氢或四氢衍生物上生物合成的。
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