与杆菌溶素生物合成相关的实验。
Experiments relating to the biosynthesis of bacilysin.
作者信息
Roscoe J, Abraham E P
出版信息
Biochem J. 1966 Jun;99(3):793-800. doi: 10.1042/bj0990793.
Abstract
- Bacilysin, a peptide which yields l-alanine and l-tyrosine on acid hydrolysis, was produced by a strain of Bacillus subtilis (A 14) in a chemically defined medium containing glucose, ammonium acetate or ammonium chloride, potassium phosphate and other inorganic salts, and ferric citrate. 2. Under the conditions used growth was diphasic. Bacilysin was formed during the second phase of slower growth, and there was little production during the stationary phase. Nevertheless, bacilysin production occurred when protein synthesis was inhibited by chloramphenicol. It thus appears that there is no obligatory coupling of protein synthesis and bacilysin synthesis. 3. When dl-[1-(14)C]alanine was added to a growing culture of B. subtilis, (14)C was incorporated into bacilysin, which contains an N-terminal alanine residue. 4. Under similar conditions virtually no (14)C was incorporated into bacilysin from dl-[2-(14)C]tyrosine, l-[U-(14)C]tyrosine or [1-(14)C]acetate, although these compounds were used by the cell for the biosynthesis of other substances. These results indicate that neither tyrosine nor acetate is a precursor of the fragment of bacilysin which yields tyrosine on hydrolysis with hot 6n-hydrochloric acid. 5. The tyrosine-yielding fragment of bacilysin was labelled with (14)C from [1,6-ring-(14)C(2)]shikimic acid. The biosynthesis of bacilysin thus appears to involve a diversion from the pathway leading to aromatic amino acids at the shikimic acid stage, or a subsequent one.
摘要
- 杆菌溶素是一种在酸水解时产生L-丙氨酸和L-酪氨酸的肽,它由枯草芽孢杆菌菌株(A14)在含有葡萄糖、醋酸铵或氯化铵、磷酸钾和其他无机盐以及柠檬酸铁的化学限定培养基中产生。2. 在所用条件下,生长是双相的。杆菌溶素在生长较慢的第二阶段形成,而在稳定期几乎不产生。然而,当氯霉素抑制蛋白质合成时仍会产生杆菌溶素。因此,似乎蛋白质合成与杆菌溶素合成之间没有必然的联系。3. 当向枯草芽孢杆菌的生长培养物中添加dl-[1-(14)C]丙氨酸时,(14)C被掺入杆菌溶素中,该杆菌溶素含有一个N端丙氨酸残基。4. 在类似条件下,尽管细胞将dl-[2-(14)C]酪氨酸、L-[U-(14)C]酪氨酸或[1-(14)C]醋酸盐用于其他物质的生物合成,但几乎没有(14)C从这些化合物掺入杆菌溶素中。这些结果表明,酪氨酸和醋酸盐都不是杆菌溶素在热6N盐酸水解时产生酪氨酸的片段的前体。5. 杆菌溶素产生酪氨酸的片段用[1,6-环-(14)C(2)]莽草酸标记了(14)C。因此,杆菌溶素的生物合成似乎涉及在莽草酸阶段或随后阶段从导致芳香族氨基酸的途径中 diversion(此处可能有拼写错误,推测为“转向”之类的意思)。
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