大肠杆菌中的细胞分裂和原噬菌体诱导:核苷酸水平的研究
Cell division and prophage induction in Escherichia coli: studies of nucleotide levels.
作者信息
Ruff W, Kirby E P, Goldthwait D A
出版信息
J Bacteriol. 1971 Jun;106(3):994-1004. doi: 10.1128/jb.106.3.994-1004.1971.
Cell division and prophage repression in the Escherichia coli mutant, T-44, are very sensitive to the levels of certain purine and pyrimidine derivatives in the media. The hypothesis that a change in the level of an adenine derivative in the small molecule pool of this strain was responsible for prophage induction and filament formation was tested. The nucleoside triphosphate pools in T-44 and C-600 nonlysogenic and lysogenic strains were labeled in experiments with (32)P and (33)P. Cultures were mixed, and the nucleotides were isolated. When adenine was present, the level of adenosine triphosphate (ATP) in T-44 compared to C-600 (as indicated by the isotope ratio) was increased up to twofold. Most of the other nucleotides increased but not to the same degree. In the lysogenic strain guanosine triphosphate and deoxycytidine triphosphate showed increases comparable to ATP, whereas increases noted in the deoxynucleotides in T-44 +/- lambda with adenine present were less. In experiments where T-44 and C-600 were incubated with (3)H- and (14)C-adenine, the levels of several compounds, including ATP, were slightly elevated in T-44. The combined data suggest that cultures of T-44 +/- lambda, grown in the presence of adenine, show a preferential increase in the level of ATP when compared to C-600 +/- lambda, but the increase in relation to the other nucleotides is less than twofold. In the experiment with (3)H- and (14)C-adenine, the level of inosine was found to be increased in T-44 relative to C-600. Cyclic AMP, when added to cultures of T-44 under various conditions, had no effect on prophage induction. Intracellular and extracellular levels of cyclic AMP in T-44 compared to C-600, incubated with had-acidin, guanosine, and cytidine (HGC) or with HGC plus adenine, were not significantly different. No compelling evidence for altered nucleotide metabolism in T-44 +/- lambda as a cause of prophage induction or filament formation was obtained.
大肠杆菌突变体T - 44中的细胞分裂和原噬菌体抑制对培养基中某些嘌呤和嘧啶衍生物的水平非常敏感。本研究检验了一种假说,即该菌株小分子池中腺嘌呤衍生物水平的变化是导致原噬菌体诱导和丝状形成的原因。在实验中,用³²P和³³P对T - 44以及C - 600非溶原性和溶原性菌株中的核苷三磷酸池进行标记。将培养物混合,然后分离核苷酸。当存在腺嘌呤时,与C - 600相比,T - 44中三磷酸腺苷(ATP)的水平(由同位素比率表明)增加了两倍。大多数其他核苷酸也有所增加,但程度不同。在溶原性菌株中,三磷酸鸟苷和三磷酸脱氧胞苷的增加与ATP相当,而在存在腺嘌呤的情况下,T - 44±λ中脱氧核苷酸的增加较少。在用³H - 和¹⁴C - 腺嘌呤培养T - 44和C - 600的实验中,T - 44中包括ATP在内的几种化合物的水平略有升高。综合数据表明,在腺嘌呤存在下生长的T - 44±λ培养物与C - 600±λ相比,ATP水平优先增加,但相对于其他核苷酸的增加不到两倍。在用³H - 和¹⁴C - 腺嘌呤的实验中,发现T - 44中肌苷的水平相对于C - 600有所增加。在各种条件下将环磷酸腺苷添加到T - 44培养物中,对原噬菌体诱导没有影响。与用己糖胺、鸟苷和胞苷(HGC)或HGC加腺嘌呤培养的C - 600相比,T - 44中环磷酸腺苷的细胞内和细胞外水平没有显著差异。没有获得令人信服的证据表明T - 44±λ中核苷酸代谢改变是原噬菌体诱导或丝状形成的原因。
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