GRULA M M, GRULA E A
J Bacteriol. 1962 May;83(5):989-97. doi: 10.1128/jb.83.5.989-997.1962.
Grula, Mary M. (Oklahoma State University, Stillwater) and E. A. Grula. Cell division in a species of Erwinia. IV. Metabolic blocks in pantothenate biosynthesis and their relationship to inhibition of cell division. J. Bacteriol. 83:989-997. 1962.-Four compounds that inhibit cell division in an Erwinia sp., d-serine, d-histidine, d-phenylalanine, and penicillin, decrease the intracellular pantothenate content of Erwinia at culture ages of 10 and 16 hr. In the case of penicillin, it appears to be the result of excessive leakage from long cells; however, with the three d-amino acids, there is a genuine inhibition of synthesis. Among agents tested that reverse the inhibition of division, only pantoyl lactone, and to a lesser extent, omega-methylpantoyl lactone, restore intracellular content of pantothenate. This restoration is considerably less effective with d-serine as a division-inhibiting agent than with the others. Other lactones, l-alpha-alanine, and ammonium chloride are ineffective, or only slightly effective, in restoring pantothenate synthesis. Effects of division-inhibiting compounds and reversing agents upon cellular coenzyme A activity in general parallel their effects on pantothenate synthesis. There is no direct correlation between ability of a compound to reverse cell-division inhibition and ability to restore synthesis of either pantothenic acid or coenzyme A. Evidence is presented that d-serine interferes with the utilization of aspartic acid and also blocks synthesis of pantoic acid. Compounds (including glucose) which tend to produce long cells result in the accumulation of pyruvic acid in the growth medium. Pantoic acid reduces, and pantoyl lactone abolishes completely, this accumulation of pyruvate. Other reversing agents do not abolish the pyruvate accumulation.
格鲁拉,玛丽·M.(俄克拉荷马州立大学,斯蒂尔沃特)和E.A.格鲁拉。欧文氏菌属一种细菌的细胞分裂。IV.泛酸生物合成中的代谢阻断及其与细胞分裂抑制的关系。《细菌学杂志》83:989 - 997。1962年。——四种抑制欧文氏菌属一种细菌细胞分裂的化合物,即d - 丝氨酸、d - 组氨酸、d - 苯丙氨酸和青霉素,在培养10小时和16小时时会降低欧文氏菌细胞内泛酸的含量。就青霉素而言,这似乎是长细胞过度渗漏的结果;然而,对于三种d - 氨基酸,存在对合成的真正抑制。在测试的能逆转分裂抑制的试剂中,只有泛酰内酯,以及程度稍轻的ω - 甲基泛酰内酯,能恢复细胞内泛酸的含量。以d - 丝氨酸作为分裂抑制剂时,这种恢复效果比其他抑制剂要差得多。其他内酯、L - α - 丙氨酸和氯化铵在恢复泛酸合成方面无效或效果甚微。一般来说,抑制分裂的化合物和逆转试剂对细胞辅酶A活性的影响与其对泛酸合成的影响平行。一种化合物逆转细胞分裂抑制的能力与恢复泛酸或辅酶A合成的能力之间没有直接相关性。有证据表明,d - 丝氨酸会干扰天冬氨酸的利用,还会阻断泛解酸的合成。倾向于产生长细胞的化合物(包括葡萄糖)会导致生长培养基中丙酮酸的积累。泛解酸可减少这种积累,泛酰内酯则可完全消除丙酮酸的积累。其他逆转试剂不能消除丙酮酸的积累。