JEFFERSON W E, SISCO G
J Gen Physiol. 1961 Jul;44(6):1029-45. doi: 10.1085/jgp.44.6.1029.
The yield of Aspergillus niger mycelium from a synthetic medium can be increased by the addition of microgram quantities of cholesterol, ergosterol, cholestanol, 7-dehydrocholesterol, stigmasterol, sitosterol, pregnenolone, and the vitamins D. The stimulation is not due to degradation to the acetate level. It is obtained only in highly aerated cultures. The rate of growth of Torula utilis was not increased. Both organisms were inhibited by desoxycorticosterone, testosterone, androstenedione, cortisone acetate, progesterone, and diethylstilbestrol. T. utilis was also inhibited by estradiol. A small decrease in progesterone inhibition of T. utilis was obtained by adding ergosterol, cholesterol, or pregnenolone. Of the compounds which have been adequately tested the order of stimulatory activity for A. niger is: ergosterol > cholesterol > stigmasterol > 7-dehydrocholesterol > cholestanol > pregnenolone. Progesterone was inhibitory at low concentrations but stimulatory at higher ones, while 17-hydroxyprogesterone was neither inhibitory nor stimulatory. Desoxycorticosterone and testosterone were inhibitory at all concentrations. Complete inhibition of the growth of the fungus was not obtained with any of the steroids. It is concluded that A. niger has a metabolic requirement for a steroid with a hydroxy group on carbon 3, a double bond in the 5-6 position, and a side chain similar to that in ergosterol or cholesterol and that this material is growth-limiting in the early stages of the cultures described.
在合成培养基中添加微克量的胆固醇、麦角固醇、胆甾烷醇、7-脱氢胆固醇、豆甾醇、谷甾醇、孕烯醇酮和维生素D,可提高黑曲霉菌丝体的产量。这种刺激并非由于降解为乙酸盐水平所致。仅在高度通气的培养物中才能获得这种刺激。产朊假丝酵母的生长速率并未提高。脱氧皮质酮、睾酮、雄烯二酮、醋酸可的松、孕酮和己烯雌酚对这两种微生物均有抑制作用。产朊假丝酵母也受到雌二醇的抑制。添加麦角固醇、胆固醇或孕烯醇酮可使孕酮对产朊假丝酵母的抑制作用略有降低。在已充分测试的化合物中,对黑曲霉的刺激活性顺序为:麦角固醇>胆固醇>豆甾醇>7-脱氢胆固醇>胆甾烷醇>孕烯醇酮。孕酮在低浓度时具有抑制作用,但在高浓度时具有刺激作用,而17-羟孕酮既无抑制作用也无刺激作用。脱氧皮质酮和睾酮在所有浓度下均有抑制作用。任何一种类固醇都不能完全抑制真菌的生长。得出的结论是,黑曲霉对一种在碳3位上带有羟基、在5-6位上有双键且侧链与麦角固醇或胆固醇相似的类固醇有代谢需求,并且这种物质在所描述培养物的早期阶段是生长限制因素。