Division of Biological Sciences, National Research Council of Canada, Ottawa, Canada KIA 0R6; and Biochemical Engineering Unit, Department of Chemical Engineering, McGill University, Montreal, Canada H3A 2A7.
Appl Environ Microbiol. 1984 Jul;48(1):137-41. doi: 10.1128/aem.48.1.137-141.1984.
After propagation of Rhizopus javanicus in defined media containing glucose, urea, and mineral salts in deionized distilled water, the ability of the nonliving biomass to sequester cupric ion was assayed. Growth, uptake capacity (saturation uptake at >1 mM Cu concentration in solution), and biosorptive yield (biomass concentration x uptake capacity) were increased by augmentation of the growth medium with mineral salts once growth was under way. In the stationary phase, the uptake capacity of mycelia, which were normally a poor biosorbent, was improved within 4 h of trace metal addition to the growth medium. Growth of the culture was inhibited by excessive concentrations (0.04 to 40 muM) of metals in the medium in the following order: Cu > Co >/= Ni > Mn > Mo; zinc was not inhibitory at 40 muM, and chromium was stimulatory at 0.53 muM but slightly inhibitory at higher levels. Iron and potassium phosphate stimulated growth at levels of 0.53 and 40 mM, respectively. When R. javanicus was propagated in a medium with a high salt concentration, exponential growth (0.23 h) to a biomass concentration of >3 g/liter and a biosorptive yield of >500 mumol/liter was achieved. It is evident that the powerful biosorbent characteristics of Rhizopus biomass led to depletion of available trace minerals in suspension culture, which in turn limited growth.
在去离子蒸馏水中含有葡萄糖、尿素和无机盐的定义介质中繁殖爪哇根霉后,测定了非生物生物量螯合铜离子的能力。一旦生长开始,用无机盐来增加生长培养基可以增加生物量的生长、吸收能力(在溶液中>1mM Cu 浓度下的饱和吸收)和生物吸附产率(生物量浓度 x 吸收能力)。在静止期,在向生长培养基中添加痕量金属后 4 小时内,通常吸附能力较差的菌丝体的吸收能力得到改善。培养基中金属的浓度过高(0.04 至 40 μM)会抑制培养物的生长,其抑制顺序为:Cu>Co≥Ni>Mn>Mo;锌在 40 μM 时没有抑制作用,铬在 0.53 μM 时刺激生长,但在较高水平时略有抑制作用。铁和磷酸钾分别在 0.53 和 40mM 时刺激生长。当在高盐浓度的培养基中繁殖爪哇根霉时,可以实现指数生长(0.23h),生物量浓度>3g/L,生物吸附产率>500μmol/L。显然,根霉生物质的强大生物吸附特性导致悬浮培养物中可用痕量矿物质耗尽,从而限制了生长。