Influence of Zn2+ on yeast-mycelium dimorphism and exopolysaccharide production by the fungus Aureobasidium pullulans grown in a defined medium in continuous culture.

M Reeslev, B B Jørgensen, O B Jørgensen
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引用次数: 18

Abstract

The yeast-mycelium dimorphism of Aureobasidium pullulans was studied in continuous culture in a defined medium. At a constant dilution rate (0.08 h-1) the morphological status of the culture could be controlled by the input concentration of Zn2+. As the input concentration of Zn2+ was increased (in intervals from 0 to 7.6 microM) the culture shifted from a zinc-limited to a carbon-limited state. In this interval the culture gradually passed through three growth regimes based on morphology and concentration of exopolysaccharide and biomass. The first growth regime was found when the input concentration of Zn2+ was kept below 0.45 microM. Growth in this regime was zinc-limited and more than 90% of the biomass was in the yeast growth form. An increase in the input concentration of Zn2+ in this growth regime led to a proportional increase in both the biomass and the concentration of exopolysaccharide. When the input concentration of Zn2+ was varied between 0.45 microM and 0.80 microM a second growth regime could be detected where simultaneous limitations in two nutrients were recognized. Although the carbon source (glucose) was exhausted an increase in the input concentration of Zn2+ led to a proportional increase in the steady-state biomass concentration. The increase in biomass concentration was at the expense of exopolysaccharide production, which gradually decreased. The culture, still being primarily limited by Zn2+, remained in the yeast growth form. In a third growth regime (input concentration of Zn2+ above 0.80 microM) no increase in the steady-state biomass was seen when the input concentration of Zn2+ was increased.(ABSTRACT TRUNCATED AT 250 WORDS)

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Zn2+对在特定培养基中连续培养的普鲁兰金黄色葡萄球菌酵母-菌丝二态性和胞外多糖产量的影响。
在确定的培养基中连续培养,研究了普鲁兰小孢子菌的酵母-菌丝体二态性。在一定稀释率下(0.08 h-1), Zn2+的输入浓度可以控制培养物的形态状态。随着Zn2+输入浓度的增加(间隔从0到7.6微米),培养物从限锌状态转变为限碳状态。在此期间,根据胞外多糖和生物量的形态和浓度,培养逐渐经历了三个生长机制。当Zn2+输入浓度保持在0.45微米以下时,出现了第一个生长状态。在这种情况下,生长受到锌的限制,超过90%的生物量以酵母生长形式存在。在这种生长状态下,Zn2+输入浓度的增加导致生物量和胞外多糖浓度的成比例增加。当Zn2+输入浓度在0.45和0.80微米之间变化时,可以检测到第二种生长状态,其中两种营养物质同时受到限制。虽然碳源(葡萄糖)已经耗尽,但随着Zn2+输入浓度的增加,稳态生物量浓度呈比例增加。生物量浓度的增加是以胞外多糖产量为代价的,胞外多糖产量逐渐减少。培养物仍然主要受到Zn2+的限制,保持酵母生长形式。在第三种生长状态下(Zn2+输入浓度大于0.80微米),随着Zn2+输入浓度的增加,稳态生物量没有增加。(摘要删节250字)
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