不同搅拌速率下黑曲霉B1 - D分批培养中外源和原生蛋白的分泌、生长和形态

A. Wongwicharn, L. Harvey, B. McNeil
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引用次数: 20

摘要

采用计算机图像分析技术,研究了生物反应器操作条件对含有蛋清溶酶体(HEWL)标记蛋白的黑曲霉B1-D批培养菌微观形态的影响。随着搅拌速度的增加,观察到微形态的显著差异,随着搅拌速度的增加,即使平均尖端数相似,也会出现更短的菌丝元素。这也许可以解释观察到的细胞外蛋白总量的增加,因为合成区(尖端)与非合成区的比例变得越来越有利。HEWL浓度下降到500rpm以上,可能是由于DOT(溶解氧张力)对葡萄糖淀粉酶HEWL融合的影响。在自溶阶段,HEWL易受天然蛋白酶的蛋白水解降解。这些见解可能表明,为什么在近亲中表达的来自一个霉菌的基因可以产生相当于天然酶水平的产量,而来自“遥远”来源的基因(例如高级真核基因)的分泌水平要低得多。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Secretion of heterologous and native proteins, growth and morphology in batch cultures of Aspergillus niger B1‐D at varying agitation rates
The influence of bioreactor operational conditions on the micromorphology of batch cultures of Aspergillus niger B1-D, containing a hen egg white lysozome (HEWL) marker protein, was examined using computerised image analysis. Significant differences in micromorphology were observed with increased stirrer speed, with shorter organisms with shorter hyphal elements occurring as agitation speed increased, even though mean tip numbers were similar. This may explain the observed increase in the total extracellular protein, since the ratio of synthetic (tip) to non-synthetic zones became increasingly favourable. HEWL concentrations fell above 500rpm, probably due to the effects of DOT (dissolved oxygen tension) on the glucoamylase HEWL fusion. HEWL was susceptible to proteolytic degradation, by native proteases, during the autolytic phase. Such insights may indicate why a gene from one mould expressed in a close relative can give production levels equivalent to levels of native enzymes, while secretion of a gene from a 'distant' source, eg a higher eukaryotic gene, occurs at much lower levels.
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