东荪菌丝的生物学特征和培养基的优化

Polish journal of microbiology Pub Date : 2024-06-20 eCollection Date: 2024-06-01 DOI:10.33073/pjm-2024-022
Chao Kang, Xuan Zheng, Wankun Wang, Weijun Zeng, Jing Wang, Zhongxuan Liu, Ling Yang, Fang Wang, Yan Zhu
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摘要

本研究旨在阐明各种培养基成分(包括碳源、氮源、无机盐、悬浮剂和温度)对东胜菇菌丝生长特性的影响。通过在玻璃培养皿中进行单因素实验和响应面法,研究发现胡萝卜粉、大豆粉和 ZnSO4 能明显促进气生菌丝的增殖,显著提高东胜菇菌丝的生长速度。据观察,所产生的菌丝致密、粗壮、质地蓬松。特别是,硫酸锌明显加快了菌丝的生长速度。此外,研究还发现黄原胶能有效调节培养基的粘度,确保悬浮液稳定,促进营养平衡。最佳培养温度被确定为 25°C,低于 5°C 时菌丝停止生长,超过 35°C 时菌丝死亡。最佳培养基成分确定如下:小麦淀粉 5 克/升,胡萝卜粉 5 克/升,大豆粉 7.50 克/升,葡萄糖 10 克/升,ZnSO4 0.71 克/升,NH4Cl 0.68 克/升,黄原胶 0.5 克/升,琼脂 20 克/升。在这些优化条件下,东胜菇菌丝的生长速度很快(1.04 ± 0.14 毫米/天),其特点是粗壮、致密和结构发达。这项研究为东胜菇的保护、菌种选择和育种提供了理论依据。
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Biological Characteristics of the Mycelium and Optimization of the Culture Medium for Phallus dongsun.

This study aimed to elucidate the influence of various culture medium components, including carbon sources, nitrogen sources, inorganic salts, suspension agents, and temperature, on the mycelial growth characteristics of Phallus dongsun. Employing single-factor experiments and response surface methodology within glass Petri dishes, the research identified that carrot powder, soybean powder, and ZnSO4 notably enhanced the proliferation of aerial mycelium, significantly augmenting the growth rate of P. dongsun mycelium. The resultant mycelium was observed to be dense, robust, and fluffy in texture. In particular, ZnSO4 markedly accelerated the mycelium growth rate. Furthermore, xanthan gum was found to effectively modulate the medium's viscosity, ensuring a stable suspension and facilitating nutrient equilibrium. The optimal cultivation temperature was determined to be 25°C, with mycelial growth ceasing below 5°C and mycelium perishing at temperatures exceeding 35°C. The optimal medium composition was established as follows: wheat starch 5 g/l, carrot powder 5 g/l, soybean powder 7.50 g/l, glucose 10 g/l, ZnSO4 0.71 g/l, NH4Cl 0.68 g/l, xanthan gum 0.5 g/l, and agar 20 g/l. Under these optimized conditions, the mycelium of P. dongsun exhibited a rapid growth rate (1.04 ± 0.14 mm/day), characterized by a thick, dense, and well-developed structure. This investigation provides a theoretical foundation for the conservation, strain selection, and breeding of P. dongsun.

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