箱中之光--带有光阱通风系统的光生物学检查室，用于研究布氏杆菌和布氏杆菌的真菌表面培养物。

Q1 Agricultural and Biological Sciences Fungal Biology and Biotechnology Pub Date : 2023-05-29 DOI:10.1186/s40694-023-00159-w

Pamela Vrabl, Maria Zottele, Lucia Colleselli, Christoph Walter Schinagl, Laura Mayerhofer, Bianka Siewert, Hermann Strasser

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引用次数: 0

摘要

Metarhizium 属真菌和 Beauveria 属真菌的生活方式多种多样，它们既是寄生菌、内生菌，又是昆虫病原体，因此在自然栖息地会暴露在不同的光照条件下，这使得它们很有可能完全适应光照。虽然关于这两个属的研究为数不多，但这一领域的研究仍处于起步阶段，数据资料也仅限于少数真菌物种。因此，这项工作的目的是探索光如何影响布氏杆菌（M. brunneum）（MA 43，前身为 M. anisopliae var. anisopliae BIPESCO 5/F52）和布氏杆菌（B. brongniartii）（BIPESCO 2）两种工业相关菌株的生长、分生孢子的产生和次生代谢物的形成。为此，我们建造了一个易于调节的照明装置，用于在培养皿上对真菌进行高度标准化的光生理学研究，即所谓的 "光盒"（LIGHT BOX）。借助该装置，我们在 25 °C 的 S4G 或 S2G 琼脂上，在完全黑暗或红光（λpeak = 635 nm）、绿光（λpeak = 519 nm）或蓝光（λpeak = 452 nm）的持续照射下，培养了 14 天的布氏杆菌和布氏杆菌。此外，对每种波长还测试了不同光照强度的影响，即红光强度从 22.1 ± 0.1 到 136.5 ± 0.3 µW cm-2，绿光强度从 16.5 ± 0.1 到 96.2 ± 0.1 µW cm-2，蓝光强度从 56.1 ± 0.2 到 188.9 ± 0.6 µW cm-2。两种真菌在生长、分生孢子产生、色素沉着和形态方面都对波长和照射强度的变化做出了强烈反应。在绿光和蓝光照射下，众所周知的次生代谢物卵孢子素的产生也随波长的变化而增加。已建立的 LIGHT BOX 系统不仅能优化这些生物技术相关真菌的分生孢子产量，还能对其他真菌进行光生物学探索。

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Light in the box-photobiological examination chamber with light trap ventilation system for studying fungal surface cultures illustrated with Metarhizium brunneum and Beauveria brongniartii.

Due to their versatile way of life as saprophytes, endophytes, and entomopathogens, fungi of the genera Metarhizium and Beauveria are exposed to varying illumination conditions in their natural habitats, which makes a thorough adaptation to light very likely. While the few available studies for these genera support this assumption, research in this field is still in its infancy and the data material restricted to only a few fungal species. Thus, the aim of this work was to explore how light influences growth, conidial production and secondary metabolite formation of two industrial relevant strains of M. brunneum (MA 43, formerly M. anisopliae var. anisopliae BIPESCO 5/F52) and B. brongniartii (BIPESCO 2). To achieve this, we constructed an easily adjustable illumination device for highly standardized photophysiological studies of fungi on Petri dishes, the so-called LIGHT BOX. With the aid of this device, M. brunneum and B. brongniartii were grown on S4G or S2G agar at 25 °C for 14 days either in complete darkness or under constant illumination with red light (λ_peak = 635 nm), green light (λ_peak = 519 nm) or blue light (λ_peak = 452 nm). In addition, for each wavelength the effect of different illumination intensities was tested, i.e., intensities of red light ranging from 22.1 ± 0.1 to 136.5 ± 0.3 µW cm^-2, green light from 16.5 ± 0.1 to 96.2 ± 0.1 µW cm^-2, and blue light from 56.1 ± 0.2 to 188.9 ± 0.6 µW cm^-2. Both fungi strongly responded in terms of growth, conidial production, pigmentation and morphology to changes in the wavelength and irradiation intensity. The wavelength-dependent production of the well-known secondary metabolite oosporein which is secreted by the genus Beauveria in particular, was also increased under green and blue light exposure. The established LIGHT BOX system allows not only to optimize conidial production yields with these biotechnologically relevant fungi, but also allows the photobiological exploration of other fungi.

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