Induction of mutation in Neurospora Crassa using neem (Azadirachta Indica A. Juss) leaf extract

Rikta Khatun, Sanchita Saha, Mohammad Nurul Islam, G. M. A. Amin
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Abstract

Filamentous fungus has been used as a significant source of biotechnological applications. Neurospora crassa, a type of red bread mold, has been well recognized as a model system in fundamental scientific investigations. It can be effectively utilized as a valuable resource for molecular tools, and many mutations are available. Furthermore, N. crassa exhibits rapid growth and has no harmful properties. These characteristics indicate a significant, although unexplored, capacity of this fungus for use in biotechnological endeavors. The present investigation aimed to induce morphological changes in the N. crassa wild type by employing leaf extracts derived from Azadirachta indica A. Juss. To determine the mutagenic and growth-inhibitory effects of A. indica leaves, morphological mutants were identified and individually examined. Six morphological mutants such as albino (al), cauliflower (clf), conidial band (co.band), ropy light (ro.lig), dirty (dir), and ropy (ro) were obtained from the conidia of the wild-type N. crassa Ema (5297) strain, treated with A. indica A. Juss. leaf extracts. These mutants were compared to the wild-type, natural form of the organism in terms of their morphology, radial growth, and reproduction ability. Apparent variations were observed when a comparative study of Ema and the selected morphological mutants was undertaken. Linkage among the selected mutants in their specific linkage group was determined. Ropy, dirty, and albino were all linked to leu-3 (linkage group I), conidial-band and ropy light to trp-1 (linkage group III), and cauliflower to trp-4 (linkage group VII). Complementation was not observed in similar morphological N. crassa mutants. Dhaka Univ. J. Biol. Sci. 33(1): 79-98, 2024 (January)
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使用印楝(Azadirachta Indica A. Juss)叶提取物诱导 Neurospora Crassa 发生突变
丝状真菌一直是生物技术应用的重要来源。十字花科黑孢菌(Neurospora crassa)是一种红色面包霉,已被公认为基础科学研究的模型系统。它可以被有效地用作分子工具的宝贵资源,而且有许多突变。此外,N. crassa 生长迅速,没有任何有害特性。这些特点表明,这种真菌在生物技术领域的应用潜力巨大,尽管尚未得到开发。本研究旨在利用从 Azadirachta indica A. Juss.提取的叶提取物诱导 N. crassa 野生型发生形态变化。为了确定 A. indica 叶片的诱变和生长抑制作用,对形态突变体进行了鉴定和单独检测。从野生型 N. crassa Ema(5297)菌株的分生孢子中获得了六个形态突变体,如白化突变体(al)、菜花突变体(clf)、分生孢子带突变体(co.band)、喙光突变体(ro.lig)、脏突变体(dir)和喙突变体(ro)。这些突变体在形态、径向生长和繁殖能力方面与野生型天然生物进行了比较。在对 Ema 和所选形态突变体进行比较研究时,观察到了明显的差异。确定了所选突变体在其特定连接组中的连接关系。Ropy、dirty和albino均与leu-3(连锁组I)连锁,分生孢子带和ropy light与trp-1(连锁组III)连锁,花椰菜与trp-4(连锁组VII)连锁。在形态相似的 N. crassa 突变体中未观察到互补。33(1):79-98, 2024 (January)
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