Identification and characterization of a new branching mutant of Neurospora intermedia from nature

A. Mukati, H. Vyas, A. Vyas
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Abstract

Neurospora has been studied extensively to understand various phenomenon of fungal growth and morphogenesis. Fungal morphogenesis is a complex process which includes important aspects like polarized extension of the hyphal tip and hyphal branching. Observations at the tip have shown that growth vesicles arrive at the tip from proximal locations, and then seem to be distributed into the tip dome by the spitzenkorper. No specific mechanism has been defined for branching. Several theories have been proposed for branching that can be broadly divided into two groups. One group supports the mechanism involving origin of branch initiation factors at the hyphal tips (Bachewich and Heath, 1997; Kaminskyj and Heath, 1996; Riquelme and Bartnicki-Garcia, 2004; Watters and Griffiths, 2001). Other group suggests that the signals for branch initiation originate from within the colony or mycelial body (Prosser and Trinci, 1979; Trinci, 1974; Watters, 2006). Watters et al., (2000) proposed that the branching initiation is not completely controlled by the tip but, to some extent by factors occurring at previous branch point. Trinci (1974) proposed that mutation or factor which reduces the maximum rate of tip extension without disturbing the rate of vesicle production would results in an increase in the frequency of branch initiation without reducing the overall rate of hypha formation. Recently it has been found that the fungal growth rate show relationship with the frequency of hyphal branching (Watters et al., 2008, 2011). In this paper we describe a naturally occurring mutant of N. intermedia which shows defect in branching and the inheritance of this defect in the progeny.
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一株天然中间神经孢子菌分枝突变体的鉴定与鉴定
人们对神经孢子菌进行了广泛的研究,以了解真菌生长和形态发生的各种现象。真菌形态发生是一个复杂的过程,包括菌丝尖端的极化延伸和菌丝分支等重要方面。在尖端的观察表明,生长囊泡从近端到达尖端,然后似乎通过spitzenkorper分布到尖端穹窿中。没有为分支定义特定的机制。关于分支,人们提出了几种理论,大致可以分为两类。一个小组支持涉及菌丝尖端分支起始因子起源的机制(Bachewich和Heath, 1997;Kaminskyj and Heath, 1996;Riquelme and Bartnicki-Garcia, 2004;Watters and Griffiths, 2001)。另一组认为分支形成的信号来自菌落或菌丝体内部(Prosser和Trinci, 1979;Trinci, 1974;继续萎缩,2006)。Watters et al.,(2000)提出分支的发生并不完全由尖端控制,而是在一定程度上由前一个分支点发生的因素控制。Trinci(1974)提出,在不干扰囊泡产生速率的情况下,降低最大尖端延伸速率的突变或因子会导致分支起始频率的增加,而不会降低菌丝形成的总体速率。最近发现真菌的生长速度与菌丝分支的频率有关(Watters et al., 2008, 2011)。本文描述了一种具有分枝缺陷的自然突变体,以及这种缺陷在后代中的遗传。
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