IAA Producing Endopytic Fungus Fusariun oxysporum wlw Colonize Maize Roots and Promoted Maize Growth Under Hydroponic Condition

A. Mehmood, N. Khan, M. Irshad, Muhammad Hamayun, Ismail, Husna, Arooj Javed, A. Hussain
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引用次数: 26

Abstract

Indole-3-acetic acid (IAA) is known for their role in plant root interactions with microbial partners. Current study was focused on role of IAA as signal for colonization between endopytic fungus Fusariun oxysporum wlw and maize roots. Culture filtrate of te strain contained 31 of IAA μg/mL of IAA. Addition of tryptophan concentration ranging from 500 to 1000 μg/mL in culture medium significantly enhanced production of IAA by Fusariun oxysporum wlw. The strain effectively colonized the roots of maize and subsequently enhanced the growth and proliferation of host plant. In order to demined the role of IAA in root colonization by F. oxysporum we inhibited the biosynthesis of IAA by using IAA biosynthesis inhibitor wice efficiently reduced te colonization of F. oxysporum in maize roots by 46% (foliar application) and 62% (root application) of the seedlings without yucasin (IAA biosynthesis inhibitor) treatment suggesting an IAA crosstalk between the two partners. Exogenous application of IAA restored the ability of endophyte F. oxysporum to colonize maize roots and significantly improved different growth parameters of maize seedlings. It is concluded that a molecular crosstalk of maize roots and endophytic F. oxysporum wlw is necessary for subsequent endophytic association between them.
水培条件下产生IAA的内生真菌尖孢镰刀菌定殖玉米根系,促进玉米生长
吲哚-3-乙酸(IAA)因其在植物根系与微生物伴侣相互作用中的作用而闻名。目前的研究主要集中在IAA作为内生真菌枯萎菌(Fusariun oxysporum wlw)与玉米根系定殖的信号。菌株培养滤液中IAA含量为31 μg/mL。在培养基中添加500 ~ 1000 μg/mL的色氨酸可显著提高镰刀菌的IAA产量。该菌株能有效地定殖玉米根部,从而促进寄主植物的生长和增殖。为了确定IAA在玉米尖孢霉定殖中的作用,我们通过使用IAA生物合成抑制剂抑制玉米尖孢霉的生物合成,使未使用yucasin (IAA生物合成抑制剂)处理的玉米尖孢霉在玉米根上的定殖分别减少46%(叶面施用)和62%(根施用),表明两者之间存在IAA互扰。外源施用IAA恢复了内生真菌尖孢霉在玉米根系的定殖能力,显著改善了玉米幼苗的各项生长参数。因此,玉米根系与内生真菌尖孢镰刀菌wlw之间的分子串扰对于二者之间的内生关联是必要的。
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