芽孢杆菌对各种非生物胁迫因子的产吲哚-3-乙酸研究

Q4 Agricultural and Biological Sciences
Piriya Latha Veerasamy, F. A. Zakry, W. S. King, S. Kasim, M. Malahubban
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引用次数: 0

摘要

植物激素吲哚-3-乙酸(IAA)在植物无性繁殖过程中对主根、侧根和不定根的形成和萌发起着至关重要的作用。植物从不同的土壤植物相关根瘤菌群中自然地接受IAA。然而,根菌合成IAA受到非生物生长条件的影响。以3株本土芽孢杆菌为研究对象,研究了温度、盐度和pH等非生物因素对其生长和IAA产量的影响。所有分离株在25 ~ 40℃条件下均生长良好,只有B. megaterium UPMLH3在40℃条件下能够合成IAA(21.18µg/ml)。三种细菌在盐胁迫下的生长均较对照(0% NaCl)略有下降,但在1% NaCl条件下仍能产生IAA。蜡样芽孢杆菌UPMLH24对高达5% NaCl的盐分具有较高的抗性。3种芽孢杆菌的最佳生长条件均为pH = 7。蜡状芽孢杆菌UPMLH1和UPMLH24在微碱性条件下(pH为8)IAA产量较高。不同根杆菌对不同的非生物因子表现出不同的生理特性。然而,PGPR对非生物因子的多重耐受能力表明其能够在恶劣的土壤和植物环境下生存,同时为植物带来益处。因此,蜡样芽孢杆菌UPMLH1、巨型芽孢杆菌UPMLH3和蜡样芽孢杆菌UPMLH24可能作为潜在的生物肥料,在各种环境条件下提高被试植物的生长性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Indole-3-acetic acid production by rhizobacteria Bacillus spp. to various abiotic stress factors
Indole-3-acetic acid (IAA) phytohormone plays an essential role in forming and initiating main, lateral, and adventitious roots in vegetative propagation. Plants are receiving IAA naturally from a diverse group of soil-plant associated rhizobacteria. However, IAA synthesis by rhizobacteria is influenced by abiotic growth conditions. Three indigenous Bacillus isolates were subject to in vitro assay for the effects of abiotic factors (temperature, salinity and pH) on growth and IAA production. All isolates grew well between 25 - 40°C, and only B. megaterium UPMLH3 was capable of synthesising IAA (21.18 µg/ml) at 40°C. All three bacterial growth under saline stress were slightly dropped over control (0% NaCl), but still producing IAA up to 1% NaCl condition. B. cereus UPMLH24 revealed high resistance to salinity up to 5% NaCl. The optimum growth of all three Bacillus spp. was at pH 7. B. cereus UPMLH1 and UPMLH24 discovered higher IAA production in slightly alkaline conditions (pH 8). Each rhizobacterium shows different physiology trait against each abiotic factor. However, the multiple tolerance ability of PGPR against abiotic factors is an indication that its ability to survive under harsh soil and plant environments while delivering benefits to the plant. Thus, B. cereus UPMLH1, B. megaterium UPMLH3 and B. cereus UPMLH24 might serve as potential biofertiliser, enhancing the growth performance of test plants at various environmental conditions.
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来源期刊
Journal of Phytology
Journal of Phytology Agricultural and Biological Sciences-Plant Science
CiteScore
1.40
自引率
0.00%
发文量
17
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