Effect of Wild-Type and Mutant Plant Growth-Promoting Rhizobacteria on the Rooting of Mung Bean Cuttings

Mayak, Shimon; Tirosh, Tsipora; Glick, Bernard R.

doi:10.1007/pl00007047

Cited by 149 publications

(57 citation statements)

References 17 publications

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“…Although IAA is known as a prominent plant growth promoter, it can also stimulate transcription of 1-aminocyclopropane-1-carboxylic acid (ACC) synthase. The latter enzyme facilitates a key step in ACC oxidasemediated ethylene biosynthesis (Mayak et al, 1999). The IAA-derived ethylene is believed to participate in the disruption of the normal growth (i.e.…”

Section: Discussionmentioning

confidence: 99%

Indole-3-acetic acid (IAA) producing Pseudomonas isolates inhibit seed germination and α-amylase activity in durum wheat (Triticum turgidum L.)

Tabatabaei

Ehsanzadeh

Etesami

et al. 2016

Span. j. agric. res.

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The role of plant-associated bacteria in plant physiology and metabolism is well documented, but little has been known about the roles played by Pseudomonas in durum wheat (Triticum turgidum L. var durum) growth and development. An in vitroexperiment was conducted to observe the effect of the inoculation of four indole-3-acetic acid (IAA)-producing Pseudomonas isolates and exogenous IAA on seed germination traits and α-amylase activity of durum wheat. The results showed inoculation with all bacterial isolates led to a decrease in the germination percent, although the extent of the depression varied with the isolate. A significant relationship between concentrations of bacterial IAA and the germination inhibition percent in durum wheat seeds by different bacteria strains was observed. The results of this assay showed the effect of bacterial isolates on α-amylase activity after six and 8 days of inoculation was significant, while effect of these isolates on α-amylase activity after two and 4 days of inoculation was not meaningful. In addition, the exogenously applied IAA displayed a concentration-dependent effect on seed germination attributes and α-amylase activity, consistent with the possibility that the inhibitory effect of bacterial inoculation on seed germination was in consequence of bacteria-produced IAA. Therefore, it may suggested that the inhibitory role of IAA in seed germination and α-amylase activity should be taken into account during the screening of IAA-producing Pseudomonas isolates for durum wheat growth promoting agents.

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Section: Discussionmentioning

confidence: 99%

Indole-3-acetic acid (IAA) producing Pseudomonas isolates inhibit seed germination and α-amylase activity in durum wheat (Triticum turgidum L.)

Tabatabaei

Ehsanzadeh

Etesami

et al. 2016

Span. j. agric. res.

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“…Besides, they utilize a simple and idealised system where it is possible to check the biotechnological potential of the studied bacterium. The use of Vigna radiata and Brassica napus have been reported widely by others (Mayak et al, 1999;Penrose & Glick, 2003;Shaharoona et al, 2006;Rashid et al, 2012). They have been mostly used in studies on the involvement of phytohormones, more specif ically auxin and ethylene, in the initiation and development of roots (Mayak et al, 1999).…”

Section: Discussionmentioning

confidence: 99%

“…The effects of bacterial strains on the development of adventitious roots on mung bean cuttings (Vigna radiata) were assessed as described by Mayak et al (1999), with minor modifications. Mung bean seeds (Wilczek) provided by Penelas Legumes, S.A. (León, Spain) were disinfected by 30 s treatment with 96% ethanol, 6 min with 6% sodium hypochlorite and six washes with sterile distilled water.…”

Section: Gnobiotic Assaysmentioning

confidence: 99%

Alternative rooting induction of semi-hardwood olive cuttings by several auxin-producing bacteria for organic agriculture systems

Montero‐Calasanz

Santamarı́a

Albareda

et al. 2013

Span. j. agric. res.

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Southern Spain is the largest olive oil producer region in the world. In recent years organic agriculture systems have grown exponentially so that new alternative systems to produce organic olive cuttings are needed. Several bacterial isolates, namely Pantoea sp. AG9, Chryseobacterium sp. AG13, Chryseobacterium sp. CT348, Pseudomonas sp. CT364 and Azospirillum brasilense Cd (ATCC 29729), have been used to induce rooting in olive semi-hardwood cuttings of Arbequina, Hojiblanca and Picual cultivars of olive (Olea europea L). The first four strains were previously selected as auxin-producing bacteria and by their ability to promote rooting in model plants. They have been classified on the basis of their 16S rDNA gene sequence. The known auxin producer A. brasilense Cd strain has been used as a reference. The inoculation of olive cuttings was performed in two different ways: (i) by dipping cuttings in a liquid bacterial culture or (ii) by immersing them in a paste made of solid bacterial inoculant and sterile water. Under nursery conditions all of the tested bacterial strains were able to induce the rooting of olive cuttings to a similar or greater extent than the control cuttings treated with indole-3-butyric acid (IBA). The olive cultivars responded differently depending on the bacterial strain and the inoculation method. The strain that consistently gave the best results was Pantoea sp. AG9, the only one of the tested bacterial strains to express the enzyme 1-aminocyclopropane-1-carboxylate (ACC) deaminase. The results are also discussed in terms of potential commercial interest and nursery feasibility performance of these strains.

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“…In some of the plants, ACC is exuded from roots or seeds and then taken up by the bacterium and cleaved by ACC deaminase to ammonia and α-ketobutyrate . The bacteria utilize the ammonia evolved from ACC as a nitrogen source and thereby decrease ACC within the plant (Penrose and Glick, 2001) with the concomitant reduction of plant ethylene and promoting root elongation (Burd et al, 1998;Mayak et al, 1999;Grichko and Glick, 2001;Belimov et al, 2002). To maintain the gradient between internal and external ACC levels, the plant must exude increasing amounts of ACC.…”

Section: Rhizobacteria Secretionmentioning

confidence: 99%

Role of soil rhizobacteria in phytoremediation of heavy metal contaminated soils

Jing

2007

J. Zhejiang Univ. - Sci. B

386

159

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Heavy metal pollution of soil is a significant environmental problem and has its negative impact on human health and agriculture. Rhizosphere, as an important interface of soil and plant, plays a significant role in phytoremediation of contaminated soil by heavy metals, in which, microbial populations are known to affect heavy metal mobility and availability to the plant through release of chelating agents, acidification, phosphate solubilization and redox changes, and therefore, have potential to enhance phytoremediation processes. Phytoremediation strategies with appropriate heavy metal-adapted rhizobacteria have received more and more attention. This article paper reviews some recent advances in effect and significance of rhizobacteria in phytoremediation of heavy metal contaminated soils. There is also a need to improve our understanding of the mechanisms involved in the transfer and mobilization of heavy metals by rhizobacteria and to conduct research on the selection of microbial isolates from rhizosphere of plants growing on heavy metal contaminated soils for specific restoration programmes.

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Effect of Wild-Type and Mutant Plant Growth-Promoting Rhizobacteria on the Rooting of Mung Bean Cuttings

Cited by 149 publications

References 17 publications

Indole-3-acetic acid (IAA) producing Pseudomonas isolates inhibit seed germination and α-amylase activity in durum wheat (Triticum turgidum L.)

Indole-3-acetic acid (IAA) producing Pseudomonas isolates inhibit seed germination and α-amylase activity in durum wheat (Triticum turgidum L.)

Alternative rooting induction of semi-hardwood olive cuttings by several auxin-producing bacteria for organic agriculture systems

Role of soil rhizobacteria in phytoremediation of heavy metal contaminated soils

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