Temperature, pH and carbon source affect drastically indole acetic acid production of plant growth promoting yeasts

Scarcella, Ana Sílvia de Almeida; Bizarria, Rodolfo; Bastos, Reinaldo Gaspar; Rosa-Magri, Márcia Maria

doi:10.1590/0104-6632.20170342s20150541

Cited by 22 publications

(21 citation statements)

References 44 publications

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“…It has been reported that both auxin (e.g. Limtong et al, 2014; Streletskii et al, 2016) and zeatin (this study) synthesis in culture varies between species and strains, and may depend on culture conditions (Scarcella et al, 2017). At present, our observations are more relevant for a targeted isolation of yeasts producing plant growth promoters than for plant and yeast ecologists.…”

Section: Discussionmentioning

confidence: 75%

Yeasts producing zeatin

Streletskii

Качалкин

Глушакова

et al. 2019

PeerJ

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The present paper describes the first screening study of the ability of natural yeast strains to synthesize in culture the plant-related cytokine hormone zeatin, which was carried out using HPLC-MS/MS. A collection of 76 wild strains of 36 yeast species (23 genera) isolated from a variety of natural substrates was tested for the production of zeatin using HPLC-MS/MS. Zeatin was detected in more than a half (55%) of studied strains and was more frequently observed among basidiomycetous than ascomycetous species. The amount of zeatin accumulated during the experiment varied among species and strains. Highest zeatin values were recorded for basidiomycete Sporobolomyces roseus and ascomycete Taphrina sp. that produced up to 8,850.0 ng and 5,166.4 ng of zeatin per g of dry biomass, respectively. On average, the ability to produce zeatin was more pronounced among species isolated from the arctic-alpine zone than among strains from tropical and temperate climates. Our study also demonstrated that epiphytic strains and pigmented yeast species, typically for phyllosphere, are able to more often produce a plant hormone zeatin than other yeasts.

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Section: Discussionmentioning

confidence: 75%

Yeasts producing zeatin

Streletskii

Качалкин

Глушакова

et al. 2019

PeerJ

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“…These studies reported an average production of 10.6 g.ml -1 after five days and 45 g.ml -1 after seven days of cultivation, respectively. Thus, our results highlight two important issues related to the production of IAA by yeasts: first, varying results are obtained from diverse strains of the same species, especially if they are isolated from different environments (soil, rhizosphere, or phyllosphere); secondly, the specific conditions necessary for the IAA production, such as sources of nutrients and pH of the medium may influence the production significantly, even preventing it (Apine and Jadhav, 2011;Scarcella et al, 2017).…”

Section: Resultsmentioning

confidence: 89%

Rhizosphere yeast Torulaspora globosa with plant growth promotion traits and improvement of the development of tomato seedlings under greenhouse conditions

Oliveira¹,

Bizarria²,

Silva³

et al. 2019

Afr. J. Agric. Res.

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Yeasts are an interesting group of microorganisms, which occur naturally in soil and on plant surfaces. Few studies have analysed their potential as plant growth promoters. Thus, the aim of this study was to evaluate the indole acetic acid (IAA) production and phosphate solubilization by the yeasts Torulaspora globosa (CCA5S51 and CCA5S55), Meyerozyma guilliermondii (CCA3C98), and Rhodotorula mucilaginosa (CCA2F32), and the influence of T. globosa (CCA5S55) in the development of tomato seedlings. The results showed that T. globosa strains present both plant growth promotion traits (IAA production and phosphate solubilization). The strains of T. globosa (5S51 and 5S55) showed high IAA production (641 and 669 µg.ml-1, respectively) after 48 h of incubation, while Rh. mucilaginosa produced 406 µg.ml-1 of IAA after 120 h. The strains CCA5S55 and CCA5S51 could also solubilize 47 and 35% of tricalcium phosphate in the medium, respectively, after 12 days of incubation; whereas M. guilliermondii (CCA3C98) solubilized only 10% of the tricalcium phosphate after 12 days. The inoculation of tomato seedlings with T. globosa stimulates the plant growth; root height was statistically superior when the higher cell concentration was inoculated. The root dry weight was enhanced with addition of glucose and tryptophan. The conclusion is the yeast species T. globosa is able to produce IAA in the presence of tryptophan and also solubilize phosphate in vitro. The inoculation of tomato seedlings promoted its development. The cell concentration and the addition of glucose and tryptophan must be evaluated in details to attain optimized yields.

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“…Akan tetapi, dalam penelitian ini tidak dilakukan identifikasi terhadap isolat khamir yang digunakan, sehingga tidak diketahui genusnya. IAA pada beberapa jenis khamir berfungsi untuk membentuk filamen yang berguna untuk invasi serta pemanjangan hifa/pseudohifa untuk memperluas daerah penyerapan nutrisi [16]. Contohnya pada Saccharomyces cerevisae, IAA berfungsi sebagai sinyal untuk mengatur filamentasi yang berfungsi untuk invasi.…”

Section: A Hasil Uji Kualitatif Dan Kuantitatif Isolat Khamir Dalam unclassified

“…Sehingga, ada kemungkinan pada hari ke-4 dan ke-5, sel telah memasuki fase stasioner. Peningkatan produksi IAA pada fase stasioner pada khamir berhubungan dengan menurunnya sumber karbon untuk memenuhi kebutuhan nutrisi bagi metabolisme sel [16].…”

Section: A Pengaruh Lama Waktu Inkubasi Terhadap Produksi Iaa Dan Maunclassified

Uji Potensi Isolat Khamir Dari Rhizosfer Mangrove Wonorejo dan Gunung Anyar Sebagai Agen Penghasil IAA (Indole Acetic Acid)

Maya¹,

Alami²

2019

JSSITS

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Indole-3-acetic acid (IAA) merupakan salah satu fitohormon golongan auksin alami yang disintesis dari triptofan yang berfungsi dalam pertumbuhan dan perkembangan tanaman. Khamir merupakan salah satu mikroorganisme rhizosfer yang mampu mensintesis IAA. Penelitian ini dilakukan untuk mengetahui kemampuan isolat khamir yang berasal dari rhizosfer mangrove dalam menghasilkan IAA serta pengaruh lama waktu inkubasi terhadap konsentrasi IAA dan berat kering sel yang dihasilkan. Metode yang digunakan meliputi uji kualitatif dengan mengamati perubahan warna yangg terjadi serta seacara kuantitatif dengan mengukur absorbansi warna yang dihasilkan menggunakan spektrofotometer. Hasil yang diperoleh yaitu semua isolat yang digunakan memiliki potensi dalam menghasilkan IAA, dimana isolat G8.1 memiliki kemampuan tertinggi dalam menghasilkan IAA sebsar 11,97 ppm. Lama waktu inkubasi ternyata berpengaruh terhadap konsetrasi IAA dan berat kering sel yang dihasilkan. Konsentrasi IAA paling tinggi dihasilkan pada hari ke tujuh (168 h) sebesar 43,50 ppm dengan berat kering sel 0,119 gram.

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Temperature, pH and carbon source affect drastically indole acetic acid production of plant growth promoting yeasts

Cited by 22 publications

References 44 publications

Yeasts producing zeatin

Yeasts producing zeatin

Rhizosphere yeast Torulaspora globosa with plant growth promotion traits and improvement of the development of tomato seedlings under greenhouse conditions

Uji Potensi Isolat Khamir Dari Rhizosfer Mangrove Wonorejo dan Gunung Anyar Sebagai Agen Penghasil IAA (Indole Acetic Acid)

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