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KMID : 0545120060160101622
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Journal of Microbiology and Biotechnology
2006 Volume.16 No. 10 p.1622 ~ p.1628
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Plant Growth Substances Produced by Methylobacterium spp. and Their Effect on Tomato (Lycopersicon esculentum L.) and Red Pepper (Capsicum annuum L.) Growth
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Ryu Jeoung-Hyun
Madhaiyan Munusamy
Poonguzhali SelvaraJ
Yim Woo-Jong
Indiragandhi Pandiyan
Kim Kyoung-A
Anandham Rangasamy
Yun Jong-Chul
Sa Tong-Min
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Abstract
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Bacteria from the Methylobacterium genus, called pink-pigmented facultative methylotrophic bacteria (PPFMs), are common inhabitants of plants, potentially dominating the phyllosphere population, and are also encountered in the rhizosphere, seeds, and other parts of plants, being versatile in nature. The consistent success of the Methylobacterium plant association relies on methylotrophy, the ability to utilize the one-carbon compound methanol emitted by plants. However, the efficiency of Methylobacterium in plant growth promotion could be better exploited and thus has attracted increasing interest in recent years. Accordingly, the present study investigated the inoculation effects of Methylobacterium sp. strains CBMB20 and CBMB 110 on seed imbibition to tomato and red pepper on the growth and accumulation of phytohormone levels under gnotobiotic conditions. Seeds treated with the Methylobacterium strains showed a significant increase in root length when compared with either the uninoculated control or Methylobacterium extorquens knockout mutanttreated seeds. Extracts of the plant samples were used for indole-3-acetic acid (IAA), trans-zeatin riboside (t-ZR), and dihydrozeatin riboside (DHZR) assays by immunoanalysis. The treatment with Methylobacterium sp. CBMB20 or CBMB 110 produced significant increases in the accumulation of IAA and the cytokinins t-ZR and DHZR in the red pepper extracts, whereas no IAA was detected in the tomato extracts, although the cytokinin concentrations were significantly increased. Therefore, this study proved that the versatility of Methylobacterium as a plant-growth promoting bacteria could be better exploited.
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KEYWORD
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immunoanalysis, Methylobacterium, indole-3-acetic acid, cytokinins
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