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Poster Session Ⅰ: 배양, 재배

Optimization of Indole-3-Acetic production by phosphate solubilization bacteria isolated from waste bed of Agaricus bisporus

초록

영어

A total of 35 phosphate solubilizing bacterial strains were isolated from waste bed of Agaricus bisporus in Buyeo-Gun, Chungchugnam-do province and screened for the production of indole acetic acid(IAA). The best IAA producing strain was identified as Pantoea rodasii using 16S rRNA analysis. In addition to the IAA production, this strain could act as an efficient phosphate solubilizer (1100 μg ml-1 after 5 days of incubation) also. The selected strain was cultured under different conditions in order to assess the optimum conditions for maximum IAA production. The nutrient broth (NB) medium was recorded as the best medium, where the maximum IAA production (229 μg ml-1) was recorded at the start of stationary phase (12 hours after inoculation) of the bacteria growth. The performance of the strain was found to be maximum at the temperature of 30°C followed by 25°C. IAA production was found to be increased with increasing tryptophan concentration (from 0.1 to 0.6%), however beyond this limit, a slight reduction in IAA production was observed. The strains’ ability to produce IAA was further confirmed by extraction of crude IAA and subsequent TLC analysis. A specific spot from the extracted IAA preparation was found corresponding with the standard spot of IAA with same Rf value. The results of HPLC analysis conducted in identifying and quantifying the IAA production more precisely, are in agreement with the results of the assessment done with colorimetric method. As revealed by the results of the pot experiment, the isolated strain could significantly enhance the growth (as measured by shoot and root growth) of mung bean plants compared to that of non-inoculated plants. Therefore it can be concluded that the present strain, Pantoea rodasii has great potential to be used as bio-inoculants.

저자정보

  • Buddhi Charana Walpola Department of Bio-Environmental Chemistry, Chungnam National University
  • Jae-Geun Noh Department of Bio-Environmental Chemistry, Chungnam National University
  • Chan Kyem Kim Department of Bio-Environmental Chemistry, Chungnam National University
  • Ki-Cheon Kyung Taean Lily Experiment Station, Chungcheongnam-do Agricultural Research and Extention Services. Taean, 357-952, Korea
  • Won-Sik Kong Mushroom Research Division, NIHHS, RDA, Eumseong, Chungbuk, 369-873, Korea.
  • Min-Ho Yoon Department of Bio-Environmental Chemistry, Chungnam National University

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