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RISS 인기검색어
- 검색키워드
- 저자 : Borriss, Rainer (검색결과 3 건)
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Ben Fan,Rainer Borriss,Wilfrid Bleiss,Xiaoqin Wu 한국미생물학회 2012 The journal of microbiology Vol.50 No.1
The colonization of three types of different plants, Zea mays, Arabidopsis thaliana, and Lemna minor, by GFP-labeled Gram-positive rhizobacterium Bacillus amyloliquefaciens FZB42 was studied in gnotobiotic systems using confocal laser scanning microscopy and electron microscopy. It was demonstrated that FZB42 was able to colonize all the plants. On one hand, similar to some Gram-negative rhizobacteria like Pseudomonas, FZB42 favored the areas such as the concavities in root surfaces and the junctions where lateral roots occurred from the primary roots; on the other hand, we clearly demonstrated that root hairs were a popular habitat to the Gram-positive rhizobacterium. FZB42 exhibited a specific colonization pattern on each of the three types of plants. On Arabidopsis, tips of primary roots were favored by FZB42 but not so on maize. On Lemna, FZB42 accumulated preferably along the grooves between epidermal cells of roots and in the concave spaces on ventral sides of fronds. The results suggested L. minor to be a promising tool for investigations on plant-microbial interaction due to a series of advantages it has. Colonization of maize and Arabidopsis roots by FZB42 was also studied in the soil system. Comparatively, higher amount of FZB42 inoculum (~108 CFU/ml) was required for detectable root colonization in the soil system, where the preference of FZB42 cells to root hairs were also observed.
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Kristin Dietel,Rainer Borriss,Barbara Beator,Anto Budiharjo,Ben Fan 한국식물병리학회 2013 Plant Pathology Journal Vol.29 No.1
Colonization studies previously performed with a greenfluorescent-protein, GFP, labeled derivative of Bacillus amyloliquefaciens FZB42 revealed that the bacterium behaved different in colonizing surfaces of plant roots of different species (Fan et al., 2012). In order to extend these studies and to elucidate which genes are crucial for root colonization, we applied targeted mutant strains to Arabidopsis seedlings. The fates of root colonization in mutant strains impaired in synthesis of alternative sigma factors, non-ribosomal synthesis of lipopeptides and polyketides, biofilm formation, swarming motility,and plant growth promoting activity were analyzed by confocal laser scanning microscopy. Whilst the wildtype strain heavily colonized surfaces of root tips and lateral roots, the mutant strains were impaired in their ability to colonize root tips and most of them were unable to colonize lateral roots. Ability to colonize plant roots is not only dependent on the ability to form biofilms or swarming motility. Six mutants, deficient in abrB-, sigH-, sigD-, nrfA-, yusV and RBAM017410, but not affected in biofilm formation, displayed significantly reduced root colonization. The nrfA- and yusV-mutant strains colonized border cells and, partly, root surfaces but did not colonize root tips or lateral roots.
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Dietel, Kristin,Beator, Barbara,Budiharjo, Anto,Fan, Ben,Borriss, Rainer The Korean Society of Plant Pathology 2013 Plant Pathology Journal Vol.29 No.1
Colonization studies previously performed with a green-fluorescent-protein, GFP, labeled derivative of Bacillus amyloliquefaciens FZB42 revealed that the bacterium behaved different in colonizing surfaces of plant roots of different species (Fan et al., 2012). In order to extend these studies and to elucidate which genes are crucial for root colonization, we applied targeted mutant strains to Arabidopsis seedlings. The fates of root colonization in mutant strains impaired in synthesis of alternative sigma factors, non-ribosomal synthesis of lipopeptides and polyketides, biofilm formation, swarming motility, and plant growth promoting activity were analyzed by confocal laser scanning microscopy. Whilst the wild-type strain heavily colonized surfaces of root tips and lateral roots, the mutant strains were impaired in their ability to colonize root tips and most of them were unable to colonize lateral roots. Ability to colonize plant roots is not only dependent on the ability to form biofilms or swarming motility. Six mutants, deficient in abrB-, sigH-, sigD-, nrfA-, yusV and RBAM017410, but not affected in biofilm formation, displayed significantly reduced root colonization. The nrfA- and yusV-mutant strains colonized border cells and, partly, root surfaces but did not colonize root tips or lateral roots.
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