- 1) Perotti, R., On the limits of biological enquiry in soil science. Proc. Int. Soc. Soil Sci., 2, 146-161 (1926).
- . 1992. p. 660- 662.
- 3) Mundt, J. O., and Hinkle, N. F., Bacteria within ovules and seeds. Appl. Environ. Microbiol., 32, 694-698 (1976).
- 4) Trevet, I. W., and Hollis, J. P., Bacteria in the storage organs of healthy plants. Phytopathology, 38, 960-967 (1948).
- 5) Philipson, M. N., and Blair, I. D., Bacteria in clover root tissue. Can. J. Microbiol., 3, 125-129 (1957).
- 6) Hennig, K., and Villforth, F., Experimentelle untersuchungen zur frage der bakteriensymbiose in höheren pflanzen und ihrer beeinflußung durch leitelemente. Biochem. Z., 305, 299-309 (1940).
- 7) Samish, Z., Etinger-Tulczynska, R., and Bick, M., Microflora within healthy tomatoes. Appl. Microbiol., 9, 20-25 (1961).
- 8) Sharrock, K. R., Parkes, S. L., Jack, H. H., Rees-George, J., and Hawthorne, B. T., Involvement of bacterial endophytes in storage rots of buttercup squash (Cucurbita maxima D. hybrid ‘Delic’). N. Z. J. Crop Hortic. Sci., 19, 157-165 (1991).
- 9) Gardner, J. M., Feldman, A. W., and Zablotowicz, R. M., Identity and behavior of xylem-residing bacteria in rough lemon roots of florida citrus trees. Appl. Environ. Microbiol., 43, 1335-1342 (1982).
- 10) Hallmann, J., Hallmann, Q. A., Mahaffee, W. F., and Kloepper, J. W., Bacterial endophytes in agricultural crops. Can. J. Microbiol., 43, 895-914 (1997).
- 11) Mahaffee, W. F., and Kloepper, J. W., Temporal changes in the bacterial communities of soil, rhizosphere, and endorhiza. Microb. Ecol., 34, 210-223 (1997).
- 12) Sturz, A. V., The role of endophytic bacteria during seed piece decay and potato tuberization. Plant Soil, 175, 257-263 (1995).
- . 1911.
- 14) Thomass, W. D., and Graham, R. W., Bacteria in apparently healthy pinto beans. Phytopathology, 42, 214 (1952).
- 15) Chen, C., Bauske, E. M., Musson, G., Rodríguez-Kábana, R., and Kloepper, J. W., Biological control of Fusarium wilt on cotton by use of endophytic bacteria. Biol. Control, 5, 83-91 (1995).
- 16) Formmel, M. I., Nowak, J., and Lazarovits, G., Growth enhancement and developmental modifications of in vitro grown potato (Solanum tuberosum ssp. tuberosum) as affected by a nonfluorescent Pseudomonas sp. Plant Physiol., 96, 928-936 (1991).
- 17) Gyaneshwar, P., Euan, K. J., Natarajan, M., Pallavolu, M. R., Barbara, R. H., and Jagdish, K. L., Endophytic colonization of rice by a diazotrophic strain of Serratia marcescens. J. Bacteriol., 183, 2634-2645 (2001).
- . 1992. p. 185- 191.
- . 2000. p. 199- 233.
- 20) Reinhold-Hurek, B., and Hurek, T., Life in grasses: diazotrophic endophytes. Trends Microbiol., 6, 139-144 (1998).
- 21) Denise, K. Z., Lambrecht, P., Harris, N. B., Feng, Z., Kuczmarski, D., Higley, P., Ishimaru, C. A., Arunakumari, A., Barletta, R. G., and Vidaver, A. K., Isolation and characterization of endophytic colonizing bacteria from agronomic crops and prairie plants. Appl. Envir. Microbiol., 68, 2198-2208 (2002).
- 22) Pleban, S., Ingel, F., and Chet, I., Control of Rhizoctonia solani and Sclerotium rolfsii in the greenhouse using endophytic Bacillus spp. Eur. J. Plant Pathol., 101, 665-672 (1995).
- . 1995. p. 173- 179.
- 24) Homma, Y., and Suzui, T., Role of antibiotic production in suppression of radish damping-off by seed bacterization with Pseudomonas cepacia. Ann. Phytopathol. Soc. Jpn., 55, 643-652 (1989).
- 25) Maurhofer, M., Keel, C., Schnider, V., Voisard, C., Haas, D., and Defago, G., Influence of enhanced antibiotic production in Pseudomonas fluorescens strain CHA0 on its disease suppressive capacity. Phytopathology, 82, 190-195 (1992).
- 26) Thomashow, L. S., and Weller, D. M., Role of a phenazine antibiotic from Pseudomonas fluorescens in biological control of Gaeumannomyces graminis var. tritici. J. Bacteriol., 170, 3499-3508 (1988).
- 27) Thomashow, L. S., Weller, D. M., Bonsall, R. F., and Pierson III, L. S., Production of the antibiotic phenazine-1-carboxylic acid by fluorescent Pseudomonas species in the rhizosphere of wheat. Appl. Environ. Microbiol., 56, 908-912 (1990).
- 28) Asaka, O., and Shoda, M., Biocontrol of Rhizoctonia solani damping-off of tomato with Bacillus subtilis RB14. Appl. Envir. Microbiol., 62, 4081-4085 (1996).
- 29) Klich, M. A., Arthur, K. S., Lax, A. R., and Bland, J. M., Iturin A: A potential new fungicide for stored grains. Mycopathogia, 127, 123-127 (1994).
- 30) Fukumori, F., Sashihara, N., Kudo, T., and Horikoshi, K., Nucleotides sequences of two cellulase genes from alkalophilic Bacillus sp. strain N-4 and their strong homology. J. Bacteriol., 168, 479-485 (1986).
- 31) Lee, Y. H., Characteristics of genes of cellulolytic-degradation-enzyme from Bacillus subtilis LYH201 and their effect on composting of pig manure. Ph.D. thesis, Gyeongsang National University (2000).
- 32) Roncero, M. I., Gene controlling xylan utilization by Bacillus subtilis. J. Bacteriol., 156, 257-263 (1983).
- 33) Kenji, T., Akiyama, T., and Shoda, M., Cloning, sequencing, and characterization of the iturin A operon. J. Bacteriol., 183, 6265-6273 (2001).
- 34) Maget-Dana, R., and Peypoux, F., Iturins, a special class of pore-forming lipopeptides: biological and physicochemical properties. Toxicology, 87, 151-174 (1994).
- 35) Ryu, J. S., Lee, S. D., Lee, Y. H., Lee, S. T., Kim, D. K., Cho, S. J., Park, S. R., Bae, D. W., Park, K. H., and Yun, H. D., Screening and identification of an antifungal Pseudomonas sp. that suppresses balloon flower root rot caused by Rhizoctonia solani. J. Microbiol. Biotechnol., 10, 435-440 (2000).
- 37) Nakano, M. M., Marahiel, M. A., and Zuber, P., Identification of a genetic locus required for biosynthesis of the lipopeptide antibiotic surfactin in Bacillus subtilis. J. Bacteriol., 170, 5662-5668 (1988).
- 38) Rautenbach, M., Swart, P., and van der Merwe, M. J., The interaction of analogues of the antimicrobial lipopeptide, iturin A2, with alkali metal ions. Bioorg. Med. Chem., 8, 2539-2548 (2000).
- 39) Sessitsch, A., Reiter, B., Pfeifer, U., and Wilhelm, E., Cultivation-independent population analysis of bacterial endophytes in three potato varieties based on eubacterial and Actinomycetes-specific PCR of 16S rRNA genes. FEMS Microbiol. Ecol., 39, 23-32 (2002).
- 40) Shishido, M., Breuil, C., and Chanway, C. P., Endophytic colonization of spruce by plant growth-promoting rhizobacteria. FEMS Microbiol. Ecol., 29, 191-196 (1999).
- 41) Quadt-Hallmann, A., Hallmann, J., and Kloepper, J. W., Bacterial endophytes in cotton: location and interaction with other plant-associated bacteria. Can. J. Microbiol., 43, 254-259 (1996).
- 42) Sturz, A. V., Christie, B. R., and Nowak, J., Bacterial endophytes: potential role in developing sustainable system of crop production. Crit. Rev. Plant Sci., 19, 1-30 (2000).
- 43) Zinniel, D. K., Lambrecht, P., Harris, N. B., Feng, Z., Kuczmarski, D., Higley, P., Ishimaru, C. A., Arunakumari, A., Barletta, R. G., and Vidaver, A. K., Isolation and characterization of endophytic colonizing bacteria from agronomic crops and prairie plants. Appl. Envir. Microbiol., 68, 2198-2208 (2002).
- 36) Cho, S. J., Park, S. R., Kim, M. G., Lim, W. J., Ryu, S. K., An, C. L., Hong, S. Y., Lee, Y. H., Jeong, S. G., Cho, Y. U., and Yun, H. D., Endophytic Bacillus sp. isolated from the interior of balloon flower root. Biosci. Biotechnol. Biochem., 66, 1270-1275 (2002).
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Endophytic Colonization of Balloon Flower by Antifungal Strain Bacillus sp. CY22
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