Antifungal activity and mechanism of fengycin in the presence and absence of commercial surfactin against Rhizopus stolonifer

[1]  Zhaoxin Lu,et al.  Identification of fengycin homologues from Bacillus subtilis with ESI-MS/CID. , 2009, Journal of microbiological methods.

[2]  A. N. Hernández-Lauzardo,et al.  Antifungal activity and release of compounds on Rhizopus stolonifer (Ehrenb.:Fr.) Vuill. by effect of chitosan with different molecular weights. , 2009 .

[3]  L. Bello‐Pérez,et al.  Antifungal effects of chitosan with different molecular weights on in vitro development of Rhizopus stolonifer (Ehrenb.:Fr.) Vuill. , 2008, Carbohydrate polymers.

[4]  T. Nylander,et al.  Effect of fengycin, a lipopeptide produced by Bacillus subtilis, on model biomembranes. , 2008, Biophysical journal.

[5]  Xiaodong Zheng,et al.  Effect of yeast antagonist in combination with heat treatment on postharvest blue mold decay and Rhizopus decay of peaches. , 2007, International journal of food microbiology.

[6]  H. Förster,et al.  Postharvest Decay Management for Stone Fruit Crops in California Using the "Reduced-Risk" Fungicides Fludioxonil and Fenhexamid. , 2007, Plant disease.

[7]  Xianqing Huang,et al.  Optimization of inactivation of endospores of Bacillus cereus by antimicrobial lipopeptides from Bacillus subtilis fmbj strains using a response surface method , 2007, Applied Microbiology and Biotechnology.

[8]  Pooja Singh,et al.  Potential applications of microbial surfactants in biomedical sciences. , 2004, Trends in biotechnology.

[9]  O. Karabulut,et al.  Evaluation of the use of microwave power for the control of postharvest diseases of peaches , 2002 .

[10]  J. Northover,et al.  Control of rhizopus rot of peaches with postharvest treatments of tebuconazole, fludioxonil, and Pseudomonas syringae , 2002 .

[11]  D. Kim,et al.  Internalization of tenecin 3 by a fungal cellular process is essential for its fungicidal effect on Candida albicans. , 2001, European journal of biochemistry.

[12]  S. Opella,et al.  Structure and orientation of the antibiotic peptide magainin in membranes by solid‐state nuclear magnetic resonance spectroscopy , 1993, Protein science : a publication of the Protein Society.

[13]  M. Ptak,et al.  Surfactin/iturin A interactions may explain the synergistic effect of surfactin on the biological properties of iturin A. , 1992, Biochimie.

[14]  K. Eckart,et al.  Studies on the biosynthesis of surfactin, a lipopeptide antibiotic from Bacillus subtilis ATCC 21332 , 1988, FEBS letters.

[15]  G. Jung,et al.  Fengycin--a novel antifungal lipopeptide antibiotic produced by Bacillus subtilis F-29-3. , 1986, The Journal of antibiotics.