Universum: химия и биология
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1. Bashan Y., Holguin G., Lifshitz R. Isolation and characterization of plant growth-promoting rhizobacteria. In: Glick B.R., Thompson J.E., editors. Methods in plant molecular biology and biotechnology, USA, FL, Boca Raton: CRC Press, 1993, p. 331–345. 2. Brown M.R., Foster J.H. A simple diagnostic milk medium for Pseudomonas aeruginosa. Journal of Clinical Pathology, 1970, 23:172–177. 3. Castric P.A. Hydrogen cyanide, a secondary metabolite of Pseudomonas aeruginosa. Canadian Journal of Microbiology, 1975, 21:613–618. 4. Egamberdieva D., Kucharova Z., Davranov K., Berg G., Makarova N., Azarova T. Bacteria able to control foot and root rot and to promote growth of cucumber in salinated soils. Biology and Fertility of Soils, 2011, 47:197–205 5. Etesami H. Can interaction between silicon and plant growth promoting rhizobacteria benefit in alleviating abiotic and biotic stresses in crop plants? Agriculture, Ecosystems & Environment, 2018, 253:98–112. 6. Etesami H., Beattie G.A. Plant-microbe interactions in adaptation of agricultural crops to abiotic stress conditions. In: Probiotics and Plant Health, eds V. Kumar, M. Kumar, S. Sharma, and R. Prasad. Singapore: Springer, 2017, 163–200. 7. Gupta G., Panwar J., Jha P.N. Natural occurrence of Pseudomonas aeruginosa, a dominant cultivable diazotrophic endophytic bacterium colonizing Pennisetum glaucum (L) R. Br. Applied Soil Ecology, 2013, 64:252–261. 8. Howe T.G., Ward J.M. The utilization of tween 80 as carbon source by Pseudomonas. The Journal of General Mi- crobiology, 1976, 92:234–235. 9. Husson E., Hadad C., Huet G., Laclef S., Lesur D., Lambertyn V. The effect of room temperature ionic liquids on the selective biocatalytic hydrolysis of chitin via sequential or simultaneous strategies. Green Chemistry, 2017, 19:4122–4131. № 5 (107) май, 2023 г. 31 10. Ilangumaran G., Smith D.L. Plant growth promoting rhizobacteria in amelioration of salinity stress: a systems biology perspective. Frontiers in Plant Science, 2017, 8:1768. 11. Jasim B., Joseph A.A., John C.J., Mathew J., Radhakrishnan E.K. Isolation and characterization of plant growth promoting endophytic bacteria from the rhizome of Zingiber officinale. 3 Biotech, 2013, 4(2):197–204. 12. Mahmood A., Kataoka R. Potential of biopriming in enhancing crop productivity and stress tolerance. In: Advances in Seed Priming. Springer, Singapore, 2018, pp. 127–145. 13. Mehta S., Nautiyal C.S. An efficient method for qualitative screening of phosphate-solubilizing bacteria. Current Microbiology, 2001, 43(1):51–56. 14. Mora-Ruiz M.D.R, Font-Verdera F., Díaz-Gil C. Moderate halophilic bacteria colonizing the phylloplane of halophytes of the subfamily Salicornioideae (Amaranthaceae). Systematic and Applied Microbiology, 2015, 38(6):406–416. 15. Moreal J., Relse E.T. The chitinase of Serratia marcescens. Canadian Journal of Microbiology, 1969; 15:689–696. 16. Sarwar M., Kremer R.J. Determination of bacterially derived auxins using a microplate method. Letters in Applied Microbiology, 1995, 20:282-285. 17. Schwyn B., Neilands J.B. Universal chemical assay for the detection and determination of siderophores. Analytical Biochemistry, 1987, 160:45–46. 18. Walsh G.A., Murphy R.A., Killeen G.F., Headon D.R., Power R.F. Technical note: detection and quantification of supplemental fungal β-gluconase activity in animal feed. Journal of Animal Science, 1995, 73:1074-1076. 19. https://ru.wikipedia.org/wiki/Соя № 5 (107) май, 2023 г. _________________________ Библиографическое описание: Абдульмянова Л.И., Буриева М.Р., Гулямова Т.Г. РАСТЕНИЯ УЗБЕКИСТАНА – ИСТОЧНИКИ МЕЛАНИЗИРОВАННЫХ ЭНДОФИТНЫХ ГРИБОВ // Universum: химия и биология : электрон. научн. журн. 2023. 5(107). URL: https://7universum.com/ru/nature/archive/item/15399 Download 1.91 Mb. Do'stlaringiz bilan baham: 
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