ANTIBIOSIS OF ENDOPHYTIC BACTERIA AGAINST PHYTOPATHOGENIC BACTERIA IN RICE CULTIVATION
Main Article Content
Keywords
bacterial extracts, inhibition, phytopathogen, rice.
Abstract
The aim of this study was to isolate endophytic bacteria from different tissues of commercial rice varieties and to test in vitro their antibacterial activity against Burkholderia glumae causing bacterial blast disease of rice. The results of this study report a high diversity of culturable endophytic bacteria with the ability to produce secondary metabolite type extracts with the capacity to inhibit in vitro the growth of B. glumae. The results obtained from the extracts at different extraction times have similar effects to that shown by the chemical control with oxolinic acid. Further studies will identify the groups of metabolites produced by these bacteria and their possible use for field management of B. glumae.
References
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16. Oliveira M, SantosnM, Vale M, Delvaux C, Cordero P, Ferreira B Borges, A. (2013) Endophytic microbial diversity in coffee cherries of Coffea arabica from southeastern Brazil. Canadian journal of microbiology, 59(4): 221-230.
17. Pérez, C.A.; Chamorro, A.L. 2012. Bacterias endófitas: una alternativa biológica para el control de Burkholderia glumae en el cultivo del arroz en Colombia. Revista Colombiana de Ciencia Animal, 4(1):172-184
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20. Shrestha BK, Karki HS, Groth DE, Jungkhun N, Ham JH. 2016. Biological control activities of rice-associated Bacillus sp. strains against sheath blight and bacterial panicle blight of rice. PLoS One. 11:e0146764.
21. Stuart A M, Kong P, Then R, Flor R J, Sathya K. 2020. Tailored solutions to combat rodent pests of rice through community-based management approaches in Cambodia. Crop Prot (in Portuguese). 135: 1–9.
22. Suárez Moreno ZR, Vinchira-Villarraga DM, Vergara-Morales DI, Castellanos L, Ramos FA, Guarnaccia C, Moreno-Sarmiento N. 2019. Plant-growth promotion and biocontrol properties of three Streptomyces spp. isolates to control bacterial rice pathogens. Front Microbiol. 10:290
23. Verma, V. C., Gond, S. K., Kumar, A., Mishra, A., Kharwar, R. N., & Gange, A. C. 2009. Endophytic actinomycetes from Azadirachta indica A. Juss.: isolation, diversity, and anti-microbial activity. Microbial ecology, 57(4): 749-756.
https://doi.org/10.24188/recia.v9.nS.2017.516
2. Barbosa-García Adrian, Pérez Cordero Alexander, Montes Vergara Donicer E. 2022. Bioprospecting Of Endophytic Bacteria With Plant Growth Promoting Activity Associated With Rice Varieties From The Colombian Caribbean. Journal of Namibian Studies, 32: 193-216.
3. Barraza Z, Bravo A, Pérez-Cordero A. 2014. Pseudomonas aeruginosa productora de metabolito con actividad antimicrobiana contra Burkholderia glumae. Rev Colombiana Cienc Anim RECIA. 114---21.
4. Choi JE, Nguyen CM, Lee B, Park JH, Oh JY, Choi JS, Song JK. 2018. Isolation and characterization of a novel metagenomic enzyme capable of degrading bacterial phytotoxin toxoflavin. PLOS ONE. 13:e0183893
5. Chung EJ, Hossain MT, Khan A, Kim KH, Jeon CO, Chung YR. 2015. Bacillus oryzicola sp. nov., an endophytic bacterium isolated from the roots of rice with antimicrobial, plant growth promoting, and systemic resistance inducing activities in rice. Plant Pathol J. 31:152.
6. Doncel Manrique, P. 2018. Bacteias endófitas aisladas del cultivo de ñame (dioscorea spp.) con produccion de metabolitos con actividad antifúngica contra colletotrichum gloeosporioides penz. en el departamento de Sucre. Universidad de Sucre.
7. Fahad S, Nie L X, Khan F A, Chen Y T, Hussai, S, Wu C, Xiong D L, Jing W, Saud S, Khan F A, Li Y, Wu W, Khan F, Hassan S, Manan A, Jan A, Huang J L. 2014. Disease resistance in rice and the role of molecular breeding in protecting rice crops against diseases. Biotechnol Lett. 36: 1407–1420
8. Fetzner S. Quorum quenching enzymes. J Biotechnol. 2015;201:2---14
9. Hallmann J., Quadt-Hallmann A., MahaffW. F., Kloepper J.W., 1997. Bacterial endophytes in agricultural crops, Can. J. Microbiol. 43 (10): 895–914. https://doi:10.1139/m97-131.
10. Ham JH, Melanson RA, Rush MC. Burkholderia glumae: Next major pathogen of rice?.2011. Mol Plant Pathol. 12:329---39.
11. Kim J, Manna M, Kim N, Lee C, Kim J, Park J, Seo YS. 2018. The roles of two hfq genes in the virulence and stress resistance of Burkholderia glumae. Plant Pathol J. 34:412.
12. Lee HH, Park J, Kim J, Park I, Seo YS. 2016. Understanding the direction of evolution in Burkholderia glumae through comparative genomics. Curr Genet. 62:115---23
13. Liu B, Qiao H, Huang L, Buchenauer H, Han Q, Kang Z, Gong Y. 2009. Biological control of take-all in wheat by endophytic Bacillus subtilis E1R-j and potential mode of action. Biol. Control 49: 277-285.
14. Machavariani N.G., Ivankova T.D., Sineva O.N., Terek hova L.P. 2014. Isolation of endophytic actinomycetes from medicinal plants of the Moscow region, Russia, World Appl. Sci. J. 30 (11) 1599–1604.
15. Moenne-Loccoz, Y., Tichy, H., O’Donnel, A., Simon, R. and O’Gara, F. 2001. Impact of 2,4-Diacetylphloroglucinolproducing biocontrol strain Pseudomonas fluorescens F113 on intraspecific diversity of resident culturable fluorescent Pseudomonads associated with the roots of field-grown sugar beet seedlings. Appl Environ Microbiol 67, 3418– 3425.
16. Oliveira M, SantosnM, Vale M, Delvaux C, Cordero P, Ferreira B Borges, A. (2013) Endophytic microbial diversity in coffee cherries of Coffea arabica from southeastern Brazil. Canadian journal of microbiology, 59(4): 221-230.
17. Pérez, C.A.; Chamorro, A.L. 2012. Bacterias endófitas: una alternativa biológica para el control de Burkholderia glumae en el cultivo del arroz en Colombia. Revista Colombiana de Ciencia Animal, 4(1):172-184
18. Ruzmi R, Ahmad-Hamdani M S, Bakar B B. 2017. Prevalence of herbicideresistant weed species in Malaysian rice fields: A review. Weed Biol Manag. 17: 3–16.
19. Sessitsch A., Reiter B., Berg G. 2004. Endophytic bacterial communities of field-grown potato plants and their plantgrowth- promoting and antagonistic abilities, Can. J. Microbiol. 50 (4): 239–249. https://doi:10.1139/w03-118.
20. Shrestha BK, Karki HS, Groth DE, Jungkhun N, Ham JH. 2016. Biological control activities of rice-associated Bacillus sp. strains against sheath blight and bacterial panicle blight of rice. PLoS One. 11:e0146764.
21. Stuart A M, Kong P, Then R, Flor R J, Sathya K. 2020. Tailored solutions to combat rodent pests of rice through community-based management approaches in Cambodia. Crop Prot (in Portuguese). 135: 1–9.
22. Suárez Moreno ZR, Vinchira-Villarraga DM, Vergara-Morales DI, Castellanos L, Ramos FA, Guarnaccia C, Moreno-Sarmiento N. 2019. Plant-growth promotion and biocontrol properties of three Streptomyces spp. isolates to control bacterial rice pathogens. Front Microbiol. 10:290
23. Verma, V. C., Gond, S. K., Kumar, A., Mishra, A., Kharwar, R. N., & Gange, A. C. 2009. Endophytic actinomycetes from Azadirachta indica A. Juss.: isolation, diversity, and anti-microbial activity. Microbial ecology, 57(4): 749-756.
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Published
Sep 24, 2023
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How to Cite
Alexander Pérez Cordero, Donicer E. Montes Vergara, & Yelitza Aguas Mendoza. (2023). ANTIBIOSIS OF ENDOPHYTIC BACTERIA AGAINST PHYTOPATHOGENIC BACTERIA IN RICE CULTIVATION. Journal of Population Therapeutics and Clinical Pharmacology, 30(2), 494–499. https://doi.org/10.53555/jptcp.v30i2.2897
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Author Biographies
Alexander Pérez Cordero
Universidad de Sucre, Facultad de Ciencias Agropecuarias, Colombia,
Donicer E. Montes Vergara
Universidad de Sucre, Facultad de Ciencias Agropecuarias, Colombia, https://orcid.org/0000-0002-2860-0505
Yelitza Aguas Mendoza
Universidad de Sucre, Facultad de Ingeniería, Colombia, https://orcid.org/0000-0003-4880-4510