FUSARIUM OXYSPORUM F. SP. VASINFECTUM GA QARSHI PAENIBACILLUS SP. BAKTERIYASINING ANTAGONISTIK FAOLLIGI

Jo‘rabek BEGMATOV; Ilham AYTENOV; Sapargul BAZARBAEVA; Behruz OCHILOV; Tohir BOZOROV; Fazliddin  MELIQO‘ZIYEV; Shohida IBRAGIMOVA

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Jo‘rabek BEGMATOV O‘zR FA Genetika va o‘simliklar eksperimental biologiyasi instituti tayanch doktoranti, Uzbekistan
Ilham AYTENOV O‘zR FA Genetika va o‘simliklar eksperimental biologiyasi instituti kichik ilmiy xodimi, PhD, Uzbekistan
Sapargul BAZARBAEVA O‘zR FA Genetika va o‘simliklar eksperimental biologiyasi instituti tayanch doktoranti, Uzbekistan
Behruz OCHILOV Impuls tibbiyot instituti Chirchiq filiali Mutaxassislik fanlari kafedra mudiri, Uzbekistan
Tohir BOZOROV O‘zR FA Genetika va o‘simliklar eksperimental biologiyasi instituti bosh ilmiy xodimi, b.f.d, Uzbekistan
Fazliddin MELIQO‘ZIYEV O‘zRFA Genetika va O‘simliklar ekperimental biologiyasi instituti kichik ilmiy xodimi, Uruguay
Shohida IBRAGIMOVA O‘zR FA Genetika va o‘simliklar eksperimental biologiyasi instituti tayanch doktoranti, Uzbekistan

Jild 3 Jurnal nomeri 3.2.1 (2025): O'zMU xabarlari TABIIY FANLAR

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FUSARIUM OXYSPORUM F. SP. VASINFECTUM GA QARSHI PAENIBACILLUS SP. BAKTERIYASINING ANTAGONISTIK FAOLLIGI

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Ushbu tadqiqotda Paenibacillus sp. bakteriyasining Fusarium oxysporum f. sp. vasinfectum (FOV) zamburug‘iga qarshi in vitro
sharoitda antagonistik faolligi o‘rganildi. Bakteriya va zamburug‘ o‘rtasidagi o‘zaro ta’sir dual kultura usuli yordamida petri
kosachalarida 3 takroriy tajribada o‘rganildi. Natijalar bakteriya koloniyasi atrofida zamburug‘ mitseliy o‘sishini sekinlashuvi va
ingibitsiya zonasining hosil bo‘lishi bilan namoyon bo‘ldi. Bu esa Paenibacillus sp. ning potentsial biokontrol agent sifatida
foydalanish imkoniyatini ko‘rsatadi.

1. Egamberdiev, S. S., Ulloa, M., Saha, S., Salakhutdinov, I. B., Abdullaev, A., Glukhova, L. A., Adylova, A. T., Scheffler, B.

E., Jenkins, J. N., Abdurakhmonov, I. Y. (2013). Molecular Characterization of Uzbekistan Isolates of Fusarium oxysporum

f. sp. vasinfectum. Journal of Plant Science Molecular Breeding, 2(1). https://doi.org/10.7243/2050-2389-2-3

2. Davis, R. M., Colyer, P. D., Rothrock, C. S., Kochman, J. K. (2006). Fusarium wilt of cotton: Population diversity and

implications for management. Plant Disease, 90(6), 692–703. https://doi.org/10.1094/PD-90-0692

3. Zubrod, J. P., Bundschuh, M., Arts, G., Brühl, C. A., Imfeld, G., Knabel, A., Payraudeau, S., Rasmussen, J. J., Rohr, J.,

Scharmüller, A., Smalling, K., Stehle, S., Schulz, R., Schäfer, R. B. (2019). Fungicides: An overlooked pesticide class?

Environmental Science Technology, 53(7), 3347–3365. https://doi.org/10.1021/acs.est.8b04392

4. Grady, E. N., MacDonald, J., Liu, L., Richman, A., Yuan, Z. C. (2016). Current knowledge and perspectives of Paenibacillus:

A review. Microbial Cell Factories, 15(1), 203. doi:10.1186/s12934-016-0603-7

5. Jeong, H., Park, S. Y., Kim, S. H., Park, C. S. (2020). Functional analysis and genome mining reveal high potential of

biocontrol and plant growth promotion in nodule-inhabiting bacteria within Paenibacillus polymyxa complex. Frontiers in

Microbiology, 11, 618601. https://doi.org/10.3389/fmicb.2020.618601

6. Tsai, S.-H., Chen, Y.-L., Lin, C.-Y., Hsieh, C.-L. (2022). The Potential Biocontrol Agent Paenibacillus polymyxa TP3

Produces Fusaricidin-Type Compounds Involved in the Antagonism Against Gray Mold Pathogen Botrytis cinerea. Frontiers

in Microbiology, 13, 945678. https://doi.org/10.1094/PHYTO-04-21-0178-R

7. Zhang, Y., Ren, J., Wang, W., Chen, B., Li, E., Chen, S. (2020). Siderophore and indolic acid production by Paenibacillus

triticisoli BJ-18 and their plant growth-promoting and antimicrobe abilities. PeerJ, 8: e9403.

https://doi.org/10.7717/peerj.9403

8. Isoqulov, M. Z., Aytenov, I. S., Meliquziyev, F. A., Toshmatov, Z. O., Bozorov, T. A. (2023). Investigation of antagonistic

properties of bacterial isolates from the Aral Sea region soils against the pathogenic fungus Rhizoctonia solani. In:

Proceedings of the Republican Scientific-Practical Conference “Chemical, Biotechnological and Molecular Genetic

Approaches in Plant Production,” Gulistan State University, Gulistan, Uzbekistan.

9. Mülner, P., Schwarz, E., Dietel, K., Herfort, S., Jähne, J., Lasch, P., Cernava, T., Berg, G., Vater, J. (2021). Fusaricidins,

Polymyxins and Volatiles Produced by Paenibacillus polymyxa Strains DSM 32871 and M1. Pathogens, 10(11), 1485.

https://doi.org/10.3390/pathogens10111485

10. Kim, J., Le, K. D., Yu, N. H., Kim, J. I., Kim, J. C., Lee, C. W. (2020). Structure and antifungal activity of pelgipeptins from

Paenibacillus elgii against phytopathogenic fungi. Pest Management Science, 76(2),675–683.

https://doi.org/10.1016/j.pestbp.2019.11.009

FUSARIUM OXYSPORUM F. SP. VASINFECTUM GA QARSHI PAENIBACILLUS SP. BAKTERIYASINING ANTAGONISTIK FAOLLIGI

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