Article Sidebar

Submitted
Jun 26, 2021
Accepted
Jul 2, 2021
Published
Sep 30, 2021
Download
pdf
Statistic
Read Counter : 287 Download : 204

Downloads

Download data is not yet available.

Main Article Content

Abstract

Research on the Antibacterial Potential of Actinomycetes Isolates from the Rhizosphere of imperata (Imperata cylindrica L.) Against Eschericia coli and Staphylococcus aureus has been conducted at the Biota Laboratory of Sumatera, Andalas University from July to September 2020. This study aims to obtain actinomycetes isolates from plant rhizosphere reeds (Imperata cylindrica L.) which has the potential as an antibacterial against Escherichia coli and Staphylococcus aureus. This study used a survey method. The results showed that 4 isolated actinomycetes were found, all of which have antibacterial potential, which could inhibit the growth of Escherichia coli and Staphylococcus aureus.

Keywords

Actinomycetes antibacterial eschericia coli imperata cylindrica staphylococcus aureus

Article Details

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite
1.
Alamsjah F, Wahyuni A, Muhammed Saeed Aledresi KA. Antibacterial Potential of Actinomycetes Isolates from Imperata (Imperata cylindrica L.) Rhizosfer Against Eschericia coli and Staphylococcus aureus. EKSAKTA [Internet]. 2021Sep.30 [cited 2024Apr.25];22(3):182-9. Available from: https://eksakta.ppj.unp.ac.id/index.php/eksakta/article/view/279

References

  1. Izadpanah & Khalili. (2015) Antibiotic Regimens for Treatment of Infections Due to Multidrug-Resistant Gram-Negative Pathogens: An Evidance-Based Literature Review. J Res Pharm Pract, Jul-Sep, 4(3), 105-114.
  2. Done, H. Y., Venkatesan, A. K., & Halden, R. U. (2015). Does the recent growth of aquaculture create antibiotic resistance threats different from those associated with land animal production in agriculture?. The AAPS journal, 17(3), 513-524.
  3. Rafailidis, P. I., & Kofteridis, D. (2021). Proposed amendments regarding the definitions of multidrug-resistant and extensively drug-resistant bacteria. Expert Review of Anti-infective Therapy, (just-accepted).
  4. Pringgenis, D., Jumiati, M., & Ridho, A. (2015). Aktivitas Antibakteri Ekstrak Nudibranch Polka-Dot (Jorunna funebris)(Gastropoda: Moluska) Terhadap Bakteri Multidrug Resistant (MDR). Jurnal Ilmu Kelautan, 20(4), 195-206.
  5. Conway, T. (2021). Aspartate in the intestine: dual service as anaerobic electron acceptor and nitrogen source. Environmental Microbiology, 23(5), 2364-2365.
  6. Manjula, C., Rajaguru, P., & Muthuselvam, M. (2009). Screening for antibiotic sensitivity of free and immobilized actinomycetes isolated from India. Adv Biol Res, 3(3-4), 84-8.
  7. Krismawati, H., Sembiring, L., & Wahyuono, S. (2015). Streptomycetes penghasil antibiotik yang berasosiasi dengan rhizosfer beberapa spesies Mangrove. Plasma: Jurnal Kesehatan, 1(2), 59-70.
  8. Bais, H. P., Weir, T. L., Perry, L. G., Gilroy, S.& Vivanco, J. M., 2006. The Role of Root Exudate in Rhizosphere Interactions with Plants and Other Organisms, Annu. Rev. Plant Biol, 57, 233-266.
  9. Li, Z., Zu, C., Wang, C., Yang, J., Yu, H., & Wu, H. (2016). Different responses of rhizosphere and non-rhizosphere soil microbial communities to consecutive Piper nigrum L. monoculture. Scientific reports, 6(1), 1-8.
  10. Mahmud, K., Lee, K., Hill, N. S., Mergoum, A., & Missaoui, A. (2021). Influence of Tall Fescue Epichloë Endophytes on Rhizosphere Soil Microbiome. Microorganisms, 9(9), 1843.
  11. Omotayo, O. P., Igiehon, O. N., & Babalola, O. O. (2021). Metagenomic Study of the Community Structure and Functional Potentials in Maize Rhizosphere Microbiome: Elucidation of Mechanisms behind the Improvement in Plants under Normal and Stress Conditions. Sustainability, 13(14), 8079.
  12. Han, S., Wang, Y., Li, Y., & Shi, K. (2021). Investigation of bacterial diversity in Cajanus cajan-planted gangue soil via high-throughput sequencing. Bioengineered.
  13. Putri, A. L. (2017, November). Effect of fertilization application on population and diversity of actinomycetes from rhizosphere soils of Sorghum bicolor. In Proceedings The SATREPS Conference (Vol. 1, No. 1, pp. 169-175).
  14. Bo, A. B., Kim, J. D., Kim, Y. S., Sin, H. T., Kim, H. J., Khaitov, B., ... & Choi, J. S. (2019). Isolation, identification and characterization of Streptomyces metabolites as a potential bioherbicide. Plos one, 14(9), e0222933.
  15. Zhang, B., Yuan, Y., Pajerowska-Mukhtar, K. M., Afkhami, M., Hastings, A., Qiu, J., & Zhang, J. (2020). Microbial’s Effects on Invasive Grass’ Response to Water and Nutrient Stress.
  16. Behera, S. S., & Ray, R. C. (2020). Bioprospecting of cowdung microflora for sustainable agricultural, biotechnological and environmental applications. Current Research in Microbial Sciences, 100018.