Bacteriophages for plant disease control
Апстракт
Crop yield loss due to bacterial plant pathogens need to be reduced to increase global food production demand. Currently available disease management strategies involving copper-based bactericides and antibiotics are losing efficacy due to development of resistance in bacteria. There is long familiar demand of environmentally friendly and sustainable strategies to control bacterial diseases. Bacteriophages are virus that kill target bacteria without affecting another microorganism and environment. Bacteriophage efficiency on phyllosphere is mainly affected by ultraviolet (UV) light. Use of combination of phage, mixture with phage carrier bacteria and optimizing time of application helps in persistence of bacteriophage. There are several bacteriophage products already available in the market to control destructive bacterial diseases. Unlike chemical based traditional control measure, bacteriophage mixture can be easily amended to reduce resistance development in bacteria. In this chapte...r, the authors discuss from phage isolation to interaction with bacteria and control mechanism of plant diseases.
Извор:
In: Microbial bioprotectants for plant disease management (eds. Köhl, J and Ravensberg, W.), Burleigh Dodds Science Publishing, Sawston, Cambridge, UK, pp: 473-506., 2022, 473-506Издавач:
- Burleigh Dodds Science Publishing
Институција/група
IZBISTY - CHAP AU - Choudhary, Manoj AU - Paret, Mathews AU - Obradović, Aleksa AU - Gašić, Katarina AU - Jeff, Jones PY - 2022 UR - https://plantarum.izbis.bg.ac.rs/handle/123456789/763 AB - Crop yield loss due to bacterial plant pathogens need to be reduced to increase global food production demand. Currently available disease management strategies involving copper-based bactericides and antibiotics are losing efficacy due to development of resistance in bacteria. There is long familiar demand of environmentally friendly and sustainable strategies to control bacterial diseases. Bacteriophages are virus that kill target bacteria without affecting another microorganism and environment. Bacteriophage efficiency on phyllosphere is mainly affected by ultraviolet (UV) light. Use of combination of phage, mixture with phage carrier bacteria and optimizing time of application helps in persistence of bacteriophage. There are several bacteriophage products already available in the market to control destructive bacterial diseases. Unlike chemical based traditional control measure, bacteriophage mixture can be easily amended to reduce resistance development in bacteria. In this chapter, the authors discuss from phage isolation to interaction with bacteria and control mechanism of plant diseases. PB - Burleigh Dodds Science Publishing T2 - In: Microbial bioprotectants for plant disease management (eds. Köhl, J and Ravensberg, W.), Burleigh Dodds Science Publishing, Sawston, Cambridge, UK, pp: 473-506. T1 - Bacteriophages for plant disease control EP - 506 SP - 473 DO - 10.19103/AS.2021.0093.18 ER -
@inbook{ author = "Choudhary, Manoj and Paret, Mathews and Obradović, Aleksa and Gašić, Katarina and Jeff, Jones", year = "2022", abstract = "Crop yield loss due to bacterial plant pathogens need to be reduced to increase global food production demand. Currently available disease management strategies involving copper-based bactericides and antibiotics are losing efficacy due to development of resistance in bacteria. There is long familiar demand of environmentally friendly and sustainable strategies to control bacterial diseases. Bacteriophages are virus that kill target bacteria without affecting another microorganism and environment. Bacteriophage efficiency on phyllosphere is mainly affected by ultraviolet (UV) light. Use of combination of phage, mixture with phage carrier bacteria and optimizing time of application helps in persistence of bacteriophage. There are several bacteriophage products already available in the market to control destructive bacterial diseases. Unlike chemical based traditional control measure, bacteriophage mixture can be easily amended to reduce resistance development in bacteria. In this chapter, the authors discuss from phage isolation to interaction with bacteria and control mechanism of plant diseases.", publisher = "Burleigh Dodds Science Publishing", journal = "In: Microbial bioprotectants for plant disease management (eds. Köhl, J and Ravensberg, W.), Burleigh Dodds Science Publishing, Sawston, Cambridge, UK, pp: 473-506.", booktitle = "Bacteriophages for plant disease control", pages = "506-473", doi = "10.19103/AS.2021.0093.18" }
Choudhary, M., Paret, M., Obradović, A., Gašić, K.,& Jeff, J.. (2022). Bacteriophages for plant disease control. in In: Microbial bioprotectants for plant disease management (eds. Köhl, J and Ravensberg, W.), Burleigh Dodds Science Publishing, Sawston, Cambridge, UK, pp: 473-506. Burleigh Dodds Science Publishing., 473-506. https://doi.org/10.19103/AS.2021.0093.18
Choudhary M, Paret M, Obradović A, Gašić K, Jeff J. Bacteriophages for plant disease control. in In: Microbial bioprotectants for plant disease management (eds. Köhl, J and Ravensberg, W.), Burleigh Dodds Science Publishing, Sawston, Cambridge, UK, pp: 473-506.. 2022;:473-506. doi:10.19103/AS.2021.0093.18 .
Choudhary, Manoj, Paret, Mathews, Obradović, Aleksa, Gašić, Katarina, Jeff, Jones, "Bacteriophages for plant disease control" in In: Microbial bioprotectants for plant disease management (eds. Köhl, J and Ravensberg, W.), Burleigh Dodds Science Publishing, Sawston, Cambridge, UK, pp: 473-506. (2022):473-506, https://doi.org/10.19103/AS.2021.0093.18 . .