E-ISSN 2582-5178
 

Research Article
Online Published: 18 Jul 2020
 


EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP

Kavita Nagshetty and Madhuri R. Basutkar.


Abstract
The production and the usage of synthetic organic chemicals have enormously increased with the growth of industrialization and this lead to the accumulation of toxic compounds as environmental pollutants. Salicylate is the polycyclic aromatic hydrocarbon derivative, used in the medicines, and it is strong antimicrobial (antibacterial and antifungal) agent used in the pesticides.Salicylic acid and its derivatives are thus the chemicals of environmental concern. Owning to their irritant, toxic and tumorigenic nature, it is very tough to degrade these chemicals. In this direction present study was conducted. Biodegradation of salicylate by pseudomonas spand the salicylate hydroxylase and catechol 2, 3 dioxygynase production capacities is exploited by the optimization of culture conditions which lead to strain improvement and also investigated the effect of nitrogen and nitrogen source, in the degradation by this bacterium.The possible involvement of an indigenous degradative plasmid in the degradation of salicylate is also studied.

Key words: Polycyclic, Salicylate hydroxylase and catechol 2, 3dioxyginase.


 
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Pubmed Style

Kavita Nagshetty and Madhuri R. Basutkar. EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. IJLSAS. Online First: 18 Jul, 2020.


Web Style

Kavita Nagshetty and Madhuri R. Basutkar. EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. https://www.ijlsas.com/?mno=104729 [Access: October 25, 2024].


AMA (American Medical Association) Style

Kavita Nagshetty and Madhuri R. Basutkar. EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. IJLSAS. Online First: 18 Jul, 2020.



Vancouver/ICMJE Style

Kavita Nagshetty and Madhuri R. Basutkar. EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. IJLSAS, [cited October 25, 2024]; Online First: 18 Jul, 2020.



Harvard Style

Kavita Nagshetty and Madhuri R. Basutkar (0) EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. IJLSAS, Online First: 18 Jul, 2020.



Turabian Style

Kavita Nagshetty and Madhuri R. Basutkar. 0. EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. International Journal Of Life Sciences and Applied Sciences, Online First: 18 Jul, 2020.



Chicago Style

Kavita Nagshetty and Madhuri R. Basutkar. "EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP." International Journal Of Life Sciences and Applied Sciences Online First: 18 Jul, 2020.



MLA (The Modern Language Association) Style

Kavita Nagshetty and Madhuri R. Basutkar. "EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP." International Journal Of Life Sciences and Applied Sciences Online First: 18 Jul, 2020. Web. 25 Oct 2024



APA (American Psychological Association) Style

Kavita Nagshetty and Madhuri R. Basutkar (0) EFFECT OF NITROGEN SOURCES ON THE DEGRADATION OF SALICYLATE BY A PSEUDOMONAS SP. International Journal Of Life Sciences and Applied Sciences, Online First: 18 Jul, 2020.