Evaluation of low-intensity laser radiation on stimulating the cholesterol degrading activity: Part I. Microorganisms isolated from cholesterol-rich materials

Evaluation of low-intensity laser radiation on stimulating the cholesterol degrading activity: Part I. Microorganisms isolated from cholesterol-rich materials

A survey was performed to isolate bacteria and fungi from cholesterol-rich sources including chicken liver, turkey giblets, salmon, lamb, egg yolk, beef brain and shrimps. A total of 34 bacterial and 22 fungal isolates were recovered from the tested sources. The highest count of isolates was recover...

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Bibliographic Details
Published in:Saudi journal of biological sciences Vol. 19; no. 2; pp. 185 - 193
Main Authors: Ouf, Salama A., Alsarrani, Abdulaziz Q., Al-Adly, Amira A., Ibrahim, Mohamed K.
Format: Journal Article
Language:English
Published: Riyadh, Saudi Arabia Elsevier B.V 01-04-2012
Saudi Biological Society
Subjects:
Bacteria
Biodegradation
Cholesterol
Cholesterol degradation
Irradiation
Lasers in medicine
Nd-YAG laser
Original
Streptomyces fradiae
الأدوات و الأجهزة الطبية
الطب
الكوليسترول
الليزر
Nd-YAG laser
Irradiation
Cholesterol degradation
Bacteria
Streptomyces fradiae
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Summary:A survey was performed to isolate bacteria and fungi from cholesterol-rich sources including chicken liver, turkey giblets, salmon, lamb, egg yolk, beef brain and shrimps. A total of 34 bacterial and 22 fungal isolates were recovered from the tested sources. The highest count of isolates was recovered from the soil (12 isolates/g), followed by turkey giblets and egg yolk (8 isolates/g, for each). Out of 34 bacterial isolates, five induced the highest level in cholesterol degradation. The most potent bacterial isolate was recovered from turkey giblets and was identified as Streptomyces fradiae. In a trial to increase the cholesterol decomposing potentiality of S. fradiae, low intensity Nd-YAG laser irradiation was evaluated. The exposure of the chlorophyllin – photosensitized bacterium to 210mW Nd-YAG laser for 8min induced significant increase in cholesterol degrading activity reaching 73.8% as compared with 54.2% in the case of non-irradiated, non-photosensitized culture. Under the same conditions but using the reaction mixture containing cholesterol as a substrate and extracellular crude enzyme, the percent decomposition reached 53.7% for the irradiated culture as compared to 28.3% in the case of the control. Our data indicate the importance of the photosensitizer in enhancement of laser radiation to stimulate cholesterol decomposition of S. fradiae.
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ISSN:1319-562X
2213-7106
DOI:10.1016/j.sjbs.2011.12.006