EN
Production of Thermostable and Acidophilic Amylase from Thermophilic
Abstract
The present study has been conducted on 120 bacterial isolates collected from spoiled starchy materials like wheat flour and bread dough, soil and spoiled sour materials like tomatoes, citrus fruits and pears etc. These isolates were screened for the production of extracellular acidophilic and thermostable amylases. Five isolates exhibited good amylase activity. Preliminary identification of these isolates showed that they all belong to the genus Bacillus, so they were designated as Bacillus sp. JAR-4, JAR-26, JAR-29, JAR-53 and JAR-76. Isolate JAR-26 showing maximum starch hydrolysis was further subjected to biochemical testing and on the basis of results it was designated as Bacillus licheniformis JAR-26. It was able to grow up to 55 0C at pH 5.5 and showed remarkable liquefaction as well as saccharification activity. The optimum period for maximum cell growth and amylase production in case of Bacillus sp. JAR-26 was found to be 36 h at 45 0C. The optimum temperature for enzyme assay was 85 0C at pH 5.5. The enzyme was also thermostable as 100% activity was observed at 85 0C and 55% activity retained at 100 0C and 48% activity at 104 0C when heated for 30 min
Keywords
Details
Primary Language
English
Subjects
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Journal Section
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Publication Date
November 1, 2009
Submission Date
November 1, 2009
Acceptance Date
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Published in Issue
Year 2009 Volume: 3 Number: 3
APA
Jyotı, J., Lal, N., Lal, R., & Kaushık, A. (2009). Production of Thermostable and Acidophilic Amylase from Thermophilic. Journal of Applied Biological Sciences, 3(3), 7-12. https://izlik.org/JA78ZG32AN
AMA
1.Jyotı J, Lal N, Lal R, Kaushık A. Production of Thermostable and Acidophilic Amylase from Thermophilic. J.appl.biol.sci. 2009;3(3):7-12. https://izlik.org/JA78ZG32AN
Chicago
Jyotı, Jeevan, Nand Lal, Ram Lal, and Atul Kaushık. 2009. “Production of Thermostable and Acidophilic Amylase from Thermophilic”. Journal of Applied Biological Sciences 3 (3): 7-12. https://izlik.org/JA78ZG32AN.
EndNote
Jyotı J, Lal N, Lal R, Kaushık A (November 1, 2009) Production of Thermostable and Acidophilic Amylase from Thermophilic. Journal of Applied Biological Sciences 3 3 7–12.
IEEE
[1]J. Jyotı, N. Lal, R. Lal, and A. Kaushık, “Production of Thermostable and Acidophilic Amylase from Thermophilic”, J.appl.biol.sci., vol. 3, no. 3, pp. 7–12, Nov. 2009, [Online]. Available: https://izlik.org/JA78ZG32AN
ISNAD
Jyotı, Jeevan - Lal, Nand - Lal, Ram - Kaushık, Atul. “Production of Thermostable and Acidophilic Amylase from Thermophilic”. Journal of Applied Biological Sciences 3/3 (November 1, 2009): 7-12. https://izlik.org/JA78ZG32AN.
JAMA
1.Jyotı J, Lal N, Lal R, Kaushık A. Production of Thermostable and Acidophilic Amylase from Thermophilic. J.appl.biol.sci. 2009;3:7–12.
MLA
Jyotı, Jeevan, et al. “Production of Thermostable and Acidophilic Amylase from Thermophilic”. Journal of Applied Biological Sciences, vol. 3, no. 3, Nov. 2009, pp. 7-12, https://izlik.org/JA78ZG32AN.
Vancouver
1.Jeevan Jyotı, Nand Lal, Ram Lal, Atul Kaushık. Production of Thermostable and Acidophilic Amylase from Thermophilic. J.appl.biol.sci. [Internet]. 2009 Nov. 1;3(3):7-12. Available from: https://izlik.org/JA78ZG32AN