Enhanced lipase production by mutation induced Aspergillus japonicus

The purpose of the present investigation is to enhance production of the biomedically important enzyme, lipase, by subjecting the indigenous lipase producing fungal strain Aspergillus japonicus MTCC 1975 to strain improvement and random mutagenesis (UV irradiation, HNO sub(2) and N-methyl-N'-ni...

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Veröffentlicht in:	African journal of biotechnology 2008-06, Vol.7 (12), p.2064-2067
Hauptverfasser:	Sita, Kumari Karanam, Narasimha, Rao Medicherla
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Sprache:	eng
Schlagworte:	Aspergillus japonicus
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creator	Sita, Kumari Karanam Narasimha, Rao Medicherla
description	The purpose of the present investigation is to enhance production of the biomedically important enzyme, lipase, by subjecting the indigenous lipase producing fungal strain Aspergillus japonicus MTCC 1975 to strain improvement and random mutagenesis (UV irradiation, HNO sub(2) and N-methyl-N'-nitro-N-nitroso guanidine). The isolation of mutants and the lipolytic activity of selected mutants were described. The best UV selectant (AUV sub(3)) showed 127% higher lipase activity than the parent strain. The lipase yield of the best HNO sub(2) mutant (AHN sub(3)) was 139% higher than UV mutant (AUV sub(3)) and 177% higher than the parent strain. Also, the lipase yield of the best NTG mutant (ANT sub(4)) was 156% higher lipase activity than the HNO sub(2) mutant (AHN sub(3)) and 217% higher than the UV mutant (AUV sub(3)) and 276% higher lipase activity than the parent strain. The results indicated that UV, HNO sub(2) and NTG treatment were effective physical and chemical mutagenic agents for strain improvement of Aspergillus japonicus for enhanced lipase productivity.
doi_str_mv	10.5897/AJB2008.000-5054
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The isolation of mutants and the lipolytic activity of selected mutants were described. The best UV selectant (AUV sub(3)) showed 127% higher lipase activity than the parent strain. The lipase yield of the best HNO sub(2) mutant (AHN sub(3)) was 139% higher than UV mutant (AUV sub(3)) and 177% higher than the parent strain. Also, the lipase yield of the best NTG mutant (ANT sub(4)) was 156% higher lipase activity than the HNO sub(2) mutant (AHN sub(3)) and 217% higher than the UV mutant (AUV sub(3)) and 276% higher lipase activity than the parent strain. 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The isolation of mutants and the lipolytic activity of selected mutants were described. The best UV selectant (AUV sub(3)) showed 127% higher lipase activity than the parent strain. The lipase yield of the best HNO sub(2) mutant (AHN sub(3)) was 139% higher than UV mutant (AUV sub(3)) and 177% higher than the parent strain. Also, the lipase yield of the best NTG mutant (ANT sub(4)) was 156% higher lipase activity than the HNO sub(2) mutant (AHN sub(3)) and 217% higher than the UV mutant (AUV sub(3)) and 276% higher lipase activity than the parent strain. 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title	Enhanced lipase production by mutation induced Aspergillus japonicus
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