The improvement of glucoamylase production by UV irradiated strains of Aspergillus awamori KT-11

Abstract: In many food industries, glucoamylase is extensively applied because of its ability to convert oligosaccharides into glucose. Recently, mutagenic treatments of Aspergillus awamori have been conducted to improve and enhance glucoamylase production. This research was focused on the study of glucoamylase production by strains of A. awamori after being exposed to ultra-violet (UV) irradiation. The parental strain was cultivated on the PDA plates and treated by exposing under UV lamp from 0 to 90 minutes with the t… Show more

“…The process is called microbial hydrolysis, and it is carried out on industrial wastes by these microbes. The microbes are also used to break down the by-products of agriculture for the manufacturing of many compounds such as hormones, various enzymes, and organic acids [5]. Now, industrial biotechnology focuses on various fungal sources include Aspergillus awamori, Rhizopus delmar, A. oryza, A. niger, Neurospora, and Mucor rouxians for glucoamylase production [6].…”

Production of Glucoamylase from Novel Strain of Alternaria Alternata under Solid State Fermentation

“…The process is called microbial hydrolysis, and it is carried out on industrial wastes by these microbes. The microbes are also used to break down the by-products of agriculture for the manufacturing of many compounds such as hormones, various enzymes, and organic acids [5]. Now, industrial biotechnology focuses on various fungal sources include Aspergillus awamori, Rhizopus delmar, A. oryza, A. niger, Neurospora, and Mucor rouxians for glucoamylase production [6].…”

Production of Glucoamylase from Novel Strain of Alternaria Alternata under Solid State Fermentation