Improvement of cyclodextrin glucanotransferase as an antistaling enzyme by error-prone PCR |
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| Authors: | Shim Jae-Hoon Kim Young-Wan Kim Tae-Jip Chae Hye-Young Park Jin-Hee Cha Hyunju Kim Jung-Wan Kim Yong-Ro Schaefer Thomas Spendler Tina Moon Tae-Wha Park Kwan-Hwa |
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| Affiliation: | National Laboratory for Functional Food Carbohydrate, Center for Agricultural Bio-Materials and School of Agricultural Biotechnology, Seoul National University, Korea. |
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| Abstract: | In an effort to improve the properties of cyclodextrin glucanotransferase (CGTase) as an antistaling enzyme, error-prone PCR was used to introduce random mutations into a CGTase cloned from alkalophilic Bacillus sp. I-5 (CGTase I-5). A mutant CGTase3-18] with the three mutations M234T, F259I and V591A was selected by agar plate assay. Sequence alignment of various CGTases indicated that M234 and F259 are located in the vicinity of the catalytic sites of the enzyme and V591 in the starch binding domain E. The cyclization activity of CGTase3-18] was dramatically decreased by 10-fold, while the hydrolyzing activity was increased by up to 15-fold. These mutations near subsite +1 (M234T) and at subsite +2 (F259I) are likely to alter the enzyme activity in a concerted manner, promoting hydrolysis of substrate while retarding cyclization. The addition of CGTase3-18] reduced the retrogradation rate of bread by as much as did the commercial antistaling enzyme Novamyl during 7-day storage at 4 degrees C. No cyclodextrin (CD) was detected in bread treated with CGTase3-18], whereas 21 mg of CD per 10 g of bread was produced in bread treated with wild-type CGTase. |
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| Keywords: | antistaling enzyme/CGTase/error-prone PCR/random mutagenesis/retrogradation |
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