New strategy for enhancement of microbial viability in simulated gastric conditions based on display of starch-binding domain on cell surface

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Department of Biotechnology, Graduate School of Engineering, Osaka University, 2-1 Yamadaoka, Suita, Osaka, 565-0871, Japan ^{[1
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J. Biosci. Bioeng. | 1600年 / 5卷 / 503-507期

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Compilation and indexing terms; Copyright 2024 Elsevier Inc;

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摘要：

Lactobacillus casei - Lactococcus - Peptidoglycan hydrolase - Starch binding domain - Surface displays - survival

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[1] New strategy for enhancement of microbial viability in simulated gastric conditions based on display of starch-binding domain on cell surface
Tarahomjoo, Shirin
Katakura, Yoshio
Shioya, Suteaki
[J]. JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 2008, 105 (05) : 503 - 507
[2] New Strategy for Enhancement of Microbial Viability in Simulated Gastric Conditions Based on Display of Starch-Binding Domain on Cell Surface (vol 105, pg 503, 2008)
Tarahomjoo, Shirin
Katakura, Yoshio
Shioya, Suteaki
[J]. JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 2008, 106 (04) : 416 - 416
[3] Development of a strategy to functionalize a dextrin-based hydrogel for animal cell cultures using a starch-binding module fused to RGD sequence
Susana M Moreira
Fábia K Andrade
Lucíla Domingues
Miguel Gama
[J]. BMC Biotechnology, 8
[4] Development of a strategy to functionalize a dextrin-based hydrogel for animal cell cultures using a starch-binding module fused to RGD sequence
Moreira, Susana M.
Andrade, Fabia K.
Domingues, Lucila
Gama, Miguel
[J]. BMC BIOTECHNOLOGY, 2008, 8 (1)