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Literature DB >> 16232638

Expression of a bacterial endoglucanase gene in tobacco increases digestibility of its cell wall fibers.

T Kawazu¹, J L Sun, M Shibata, T Kimura, K Sakka, K Ohmiya.

Abstract

Transgenic tobacco plants exhibiting exogenous cellulase activity were produced by introduction of a truncated cellulase (t-EgI) gene from Ruminococcus albus. They accumulated about 0.1-0.5% t-EgI of the total soluble proteins in the cytoplasm. They were normal in morphology and growth. t-EgI expressed in the transgenic plants degraded their own cell wall materials after the cells were disrupted. The plants expressing the t-egI gene could be used as "cellulase-encapsulating plants" for livestock and food industries.

Entities: Species

Year: 1999 PMID： 16232638 DOI： 10.1016/s1389-1723(99)80220-5

Source DB: PubMed Journal: J Biosci Bioeng ISSN： 1347-4421 Impact factor: 2.894

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Cited

5 in total

1. In planta differential targeting analysis of Thermotoga maritima Cel5A and CBM6-engineered Cel5A for autohydrolysis.

Authors: Shobana Arumugam Mahadevan; Seung Gon Wi; Yeon Ok Kim; Kwang Ho Lee; Hyeun-Jong Bae
Journal: Transgenic Res Date: 2010-12-09 Impact factor: 2.788

2. Functional co-expression of a fungal ferulic acid esterase and a β-1,4 endoxylanase in Festuca arundinacea (tall fescue) modifies post-harvest cell wall deconstruction.

Authors: Marcia M de O Buanafina; Sue Dalton; Tim Langdon; E Timms-Taravella; Erica A Shearer; Phillip Morris
Journal: Planta Date: 2015-04-09 Impact factor: 4.116

Expression of a bacterial endoglucanase gene in tobacco increases digestibility of its cell wall fibers.

1. In planta differential targeting analysis of Thermotoga maritima Cel5A and CBM6-engineered Cel5A for autohydrolysis.

2. Functional co-expression of a fungal ferulic acid esterase and a β-1,4 endoxylanase in Festuca arundinacea (tall fescue) modifies post-harvest cell wall deconstruction.

3. Chloroplast-derived enzyme cocktails hydrolyse lignocellulosic biomass and release fermentable sugars.

Review 4. Transgenic Plant-Produced Hydrolytic Enzymes and the Potential of Insect Gut-Derived Hydrolases for Biofuels.

5. Hyperthermophilic endoglucanase for in planta lignocellulose conversion.