Screening a bacterium and its effect on the biological degumming of ramie and kenaf

Cheng, Lifeng; Wang, Qiming; Feng, Xiangyuan; Duan, Shengwen; Yang, Qi; Zheng, Ke; Liu, Zhiyuan; Liu, Zhengchu; Peng, Yuande

Cheng, Lifeng; Wang, Qiming; Feng, Xiangyuan; Duan, Shengwen; Yang, Qi; Zheng, Ke; Liu, Zhiyuan; Liu, Zhengchu; Peng, Yuande.

Afiliação

Cheng, Lifeng; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN
Wang, Qiming; Hunan Agricultural University. College of Bioscience and Biotechnology. Changsha. CN
Feng, Xiangyuan; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. ChangshaChangsha. CN
Duan, Shengwen; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN
Yang, Qi; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN
Zheng, Ke; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN
Liu, Zhiyuan; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN
Liu, Zhengchu; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN
Peng, Yuande; Chinese Academy of Agricultural Sciences. Institute of Bast Fiber Crops. Changsha. CN

Sci. agric ; 75(5): 375-380, Sept.-Oct.2018. ilus, tab

Article em En | VETINDEX | ID: biblio-1497729

Biblioteca responsável: BR68.1

Localização: BR68.1

ABSTRACT

ABSTRACT

Biological degumming is an eco-friendly, efficient, high-quality and low-cost method that has become the leading bast fiber degumming technology. However, bacterial strains with short degumming cycles, high gum removal rates and small fiber damage are few. To screen high quality microbial resources with bast-fiber biological degumming function, soil samples were collected from a continuously cultivated banana plantation and then used to be enriched by ramie and kenaf materials in turn. A selective pectin-degrading medium was used to screen for excellent bacteria. A dominant bacterial strain was identified by phenotypic and genotypic characteristics, and its biological degumming effects on ramie and kenaf were verified by a comprehensive evaluation system. Results showed that seven bacterial strains secreting pectinase were obtained and the largest hydrolysis circle with a diameter ratio H/C of 2.4 was produced by the bacterial strain hn1-1, which was preliminarily identified as the Bacillus cereus by colony morphological characteristics and 16S rDNA sequence (GenBank accession number KX013542) cluster analysis. The fiber production of ramie and kenaf degummed by B. cereus hn1-1 for 10 h were 72 % and 76 %, the residual gum rates were 4 % and 5 %, respectively. These values satisfied the textile industry requirement of < 6 % residual gum rate. Therefore, an effective biological degumming bacterium, B. cereus, was identified using a pectin-hydrolysis selective medium through a simple, economical, and time-saving method. Furthermore, the biological degumming technology by B. cereus for ramie and kenaf had a short cycle, ideal removal gum rate, and high-quality and productive fiber output.

Assuntos

Bacillus cereus; Boehmeria; Desengomantes; Hibiscus; Celulose; Pectinas

Palavras-chave

Bacillus cereus; Bast fiber; Bio-degumming; Pectinase

Texto completo

Adicionar na Minha BVS

Imprimir

XML

Buscar no Google

Texto completo: 1 Base de dados: VETINDEX Assunto principal: Bacillus cereus / Hibiscus / Boehmeria / Desengomantes Idioma: En Revista: Sci. agric Ano de publicação: 2018 Tipo de documento: Article / Project document

Texto completo

Adicionar na Minha BVS

Imprimir

XML

Buscar no Google