Progress in Genetic Engineering of Banana for |Fungal Disease Resistance

›› 2006, Vol. 8 ›› Issue (4): 1-7.

Progress in Genetic Engineering of Banana for |Fungal Disease Resistance

PEI Xin-wu, JIA Shi-rong

Biotechnology Research Institute, Chinese Academy of Agricultural Sciences, Beijing 100081, China

Received:2006-06-12 Revised:2006-07-12 Online:2006-08-15 Published:2009-10-26

香蕉抗真菌病基因工程策略

裴新梧贾士荣

中国农业科学院生物技术研究所,北京100081

作者简介:裴新梧(1963一)|男|博士|副研究员；主要从事植物基因工程研究。 E—mail：peixw@mail．ca~l$．net．c
基金资助:
国家自然科学基金（No.30571191）资助.

Abstract

Abstract:

Cultivation of banana and plantain is now threatened by many fungal diseases, of which the fungal disease, Panama wilt in particular, caused by Fusarium oxysporum f. sp. Cubense （race 4） is most serious that caused dramatic crop damage and economic loss. As almost all banana and plantain cultivars aare highly susceptible to race 4 of this pathogen and the chemical and cultural control measures are not efficient, the creation of new banana varietiesresistant to this disease is crucial. Cross breeding program is difficult to be conducted due to the predominantly asexual behavior of edible bananas, which are triploid and sterile. With the development and optimization of genetic transformation protocol in banana and the discovery of more genes resistant to pathogens, the genetic engineering of banana has paved a new way for its improvement.

Key words: banana, disease resistance , genetic engineering

摘要：

影响香蕉生产的真菌病害有枯萎病、黄叶斑病、黑叶斑病等，尤其是枯萎病4号小种，危害严重，造成毁灭性损失，目前尚无理想的防治药剂，迫切需要培育抗枯萎病的香蕉品种，但是栽培香蕉多为三倍体，难以通过有性杂交的方式改良。抗病基因工程是提高香蕉抗枯萎病能力的途径之一，随着香蕉转基因技术体系的建立和逐步完善，香蕉抗病基因资源的挖掘及植物抗病新基因的不断克隆，利用基因工程技术创造抗病新种质、培育抗病香蕉品种将成为可能。

关键词: 香蕉抗病基因工程

CLC Number:

PEI Xin-wu, JIA Shi-rong . Progress in Genetic Engineering of Banana for |Fungal Disease Resistance[J]. , 2006, 8(4): 1-7.

裴新梧贾士荣. 香蕉抗真菌病基因工程策略[J]. , 2006, 8(4): 1-7.

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