Plant lodging resistance is an important agronomic trait for grain yield and quality in crops. Extensin proteins are associated with plant cell growth and cell wall construction. Until now, little has been reported on their effect on plant lodging resistance. A team from Huazhong Agricultural University in China, led by Chunfen Fan, isolated a novel extensin-like (OsEXTL) gene in rice and expressed it in transgenic rice plants under two distinct promoters.
The two-promoter-driven OsEXTL-transgenic plants exhibited significantly reduced cell elongation in stem internodes, leading to relatively shorter plants compared to wild types. The transgenic plants also showed remarkably thickened secondary cell walls with higher cellulose levels in the mature plants, resulting in significantly increased mechanical strength.
Due to reduced plant height and increased plant mechanical strength, the OsEXTL-transgenic plants had enhanced lodging resistances compared to those of the rice cultivar ZH11. The OsEXTL-transgenic plants also maintained normal grain yields and biomass production.
This study demonstrates an improved lodging resistance in the OsEXTL-transgenic rice plants, and provides insights into extensin function in plant growth and development.
For more information, check out the research published in Plant Biotechnology Journal.