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Exopolysaccharides from Pantoea alhagi NX-11 specifically improve its root colonization and rice salt resistance

Int J Biol Macromol. 2022-04; 
Liang Sun, Lifangyu Cheng, Yuhang Ma, Peng Lei, Rui Wang, Yian Gu, Sha Li, Fuhai Zhang, Hong Xu
Products/Services Used Details Operation
Gene Synthesis … with Na + in soil, such that plants were not poisoned by Na + … to soybean through EPS-mediated Na + uptake limitation. … gene was biosynthesized by GenScript (Nanjing, China), and … Get A Quote

摘要

Plant growth-promoting rhizobacteria (PGPR) and their extracellular polymers such as exopolysaccharides can enhance rice salt stress resistance, however, the relevant mechanism remains unclear. In this study, an exopolysaccharides-deficient strain, named ΔpspD, was obtained from Pantoea alhagi NX-11 by chromosomal pspD deletion. The yield and characteristics of ΔpspD exopolysaccharides was obviously different from P. alhagi NX-11 exopolysaccharides (PAPS). Subsequently, hydroponic experiments showed that NX-11 or PAPS could enhance rice salt tolerance, but ΔpspD could not. Furthermore, it was found that PAPS promoted P. alhagi rhizosphere colonization through a direct effect on biofilm formation, as well as ... More

关键词

Exopolysaccharides, PGPR, Root colonization, Salt stress