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A non-K+-solubilizing PGPB (Bacillus megaterium) increased K+ deprivation tolerance in Oryza sativa seedlings by up-regulating root K+ transporters.

Authors :
Romero-Munar, Antònia
Aroca, Ricardo
Source :
Plant Physiology & Biochemistry. Mar2023, Vol. 196, p774-782. 9p.
Publication Year :
2023

Abstract

Potassium is one of the principal macronutrients required by all plants, but its mobility is restricted between soil compartments. Numerous studies have shown that Plant Growth Promoting Bacteria (PGPB) can facilitate nutrient uptake. The present work examined the effects of the PGPB (Bacillus megaterium) on rice plants subjected to potassium deprivation. To study only direct effects of B. megaterium , we first checked its lack of capacity to solubilize soil K. Rice plants were provided with 1.5 mM K (100%) or 0.015 mM K (1%) and growth related parameters, nutrient concentrations and gene expression of K+ transporters were determined. After two weeks, the 1% K treatment reduced growth of non-inoculated plants by about 50% compared with the 100% K treatment. However, there was no effect of reduced K nutrition on growth of inoculated plants. The reduction in growth in non-inoculated plants was accompanied by a similar reduction in K+ concentration in both roots and leaves and an overall 80% reduction of the plant potassium concentrations. In inoculated plants a 50% reduction occurred only in leaves. The expression of the K+ transporters HKT1;1 , 1;2 , 1;5 , 2;2 , 2;3 and 2;4 was up-regulated by the inoculation of B. megaterium under K deprivation conditions, explaining their higher K tissue concentrations and growth. Thus, the bacterial strain improved plant potassium nutrition without affecting K+ availability in the soil. The results demonstrate the potential of this bacteria for using as a biofertilizer to reduce the amount of potassium fertilizers to be applied in the field. • Interaction between rice and B. megaterium increasing biomass and nutrient uptake under K+ starvation conditions. • B. megaterium up-regulates HKT and HAK genes K+ transporters in Oryza sativa roots. • B. megaterium affects K+ uptake not by solubilizing it but changing K+ transporters expression. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09819428
Volume :
196
Database :
Academic Search Index
Journal :
Plant Physiology & Biochemistry
Publication Type :
Academic Journal
Accession number :
163018442
Full Text :
https://doi.org/10.1016/j.plaphy.2023.02.027