Abstract
K+ is an essential nutrient for plant growth and is responsible for many important physiological processes. K+ deficiency leads to crop yield losses, and overexpression of K+ transporter genes has been proven to be an effective way to resolve this problem. However, current research on the overexpression of K+ transporter genes is limited to plant sources. TrkH is a bacterial K+ transporter whose function generally depends on the regulation of TrkA. To date, whether TrkH can improve K+ uptake in eukaryotic organisms is still unknown. In this study, a novel MbtrkH gene was cloned from marine microbial metagenomic DNA. Functional complementation and K+-depletion analyses revealed that MbTrkH functions in K+ uptake in the K+-deficient yeast strain CY162. Moreover, K+-depletion assays revealed that MbtrkH overexpression improves plant K+ uptake. K+ hydroponic culture experiments showed that, compared with WT tobacco lines, MbtrkH transgenic tobacco lines had significantly greater fresh weights, dry weights and K+ contents. These results indicate that MbTrkH promotes K+ uptake independently of TrkA in eukaryotes and provide a new strategy for improving K+-use efficiency in plants.
Highlights
IntroductionK+ is one of the main nutrients necessary for all living cells, accounting for 2%-10% of plant dry weight [1]
After nitrogen and phosphorus, K+ is one of the main nutrients necessary for all living cells, accounting for 2%-10% of plant dry weight [1]
A phylogenetic tree indicated that MbTrkH was distantly related to and members of the currently verified TrkH K+ transporter family
Summary
K+ is one of the main nutrients necessary for all living cells, accounting for 2%-10% of plant dry weight [1]. The uptake and transport of K+ in cells are mediated by several K+ transporters, such as transport of K+/K+ transporter/high-affinity K+ transporter (Trk/Ktr/HKT), K+ uptake protein/high-affinity K+ transporter/K+ transporter (KUP/HAK/KT), K+ efflux antiporter (KEA), and cation/hydrogen exchanger (CHX) [4,5,6].
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