The cotton high-affinity Ksup(+) transporter, GhHAK5a, is essential for shoot regulation of Ksup(+) uptake in root under potassium deficiency

Wang, Y. . College of Agronomy and Biotechnology, Department of Crop Physiology and Cultivation, State Key Laboratory of Plant Physiology and Biochemistry; Wang, Y.; Li, B.; Xiong, C.; Eneji, A.E.; Zhang, M.; Li, F.; Tian, X.; Li, Z.

The cotton high-affinity Ksup(+) transporter, GhHAK5a, is essential for shoot regulation of Ksup(+) uptake in root under potassium deficiency

2019

Potassium (K) deficiency is a key limiting factor in cotton (Gossypium hirsutum) production. By grafting two contrasting cotton cultivars, CCRI41 (more susceptible to Ksup(+) deficiency) and SCRC22 (more tolerant of Ksup(+) deficiency), we established that cotton shoot plays a vital role in the regulation of root Ksup(+) uptake. To identify the genetic basis of this finding, we performed RNA sequencing (RNA-seq) of roots of CCRI41 self-grafts (CCRI41/CCRI41, scion/rootstock) and SCRC22/CCRI41 reciprocal-grafts exposed to Ksup(+) deficiency. We found that GhHAK5a, an orthologous of Arabidopsis thaliana high-affinity Ksup(+) transporter, AtHAK5, was significantly induced in the CCRI41 rootstock by the SCRC22 scion. This gene was mainly expressed in roots and was more highly induced by Ksup(+) deficiency in roots of SCRC22 than those of CCRI41. Agrobacterium-mediated virus-induced gene silencing and yeast complementary assay showed that GhHAK5a is a high-affinity Ksup(+) uptake transporter. Importantly, silencing of GhHAK5a in the CCRI41 rootstock almost completely inhibited the Ksup(+) uptake induced by SCRC22 scion in CCRI41 rootstock. We identified a key high-affinity Ksup(+) transporter, GhHAK5a in cotton, which is the essential target for shoot regulation of root Ksup(+) uptake under Ksup(+) deficiency.

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