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Heterologous expression of heat-shock protein PpHSP70 improves high temperature and drought tolerance in rice

Shuyan Kou, Zhigang Wu, Hong-Yu Li, Xin Chen, W. M. Liu, Ping-Rong Yuan, Zhenhua Zhu, Yang Xu, Huahui Li, Ping Huang, Li Liu

2023Plant Stress13 citationsDOIOpen Access PDF

Abstract

The research investigated the potential of heterologous expression of the heat-shock protein PpHSP70 in enhancing high temperature and drought tolerance in rice. After screening the whole genome sequence of Physcomitrium patens in the Phytzome database, 30 members of the HSP70 gene family were obtained. Their expression and the tissue expression patterns under abiotic stressors of high temperature, drought, and salt were analyzed. During the four-leaf stage of rice, overexpressed materials were subjected to a temperature of 45 °C for 20 h and to drought conditions for one week. After processing, 5 overexpression PpHSP70 materials survived against high temperature, and 7 materials survived against drought, while all wild-type materials KY131 died after the treatment. The results demonstrated that overexpression of PpHSP70 significantly improved both high-temperature tolerance and drought. This study provides valuable insights into the utilization of heterologous expression for enhancing crop tolerance to abiotic stressors.

Topics & Concepts

HeterologousAbiotic componentAbiotic stressHeterologous expressionDrought toleranceBiologyHsp70Heat shock proteinGeneGene expressionHorticultureCropBotanyCell biologyGeneticsAgronomyRecombinant DNAEcologyHeat shock proteins researchthermodynamics and calorimetric analysesPhysiological and biochemical adaptations
Heterologous expression of heat-shock protein PpHSP70 improves high temperature and drought tolerance in rice | Litcius