Natural variation in primary root growth and K+ retention in roots of habanero pepper (Capsicum chinense) under salt stress

被引:12
|
作者
Bojorquez-Quintal, Emanuel [1 ,3 ]
Ruiz-Lau, Nancy [1 ,4 ]
Velarde-Buendia, Ana [2 ]
Echevarria-Machado, Ileana [1 ]
Pottosin, Igor [2 ]
Martinez-Estevez, Manuel [1 ]
机构
[1] Ctr Invest Cient Yucatan, Unidad Bioquim & Biol Mol Plantas, Yucatan, Mexico
[2] Univ Colima, Ctr Univ Invest Biomed, Colima, Mexico
[3] Colegio Michoacan, CONACYT Lab Anal & Diag Patrimonio, La Piedad, Michoacan, Mexico
[4] Inst Tecnol Tuxtla Gutierrez, CONACYT Inst Tecnol Nacl Mexico, Tuxtla Gutierrez, Mexico
来源
FUNCTIONAL PLANT BIOLOGY | 2016年 / 43卷 / 12期
关键词
Capsicum annuum; Capsicum chinense; ion-selective electrodes; K+ retention; K+ efflux; primary root; INDUCED POTASSIUM EFFLUX; MEMBRANE H+-ATPASE; SALINITY TOLERANCE; PHYSIOLOGICAL ROLES; K+/NA+ HOMEOSTASIS; ION-TRANSPORT; ARABIDOPSIS; MECHANISMS; NUTRITION; CHANNELS;
D O I
10.1071/FP15391
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
In this work, we analysed the natural variation in mechanisms for protection against salt stress in pepper varieties (Capsicum chinense Jacq. cv. Rex, Chichen-Itza and Naranja and Capsicum annuum L. cv. Padron), considering primary root growth and viability of the post-stressed seedlings. NaCl-induced K+ and H+ efflux in roots was also studied by ion-selective microelectrodes under application of pharmacological agents. In these pepper varieties, the magnitude of the K+ leakage in the roots positively correlated with growth inhibition of the primary root in the presence of NaCl, with Rex variety showing a higher level of tolerance than Chichen-Itza. The K+ leakage and the activity of the H+ pump in the roots were dependent on the NaCl concentration. Pharmacological analysis indicated that the NaCl-induced K+ leakage was mediated by TEA(+)-sensitive KOR channels but not by NSCC channels. In addition, we present evidence for the possible participation of proline, and a Na+-insensitive HAK K+ transporter expressed in habanero pepper roots for maintaining K+ homeostasis under salt stress conditions.
引用
收藏
页码:1114 / 1125
页数:12
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