AUTHOR=Chen Guang , Liu Chaolei , Gao Zhenyu , Zhang Yu , Zhang Anpeng , Zhu Li , Hu Jiang , Ren Deyong , Yu Ling , Xu Guohua , Qian Qian 

TITLE=Variation in the Abundance of OsHAK1 Transcript Underlies the Differential Salinity Tolerance of an indica and a japonica Rice Cultivar

JOURNAL=Frontiers in Plant Science

VOLUME=8

YEAR=2018

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2017.02216

DOI=10.3389/fpls.2017.02216

ISSN=1664-462X

ABSTRACT=<p>Salinity imposes a major constraint over the productivity of rice. A set of chromosome segment substitution lines (CSSLs), derived from a cross between the <italic>japonica</italic> type cultivar (cv.) Nipponbare (salinity sensitive) and the <italic>indica</italic> type cv. 9311 (moderately tolerant), was scored using a hydroponics system for their salinity tolerance at the seedling stage. Two of the CSSLs, which share a ∼1.2 Mbp stretch of chromosome 4 derived from cv. Nipponbare, were as sensitive to the stress as cv. Nipponbare itself. Fine mapping based on an F<sub>2</sub> population bred from a backcross between one of these CSSLs and cv. 9311 narrowed this region to 95 Kbp, within which only one gene (<italic>OsHAK1</italic>) exhibited a differential (lower) transcript abundance in cv. Nipponbare and the two CSSLs compared to in cv. 9311. The gene was up-regulated by exposure to salinity stress both in the root and the shoot, while a knockout mutant proved to be more salinity sensitive than its wild type with respect to its growth at both the vegetative and reproductive stages. Seedlings over-expressing <italic>OsHAK1</italic> were more tolerant than wild type, displaying a superior photosynthetic rate, a higher leaf chlorophyll content, an enhanced accumulation of proline and a reduced level of lipid peroxidation. At the transcriptome level, the over-expression of <italic>OsHAK1</italic> stimulated a number of stress-responsive genes as well as four genes known to be involved in Na<sup>+</sup> homeostasis and the salinity response (<italic>OsHKT1;5</italic>, <italic>OsSOS1</italic>, <italic>OsLti6a</italic> and <italic>OsLti6b</italic>). When the stress was applied at booting through to maturity, the <italic>OsHAK1</italic> over-expressors out-yielded wild type by 25%, and no negative pleiotropic effects were expressed in plants gown under non-saline conditions. The level of expression of <italic>OsHAK1</italic> was correlated with Na<sup>+</sup>/K<sup>+</sup> homeostasis, which implies that the gene should be explored a target for molecular approaches to the improvement of salinity tolerance in rice.</p>