Molecular cloning and expression analysis of RrNHX1 and RrVHA-c genes related to salt tolerance in wild Rosa rugosa

Salt stress is one important factor influencing the growth and development of plants, and salt tolerance of plants is a result of combined action of multiple genes and mechanisms. Rosa rugosa is not only an important ornamental plant, but also the natural aromatic plant of high value. Wild R. rugosa...

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Bibliographic Details
Published in:Saudi journal of biological sciences 2015-07, Vol.22 (4), p.417-423
Main Authors: Feng, Liguo, Ding, Han, Wang, Jia, Wang, Meng, Xia, Wei, Zang, Shu, Sheng, Lixia
Format: Article
Language:English
Subjects:
China
coasts
Effect of salts on
Effect of stress on
fluorescence
Gene cloning and expression
genes
growth and development
H-transporting ATP synthase
islands
leaves
molecular cloning
Original
ornamental plants
Physiological effect
Plant genetics
Plants
polymerase chain reaction
Rosa rugosa
Salt
salt concentration
salt stress
Salt tolerance
sodium chloride
Vacuolar H+-ATPase
Vacuolar Na+/H+ reverse transporter
vacuoles
Wild R. rugosa
الأملاح
النباتات
علم الوراثة
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Summary:Salt stress is one important factor influencing the growth and development of plants, and salt tolerance of plants is a result of combined action of multiple genes and mechanisms. Rosa rugosa is not only an important ornamental plant, but also the natural aromatic plant of high value. Wild R. rugosa which is naturally distributed on the coast and islands of China has a good salt tolerance due to the special living environment. Here, the vacuolar Na+/H+ reverse transporter gene (NHX1) and the vacuolar H+-ATPase subunit C gene (VHA-c) closely related to plant salt tolerance were isolated from wild R. rugosa, and the expression patterns in R. rugosa leaves of the two genes under NaCl stress were determined by real-time quantitative fluorescence PCR. The results showed that the RrNHX1 protein is a constitutive Na+/H+ reverse transporter, the expression of the RrNHX1 gene first increased and then decreased with the increasing salt concentration, and had a time-controlled effect. The RrVHA-c gene is suggestive of the housekeeping feature, its expression pattern showed a similar variation trend with the RrNHX1 gene under the stress of different concentrations of NaCl, and its temporal expression level under 200mM NaCl stress presented bimodal change. These findings indicated that RrNHX1 and RrVHA-c genes are closely associated with the salt tolerance trait of wild R. rugosa.
ISSN:1319-562X
2213-7106
DOI:10.1016/j.sjbs.2015.01.008