StCaM2, a calcium binding protein, alleviates negative effects of salinity and drought stress in tobacco
Key Message Overexpression of StCaM2 in tobacco promotes plant growth and confers increased salinity and drought tolerance by enhancing the photosynthetic efficiency, ROS scavenging, and recovery from membrane injury. Calmodulins (CaMs) are important Ca 2+ sensors that interact with effector protein...
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Veröffentlicht in: | Plant molecular biology 2021-05, Vol.106 (1-2), p.85-108 |
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Sprache: | eng |
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Overexpression of StCaM2 in tobacco promotes plant growth and confers increased salinity and drought tolerance by enhancing the photosynthetic efficiency, ROS scavenging, and recovery from membrane injury.
Calmodulins (CaMs) are important Ca
2+
sensors that interact with effector proteins and drive a network of signal transduction pathways involved in regulating the growth and developmental pattern of plants under stress. Herein, using in silico analysis, we identified 17 CaM isoforms (
StCaM
) in potato. Expression profiling revealed different temporal and spatial expression patterns of these genes, which were modulated under abiotic stress. Among the identified StCaM genes,
StCaM2
was found to have the largest number of abiotic stress responsive promoter elements. In addition,
StCaM2
was upregulated in response to some of the selected abiotic stress in potato tissues. Overexpression of
StCaM2
in transgenic tobacco plants enhanced their tolerance to salinity and drought stress. Accumulation of reactive oxygen species was remarkably decreased in transgenic lines compared to that in wild type plants. Chlorophyll
a
fluorescence analysis suggested better performance of photosystem II in transgenic plants under stress compared to that in wild type plants. The increase in salinity stress tolerance in
StCaM2
-overexpressing plants was also associated with a favorable K
+
/Na
+
ratio. The enhanced tolerance to abiotic stresses correlated with the increase in the activities of anti-oxidative enzymes in transgenic tobacco plants. Overall, our results suggest that
StCaM2
can be a novel candidate for conferring salt and drought tolerance in plants. |
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ISSN: | 0167-4412 1573-5028 |
DOI: | 10.1007/s11103-021-01131-1 |