Abstract
Calmodulin-like (CML) proteins are important Ca2+ sensors, which play significant role in mediating plant stress tolerance. In the present study, cold responsive calmodulin-like (ShCML44) gene was isolated from cold tolerant wild tomato (Solanum habrochaites), and functionally characterized. The ShCML44 was differentially expressed in all plant tissues including root, stem, leaf, flower and fruit, and was strongly up-regulated under cold, drought and salinity stresses along with plant growth hormones. Under cold stress, progressive increase in the expression of ShCML44 was observed particularly in cold-tolerant S. habrochaites. The ShCML44-overexpressed plants showed greater tolerance to cold, drought, and salinity stresses, and recorded higher germination and better seedling growth. Transgenic tomato plants demonstrated higher antioxidant enzymes activity, gas exchange and water retention capacity with lower malondialdehyde accumulation and membrane damage under cold and drought stresses compared to wild-type. Moreover, transgenic plants exhibited reduced reactive oxygen species and higher relative water contents under cold and drought stress, respectively. Greater stress tolerance of transgenic plants was further reflected by the up-/down-regulation of stress-related genes including SOD, GST, CAT, POD, LOX, PR and ERD. In crux, these results strengthen the molecular understanding of ShCML44 gene to improve the abiotic stress tolerance in tomato.
Highlights
Stress-responsive genes by genomics technologies[6,7]
We reported that possible role of calmodulin-related protein ShCML44 in tolerance to different abiotic stresses
This unigene is homologous to S. lycopersicum Ca-binding protein mRNA LOC101245247
Summary
Stress-responsive genes by genomics technologies[6,7]. These genes may belong to different protein groups according to their domain. AtCaM15 ( called AtCML18) interacts with AtNHX1 and alters the Na+/K+ selectivity of the exchanger by decreasing its Na+/H+ exchange speed This interaction suggests the presence of Ca2+ dependent signaling to mediate salt stress responses[25]. Another CML gene AtCML24/TCH2 was induced by cold, drought and might be involved in cold-related Ca2+ signals transduction[26,27]. A novel CML gene OsMSR2 (Oryza sativa multi-stress-responsive gene2) has been reported to confer the drought and salt tolerance of plants through ABA-mediated pathways in Arabidopsis[3]. It has been reported that CML44 gene is induced in cold tolerant tomato genotypes rather than in the sensitive one under cold stress[31], suggesting that this gene may play an important role in stress mechanism and may be responsible for multiple stress tolerance in tomato
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