Superoxide dismutases (SODs) play important role in stress tolerance of plants. In this study, an MnSOD gene (TaMnSOD) from Tamarix androssowii, under the control of the CaMV35S promoter, was introduced into poplar (Populus davidiana x P. bolleana). The physiological parameters, including SOD activity, malondialdehyde (MDA) content, relative electrical conductivity (REC) and relative weight gain, of transgenic lines and wild type (WT) plants, were measured and compared. The results showed that SOD activity was enhanced in transgenic plants, and the MDA content and REC were significantly decreased compared to WT plants when exposed to NaCl stress. In addition, the relative weight gains of the transgenic plants were 8- to 23-fold of those observed for WT plants after NaCl stress for 30 days. The data showed that the SOD activities that increased in transgenic lines are 1.3-4-folds of that increased in the WT plant when exposed to NaCl stress. Our analysis showed that increases in SOD activities as low as 0.15-fold can also significantly enhance salt tolerance in transgenic plants, suggesting an important role of increased SOD activity in plant salt tolerance
We developed a new protocol for highly efficient somatic embryogenesis and plantlet conversion of Schisandra chinensis. Friable embryogenic callus was induced from cotyledonary leaves and hypocotyls of germinated zygotic embryos on Murashige and Skoog (MS) agar medium containing 2,4-dichlorophenoxyacetic acid (2,4-D). Preculture of zygotic embryos on 2,4-D-containing medium increased embryogenic callus induction efficiency. The highest embryogenic callus induction frequency of 56.7% was obtained from shoot apical meristem-containing hypocotyl explants from 1-week-old germinated embryos on MS medium containing 4.0 mg l -1 2,4-D. Embryogenic callus proliferation, somatic embryo (SE) formation, and subsequent plantlet conversion occurred under optimal culture conditions. The effects of MS medium strength, sucrose, gibberellic acid (GA 3 ), and 6-benzyladenine (BA) on SE formation and plantlet conversion were evaluated. Low MS medium strength (1/4 to 1/2) was necessary for SE formation, and the optimal sucrose concentration was 2.0%. Supplementing medium with GA 3 negatively impacted SE formation and subsequent development. BA significantly increased the number of SEs and the plantlet conversion capacity.One-third-strength MS medium with 1.0% sucrose and 0.5 mg l -1 BA produced the highest number of SEs (309 embryos from 9 mg embryogenic callus) and the highest frequency of plantlet conversion from germinated SEs (52.6%). When transplanted to soil, 90% of the regenerated plants developed into normal plants.
Twist-related protein 2 (TWIST2) is identified as a basic helix-loop-helix (b-HLH) transcription repressor by dimerizing with other b-HLH proteins. The significance of TWIST2 has been emphasized in various tumors; however, few studies report its functions in metabolism and metabolic diseases. Here we aimed to explore the novel role and regulation mechanism of TWIST2 in hepatic steatosis. Our results showed that Twist2 knockdown caused mice obesity, insulin resistance, and hepatic steatosis, which were accompanied with inflammation, endoplasmic reticulum stress, and mitochondrial dysfunction. In vitro, TWIST2 overexpression ameliorated hepatocellular steatosis, inhibited inflammation, and improved mitochondrial content and function with a fibroblast growth factor 21 (FGF21)-dependent pattern. NF-kB negatively regulated FGF21 transcription by directly binding to FGF21 promoter DNA, which was eliminated by TWIST2 overexpression by inhibiting NF-kB expression and translocation to nucleus. TWIST2 overexpression decreased intracellular reactive oxygen species level, increased mitochondrial DNA and biogenesis, and enhanced ATP production and antioxidation ability. Additionally, TWIST2 expression was repressed by insulin-targeting sterol regulatory element-binding protein 1c (SREBP1c) and forkhead box protein O1 and was enhanced by dexamethasone targeting Krüppel-like factor 15, which directly interacted with Twist2 promoter DNA. Together, our studies identify an important role and regulation mechanism of TWIST2 in maintaining hepatic homeostasis by ameliorating steatosis, inflammation, and oxidative stress via the NF-kB-FGF21 or SREBP1c-FGF21 pathway, which may provide a new therapeutic scheme for nonalcoholic fatty liver disease.-
Somatic embryogenesis (SE) was induced in female flower buds from mature Schisandra chinensis cultivar 'Hongzhenzhu'. Somatic embryo structures were induced at a low frequency from unopened female flower buds and excised unopened on Murashige and Skoog (MS) agar medium containing 4.0 mg l -1 2,4-dichlorophenoxyacetic acid (2,4-D). Friable embryogenic calli were induced from somatic embryo structures after three to four subcultures on initiation medium. The frequencies of mature somatic embryo germination and plantlet conversion were low, but increased in the presence of gibberellic acid (GA 3 ). Some germinated somatic embryos could form friable embryogenic calli on medium without plant growth regulators (PGRs). The germination and conversion frequencies of somatic embryos from embryogenic calli induced using PGR-free medium were higher than for somatic embryos from embryogenic calli induced on medium containing 2,4-D. Most somatic embryos from 2,4-D-induced embryogenic calli had trumpet-shaped embryos, and most somatic embryos from PGR-free medium-induced embryogenic calli had two or three cotyledons. Histological observation indicated that two-and three-cotyledon embryos had defined shoot primordia, but most of the trumpet-shaped embryos yielded plantlets that lacked or had poorly developed meristem tissue. Cytological and random amplification of polymorphic DNA (RAPD) analyses indicated no evidence of genetic variation in the plantlets of somatic embryo origin.
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