Tree Genetics and Molecular Breeding 2025, Vol.15, No.2, 70-79 http://genbreedpublisher.com/index.php/tgmb 73 Recent research by Liu et al. (2023) indicates that the gene AcePosF21 can activate the synthesis of ascorbic acid under cold conditions, which is useful for reducing oxidative damage to plants and enhancing the resistance of kiwifruit to low-temperature environments. Figure 1 Overexpression of AcMYB3R results in enhanced drought or salt tolerance (Adopted from Zhang et al., 2019) Image caption: A and B, phenotypes and the root length of wild type (WT) and AcMYB3R-overexpressing lines (#3, #5 and #6) under mimic drought stress on 0.5×MS medium. C, phenotype of WT and AcMYB3R-overexpressing lines (#3, #5 and #6) before and after drought stress treatments in pots. D and E, phenotypesm and the root length of WT and AcMYB3R-overexpressing lines (#3, #5 and #6) under salt stress on 0.5× MS medium. F, phenotype of WT and AcMYB3R-overexpressing lines (#3, #5 and #6) before and after NaCl treatment in pots. Data in Fig. 4-B and E are mean±SD from three independent experiment. **, signifcant differences at P<0.01 by Student’s t-test (Adopted from Zhang et al., 2019)
RkJQdWJsaXNoZXIy MjQ4ODYzNA==