Effects of exogenous trehalose on growth regulation and total flavonoid content of Glycyrrhiza uralensis seedlings under NaHCO3 stress

doi:10.11686/cyxb2020269

Abstract

Abstract:

In this study， aseptic plantlets of Glycyrrhiza uralensis generated by tissue culture were used to study the stress effects of NaHCO₃ at 50 mmol· L^-1 with and without exogenous trehalose addition to mitigate stress effects. The biomass， chlorophyll content， concentrations of osmotic regulation substances， antioxidant enzyme activities and total flavonoid contents in the plantlets were monitored. It was found that NaHCO₃-stressed seedlings showed significantly lower biomass， chlorophyll content， concentration of K⁺， total flavonoid contents and antioxidant enzyme （superoxide dismutase， peroxidase， catalase） activities， and significantly higher malondialdehyde （MDA）， proline， soluble sugar and Na⁺concentrations. Those plantlets treated with 15 mmol·L^-1^{trehalose showed significantly improved biomass， chlorophyll content， concentration of K⁺， total flavonoid content and antioxidant enzyme activities， together with reduced MDA， proline， soluble sugar， and Na⁺concentrations. In summary， the application of exogenous trehalose under NaHCO₃ stress had a major beneficial effect on the growth of G. uralensis plantlets and enhanced their alkali-resistance ability of the seedlings. This study provides a theoretical basis for understanding the mechanism of exogenous trehalose enhancement of the alkali-resistance capacity of G. uralensis plantlets.}

Key words: exogenous trehalose, NaHCO₃ stress, Glycyrrhiza uralensis seedlings, osmotic regulation substances, antioxidant enzymes

Fu-zhi LIU, Ying-fang ZHANG, Yuan CHEN. Effects of exogenous trehalose on growth regulation and total flavonoid content of Glycyrrhiza uralensis seedlings under NaHCO₃ stress[J]. Acta Prataculturae Sinica, 2021, 30(7): 148-156.

Figures/Tables 8

Table 1 Effects of trehalose at different concentrations on the biomass of licorice seedlings under NaHCO3 stress

处理 Treatment	根长 Root length (cm)	株高 Height (cm)	单株鲜重Fresh wight (g·plant^-1)
处理 Treatment	根长 Root length (cm)	株高 Height (cm)	根系Root	全株 Whole plant
CK₁	9.00±0.97a	6.20±0.75a	0.064±0.007a	0.172±0.015a
CK₂	7.30±0.25b	4.77±0.39bc	0.044±0.002b	0.145±0.041b
T₁	9.09±0.27a	6.07±0.28ab	0.050±0.003ab	0.154±0.025ab
T₂	9.23±0.33a	6.57±0.09a	0.057±0.007ab	0.162±0.021ab
T₃	9.47±0.12a	7.40±0.12a	0.067±0.007a	0.173±0.070a
T₄	9.13±0.20a	6.17±0.29a	0.061±0.014a	0.153±0.010ab
T₅	8.76±0.47a	5.83±0.54ab	0.047±0.025b	0.147±0.040b

Fig.1 Effects of trehalose concentration on chlorophyll content in licorice seedlings under NaHCO3 stress

Fig.2 Effects of trehalose at different concentrations on MDA content of licorice seedlings under NaHCO3 stress

Fig.3 Effects of trehalose at different concentrations on soluble sugar content in licorice seedlings under NaHCO3 stress

Fig.4 Effects of trehalose at different concentrations on Pro content of licorice seedlings under NaHCO3 stress

Fig.5 Effects of trehalose at different concentrations on Na+ concentration，K+ concentration and K+/Na+ in licorice seedlings under NaHCO3 stress

Fig.6 Effects of trehalose at different concentrations on SOD，POD， CAT activity in licorice seedlings under NaHCO3 stress

Fig.7 Effects of different concentrations of trehalose on total flavonoid content in licorice seedlings under NaHCO3 stress

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Effects of exogenous trehalose on growth regulation and total flavonoid content of Glycyrrhiza uralensis seedlings under NaHCO₃ stress

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