Establishment of genetic transformation system and genetic improve-ment of frost resistance of Xiaoguo Tianshi persimmon
[Objective]Persimmon(Diospyros kaki Thunb.)is generally propagated by grafting.The sweet persimmon Fuyu is known for its excellent fruit quality.However,when grafted on the common rootstock Diospyros lotus L.,it has shown low survival rate,slow growth or incompatibility in later stage.This is particularly evident in traditional producing areas in China where D.lotus is commonly used as rootstock,so that Fuyu could not be produced on a large scale in our country.Xiaoguo Tianshi persimmon(D.kaki Thunb.)was collected from Dabie Mountain area of Hubei province.Through field observations,in vitro stem segment wedge grafting and callus tissue approach grafting experiments,it has been found that Xiaoguo Tianshi persimmon and Fuyu persimmon varieties presented graft affinity.Following its widespread planting and popularity throughout China,it is noted that the Xiaoguo Tianshi persimmon has showed inadequate resistance to frost,which results in a greater mortality rate when ex-posed to unfavorable weather circumstances.Compared to molecular breeding,traditional cross breed-ing is time-consuming.Introducing resistance traits via transgenic methods could enhance the frost re-sistance of Xiaoguo Tianshi persimmon.To date,a leaf regeneration system and a reliable stable genetic transformation system of Xiaoguo Tianshi persimmon have not been reported.This study aims to estab-lish a reliable leaf regeneration system for Xiaoguo Tianshi persimmon and optimize its stable genetic transformation system,thereby facilitating genetic improvement of frost-resistant rootstock germplasm through molecular breeding technology.[Methods]Utilizing leaf discs from Xiaoguo Tianshi persim-mon as explants,our initial investigations focused on the influence of varying concentrations of indole-acetic acid(IAA)and cytokinins[zeatin(ZT)or thidiazuron(TDZ)]on the induction of callus forma-tion and the regeneration of adventitious buds.Subsequently,the sensitivity of Xiaoguo Tianshi persim-mon leaf discs to various antibiotic concentration combinations was assessed.Moreover,by leveraging an Agrobacterium tumefaciens-mediated stable genetic transformation system facilitated through the aforementioned explants,we further examined the impact of overexpressing the cold resistance gene DlCBF1 from D.lotus on the frost resistance of regenerated plants derived from Xiaoguo Tianshi per-simmon leaf discs.[Results]The highest callus formation rate(64.71%)in Xiaoguo Tianshi persimmon was achieved when leaf explants were cultured on the Murashige and Skoog medium containing half of the normal nitrogen concentration(1/2N)supplemented with 2.0 mg·L-1 zeatin(ZT)and 2.0 mg·L-1 thidi-azuron(TDZ).When these callus tissues were transferred to a germination medium of MS(1/2N)+ZT 2.0 mg·L-1+IAA 0.1 mg·L-1,the rate of adventitious bud regeneration and the average number of buds generated were 31.11%and 2.37,respectively.During the optimization of stable genetic transformation conditions for Xiaoguo Tianshi persimmon,it was found that a concentration of 400 mg·L-1 cefotaxime could inhibit the growth of Agrobacterium tumefaciens,meanwhile this led to a low rate of callus induc-tion(9.84%).Kanamycin significantly affected the regeneration of Xiaoguo Tianshi persimmon leaf ex-plants,with a concentration of 20 mg·L-1 reducing the induction rate of callus formation to just 11.57%.Concentration of 10 mg·L-1 kanamycin was found to be optimal for the stable genetic transformation of Xiaoguo Tianshi persimmon leaf explants,resulting in a callus induction rate of 62.28%.Following sta-ble genetic transformation of Xiaoguo Tianshi persimmon to overexpress the DlCBF1 gene cloned from D.lotus,a total of 73 regenerated plants were obtained.DNA-PCR identification revealed 5 positive transgenic plants.Quantitative fluorescence PCR analysis showed that the expression levels of the Dl-CBF1 gene in transgenic plants #1 and #47 were higher,being 13 and 11 times than those of the wild-type plants,respectively.In frost resistance determination experiment,after treatment at-4 ° C for 8 hours,the transgenic lines showed significantly weak damage compared to wild-type plants,which ex-hibited browned leaves and signs of dehydration.Weak chlorophyll fluorescence signal was observed in wild-type plants,thus indicating reduced photosynthetic efficiency in wild plants after low temperature treatment.After cold treatment,electrical conductivity increased in wild-type plants,implying that the leaf tissue membrane had been damaged.Staining with DAB and NBT after cold treatment showed that wild-type plants accumulated more H2O2 and O2 in their leaf tissues than transgenic lines.These results exhibited that,in comparison to plants of the wild type,cold tolerance was enhanced in the transgenic lines.[Conclusion]This study,building upon the optimization of a leaf explant regeneration and stable genetic transformation system for Xiaoguo Tianshi persimmon,has successfully achieved stable overex-pression of D.lotus cold resistance gene DlCBF1 within leaf tissue of Xiaoguo Tianshi persimmon.There was 6.85%transgenic positive Xiaoguo Tianshi persimmon.Further experimental results had con-vincingly demonstrated that overexpression of the DlCBF1 gene significantly enhances the frost resis-tance of the regenerated Xiaoguo Tianshi persimmon plants.These findings provide a scientific basis for genetic improvement of novel persimmon rootstock germplasm with enhanced cold resistance.
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