红斯威特和阳光玫瑰葡萄试管苗离体叶片器官再生途径的脱毒研究OA
Study on virus-free propagation of in-vitro leaf organ regeneration for grapes of Sweet Scarlet and Shine Muscat
[目的]探究葡萄试管苗通过离体叶片器官再生途径(不定芽直接再生/愈伤组织继代再生)脱除病毒的可行性,并优化再生培养基配方,为葡萄无病毒苗木的培育提供理论与技术支撑.[方法]以感染葡萄茎痘相关病毒(GRSPaV)的红斯威特葡萄和携带葡萄病毒E(GVE)、葡萄蚕豆萎蔫病毒(GFabV)及GRSPaV的阳光玫瑰葡萄试管苗为材料,筛选细胞分裂素(TDZ/BA)与生长素(IAA/NAA)配比、硝普钠(SNP)浓度及基本培养基类型,诱导离体叶片再生不定芽或愈伤组织;利用RT-PCR技术对再生植株进行病毒检测,分析脱毒效率.[结果]离体叶片再生的最适培养基:红斯威特葡萄为B5+1.0mg·L-1 TDZ+0.1 mg·L-1 IAA+15g·L-1葡萄糖+10mg·L-1 SNP;阳光玫瑰葡萄为B5+1.0 mg·L-1 TDZ+0.1 mg·L-1 IAA+15g·L-1葡萄糖+8 mg·L-1 SNP.红斯威特葡萄通过叶片直接再生不定芽,脱毒率达71.4%;阳光玫瑰葡萄经愈伤组织继代培养,至第3代完全脱除所有病毒,由其再生的植株经检测均为病毒阴性.[结论]在培养基中添加SNP可显著促进葡萄离体叶片不定芽再生.红斯威特葡萄适宜通过叶片直接再生途径进行脱毒,阳光玫瑰葡萄适宜通过愈伤组织继代再生途径进行脱毒,这两种途径均能获得无病毒原种.
[Objective]Grapes are highly susceptible to various virus infection.Heat treatment com-bined with apical meristem culture is currently a commonly used method for virus elimination and is ef-fective against most grape viruses,but it is less effective in eliminating Grapevine Rupestris Stem Pit-ting associated Virus(GRSPaV).Organ regeneration refers to the in vitro culture of plant stems,leaves,or other organs under sterile conditions to regenerate new tissues and organs.This process accelerates the rate of cell division and development,thereby in creasing the probability of obtaining virus-free tis-sues and cells,from which adventitious buds can be induced to regenerate virus-free plants.This experi-ment aims to eliminate GRSPaV and other viruses through organ regeneration,thereby cultivate prima-ry virus-free planets and provide support for the theoretical and practical development of grape virus elimination techniques.[Methods]The in vitro plantlets of Sweet Scarlet grape infected with GRSPaV and Shine Muscat grape infected with Grapevine Virus E(GVE),grapevine fabavirus(GFabV),and GRSPaV were studied.The subculture medium for Sweet Scarlet grape and Shine Muscat grape was B5+0.5 mg·L-1IAA+25 g·L-1 sucrose+6 g·L-1 agar,and B5+0.3 mg·L-1 IBA+0.5 mg·L-1IAA+25 g·L-1 glucose+6 g·L-1 agar,respectively.The appropriate amount of cytokinin and auxin in B5 basal medium were screened by supplied(4.0,5.0 mg·L-1)BA+(0.1,0.2,0.3 mg·L-1)IAA,and 2.0 mg·L-1 TDZ+(0.1,0.2,0.3 mg·L-1)IAA or(0.1,0.2,0.3 mg·L-1)NAA.The addition of TDZ to B5 basal medium were test-ed at concentrations of 0.5,1.0,2.0,2.5,and 3.0 mg·L-1 levels.The sodium nitroprusside(SNP)was supplied to MS or B5 basal medium at concentrations of 0,4,6,8,10,and 12 mg·L-1 to evaluate its effi-ciency for the regeneration of adventitious buds from the plantlets in vitro.Based on the optimal medi-um obtained from the above experiments,Sweet Scarlet grape was directly induced to regenerate adven-titious buds from leaves in vitro.Subsequently,the adventitious buds were excised and cultured in the subculture medium.A total of sixty-three plantlets from the seven clones were obtained and subjected for the virus detection by RT-PCR analysis.For Shine Muscat grape plantlets,the in vitro cultured leaves were firstly induced to generate callus.The callus was then subcultured onto B5+1.0 mg·L-1 BA+0.1 mg·L-1 NAA+30 g·L-1 glucose medium,with subculture interval lasting 20-30 d.During each sub-culture interval,six clones of callus were randomly selected for the virus detection.The virus-free cal-lus was then transferred to B5+2.0 mg·L-1 TDZ+0.2 mg·L-1 NAA+15 g·L-1 glucose medium to induce the regeneration of adventitious buds.After virus detection,the buds were cut and subcultured to devel-op into plants.[Results]The combination of TDZ and IAA was suitable for in vitro regeneration of ad-ventitious buds from Sweet Scarlet grape leaves and for inducing callus from Shine Muscat grape leaves.In vitro leaves of Sweet Scarlet grape treated with TDZ at 1.0 mg·L-1 showed the highest adven-titious bud rate(18.06%)and the number of buds per leaf disk(0.96),significantly higher than those un-der other TDZ concentrations.The optimal medium for adventitious bud regeneration from the leaves of Sweet Scarlet grape plantlets was B5+1.0 mg.L-1 TDZ+0.1 mg·L-1 IAA+15 g·L-1 glucose+10 mg·L-1 SNP.Within the 0.5-1.0 cm leaf disk,the average number of the adventitious buds reached 1.82,repre-senting an 114.12%increase compared to the treatment without SNP.For Shine Muscat grape,the in vi-tro cultured leaf discs failed to induce adventitious bud in medium with different cytokinin and auxin factors or different concentrations of TDZ.However,the adventitious bud regeneration was success-fully induced on medium supplemented with SNP,and the optimal medium was B5+1.0 mg·L-1 TDZ+0.1 mg·L-1 IAA+15 g·L-1 glucose+8 mg·L-1 SNP,yielding an adventitious bud rate of 17.03%and an average of 1.80 buds per plantlet.The adventitious buds regenerated from the leaves of Sweet Scarlet grape were in vitro cultured into plants.Five out of seven tested clones were free of GRSPaV,achieving a virus removing rate of 71.4%.Callus was induced from the leaves of Shine Muscat grape plantlets car-rying GVE,GFabV,and GRSPaV.The first-generation callus retained all viruses presented in the origi-nal plants.Only GRSPaV was detected in the second-generation,while none of the viruses were found in the third-generation.Virus testing for the callus of the fourth generation and the subsequent con-firmed complete virus-free status.Adventitious buds were then regenerated from the virus-free callus,successfully yielding the primary virus-free plants.[Conclusion]The addition of SNP in the medium significantly promoted the adventitious bud regeneration from the leaves of Sweet Scarlet grape and Shine Muscat grape plantlets in vitro.Virus-free plants could be directly obtained via the adventitious bud regeneration either from the leaves in vitro in Sweet Scarlet grape or from the callus of the leaves in vitro in Shine Muscat grape.
张钰静;杜易静;李琪伟;韩知彤;王莉;杜国强;师校欣
河北农业大学园艺学院,河北保定 071000河北农业大学园艺学院,河北保定 071000河北农业大学园艺学院,河北保定 071000河北农业大学园艺学院,河北保定 071000河北农业大学园艺学院,河北保定 071000河北农业大学园艺学院,河北保定 071000河北农业大学园艺学院,河北保定 071000
农业科技
葡萄试管苗离体叶片器官再生不定芽愈伤组织脱毒硝普钠(SNP)
GrapePlantlet in vitroLeaf in vitroOrgan regenerationAdventitious budCallusVirus eliminationSodium nitroprusside(SNP)
《果树学报》 2026 (3)
589-599,11
河北省现代农业产业技术体系葡萄创新团队建设专项资助(HBCT2023150201)
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