机构地区:[1]华中农业大学果蔬园艺作物种质创新与利用全国重点实验室,武汉430070
出 处:《果树学报》2024年第8期1678-1687,共10页Journal of Fruit Science
摘 要:【目的】建立小果甜柿(Diospyros kaki Thunb.‘Xiaoguo Tianshi’)叶片再生和优化其遗传转化体系,以期通过分子育种技术获得抗冻性强的砧木新种质。【方法】以小果甜柿叶盘为外植体,首先通过不同生长素(IAA)质量浓度和细胞分裂素(ZT,TDZ)配比探讨对其愈伤诱导和不定芽再生的影响;进而探讨其叶片对不同抗生素质量浓度组合的敏感性;此外,利用根癌农杆菌介导的叶盘稳定遗传转化体系,进一步探讨超表达君迁子(D.lotus L.)抗寒基因DlCBF1对小果甜柿叶盘再生植株抗冻性的影响。【结果】叶圆片在MS(1/2N)+ZT 2.0 mg·L^(-1)+TDZ 2.0 mg·L^(-1)培养基中愈伤形成率最高(64.71%);将愈伤组织接种到MS(1/2N)+ZT 2.0 mg·L^(-1)+IAA 0.1mg·L^(-1)生芽培养基中,不定芽再生率和不定芽数分别为31.11%和2.37个。头孢霉素质量浓度为400 mg·L^(-1)时可抑制农杆菌生长,且叶片愈伤形成率低(9.84%);卡那霉素对叶片再生影响大,在质量浓度为20 mg·L^(-1)时其愈伤诱导率为11.57%。小果甜柿叶片稳定超表达君迁子DlCBF1基因,获得再生植株73株,其中阳性植株5株,荧光定量结果分析,阳性植株#1和#47中DlCBF1基因表达量分别为野生型的13倍和11倍。经过-4℃低温处理8 h后,超表达株系与野生型株系相比,叶片受伤害程度更小,光合作用效率变化不明显,电导率低,H_(2)O_(2)和O_(2)^(-)在组织中的积累少,阳性株系表现出比野生型株系更强的抗冻性。【结论】在优化小果甜柿叶片外植体再生和稳定遗传转化体系的基础上,通过在小果甜柿叶片中超表达君迁子DlCBF1基因,获得6.85%转基因阳性再生植株,稳定超表达DlCBF1基因可显著增强小果甜柿再生植株的抗冻性。研究结果为培育抗冻性强的柿砧木新种质提供了科学依据。【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 exposed to unfavorable weather circumstances.Compared to molecular breeding,traditional cross breeding is time-consuming.Introducing resistance traits via transgenic methods could enhance the frost resistance 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 establish 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 persimmon as explants,our initial investigations focused on the influence of varying concentrations of indoleacetic acid(IAA)and cytokinins[zeatin(ZT)or thidiazuron(TDZ)]on the induction of callus formation and the regeneration of adventitious buds.Subsequently,the sensitivity of Xiaoguo Tianshi persimmon leaf discs to various antibiotic concentration combination
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
