荔枝胚性细胞悬浮培养和植株再生OA
Embryogenic callus suspension culture and plant regeneration in litchi(Litchi chinensis Sonn.)
[目的]建立荔枝胚性愈伤组织悬浮培养及植株再生技术体系,为荔枝生物育种提供技术平台和参考.[方法]以荔枝花药愈伤组织为材料,分析不同浓度的肌醇、2,4-D、蔗糖、水解乳蛋白、椰汁以及起始接种量对荔枝胚性愈伤组织悬浮细胞建立的影响.[结果]培养基(MS+0.15g·L-1肌醇+1.0mg·L-1 2,4-D+20 g·L-1蔗糖+50mL·L-1椰汁)有利于细胞分裂;最适起始接种量为30 g·L-1,悬浮培养物淡黄色、易分散、细胞大小均一、形态一致;细胞团由6~15个细胞聚合而成,培养液清澈透亮;悬浮细胞生长参数呈S形,第3~6天是指数增长期,最适继代周期为6~8 d;在一个生长周期内,培养液pH先升高后持续下降,而电导率持续下降,最终pH和电导率逐渐趋于稳定;经4次继代后(约20 d),将悬浮培养物接种至固体培养基上进行增殖,用于诱导体胚分化;待体胚成熟后接种至萌发培养基,约50 d可成功获得再生植株.[结论]建立了妃子笑荔枝花药胚性愈伤组织悬浮培养体系,可用于后续的细胞工程和诱变育种等研究.
[Objective]Litchi(Litchi chinensis Sonn.)is an economically valuable fruit species in southern China.Breeding new variety is very important for meeting consumer needs and improving eco-nomic efficiency.However,the species'allogamous reproductive strategy drives extreme genomic het-erozygosity,presenting formidable barriers to precision breeding and genetic manipulation.To address these constraints,cell suspension culture emerges as a transformative biotechnological platform,offer-ing dual strategic capacities.It would generate homogeneous cell populations essential for protoplast isolation,somatic hybridization,and transgenic development;Moreover,it would enable industrial-scale biosynthesis of high-value phytochemicals.This study systematically optimized critical parame-ters governing litchi anther-derived callus growth in suspension systems,including macro-/micronutri-ent formulations(inositol,2,4-D,sucrose),organic growth modulators[lactalbumin hydrolysate(LH),coconut water(CW)],and inoculation density thresholds.The multifactorial optimization strategy aimed to establish a robust,scalable suspension culture protocol yielding high-quality embryogenic cul-tures,thereby creating foundational biomaterials for advanced applications in litchi protoplast technolo-gy and cross-species genetic engineering initiatives.[Methods]Anther-derived embryogenic callus of Feizixiao litchi was used as the initial material.Suspension cultures were established in liquid MS medi-um under dark conditions(25±2℃,120 r·min-1).A series of experiments were conducted to optimize culture conditions:Inositol(0-0.2 g·L-1),2,4-D(0.1-2 mg·L-1),sucrose(10-40 g·L-1),LH(0-0.4 g·L-1),CW(0-200 mL·L-1),and inoculum densities(10-40 g·L-1)were tested for their effects on cell prolifera-tion,single-cell viability,and biomass.Suspension cultures were subculture every 4 days,filtered through a 0.85 mm sieve,and monitored for growth parameters[fresh weight(FW),dry weight(DW),packed cell volume(PCV),pH,conductivity).Embryogenic callus proliferation,somatic embryo differ-entiation,maturation,and plant regeneration were induced using specific solid media supplemented with growth regulators(NAA,ZT,ABA)and high sucrose concentrations.[Results]Single-factor trial results showed that the effects of inositol,2,4-D,sucrose,CW and initial inoculum density on the callus morphology(single cell,little cell group and density)and proliferation rate(FW,DW)were significant(P<0.05),while the effect of LH was not significant.The embryogenic suspension system of litchi was established.The optimal treatment regimen was as follows:Anther embryogenic callus of Feizixiao li-tchi was inoculated into liquid medium containing MS+inositol 0.15 g·L-1+2,4-D 1 mg·L-1+sugar 20 g·L-1+CW 50 mL·L-1.The initial inoculum density was 1.5 g per 50 mL of culture medium.The suspension culture was maintained under dark conditions at(25±2)℃ with 120 rpm orbital shaking.The subculturing was performed every 4 days for 3-4 cycles,followed by filtration through 0.85 mm mesh,after that the subculturing interval was extended to 7 days.After approximately 20 days of total cultivation,an optimal suspension cell line was obtained,characterized by predominantly round or near-round cell morphology,excellent dispersion and homogeneity,rapid cell division and growth,abundant and active cytoplasmic structures,and a clear,transparent suspension.The growth parameters of the li-tchi suspension culture(single-cell yield,biomass accumulation,and cell packed volume)followed a sigmoidal("S"-shaped)growth curve.The culture progression was divided into three phases:lag phase(days 1-2):minimal single-cell dispersion,slow increases in FW,DW and packed cell volume(PCV),logarithmic growth phase(days 3-6):rapid cell division with significant increases in single-cell count,FW,DW,and cell density,and stationary phase(days 7-16):stabilized cell growth with gradual increases in FW,DW and PCV.Beyond this phase,the prolonged culture led to cell senescence and fragmentation,accompanied by sharp declines in viable cell count and survival rate,with minimal increases in FW,DW and PCV.The pH of the suspension initially showed a slight increase followed by continuous decline throughout the culture period.The electrical conductivity exhibited a consistent downward trend during the entire suspension culture process.[Conclusion]An optimized embryogenic suspension system was successfully established for Feizixiao litchi using MS medium supplemented with inositol 0.15 g·L-1,2,4-D 1 mg·L-1,sucrose 20 g·L-1,and CW 50 mL·L-1.This system exhibited high uniformity,rapid pro-liferation,and stable embryogenic potential,enabling efficient somatic embryo production and plant re-generation.The findings could advance litchi biotechnology applications,including mutagenesis,proto-plast isolation,and synthetic seed production,and offer a reference for recalcitrant woody species.
王果;刘耀婷;李焕苓;李芳;王树军;王家保
中国热带农业科学院环境与植物保护研究所·热带作物生物育种全国重点实验室,海口 571101中国热带农业科学院环境与植物保护研究所·热带作物生物育种全国重点实验室,海口 571101中国热带农业科学院环境与植物保护研究所·热带作物生物育种全国重点实验室,海口 571101中国热带农业科学院环境与植物保护研究所·热带作物生物育种全国重点实验室,海口 571101中国热带农业科学院环境与植物保护研究所·热带作物生物育种全国重点实验室,海口 571101中国热带农业科学院环境与植物保护研究所·热带作物生物育种全国重点实验室,海口 571101
农业科技
荔枝胚性愈伤组织悬浮培养体细胞胚胎发生植株再生
Litchi(Litchi chinensis Sonn.)Embryogenic callusSuspension cultureSomatic embryo-genesisPlant regeneration
《果树学报》 2026 (3)
686-698,13
海南省自然科学基金项目(323MS100)国家自然科学基金项目(32402522)财政部和农业农村部:国家现代农业产业技术体系(CARS-32)海南省重点研发项目(ZDYF2023XDNY052)
评论