火炬松胚性悬浮细胞原生质体的分离和培养

以火炬松成熟合子胚的胚性悬浮细胞为材料分离原生质体,研究了酶液组成,渗透压稳定剂和悬浮细胞生长对原生质体产量和原生质体活力的影响。     

光棘豆悬浮细胞原生质体培养影响因素的研究

采用光棘豆无菌苗胚轴诱导的分化能力强的愈伤组织建立的胚必细胞悬浮系材料,对悬浮细胞原生质体解离所需酶液,原生质体培养所需要的渗透压和激素组合进行了研究。发现较低的培养基渗透压（〈０．３５ｍｏｌ／Ｌ葡萄糖）和较高浓度的２,４－Ｄ（〉１ｍｇ／Ｌ）易于诱导细胞出芽分裂,导致细胞破碎和死亡,并引起培养细胞褐化,找出适合光棘悬浮细胞原生质培养基渗透压和激素组合。     

雷公藤悬浮细胞原生质体的制备及瞬时转化体系的建立

为探索药用植物雷公藤(Tripterygium wilfordii)悬浮细胞原生质体提取的最优条件,并建立雷公藤原生质体瞬时转化体系,以雷公藤悬浮细胞为材料,对酶解液配比、酶解时间、甘露醇浓度及处理转速进行考察。用PEG介导的瞬时转化法将外源基因转化到雷公藤原生质体中。结果表明,以雷公藤悬浮细胞为材料提取原生质体的最佳条件是酶液配比为2.0%纤维素酶+0.5%果胶酶+0.5%离析酶,甘露醇浓度为0.6 mol·L–1,酶解10小时,处理转速为67×g;用PEG介导法将含有编码GFP的植物表达载体转化雷公藤悬浮细胞原生质体,激光共聚焦扫描显微镜下细胞显示绿色荧光。通过实验筛选得到雷公藤悬浮细胞原生质体的最佳提取条件,建立了雷公藤悬浮细胞原生质体的瞬时转化体系,为进一步开展雷公藤功能基因及合成生物学研究奠定了基础。     

丹参悬浮培养细胞原生质体的制备和活力检测

对丹参悬浮培养细胞原生质体制备条件进行了研究,并利用FDA染色和钙离子荧光探针Fluo-3/AM装载对制备得到的原生质体的活力和功能进行了检测。丹参悬浮培养细胞原生质体的制备条件为:悬浮培养细胞酶解的适宜酶液组合为纤维素酶1.5%、果胶酶0.3%和离析酶0.5%;适宜的甘露醇浓度为0.4 mol/L;酶解时间为12 h;在600 r/min转速下离心5 min收集,纯化得到原生质体,其产量为1.1×106/g FW,FDA检测显示其活力为95%以上,荧光探针Fluo-3/AM可成功装载到原生质体中。     

'过山香'香蕉胚性悬浮细胞原生质体分离的方法研究

目的:研究不同的方法对‘过山香'胚性悬浮细胞原生质体分离的影响,筛选最适合用于‘过山香'香蕉胚性悬浮细胞原生质体分离的方案.方法:用不同浓度、不同组合的酶液对‘过山香'原生质体进行分离,并对酶液的甘露醇含量、pH值进行调节.结果:3.0%纤维素酶R-10+0.2%果胶酶Y-23的是最佳酶组合;酶解8 h、酶液中含0.41 M甘露醇、酶液pH值为5.3时,获得原生质体产量最高.结论:合适的酶组合、酶解时间、酶液的渗透压和pH值对‘过山香'香蕉胚性悬浮细胞原生质体的分离有明显的促进作用.     

贡蕉胚性悬浮细胞原生质体分离的研究

目的:研究不同方法对贡蕉胚性悬浮细胞原生质体分离的影响,筛选适合用于贡蕉胚性悬浮细胞原生质体分离的方案.方法:用不同的酶浓 度、酶组合及不同的酶解时间对贡蕉胚性悬浮细胞进行原生质体分离,并对不同继代时间的胚性悬浮细胞的原生质体产量和活力进行研究.结果:贡蕉胚性悬浮细胞 在酶组合为3.5%纤维素酶R-10、1%离析酶R-10和0.15%果胶酶Y-23的酶溶液中,酶解8h可获 得高产量的原生质体,采用继代7d的贡蕉胚性悬浮细胞进行原生质体分离时获得的原生质体产量最高,达到1.2×107个/mL PCV ECS,原生质体活力达到85%以上.结论: 合适的酶组合、酶浓度和酶解时间有利于贡蕉胚性悬浮细胞的原生质体分离,继代7d 后的贡蕉胚性悬浮细胞最适合用于原生质体分离.     

北美鹅掌楸原生质体的分离与培养

以鹅掌楸属植物北美鹅掌楸的悬浮细胞和组培苗叶片为材料,对北美鹅掌楸原生质体分离、纯化与培养条件进行研究.结果表明:叶片和悬浮细胞用含有0.1％2-吗啉乙磺酸(MES)和0.6 mol/L甘露醇的Cell ProtoplastWash(60M-CPW)溶液25℃预处理lh效果最好;悬浮细胞最佳酶解液为60M-CPW+ 1％纤维素酶+1％半纤维素酶+0.2％果胶酶Y-23+0.1％ MES,每克材料25℃酶解6h有效原生质体产量可以达到3×106个;叶片最佳酶解液为60M-CPW+2％纤维素酶+1％半纤维素酶+0.2％果胶酶Y-23+0.1％ MES,每克材料25℃酶解10 h有效原生质体产量可以达到11×106个;悬浮细胞原生质体易于培养,在KM8p+1.0 mg/L 2,4-D+0.5 mg/L 6-BA培养基中培养25 d可形成肉眼可见的愈伤组织.     

不同因素对金针菇原生质体制备和再生的影响

比较了不同浓度裂解酶及组合、渗透压稳定剂、酶解时间等因素对金针菇原生质体得率的影响以及不同渗透压稳定剂、培养基、接种方法等因素对金针菇原生质体再生的影响。试验结果表明:固体培养10d的金针菇菌丝,以0.5mol/L KCl作渗透压稳定剂,加入1%纤维素酶和1%溶菌酶在25℃下酶解1.5h,分离原生质体效果最佳,原生质体产量可达27.8×105个/ml以上;以0.5mol/L KCl作渗透压稳定剂,在25℃条件下,金针菇原生质体采用直接涂布法接种在RCM培养基上培养,再生率最高为0.5%。     

利用荧光染色和流式细胞技术辅助卵孢小奥德蘑原生质体制备与再生研究

本研究以卵孢小奥德蘑液体培养菌丝作为实验材料,利用单因子变量法探索研究了菌丝培养时间、酶浓度、酶解时间、酶解温度、稳渗剂类型对卵孢小奥德蘑原生质体制备的影响,并对原生质体再生培养基进行选择和优化。通过荧光染色,利用激光共聚焦显微镜和流式细胞仪对原生质体的制备过程、得率和活力进行研究。结果表明,将卵孢小奥德蘑菌丝在液体培养基中培养5d收集菌丝体,以甘露醇作为渗透压稳定剂,在溶壁酶浓度2%、30℃条件下酶解5h,获得的原生质体得率最高,达2.0×10 ⁷个/mL;通过流式细胞仪分析,约57.69%的原生质体细胞为活细胞;在RM培养基中再生效果最好,再生率为(0.103±0.025)%。研究结果可以为卵孢小奥德蘑育种与食用菌原生质体制备再生提供研究基础。     

‘石牌’广藿香叶肉原生质体的分离及纯化

以‘石牌’广藿香无菌苗叶片为材料,对原生质体分离、纯化方法以及影响因素进行了研究。结果表明:以继代培养12～22 d的无菌苗顶芽下第3对展开叶片为材料,用0.5%果胶酶、0.2%离析酶和1.5%纤维素酶作用8 h,渗透压调节剂为11%甘露醇,‘石牌’广藿香叶肉原生质体产量达1.85×107个/g fw,活力达89%;原生质体纯化以12%聚蔗糖(Ficoll)漂浮法效果最佳。     

玉米、小麦、水稻原生质体制备条件优化

玉米Zea mays L.、小麦Triticum aestivum L.、水稻Oryza sativaL.是三大重要粮食作物,对其原生质体制备条件的优化具有重要意义.以玉米(综3)、小麦(中国春)、水稻(日本晴)10日龄幼苗为材料,研究了叶肉细胞原生质体分离过程中的酶浓度、酶解时间和离心力大小等因素对产量和活力的影响.结果表明:酶浓度和酶解时间对原生质体产量影响显著,随着酶解液浓度和酶解时间的提高,原生质体产量增加,但细胞碎片同时增多.水稻经真空处理后,原生质体产量大幅度提高.通过正交实验设计得出如下结果:玉米叶肉细胞原生质体分离的最佳条件为:纤维素酶1.5％,离析酶0.5％,50 r/min酶解7h,100×g离心2 min收集,原生质体产量为7×106/g FW;小麦叶肉细胞原生质体分离的最佳条件为:纤维素酶1.5％,离析酶0.5％,50 r/min酶解5h,100×g离心2 min收集,原生质体产量为6×106/g FW;水稻叶肉细胞原生质体分离的最佳条件为:纤维素酶2.0％,离析酶0.7％,50 r/min酶解7h,1 000×g离心2 min收集,得到的原生质体产量为6×106/g FW.通过二乙酸荧光素染色发现原生质体活力均在90％以上.用PEG-Ca2+介导法将含有绿色荧光蛋白的质粒转化入原生质体,转化率可达50％ ～80％.     

Protoplast isolation optimization and regeneration of cell wall in Gracilaria gracilis (Gracilariales, Rhodophyta)

This paper reports the first successful isolation and cell wall regeneration of Gracilaria gracilis (Stackhouse) Steentoft, Irvine et Farnham protoplasts. These results form an important foundation for the development of a successful tissue culture system for G. gracilis. Initially, an isolation protocol was optimized by investigation of the effects of the enzyme constituents and concentrations, the pre-treatment of thalli, the incubation period and temperature, and the pH of the enzymatic medium on protoplast yields. A pre-treatment of G. gracilis thalli with 1 % (w/v) papain for 30 min followed by a 3-h enzymatic digestion of thalli with an enzymatic mixture containing 2 % (w/v) cellulase Onozuka R-10, 1 % (w/v) macerozyme R-10, and 10 U mL^?1 agarase at pH 6.15 was found to produce the highest yield of protoplasts at 22 °C. Reliably high yields (20–30?×?10⁵ protoplasts g^?1 f.wt) of protoplasts could be obtained from G. gracilis thalli when this optimized protocol was used. Cell wall re-synthesis by G. gracilis protoplasts, which constitutes the first step towards whole plant regeneration, was followed using calcoflour staining and scanning electron microscopy. Protoplasts were shown to complete the initial stages of cell wall re-synthesis within the first 24 h of culturing.     

Preparation and fusion properties of protoplasts from mature pollen of Nicotiana tabacum

Summary A method to remove the exine from mature tobacco pollen and to release numerous intact pollen protoplasts has been developed. Post-anthesis binucleate pollen was treated with water, buffered with MES at pH 5.5, for two hours. Rupture of the exine was caused by the force of pollen hydration exposing the intine to subsequent enzymatic maceration. The high osmotic pressure (1000 mOsm·kg^-1 H₂O) of pollen protoplasts required a special maceration medium, 4% KCl (w/v). Action of an enzyme solution containing 1% (w/v) Macerozyme and 1% (w/v) Cellulase gave rise to viable protoplasts within 4 hours. When cultured in a tobacco mesophyll protoplast culture medium, the pollen protoplasts underwent regeneration of a cell wall, formation of various tube-shaped structures, and division of the generative nucleus into two nuclei. Using a PEG/Ca²⁺ method pollen protoplasts were fused with diploid mesophyll protoplasts. Evidence of transfer of chloroplasts into the pollen protoplasts was observed after one day of culture.Abbreviations BCP bromocresol purple - FDA fluoresceindiacetate - MES 2-(N-morpholino) ethanesulfonic acid - PEG polyethyleneglycol     

Plant regeneration of mesophyll protoplasts from a cytoplasmic albino mutant ofLycopersicon esculentum cv. Large Red Cherry

Mesophyll protoplasts from in vitro grown plants of a cytoplasmic albino mutant ofLycopersicon esculentum cv. Large Red Cherry were isolated with yields between 0.4 to 4.4 × 10⁶ protoplasts per gram leaf tissue. Success in the culture of these protoplasts was dependent on embedding of the protoplasts in 100 µ1 agarose droplets 0.6% (w/v). A plating efficiency of 4.0% was obtained when the protoplasts were cultured in TM-2 medium with sucrose concentrations of 8.7 to 9.6% (w/v) resulting in an osmotic pressure of 432 to 469 mOsmol kg^-1. After 14 days of protoplast culture, microcalli with a diameter of 3 mm were observed. After 3 weeks, macrocalli were obtained which were transferred to regeneration medium. Regeneration of shoot primordia, with a frequency of 19%, was obtained on TM-4 medium supplemented with 1% (w/v) sucrose. The first shoot primordia were visible 10 weeks after protoplast plating. For development of the shoot primordia into shoots it was necessary to increase the sucrose concentration to 6% (w/v). Eight out of eleven regenerants were diploid (2n = 2x = 24); the other three were tetraploid. Efficient regeneration of mesophyll albino protoplasts from tomato opens the way to select at the cellular level for the chloroplast transfers.     

Isolation of Allium pollen protoplasts

Studies on protoplasts isolation were carried out with mature pollen grains of 29 samples of species of Allium aflatunense, A. cepa, A. fistulosum, A. karataviense, A. longicuspis, A. nutans, A. odorum, A. sativum and A. schoenoprasum. Surface sterilized pollen grains drifted from crushed anthers were incubated in an enzyme solution containing 1% (w/v) cellulase Onozuka R-10, 1% (w/v) Macerozyme R-10, 0,5 mol l^-1 sucrose and the basal salts of Nitsch medium. Protoplasts were released within 3 to 120 min, either from the pollen grain, through a slightly disturbed germination pore (narrow aperture), or through a wider aperture, when the exine surrounding the germination pore was disturbed. For the first time, protoplasts were obtained from 13 genotypes of 6 Allium species, at a rate of 1 to 30% of the digested intact pollen grains, depending on the genotype.     

The isolation of leaf protoplasts from the submerged aquatic angiosperm Potamogeton lucens L.

Abstract. A method for isolating protoplasts from leaves of the submerged aquatic angiosperm Potamogeton lucens L. is described. The protoplasts are produced enzymatically from leaf strips using 1.5% (w/v) Cellulysin, 0.3% (w/v) Macerozyme R10, and 2.5% (v/v) β-glucuronidase at 27°C in the dark. Subsequently the protoplasts are purified on a discontinuous Ficoll gradient. The yield obtained is approximately 20% of the starting material on a chlorophyll basis. The viability is high, namely more than 90% as estimated with Evans Blue. Cells of the intact leaves of P. lucens can use HCO₃⁻ for photosynthesis. ¹⁴CO₂ fixation experiments at pH 6.0 and 8.5 suggest that these isolated protoplasts can also use bicarbonate as a carbon source.     

Callus regeneration from Alnus incana protoplasts isolated from cell suspensions

Nagata and Takebe's (NT) medium, supllementedte with 2.5 μm 2,4-dichlorphenoxyacetic acid (2,4-D), induced development of friable calluses from leaves of axenic shoot cultures of Alnus incana. Fast-growing cell suspensions were established in the same medium without agar. Suspensions gave high yields of viable protoplasts after an overnight incubation in an enzyme mixture consisting of 1% (w/v) Onozuka R-10, 0.5% (w/v) Rhozyme HP-150, 0.03% (w/v) Macerase, CPW salts, and 13% (w/v) mannitol (pH 5.8). Protoplasts cultured on K8p medium underwent cell wall regeneration within 24 h. The optimum protoplast-derived colony formation and growth was obtained on the NT medium supplemented, as was the K8p medium, with glucose as the osmoticum, growth regulators, coconut milk and casein hydrolysate. Compared with other culture techniques, the agarose bead technique of Shillito et al. (Plant Cell Reports, 2 (1983) 244) improved cell division and colony formation frequency. Protoplast-derived macrocalluses grew under the same conditions as those used for leaf calluses.     

Rhizogenesis in callus from Conference pear (Pyrus communis L.) protoplasts

Large numbers (ca 6×10⁶ protoplasts/g f.wt) of viable (80%) protoplasts were isolated from embryo-callus tissues of Conference pear using an enzyme mixture which contained 2.0% (w/v) Meicelase, 2.0% (w/v) Rhozyme HP-150 and 0.03% (w/v) Macerozyme R-10. A medium based on ammonium-free MS salts and supplemented with 2.0 mg/l NAA, 0.5 mg/l BAP and 9% (w/v) mannitol supported protoplast division and the proliferation of multicellular colonies. Colonies were taken to the callus stage on a medium which contained MS salts plus 0.1 mg/l 2,4-D and 0.1 mg/l BAP. Roots were regenerated from these protoplastderived calli on MS medium with 0.1 mg/l NAA, 5.0 mg/l BAP and 50 mg/l casein hydrolysate.Abbreviations BAP 6-benzylaminopurine - CPW13M CPW salts medium [15] with 13% (w/v) mannitol - FDA fluorescein diacetate, f. wt-fresh weight - MS Murashige and Skoog [14] - NAA -naphthaleneacetic acid - PE plating efficiency (%) - 2,4-D 2,4-dichlorophenoxyacetic acid     

Progress in leaf protoplast isolation and culture from virus-free axenic shoot cultures of Vitis vinifera L.

Axenic shoot cultures of virus-free Vitis vinifera L. cv. Soultanina were a highly efficient source for isolation of viable protoplasts. Optimum results were obtained with leaves of 50–100 mg fresh weight, leaf discs of 0.7 cm in diameter, 100 and 15 U ml^-1 Cellulase R-10 and Macerozyme R-10, respectively, and 18 h reaction time in either light or in darkness. Protoplast yield was approx. 25×10⁶ viable protoplasts per g fresh weight and their size ranged from 12 to 44 m. During a 20-day culture period, the maximum survival rate obtained was approx. 40%. A plating density of 10×10⁵ protoplasts per ml resulted in increased survival rates. Various growth regulators and glutamine did not significantly improve survival rates of protoplasts, whereas extract from coconut added to the culture medium caused an increase in the survival rates of protoplasts. Cell elongation at a significant rate and divisions were observed. [¹⁴C]glucose uptake was studied as an index of cell membrane integrity and functioning. Uptake rate of glucose by protoplasts was linear for up to 60 min, fully inhibited by NaN₃, with an optimum pH of 4.8. Protoplasts 24 h old exhibited significantly lower rates of glucose uptake.