Isolation,Culture and Plant Regeneration of Protoplasts from an Embryogenic Callus Tissue of Gossypium hirsutum

Protoplasts were isolated and cultured from hypocotyl embryogenic callus tissue of Gossypium hirsutum L. cv. "Lumian 6". The highest yields of viable protoplasts were obtained from a vigorous embryogenic callus 7 to 9 d old subcultured on MS medium supplemented with 2 mg/L IAA and 1 mg/L KT using a solution of 1% cellulase Onozuka R-10, 1% pectinase, 0.7 mmol/L KH2PO4, 2.5 mmol/L Ca2+ , and 0.5 mol/L osmoticum (mannitol), at pH 5.8 and at a temperature of 30 ℃. After separation and purification (in 21% sucrose floatation medium), the protoplasts were laid up in a quiet liquid protoplast culture medium containing K3 salts, NT vitamins with 0.1 mg/L 2,4-D, 0.2 mg/L KT and 0.45 mol/L glucose for 10 to 15 min. The protoplasts were fractioned into an upper and a lower layer in the centrifugal tube. Most of the protoplasts in the lower layer were smaller, round and rich in cytoplasts in which contain many granular substances. When this kind of protoplasts were cultured in the thin liquid protoplast culture medium with a density of 1 x l0s to 5 x los protoplasts/mL, the division and the callus formation of the regenerated cells were easily observed. The first divisions occurred in 3 days and small cell clusters could be seen after 2 to 3 weeks in the culture. At this moment, the addition of the protoplast culture medium with decreased osmoticum once or twice is needed for the continuous protoplasts division to form calli. Regenerated calli, 3 to 5 mm in diameter, were transferred in succession on MS medium with 2 mg/L IAA and 1 mg/L KT for the initiation of embryogenesis. The embryoids germinated on the hormonefree MS medium and a number of plantlets were obtained. It seems that using vigorous embryogenic callus and decreasing osmoticum are the two critical factors for plant regeneration of cotton protoplasts.     

Efficient plant regeneration from protoplasts isolated from embryogenic suspension cultures of Cyclamen persicum Mill.

A protocol for plant regeneration from protoplasts has been developed, and then successfully applied to different genotypes of Cyclamen persicum Mill. Protoplasts were isolated from embryogenic suspension cultures by enzymatic digestion in 2% cellulase R10 and 0.5% macerozyme R10. Yields obtained varied between 1 and 5 × 10⁵ protoplasts per gram fresh mass depending on the genotype. Protoplasts were immobilized in alginate films, which promoted proper cell wall regeneration. The highest cell division frequencies were found in modified Kao and Michayluk (1975, Planta 126:105–110) medium containing the same types and concentrations of plant growth regulators that were applied for suspension culture (2.0 mg l⁻¹ 2,4-dichlorophenoxyacetic acid and 0.8 mg l⁻¹ 6-(γ,γ-dimethylallylamino)purine). Cell division was recorded for all 11 tested genotypes in frequencies of up to 12% and 18% after 7 and 14 days, respectively. However, cell division frequency varied strongly between different genotypes. After 4–6 weeks calluses were released from the alginate films and further cultured on hormone-containing medium for continued growth or transferred to hormone-free medium for regeneration of somatic embryos. Plant regeneration via somatic embryogenesis succeeded in 9 out of the 11 genotypes under investigation. Up to now protoplast-derived plants from four genotypes have been successfully transferred to soil.     

Plant Regeneration from Protoplasts of Actinidia chinensis Planch.

Protoplasts isolated from cotyledon callus line of A14N7 of Actinidia Chinensis Planch. were cultured in the improved NN-69 medium. First division of regenerated cells occurred during 7–10 days of culture, and percentage of the cell division was about 10% at day 20. The best result of protoplast culture was achieved when protoplasts were cukured in liquid medium at a density of 5× 104/ml, About 4 months, procoplast-derived calli were transferred stepwisely onto differentiation media where they developed into green compact calli, from which the perfect plants were regenerated.     

Involvement of arabinogalactan proteins in the regeneration process of cultured protoplasts of Marchantia polymorpha

Protoplasts of Marchantia polymorpha L. (liverwort) regenerated new cell walls in initial culture. However, the survival rate of regenerated cells decreased rapidly after this stage. The decrease in survival rate was suppressed by the β-glucosyl Yariv reagent (βglcY), which binds to arabinogalactan proteins (AGPs), only when it was added to culture medium during the period of incipient cell wall regeneration. The addition of βglcY after the period of incipient cell wall regeneration had no effect on the survival rate. These results suggested the involvement of AGPs in the cell wall regeneration process. After cell wall regeneration, the regenerated cells started to divide actively after being transferred to a medium with 1% activated charcoal (AC). Protoplasts that had been cultured with βglcY during the period of incipient cell wall regeneration and then transferred to the AC medium divided vigorously, and the cell division rate was remarkably increased (>80%). However, without transfer to the AC medium, βglcY at concentrations higher than 20 μg ml⁻¹ inhibited cell division. No effect on cell survival nor cell division was observed with the α-galactosyl Yariv reagent. Staining of β-1,3-glucan (callose) with aniline blue (AB) showed that a large amount of β-1,3-glucan was deposited in the regenerated cell walls of the protoplasts cultured without βglcY, while little or no β-1,3-glucan was stained by AB in protoplasts cultured with βglcY. These results suggest that AGPs and β-1,3-glucan play important roles in the survival and subsequent cell division of regenerated cells of M. polymorpha protoplast cultures.     

High Frequency Divisions in Leaf Base Protoplasts of Wheat (Triticum aestivum L.)

Protoplasts were isolated from the basal meristematic region of leaves from 6-day-old seedlings of wheat (Triticum aestivum). Protoplasts divided when cultured on MS medium (as agarose beads) in presence of nurse tissue. Donor seedlings when grown on BAP-supplemented MS medium were found to be considerably superior for protoplast isolation and culture than when grown on MS basal medium, in terms of protoplast viability, cell wall formation and cell division frequency. In addition, reduction of ammonium content of the culture medium, together with a dark Incubation, led to a high protoplast division frequency of about 70%. Microcolonies of 10-to 12-celled stages were obtained in Triticum aestivum, varieties HD 2329, HD 2285, Kalyan Sona, Arjun and CPAN 1676.     

Plant regeneration from cell suspension-derived protoplasts of Phalaenopsis

Protoplasts isolated from cell suspension culture of Phalaenopsis “Wataboushi” were cultured by (a) embedding in gellan gum-solidified hormone-free 1/2 New Dogashima medium (1/2 NDM) containing 0.44 M sorbitol, 0.06 M sucrose and 0.1 g/l l-glutamine (standard method) and (b) beads method using beads of gellan gum or sodium alginate as the gelling agents which were surrounded by liquid NDM. Although, the two beads methods gave less frequency of initial protoplast division than the standard method, the former finally resulted in higher frequency of microcolony formation than the latter. The highest frequency of microcolony formation (23%) was obtained when protoplasts were embedded in 1% Ca-alginate beads and subcultured every two weeks by replacing the surrounding liquid culture medium with a decrease in sorbitol concentration by 0.1 M. Colonies visible to the naked eyes were observed within 2 months of culture and the regenerated calluses were transferred onto hormone-free NDM supplemented with 10 g/l maltose and 0.3% (w/v) gellan gum, on which PLBs were formed and proliferated profusely. The PLBs were regenerated into plantlets after changing the carbon source to 10 g/l sorbitol and successfully acclimatized to greenhouse conditions.     

Plant Eegeneration from Protoplasts of Brassica carinata Braun

Protoplasts of Brassica carinata Braun. (accession No. 84A165) were enzymatically isolated from hypocotyls and cotyledons of 3–5 day-old test-tube seedlings or first true leaves taken from greenhouse grown plants at a three-leaf stage. The protoplasts were suspended in a P-B liquid medium solidified with 0.15%–0.3% low melting agarose which formed a thin layer floating on the surface of the liquid medium. The optimum protoplast density was ranging from 5× l03 to 1 × 104/ml. As for the hypocotyl protoplasts, the first division was observed after 48 h in the culture. The division frequency reached 21% and 34% at day 3 and 6 respectively. The initiation of cell division in the case of cotyledon and mesophyll protoplast culture was late, usually at day 5, and the division frequency was also somewhat lower. One week after culture, the cultures were transferred to fluorescent light condition with an intensity of about 1000 lx. A dilution medium DPDK3 was then added and the dilution procedure was repeated at one week interval thereafter. One month after culture, microcalli with 300–500 μm in size were formed. It was also found that in some cases globular embryoid structure protruded on the callus surface. Totally, a 2%–3% plating efficiency was achieved. Shoot regeneration occurred when cotyledon and mesophyll protoplast-derived calli were transferred onto a modified MS medium supplemented with NAA 0.1, BA 3 mg/l. Individual shoots were rooted on a rooting medium supplemented with 0.2 mg/l of IAA. Intact plants with normal morphology were eventually produced.     

Plant regeneration of rose (Rosa hybridia) from embryogenic cell-derived protoplasts

Culture conditions are described for sustained cell division and plant regeneration from protoplasts of rose (Rosa hybrida L. `Sumpath'). Protoplasts were enzymatically isolated from 2-week-old embryogenic cell suspension cultures. Freshly isolated protoplasts were plated as a thin layer onto protoplast culture medium (half-strength 21 Murashige and Skoog's medium containing 60 g l^–1 myo-inositol, 4.4 M BA, and 1.4 M 2,4-D) at a density of 5×10⁴ protoplasts ml^–1. The plating efficiency reached 3.9% after 2 weeks of culture. However, few protoplasts underwent cell division when cultured in protoplast culture medium in which 60 g l^–1 myo-inositol was replaced with the same osmolarity of 90 g l^–1 mannitol, indicating that myo-inositol is essential for sustained cell division of protoplasts. Colonies were formed after 8 weeks of culture at a frequency of 0.2%. Colonies were then transferred to colony culture medium (0.4% Gelrite-solidified protoplast culture medium) and maintained by subculturing at 4-week intervals to form embryogenic calluses. Upon transfer to half-strength MS basal medium, embryogenic calluses gave rise to numerous somatic embryos. Somatic embryos were transferred to half-strength MS basal medium containing 48 mg l^–1 ferric ethylenediamine di-(o-hydroxyphenylacetate), where they subsequently developed into plantlets at a frequency of 30.9%. The plantlets had the same chromosome number of 2n=3x=21 as the source plant. They were successfully transplanted to potting soil and grown to maturity in a greenhouse.     

An efficient and rapid procedure for plantlet regeneration from chicory mesophyll protoplasts

An efficient procedure for plantlet regeneration from chicory mesophyll protoplasts has been developed in order to perform protoplast fusion experiments. Protoplasts were isolated from a genotype of Italian red chicory (CH 363) and purified by centrifugation in a solution containing 13% (w/v) sucrose to collect uniform protoplasts in size. After 2 days culture at a density of 2×10⁴ protoplasts ml⁻¹ of liquid medium, protoplasts were cultured following three different procedures: in liquid medium, stratified in semi-solid medium, and embedded in Ca-alginate droplets. Four different media were used and culture procedures were evaluated recording the protoplast viability, protoplast division frequency and plating efficiency for each experiment. The embedding of protoplasts in Ca-alginate droplets enhanced both division frequency and plating efficiency for chicory mesophyll cells. Furthermore, this procedure shortened the cycle of plant regeneration from protoplasts, which could be completed in eight weeks. This revised version was published online in June 2006 with corrections to the Cover Date.     

水稻原生质体培养及植株再生的研究

由粳稻77-170品系及籼稻品种IR-50的细胞悬浮培养物游离的原生质体,用琼脂糖包埋于RY-2培养基中,发生了持续分裂。前者植板率达2.5％以上,二者最后都再生出植株。对游离和培养方法做了如下改进:1)采用两步法,即先用果胶酶,再用果胶酶和纤维素酶的混合酶进行游离,可避免原生质体发生融合并获得高质量的原生质体;2)悬浮细胞培养基中加入ABA有利于原生质体的存活和分裂;3)琼脂糖包埋培养可大大提高植板率;4)用较高渗透压的培养基培养原生质体再生的细胞团及愈伤组织,可提高植株再生频率。由于这两个品种(系)的培养物都已继代一年半之久,再生植株均为白化苗。这是迄今第一个由籼稻原生质体再生植株的报道。     

Callus formation from cotyledon protoplasts of Pinus oocarpa and Pinus patula

Protoplasts were isolated from cotyledons of 11-day-old seedlings of Pinus oocarpa and P. patula ssp. tecunumanii . The best enzyme combination was Cellulase R10 + Pectolyase Y-23, associated with bovine serum albumin. When cultured at a low density [1.25 × 10³ to 5 × 10³ protoplast (ml)⁻¹] in a liquid medium, the cells divided. The medium contained glutamine and casein hydrolysate as nitrogen sources, and glucose as osmoticum. Rate of division was increased by supplementing the medium with l -ornithine, putrescine and spermidine. However, the rate remained low, with an absolute division frequency of ca 1%. Dilution allowed colony proliferation and fragmentation, leading to the formation of numerous microcalli that could be transferred to various solid media for further growth.     

茎用芥菜细胞质雄性不育系子叶原生质体培养和高效植株再生（英文）

利用茎用芥菜细胞质雄性不育系原生质体培养获得了再生植株,并研究了影响原生质体培养的因素.结果表明,子叶是茎用芥菜原生质体培养最佳的外植体,10 d苗龄的子叶原生质体在改良MS培养基上培养3 d后发生第1次细胞分裂,6 d后发生第2次分裂,3周后形成细胞团,5周后形成肉眼可见的小愈伤.培养基中缺少NAA或2,4-D都会降低愈伤组织的再生能力.在含一定浓度的NAA(0.25 mg/L)和2,4-D(0.25 mg/L)培养基上诱导的愈伤组织质地致密且有光泽,芽的分化能力高;在MS+BA l mg/L+NAA 0.2 mg/L的培养基上芽的分化频率高达近29%,再生芽在1/2MS+NAA0.1 mg/L培养基上生根,形成完整植株.     

茎用芥菜细胞质雄性不育系子叶原生质体培养和高效植株再生

利用茎用芥菜细胞质雄性不育系原生质体培养获得了再生植株,并研究了影响原生质体培养的因素.结果表明,子叶是茎用芥菜原生质体培养最佳的外植体,10 d苗龄的子叶原生质体在改良MS培养基上培养3 d后发生第1次细胞分裂,6 d后发生第2次分裂,3周后形成细胞团,5周后形成肉眼可见的小愈伤.培养基中缺少NAA或2,4-D都会降低愈伤组织的再生能力.在含一定浓度的NAA(0.25 mg/L)和2,4-D(0.25 mg/L)培养基上诱导的愈伤组织质地致密且有光泽,芽的分化能力高;在MS+BA l mg/L+NAA 0.2 mg/L的培养基上芽的分化频率高达近29%,再生芽在1/2MS+NAA0.1 mg/L培养基上生根,形成完整植株.     

Embryogenic Suspension Culture and Plant Regeneration from Suspension-Derived Proto-plasts of Cucumber (Cucumis sativus L.)

Fast growing embryogenic cell suspension culture was established when embryogenic callus derived from cotyledon protoplasts of cucumber was transferred into a liquid culture. So far the cell line has been subcultured for two years and retained the ability of embryogenesis and plant regeneration. Experimental data showed that the concentration of ABA or sucrose had a dramatic effect on embryogenesis and synchronization of embryoid development. Low level of sucrose concentration (1%) facilitated the precocious germination of the embryoids while 1 mg/l of ABA or 7–9% of sucrose was found to be effective for reducing callusing of the cultures and synchronisticly controlling the embryoids at globular or late globular stage. Embryogenic cells taken from 3–5 days after subculture were enzymatically digested. A large amount of viable protoplasts was isolated. Protoplasts were cultured in a DPDK1 medium either by means of drop or thin layer liquid culture or by means of sodium alginate encapsulation culture. Actively dividing cells formed cell colonies and globular embryoids which were transferred onto a solidified agar medium or directly into a liquid medium to form a shaken culture. The embryoids would proliferated continuously. Embryoids eventually developed into plantlets when they were transferred onto a 1/2 MSO medium devoid of phytohormones.     

甘薯叶柄原生质体有效植株再生

将甘薯(Ipomoea batatas (L．)Lam．)‘元气’和‘白星’(‘White Star’)的叶柄原生质体培养在含有0.05 mg·L-1 2,4-D和0.5 mg·L-1 KT的改良MS液体培养基中,3～4 d后细胞开始分裂。培养8～9周后,将直径达1～2 mm的愈伤组织转移到添加0.05～0.2 mg· L-1 2,4-D和0～0.5 mg·L-1 KT或添加0.5～2.0 mg ·L-1 NAA和1.0～3.0 mg·L-1 BAP 的MS固体增殖培养基上使其增殖。转移3～5周后,将愈伤组织再转移到MS基本培养基或转移到添加2.0～3.0 mg·L-1 BAP的MS培养基上。当进一步转移到MS基本培养基上后,从愈伤组织或从愈伤组织形成的不定根上再生出植株。‘元气’植株再生率高达60.0 ％,White Star高达43.4％。     

Nurse culture of low numbers of Medicago and Nicotiana protoplasts using calcium alginate beads

Protoplasts of two species, lucerne and tobacco, were cultured in semi-solid droplets of calcium alginate as a means of nurse culturing very low numbers of protoplasts. It was shown that increasing autoclave times decreased the gelling capacity of the alginic acid. A convenient measure of viscosity is described to allow appropriate adjustment of the alginate solution. Tobacco protoplasts are shown to be more sensitive to higher alginate concentrations than lucerne, however beads with a final alginate concentration of approximately 1.5% were suitable for both species. Agitation of the beads in liquid medium was needed for optimum division frequencies. The volume of liquid medium affected the culture response. Interestingly, the local cell density (bead cell density) was shown to be more influential than the total cell density. Nurse beads with higher densities of protoplasts of the same species were visually marked with activated charcoal. Experiments were performed to determine whether nursing was effective with calcium alginate encapsulation and to what extent the cell densities could be lowered. When there were no nurse beads, divisions effectively ceased at 10⁴ per ml with lucerne and 10³ per ml with tobacco. In the presence of nurse beads, protoplasts in the test beads grew at high frequency down to the lowest densities tested, namely 50 per ml for tobacco. With these methods transformed lucerne protoplasts from electroporation experiments and somatic hybrids have been recovered and plants regenerated with much greater efficiency that was hitherto possible.     

Isolation and culture of suspension-derived protoplasts ofBeta vulgaris L.

Sugar beet protoplasts (Beta vulgaris L.) were isolated from hypocotyl-derived suspension cells and cultured on modified Murashige and Skoog medium supplemented with 5 μM naphthaleneacetic acid (NAA) and 2 μM 6-benzyl-aminopurine (BAP). Protoplasts were plated at a density 1.0–1.5×10⁵ cm⁻³ and incubated in either liquid medium or in medium solidified by 1.2% agarose, at 25°C in the dark. Comparison of two methods of culture unequivocally showed the second to be superior. Immobilizing the protoplast in agarose proved to be essential for obtaining sustained protoplast division and reproducible colony formation. The plating efficiency after two weeks of culture, expressed as the percentage of protoplasts which developed to form colonies, reached 40%. Subsequent subcultures of protoplast-derived callus to regeneration media with different concentrations of BAP (5 μM, 10 μM, 20 μM, 30 μM) resulted in very good callus proliferation at the three lowest concentrations, although organogenesis was not achieved.     

Plantlet regeneration from protoplast-derived haploid embryogenic calli of wheat

To search for an alternative method for protoplast culture, regenerable embryogenic calli were obtained from anther culture of three wheat cultivars, Karl 92, Jinghua #1, and Pavon 76. Protoplasts were isolated directly from the haploid embryogenic calli and cultured in modified PMI and LM8P media without going through cell suspension culture. After 8–11 days of subculture, the embryogenic calli produced the maximum yield of protoplasts and cell division was at the highest frequency when plated at a density of 3–4 × 10⁵ protoplasts ml⁻¹. Frequency of colony formation varied from 0.2% to 0.5% for Jinghua #1 and from 0.1% to 2% for Pavon 76, while Karl 92 failed to produce colonies, even though its embryogenic calli were friable and fast-growing on the maintenance medium. Green haploid plantlets of Jinghua #1 and Pavon 76 have been regenerated from protoplasts, which were cultured on a differentiation medium first and then on a rooting medium. This revised version was published online in June 2006 with corrections to the Cover Date.     

沙打旺胚性原生质体培养优化及高频再生植株

外植体类型和光照条件决定沙打旺胚性愈伤组织的形成。用生长10d的胚性愈伤组织可分离到1.2×10⁶个/g(原生质体/细胞),活力超过80%。当原生质体以1.0×10⁵/mL的植板密度培养在含0.6%琼脂糖附加1.5mg/L 2,4-D、0.5mg/L BA和0.5mol/L葡萄糖的培养基(无机盐降为1/4)中,植板率为16.8%。条件培养基显著促进原生质体的生长发育。长大的细胞克隆经2周4℃低温处理后转到含0.1mg/L NAA和1.0mg/L BA分化培养基上,体细胞胚胎发生频率高达70%,每克细胞产生的体细胞胚数在200个以上。成熟的体细胞胚转到无激素的1/2MS培养基中即分化成苗,再生植株为正常的二倍体。     

Plantlet regeneration from mesophyll protoplasts of Digitalis lanata Ehrh.

Summary Protoplasts were isolated from the mesophyll of Digitalis lanata enzymatically and cultured in a liquid regeneration medium (D2a). Protoplast division occurred at a rate of approximately 30%. Mature cell colonies were transferred onto agar medium (D2b)where they developed into cell clusters with a diameter of about 4–5 mm. After transfer onto MS medium, these calli differentiated leaves and shoots which could be rooted on MS medium containing a low hormone concentration.The main part of this work was carried out in the Max-PlanckInstitut für Züchtungsforschung, Cologne (FRG)