杂种一代番木瓜人工种子制作的研究

由番木瓜Ｆ１代上小苗的幼根和下胚轴来源的胚务组织,通过悬浮培养获得大量体细胞胚胎。在培养过程中用不同孔径的网筛选择培养物并分级培养,成熟体细胞胚的同步化率可控制在７０％以上,成熟的体细胞胚经脱水至水量５０％－７０％,再用改良的海藻酸钠系统包埋制成人工种子。在无菌条件下人工种子的成菌率达８０％,移栽田间的成活率为７２％,来自人工种子的植株在田间生长正常,并已开花结果。     

胡萝卜人工种子包衣材料的筛选

以胡萝卜SK4-316种子苗下胚轴为外植体诱导培养的体细胞胚,进行人工种子的制作。结果表明,海藻酸钠包埋体系制作的人工种子萌发率较稳定,PEG体系的萌发率高于前者,但萌发后成苗率较低。以MS液体培养基作包埋培养基,4%海藻酸钠、2% CaCl₂·2H₂O、0.1 mg/L GA₃、0.2%活性炭组成的海藻酸钠复合包衣剂制作的人工种子,在1/16MS培养基、24℃下培养萌发率最高,可达97.02%。     

胡萝卜人工种子在无菌条件下的贮藏及贮藏中种子活力变化

对用海藻酸钙包埋胡萝卜体细胞胚(0.6—2mm)制作的人工种子进行贮藏研究,发现低温及干燥均能在一定程度上抑制人工种子萌发。失水率达67%的种子,2℃贮藏60天后, 在发芽培养基上发芽率为100%,7天内的成苗率达80%。未经贮藏的对照种子发芽率为100%,成苗率为76%。无论在“种皮”还是在胚胎悬浮培养液中加入脱落酸或香豆素,都能抑制胚的生长,但也促进了胚的衰老。铝箔袋内密闭贮藏期间种子不萌发,但活力下降快。随着贮藏时间的延长,种子的活力指数、脱氢酶活性、氧吸收率都呈下降趋势。     

贡蕉胚性细胞悬浮系的建立和植株再生

鲜食蕉品种的高度不育性和多倍性制约了用传统育种方法培育生产实践中所需的新品种 ,建立稳定的胚性细胞悬浮系是香蕉生物技术育种的前提。以目前国内尚未建立该体系的鲜食蕉品种贡蕉 (AA)未成熟雄花序的第 1～ 15位花梳为外植体 ,对胚性细胞悬浮系的建立和植株再生体系进行了优化。结果表明 ,5～ 6个月的培养后可获得分生小球体和浅黄色、松散易碎的胚性愈伤组织。 9μmol/L 2,4 D对外植体愈伤组织的诱导效果最好 ,诱导率为 40.96 % ,胚性愈伤组织诱导率可达7.45 % ,其中5.79%的胚性愈伤组织来源于第 6～12号位置的花梳。胚性愈伤组织悬浮培养后 ,通过 3个月的筛选和继代培养 ,可得到均质的胚性细胞悬浮系。该培养体系合适继代周期为 15d ,继代时合适的起始接种量为每 30mL培养基加 2mLPCVECS。培养 6个月的胚性细胞在体细胞胚诱导培养基中培养15d后可见到白色半透明体细胞胚的发生 ,体细胞胚诱导率为 2 80× 10³个 mLPCV。成熟体细胞胚的萌发率为 17 2 8% ,其中发育成正常的再生植株的百分率为 14 16 %。     

植物体细胞胚发生与作物育种

评述了植物体细胞胚发生在作物育种中的研究与应用,内容包含有：胚性细胞系的建立与原生质体培养;体细胞胚的形成与人工种子制作;胚性细胞与遗传转化;胚性细胞系与优良种质保存和体细胞无性系变异与突变体筛选等,并讨论了有关机理。     

银杏悬浮培养细胞的生长、分化与萜内酯化合物的积累

研究了来源于银杏种子胚和幼苗茎的悬浮细胞的生长、分化和培养物中的白果内酯、银杏内酯A和B的含量变化。结果表明：在悬浮培养中,细胞聚集而成的细胞团大小、细胞中叶绿体的分化、外植体来源都影响培养物中的萜内酯的种类和含量,胚来源的悬浮细胞培养物中,银杏内酯B仅存在于直径<2mm的小细胞团悬浮培养中,且在<1 mm的细胞团中的含量最高,达0.437 mg /g(DW);而直径>3mm的细胞团悬浮培养物中只含有白果内酯和银杏内酯A。相同大小的悬浮细胞团中,胚来源的细胞中萜内酯含量高于茎来源的细胞。     

松柏类植物体细胞胚胎发生的研究进展

松柏类植物的体细胞胚胎发生既是繁育的一种手段,又是研究胚胎发育过程中结构、生理和分子事件的一种重要的模式系统。整个体细胞胚胎发生过程主要包括3个步骤：胚性组织的诱导和增殖、体细胞胚的成熟以及体细胞胚的萌发和转换。过去为了提高胚胎发育过程所做的努力主要都集中在胚的成熟阶段,这是因为一直认为能否成功再生的关键在于胚发育成熟阶段的处理。然而,在过去几年里,结合生理生化以及分子生物学的研究发现,胚胎发生的早期阶段对于完成整个发育过程也是至关重要的,早期阶段培养条件的优化可以显著提高培养过程中体细胞胚的数量和质量。此外,萌发过程培养条件的调节对于提高成熟体细胞胚的萌发率和转换率也很重要。因此,这些新的研究成果对于改善松柏类植物体细胞胚胎发生中的胚的诱导率和转换率低的现象具有重要的意义。     

渗透剂对白刺花体细胞胚成熟及萌发的影响

该研究以蔗糖、麦芽糖、山梨醇及PEG(6000)为渗透剂,探讨了不同渗透剂对白刺花体细胞胚发育、胚成熟及萌发的影响。结果表明:白刺花下胚轴形成的胚性愈伤组织接种至MS+2,4-D 0.2 mg·L~(-1)+NAA 1.0 mg·L~(-1)+6-BA 2.0 mg·L~(-1)+TDZ 1.0 mg·L~(-1)+蔗糖40 g·L~(-1)+谷氨酰胺100 mg·L~(-1)+植物凝胶3g·L~(-1)的培养基上,体细胞胚发生率高达66. 21%,总胚数为79个; 7%蔗糖可使体细胞胚成熟率高达64.36%,同时也可提高多子叶畸形胚形成; 2%麦芽糖+2%山梨醇+4%蔗糖组合使体细胞胚成熟率最高达88.89%,畸形胚比例最低; 30 g·L~(-1)PEG培养时,体细胞成熟率最高,为82.35%;鱼雷期的体细胞胚最合适转接,可使体胚萌发率达90.58%,复合糖上培养得到的成熟体细胞胚生根率最高,为87.47%。这为实现白刺花体细胞胚育苗奠定了理论基础,并提供了可行的方案。     

根芹体细胞胚产量与质量的研究

对根芹的不同外植体在附加不同成分的MS培养基上进行离体培养,以诱导适合于制作人工种子用的高质量体细胞胚。下胚轴、子叶和叶片在含0.5mg／LKT,0.5mg／L2,4 一 D的MSO培养基上诱导与继代胚性愈伤组织,然后转移到附加有100mg／L肌醇、2g／L葡萄糖的MSO无激素培养基上悬浮培养产生体细胞胚,获得了比固体培养基及含有KT的液体培养基中产生的体细胞胚形态发育更正常的大量体细胞胚,这为人工种子制作奠定了基础。     

松柏类植物体细胞胚胎发生的研究进展

松柏类植物的体细胞胚胎发生既是繁育的一种手段,又是研究胚胎发育过程中结构、生理和分子事件的一种重要的模式系统.整个体细胞胚胎发生过程主要包括3个步骤:胚性组织的诱导和增殖、体细胞胚的成熟以及体细胞胚的萌发和转换.过去为了提高胚胎发育过程所做的努力主要都集中在胚的成熟阶段,这是因为一直认为能否成功再生的关键在于胚发育成熟阶段的处理.然而,在过去几年里,结合生理生化以及分子生物学的研究发现,胚胎发生的早期阶段对于完成整个发育过程也是至关重要的,早期阶段培养条件的优化可以显著提高培养过程中体细胞胚的数量和质量.此外,萌发过程培养条件的调节对于提高成熟体细胞胚的萌发率和转换率也很重要.因此,这些新的研究成果对于改善松柏类植物体细胞胚胎发生中的胚的诱导率和转换率低的现象具有重要的意义.     

Two critical factors are required for efficient transformation of multiple soybean cultivars: <Emphasis Type="Italic">Agrobacterium</Emphasis> strain and orientation of immature cotyledonary explant

An efficient transformation system was developed for multiple soybean [Glycine max (L.) Merrill.] cultivars using Agrobacterium-mediated gene transfer. A significantly high number of hygromycin-resistant somatic embryos (SEs) was obtained when immature zygotic cotyledons were inoculated with Agrobacterium tumefaciens strain KYRT1 and when the abaxial side of explants was oriented upwards (i.e., the adaxial side of explants was in contact with the medium). Most hygromycin-resistant SEs on selective medium were induced along the periphery of the abaxial side of cotyledonary explants. Extended periods of selection (up to 10 weeks post-cocultivation) increased the frequency of somatic embryogenesis, and more than 50% of selected SEs tested positive for beta-glucuronidase (GUS). Following maturation and regeneration of selected SEs, ten independent transgenic soybean plants of cv Jack were obtained, and the overall transformation frequency ranged from 1.1 to 1.7%. Six and two transgenic plantlets were obtained from cvs Dwight and Williams, respectively. In addition, transgenic suspension lines were established from cvs Jack, Williams, Dwight, Rend and Ina. Molecular analysis of embryogenic lines and/or transgenic plants, established from different cultivars, confirmed stable integration, expression, and/or inheritance of transgenes in both T0 and T1 plants.     

Somatic embryogenesis in Solanum tuberosum from cell suspension cultures: histological analysis and extracellular protein patterns

An embryogenic cell suspension, continuously grown in Murashige and Skoog (MS) medium with 0.5 mg/L of 2,4-dichlorophenoxyacetic acid, was established from friable callus of Solanum tuberosum internode sections. The cell suspension was predominantly composed of cell masses and free embryogenic cells. When transferred to an auxin-free medium with zeatin, somatic embryos (SEs) developed and converted to complete plants when cultured on solid MS medium without growth regulators. The system produced approximately 600 SEs per 50 mL of medium. In this investigation, accumulation of extracellular proteins (EPs) of different molecular weights were found associated to different phases of the embryogenic process. At the initiation of the cell suspension, cell clusters and free cells present in the culture (phase "A") secreted a 78kDa EP, unique to this phase. In phase "B", which is related to embryonic cell determination process, proteins (7-14kDa) were secreted mainly by embryogenic cells. In phase "C", SEs in different developmental stages secreted protein of 32 kDa, which appeared as a particular feature of the phase. EPs of phase "D", secreted by torpedo and mature embryos, had molecular weights between 20 and 50 kDa. Further studies will be necessary to identify these proteins and link them to previously identified somatic embryogenesis-related proteins. Histological analysis of the potato embryogenesis in liquid media showed unicellular origin of the SE.     

Plant regeneration from encapsulated somatic embryos of pedunculate oak (Quercus robur L.)

Summary Cotyledonary Quercus robur L. somatic embryos from two cell lines were encapsulated in 4% (w/v) sodium alginate. An artificial endosperm was provided by the addition of P₂₄ medium plus 3% (w/v) sucrose. Oak somatic embryos and oak synthetic seeds were germinated on P₂₄ medium plus 0.1 μM indole-3-butyric acid and 0.9 μM 6-benzylaminopurine or were dehydrated prior to germination. The highest conversion rates (26%) were obtained with encapsulated somatic embryos as well as artificial endosperm-coated somatic embryos. Encapsulation improved the regeneration into oak plantlets in one of the two cell lines tested. The artificial endosperm had no additional beneficial effect on conversion frequency, but increased germination rate in one cell line tested. Significant higher conversion could be attributed to slow desiccation compared to the non-encapsulated control. Cold storage as a post-maturation treatment had no influence on the germination ability of oak synthetic seeds. Differences in the response of the cell lines with respect to conversion frequencies and timing of germination were observed. Fifty-six well-developed plantlets regenerated 12 wk after germination, and 29 plants were transferred to the greenhouse, where they have been successfully established in substrate.     

High conversion frequency of germinated somatic embryos of Siberian ginseng (Eleutherococcus senticosus Maxim) using a bubble column bioreactor

Embryogenic callus was obtained from young petiole, stem, and root explants of 4-year-old Siberian ginseng plants on medium supplemented with 2,4-dichlorophenoxyacetic acid. Embryogenic callus differentiated into somatic embryos (SEs), most of which could germinate but developed abnormally. Friable embryogenic callus was induced mainly from the root regions of germinated primary SEs or regenerated plantlets on plant growth regulator-free medium. Histological studies showed that the embryogenic callus initiated from the subepidermal cells of young roots. The bioreactor system was more efficient than suspension culture regarding the number and growth of SEs, although a similar amount of embryonic tissue was used. An average of 115,370 germinated SEs developed from an initial 400?mg of embryogenic callus, and 64.7?% of germinated SEs converted into plantlets after a 4-weeks culture on agar medium. During the bioreactor culture process, secondary SEs were induced directly from SEs at various stages, a phenomenon that rarely occurred in suspension culture. These secondary SEs developed quickly and germinated during the bioreactor culture process. Proline content and peroxidase and catalase activities of SEs cultured in bioreactors were higher than in SEs cultured in suspension culture.     

黄连体细胞胚胎发生的研究

黄连(Coptis chinensis)叶片外植体在 MS 2,4-D 1 ppm 培养基上很容易产生愈伤组织。愈伤组织在转入分化培养基 MS 6-BA 0.5ppm NAA 1ppm 培养基上以后,能产生大量胚状体。胚状体可经过球形、心形、鱼雷形及子叶期等诸阶段发育成小植株。对胚状体用4%的藻酸钠和2%的氯化钙进行人工种皮包埋后,在无菌条件下,胚状体转变成苗。愈伤组织在分化培养基上经几次继代后,整个愈伤组织可转变为胚性愈伤组织并形成一个个胚性细胞团。胚状体可从其表面或愈伤组织内的任一细胞团产生。这一研究结果为获得大量分散的单个胚状体及人工种子的研制提供了良好的实验系统。     

三七体细胞胚胎发生及人工种子研制

三七为五加科的重要药用植物。以三七的种胚为材料接种于MS 补加2,4-D、IAA、NAA 各1 mg/L的培养基上。接种后约二个月,在MS 补加IAA 或NAA 的培养基上可以产生体细胞胚;在MS 加2,4-D 的培养基上只产生愈伤组织而无器官分化。体细胞胚在MS+IAA 0.5 mg/L+GA_3 1 mg/L 培养基上可发育成小植株。体细胞胚用4%海藻酸钠和2%氯化钙进行人工种皮包埋后,在无菌条件下,人工种子可转换成苗,转换率达89.7%。三七的体细胞胚起源于愈伤组织内或近表层的单个胚性细胞。体细胞胚经球形、心型、鱼雷形及子叶期等诸阶段发育成植株。通过PAS 法染色发现,胚性细胞、球形胚、早心形胚阶段有明显地淀粉积累,淀粉颗粒大而密集;到晚心形胚及子叶期体胚,淀粉颗粒小而少或消失。淀粉消长变化的规律与体细胞胚的发育有着密切的关系。     

Differences in protodermal cell wall structure in zygotic and somatic embryos of <Emphasis Type="Italic">Daucus carota</Emphasis> (L.) cultured on solid and in liquid media

The ultrastructure, cuticle, and distribution of pectic epitopes in outer periclinal walls of protodermal cells of Daucus carota zygotic and somatic embryos from solid and suspension culture were investigated. Lipid substances were present as a continuous layer in zygotic and somatic embryos cultured on solid medium. Somatic embryos from suspension cultures were devoid of cuticle. The ultrastructure of the outer walls of protodermis of embryos was similar in zygotic and somatic embryos from solid culture. Fibrillar material was observed on the surface of somatic embryos. In zygotic embryos, in cotyledons and root pectic epitopes recognised by the antibody JIM5 were observed in all cell walls. In hypocotyls of these embryos, these pectic epitopes were not present in the outer periclinal and anticlinal walls of the protodermis. In somatic embryos from solid media, distribution of pectic epitopes recognised by JIM5 was similar to that described for their zygotic counterparts. In somatic embryos from suspension culture, pectic epitopes recognised by JIM5 were detected in all cell walls. In the cotyledons and hypocotyls, a punctate signal was observed on the outside of the protodermis. Pectic epitopes recognised by JIM7 were present in all cell walls independent of embryo organs. In zygotic embryos, this signal was punctate; in somatic embryos from both cultures, this signal was uniformly distributed. In embryos from suspension cultures, a punctate signal was detected outside the surface of cotyledon and hypocotyl. These data are discussed in light of current models for embryogenesis and the influence of culture conditions on cell wall structure.     

Hyperosmotic stress-induced somatic embryogenesis and its continuous culture in Japanese honewort (Cryptotaenia japonica)

Japanese honewort (Cryptotaenia japonica) is consumed as a traditional vegetable and has medicinal applications. In Japan, C. japonica is mainly produced using hydroponic culture systems; however, damping-off is often caused by the adherence of pathogens to its seeds. Therefore, the use of sterile artificial seeds in hydroponic culture is likely to be effective for preventing disease. In this study, we established methods for stress-induced somatic embryogenesis and artificial seed production in Japanese honewort. Shoot apex explants from seedlings were treated with 0.7 M sucrose as a hyperosmotic stress for 3 or 6 weeks, and then transferred to stress-free conditions. Somatic embryos were formed after culture in stress-free conditions for 7 weeks. Stress-treated shoot apex explants that formed somatic embryos were cultured in Murashige and Skoog liquid medium with shaking. After 2 weeks of culture, approximately 800 somatic embryos were formed from each explant. Somatic embryos were formed continuously during 37 weeks under the same culture conditions. Thus, somatic embryogenesis was effectively induced in Japanese honewort via hyperosmotic stress, and embryogenic competence was maintained under stress- and phytohormone-free conditions. The somatic embryos produced by liquid culture were used to produce artificial seeds by enveloping the embryos in whipped alginate gel to avoid hypoxic conditions. The artificial seeds had a high germination rate (72%). This system is suitable for the sterile, highly productive hydroponic culture of Japanese honewort.     

Dormancy induction of somatic embryos of Siberian ginseng by high sucrose concentrations enhances the conservation of hydrated artificial seeds and dehydration resistance

. In most plants, somatic embryos tend to germinate prematurely, a process that is detrimental to controlled plant production and the conservation of artificial seeds. We investigated the dormancy characteristics of Siberian ginseng somatic embryos induced simply by a high sucrose treatment, a treatment that enables the long-term conservation of artificial seeds following encapsulation and provides embryos with an enhanced resistance to dehydration. Early-cotyledonary stage somatic embryos were mass-produced by means of bioreactor culture. These embryos were then plated on medium supplemented with various levels of sucrose (1%, 3%, 6% or 9%) and allowed to mature. Subsequent germination of these embryos following the maturation period depended significantly on the sucrose level. At concentrations of 9% sucrose, none of the somatic embryos germinated after maturation, and none were recovered after being transferred to half-strength MS medium containing 2% sucrose. Gibberellic acid treatment was necessary to induce germination; other growth regulators such as auxins and cytokinins did not induce a response. Endogenous abscisic acid content in somatic embryos matured at 9% sucrose (487.8 ng/g FW) was approximately double that found in those matured at 3% sucrose (258.4 ng/g FW). This indicates induced dormancy in embryos under high osmotic stress. Alginate encapsulation of embryos facilitated the artificial induction of dormancy to extend the conservation period without germination. The induction of dormancy strengthened resistance to dehydration after the embryos were desiccated to 15% of their normal water content. Reduced chances of embryo survival during long-term desiccation were distinctly delayed in dormant embryos. These results indicate that the induction of dormancy in embryos is a promising application for synthetic seed production.     

Suspension Culture and Somatic Embryogenesis of Korean Pine

Korean pine is an important afforestation tree species in Northeast China, which has a high ecological and economic value. Although regeneration of somatic embryogenesis using immature zygotic embryos of Korean pine as explants has been successful, it cannot be applied to automation and large-scale production. Therefore, we urgently need a method that can increase the output of somatic embryos (SEs) to meet the needs of large-scale production. We used Korean pine 1–1 and 1–100 cell lines as research materials to evaluate the effects of inoculum-density, culture time, orbiting speed, vessel volume, plant growth regulator (PGR) concentration, and carbon source on the proliferation of embryogenic tissue (ET). The somatic embryogenesis ability of ET cultured in different liquid suspension media was also evaluated. We found that during liquid suspension culture of Korean pine ET, the sedimented cell volume (SCV), fresh weight (FW) and dry weight (DW) were affected by inoculum-density, culture time, orbiting speed, 2,4-D concentration, 6-BA concentration and carbon source type. Fourty mg ⋅ mL⁻¹ ET were transferred to a 200 mL Erlenmeyer flask containing 20 mL liquid medium, and cultured at 100 rpm/min for 14 days to obtain the maximum proliferation. In addition, we also found that SCV, FW and DW were higher when PGRs were reduced in the liquid suspension medium. The substitution of maltose for sucrose resulted in slow growth of cultures and limited SE yield (13 SEs g⁻¹ FW). Although culture proliferation was high at 50 rpm, SE yield was inhibited by 48% compared with 100 rpm (50 rpm = 33 SEs g⁻¹ FW; 100 rpm/min = 70 SEs g⁻¹ FW). Cultivation in low-concentration PGR(1.15 μM ⋅ L⁻¹ 2,4-D, 0.25 μM ⋅ L⁻¹ 6-BA) and sucrose liquid medium at 100 rpm/min (80 SEs g⁻¹ FW) could not only promote culture proliferation but also increase SE yield. The determination of the suspension culture scheme of Korean pine ET provides a reference for further expansion to bioreactor culture in the future and lays a foundation for the automation and scale of somatic embryogenesis of Korean pine.