防风悬浮细胞的原生质体再生植株

防风(Saposhnikovia divaricata(Turcz.)Schischk)试管苗的根尖,下胚轴或叶柄切段在含有1mg/l 2,4-D 的 MS 固体培养基上,形成含有胚性细胞团的愈伤组织。愈伤组织经液体振荡培养,形成含有大量胚性细胞团的悬浮培养物。用含有 Onozuka R-10 1.5%、Mace-rozyme R-10 0.3%、蜗牛酶0.5%、CaCl_2 5mmol/l 和甘露醇0.6 mol/l(pH=5.8)的酶液从胚性细胞团游离得到原生质体。原生质体在培养的第4天出现第一次分裂,50天左右形成的细胞团大小为1—2mm。这些细胞团在含有0.5 mg/l 2,4-D 的 MS 固体培养基上形成愈伤组织。在含有0.1 mg/l 6-BA 或0.1 mg/l 2,4-D+0.5mg/l 6-BA 的 MS 固体培养基上,原生质体再生的愈伤组织分化出胚状体。胚状体在不含任何生长调节剂的 MS 固体培养基上发育成完整的原生质体再生植株。     

花烟草叶肉原生质体再生植株

用自制的纤维素酶(EA3-867)从花烟草(Nicotiana alata)叶肉细胞制备大量有活力的原生质体。在NT培养基(内含2,4-D2,KT0.25毫克/升)上观察到原生质体长大,分裂,形成愈伤组织。愈伤组织悬浮在含有2,4-D2mg/升的MS培养基上诱导出球形胚,移入MS(BA2,IAA 0.2 mg/l)培养基上出苗。小苗移植土壤中正常生长、开花、结实。     

草麻黄植株再生体系的建立

目的:以草麻黄的子叶为材料,建立草麻黄植株再生体系.方法:采用组织培养的方法进行了愈伤组织诱导、愈伤组织分化和不定芽生根研究.结果:MS+2,4-D 2.0mg/1+6-BA 1.0mg/l为诱导子叶形成具有分化能力愈伤组织的理想培养基;MS+2,4-D 1.5mg/l+6-BA 1.5mg/l是愈伤组织的最佳继代培养基;MS+IAA 0.2mg/l+TDZ 2.0mg/l是愈伤组织不定芽分化的最佳培养基,分化率为75%;试管苗生根培养基为MS+2,4-D 1.0mg/l.结论:建立了草麻黄子叶再生系统,为开发和保护麻黄野生资源提供一定的材料来源和技术方法.     

糜子离体体细胞胚胎发生和植株再生 Ⅱ.各种因素的影响

本试验就各种因素对糜子胚性和非胚性愈伤组织诱导的影响及其植株再生进行了较为详细的研究。结果表明,2,4-D是诱导胚性愈伤组织所必须的;蒸糖浓度、酵母浸出汁和水解乳蛋白的含量、基本培养基组成、外植体来源和黑暗培养等因素也都有不同程度的影响;而且各种因素对胚性愈伤组织的影响比非胚性愈伤组织更大。诱导胚性愈伤组织最适宜的培养基组成是MS+2,4-D(2mg/l)+BA(0.5mg/l)+蔗糖(3%)+YE(0.3%)+LH(1600mg/l)+盐酸硫胺素(0.4mg/l)。两种愈伤组织转移到无或含少量2,4-D的MS培养基上,只能从胚性愈伤组织再生植株。再生植株经移栽生长成熟并结了种子。     

番茄子叶原生质体再生植株

从番茄2—3周苗龄的子叶游离原生质体,在 MS 液体培养基中(附加2,4-D 1,6-BA 0.1mg/l)培养;在培养过程中经常不断添加新鲜培养液。6周后将细胞团移到半固体 MS 培养基上(附加成份同上,琼脂0.3%)。然后将肉眼可见的愈伤组织再移入 MS 固体培养基上,愈伤组织长到直径为5 mm 大小时,转到 MS 分化培养基上(附加6-BA 2 mg/1,[AA 0.2 mg/l)诱导分化,得到了再生植株。比较了固体培养、悬浮培养和双层培养三种方法,观察原生质体生长情况,以双层培养为好。     

辣木资源利用中的悬浮细胞培养体系研究

辣木富含多种营养成分,在食品和药物开发方面有巨大的潜在开发价值。本文提供了一种可行的辣木细胞悬浮培养技术。由辣木的根诱导形成愈伤组织和叶诱导形成愈伤组织的合适细胞悬浮培养条件分别为MS培养基(MS)+1.0mg/L 2,4-二氯苯氧乙酸(2,4-D)+1.0mg/L激动素(KT)和MS+0.5mg/L 2,4-D+0.5mg/L KT,摇床转速均为50~100r/min,将愈伤组织添加到液体悬浮培养基中20d左右可得到大量悬浮细胞。本研究为辣木细胞水平的培养和研究提供了一条途径,为辣木潜在价值的开发利用提供新的思路。     

生姜离体叶片愈伤组织悬浮细胞系建立与植株再生

以‘莱芜大姜’为试材,研究了生姜离体叶片愈伤组织的诱导以及细胞悬浮系建立与植株再生。结果表明,以生姜试管苗叶片为外植体,接种到MS+1.0 mg/L 2,4-D+0.5 mg/L 6-BA+30 g/L蔗糖的培养基上,可有效诱导出生长迅速、质地疏松的愈伤组织。将获得的愈伤组织接种到MS+0.15 mg/L 2,4-D+6.0 mg/L 6-BA+30 g/L蔗糖的液体培养基上,25℃黑暗条件下震荡培养25-30 d,可建立分散性好、生长迅速的悬浮细胞系,细胞悬浮系培养的适宜参数为:初始接种量为1.0-1.5 g,继代培养的适宜间隔期为15 d,继代培养液体培养基更新比例为3/4。将悬浮细胞接种到固体培养基MS+0.2 mg/L NAA+10.0 mg/L 6-BA+30 g/L蔗糖上可获得再生植株。     

新疆天山雪莲体胚诱导与分化研究

以新疆天山雪莲的叶片为外植体,分别用不同配方培养基诱导愈伤组织,后进行体胚诱导和分化培养形成再生雪莲植株.结果表明,诱导愈伤组织的最适培养基为MS 2,4-D 0.5 mg/L BA 1.5 mg/L,诱导率可达到100%;愈伤组织转移至MS 2,4-D 0.5 mg/L BA 1.5 mg/L培养基进行继代培养,增殖后的愈伤组织转移到MS 2,4-D 0.2 mg/L的液体培养基后成功诱导出雪莲体胚,出胚率达40%;将体胚接至MS ABA 0.5 mg/L培养基后,结果分化生长出大量的再生雪莲幼苗.     

大豆未成熟胚培养中高浓度植物生长素的作用及其植株再生

用大豆(Glycine max(L.)Merr.)未成熟胚为外植体,在含高浓度 NAA 或2,4-D 的培养基上可诱导绿色结构体和体细胞胚状体。叶状、花状和喇叭形状的绿色结构体在含30mg/l2,4-D 的 MS-1培养基上可重新愈伤组织化。这种由高浓度2,4-D 诱发并保持的愈伤组织,转到低激素水平的培养基上后,能诱导出大量的同类形状的新结构体。绿色结构体可以进一步发育成叶丛状,但顶端不伸长。使用含2m g/l GA,和0.1mg/l IBA 的培养基,能促进顶端伸长和根的发育,获得正常植株。由未成熟胚的子叶(其时种子长度约4—6mm)诱导的愈伤组织具有再生能力。在含高浓度2,4-D(5-30mg/l)的培养基上诱导出的愈伤组织具有较高的产生绿色结构的潜力。而高浓度 NAA(10mg/l)培养基产生的愈伤组织具有较强的产生根状体的潜力。培养的外植体或愈伤组织在含5mg/l 2,4-D 的培养基上,不需要经常的继代培养,即可长期保存。     

曼陀罗茎段愈伤组织诱导和再生植株的研究

本试验以曼陀罗茎段为外植体,在附加不同植物激素组合的培养基中对愈伤组织的诱导和植株再生进行研究。结果表明:采用修改的MS培养基(除去甘氨酸,维生素B1含量增加至0.5mg/L,pH5.5)附加2mg/L2,4-D可由曼陀罗茎段诱导大量胚性愈伤组织;愈伤组织继代选用0.5mg/L2,4-D为宜;不定芽的诱导采用MS培养基(20g蔗糖,8g琼脂,0.1g水解干酪素) 6-BA(0.5mg/L);幼苗进一步转接至1/2MS IBA(0.2mg/L)生根培养基中,可完成曼陀罗茎段愈伤组织诱导和再生植株的组织培养过程。     

Comparison of developmental stages of inflorescence for high frequency plant regeneration in Triticum aestivum L. and T. durum Desf.

Summary Whole immature inflorescences at 4 different developmental stages (0.5, 1.0, 1.5, 2.0 cm in size) of different genotypes of Triticum aestivum and T. durum were cultured to see the morphogenetic responses on Murashige and Skoog's (MS) medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) (2.5 mg/l). Very young inflorescences 0.5 and 1.0cm long formed embryogenic callus from their entire surface while 1.5 and 2.0 cm long inflorescences formed embryogenic callus from the basal spikelets and rachis only. This embryogenic callus was maintained by regular subcultures on MS medium with 2,4-D (2.5 mg/l) for more than a year. Plantlets were regenerated by transferring the embryogenic callus on hormone-free MS medium. Inflorescences (0.5 and 1.0 cm long) responded best in forming callus as well as plantlets at a very high frequency. Variation in response was observed amongst the genotypes but the qualitative response of formation of embryogenic callus and later regeneration of plantlets was observed from all the genotypes. Immature young inflorescence explants could provide a suitable material for particle gun mediated genetic transformation in wheat.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - MS Murashige and Skoog (1962)     

Morphohistobiochemical characteristics of embryogenic and nonembryogenic callus cultures of sweet potato (Ipomoea batatas L.)

Ipomoea batatas callus culture raised in a medium supplemented with 2,4-D (2,4-dichlorophenoxy acetic acid) alone or 2,4-D in combination with benzyl adenine, were found to be embryogenic. Supplementation of exogenous chemicals, such as 5 g/l NaCI or 0.7 g/l proline together with a mild dose of 0.2 mg/l 2,4-D, enhanced somatic embryogenesis significantly in all the genotypes tested. Morphological, growth, physiological, histological, and biochemical characteristics of the embryogenic callus were different from the nonembryogenic callus. The former was compact, slow growing, and nodular compared with the fast growing, fragile, nonembryogenic callus. The embryogenic callus tissue had more dry matter, protein and reducing sugar contents compared with the less embryogenic callus. The somatic embryogenic response remained steady in the cultures for up to 96 weeks.     

马铃薯未传粉子房离体培养诱导双单倍体植株

以MS为基本培养基,附加不同水平的生长素,培养未传粉马铃薯子房,经三年试验,从两个品种中获得了双单倍体的绿色小植株,(2n=2x=24);从分化绿苗力很强的球状愈伤组织中,又不断地分化出许多绿色小植株。绝大多数品种,都可以诱导出愈伤组织,一般诱导率为70％左右。品种的基因型和培养基中的生长素种类与水平在愈伤组织分化绿苗中起着重要作用。通过扦插和试管微型薯培养,可以大量繁殖试管苗,这为马铃薯单倍体育种提供了较有利的条件。     

Effects of auxin concentration on induction and growth of embryogenic callus from young inflorescence explants of Old World bluestem (Bothriochloa spp.) and bermuda (Cynodon spp.) grasses

Objectives of this research were to test the effects of plant genotypes and auxin 2,4-D (2,4-dichlorophenoxyacetic acid) medium concentrations on embryogenic (E) callus production of two grass species. Two Old World bluestem,Bothriochloa ischaemum, accessions (A-8793 and A-8911c) and three bermudagrass,Cynodon dactylon (L.) Pers., accessions (A-10978b, A12164, and Brazos) supplied the explant material. Immature inflorescences 9 mm in length were placed on modified Murashige-Skoog (MS) agar medium containing 0, 1, 3, or 5 mg L^-1 of 2,4-D. Explants of all genotypes produced callus by the end of a 4-week dark incubation period at 25°C. When subcultured onto fresh media and maintained at 25°C with a 16 hr photoperiod, calli became embryogenic within 8 weeks of inoculation. Three mg L^-1 of 2,4-D in the media maximized E callus production in both bluestem genotypes and in A-10978b and A-12164 bermudagrass genotypes. Maximum E callus production from Brazos bermudagrass resulted from the 1 mg L^-1 treatment. Somatic embryos developed after subculture under light. Embryos showed scutellum-like structures and coleoptile-coleorhiza bipolar organization. Plantlets were regenerated from all genotypes except Brazos, whose embryoids failed to germinate. All callus from Brazos eventually senesced. Light and scanning electron microscopy confirmed regeneration through somatic embryogenesis.     

Rapid and efficient plant regeneration from hypocotyl protoplasts of Brassica carinata

Protoplasts were isolated from hypocotyls of 7-d-old seedlings of three genotypes of Brassica carinata after enzymatic digestion in cellulase R-10 (0.5%) and pectolyase Y-23 (0.025%). The protoplasts were stabilized with 0.4 M mannitol used as osmoticum, and were cultured in darkness in Kao's liquid medium containing 0.4 M glucose and the growth regulators 2,4-D (1.0 mg/l), NAA (0.1 mg/l) and zeatin riboside (0.5 mg/l). Protoplasts were transferred to 16 h photoperiod conditions after 3 d of dark culture, and the medium was diluted to reduce the osmoticum on the seventh and tenth days of culture. Microcolonies were thus obtained which, upon transfer to MS agarose medium with 2,4-D (0.1 mg/l), BAP (1 mg/l) and 0.1 M sucrose, proliferated further to produce callus clumps. The plating efficiency of the three genotypes varied from 1 to 2%. Calli 2–3 mm in diameter were transferred to MS agarose plates with zeatin (2 mg/l) where they produced shoot buds and shoots with frequencies ranging from 22.5 to 74.2% for the three genotypes. The shoots were rooted in medium with IBA (1 mg/l) and were then established in soil. The time required for protoplast to plant development was 8 to 10 weeks.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - IAA Indole-3-acetic acid - IBA Indole-3-butyric acid - NAA -naphthalene acetic acid - BAP 6-Benzylaminopurine - KN Kinetin - 2IP 6-(Gamma, gamma-dimethylallyl-amino)purine     

Plant regeneration using immature zygotic embryos of <Emphasis Type="Italic">Tribulus terrestris</Emphasis>

The genus Tribulus is the source of a number of steroidal saponins and other bioactive compounds which are of medicinal and pharmaceutical importance and plant regeneration of Tribulus terrestris has been reported. The objective of this study was to evaluate the potential of immature zygotic embryos of Tribulus terrestris as an explant for plant regeneration. Embryos were cultured on MS medium supplemented with 1-naphthaleneacetic acid (NAA), 2,4-dichlorophenoxyacetic acid (2,4-D) and thidiazuron (TDZ), alone or in combination and callus and shoot or embryo formation evaluated. With 2.5 mg/l NAA or 2,4-D, callus formation frequency was 100% but 57% with 2.5 mg/l TDZ. The combination of 2.5 mg/l TDZ and NAA or 2,4-D also elicited callus formation frequency of 100%. The callus formation frequency was lower with lower levels of these growth regulators. On a medium with 0.5 mg/l TDZ, 17.4% of the 2,4-D-derived callus (2.5 mg/l), developed embryo-like structures and this increased to 37.3 and 41.4% respectively, when TDZ was combined with 0.5 mg/l indole-3-butyric acid (IBA) or 2,4-D. Both shoot formation and embryo-like structures developed in cultures with 2.5 mg/l TDZ, alone or in combination with 0.5 mg/l IBA or 2,4-D. The optimum sucrose level for morphogenetic response of embryo-derived callus was between 5.0 and 7.5%. Embryo-like structures were also observed when the 2,4-D-derived callus was cultured in a liquid containing benzyladenine (BA) and IBA. Plants were regenerated from both embryo-like structures and shoot buds on solid MS medium containing 0.2 mg/l IBA and rooted plantlets were transferred to soil.     

Plant regeneration from protoplasts of Japanese lawngrass

Embryogenic callus of Japanese lawngrass (Zoysia japonica Steud.) was induced from sterile mature seeds on LS medium with 5 mg / l of 2,4-D. Embryogenic callus selected visually under microscope was proliferated in liquid N6 medium with amino acids (N6-AA medium). Protoplasts were isolated from suspension cells by the treatment of enzyme mixture containing pectolyase Y-23 and cultured in K8p medium with 2 mg / l of 2,4-D at the density of 10⁶ / ml. Plants were regenerated by transferring the protoplasts derived callus to MS medium and incubating at 28 °C under light for two months. Plantlets were successfully transplanted in the soil.Abbreviations 2,4-D 2,4-dichrolophenoxyacetic acid - MES 2-(N-Morpholino) ethanesulfonic acid     

Plant regeneration via somatic embryogenesis in mature embryo-derived callus culture of Sinocalamus latiflora (Munro) McClure

Somatic embryogenesis and subsequent formation of plantlets was achieved from callus cultures derived from mature zygotic embryos of Sinocalamus latiflora (Munro) McClure (Bamboo). Embryogenic callus was initiated on Murashige and Skoog's medium (MS) supplemented with 6 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D), 3 mg/l kinetin, 250 mg/l polyvinylpyrrolidon and 5% sucrose. Prolonged culture of the embryogenic callus on the same medium resulted in embryoid formation. The embryoids developed further to yield whole plantlets when transferred to a medium containing lower concentrations of 2,4-D (3 mg/l) and kinetin (2 mg/l).     

Organogenesis and Plantlet Formation from Organ- and Seedling-Derived Calli of Rice (Oryza sativa)

Callus was induced in different somatic organs of Oryza sativa L. Specific minimum 2,4-dichlorophenoxyacetic acid (2,4-D) concentrations in the medium were necessary for the induction of callus from different organs while high levels of 2,4-D (6–10 mg/l) induced callus formation in each organ tested. The optimum 2,4-D concentration for callus induction and growth for root-derived calli was 2 mg/l and for leaf-derived 6 mg/l. Root and shoot organogenesis were induced in both root- and leaf-derived calli by sub-culturing to a medium lacking 2,4-D. Root organogenesis occurred at a higher frequency than shoot organogenesis. Shoot organogenesis rarely occurred in calli without differentiated roots. Increased age of callus cultures almost completely inhibited shoot development. The addition of the cytokinin 6-γ,γ-dimethylallyl-amino purine partially restored the potential for shoot organogenesis. Whole plants were easily recovered from the calli and grown to maturity with some plants exhibiting phenotypic abnormalities.     

Estimation of the callus formation and regeneration efficiency in spring varieties of barley zoned in Ukraine

Eight commercial varieties of spring barley (Getman, Tabora, Adagio, Galaktik, Europrestige, Korona, Nevada, and Stalker) were used for the in vitro culture establishment and the development of an efficient protocol for the induction of the callus formation and plant regeneration. Mature embroys of the above-mentioned genotypes were used as explants. The induction of callus formation, culture passage, and plant regeneration were carried out using a medium containing MS salts supplemented with casein hydrolysate (1 g/l), L-proline (690 mg/l), thiamine-HCI (1 mg/l), maltose (30 g/l), 2,4-D (2 mg/l), CuSO4 (12.5 mg/l), myoinositol (250 mg/1), and gelrite (3.5 g/l) at pH 5,6–5,8. The ability of callus formation was observed in all studied varieties, and the callus formation’s frequency varied from 65 ± 3.4% to 100%. The highest regeneration potential was revealed for the Korona (88 ± 2,8%), Europrestige (89 ± 6.5%), Tabora (93 ± 3.4%), Getman (99 ± 0.8%), and Nevada (100%) varieties. For all cultivars the generation of plants from a calli occurred via the organogenesis and somatic embryogenesis. The highest total regeneration potential was registered for the Getman variety (50 ± 5%), which was selected for the further development of effective genetic transformation protocols.