In vitro high frequency regeneration of plantlets of Vigna mungo and their ex vitro growth

Of the five explants of V. mungo var. T9 used, the excised shoot tips gave best response with regard to offshoot formation followed by the embryonal axis explants. While a treatment comprising 0.5 mgL(-1) BAP, 0.5 mgL(-1) 2iP and 0.1 mgL(-1) NAA induced differentiation of an average 10 offshoots in shoot tip explants, only 3 offshoots were formed in the explants of embryonal axis in a treatment containing 0.5 mgL(-1) BAP and 0.1 mgL(-1) NAA, found optimum for them. Multiple shoots differentiated when explants with earlier regenerated and growing offshoots were first cultured in a treatment containing 0.1 mgL(-1) BAP, 0.25 mgL(-1) IAA and 5 mgL(-1) CCC and then subcultured in the same treatment but having only 1 mgL(-1) CCC. The isolated shoots rooted in 0.5 mgL(-1) IAA resulted in the formation of complete plantlets of an average height of 15 cm in 20 days. The in vitro-regenerated plants grew normally under field conditions and came to flowering as well.     

In vitro Organogenesis in Explants from Different Cultivars of Begonia X hiemalis

Petiole explants from 17 cultivars of Begonia X hiemalis were grown on a basal agar medium with different combinations of NAA and BA as well as on media lacking microelements or vitamins. The stock plants were kept either under short days (7–8 h of light perday) at 15°C or under long days (15–16 h of light) at 18–21°C. The day length during the in vitro culture was 20 h of light and the temperature 21°C. Explants from short-day treated stock plants did not show any differentiation. In explants from long-day treated stock plants, the percentage of explants with shoot, root and with both shoot and root initiation were recorded after 55 days. Explants forming both shoots and roots were transferred to soil, and plantlet formation was observed after another 55 days. The percentage of explants with organ and plantlet formation differed between cultivars. With increasing NAA and decreasing BA concentrations, the percentage of explants forming only roots increased, whereas the percentage of explants with only shoots decreased. Plantlet formation was most frequent in explants from NAA: BA ratios of 2: 1 and 10: 1, and a variation was found between different cultivars. When the vitamin fraction was not added to the medium, this did not influence formation of shoots, roots and plantlets. When the microelements were omitted. shoots, roots and callus were formed, but no plantlets.     

南瓜高效再生体系的建立

南瓜(Cucurbita moschata)再生率较低, 为建立高效的南瓜再生体系, 以南瓜子叶为外植体, 进行35组不同激素浓度的不定芽诱导研究。结果表明, 南瓜再生受培养基中激素浓度和配比的影响, 适宜浓度6-苄氨基腺嘌呤(6-BA)能有效促进不定芽形成; 单独使用脱落酸(ABA)诱导使南瓜子叶发黄, 但与6-BA组合使用可显著提高外植体的再生能力, 1.0 mg∙L ^-16-BA与0.5 mg∙L ^-1ABA组合南瓜芽再生率高达90.26%。将不定芽置于MS培养基中进行生根培养, 再生苗移栽易成活。从子叶接种到苗再生约需70天。     

南瓜高效再生体系的建立

南瓜(Cucurbita moschata)再生率较低, 为建立高效的南瓜再生体系, 以南瓜子叶为外植体, 进行35组不同激素浓度的不定芽诱导研究。结果表明, 南瓜再生受培养基中激素浓度和配比的影响, 适宜浓度6-苄氨基腺嘌呤(6-BA)能有效促进不定芽形成; 单独使用脱落酸(ABA)诱导使南瓜子叶发黄, 但与6-BA组合使用可显著提高外植体的再生能力, 1.0 mg?L ^-16-BA与0.5 mg?L ^-1ABA组合南瓜芽再生率高达90.26%。将不定芽置于MS培养基中进行生根培养, 再生苗移栽易成活。从子叶接种到苗再生约需70天。     

Genotype Dependent Somatic Embryogenesis and Regeneration from Leaf Base Cultures of Sorghum bicolor

A simple and reproducible protocol for callus induction and regeneration of plantlets from leaf base cultures of agronomically important Indian cultivars of Sorghum bicolor(L.) Moench (296 Band RS 585) has been developed. A strong genotype dependent response was observed and the genotype 296 B was found to be the most responsive as compared to the other genotypes tested. Cultures were raised from the III, IV and V leaf bases, excised from 12-day-old in vitro raised plantlets and cultured on Callus Induction Medium (CM). Callus initiation took place after 10-14 days of culture. The explants were maintained on this medium for 30- 35 days, after which they were transferred to Regeneration Medium (RM). Histological examination indicated that somatic embryogenesis was prevalent in the leaf base cultures and the embryos started to germinate after 15-20 days of transfer to RM. Plantlets with complete shoot and root system have been raised with as many as 30 plantlets regenerating from a single explant. These plantlets could be easily separated from one another and transferred to culture tubes for faster growth and development. Later, individual plants numbering more than 50 were transferred to pots containing soil: soilrite (1:1) for hardening. A high regeneration frequency of up to 40 % could be obtained in the genotype 296 B followed by 10.8 % in the genotype RS 585 and 7.8 % in C 43.     

Agrobacterium tumefaciens-mediated transformation of cauliflower,Brassica oleracea var. botrytis

We have developed an efficient and simpler method for genetic transformation and regeneration of cauliflower, Brassica oleracea var. botrytis plants. Explants from 4-day old seedlings were inoculated and cocultivated with Agrobacterium tumefaciens strain LBA4404 harbouring a binary vector with the neomycin phosphotransferase-II gene under the regulatory control of nopaline synthase promoter and terminator sequences, permitting transformed shoots to be selected on kanamycin containing medium. After three months rooted transformed plantlets were successfully transferred and grown under glasshouse conditions. Higher numbers of transformed plants were obtained from cotyledon than hypocotyl explants, presumably indicating cotyledons of cauliflower are more amenable to genetic transformation. Integration and expression of the introduced transgene were analysed by DNA gel blot and PCR analysis and NPT-II expression assay. Factors influencing transformation efficiency include explant age, concentration of bacterium used for infection, duration of infection and cocultivation with Agrobacterium. Transgenic plants of three commercial genotypes of cauliflower were produced using this method. We also show that introduction of antisense Bcp1 (pollen-specific gene) linked to a pollen-specific promoter (Lat52) resulted in the expected sterility of 50% pollen carrying this transgenic construct.     

两步外植体法高频再生麝香百合

采用两步外植体法,即以百合鳞片叶为初始外植体,以从初始外植体上长出的芽为次级外植体,成功建立了麝香百合的高频离体再生系统。对不同的BA浓度及次级外植体的不同部位对再生效果的影响,以及组培苗移栽前低温处理的影响进行了研究。结果表明:不同部位的次级外植体中,以短缩茎切片出芽快、整齐、芽数多且粗壮;以MS附加1.0 mg L-1 BA和0.1 mg L-1 NAA的培养基最适于麝香百合的分化。一个中等大小已脱春化的鳞茎通过两步外植体法能扩繁出54 000株左右的新植株,从鳞片叶开始至开花仅需8个月,而且4!低温处理对开花期的影响不大。     

In vitro propagation of an endangered medicinal plant Saussurea involucrata Kar. et Kir.

An efficient micropropagation system for Saussurea involucrata Kar. et Kir., an endangered Chinese medicinal plant, has been developed. Shoot organogenesis occurred from S. involucrata leaf explants inoculated on medium with appropriate supplements of plant growth regulators. 66.0% of shoot regeneration frequency and 5.2 shoots per leaf explant were achieved when cultured on a medium containing 10 μM 6-benzylaminopurine (BAP) and 2.5 μM 1-naphthaleneacetic acid (NAA). Shoot organogenesis was improved further when the leaf explants were pre-incubated at low temperature, and 80.6% of shoot regeneration frequency was recorded with 9.3 shoots per leaf explant at 4°C by 5-day pretreatment period. Up to 87.0% of the regenerated shoots formed complete plantlets on a medium containing 2.5 μM indole-3-acetic acid (IAA) within 28 days, and 85.2% of the regenerated plantlets survived and grew vigorously in greenhouse condition. The phytochemical profile of the micropropagated plants was similar to that of wild plants. The regeneration protocol developed in this study provides a basis for germplasm conservation and for further investigation of medicinally active constituents of the elite medicinal plant.     

Plantlets from encapsulated micropropagated buds of M.26 apple rootstock

In order to be considered usable as synthetic seeds, encapsulated explants sown underin vitro orex vitro conditions must be able to produce whole plantlets. Ninety percent of non-encapsulated M.26 apple rootstock single nodes produced a plantlet (i.e., a well-formed shoot with a root system) after 30 days of culturein vitro if the explants were previously given a 24-hour treatment with 24.6 μM IBA and 15 g 1⁻¹ sucrose in darkness. In contrast, when the single nodes were encapsulated in a calcium-sodium alginate bead immediately after the same treatment only 10% of the encapsulated explants formed a plantlet. Addition of growth regulators to the artificial endosperm and culture of the single nodes for root primordia initiation for 3, 6 or 9 days in darkness before encapsulation allowed production of 58%, 60% and 66% of plantlets, respectively.     

Transformation of Populus tomentosa by Agrobacterium and Regeneration of Transformed Plantlets

The establishment of efficient transformation system of Populus tomentosa by Agrobacterium is reported. The strains of Agrobacterium used in experiments were: 1. A. rhizogenes R1000, which harboured the Ri plasmid pRiA4b. 2. A. rhizogenes R1000 (pTVK85), which carried the plasmids pRiA4b and pTVK85 Containing supervirulent region. 3. A. tumefaciens C58C1 (pBZ693), the plasmid pBZ693 containing genes 1 and 2. After being cocultured with the bacteria on media containing 0.5 ppm kinetin for 2 days, explants of P. tomentosa were transferred to MS medium containing 500 ppm cefotaxime. Roots appeared on the explants in a week. The roots induced by A. tume[aciens were morphologically different from those induced by A. rhizogenes. The frequency of the explants transformed by A. rhizogenes R1000 (pTVK85) was nearly up to 60%. Some Ri plasmid transformed roots could spontaneously produce adventitious shoots or calli. By adding appropriate plant growth regulators in the media, we could have all of the root lines transformed produce adventitious shoots which would develop into intact plantlets on a hormone-free medium. Some phenotypical differences were observed among clones of the transformed plantlets. Some clones had short internodes, large number of leaves, reduced apical dominance, rich root systems with a great quantity of branches and root hairs, whereas in other clones aboveground parts of plantlets were morphologically normal and only their root systems were different from those of untransformed plantlets. None of the plantlets transformed by A. rhizogenes had the phenomenon of wrinkle leaves and shapes these leaves were analogous to normal plantlets. It was often observed that roots were regenerated from stems above the medium surfaces. Southern analysis on three clones of the putative transformed plantlets by A. rhizogenes R1000 (pTVKS5) showed that two of them were hybridized positively with the probe covering the TL-DNA region of the plasmid pRiA4b.     

鹤望兰组织培养与工厂化快繁程序的研究

将材料接种于诱导愈伤组织手芽的培养基上,培养２个月后,胚芽外植体下出现白色颗粒状的愈伤组织,４个月后愈伤组织上出现小芽丛。将小芽丛转入不加植物激素的ＭＳ培养基上,芽的生长加快,２个月左右可长成３－６ｃｍ高的丛小植株。将小植株切下,插入根培养基中,一般３５ｄ左右基部突出很小的白色根尖。     

Recovery of fertile plants from isolated,cultured maize shoot apices

Maize shoot apices (1 to 2mm size) from two sources were used to recover normal plantlets. The first explant source included shoot apices from the embryonic axis of immature embryos, 12–14 days post pollination in the glasshouse (spring) or 15–20 days post pollination in the summer nursery. In most explants, the shoot apical meristem was surrounded by a coleoptile primordium which was removed before culture. The second explant source included shoot apices from the plumules of 72 h imbibed mature kernels. The coleoptile and all other leaf layers (leaf-1 to leaf-3 or 4) of the plumule were removed before culture to expose the apical meristem. Among the genotypes studied, a recovery of 43% (Mo17) to 100% (Oh43) of plantlets was achieved from shoot apices from immature embryo plumules cultured in MS medium. Recovery of 80% of Oh43 plantlets in MS medium and 40% of A188 plantlets from apices of plumules of imbibed (72 h) seeds in MS medium containing 2,4-dichlorophenoxyacetic acid was recorded. The plantlets derived from both explant sources grew normally and produced viable seeds upon pollination.     

Transgene expression in broccoli (Brassica oleracea var. italica) clones propagated in vitro via leaf explants

We have developed an efficient protocol for the in vitro propagation of transgenic broccoli plants using leaf explants as starting material. A high frequency of shoot formation from leaf explants was obtained on Murashige and Skoog medium containing benzyladenine (BA, 5 mg/l) and naphthaleneacetic acid (0.5 mg/l). Frequent subcultures of existing shoots and shoot clusters to medium containing only BA (2 mg/l) promoted rapid shoot multiplication. The use of a 1:1 mixture of Agargel and Gelrite in the rooting medium increased the number of healthy roots per rooted plant. Applying this protocol, we obtained thousands of clonal rooted plantlets within 6 months from a transgenic broccoli plant carrying the cry1Ac and cry1C genes from Bacillus thuringiensis associated with kanamycin and hygromycin selectable markers, respectively. Thirty randomly selected clones that had been propagated for 1 year on medium containing kanamycin (50 mg/l) all showed resistance to both kanamycin and hygromycin. Genomic DNA and total soluble proteins were isolated from 16 of these clones. Polymerase chain reaction analysis indicated that the cry1Ac and cry1C genes were both maintained. ELISA assays showed that all of the clones produced a high level of Cry1Ac protein similar to the original transgenic plant; however, most clones had significantly lower levels of Cry1C protein than the original plant. This variation indicates that it is important to evaluate transgene expression in transgenic clones propagated long-term in vitro. In vitro propagation starting from leaf explants was also successful with other transgenic and non-transgenic Brassica oleracea materials, including broccoli, cauliflower, and collard.     

Transformation of Vicia narbonensis via Agrobacterium-mediated gene transfer

Shoot tips and epicotyl-segments of Vicia narbonensis were co-cultivated with Agrobacterium tumefaciens strain C58C1 pGV 3850 HPT, carrying a plasmid coding for hygromycin-phosphotransferase. On callus-induction medium containing 60 mg/l hygromycin for selection, approximately 18% of the explants produced hygromycin-resistant callus. After transfer to regeneration-medium these calluses produced hygromycin-resistant and nopaline-positive somatic embryos which could be regenerated to plantlets. The integration of the T-DNA into the plant genome was confirmed by Southern analysis.Abbreviations NAA naphthyl-acetic acid - BAP 6-benzylaminopurine - HPT hygromycin-phosphotransferase - MS Murashige and Skoog - CaMV cauliflower mosaic virus - nos nopaline-synthase - nop nopaline - hyg hygromycin - SDS sodium dodecyl sulfate     

In vitro selection of glyphosate-tolerant variants from long-term callus cultures of Zoysia matrella [L.] Merr

A complete protocol of in vitro selection and greenhouse screening for glyphosate-tolerant variants in manilagrass (Zoysia matrella [L.] Merr) was established in this study. Newly subcultured calli of more than 5?years?? old were transferred to selection medium containing 2?mM glyphosate. After two rounds of selection, 220 calli survived out of 840 and were transferred to regeneration medium without glyphosate. Regenerated plantlets were then transferred to regeneration medium containing 0.5?mM glyphosate to select tolerant plantlets. After 1-month growth, there were plantlets remained green and new shoots formed beside or on discolored explants. These surviving organisms were then transferred to fresh regeneration medium for further growth. Fully developed plantlets were transferred to a green house and then subjected to greenhouse screening by foliar spraying with 0.05?% glyphosate solution. Six glyphosate-tolerant plantlets, TP1-TP6, were obtained and proliferated for determination of sod-tolerance using morphological and physiological measurements. Fourteen days after foliar application with 0.1?% glyphosate, only TP5 showed enhanced sod-tolerance. The dark green color index value of TP5 was significantly higher than CK2, demonstrating that TP5 suffered less injury from glyphosate than CK2. Different physiological characters were also observed in CK1, CK2 and TP5. Significantly higher chlorophyll a content and catalase activity were observed in TP5 than in CK1. Fourteen days after treatment (DAT), the ion leakage, proline content and ascorbate peroxidase activity of CK2 and TP5 increased significantly, but the ion leakage of TP5 was significantly lower than that of CK2. The guaiacol peroxidase activity of TP5 increased significantly 14 DAT, and was significantly higher than that of CK1 and CK2. No change in shikimate content was observed in CK2 or TP5 14 DAT.     

Somatic embryogenesis and plant regeneration from cotyledon explants of a timber-yielding leguminous tree,Dalbergia sissoo Roxb

Efficient plant regeneration through somatic embryogenesis was achieved from callus cultures derived from semi-mature cotyledon explants of Dalbergia sissoo Roxb., a timber-yielding leguminous tree. Somatic embryos developed over the surface of embryogenic callus and occasionally, directly from cotyledon explants without intervening callus phase. Callus cultures were initiated from cotyledon pieces of D. sissoo on Murashige and Skoog (1962) medium supplemented with 4.52, 9.04, 13.57, and 18.09 mumol/L 2,4-dichlorophenoxyacetic acid and 0.46 mumol/L Kinetin. Maximum percentage response for callus formation was 89% on MS medium supplemented with 9.04 mumol/L 2,4-D' and 0.46 mumol/L Kn. Somatic embryogenesis was achieved after transfer of embryogenic callus clumps to 1/2-MS medium without plant growth regulators (1/2-MSO). Average numbers of somatic embryos per callus clump was 26.5 on 1/2-MSO medium after 15 weeks of culture. Addition of 0.68 mmol/L L-glutamine to 1/2-MSO medium enhanced somatic embryogenesis frequency from 55% to 66% and the number of somatic embryos per callus clump from 26.5 to 31.1. Histological studies were carried out to observe various developmental stages of somatic embryos. About 50% of somatic embryos converted into plantlets on 1/2-MSO medium containing 2% sucrose, after 20 days of culture. Transfer of somatic embryos to 1/29-MSO medium containing 10% sucrose for 15 days prior to transfer on 1/2-MS medium with 2% sucrose enhanced the conversion of somatic embryos into plantlets from 50 to 75%. The plantlets with shoots and roots were transferred to 1/2 and 1/4-liquid MS medium, each for 10 days, and then to plastic pots containing autoclaved peat moss and compost mixture (1:1). 70% of the plantiets survived after 10 weeks of transfer to pots. 120 regenerated plantlets out of 150 were successfully acclimatised. After successful acclimatisation, plants were transferred to earthen pots.     

外源BoCAL基因对花椰菜花球形态发生的调节及其遗传

花椰菜和结球甘蓝是芸薹属甘蓝种的两个变种,前者的BobCAL基因发生提前终止突变而失去了原有的功能,而后者的BoCAL基因具有完整的编码区。在农杆菌的介导下,我们获得了BoCAL转基因花椰菜。T_2代的遗传研究表明,外源BoCAL基因转入后花椰菜转基因植株都没有形成花球,而是只形成松散的由花蕾组成的绿色花序。这一结果说明,花椰菜BobCAL被甘蓝BoCAL互补了,转基因花椰菜因此失去了形成花球的能力。这些转基因植株自交到T_3代时花序的形态特征与T_2代一致,为松散的绿色花序,但是花序出现的时间与T_1代相比提早了15天。将转基因花椰菜与野生型花椰菜杂交,结果发现杂交后代的植株形成夹杂有花蕾的花球,且花序出现的时间大大推迟,在播种后135天后才形成花球。     

Recurrent somatic embryogenesis and plant regeneration from immature zygotic embryos of cabbage (Brassica oleracea var. capitata) and cauliflower (Brassica oleracea var. botrytis)

A simple and rapid protocol was established for repetitive somatic embryogenesis and subsequent plant regeneration in two important Brassica oleracea varieties, cabbage and cauliflower. Direct regeneration of somatic embryos (SEs) was achieved from immature zygotic embryos cultured on B5 plant growth regulator (PGR)-free (B5-0) induction medium and on B5 medium supplemented with 1 mg l^?1 2,4-dichlorophenoxyacetic acid (2,4-D) (B5-D). Zygotic embryos of both cabbage and cauliflower at the cotyledonary (C) stage (1.8 mm long) incubated on B5-0 medium displayed the highest embryo-forming capacities (EFCs) of 11.84 and 11.95, respectively. Secondary somatic embryos (SSEs) appeared on the cabbage and cauliflower’s primary embryos at a high frequency (83.3 and 87.5 %, respectively), and this process continued in a repetitive way on PGR-free Murashige and Skoog (MS-0) medium. The embryogenic potential of the cultures with a gradual diminution was maintained for 10 months (ten cycles). A total of 20 % of the mature SSEs from cabbage and 55 % from cauliflower spontaneously regenerated plantlets on MS-0 medium. The addition of 1 mg l^?1 6-benzyladenine (BA) or 6-furfurylaminopurine (Kin) in the regeneration medium significantly improved somatic embryo conversion into plantlets by up to 56 % in cabbage and 79 % in cauliflower. Regenerated plants acclimated successfully to ex vitro conditions and displayed morphological and reproductive characteristics similar to seed-derived plants. Effective recurrent somatic embryogenesis may be an appropriate practical solution for clonal propagation and genetic modifications of cabbage and cauliflower.     

Dark preincubation improves shoot organogenesis from Rhodiola crenulata leaf explants

An efficient in vitro plant regeneration system has been developed using dark preincubated leaf explants of Rhodiola crenulata, a traditional Tibetan medicinal plant. The leaf explants, preincubated in the dark for 5 d, developed an average of 9.1 shoots per explant on a medium containing 15 μM N ⁶-benzyladenine (BA) and 2.5 μM gibberellic acid (GA₃). The biochemical mechanism underlying dark-induced shoot organogenesis was investigated by measuring polyphenol oxidase (PPO) activity. Dark preincubation significantly reduced PPO activity in leaf explants during the initial period of shoot organogenesis and reduced browning compared to explants cultured in the light. Up to 88.4 % of the regenerated shoots formed roots and developed into complete plantlets on a medium containing 5 μM indoleacetic acid (IAA) within 25 d. Approximately 82 % of the regenerated plantlets survived transplantation and grew vigorously in the greenhouse.