Plant regeneration capacity of mesophyll protoplasts from Brassica napus and related species

Protoplasts from a total of thirty-six genotypes of Brassica species – B. napus, B. campestris (syn. B. rapa), B. juncea, and three distant relatives, Orychophragmus violaceus, Isatis indigotica and Xinjiang wild rape – were analysed for shoot regeneration using a feeder culture system. With the exception of B. campestris and Xinjiang wild rape, some genotypes of all the species could regenerate plants with high efficiency (above 20% of isolated calli initiating shoots). Several genotypes with high regeneration ability were elite breeding lines. Culture conditions as well as genotype had a significant impact on shoot regeneration frequency. In particular, silver nitrate added to the regeneration medium at doses of 6 and 30 μM improved shoot regeneration frequency to 25.4% and 52.2% of isolated calli, respectively, compared to 7.3% percent shoot regeneration without silver nitrate in seven responsive genotypes. Addition of silver nitrate to the regeneration medium also induced shoot regeneration in non-responsive genotypes. Intact plants could be obtained within three months from protoplast isolation in the regenerative genotypes using the current culture system. Advantages of mesophyll protoplasts as compared to protoplasts isolated from hypocotyls for genetic manipulation in Brassica species are discussed. This revised version was published online in June 2006 with corrections to the Cover Date.     

彩色大白菜子叶的不定芽再生

以彩色大白菜子叶为外植体,研究不同激素配比和AgNO3对不定芽再生的影响。结果表明:单独附加细胞分裂素(6-BA或TDZ)的MS培养基,不能诱导子叶不定芽分化;而同时附加生长素(NAA)和细胞分裂素(6-BA或TDZ),不定芽的再生频率提高,最高为15%;AgNO3与细胞分裂素及生长素配合使用,能大幅度提高子叶不定芽的再生频率,提高率最高达42.5%。与6-BA相比,TDZ对不定芽再生的效果更好。当TDZ浓度为0.05mg/L、NAA为0.3mg/L、AgNO3为8mg/L时,产生丛状芽数目最多,再生率最高,达50%。     

影响油菜子叶外植体不定芽高频率再生的因素

采用７个甘蓝型和２个白菜型油菜品种研究了影响子叶外植体芽再生的一些因素和不同基因型的子叶外植体的离子体培养反应和芽再生能力。结果表明,苗龄４ｄ的幼苗叶子含２,４－Ｄ０．５－１．２ｍｇ／Ｌ和６－ＢＡ０．２ｍｇ／Ｌ的培养基培养２或６ｄ后再转到分化培养基上培养,芽再生率３４％－４６％。     

Enhanced shoot organogenesis in Bixa orellana L. in the presence of putrescine and silver nitrate

An efficient protocol for direct shoot organogenesis in Bixa orellana, known as achiote or annatto or Latkhan (India), has been developed. Using nodal shoot-tip explants, significant organogenetic responses, mean shoot number and shoot elongation were observed when these were incubated on Murashige and Skoog (MS) medium containing 6.66 ??M 6-benzyladenine (BA) and 4.9 ??M indole-3-butyric acid (IBA), and supplemented with either 200?C1,500 ??M putrescine or 40 ??M silver nitrate (AgNO₃). Putrescine at 800 and 1,000 ??M promoted the highest mean shoot length and mean shoot number per explant, respectively. Moreover, various concentrations of putrescine induced callus development. Incorporation of a polyamine biosynthesis inhibitor Difluro-Methyl Ornithine (DFMO) inhibited in vitro shoot multiplication and also altered the endogenous polyamine pool of B. orellana shoots. The field survival of in vitro-derived plants of putrescine and AgNO₃ treatments was 70%. This protocol can be used for improving the in vitro regeneration of B. orellana for transformation studies.     

结球白菜下胚轴原生质体培养及其体细胞胚植株再生

结球白菜（Brassica campestris ssp．pekinensis）的原生质体培养由于基因型依赖性强,细胞易褐化,愈伤组织的芽诱导率低等而难于再生植株。本实验以结球白菜的下胚轴原生质体为试材,研究了影响其细胞分裂及愈伤组织形成的因素,探索了经过体细胞胚发生途径获得再生植株的技术。结果表明,试材的基因型及培养基组成影响细胞分裂及褐化;KM8P是结球白菜原生质体培养更适宜的培养基,能显著减轻细胞的褐化;液体培养基中一定浓度的活性炭能在一定程度上减轻细胞褐化进程,并有利于星状细胞团的形成;基因型Asko中,愈伤组织形成体细胞胚的结构,其发生的频率约为5％,该类体细胞胚能全部顺利地发育成完整植株。本技术具有再生植株形成容易、频率较高且通过体细胞胚发生途径等优点。     

AgNO3对大白菜子叶芽再生的促进作用

以大白菜“０２号杂交早皇白”无菌苗的子叶为材料,用附加ＢＡ２．０ｍｇＬ＾－１、ＮＡＡ０．１～１．０ｍｇＬ％－１的ＭＳ培养基培养,能直接放导分化 出芽,最适激素比例为ＢＡ２．０ｍｇＬ＾－１、ＮＡ０．５ｍｇＬ＾－１,芽的分化率为３１．６％,在上述培养基里活加２ｍｇＬ＾－１的ＡｇＮＯ３能使芽的再生频率提高至８６．５％。     

改良菜心离体培养植株再生体系的研究(简报)

菜心(Brassica campestris L.subsp.chinensis Makino var.parachinensis Tsen et Lee)为十字花科芸薹属芸薹种中国白菜亚种中的一个变种,又名“菜薹”。它是我国南方特产蔬菜之一,在蔬菜的周年供应上有重要地位。目前迫切需要培育抗病虫、抗逆和具有其他优良农艺性状的新品种,以提高菜心的     

Genetic and environmental effects on in vitro shoot regeneration from cotyledon explants of Brassica juncea

Twenty-one lines of Brassica juncea were screened for frequency of in vitro shoot formation from cultured cotyledons of 8-day old seedlings. All brown-seeded Indian lines showed good shoot regeneration with 20–50% of cotyledons giving rise to shoots. Very poor shoot regeneration (0–12%) was observed for the predominantly yellow-seeded Chinese/European lines, including two erucic acid-free lines. Germination of seedlings in hydroponic nutrient solution markedly enhanced subsequent shoot regeneration frequency from cotyledons of three Indian lines but had no effect on shoot formation from the recalcitrant Chinese/European lines.     

Applicability of the co-inoculation technique using Agrobacterium tumefaciens shooty-tumour strain 82.139 in silver birch

In the co-inoculation technique, genetic transformation is performed using a mixture of Agrobacterium strains – shoot regeneration is induced by the wild-type strain 82.139, while the transferable genes are provided in a binary plasmid by another, non-oncogenic Agrobacterium strain. The aim of the present work was to study the applicability of co-inoculation under both in vitro and greenhouse conditions for in planta transformation in silver birch (Betula pendula Roth). In addition to the original method, several modifications of the technique including an genetically engineered 82.139 strain harbouring the binary pGUSINT were tested. The co-inoculations resulted in a gall formation frequency of 52–94% with greenhouse seedlings, and 4–63% with tissue-cultured plantlets, the shoot induction percentage varying by 0–13 in the greenhouse and 42–75 in vitro. PCR analysis verified that the majority of the regenerated material was non-transgenic, with a few individuals showing integration of the oncogenic T-DNA. According to the histochemical tests, however, some of the numerous differentiating buds and small shoots on gall tissues were transgenic, and contained the GUS reporter gene. The results show that it would have been necessary to apply selection pressure during differentiation in order to recover shoots transformed with the desired genes from the binary plasmid. The morphology and growth of all the regenerated plantlets was normal, suggesting that the oncogenic T-DNA was not expressed even though it was present. In conclusion, it was possible to obtain transgenic silver birch plantlets using the A. tumefaciens strain 82.139, but the co-inoculation method is not directly applicable as in planta transformation protocol.     

Control of in vitro rooting and plant development in Corymbia maculata by silver nitrate, silver thiosulfate and thiosulfate ion

Plant regeneration and transformation in vitro is often improved by adding silver ion (Ag⁺) to the culture media as AgNO₃ or silver thiosulfate (STS). Ag⁺ reacts with substances to form insoluble precipitates, while thiosulfate (S₂O₃ ²⁻) interferes with these reactions. We studied the implications of silver precipitation and S₂O₃ ²⁻ in the medium for culture development by (1) examining formation of Ag⁺ precipitates from AgNO₃ versus STS in agar gels and their possible dependence on agar type; (2) comparing Corymbia maculata culture responses to AgNO₃ and STS and determining which better suits control of culture development; (3) clarifying whether STS-dependent alterations in culture development are due to Ag⁺ alone or also to a separate influence of S₂O₃ ²⁻. Silver precipitates appeared in aqueous gels of four agar brands supplemented with AgNO₃, but not in Phytagel^™, which remained transparent. No precipitation was observed in gels with STS. Indole-3-butyric acid (IBA)-mediated adventitious root induction and shoot growth were higher in C. maculata shoot tips cultured on gels with STS versus AgNO₃ (6–25 μM Ag⁺). IBA-treated shoot tips exhibited enhanced adventitious root regeneration, accelerated root elongation, increased frequency of lateral root formation, and stimulated shoot growth mediated by 100–250 μM sodium thiosulfate (Na₂S₂O₃) in medium without Ag⁺. The potency of S₂O₃ ²⁻ in facilitating culture development has never been recognized. It is inferred that superiority of STS in stimulating multiple responses of C. maculata culture results from sustained biological activity of Ag⁺ through prevention of its precipitation, and from impact of S₂O₃ ²⁻ on cell differentiation and growth.     

In vitro regeneration of shoot buds and plantlets from seedling root segments of Brassica napus L.

Root segments obtained from aseptically germinated seedlings of Brassica napus cv. Westar were used to optimize conditions for high-frequency shoot bud differentiation. The presence of low kinetin (0.5 M) and relatively high indole-butyric acid (1.0 M) levels facilitated optimum shoot bud differentiation. Modified MS medium (MMS) was superior to the other three basal media tested (MS, B5 and White's). Elevated sodium dihydrogen phosphate levels increased the differentiation of shoot buds. Increasing or decreasing the level of sucrose from 3% reduced the frequency of explants forming shoot buds. Addition of glutamine enhanced both the frequency of responding explants, as well as the number of shoots per responding explant. Root segments from 13-day-old seedlings produced the highest response (58%) in the presence of 100 mg l^-1 glutamine. The position of the segment on the main root, size, and the presence or absence of lateral roots altered the morphogenic response. Sealing of the donor seedling cultures with Parafilm^® instead of Stretch' n seal^® resulted in a higher production of shoot buds, although root segment cultures were not affected by the type of sealing. Spontaneous rooting occurred on all developed shoots.Dedicated to Dr. Friedrch Constabel on the occasion of his 60th birthday     

Medium and genotype factors influencing shoot regeneration from cotyledonary explants of Chinese cabbage (Brassica campestris L. ssp. pekinensis)

Medium conditions for reliable shoot regeneration from cotyledonary explants of Chinese cabbage were examined. Maximum shoot regeneration was obtained in the presence of 5 mg/l BA and 0.5 mg/l NAA. Shoot induction was further improved by the addition of AgNO₃ as well as higher concentrations (1.2–1.6%) of agar in the regeneration medium. When 123 genotypes were tested, a large variation in regeneration frequency was observed, ranging from 95% to 0%. Shoot regeneration frequency was not related to origin and days to maturity of the genotypes. Ethylene production from cultured explants seemed to play an important role in shoot regeneration. Explants of highly responsive genotypes or if cultured on the medium solidified with a higher concentration of agar generally showed low levels of ethylene production. However, AgNO₃, which also enhanced shoot induction, resulted in an increase in ethylene production. The possible interaction between ethylene and shoot regeneration is discussed. Received: 26 September 1997 / Revision received: 6 March 1998 / Accepted: 20 March 1998     

Enhanced shoot regeneration from Brassica campestris by silver nitrate

Summary The morphogenetic response of Brassica campestris genotype R500 to inhibitors of ethylene biosynthesis and action was investigated. A medium containing 1.0 mg.l^–1 NAA, 2.0 mg.l^–1 BAP, and 30 or 60 M AgNO₃ significantly enhanced both the percentage shoot regeneration and the number of shoots per cotyledon expiant. Although callus proliferation occurred on hypocotyl segments, no shoots were formed in response to AgNO₃ with expiants older than five days. Cotyledons older than six days formed shoots only with AgNO₃. Cobalt chloride at 20 and 30 M increased cotyledon shoot regeneration but was inferior to AgNO₃. Hypocotyl segments were unresponsive. Salicylic acid at 25 and 50 M prevented both shoot regeneration and callusing without any obvious toxic effects. Removal of expiants from AgNO₃ after 12 days did not alter the percentage of shoot regeneration but increased the number of shoots per expiant. This response was dependent on the level of BAP. Percentage shoot regeneration and number of shoots per cotyledon explant were not affected by removal of CoCl₂. These results indicate that the poor regenerative capacity of this genotype may be related to ethylene biosynthesis or metabolism.Abbreviations NAA Naphthalene Acetic Acid - BAP 6-Benzylamino Purine - MS Murashige and Skoog Medium     

Effects of light intensity and duration on leaf hydraulic conductance and distribution of resistance in shoots of silver birch (Betula pendula)

Variation in leaf hydraulic conductance (K(L)) and distribution of resistance in response to light intensity and duration were examined in shoots of silver birch (Betula pendula Roth). K(L) was determined on detached shoots using the evaporative flux method (transpiration was measured with a porometer and water potential drop with a pressure chamber). Although K(L) depended on light duration per se, its dynamics was largely determined by leaf temperature (T(L)). Both upper-crown leaves and branches developed in well-illuminated environment exhibited higher hydraulic efficiency compared with the lower crown, accounting for vertical trends of apparent soil-to-leaf hydraulic conductance in canopy of silver birch revealed in our previous studies. K(L) varied significantly with light intensity, the highest values for both shade and sun foliage were recorded at photosynthetic photon flux density of 330 micromol m(-2) s(-1). Light responses of K(L) were associated evidently with an irradiance-mediated effect on extravascular tissues involving regulation of cell membrane aquaporins. Effects of irradiance on K(L) resulted in changes of Psi(L), bringing about considerable alteration in partitioning of the resistance between leaves and branch (leafless shoot stem): the contribution of leaves to the shoot total resistance decreased from 94% at -1.0 MPa to 75% at -0.2 MPa. Treatment with HgCl2 decreased hydraulic conductance of both leaves and branches, implying that condition of bordered pit membranes or shoot living tissues may be involved in responses of xylem conductance to Hg2+.     

Recovery of cryopreserved silver birch shoot tips is affected by the pre-freezing age of the cultures and ammonium substitution

The aim of the present study was to improve the cryopreservation protocol for silver birch (Betula pendula Roth) in vitro shoot tips. The recovery of shoot tips derived from young cultures (shoot tips excised from less than 20-month-old cultures) was significantly better than that from old cultures (shoot tips excised from cultures at least 55 months old) when the standard protocol, i.e. the slow-cooling procedure with PGD as cryoprotectant, was used. The recovery of shoot tips of both ages was, however, improved by substituting KNO₃ for ammonium during cold hardening and post-thaw cultivation. The substitution of ammonium with KNO₃ improved recovery in most of the genotypes, indicating the possibility of developing a cryopreservation protocol applicable to several genotypes.     

Effect of silver nitrate on multiple shoot formation of Virginia-type peanut through shoot tip culture

Summary A protocol for micropropagation of Virginia-type peanut plants, an ancient crop of the New World, is reported. This study was conducted to explore the effect of silver nitrate (AgNO₃), alone or in combination with growth regulators, on multiple shoot formation from shoot tip culture. Incorporation of AgNO₃ into the medium, without growth regulators, induced regeneration of the explants (which did not develop at all in the AgNO₃-free medium), and stimulated the emergence of axillary shoots. When AgNO₃ was added in combination with cytokinins and α-naphthaleneacetic acid (NAA), maximum average shoot number per regenerating explant was recorded (6.3) in Murashige and Skoog (MS) medium containing 33 μM 6-benzyladenine, 5.3 μM NAA, and 23.54 μM AgNO₃. Moreover, AgNO₃ showed a positive and marked effect on both shoot elongation and the reduction of callus proliferation from the basal ends of shoot tips. Following a period of elongation, the shoots were rooted in hormone-free Ms medium, showing no residual effects due to the long-term culture in AgNO₃-containing media. Acclimatization was easily obtained after plantlets were transferred to pots under greenhouse conditions, with 90% survival.     

Influence of silver nitrate (ethylene inhibitor) on cucumber in vitro shoot regeneration

The effect of addition of silver nitrate (AgNO₃) on organogenesis of proximal and distal cotyledon and hypocotyl explants of five cucumber (Cucumis sativus L.) cultivars was investigated. Distal cotyledon and hypocotyl were unresponsive while only poor shoot regeneration was observed in proximal cotyledon and hypocotyl explants of all cucumber cultivars. The addition of different concentrations of AgNO₃ (10, 30 and 50 μM) to the medium, however, induced shoot regeneration in distal cotyledon except Suyo Long cultivar and effectively increased shoot regeneration response as well as the number of shoots per explant in proximal cotyledon and hypocotyl of all cucumber cultivars. This revised version was published online in June 2006 with corrections to the Cover Date.     

Efficient plant regeneration from leaves of rapeseed (Brassica napus L.): the influence of AgNO3 and genotype

Factors influencing reliable shoot regeneration from leaf explants of rapeseed (Brassica napus L.) were examined. Addition of AgNO₃ to callus induction medium was significantly effective for shoot regeneration in all three genotypes initially tested. When 48 genotypes subsequently were surveyed, a large variation of shoot regenerability was observed, ranging from 100 to 0% in frequency of bud formation and from 7.5 to 0 in the number of buds per explant. A significant correlation (r=0.84) was observed between the frequency of bud formation and the number of buds per explant. The shoot regenerability from leaf explants was not related to that from cotyledonary explants (r=0.28). Histological observations showed that an organized structure developed from calluses produced at vascular bundle tissues after 7 days of culture on callus induction medium, and they developed shoot apical meristems one week after transfer onto shoot induction medium. Regenerated plantlets were obtained 2 months after the initiation of culture and they normally flowered and set seeds. No alterations of morphology or DNA contents were observed in regenerated plants and their S1 progenies.     

Effect of cytokinins on shoot regeneration from cotyledon and leaf segment of stem mustard (<Emphasis Type="Italic">Brassica juncea</Emphasis> var. <Emphasis Type="Italic">tsatsai</Emphasis>)

Cotyledon and leaf segments of stem mustard (Brassica juncea var. tsatsai) were cultured on Murashige and Skoog medium supplemented with various concentrations of different cytokinins [6-benzyladenine (BA), N-(2-chloro-4-pyridyl)-n-phenylurea (CPPU), 6-furfurylaminopurine (KT) and thidiazuron (TDZ)] in combinations with different levels of α-naphthalene acetic acid (NAA). The shoot regeneration frequency of cotyledon and leaf segment was dependent on the kinds and concentrations of cytokinins used in the medium, while in most cases cotyledon gave high regeneration frequency than leaf segment. TDZ proved to be the best cytokinin to induce shoot from both cotyledon and leaf segments compared to BA, KT and CPPU. The highest frequency of shoot regeneration was 61.3–67.9 % in cotyledon and 40.7–52.4% in leaf segment respectively when 2.27 or 4.54 μM TDZ was combined with 5.37 μM NAA. Next to TDZ, CPPU was also very suitable to induce shoot formation both in cotyledon and leaf segment. When 1.61 μM CPPU was combined with 2.69 μM NAA, shoot regeneration frequency was 45.0% in cotyledon and 36.4% in leaf segment, respectively. It was also shown that KT and BA affected shoot regeneration from cotyledon and leaf segment, the shoot regeneration was greatly increased when NAA was added together with cytokinins. The efficient and reliable shoot regeneration system was developed in both cotyledon and leaf segments. This regeneration protocol may be applicable to the improvement of this crop by genetic engineering in the future.     

Agrobacterium-mediated genetic transformation of oilseed Brassica campestris: Transformation frequency is strongly influenced by the mode of shoot regeneration

Summary Protocols were developed for efficient shoot regeneration from hypocotyl and cotyledon explants of oilseed Brassica campestris (brown sarson) cv. Pusa Kalyani. These were used for genetic transformation by an Agrobacterium based binary vector carrying neomycin phosphotransferase (npt) gene and -glucuronidase (gus)-intron gene for plant cell specific expression. Transformed plants were recovered from hypocotyl explants at a frequency of 7–13%. Addition of silver nitrate markedly enhanced shoot regeneration in hypocotyl explants under non-selection conditions and was found to be an absolute requirement under selection conditions. Cotyledon explants, inspite of being more regenerative, proved to be highly refractory to transformation. Only two chimeric transformed shoots were obtained from more than 10,000 cotyledons treated with Agrobacterium. In hypocotyl explants, shoot regeneration occurred from the vascular parenchyma both with and without the intervention of callus phase. Only the shoot buds differentiating from callus tissue were positive for GUS activity. In cotyledons, shoot buds originated only directly from the vascular parenchyma, generally at a distance of about 450–625 from the cut surface. Such shoots were negative for GUS activity.