Plant regeneration from protoplasts of Iris germanica L.

Summary Protoplasts were isolated enzymatically from suspension cultures derived from embryogenic calli induced by leaf base culture of Iris germanica. In protoplast culture, the effects of glucose concentration, different sugars and combinations of 2,4-D and KIN on protoplast division and colony formation were examined. N6 medium supplemented with 0.1–1 mg/l 2,4-D, 1 mg/l KIN, 200mg/l casein hydrolysate, 250 mg/l proline, 0.2 M glucose and 20 g/l agarose was suitable for protoplast division and colony formation. When colonies formed were transferred onto hormone-free MS medium, many plantlets were regenerated through somatic embryogenesis. Thus, we could establish a plant regeneration system from protoplasts of I. germanica.Contribution from the Laboratory of Plant Breeding, Faculty of Agriculture, Miyazaki University, Japan, No. 95.     

Indirect Organogenesis through Seedling-Derived Leaf Segments of <Emphasis Type="Italic">Ficus Religiosa</Emphasis> - a Multipurpose Woody Medicinal Plant

The aim of this study is to introduce the suitable protocol for indirect regeneration from seedling-derived leaf segment of Ficus religiosa. The leaf explant successfully produced callus on MS medium containing various concentrations of auxin in combination with BAP. The maximum callus induction (100%) was achieved in MS medium containing 0.5 mg/l 2,4-D plus 0.05 mg/l BAP and MS medium containing 1.5 mg/l NAA plus 0.15 mg/l BAP as well. MS medium consisting of 2,4-D produced yellow-brownish and friable callus (type I) while the yellowish and compact calli (type II) were obtained in MS medium consisting of NAA. On the other hand, MS medium supplemented with IBA formed greenish and compact calli (type Ш). The regeneration rate in type II callus was less than the type I, and there was no shoot induction observed on type Ш calli. MS medium supplemented with 1.5 mg/l BAP in combination with 0.15 mg/l IBA had the highest regeneration frequency (100%) and maximum shoot numbers (5.16) as well as shoot length (2.56 cm) in type I callus. A maximum of 93.33% root induction was observed in MS medium supplemented with 2.0 mg/l IBA plus 0.1mg/l NAA. The plantlets were successfully transferred to the greenhouse. This system could be utilized for large-scale multiplication of Ficus religiosa.     

甘薯胚性细胞悬浮培养系的建立

地甘薯胚性细胞悬浮增减系的进行了研究。将１２个基因的长约０．５ｍｍ的茎尖培养在含有０．２ｍｇ／Ｌ或２．０ｍｇ／Ｌ２，４－Ｄ的ＭＳ培养基上，形成了胚性愈伤组织。胚性愈伤组织的形成率因基因型和２，４－Ｄ深度不同而很大差异，为０－７５．７％。一方面，将胚性愈伤组织继续增减在含有２，４－Ｄ的ＭＳ培养基上，它们形成了处于各发育时期的体细胞胚。将具有体细胞胚的胚性愈伤组织转移到ＭＳ基本培养基上，体细胞胚发育成     

In vitro somatic embryogenesis in turf-type bermudagrass: roles of abscisic acid and gibberellic acid, and occurrence of secondary somatic embryogenesis

Bermudagrass is an important warm‐season turfgrass species that is recalcitrant in regeneration in tissue culture. In a previous report, we observed that somatic embryogenesis of immature inflorescence culture was substantially improved when low levels of 2,4‐dichloro‐phenoxy acetic acid (1 mg/l) and 6‐benzylaminopurine (BAP, 0.01 mg/l) were included in the callus induction medium. The object of this study was to further improve the culture conditions to enhance somatic embryo formation and plantlet regeneration. It was shown that the abscisic acid supplement (2 or 5 mg/l) to the above callus induction medium further enhanced somatic embryogenesis in hybrid bermudagrass (Cynodon dactylon×Cynodon transvaalensis) cv. ‘Tifgreen’. The addition of gibberellic acid (0. 2 mg/l) to the BAP (1 mg/l)‐containing regeneration medium accelerated germination/regeneration of the somatic embryos. Secondary and repetitive somatic embryogenesis, which is rarely reported in monocots, was observed in common bermudagrass (Cynodon dactylon, cv. ‘Savannah’), and a full course of such a development was captured by a periodical microphotography. Scanning electron microscopy further confirmed the observation.     

Plant regeneration from in vitro cultures of cotyledon explants and anthers of Sinapis alba and its implications on breeding of crucifers

Summary Protocols for plant regeneration from cotyledon explant and anther cultures of Sinapis alba have been developed for creating doubled-haploids and somaclonal variation. Among the several cultivars tested in this study, only Arda responded well to in vitro plant regeneration both from anther-as well as cotyledoncultures. Multiple shoot formation in cotyledon explants, which always followed a brief callusing phase, was found to be the best on MS medium with ZEA (1.0mg/l) and NAA (0.1mg/l). Regeneration frequency declined sharply in the absence of auxin or presence of other cytokinins and/or auxin. The frequency of shoot regeneration also declined with reduction in the photoperiod to 16h. On MS + BAP (1.0mg/l) + NAA (1.0mg/l) medium, cotyledonary explants showed profuse callusing, which could regenerate shoots on high ZEA + low NAA/IAA medium. However, it declined with progressing time in culture. Anthers, excised from fresh as well as cold pretreated buds, cultured on 10% sucrose containing MS media with different hormonal constitution, developed calli and/or embryos. Initial culture temperature was important with embryogenesis occurring only in anthers cultured at 30°C for 3 weeks. A high temperature (35°C) treatment was lethal for both callus as well as embryo formation. While BAP + NAA and ZEA + NAA/IAA supported embryogenesis, further plant regeneration from anther-or embryo-callus could be achieved in ZEA + NAA/IAA media. Some of the regenerants flowered already in vitro and had small and sterile flowers. Cytological examination of some of the root differentiating calli indicated the presence of haploid as well as diploid cells. Shoots were rooted during prolonged incubation on the same medium or on transfer to MS (reduced)/ B5 + ZEA + NAA media.     

Improved plant regeneration and in vitro somatic embryogenesis of St Augustinegrass [Stenotaphrum secundatum (Walt.) Kuntze]

St Augustinegrass [Stenotaphrum secundatum (Walt.) Kuntze] is an important warm season turf and pasture grass. In vitro tissue culture of St Augustinegrass could serve as an important mean for its improvement through genetic transformation as well as induced somaclonal variation. To optimize tissue culture conditions for plant regeneration of St Augustinegrass, tissue culture responses of 11 explant tissues and four callus induction/subculture media have been examined. Embryogenic calli with regeneration potential were observed on cultures of early immature embryo [3 days after pollination (DAP)], immature embryo (7–14 DAP), and shoot base of young seedlings. The addition of benzyladenine (BA) in the callus induction/subculture medium enhances callus regeneration ability and does not harm callus induction for immature embryos. The best response came from 7 to 14 DAP immature embryo on MS medium containing 1 mg/l 2,4‐dichlorophenoxyacetic acid and 0.5 mg/l BA. The callus induction and regeneration rates were 97.7% and 47.6% respectively. However, BA supplement reduced callus formation and failed to enhance regeneration for young leaf bases. Scanning electron microscopy revealed that plant regeneration of St Augustinegrass is via somatic embryogenesis.     

Efficient In Vitro Shoot-regeneration Systems in Cassava (Manihot esculenta Crantz)

Two different protocols for in vitro regeneration of cassava using zygotic embryos and nodal axillary meristems have been developed. In both cases, buds were regenerated directly from excised explants without an intervening callus phase after a two-step culture procedure. In cotyledonary explants derived from zygotic embryos, prolific shoot formation occurred within 2—3 weeks on MS medium supplemented with 0.5—5 mg/1 BAP alone or in combination with 0.1 mg/1 NAA. Nodal explants with axillary meristems derived from aseptically grown seedlings or stem cuttings were used to initiate a round compact bulb-like structure on MS medium containing 10 mg/1 BAP. These latter structures, when cultured on MS medium supplemented with 0.1 mg/1 NAA, 1 mg/1 BAP and 0.1 mg/1 GA₃, produced multiple shoots. Somatic embryos isolated at the globular/torpedo stage from zygotic embryo explants were also capable of multiple shoot production on medium with 1 mg/1 BAP. Rooting of regenerated shoots exceeded 95 % in phytohormone-free MS medium. No change in their ploidy levels was observed. Therefore, the protocols developed should be of use in the particle gun and Agrobacterium-mediated genetic transformation of cassava.     

甘薯和Ipomoea lacunosa的种间体细胞杂种植株再生及鉴定

用ＰＥＧ融合法融合甘薯品种高系１４号和近缘野生种Ｉｐｏｍｏｅａ ｌａｃｕｎｏｓａ的原生质体，将融合原生质体培养在含有０．０５ｍｇ／Ｌ２，４－Ｄ和０．５ｍｇ／Ｌ ＫＴ的ＭＳ培养基上，愈伤组织迅速增殖。将其中的７０个愈伤组织培养在添加３．０ｍｇ／Ｌ ＢＡＰ的ＭＳ培养基上，并进一步培养在ＭＳ基本培养基上，获得９株再生植株。过氧化物酶同工酶、酯酶同工酶和ＲＡＰＤ分析表明，其中２株再生植株（ＫＬ１和ＫＬ３）     

Influence of genotype and culture medium on callus formation and plant regeneration from immature embryos of Triticum turgidum Desf. cultivars

Twelve durum wheat cultivars were evaluated for their response to in vitro tissue culture. Zygotic immature embryos were used to induce callus formation using four different Murashige and Skoog‐based media. Each contained 9.05 μM 2,4‐dichlorophenoxy acetic acid but differed in their carbon source (sucrose or maltose) and the presence of NaCl (0 mM or 40 mM). The influence of both genotype and medium on the type and percentage of callus produced was observed. Calli were either compact and frequently embryogenic, or soft and watery. Percentages ranged from 54 to 100%, depending upon genotype and induction medium. All calli were then plated on a regeneration medium containing 20 g/l sucrose, 2.68 μM 1‐naphthaleneacetic acid and 2.22 μ 6‐benzylaminopurine. The regeneration of plantlets was higher from compact than from soft calli, with a strong dependence on genotype and type of induction medium used. MSm induction medium (30 g/l maltose) and MS40s (30 g/l sucrose plus 40 mM NaCl) were best for inducing compact calli, and gave the highest proportion of regenerated plants. The in vitro response (number of total shoots from a compact callus/number of embryos plated) was higher for immature embryos of ‘Baztan’, ‘Bradano’ and ‘Don Pedro’. These cultivars are a good starting material for experiments involving transformation of calli from zygotic immature embryos.     

鲁梅克斯K-1杂交酸模愈伤组织诱导及细胞悬浮系的建立

研究了不同激素组合处理对鲁梅克斯K－1杂交酸模子叶愈伤组织的诱导，试验结果表明，2，4－D配合使用6－BAP时愈伤组织诱导率最高。在附加1.0mg/L2,4-D的液体MS培养基中通过悬浮培养分离出的单细胞，经数次数代后获得良好的悬浮培养体系。     

花生原生质体分离与培养

以花生品种花育20为材料,探讨不同的酶液浓度、酶解时间及渗透压对花生原生质体分离的影响。结果表明:原生质体分离的适宜酶液配比是2%纤维素酶（Cellulase Onozuka RS）、0.2%果胶酶(Pectolyase Y-23),甘露醇渗透压调节剂的浓度为0.7 mol/L,暗处理10 h,叶片原生质体产量为4.86×105/ml,存活率75.6％,愈伤组织原生质体产量为4.97×105/ml,存活率75.4％。将分离的原生质体培养在添加1mg/LNAA和4mg/LBAP的改良MS液体培养基中。培养约2～3d后,细胞开始分裂。然后部分细胞继续分裂,并形成细胞团。培养5～6周后,将培养物转移到添加2mg/L2,4-D和3mg/LBAP的MS液体培养基（pH 5.8）中进行培养。7～8周后,将形成的直径为1～2mm的小愈伤组织转移到添加1mg/LNAA和5mg/LBAP的MS固体培养基上培养,小愈伤组织迅速生长。转移3～4周后,愈伤组织长至7～9mm。     

Continuous Plant Regeneration from Established Embryogenic Cell Suspension Cultures of Italian Ryegrass and Tall Fescue

The suitability of different protocols was compared for entire plant regeneration by somatic embryogenesis, of the forage plants Lolium multiflorum Lam. (Italian ryegrass) and Festuca arundinacea Schreb. (tall fescue). In the first protocol, miniature embryos were used as starting material, while mature seeds were retained in the other two. Whichever the considered protocol, undifferentiated calli were produced on Murashige and Skoog MS medium supplemented with 2,4-D. The calli were subcultured in the dark on solid MS agar medium, containing 5 mg/1 2,4-D (protocol 2) or on solid MS medium followed by transfer to a rotated liquid MS medium with 2 mg/1 2,4-D (protocol 1). In these conditions, induction of somatic embryogenesis occurred, and whole plants were regenerated during a limited lapse of time, upon transfer in the light, to MS medium supplemented with BAP but devoid of 2,4-D. The simultaneous elimination of 2,4-D and transfer to light appeared essential for full regeneration of the plants. Using this characteristic, an additional step was added to a new protocol (protocol 3) in which microcalli, cultured on liquid MS medium containing 5 mg/1 2,4-D, were transferred to the same medium with 2 mg/1 2,4-D, in the dark. In these conditions, the suspensions kept their embryogenic potential for months. In all cases, plantlets were successfully transferred into the soil. An evaluation of the somaclonal variation potential of the plants issued from each protocol is now underway.     

High frequency of plant regeneration from anther culture in flax, Linum usitatissimum L.

The effects of induction medium compositions on flax anther culture were investigated in order to improve the efficiency of callus induction and plant regeneration. Anthers were inoculated onto the modified MS medium supplemented with five different combinations of plant growth regulators. The medium containing the combination of 2mg/l 2,4- dichlorophenoxy-acetic acid (2,4-D) and 1 mg/1 6-benzylaminopurine (BAP) produced a significantly higher number of calli forming shoots/100 responded anthers and a significant increase in overall efficiency of regeneration than the same basal medium containing 1 mg/1 a-naphthalene-acetic acid (NAA) and 2 mg/1 BAP (CK). Among the five levels of thiamin hydrochloride tested, the modified MS medium containing 10 mg/1 thiamin hydrochloride significantly increased the number of calli forming shoots/100 responded anthers and the overall efficiency of regeneration compared with the same basal medium containing 0.1 mg/1 thiamin hydrochloride. Maltose concentration had a significant effect on the percentage of anthers producing call, the number of calli forming shoots/100 responded anthers and the overall efficiency of regeneration. The medium containing 6% or 9% maltose produced the highest overall efficiency of regeneration among the five levels of maltose evaluated. Sucrose concentration significantly affected the number of calli forming shoots/100 responded anthers and the overall efficiency of regeneration, and dramatically affected the frequency of microspore-derived plants and the frequency of spontaneous chromosome doubling in microspore-derived plants. The efficiency of doubled haploid line production obtained in this study appears adequate for applied breeding programmes.     

Intergeneric hybridization between Brassica species and Crambe abyssinica

A protocol for high frequency callus induction and plant regeneration from sunflower (Helianthus annuus L.) anthers is described. Different variables using Murashige & Skoog (MS) basal medium supplemented with 2.0 mg/l α-naphthaleneacetic acid (NAA) and 1.0 mg/l N₆-benzyladenine (BA) were tested for their ability to enhance the frequency of anther callusing and subsequent embryogenesis. Of these, agar concentration, sucrose concentration, carbohydrate source had significant effect on callusing, while differences due to incubation under dark vs light conditions, cold pretreatment of capitula for 1 to 6 days prior to anther inoculation and genotype on callusing were non-significant. However, all these factors exerted highly significant influence on embryogenesis when calli from the various media were transferred to medium supplemented with 0.1 mg/l NAA and 0.5 mg/l BA. With the procedure developed, callusing as high as 100% and embryo formation at a frequency of 44% was achieved. Although complete embryos were formed the frequency of their conversion to whole plantlets was low (14.3%). Hence, the embryogenic pathway was bypassed to obtain multiple shoots by transferring embryogenic calli with developing embryos to MS medium supplemented with 0.5 mg/l BA. Elongated shoots rooted on half-strength MS medium supplemented with 0.5 mg/l NAA. Cytological analysis of embryogenic callus and somatic embryos revealed haploids at a frequency of 30% while that of rooted plants showed haploid regenerants at a frequency of 8.3%. Nevertheless, the frequency of putative haploid plants could be enhanced through mass multiplication using nodal explants of the regenerants. This revised version was published online in August 2006 with corrections to the Cover Date.     

Plant regeneration from protoplasts of Iris hollandica Hort.

The effects of glucose concentrations, different sugars and combinations of 2,4-D and kinetin on cell division and colony formation were examined in cultures of protoplasts isolated enzymatically from suspension cultures of Iris hollandica N6 medium supplemented with 1 mg/l 2,4-D, 1 mg/l kinetin, 200 mg/l casein hydrolysate, 250 mg/l proline, 0.3– 0.5 M glucose and 20 g/l agarose was suitable for cell division and colony formation. When colonies formed were transferred to hormone-free MS medium, many shoots were induced. In addition, when induced shoots were transferred to MS medium with 1 mg/l NAA, root induction was observed. A plant regeneration system from protoplasts of I. hollandica was thus established.     

Plant Regeneration from the Hybridization of Brassica juncea and B. napus Through Embryo Culture

Crosses were made to produce interspecific hybrids between Brassica napus × B. juncea and their reciprocals with the aid of embryo culture techniques. A better response of hybrid embryo culture was obtained from two cross combinations of B. juncea × B. napus (Ames 24521 × Huyou 15 and Vittasso × Zheshuang 72) than from their reciprocals. Embryo culture was more effective in terms of plant regeneration when embryos were cultured in vitro at 15 days after pollination (DAP), while more calli were initiated when embryos were excised and cultured at 10 DAP. A better response was observed on the MS medium with 0.3 mg l^?1 naphthylacetic acid (NAA) + 1.5 mg l^?1 6‐benzylaminopurine (BAP) and with 0.3 mg l^?1 NAA + 2.0 mg l^?1 BAP. Callus formation and plant regeneration on these two media reached 55.43 and 26.65 %, and 66.98 and 24.61 %, respectively.     

Somatic Embryogenesis in Hypocotyl Protoplast Culture of Rapeseed (Brassica napus L.)

By using a system of agirose plating and agarose bead culture, it was possible to induce efficient somatic embryogenesis in protoplast-derived calli of two rapeseed varieties, ‘Ceres’ and ‘Duplo’. Protoplasts were isolated from hypocotyls. For the initial protoplast culture a modified 8P medium was employed containing 2,4D (1.0 mg/l), NAA (0.1 mg/ 1), BAP (0.4 mg/l) and mannitol (7 %). After microcalli were obtained in four weeks, somatic embryos were induced by a two-step method. This involved a modified MS medium containing 2,4D (3.0 mg/l) in the first step and no 2,4D, but BAP (3.0 mg/l) and GA₃ (0.1 mg/l) in the second. This procedure also secured plant regeneration.     

In vitro propagation of Japanese garden iris,Iris ensata Thunb.

Summary Explants of young scapes of Iris ensata were cultured on MS medium with 1 mg/l NAA, 1 mg/l 6-BA, 30 g/l sucrose and 10 g/l agar, and this species was characterized by high variety specificity for callus, shoot and root induction. Among 23 varieties and one wild form tested, Okichidori, Miyukisudare and Meiji-l exhibited a considerable rate of shoot induction, although these induced poorly rooted shoots. In addition, two types of callus induction such as green and white calli were observed, and the induction of green-type calli was significantly correlated with that of shoots. Surprisingly, the only modification, half-strength MS inorganic salts, for the above medium proved to be very effective for shoot induction in the scape culture. For shoots obtained from the scape culture, effects of sucrose concentrations and activated charcoal on root induction were examined by using 1/2 MS with 1 mg/l NAA, 1 mg/l 6-BA, 30 g/l sucrose and 10 g/l agar as the basic medium. The addition of 1% activated charcoal to the media had a marked effect for root induction independent of sucrose concentrations and varieties tested. The in vitro propagation technique of I. ensata is discussed.     

Clonal propagation of Acacia saligna by shoot tip culture

Summary Multiple shoots buds were obtained successfully from shoot tips of Acacia saligna by placing explants into solidified Murashighe & Skoog (1962) medium (MS medium) supplemented with 5.0 to 9.0 mg/L BAP. Sequential culture treatment was highly effective for shoot elongation using MS medium containing 0.3 mg/L BAP and 0.2 mg/L IAA. The shoots rooted best on MS medium supplemented with 2.0 mg/L IBA. Plantlet survival after transfer to soil was more than 90%. The shoot proliferation method described could be used for the mass clonal propagation of selected genotypes.     

In vitro rescue of zygotic embryos of sour orange, Citrus aurantium L., and their detection based on RFLP analysis

Embryo development in vivo has been studied in four Citrus aurantium L. polyembryonic genotypes. Seeds were collected 65, 85, 105, 125 and 220 days after pollination (DAP). None of the immature seeds harvested 65 and 85 DAP contained visible embryos. A single embryo at a more advanced developmental stage was observed in the central position at the micropylar apex of the embryo sac in about 74% of seeds harvested at 105 DAP, while at 125 and 220 DAP the majority of seeds had two or more embryos at the same developmental stage crowded together. Restriction fragment length polymorphism (RFLP) analysis of lowand high-copy-number nuclear DNA was used to distinguish zygotic from nucellar seedlings. Analysis of plantlets derived from in vitro culture of the bigger embryos, located in the central position at the micropylar apex of the embryo sac of seeds harvested at 105 DAP, established that the frequencies of zygotic embryos ranged from 82 to 88%. Media for immature embryo germination in vitro were based on the nutrients and vitamins of Murashige and Skoog (MS) and Murashige and Tucker (MT) media supplemented with various concentrations of sucrose and growth regulators. A total of 76% of globular stage embryos (<0.3mm) germinated on MT medium containing 150 mM sucrose and 14.4 μM gibberellic acid. Heart stage embryos (0.3-0.8 mm) germinated at 95% on MT medium supplemented with 150 mM sucrose and 2.9 μM gibberellic acid. The addition of 500 mg/l malt extract to MS medium increased the germination of early cotyledon stage (0.8-2.0mm) embryos to 98%. The optimum sucrose concentration for embryo rescue was 150 mM for the three embryo developmental stages. The ability to form plants in vitro strongly increased with increasing embryo developmental stage.