Regeneration and characterization of somatic hybrids combining sweet orange and mandarin/mandarin hybrid cultivars for citrus scion improvement

Protoplast fusion between sweet orange and mandarin/mandarin hybrids scion cultivars was performed following the model ??diploid embryogenic callus protoplast?+?diploid mesophyll-derived protoplast??. Protoplasts were isolated from embryogenic calli of ??Pera?? and ??Westin?? sweet orange cultivars (Citrus sinensis) and from young leaves of ??Fremont??, Nules??, and ??Thomas?? mandarins (C. reticulata), and ??Nova?? tangelo [C. reticulata?×?(C. paradisi?×?C. reticulata)]. The regenerated plants were characterized based on their leaf morphology (thickness), ploidy level, and simple sequence repeat (SSR) molecular markers. Plants were successfully generated only when ??Pera?? sweet orange was used as the embryogenic parent. Fifteen plants were regenerated being 7 tetraploid and 8 diploid. Based on SSR molecular markers analyses all 7 tetraploid regenerated plants revealed to be allotetraploids (somatic hybrids), including 2 from the combination of ??Pera?? sweet orange?+???Fremont?? mandarin, 3 ??Pera?? sweet orange?+???Nules?? mandarin, and 2 ??Pera?? sweet orange?+???Nova?? tangelo, and all the diploid regenerated plants showed the ??Pera?? sweet orange marker profile. Somatic hybrids were inoculated with Alternaria alternata and no disease symptoms were detected 96?h post-inoculation. This hybrid material has the potential to be used as a tetraploid parent in interploid crosses for citrus scion breeding.     

Plant regeneration from undeveloped ovules and embryogenic calli of Citrus: Embryo production,germination, and plant survival

Embryogenic cultures were initiated from undeveloped ovules of several polyembryonic Citrus species on a basal medium supplemented with either malt extract, 2,4-D alone, or 2,4-D in combination with BA or daminozide. Primary embryos of all responsive cultivars were harvested directly from ovule cultures; secondary embryo harvests were made from Handin orange ovule cultures and long-term embryogenic callus. Differences were observed among cultivars and treatments in percentage of responsive ovules and total number of embryos produced. The most effective treatment for embryo production varied among cultivars. Embryo germination and plant establishment frequencies were determined for this plant regeneration system. Differences among cultivars with respect to regenerate survival percentage were minimal. Plant regeneration via secondary or long-term callus-derived embryos was as efficient as from primary embryos. Critical factors influencing plant production and survival were the production of normal viable embryos, balanced germination, and successful acclimatization to the external environment.     

Induction of embryogenic callus of loose skin mandarins]

Young ovules from 3 cultivars and undeveloped ovules in mature fruits from 8 cultivars of loose skin mandarin of Citrus were cultured on 4 different media respectively to induce embryogenic calli. Results showed that the combination of EME(MT + 500 mg/L malt extract) and MKT (EME + 10 mg/L KT) media performed well in the induction of embryogenic calli from young ovules; MGS(EME + 1 mg/L GA3 + 40 mg/L sulfate adenine) medium was better than MDB (MT + 0.01 mg/L 2,4-D + 0.1 mg/L BA) medium in inducing calli from the undeveloped ovules, and the darkness was conducive to the induction of embryogenic calli. There was no chromosome number variation in the induced calli. All of the examined cells were diploid with 2n = 2x = 18 chromosomes.     

The effects of low levels of chloramphenicol and methotrexate on somatic embryogenesis inCitrus

Summary The effects of the antibiotics methotrexate and chloramphenicol on somatic embryogenesis inCitrus were evaluated. Relatively low levels (0.1 to 1.0 μg/ml) of these antibiotics did not inhibit embryo production from undeveloped ovules of ‘Key’ lime [C. aurantifolia) (Christm.) Swing.]. Surprisingly, both antibiotics induced the formation of embryogenic callus in these cultures. This is usually a rare event in cultures of undevelopedCitrus ovules, and ‘Key’ lime is especially recalcitrant. The effects of these antibiotics on embryogenic callus appeared to be limited to the induction stage, because there was no consistent effect, either stimulatory or inhibitory, on established, lines of embryogenic callus. Florida Agricultural Experiment Station Journal Series No. 8958. This research was supported in part by a grant to Moore and Cline from the Competitive Grants Office of the SEA, USDA (85-CRCR-1-1623).     

Plant regeneration from embryogenic cell suspensions derived from anther cultures of barley (Hordeum vulgare L.)

Summary We have established embryogenic cell suspension cultures of barley (Hordeum vulgare L. cultivars Igri, Gimpel, Princesse, and Baronesse) from anther-derived embryogenic callus. Suspension cultures of cultivars Igri and Gimpel were regenerable. The most successful cultivar was Igri, from which a number of independent cell lines producing plantlets were established. Plants could be transferred to soil; up to now, 50% of more than 200 regenerated plants were morphologically normal and fertile. The relative frequency of sterile plants increased as suspensions aged. Suspensions older than 1 year produced embryogenic callus but only albino plantlets could be regenerated.     

宽皮柑橘品种的胚性愈伤组织诱导

以宽皮橘3个品种的幼嫩胚珠和8个品种成熟果实中未发育胚珠为试材,采用EME(MT 500mg/L麦芽浸出物)、MKT(EME 10mg/L KT)、MGS(EME 1mg/L GA3 40mg/L硫酸腺嘌呤)和MDB (EME 0.01mg/L 2,4-D 0.1mg/L BA)4种培养基进行胚性愈伤组织诱导,结果表明EME与MKT培养基配合使用有利于从幼嫩胚珠获得胚性愈伤组织;MGS比MDB更有利于成熟果未发育胚珠胚性愈伤组织的诱导;暗培养有利于此诱导过程。经两种途径获得的胚性愈伤组织,染色体数目稳定,均为二倍体2n=2x=18。     

GFP expression as an indicator of somatic hybrids between transgenic Satsuma mandarin and calamondin at embryoid stage

Somatic hybridization was performed via electrofusion between embryogenic suspension-derived protoplasts of transgenic green fluorescent protein (GFP) Satsuma mandarin (Citrus unshiu Marc. cv. Guoqing No. 1) (G1) callus and mesophyll protoplasts of calamondin (Citrus microcarpa Bunge), and three embryoids expressing GFP under UV light were obtained after 60 days of culture. The three embryoids were considered not as diploid cybrids but true allotetraploid somatic hybrids, as it was based on: (1) citrus heterokaryons are generally more vigorous and have higher capacity for embryogenesis as compared with unfused and homo-fused embryogenic callus protoplasts; (2) the callus line of G1 Satsuma mandarin has lost the embryogenesis capacity; and (3) citrus diploid cybrids produced by symmetric fusion always possess nuclear genome of mesophyll parent, and calamondin without GFP gene was used as leaf parent in this study. Subsequent flow cytometry, simple sequence repeat and cleaved amplified polymorphic sequence analysis of one regenerated callus mass and three resulting plants validated this supposition, i.e., the callus was derived from transgenic G1 callus protoplasts, and the three plants were true allotetraploid somatic hybrids possessing nuclear genomic DNA of both parents and cytoplasmic DNA from callus parent. The potential of transgenic GFP citrus callus as suspension parent in citrus somatic fusion to study the mechanism of cybrid formation, create new citrus cybrids, and transfer organelle-encoded agronomic traits was also discussed.     

SOMATIC EMBRYOGENESIS AND PLANT REGENERATION FROM IMMATURE ZYGOTIC EMBRYOS OF MUSCADINE GRAPE (VITIS ROTUNDIFOLIA) CULTIVARS

Embryogenic cell lines of Vitis rotundifolia were produced from immature zygotic embryo explants obtained by culturing ovules, harvested at 20 d postanthesis, for 8 wk and then dissecting embryos from them. Ovules cultured on Nitsch and Nitsch medium with naphthoxyacetic acid and benzyladenine (BA) produced a brown exudate, necessitating three transfers to fresh medium at 2-wk intervals during the 8-wk culture cycle. Zygotic embryos that were subsequently isolated from cultured ovules and placed on the same medium produced a heterogenous callus from which eventually emerged embryogenic cell lines. A higher percentage of ovules from cultivars ‘Dixie’, ‘Fry’, ‘Nesbitt’, and ‘Welder’ produced zygotic embryos (31%–39%) than did those from ‘Carlos’ (3%). A higher percentage of ‘Fry’ ovules produced embryogenic lines from cultured zygotic embryos (6.3%) than did those of the other four cultivars (1%–1.6%). Embryogenic cell lines were white and composed of variably sized cell clusters, somatic embryos, and embryonic tissue embedded in a watery matrix. These lines were maintained for over 1 yr on modified Murashige and Skoog (MS) medium lacking growth regulators by transfer of selected cell clusters every 6 wk. White, opaque somatic embryos grew directly from cell clusters and passed through recognizable developmental stages. Germination was induced by transfer of somatic embryos to MS medium with BA. Although 80%–100% of embryos germinated, plant recovery was low due to poor shoot development.     

Agrobacterium-mediated transformation of embryogenic calluses of Ponkan mandarin and the regeneration of plants containing the chimeric ribonuclease gene

Ponkan (Citrus reticulata Blanco), one of the most important commercial cultivars of mandarin, is very seedy. In this study, the chimeric ribonuclease gene (barnase) driven by an anther tapetum-specific promoter (pTA29) was introduced into embryogenic callus of Ponkan by Agrobacterium-mediated transformation using the bar gene as a selectable marker. In contrast to previous reports, embryogenic calluses were used as the explant for Agrobacterium infection and transgenic plant regeneration. Selection of transformed callus was accomplished using basta. After 3 days of co-culture, calluses were transferred to MT medium with 50 mg/l basta and 400 mg/l cefotaxime. Resistant calluses were recovered and proliferated after three to four subcultures and then regenerated plantlets. A total of 52 resistant plants were recovered, of which 43 were verified to be transformants by polymerase chain reaction amplification of a fragment of the transgene. Southern hybridization of seven randomly selected transformed plants further confirmed their transgenic nature. The potential of this strategy for breeding citrus seedless types is discussed.     

Efficient plant regeneration from embryogenic suspension cultures of sweetpotato

Summary Using 15 Chinese and Japanese cultivars of sweetpotato, Ipomoea batatas (L.) Lam., we succeeded in developing an efficient plant regeneration system from embryogenic suspension cultures. The embryogenic callus derived from shoot apices of the 15 cultivars was used to initiate embryogenic suspension cultures in Murashige and Skoog (MS) medium containing 9.05 μM 2,4-dichlorophenoxyacetic acid (2,4-D). Rapidly proliferating and well-dispersed embryogenic suspension cultures were established. Cell aggregates 0.7–1.1 mm in size from embryogenic suspension cultures were transferred to solid MS medium supplemented with 9.05 μM of 2,4-D and formed embryogenic callus with somatic embryos. The embryogenic callus with somatic embryos was further transferred to MS medium supplemented with 3.78 μM of abscisic acid, resulting in the germination of somatic embryos. Within 20 wk after the initiation, the frequencies of cell aggregates forming plantlets reached approximately 100% for the 15 tested cultivars. These plantlets, when transferred to soil, showed 100% survival. No morphological variations were observed.     

Enhanced resistance to citrus canker in transgenic mandarin expressing Xa21 from rice

Genetic engineering approaches offer an alternative method to the conventional breeding of Citrus sp. ‘W. Murcott’ mandarin (a hybrid of ‘Murcott’ and an unknown pollen parent) is one of the most commercially important cultivars grown in many regions around the world. Transformation of ‘W. Murcott’ mandarin was achieved by direct DNA uptake using a protoplast transformation system. DNA construct (pAO3), encoding Green Fluorescent Protein (GFP) and the cDNA of Xa21, a Xanthomonas resistance gene from rice, was used to transform protoplasts of ‘W. Murcott’ mandarin. Following citrus protoplast culture and regeneration, transformed micro calli were microscopically designated via GFP expression, physically isolated from non-transformed tissue, and cultured on somatic embryogenesis induction medium. More than 150 transgenic embryos were recovered and from them, ten transgenic lines were regenerated and cultured on rooting medium for shoot elongation. Transgenic shoots were micrografted and established in the greenhouse with 3–5 replicates per line. The insertion of Xa21 and GFP was confirmed by PCR and southern blot analysis. GFP expression was verified by fluorescence microscopy and western blot analysis revealed expression of Xa21 although it was variable among transgenic lines, as shown by RT-qPCR. Transgenic plants challenged with the citrus canker pathogen by syringe inoculation showed a reduction in lesion number and bacterial populations within lesions compared to non-transgenic control plants. Transgenic ‘W. Murcott’ mandarin lines with improved canker resistance via protoplast transformation from embryogenic callus with the Xa21 gene from rice are being evaluated under field conditions to validate the level of resistance.     

Establishment of embryogenic callus and high protoplast yielding suspension cultures of sugarcane (Saccharum spp. hybrids)

For 18 sugarcane cultivars, four distinct callus types developed on leaf explant tissue cultured on modified MS medium, but only Type 3 (embryogenic) and Type 4 (organogenic) were capable of plant regeneration. Cell suspension cultures were initiated from embryogenic callus incubated in a liquid medium. In stage one the callus adapted to the liquid medium. In stage two a heterogeneous cell suspension culture formed in 14 cultivars after five to eight weeks of culture. In stage three a homogeneous cell suspension culture was developed in six cultivars after 10 to 14 weeks by selective subculturing to increase the proportion of actively dividing cells from the heterogeneous cell suspension culture. Plants were regenerated from cell aggregates in heterogeneous cell suspension cultures for up to 148 days of culture but plants could not be regenerated from homogeneous cell suspension cultures. High yields of protoplasts were obtained from homogeneous cell suspension cultures (3.4 to 5.2 × 10⁶ protoplasts per gram fresh weight of cells [gfwt^-1]) compared to heterogeneous cell suspension cultures (0.1 × 10⁶ protoplasts gfwt^-1). Higher yields of protoplasts were obtained from homogeneous cell suspension cultures for cultivars Q63 and Q96 after regenerating callus from the cell suspension cultures, then recycling this callus to liquid medium (S-cell suspension cultures). This process increased protoplast yield to 9.4 × 10⁶ protoplasts gfwt^-1. Protoplasts isolated from S-cell suspension cultures were regenerated to callus and recycled to produce SP-cell suspension cultures yielding 6.4 to 13.2 × 10⁶ protoplasts gfwt^-1. This recycling of callus to produce S-cell suspension cultures allowed protoplasts to be isolated for the first time from cell lines of cultivars Q110 and Q138.     

Production and molecular characterization of potential seedless cybrid plants between pollen sterile Satsuma mandarin and two seedy <Emphasis Type="Italic">Citrus</Emphasis> cultivars

Cytoplasmic male sterility (CMS) is known to be controlled by mitochondrial genome in higher plants including Satsuma mandarin (Citrus unshiu Marc.). Citrus symmetric fusion experiments often produce diploid cybrids possessing nuclear DNA from the mesophyll parent and mitochondrial DNA (mtDNA) from the embryogenic callus parent. Therefore, it is possible to transfer CMS from Satsuma mandarin as callus parent to seedy citrus cultivars as leaf one by somatic cybridization. Herein, symmetric fusion technique was adopted to create cybrids for potential seedlessness by transferring CMS from Citrus unshiu Marc. cv. Guoqing No. 1 (G1) to two traditional Chinese seedy citrus cultivars, ‘Shatian’ pummelo (C. grandis (L) Osbeck) and ‘Bingtang’ orange (C. sinensis (L) Osbeck). Flow cytometry analysis showed that 19 plants recovered from G1 + ‘Bingtang’ orange and 17 of 35 plants regenerated from G1 + ‘Shatian’ pummelo were diploid. The remaining plants from G1 + ‘Shatian’ pummelo were tetraploid. The diploid plants from the two combinations were confirmed as true cybrids by simple sequence repeat (SSR) and cleaved amplified polymorphic sequence (CAPS) analysis, with nuclear DNA from their corresponding leaf parent and mtDNA from their common suspension parent, G1 Satsuma mandarin. The remaining plants from G1 + ‘Shatian’ pummelo were identified as somatic hybrids with mtDNA from G1. The chloroplast simple sequence repeat (cp-SSR) analysis revealed somatic hybrid/cybrid plants from the two combinations in most cases possessed either of their parental chloroplast type, and two plants from G1 +‘Shatian’ pummelo and all embryoids analyzed from G1 + ‘Bingtang’ orange possessed chloroplast DNA (cpDNA) from both parents. These results demonstrated that we succeeded in introducing mtDNA from G1 Satsuma mandarin into the two target seedy citrus cultivars for potential seedlessness through symmetric fusion.     

Somatic embryogenesis in Citrus SPP.: Carbohydrate stimulation and histodifferentiation

Summary Somatic embryogenesis from nucellus-derived callus cultures of five cultivars, including three (Caipira, Seleta Vermelha, and Valencia) of sweet oranges (C. sinesis L. Osbeck), Rangpur lime (C. limonia L. Osbeck), and Cleopatra mandarin (C. reticulata Blanco) (lines I and II), were studied. Callus lines maintained on MT medium supplemented with 50 g l⁻¹ sucrose were transferred to MT medium supplemented with different carbohydrate sources: galactose, glucose, lactose, maltose, or sucrose at 18, 37, 75, 110, or 150 mM, or glycerol at 6, 12, 24, 36, or 50 mM. Globular embryos were observed after approximately 4 wk, in several treatments. Cultures of Valencia and Caipira sweet oranges and Cleopatra mandarin (line I) showed high numbers of embryos on medium containing galactose, lactose, and maltose. Histological studies showed somatic embryos in all developmental stages with a normal histodiffeentiation pattern. The other two cultivars (Rangpur lime and Cleopatra mandarin, line II) formed very few embryos, which did not develop further following the globular stage. Some of the abnormalities observed were lack or dedifferentiation of protoderm and absence of apical meristems and procambial strands. Embryos that followed the normal sequence of development were easily converted into plants. Non-embryogenic cultures continued as proliferating callus cultures, eventually forming a few embryos which did not convert into plants. Statistical analyses of the callus response to carbohydrate treatments was done using an overdispersion Poisson model.     

Identification of callus types for long-term maintenance and regeneration from commercial cultivars of wheat (Triticum aestivum L.)

Summary Immature embryos, inflorescences, and anthers of eight commercial cultivars of Triticum aestivum (wheat) formed embryogenic callus on a variety of media. Immature embryos (1.0–1.5 mm long) were found to be most suitable for embryogenic callus formation while anthers responded poorly; inflorescences gave intermediate values. Immature embryos of various cultivars showed significant differences in callus formation in response to 11 of the 12 media tested. No significant differences were observed when the embryos were cultred under similar conditions on MS medium with twice the concentration of inorganic salts, supplemented with 2,4-D, casein hydrolysate and glutamine. Furthermore, with inflorescences also no significant differences were observed. Explants on callus formation media formed two types of embryogenic calli: an off-white, compact, and nodular callus and a white compact callus. Upon successive subcultures (approximately 5 months), the nodular embryogenic callus became more prominent and was identified as aged callus. The aged callus upon further subculture, formed an off-white, soft, and friable embryogenic callus. Both the aged and friable calli maintained their embryogenic capacity over many subculture passages (to date up to 19 months). All embryogenic calli (1 month old) from the different callus-forming media, irrespective of expiant source, formed only green shoots on regeneration media that developed to maturity in the greenhouse. There were no significant differences in the response of calli derived from embryos and inflorescences cultured on the different initiation media. Also, the shoot-forming capacity of the cultivars was not significantly different. Anther-derived calli formed the least shoots. Aged and friable calli on regeneration media also formed green shoots but at lower frequencies. Plants from long-term culture have also been grown to maturity in soil.Florida Agricultural Experiment Station Journal Series No. R-00494     

Establishment of oil palm cell suspensions and plant regeneration

Primary globular callus from immature zygotic embryos and friable embryogenic tissue derived from mature zygotic embryos were used to establish suspension cultures. Callus cultures were established either on modified Y3 or MS medium containing 475–500 M 2,4-D or 250 M picloram and 0.3% (w/v) activated charcoal. Suspension cultures of both cell lines were established in modified Y3 medium containing 10 M 2,4-D. The establishment of cell suspensions from friable embryogenic tissue took only 2 months, in contrast with suspensions from primary globular callus which took 3–5 months to establish. Embryo differentiation was observed only in cell suspensions derived from the friable embryogenic tissue after plating aliquots on regeneration medium. Germinated embryos were recovered and plantlets were successfully established under greenhouse conditions.Abbreviations CET compact embryogenic tissue - FET friable embryogenic tissue - CIM callus induction medium - PGC primary globular callus - 2,3-D 2,4-dichlorphenoxyacetic acid Y3-Eeuwens' medium - MS Murashige & Skoog medium - PVP-40 polyvinylpyrrolidone - KM Kao & Michayluk vitamins - ABA abscisic acid     

An efficient procedure for embryogenic callus induction and double haploid plant regeneration through anther culture of Thai aromatic rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L. subsp. <Emphasis Type="Italic">indica</Emphasis>)

Anther culture is a biotechnology technique that can be used for the production of pure lines. The aims of this investigation were to induce embryogenic callus from major and minor culms of Thai aromatic rice cultivars and to subsequently regenerate double-haploid green plantlets by the application of exogenous polyamines. Embryogenic callus derived from anther culture was successfully induced in varieties KDML105, Homjan (HJ), and Pathumthani 1 (PT1). Production of embryogenic callus from anthers collected from the major culms was greater than those collected from the minor culms, especially in cultivar HJ. Plantlet regeneration in the three rice cultivars was observed from embryogenic callus and was highest, at 12.1%, from variety HJ treated with 0.5 mM spermidine. Plantlet regeneration from anther-derived embryogenic callus was dependent on the plant genotype, the types of exogenous polyamines, and the interactions of these factors. The percentage of haploid plantlets regenerated in PT1, KDML105, and HJ were 68.1%, 70.7%, and 78.5%, respectively. Only haploid plantlets were treated with colchicine for double-haploid production. This investigation has increased the knowledge of both embryogenic callus induction and plantlet regeneration in aromatic rice and has lead to the development of a pure, double-haploid line for the use in rice breeding programs in Thailand.     

Plant regeneration by somatic embryogenesis from callus cultures of sweet sorghum

Tissue culture methods were developed for the induction, maintenance, and regeneration of embryogenic callus in sweet sorghum (Sorghum bicolor) cultivars Keller, Rio, and Wray. No significant differences were observed in production of embryogenic callus in cultures established from developmentally immature or mature embryo explants cultured on LS medium with 2 mg/1 2,4-D plus 0.5 mg/1 kinetin. Prolific callus production did not occur until the third four-week culture period. Long-term maintenance of embryogenic callus was dependent upon the selective transfer of embryogenic callus, with other callus types discarded. High-frequency plant regeneration was achieved and quantified on a fresh weight basis of embryogenic callus.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BA benzyladenine - IAA indoleacetic acid - IBA indolebutyric acid - LS Linsmaier and Skoog basal medium (Linsmaier and Skoog, 1965)     

High frequency plant regeneration from immature ovule-derived embryogenic cell suspension cultures of Chelidonium majus var. asiaticum

Culture conditions for high frequency plant regeneration via somatic embryogenesis in cell suspension cultures of Chelidonium majus var. asiaticum are described. Immature ovules formed embryogenic calluses at a frequency of 40% when cultured on Murashige and Skoog (MS) medium supplemented with 4.52 μM 2,4-dichlorophenoxyacetic acid (2,4-D). The optimum ovule size for embryogenic callus formation ranged from 1 to 1.5 mm in length. Cell suspension cultures were established from embryogenic calluses using MS liquid medium containing 4.52 μM 2,4-D. Upon plating onto MS basal medium, cell aggregates from cell suspension cultures produced somatic embryos which then developed into plantlets. Regenerated plantlets were transplanted to potting soil and grown to maturity in a growth chamber. This revised version was published online in June 2006 with corrections to the Cover Date.     

Regeneration of plants from cryopreserved embryogenic cell suspension and callus cultures of cotton (Gossypium hirsutum L.)

Successful regeneration of cotton (Gossypium hirsutum L.) plants from cryopreserved embryogenic callus and cell suspension cultures is described. The cryoprotectant mixture consisting of a modified Murashige and Skoog (1962) medium with sucrose (5% w/v), DMSO (5% v/v) and glycerol (5% v/v) gave the highest survival rate (70%) from cell suspension cultures cryopreserved in liquid nitrogen after slow cooling (0.5 to 1.0°C/min). A cooling rate of 0.5°C/min provided a satisfactory recovery rate (30%) from cryopreserved embryogenic callus cultures and was superior to a cooling rate of 1°C/min. Regenerated plants from cell suspension and embryogenic callus cultures cryopreserved for more than four years exhibited normal morphology, growth and boll set upon transfer to soil.Abbreviations DMSO dimethylsulfoxide - MS Murashige and Skoog (1962) - MMS modified MS - NAA -naphthaleneacetic acid