Rapid plant regeneration from callus cultures of Plumbago zeylanica

Rapid plant regeneration was achieved in callus cultures derived from leaf and stem explants of Plumbago zeylanica Linn. on MS basal medium supplemented with 4.44 M 6-BA, 1.42 M IAA and 3% (w/v) sucrose. The rate of shoot bud regeneration was positively correlated with the concentration of growth regulators in the nutrient media. The leaf explants were more responsive (82.3%) than the stem explants on medium containing 1.42M IAA in combination with 4.44 M BA. The rate of regeneration was found to maintain the same level for 12 months without loss of vigour. Rooting of the differentiated shoots was achieved in media having 0.57 M IAA with 2% (w/v) sucrose within 10 days of culture. Regenerated plantlets were transferred to soil which grew normally with a survival rate of 90%. This protocol may help in the conservation of the species and selection of variants that may be induced to widen the genetic base of the genus.     

Genotypic and media effects on plant regeneration from cotyledon explant cultures of someBrassica species

Conditions were established for efficient plant regeneration from cotyledon explant calli in different cultivars ofBrassica juncea, B. campestris andB. carinata on Murashige & Skoog's (MS) medium supplemented with various combinations of cytokinins and auxins. Regeneration frequency, however, varied with genotype and the different growth hormone combinations in media. Almost in all species, MS medium with zeatin (1.0 mg 1^-1) and IAA (0.1 mg l^-1) was found to be best for shoot organogenesis followed by the ones containing high kinetin (2.0 mg l^-1) and low IAA (0.02 or 0.2 mg l^-1) concentrations. On these media, the cotyledonary explants invariably underwent callusing followed by multiple shoot formation, which could be separated and subcultured for further propagation. Number of shoots per cotyledon explant cultured varied from 0 to as many as 50. InB. juncea andB. campestris, the regeneration frequency declined sharply in the absence of auxin in medium. BAP in combination with NAA yielded no or a reduced number of shoots. Shoot organogenesis also declined with the reduction in photoperiod from continuous light to 16 hours. Shoots were easily rooted during prolonged incubation on the same medium and whole plants were transferred to pots in the greenhouse and grown to maturity.Abbreviations BAP 6-benzylaminopurine - KIN kinetin - IAA indole-3-acetic acid - MS medium after Murashige & Skoog [8] - NAA -napthaleneacetic acid - ZEA Zeatin     

Culture of Cotyledon and Hypocotyl Protoplasts from True Potato Seedlings in Solanum tuberosum L.

Culture of protoplast using cotyledon and hypocotyl as the donor tissue from true potato seedlings (TPSs) of 3 breeding lines (DTO-33, ND 860-2 and BN 9815-3) of Solanum tuberosum L. was studied. The cotyledons and hypocotyls of TPSs just extended were excised and digested in an enzyme solution containing 1 % cellulase and 0. 5 % macerozyme for 17—20 h after vacuum infiltration of the tissue in the solution. The protoplasts were cultured in an improved liquid medium and transferred onto solid media for callus culture and shoot regeneration. Some factors affecting the efficiency of cotyledon and hypocotyl protoplast culture were studied. The results showed that using the cotyledons and hypocotyls as donor tissues for protoplast isolation and culture in potato, the division frequency of protoplast derived cells was significantly higher than that using the leaves and shoot-tips of the test-tube plantlets: the yield and quality of the protoplast from TPSs cultured under continuous high light intensity (3000 Ix) were much higher than the TPSs cultured under low light intensity (1000 Ix), and no intact protoplast was ever obtained from the TPSs cultured in continuous dark condition. Vacuum infiltration of the cotyledon and hypocotyl segments in enzyme solution before digestion increased protoplast yield. The yield of protoplasts from hypocotyl tissue was significantly higher than from the cotyledon, but there was no significant difference in quality between the protoplast derived from the two tissues. The significance, advantages and shortcomings of using the cotyledons and hypocotyls as the donor tissues for isolation and culture of potato protoplasts are dicussed.     

Salt stress induced biometric and physiological changes in Solanum tuberosum L. cv. Bintje grown in vitro

Potato plants grown in vitro were subjected to different salt stresses by providing the salts NaCl, Na₂SO₄, MgCl₂ and MgSO₄ in different concentrations up to 300 mM. Salinity greatly affected the survival and the rooting of the plants. Shoot and root growth decreased with increasing salt concentrations. Under mild stress conditions, i.e. in conditions where the plant is able to adapt to the stress, the observed decrease was dependent upon the salt used. Under severe stress conditions, however, the decrease of the shoot and root growth was independent of the nature of the ions.     

PEG-mediated transformation of leaf protoplasts of Solanum tuberosum L. cultivars

As an alternative to Agrobacterium-mediated gene transfer, direct transformation of potato (Solanum tuberosum L.) cultivars was achieved by using the Mg²⁺/PEG protocol (Negrutiu et al. 1987) to stimulate DNA uptake into leaf protoplasts. The frequency of kanamycin-resistant clones varied between 1–12% from experiment to experiment independently of the genotype used. A deleterious effect of heat shock treatment (45°C for 5 min.) has been found on colony formation during optimization of the transformation procedure. The Mg²⁺ ion concentration (15–35 mM), the denaturation (100°C, 10 min. right before the treatment) and the form of the plasmid DNA (linear or circular) had no significant effect on the efficacy of the transformation. Application of denatured calf thymus DNA as carrier molecules (at concentration of 50 g ml^-1, however, resulted in a significant decrease in the number of the resistant cell colonies). Sixty to 80 percent of the kanamycin-selected callus tissues regenerated shoots. The presence and expression of the introduced neomycin phosphotransferase neo gene in regenerants with normal morphology and tetraploid chromosome number was proved by biological tests based on rooting and callus formation in the presence of the antibiotic and by NPT enzyme activity assay. Southern analysis revealed the integration of the introduced DNA molecules carrying the neo marker gene, into the genome of potato.     

Influence of salinity on axillary bud cultures of six lowland tropical varieties of potato (Solanum tuberosum)

Axillary bud cultures of six low-land tropical varieties of potato Solanum tuberosum (L. T. 2, 5, 6, 7, 8 and 9) were studied for their response to salinity stress using crude sea salt. Concentrations of 0.8% and above severely inhibited the growth, while decreased growth was observed between 0.4% and 0.6% salt in all the varieties, with occasional shoot tip necrosis and compound leaf formation. A lower concentration of salt (0.2%) was beneficial and increased shoot weight in most varieties. Protein content showed a positive correlation with proline levels, indicating that proline accumulation was due to new synthesis rather than breakdown of existing proteins. Soluble carbohydrates increased in the stem with increasing salt. Roots showed an increase in sodium content while shoots showed increased potassium levels, with increasing salt concentrations. There was a positive correlation between dry weight yields and K/Na ratio. It is apparent that the synthesis of proline, accumulation of soluble carbohydrates as well as increase in potassium and sodium content were all used to adjust the physiology in response to salt stress by the different varieties of potato, with varying degrees, in the present study.     

Influence of growth regulators on plant regeneration from epicotyl and hypocotyl cultures of two groundnut (Arachis hypogaea L.) cultivars

This study was designed to evaluate the effect of phytohormones on plant regeneration from epicotyl and hypocotyl explants of two groundnut (Arachis hypogaea) cultivars. Explants cultured on media with auxins and in combination with cytokinin produced high frequency of callus. After four weeks, callus from these cultures was transferred to medium with cytokinin and reduced auxin, shoot buds regenerated from the cultures. A high rate of shoot bud regeneration was observed on medium supplemented with 2.0 mg/L BAP and 0.5 mg/L NAA. Among the different auxins tested, NAA was found to be most effective, producing the highest frequency of shoot buds per responding cultures. Of the two explants tested, epicotyl was found to be best for high frequency shoot bud regeneration. Multiple shoots arose on MS medium supplemented with BAP or kinetin (1.0–5.0 mg/L) plus IBA (1.0 mg/L), with maximum production occurring at 5.0 mg/L. The elongated shoots developed rootsin vitro upon transfer to MS medium supplemented with NAA or IBA (0.5–2.0 mg/L) and kinetin (0.5 mg/L) for 15 days.In vitro produced plantlets, were transferred to soil and placed in a glasshouse developed successfully, matured, and set seeds.     

Salt Tolerance of Solanum tuberosum L. Overexpressing an Heterologous Osmotin-like Protein

Potato (Solanum tuberosum L. cv. Bintje) was transformed with a cDNA clone encoding an osmotin-like protein. Transgenic and non-transgenic in vitro plants were subjected to NaCl for 3 weeks. The shoot and root development was slightly affected by salinity indicating that the salt condition used was a mild stress. The endogenous proline content of the osmotin-like transformed clone only raised slightly as compared to the non-transformed genotype, where a marked increase in proline content could be observed as a result to salt stress. These data provide evidence for the involvement of osmotin-like proteins in the mechanisms of salt tolerance in potato plants. This revised version was published online in July 2006 with corrections to the Cover Date.     

Influence of proline and hydroxyproline on salt-stressed axillary bud cultures of two varieties of potato (Solanum tuberosum)

Summary The effects of exogenously supplied proline and hydroxyproline on the potato (Solanum tuberosum) varieties L.T.8 and Desiree were studied using axillary bud cultures both in the presence and absence of 0.6% salt stress. In both varieties, the effects of exogenously supplied proline and hydroxyproline at 1.0 mM and 2.5 mM were less severe than 0.6% salt alone. At the same time, the accumulation of proline, protein, carbohydrates, sodium, and potassium were similar. However, when both the salt and proline/hydroxyproline were supplied, proline and hydroxyproline provided some measure of protection against salt stress. It is believed that increased proline levels in L.T.8 and increased carbohydrates in Desiree due to the presence of exogenously supplied proline/hydroxyproline were responsible for the additional protection against salt stress in the axillary bud cultures of these varieties.     

Studies on Plant Regeneration from Mesophyll Protoplasts of Solanum tuberosum L.

Protoplasts from potato mesophyll of two strains (Solannum tuberosum L. cv. Xiao Yie Zi x Duo Zi Bia and Solanum tuberosum L. cv. Wu Meng 601) were induced to callus in culture medium of protoplasts. The callus derived from mesophyll protoplasts were transferred to MS medium with 2 mg/l ZT+0.1 mg/L IAA. Shoots regenerated from the callus were detected after 70 days of culture.The shoots which had grown to a height of 2–3 cm were transferred to MS medium with 0.05 mg/L NAA. Roots were coming out in a few days.Complete plantlets were achieved. Stern segments with 1–2 leaves were then transferred to a mixture of sterilized soil and grown, and produced tuber.     

High-frequency plant regeneration from hypocotyl- and leaf-derived tissue cultures of the tropical pasture legume Stylosanthes humilis

Callus cultures were established from seedling hypocotyls of the tropical pasture legume Stylosanthes humilis H.B.K., and from leaves of in vitro-grown regenerated plantlets and glasshouse-grown plants. Callus was induced on Murashige and Skoog medium, supplemented with 1.0 mg/1 each of benzyladenine and naphthaleneacetic acid, and subcultured on the same medium with 0.5 mg/1 each of the same plant growth regulators. Induction of shoot formation occurred with a number of benzyladenine/naphthaleneacetic acid combinations. With 1.0 mg/1 benzyladenine (no auxin) all hypocotyl-derived calli and 78% (in vitro-grown plantlets) and 56% (glasshouse-grown plants) of the leaf-derived calli could be induced to form shoots. Morphogenetic potential was maintained during five subcultures. The process of induction of shoot formation took generally longer in leaf-derived calli than in those derived from hypocotyls. Most regenerated plants survived transfer to soil and all tested plants nodulated if inocculated with Rhizobium . No morphological abnormalities were observed.     

Long-term multiplication of onion (Allium cepa L.) by cyclic shoot regeneration in vitro

We succeeded in cultivating onion plants in vitro with a high potential for shoot regeneration. The apex must be destroyed or injured to obtain axillary buds. This capacity was restricted to the abaxial base of the youngest sheaths. It was shown necessary to restore plant individuality before further proliferation; this process constituted one cycle. For successive regeneration each cycle was composed of three steps: shoot proliferation in the presence of a cytokinin, shoot individualization and plant development in the absence of growth regulators. Effect of growth regulators on the physiological status of onion plants cultured in vitro is discussed.Abbreviations BA 6-benzyladenine - NAA naphthaleneacetic acid     

Plant regeneration from hypocotyl segments of Lupinus luteus cv. L. Aurea

Complete plants of Lupinus luteus L. cv. Aurea that were regenerated from hypocotyl segments, bloomed, produced seeds and were efficiently nodulated by Bradyrhizobium sp. strains. The highest rates of shoot formation were obtained on A medium plus 1.3% agar with 10.0 M 2-isopentenyladenine (2iP) and 0.11 M naphthaleneacetic acid (NAA); the best rooting was achieved on a medium with 0.5 M NAA plus 0.05 M 2iP. Afterward, plantlets were transferred to either perlite or peat-containing pots and irrigated with a N-free nutrient solution until maturity. Direct rooting of hypocotyls could also be obtained on A medium with 1% agar.     

光质对马铃薯试管薯形成的影响

以两个试管薯形成能力不同的马铃薯脱毒试管苗为材料,研究不同光质(白光、红光、蓝光)对马铃薯试管苗生长和试管薯形成的影响.结果表明：红光下试管苗叶片的净光合速率、可溶性糖含量和生物量最高,试管苗叶片数多.蓝光对试管苗干物质含量和试管苗发育后期的结薯数量以及结薯期提前有明显促进作用,但对试管苗株高有明显抑制作用.白光下试管苗净光合速率和干物质含量最低.不同品种试管薯的形成对光质的要求有一定差异.总之,壮苗培养阶段采用红光,试管薯诱导阶段采用蓝光处理利于提高试管薯产量.     

Effect of protoplast source and media on growth and regenerability of protoplast-derived calluses of Solanum tuberosum L

Freshly isolated mesophyll and suspensions-cell protoplasts of S. tuberosum cvs. Desiree and Maris Piper were cultured in different media i.e. modified MS, V-KM and MS-KM. Protoplast plating efficiencies were higher in MS-KM medium. Resulting protoplast-derived calluses were transferred either onto the medium of Bokelmann and Roest (1983) or that of Lam (1977) for shoot regeneration. Calluses derived from mesophyll cell protoplasts differentiated about 2 weeks earlier than calluses derived from suspension-cell protoplasts. Shoot initiation was also about 2 weeks earlier from calluses subcultured onto the former medium as compared to the latter.     

Growth-inhibitory volatile aromatic compounds produced by Solanum tuberosum tubers

Some of the aromatic compounds evolved by stored potato tubers have been identified by combined GLC-MS. Of the identified compounds, benzothiazole, 1,4-dimethylnaphthalene and 1,6-dimethylnaphthalene are comparatively potent inhibitors of sprout growth in the potato tuber. The growth suppressing activity of the two dimethylnaphthalenes is comparable with that of isopropyl-(N-3-chlorophenyl)-carbamate, which is used commercially in potato storage.     

Metabolite profiling of potato (Solanum tuberosum L.) tubers during wound-induced suberization

Suberin is a specific cell wall-associated biopolymer characterized by the deposition of both a poly(phenolic) domain (SPPD) associated with the cell wall, and a poly(aliphatic) domain (SPAD) thought to be deposited between the cell wall and plasma membrane. In planta, suberin functions to prevent plants from desiccation and pathogen attack. Although the chemical identity of the monomeric components of the SPPD and SPAD are well known, their concerted biosynthesis and assembly into the suberin macromolecule is poorly understood. To expand our knowledge of suberin biosynthesis, a GC/MS-based metabolite profiling study was conducted, using wound healing potato (Solanum tuberosum L.) tubers as a model system. A time series of both non-polar and polar metabolite profiles were created, yielding a broad-based, dynamic picture of wound-induced metabolism, including suberization. Principal component analysis revealed a separation of metabolite profiles according to different suberization stages, with clear temporal differences emerging in the non-polar and polar profiles. In the non-polar profiles, suberin-associated aliphatics contributed the most to cluster formation, while a broader range of metabolites (including organic acids, sugars, amino acids and phenylpropanoids) influenced cluster formation amongst polar profiles. Pair-wise correlation analysis revealed strong correlations between known suberin-associated compounds, as well as between suberin-associated compounds and several un-identified metabolites in the profiles. These data may help to identify additional, as yet unknown metabolites associated with suberization process.     

An efficient cryopreservation procedure for potato (Solanum tuberosum L.) utilizing the new ice blocking agent, Supercool X1000

Cryopreservation has been recognized as a practical and efficient tool for long-term storage of vegetatively propagated plants. This study was conducted to investigate effects of modified vitrification techniques on cryopreservation of potato. In vitro plants of potato cultivars Superior and Atlantic were cold acclimated, and axillary buds were precultured, osmoprotected, exposed to PVS-2 solution, plunged into liquid nitrogen, thawed, and finally planted in the regeneration medium. In the modified vitrification technique an ice-blocking agent, Supercool X1000, was added with PVS-2 solution. Cold acclimation affected survival of cryopreserved shoot tips, and the highest survival (46.7%) was obtained after 3 weeks of acclimation at 10°C. Shoot tips exposed to 2M glycerol plus 0.6M sucrose for 40 min gave 51.5% and 11.7% survival in Atlantic and Superior at 10°C, respectively. Cold acclimated and osmoprotected shoot tips were dehydrated with PVS-2 containing different concentrations of Supercool X1000 prior to a plunge into liquid nitrogen. Treatments with 0.1% and 1% of Supercool X1000 significantly improved survival by 55% in Superior and 71.3% in Atlantic, respectively. After cryopreservation, vitrified shoot tips resumed growth within a week in a medium (1 mg l^–1 GA₃, 0.5 mg l^–1 zeatin, and 0.1 mg l^–1 IAA) with a low level of Pluronic F-68 (0.005%) and survival was 33.7% higher in Atlantic and 14.7% higher in Superior than the control (without Pluronic F-68).     

Effect of chlorocholine chloride sprays on the carbohydrate composition and activities of sucrose metabolising enzymes in potato (Solanum tuberosum L.)

Chlorocholine chloride (CCC) was sprayed on a potato crop 25 days after sowing (DAS) at 5 day intervals for a total of 7 sprays. Activity of sucrose synthase (SS) in the sucrose cleavage direction was many fold higher than that of acid invertase in all the tissues. The activity of alkaline invertase was negligible. A sharp decline in the starch content of stolons of the CCC-sprayed crop was observed between 60 DAS and 70 DAS. This could divert the carbon towards tubers and thus enhancing its availability for starch synthesis. The CCC-treated crop, in general, had higher SS (cleavage) activity in stem, stolons and tubers. A higher sucrose content in the stem of the CCC-treated crop could be due to the high sucrose phosphate synthase (SPS) activity observed in this plant part. In tubers of CCC-treated crops a higher SS (cleavage) activity along with a high sucrose content in tubers during the active tuber filling stage could lead to better availability of UDP-glucose for its conversion to glucose-1-phosphate, which could enter into the amyloplast leading to higher starch content. High SPS activity in tubers of CCC-treated plants ensures that reducing sugars formed are reconverted efficiently to sucrose. The efficiency of developing tubers from CCC-sprayed plants to convert 14C sucrose fed through stolons into starch was about 2.5 times more than in the control.     

Plant regeneration from the protoplasts of Solanum tuberosum, S. nigrum and S. bulbocastanum

The mesophyll protoplasts were isolated from the Solanum tuberosum (S. tbr) clones of different ploidy level (4x Bzura cv., 2x H-8105, and 2x ZEL-1136) as well as from the wild species: S. bulbocastanum (S. blb, 2x) and two accessions of S. nigrum (S. ngr, 6x). Additionally, the protoplasts were isolated from the cell suspensions of Bzura cv. and H-8105 clone. The conditions of protoplast isolation as well as the media for their culturing and regeneration, were selected and optimized for the studied genotypes. For mesophyll protoplasts, the shooting calli were produced by all the cultured protoclones except that of S. bulbocastanum. The shoots excised from the protoplast-derived calli developed into whole plants in all the studied potato clones but only in one accession of S. nigrum, i.e. S. ngr var. gigantea. As for suspension-cell-derived protoplasts, only H-8105 clone produced the regenerative type of calli, though normal shoots could not be obtained. The regenerative capacity of the protoplasts isolated from leaves and cell suspensions is compared and discussed. We regret to report the death of M. Sc. Maria Borkowska after the completion of this work.