In vitro selection of salt tolerant variants following <Superscript>60</Superscript>Co gamma irradiation of long-term callus cultures of <Emphasis Type="Italic">Zoysia matrella</Emphasis> [L.] Merr.

To study growth in the presence of NaCl, in vitro plantlets regenerated from callus of manilagrass (Zoysia matrella [L.] Merr.) were cultured on regeneration medium supplemented with or without 0.3 M NaCl. The results indicated that growth was significantly inhibited by NaCl, with the leaves becoming relatively shorter and thicker. The differences of in vitro plantlets grown under NaCl stress provided specific criteria for the selection of salt tolerant variants. The 6-year maintained calli were treated with different doses (0, 5, 10, 20, 40, 80, 100, 150, 200, 250, and 300 Gy) of ₆₀Co γ rays. Regeneration rate and regeneration capacity of the calli were highest after treatment with 20 Gy ⁶⁰Co γ rays, 27.08 and 91.67% respectively. When the irradiation dose was increased to 100 Gy, 10.42% of the calli developed shoots, but at 150 Gy, both regeneration capacity and regeneration rate declined significantly, and no shoot was observed after 6 weeks of regeneration. Therefore, 100–150 Gy is the most appropriate irradiation span for inducing somaclonal variation. The irradiated calli were selected in vitro for NaCl tolerance. Five NaCl tolerant variant lines, Ze1, Fv1, Te1, Tw1, Fr1, were selected on subculture medium supplemented with 0.35 M NaCl, then transferred to regeneration medium containing 0.25 M NaCl, and grown in a greenhouse. The dark green colour index (DGCI) was used to identify the amount of injury caused by NaCl treatment. This was significantly higher in four of the lines, Ze1, Fv1, Te1, Fr1 (30.88, 31.17, 30.45 and 37.70%, respectively) compared to the control line (CK), which was regenerated from calli subcultured monthly (27.39%), indicating that watering with NaCl caused less injury in these four lines. These lines had lower proline contents than CK under salt stress. The superoxide dismutase (SOD) activity was higher in Ze1 under control condition and its peroxidase (POD) activity increased significantly under salt stress. With Fr1 catalase (CAT) activity was higher under salt stress. The higher activity of these antioxidant enzymes may contribute to the enhanced salt tolerance of the four plant lines.     

Selection of salt tolerant plants of Nicotiana tabacum L. through in vitro and its biochemical characterization

Sodium chloride tolerant organogenic callus lines of Nicotiana tabacum were developed in vitro on Murashige and Skoog [16] medium supplemented with BA, IAA and different concentration of NaCl. The maximum shoot bud regeneration was achieved from both tolerant and non-tolerant calluses on MS medium supplemented with 1.0 mg/l BA, 0.1 mg/l IAA with or without NaCl within 4 weeks of culture. Standard growth parameters such as fresh weight and dry weight of organogenic callus, growth tolerant index and enzyme activity (peroxidase and catalase) were used as indicators of salt tolerance. The growth tolerance index in the 4-week after the beginning of treatments yielded significant differences among the non-tolerant and tolerant organogenic callus lines. The regenerated shoots were rooted on half-strength MS basal salts supplemented with 2% sucrose but devoid of growth regulator. The regenerated plants from tolerant callus lines were capable of growing in vitro in presence of 175 mM NaCl. SDS-PAGE profile showed that the progenies derived from tolerant sources were tolerant to salt. This investigation may help in the selection and characterization of salt tolerance in plant improvement programme.     

Selection of callus cultures of sugarcane (Saccharum sp.) tolerant to NaCl and their response to salt stress

Stable callus cultures tolerant to NaCl (68 mM) were developed from salt-sensitive sugarcane cultivar CP65-357 by in vitro selection process. The accumulation of both inorganic (Na⁺, Cl⁻ and K⁺) and organic (proline and soluble sugars) solutes was determined in selected and non-selected calli after a NaCl shock in order to evaluate their implication in in vitro salt tolerance of the selected lines. Both salt-tolerant and non-selected calli showed similar relative fresh weight growth in the absence of NaCl. No growth reduction was observed in salt-tolerant calli while a significant reduction about 32% was observed in nonselected ones when both were cultivated on 68 mM NaCl. Accumulation of Na⁺ was similar in both salt-tolerant and non-selected calli in the presence of NaCl. Accumulation of Cl⁻ was lower in NaCl-tolerant than in non-selected calli while proline and soluble sugars were more accumulated in salt-tolerant than in non-selected calli when both were exposed to salt. K⁺ level decreased more severely in non-selected calli than in NaCl-tolerant ones after NaCl shock. The results indicated that K⁺ and Cl⁻ may play a key role in in vitro salt-tolerance in sugarcance cell lines obtained by in vitro selection and that organic solutes could contribute mainly to counteract the negative water potential of the outside medium.     

卫星搭载亚麻后代中PEG和NaCl抗性系的初步筛选

把空间生物学和细胞工程相结合,通过组织培养技术对其离体筛选,得到抗１．２％ＮａＣｌ和３５％ＰＥＧ的愈伤组织,将所得抗性系愈伤组织在２．０ｍｇ／Ｌ６－苄基氨基嘌呤、０．５ｍｇ／Ｌ吲哚乙酸的ＭＳ培养基上分化得到完整的植株。抗性系能在胁迫条件下保持高的生长速度和高效的脯氨酸合成能力,表明空间诱变与组织培养相结合有望可成为筛选抗胁迫变异系的有效途径。     

卫星搭载亚麻后代中PEG和NaCl

把空间生物学和细胞工程相结合,通过组织培养技术对其离体筛选,得到抗1.2% NaCl和35% PEG的愈伤组织。将所得抗性系愈伤组织在2.0 mg/L 6-苄基氨基嘌呤、0.5 mg/L吲哚乙酸的MS培养基上分化得到完整的植株。抗性系能在胁迫条件下保持高的生长速度和高效的脯氨酸合成能力。表明空间诱变与组织培养相结合有望可成为筛选抗胁迫变异系的有效途径。     

In vitro selection of salinity tolerant variants from triploid bermudagrass (<Emphasis Type="Italic">Cynodon transvaalensis</Emphasis> × <Emphasis Type="Italic">C. dactylon</Emphasis>) and their physiological responses to salt and drought stress

A protocol was established for in vitro selection of salinity tolerant somaclonal variations from suspension cultured calli of triploid bermudagrass cv. TifEagle. To induce somaclonal variations the calli were subcultured for 18 months and were then subject to three-round selections for salt-tolerant calli by placing on solid medium containing 0.3 M NaCl for 10 days followed by a recovery for 2 weeks. The surviving calli were regenerated on regeneration medium containing 0.1 M NaCl. Three somaclonal variant lines (2, 71, and 77) were obtained and analyzed. The selected somaclonal lines showed higher relative growth and less injury than TifEagle under salt stress, indicating that they increased salt tolerance. In addition, they had higher relative water content and lower electrolyte leakage than TifEagle after withholding irrigation, indicating that they also increased drought tolerance. The three somaclonal variant lines had higher proline content than TifEagle under normal growth condition. The line 71 had a higher K⁺/Na⁺ ratio, whereas the lines 2 and 77 had higher CAT activity under control and salt stress conditions, indicating that different mechanisms for salt tolerance might exist in these three lines.     

Selection and characterization of mannitol-tolerant callus lines of Vigna radiata (L.) Wilczek

An osmotically (mannitol) tolerant callus line of Vigna radiata (L.) Wilczek has been isolated from callus cultures grown on modified PC-L2 medium supplemented with increasing concentrations of mannitol. The tolerance was stable and retained after growth in the absence of mannitol selection for 2 months. The growth of the tolerant line, in the presence of mannitol (540 mol m^-3) was comparable to that of a sensitive callus line growing in the absence of mannitol. This line not only grew well on media containing up to 720 mol m^-3 mannitol, but also required 450 mol m^-3 mannitol for its optimal growth. Osmotically tolerant callus also showed increased tolerance to NaCl (0–250 mol m^-3) stress as compared to sensitive callus. Accumulation of Na⁺ was lower, and the level of K⁺ was more stable in osmotically tolerant than in sensitive calli, when both were exposed to salt. The free proline content of both tolerant and sensitive calli increased on media supplemented with mannitol or NaCl. However, the proline content of sensitive callus was higher than in tolerant callus in the presence of same concentrations of mannitol or NaCl.Abbreviations NAA -naphthaleneacetic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine     

In vitro recurrent selection of potato: production and characterization of salt tolerant cell lines and plants

A stable salt-tolerant potato cell line, able to grow on media containing 60–450 mM NaCl (i.e. low to high salinity) was selected. Callus grown on 120 or 150 mM NaCl showed higher fresh weights than the rest of the treatments. Replacing NaCl by KCl or Na2SO4 showed that reductions in fresh weight were mainly due to the presence of Na+ ions. When PEG 6000 was added to the medium instead of salt, the salt tolerant cell lines were unable to overcome the PEG-induced water stress. Whole plants, regenerated from salt tolerant callus, exhibited salt stress tolerance as evidenced by their higher fresh and dry weights when watered with 90 mM NaCl, and they also produced more tubers per plant under salt stress. Salt-tolerant plants differed phenotypically from control plants both in terms of leaf shape, tuber flesh and skin colour, which was reddish. In addition, DNA fingerprinting by RAPDs, with 70 different primers, confirmed that the salt tolerant regenerants also differed genotypically from the control, salt sensitive Kennebec potato plants from which they had been selected. This revised version was published online in June 2006 with corrections to the Cover Date.     

Characterization of salt tolerant alfalfa (Medicago sativa L.) plants regenerated from salt tolerant cell lines

Salt tolerant cell lines have been selected from Medicago sativa, by a single step selection process on tissue culture medium containing 1% NaCl. Plants regenerated from these lines show improved salt tolerance compared to parent plants. The regenerated plants are vigorous, have flowered and are self fertile. The cellular salt tolerance characteristic can be passaged through the regenerated plants, since callus cultures initiated from immature ovaries of the salt tolerant regenerated plants are salt tolerant without additional selection on 1% NaCl. Several of these second generation callus cultures have been regenerated to produce vigorous plants which maintain the salt tolerance characteristic. The tolerance phenotype appears dominant in seeds obtained from self fertilization of the tolerant plants. The regenerated salt tolerant plants are therefore a valuable source as genotypes in plant breeding for salt tolerance and isolation, identification and manipulation of genes which confer salt tolerance in alfalfa.Abbreviations SH Schenk and Hildebrandt medium - 2,4-D 2,4-dichlorophenoxyacetic acid     

Effects of salt and proline on Medicago sativa callus

In this study, two cultivars of Medicago sativa (cv. Yazdi and cv. Hamedani) were used for callus production. Calluses were transferred to MS medium containing 0, 30, 60, 90, and 120 mM NaCl and 0, 5, 10 mM proline. After 4–5 weeks dry weight and intracellular free proline of the calluses were measured. The growth of callus in both cultivars decreased with increasing salt concentration. Addition of exogenous proline to the culture medium increased the dry weight and free proline content of callus. The difference between control and treated calluses with 10 mM exogenous proline in the medium was significant. The data obtained from experiments indicated that the responses of two Medicago cultivars was genotype dependent.     

Development of NaCl-tolerant line in Chrysanthemum morifolium Ramat. through shoot organogenesis of selected callus line

Plants were regenerated successfully through shoot organogenesis of a NaCl-selected callus line of Chrysanthemum morifolium Ramat. cv. Maghi Yellow (a salt sensitive cultivar), developed through stepwise increase in NaCl concentration (0-100mM) in the MS medium. The stepwise increase in NaCl concentration from a relatively low level to cytotoxic level was found to be a better way to isolate NaCl-tolerant callus line, since direct transfer of callus to high saline medium was detrimental to callus survival and growth. The selected callus line exhibited significant increase in superoxide dismutase (EC 1.15.1.1), ascorbate peroxidase (EC 1.11.1.11) and glutathione reductase (EC 1.6.4.2) activities compared to control callus (grown in medium devoid of NaCl). Stability of salt tolerance character of the selected callus line was checked by growing the calli in NaCl-free medium for 3 consecutive months followed by re-exposure to higher salinity stress (120mM NaCl). Among different growth regulator treatments, a combination of 5mgl(-1) TDZ (Thidiazuron) along with 0.25mgl(-1) NAA and 0.5mgl(-1) GA(3) was found to be the most effective for shoot organogenesis in selected callus line. The regeneration potential of the NaCl-tolerant callus ranged from 20.8% to 0% against 62.4% to 0% in control callus line. Under elevated stress condition (medium supplemented with 250mM NaCl), selected calli derived regenerants (S1 plants) exhibited significantly higher SOD and APX activities over both PC (positive control: control callus derived plants grown on MS medium devoid of NaCl) and NC (negative control: control callus derived plants subjected to 250mM NaCl stress) plants. In addition, the NC plants showed stunted growth, delayed root initiation, and had lesser number of roots as compared to S1 plants. Based on growth performance and antioxidant capacity, the S1 plants could be considered as NaCl-tolerant line showing all positive adaptive features towards the salinity stress. Further study on agronomic performance of these S1 plants under saline soil condition need to be undertaken to check the genetic stability of the induced salt-tolerance.     

Increased NaCl-tolerance in wheat (Triticum aestivum L. andT. durum desf.) through in vitro selection

Summary Callus cultures were initiated from immature embryos of oneTriticum aestivum and threeT. durum cultivars. Growing morphogenic calli were exposed to different concentrations of NaCl (0, 0.3, 0.5, and 0.7%) added to the culture medium during two subsequent subcultures (4 wk each). The growth rate of the calli was determined by the relative fresh weight callus growth (RFWCG). The callus growth of all investigated genotypes was slightly changed in the presence of 0.3 and 0.5% NaCl, but strongly inhibited by 0.7% NaCl. Selected NaCl-tolerant clones were isolated and plants were regenerated on MS-based regeneration medium without NaCl. The regeneration capacity of the selected calli was highly reduced compared to the control. The highest number of regenerants was scored for cv. Gladiator (T. aestivum). All regenerated plants were morphologically normal and many developed to maturity and set seeds. Seedlings from the R₁ generation of selected and control plants were treated with 0.5% NaCl in vivo in liquid cultures for 6 wk. Salt tolerance of the progenies of selected plants appeared in all cultivars, but those derived from calli grown on medium with 0.7% NaCl showed the highest survival rate.T. aestivum showed higher tolerance to NaCl salinity thanT. durum.     

<Emphasis Type="Italic">In vitro</Emphasis> selection of salt tolerant cell lines in <Emphasis Type="Italic">Solanum tuberosum</Emphasis> L.

Cell lines able to grow on media containing 50, 100, 150 or 200 mM NaCl were established from potato callus cultures by direct recurrent selection or gradual selection. In callus subjected to direct selection only small clusters of cells survived on medium with 150 or 200 mM NaCl, whereas on 100 mM small cell portions appear necrotic. When cell lines were obtained by successive subcultures on media with increased concentrations of NaCl, salt-tolerant calli were more compact and developed a greenish colour free from necrotic areas. The response of calli lines grown on media with NaCl was compared to control line. The NaCl-tolerant calli showed a decrease in relative growth rate and water content, with higher reductions in the 150 mM tolerant callus. Lipid peroxidation was increased in 50 mM and 100 mM NaCl-tolerant calli, while in 150 mM tolerant callus remained similar to 100 mM values. There was a significant increase in ascorbic acid content in 100 mM and 150 mM NaCl-tolerant calli as compared to the 50 mM, that was two-fold the value found in the control. Also, the contents of soluble and insoluble proteins increased in salt-tolerant lines. SDS-PAGE of soluble proteins showed the synthesis of specific polypeptides in the presence of NaCl in culture medium and the synthesis of a new polypeptide.     

The effect of NaCl on proline accumulation in potato seedlings and calli

The effects of salt stress were studied on the accumulation and metabolism of proline and its correlation with Na⁺ and K⁺ content in shoots and callus tissue of four potato cultivars, viz., Agria, Kennebec (relatively salt tolerant), Diamant and Ajax (relatively salt sensitive). Na⁺ and proline contents increased in all cultivars under salt stress. However, K⁺ and protein contents decreased in response to NaCl treatments. The activities of enzymes involved in proline metabolism, Δ¹-pyrroline-5-carboxylate synthetase (P5CS) and proline dehydrogenase (ProDH) increased and decreased, respectively, in response to elevated NaCl concentrations. The changes of P5CS and ProDH activities in more salt sensitive cultivars (Diamant, Ajax) were more than those in the tolerant ones. Then the stimulation of synthesis in combination with a partially increase of protein proteolysis, a decrease in proline utilization and inhibition of oxidation resulted in high proline contents in seedlings and calli under salt stress. In callus tissue, reduced growth and cell size may be partially responsible for high proline accumulation in response to high NaCl levels. However, although the basic proline contents in the seedlings of more salt tolerant cultivars were higher than the sensitive ones, a clear relationship was not generally observed between accumulation of proline and salt tolerance in potato.     

卫星搭载红豆草后代中耐盐细胞系的筛选及鉴定

将红豆草种子搭载于940703返地卫星,经田间繁殖得后代种子,先将种子在1.5%NaCl上筛选、并在该盐浓度下诱导愈伤组织和筛选,在无盐培养基上恢复生长后再在1.2%NaCl上筛选得到耐盐变异系.变异系具有正常的分化能力并表现出对PEG胁迫的交叉抗性.变异系在无胁迫条件下脯氨酸含量较低但在有盐胁迫时具有高效积累脯氨酸的能力.后者可能对红豆草耐盐系更为重要.变异系中脯氨酸的这种合成机理可能是由于一些基因在调控中对水的敏感性改变引起.梯度聚丙烯酰胺凝胶电泳表明耐盐系的SOD和酯酶分别出现175kD和75kD的新形式.说明空间诱变和组织培养相结合可以筛选耐盐变异系.     

Growth, proline accumulation and ion content in sodium chloride-stressed callus of date palm

Summary Growth and physiological responses of date palm. Phoenix dactylifera L. cv. Barhee, callus to salinity stress were examined. Callus induced from shoot tips of offshoots was cultured on Murashige and Skoog medium supplemented with NaCl at concentrations ranging from 0 to 225 mM, in consective increments of 25 mM. Data obtained after 6 wk of exposure to salt have shown a significant increase in callus proliferation in response to 25 mM NaCl the lowest level tested, beyond which callus weight decreased. At 125 mM NaCl and higher, callus growth was nearly completely inhibited. Physiological studies on callus exposed to salt stress have shown an increase in proline accumulation in response to increased salinity. Proline accumulation was correlated to callus growth inhibition. Furthermore, increasing the concentration of NaCl in the culture medium generally resulted in a steady increase in Na⁺ and reduction in K⁺ concentrations. However, at 25 mM NaCl, the only level at which callus growth was significantly enhanced, an increase in K⁺ content was noted, in comparison to the NaCl free control. In response to increasing external NaCl level, the Na⁺/K⁺ ratio increased The Na⁺/K⁺ ratio was positively correlated to proline accumulation and hence callus growth inhibition. This study provides, an understanding of the response of date palm callus to salinity, which is important for future studies aimed at developing strategies for selecting and characterizing somaclonal variants tolerant to salt stress.     

Selection for NaCl tolerance in cell cultures of Medicago sativa and recovery of plants from a NaCl-tolerant cell line

Medicago sativa lines with a high incidence of regeneration were established as suspension cultures and used to select for NaCl tolerant lines. Attempts were then made to regenerate plants from these lines. Regeneration was severely depressed in NaCl tolerant calli and the only plants that were successfully regenerated were from one callus of M. sativa cv. Regen S which grew in 62.5 mM NaCl. Plants from this callus, and new calli derived from the recovered plants, have shown a tolerance to NaCl comparable to calli and plants from the initial seed stock rather than an improved level of tolerance.     

Effect of salt stress on growth and osmotic regulation in Thellungiella and Arabidopsis callus

The response of Thellungiella (Thellungiella holophila) and Arabidopsis (Arabidopsis thaliana) callus to salt stress was investigated. The relative growth rate of Arabidopsis calli decreased with increased levels of NaCl. However, the relative growth rate of Thellungiella calli increased with higher levels of NaCl, reaching maximal growth at 100 mM NaCl, but then subsequently declined. A similar pattern of accumulation of proline, glycine betaine, and total flavonoid was observed; whereas, accumulation of treholase continued to increase with increasing NaCl levels in both Thellungiella and Arabidopsis calli. Overall, with increasing NaCl levels, accumulation of glycine betaine, total flavonoid, and treholase was higher in Thellungiella than in Arabidopsis calli; while, proline and sucrose contents were higher in Arabidopsis than in Thellungiella calli. These results indicated that compatible solutes were involved in the response of plant calli to salt stress, and that the halophyte Thellungiella and glycophyte Arabidopsis selected different compatible solutes to adapt to salt stress environments. X. Zhao and H. J. Tan have contributed equally to the paper.     

Production of sodium-chloride-tolerant Brassica juncea plants by in vitro selection at the somatic embryo level

Summary Somatic embryos, developed from hypocotyl segments of light-grown seedlings of Brassica juncea cv RLM198, were subjected to selection at varying concentrations of sodium chloride (NaCl). Plants were developed from proliferated somatic embryos selected on NaCl-containing medium. The selections were characterized for salt tolerance, esterase isozyme pattern, and proline accumulation. It has been found that: (i) selected tolerant lines showed better root growth, shoot growth, and fresh weight accumulation on salt-containing medium when compared to the control; (ii) salt tolerance was transmitted to the next generation in seed progeny of tolerant plants grown in the absence of exposure to salt; (iii) both the starting material and the tolerant selections accumulated proline, even when grown in salt-free medium. On salt-containing medium, however, the differences in accumulated proline between the control and tolerant lines became more pronounced, and (iv) the patterns of esterase isozymes of two tolerant selections were similar but distinctly different from that of the parental control.