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.     

Growth, proline accumulation and water relations of NaCl-selected and non-selected callus lines of Dactylis glomerata L

Sodium chloride-tolerant calli were selected from leaf-derived embryogenic calli of Dactylis glomerata L. on agar solidified medium supplemented with 200 mM NaCl, a concentration lethal to non-selected calli. Growth characteristics, water relations and proline accumulation pattern were compared in selected and non-selected lines. The objective was to gain an understanding of the mechanism(s) of tolerance in the NaCl-tolerant line. Growth in the selected line, as expressed in terms of tolerance index (ratio of fresh wt. on NaCl medium:fresh wt. on NaCl free medium x 100), was greater than that of the non-selected line at all levels of NaCl between 50 and 300 mM. There was no significant difference in proline accumulation in the selected and non-selected lines. Maintenance of turgor by osmotic adjustment was observed in the non-selected line despite decreased growth. In contrast, the selected line lost either the need or the ability to adjust osmotically. There was little or no increase in symplastic osmolality in the selected line when exposed to NaCl. Presumably, selection was made for a salt-excluding tissue that has lost the ability to accumulate solutes and adjust turgor with NaCl stress.     

Growth characteristics and ion contents of non-selected and salt-selected callus lines of highbush blueberry (Vacdnium corymbosum) cultivars Blue Crop and Denise Blue

Non-selected and sodium chloride selected callus lines of Vacdnium corymbosum L.cv Blue Crop and cv. Denise Blue were grown on media supplemented with 0–100 mM NaCl. For both cultivars, fresh weight and dry weight yields were greater in selected lines on all levels of NaCl. Selected lines of Blue Crop displayed better growth than selected lines of Denise Blue at most concentrations of NaCl. Internal Na⁺ and Cl^– concentrations in selected and non-selected lines of both cultivars increased as external concentration was raised. However, selected lines of Blue Crop and Denise Blue accumulated more Na⁺ and Cl^– than non-selected lines. Selected lines of both cultivars maintained higher levels of K⁺ than non-selected lines on all external NaCl levels. Selected lines of Blue Crop had higher levels of Na⁺ and Cl^– than that of Denise Blue. The results suggest Na⁺ and Cl^– accumulation could be a mechanism allowing better growth in selected lines at moderate salinity levels (50–75 mM NaCl).     

Iso-osmotic effect of NaCl and PEG on growth, cations and free proline accumulation in callus tissue of two indica rice (Oryza sativa L.) genotypes

One-month old calli of two indica rice genotypes, i.e., Basmati-370 and Basmati-Kashmir were subjected to two iso-osmotic concentrations (−0.57 MPa and −0.74 MPa) created with 50 and 100 mol m⁻³ NaCl or 10 and 18% solutions of PEG-8000. Both genotypes tolerated only low levels of stress and showed severe growth suppression at −0.74 MPa. The degree of stress tolerance of both genotypes was greater for PEG induced stress than for NaCl induced stress. The relative growth rate of callus was reduced under both stresses, however, the reverse was true for callus dry weight. Sodium (Na⁺) content of the callus tissue was increased only under NaCl induced stress. Salt induced stress reduced K⁺ and Ca²⁺ contents, but the PEG induced stress increased them. Higher levels of stress increased the proline content many folds with more increase being under PEG stress than that under NaCl. Water and osmotic potentials of the callus tissue decreased, whereas turgor potential increased under both abiotic stresses. Overall, Basmati-370 was more tolerant to both NaCl and PEG induced stresses than Basmati-Kashmir, because of less reduction in growth and more dry weight. Moreover, Basmati-370 accumulated higher amounts of cations, free proline, and maintained maximum turgor as compared to Basmati-Kashmir. In conclusion, at cellular level, mechanism of NaCl induced osmotic stress tolerance was found to be associated with more ionic accumulation of inorganic solutes and that of PEG induced osmotic stress tolerance with the accumulation of free proline, as an important osmolyte in the cytosol.     

Effects of salt and osmotic shocks on unadapted and adapted callus lines of tobacco

Growth, viability and proline content of adapted and unadapted calluses of Nicotiana tabacum L. var. Jayasri, affected due to osmotic stresses and particularly to stress-shocks treated with different osmotica like NaCl (ionic-penetrating), mannitol (non-ionic-penetrating) and polyethylene glycol, (PEG) (non-ionic-non penetrating) were studied to evaluate the physiological differences of stress effects. The tissues adapted to a low concentration of NaCl (85 mM) showed low growth with high proline content compared to the tissues adapted to a low concentration of mannitol (165 mM). Proline content was similar in tissues adapted to high concentrations of NaCl (171 mM) and mannitol (329 mM) but growth in the latter case was relatively low. Growth and viability were subsequently correlated with the pattern of retention in or diffusion of proline out of the tissues after shock-treatments. The loss of tissue viability of the adapted calluses was comparatively less than the unadapted callus even after shock-treatments with 1282 mM NaCl and 823 mM mannitol. The former calluses retained the capability of regrowth though at a slow rate. Such adapted tissues also retained more proline. The mannitol-adapted tissues, when shocked with PEG (200 g l-1), showed low viability with more diffusion and a very little retention of proline while, in the unadapted tissue, all the proline was leached out. The results indicated that the effects of different osmotica on plant tissue varied depending upon the physico-chemical nature of the compounds used as stress-inducing-agents, and retention and diffusion of proline was altered when the tissues were shocked with high concentrations of all these compounds. This revised version was published online in June 2006 with corrections to the Cover Date.     

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。     

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。     

Biochemical comparisons of habituated and non-habituated callus lines of Glycine max (L.) cv. Acme

A cytokinin habituated non-organogenic callus line of Glycine max L. cv. Acme, was isolated. Cytokinins were detected in both non- and habituated calli. HPLC analysis indicated that the highest biological activity was associated with compounds that cochromatographed with zeatin and derivatives thereof. Cytokinin-like activity in the habituated callus was higher than in the non-habituated callus. No difference was observed in the ability of the two callus types to metabolise trans-zeatin. The habituated callus however, metabolised N⁶(²-isopentenyl)adenine (iP)at a slower rate than the non-habituated line. The regulation of proline and putrescine levels during the growth cycle was similar in both callus types, although less proline was present in the habituated than the non-habituated callus. In both callus types a decrease in putrescine levels was accompanied by an increase in the proline levels on day 21 of the growth cycle. Neither spermine nor spermidine were detected in either the habituated or non-habituated lines. A comparison of the total RNA levels of the habituated and non-habituated material revealed higher RNA levels in the non-habituated than the habituated line. Two-dimensional gel electrophoresis indicated the presence of 3 polypeptides in the habituated callus on day 13 of the growth cycle. These were not detected in the non-habituated callus, of similar age.Abbreviations Ade Adenine - DTT 1,4-dithiothreitol - IEF isoelectrofocussing - iP N⁶(²-isopentenyl)adenine - NAA -Naphthaleneacetic acid - SDS Sodium dodecyl sulphate     

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,lipid peroxidation,organic solutes,and anti-oxidative enzyme content in drought-stressed date palm embryogenic callus suspension induced by polyethylene glycol

Polyethylene glycol (PEG) can be used in somatic embryogenesis to enhance embryogenic development and improve the success of in vitro culture but PEG also causes osmotic stress in developing embryos. The effects of PEG on embryo growth and development in date palm cell suspension culture and associated antioxidant enzyme activities were evaluated. Callus maintained on MS basal media was transferred to regeneration liquid media supplemented with increasing levels (0–20%) of polyethylene glycol 6000 (PEG) to induce osmotic stress. The degree of embryogenic callus formation, its fresh weight, and the percentage of normal embryo callus shapes were increased with an increase in the level of PEG up to 10%. Total soluble protein (TSP), proline, glycine betaine (GB), total soluble phenol (TSPh), total sugars (TS), and total soluble organic acids (TOA) also increased whereas superoxide dismutase (SOD) activity decreased in response to PEG supplementation. Raising the PEG level increased malondialdehyde (MDA) concentration up to 10% PEG and thereafter decreased. Glutathione reductase (GR) and catalase (CAT) activities decreased at the highest levels of PEG. The proportion of normal embryo developmental shapes were about 50% compared with 20% abnormal shapes at optimum levels of PEG. Proliferation of somatic embryos was influenced by their developmental shapes. Cv. Samani accumulated more organic solutes compared with cv. Sewi in both control and stress inducing media. In contrast, lipid peroxidation, GR, SOD, and CAT activities were significantly higher in cv. Sewi than in cv. Samani indicating that the cv. Samani had the ability to tolerate a higher level of osmotic stress compared to cv. Sewi due to the enhanced osmotic re-balancing within its tissues.     

甘薯愈伤组织对干旱胁迫和盐胁迫的生理反应对比

研究干旱胁迫和盐胁迫对“芦选一号”。日‘薯愈伤组织可溶性蛋白、可溶性糖、脯氨酸含量、SOD活性等的影响,从而在细胞水平上探讨甘薯抵御渗透胁迫的生理机制。并分析甘薯细胞对干旱处理（PEG-6000）和盐处理（NaCl）的反应差异。结果表明,可溶性蛋白质含量在干旱胁迫下缓慢升高,在轻度和中度盐胁迫的生长前期和中期有较大幅度的上升。但后期下降,表明短时间盐胁迫下,Na^＋可能促进可溶性蛋白的合成;MDA在重度干旱胁迫下的含量显著低于重度盐胁迫,而SOD活性显著高于盐胁迫。表明在盐胁迫下细胞膜透性增加的主要原网是膜脂过氧化作用。干旱处理则是PEG-6000脱水的直接结果;重度干旱胁迫下,可溶性糖含量在短期内迅速升高,然后下降,而脯氨酸含量则在胁迫中后期迅速上升。脯氨酸可能有补偿可溶性糖含量降低的作用。     

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     

Effects of salt stress in relation to osmotic adjustment on sugarcane (<Emphasis Type="Italic">Saccharum officinarum</Emphasis> L.) callus cultures

In vitro responses of embryogenic sugarcane (Saccharum officinarum L.; cv. CoC-671) calli stressed with different levels of NaCl (0.0, 42.8, 85.6, 128.3, 171.1, 213.9 or 256.7 mM) were studied. The results showed that a significant decrease in callus growth and cell viability occurred with ≥85.6 mM NaCl. Higher amounts of free proline and glycine betaine were accumulated in NaCl-stressed calli. Although the leached and retained Na⁺ contents increased, the retained K⁺ content decreased with increasing levels of NaCl. Such a mechanism implies that sugarcane can be considered as a Na⁺-excluder. The accumulation of salt ions and osmolytes could play an important role in osmotic adjustment in sugarcane cells under salt stress.     

In vitro screening of rice genotypes for drought tolerance using polyethylene glycol

The aim of the present investigation was to study in vitro somatic embryogenesis and to screen calli for drought tolerance using mature embryos as explants. Mature embryos of three aromatic (Pusa Basmati 1, Pant Sugandh Dhan 17, Taraori Basmati) and one non-aromatic (Narendra 359) indica rice (Oryza sativa L.) varieties were used for developing callus on Murashige and Skoog medium supplemented with 2, 4-dichlorophenoxy acetic acid (2, 4-D) (2.0 mg l⁻¹ for Narendra 359 and 2.5 mg l⁻¹ for Pusa Basmati 1, Taraori Basmati and Pant Sugandh Dhan 17). Screening of calli was done by sub-culturing calli for 15 days on Murashige and Skoog (MS) basal medium supplemented with different concentrations of polyethylene glycol (PEG)-6000 as chemical drought inducer. Callus volume decreased and total proline content was found to be increased significantly with increase in PEG concentration. Narendra 359 showed best response in terms of callus growth at 70 g l⁻¹ of PEG. The highest percentage somatic embryogenesis among selected calli was observed in Pusa Basmati 1 and the lowest in Pant Sugandh Dhan 17. Excellent shooting and rooting (94%) was observed in MS + 0.1 mg l⁻¹ naphthalene acetic acid (NAA) and MS + 2.0 mg l⁻¹ 2, 4-D. Regenerated plants were successfully acclimatized with 98% efficiency in greenhouse and grown under pot conditions up to maturity. It was observed that PEG treated somaclones accumulated more proline, chlorophyll content and developed more tiller and height than normal somaclones. Ten random amplified polymorphic DNA (RAPD) primers were used to amplify genomic DNA of somaclones of different varieties. Level of genetic polymorphism existing among these somaclones indicates that these markers can be used in breeding program for improving varieties through in vitro techniques.     

Influence of some exogenous amino acids on the production of maize embryogenic callus and on endogenous amino acid content

The effects of four exogenous amino acids (proline, glycine, asparagine and serine) on the production of maize embryogenic callus and on its endogenous amino acid content have been investigated. For this purpose, an established embryogenic line of Type 1 callus from the inbred W64Ao2 has been used. From the results it may be concluded that a concentration of proline exceeding 6 mM is negative for the production of embryogenic callus. When proline is eliminated from the medium, other amino acids tested in certain concentrations yield a percentage of embryogenic callus production that exceeds or equals that of proline. The endogenous free proline content in embryogenic callus is significantly higher than that in non-embryogenic callus regardless of proline presence in the medium. The only exception are the glycine-containing media, in which endogenous free alanine of embryogenic callus increases at the expense of endogenous free proline. This study suggest a positive role of endogenous free proline or alanine accumulation in the embryogenic callus production which might be related to an adaptation to the metabolic changes produced by in vitro culture and embryogenesis induction. Furthermore, these results indicate that treatments with amino acids that are different from proline can be used to improve the efficiency of embryogenic callus production from well established maize callus cultures.Abbreviations Ala alanine - Asn asparagine - 2,4-d 2,4-dichlorophenoxyacetic acid - EC embryogenic callus - nEC non-embryogenic callus - Gaba gamma-aminobutyric acid - Glu glutamic acid - Gly glycine - Pro proline - Ser serine     

Antioxidant potential in <Emphasis Type="Italic">Stevia rebaudiana</Emphasis> callus in response to polyethylene glycol,paclobutrazol and gibberellin treatments

The study on Stevia callus has the potential to advance the knowledge of antioxidant mechanisms involved in unorganized cells response to drought stress. The effects of polyethylene glycol (PEG; 0 and 4% w/v) in combination with paclobutrazol (PBZ; 0 and 2 mg l^?1) and gibberellin (GA; 0 and 2 mg l^?1) were studied on Stevia rebaudiana callus. PEG treatment led to an oxidative stress, as indicated by increased H₂O₂ content whose accumulation was prevented with PBZ and GA treatments. All treatments of PEG, PBZ and GA increased the total antioxidant capacity, with the highest antioxidant power in PBZ and GA treatments without PEG. The activity of superoxide dismutase, catalase and ascorbate peroxidase significantly increased in PEG treatment alone or in combination with PBZ and GA. All treatments of PEG, PBZ and GA significantly increased proteins, amino acids and proline contents, with the highest increase in presence of PBZ in medium culture. In contrary to proline, the activity of pyrroline-5-carboxylate synthetase and proline dehydrogenase did not change in response to any of the treatments. Collectively, our results demonstrated that PBZ and GA increased reactive oxygen species scavenging and osmolytes in PEG-treated calli more than PEG treatment alone to alleviate negative effects of PEG on Stevia calli. These findings will enable us to design effective genetic engineering strategies in callus culture to generate some somaclonal variation that may be useful in enhancing drought resistance in Stevia.     

Proline accumulation and sodium sulfate tolerance in callus cultures of Brassica napus L. cv. Westar

Callus cultures of Brassica napus L. cv. Westar were selected which contained 5 – 6 times more proline than unselected callus. Callus pieces from these cultures were able to survive much better after subculture to medium containing 105 mM Na₂SO₄ than unselected callus, or unselected callus cultured on exogenous proline before or during transfer to the salt. Exogenous proline was rapidly absorbed. In unselected callus there was a peak in proline accumulation ca. 2 days after transfer to Na₂SO₄, followed by a decline. In contrast proline accumulation in tolerant callus was linear with time, reaching maximum levels at 8 days. Proline levels induced by exposure to salt were maintained in the absence of stress.Abbreviations DW Dry weight - FW Fresh weight     

Embryogenic callus formation,growth and regeneration in callus and suspension cultures of Miscanthus x ogiformis Honda Giganteus' as affected by proline

The effects of proline additions to culture systems of Miscanthus x ogiformis Honda Giganteus' were investigated. Proline was added in concentrations of 0, 12.5, 25, 50, 100 or 300 mM to the callus induction and suspension culture media containing either Murashige and Skoog or N6 basal salts and 22.6 μM 2,4-dichlorophenoxyacetic acid. Shoot apices and leaves from in vitro-propagated shoots, and immature inflorescences from greenhouse-grown plants were used as explants for callus induction and formation. Suspension cultures initiated from embryogenic callus of immature inflorescences were used to test the effect of proline in suspension cultures. The proline additions affected the formation of embryogenic callus and the growth of suspension cultures. Improvements depended on the proline concentration and the basal salts of the medium. Addition of 12.5 to 50 mM proline to callus induction medium with Murashige and Skoog salts increased embryogenic callus formation on shoot apices and leaf explants while proline had no effect on embryogenic callus formation in medium with N6 salts. Increased growth with increasing proline concentration was obtained in suspension aggregates grown in medium with N6 salts, whereas proline only increased growth of suspension aggregates grown in medium with Murashige and Skoog salts at concentrations of 12.5 or 25 mM. A stimulating effect of proline on plant regeneration was observed in short-term cultures of callus as well as in long-term cultures of suspension aggregates. An optimum proline concentration for plant regeneration was found at 12.5 mM. This revised version was published online in June 2006 with corrections to the Cover Date.     

Cell membrane stability and biochemical response of cultured cells of groundnut under polyethylene glycol-induced water stress

Cell membrane stability (CMS) in suspension cultures of two groundnut cultivars was studied under polyethylene glycol(PEG)-induced water stress. There was a negative relationship between PEG concentration in the medium and membrane stability measured as electrolyte leakage. The CMS values in the cell cultures correlated well with the whole plant tissue and permitted the differentiation of cultivars based on their known response to drought stress. The cell membrane stability was lower (more electrolyte leakage) when cells were grown in culture as compared to the intact plant tissue. Kadiri-3, the drought tolerant cultivar maintained higher CMS than JL-24, the drought susceptible one. With increasing PEG levels the concentration of Potassium in cultured cells declined in both cultivars. However, Kadiri-3 maintained higher K values than JL-24 accompanied with greater cell membrane stability. Total soluble sugars also increased with increasing stress in both cultivars; the increase being higher in Kadiri-3. There was no significant change in the total free amino acids but proline accumulated markedly in both varieties. However, no relationship was found between proline levels and CMS. The results demonstrated that CMS test can also be used under in vitro conditions to differentiate the drought tolerant and susceptible cultivars and the cellular K level has a positive relationship with membrane stability.