Comparison between a Stable NaCl-Selected Nicotiana Cell Line and the Wild Type : K, Na, and Proline Pools as a Function of Salinity

An NaCl-resistant line has been developed from suspension-cultured tobacco cells (Nicotiana tabacum/gossii) by stepwise increases in the NaCl concentration in the medium. Resistance showed stability through at least 24 generations in the absence of added NaCl.

Above an external NaCl concentration of 35 millimolar, proline concentration in the selected cells rose steeply with external NaCl, particularly so above 100 millimolar NaCl. Proline accumulation in the wild type was far slighter. Selected cells which had been grown for 24 generations in the absence of added NaCl accumulated proline strongly on re-exposure to NaCl medium, indicating stability of this character. Proline accumulation was fully reversible with a half-time of about 6 hours. When selected cells were transferred sequentially to lower and lower NaCl concentrations, their proline content fell to the level corresponding to the new NaCl concentration. The NaCl-selected cells responded to water stress (i.e. added mannitol) by accumulating markedly more proline than did the wild type.

The addition of Ca²⁺ to the growing and rinsing media minimized Na⁺ and K⁺ binding in the Donnan free space of cell walls and thus allowed assessment of intracellular Na⁺ and K⁺. In both cell types, internal Na⁺ content rose steadily as a function of external NaCl concentration. In the course of 7 days in NaCl media, the wild type cells lost a considerable part of their K⁺ content, the extent of the loss increasing with rise in external NaCl concentration. The selected cells, by contrast, lost no K⁺ at external NaCl concentrations below 50 millimolar external NaCl, and at higher concentrations lost less than the wild type.

     

Selection, characterization and regeneration of hydroxyproline-resistant cell lines of Solanum tuberosum: Tolerance to NaCl and freezing stress

Sixty-seven hydroxyproline-resistant (hyp^r) cell lines were selected from cell suspensions of a diploid potato ( Solanum tuberosum L., clone H²578) after plating on 5 and 10 m M hydroxyproline (hyp). Resistant colonies were obtained with a spontaneous frequency of 2.9×10⁻⁶. No clear influence could be shown from treatment with N-ethyl-N-nitrosourea (10 or 50 μ M ). Ninety % of the variant lines contained more proline than the wild type when cells were grown away from hyp for 1 month. Total free amino acid content was increased 2.2 to 6.8 times. When the lines were grown for another 2–5 months on non-selective medium, the content of proline and other amino acids and hyp resistance decreased. After this period the values were, however, still substantially higher than in the wild type. When tested for growth on media with other amino acid analogues (azetidine-2-carboxylic acid and dehydroproline, analogues of proline; aminoethyl-cysteine, analogue of lysine and 3-fluorotyrosine, analogue of tyrosine) and on media with inhibitory concentrations of lysine + threonine. lines H4a and H4b4 were cross resistant to these compounds. When tested on media with inhibitory NaCl concentrations, variant lines H2a, H4a, and H6 showed better tolerance than the wild type. One variant cell line (H4a) was successfully regenerated into plants. Preliminary results showed an increased frost tolerance in the leaves of these plants (−4.5°C compared to −3°C for the wild type), accompanied by a higher leaf proline content. Callus initiated from leaves of the regenerated clones was more resistant to hyp than wild type callus, indicating that the variant trait might be due to a mutation.     

Over-expression of Osmotin Induces Proline Accumulation and Confers Tolerance to Osmotic Stress in Transgenic Tobacco

Osmotin has been implicated in conferring tolerance to drought and salt stress in plants. We have over-expressed the osmotin gene under the control of constitutive CaMV 35S promoter in transgenic tobacco, and studied involvement of the protein in imparting tolerance to salinity and drought stress. The transgenic plants exhibited retarded leaf senescence and improved germination on a medium containing 200mM NaCl. Further, the transgenics maintained higher leaf relative water content (RWC), leaf photosynthesis and free proline content than the wild type plants during water stress and after recovery from stress. When subjected to salt stress (200mM NaCl), the transgenic plants accumulated significantly more proline than the wild type plants. These results suggest the involvement of the osmotin-induced increase in proline in imparting tolerance to salinity and drought stress in transgenic plants over-expressing the osmotin gene.     

红豆草抗羟脯氨酸变异系原生质体培养后愈伤组织的抗性特征

通过NaN3诱变得到的红豆草抗羟脯氨酸（Hyp）变异系,在酶液中游离原生质体进行培养,获得再生植株。在含不同浓度NaCl、羟脯氨酸或PEG的MS培养基上,原生质体来源抗性意伤组织中的游离脯氨酸含量在1周之内均急剧增加,随后开始下降,3周后接近正常水平。随着胁迫程度的提高,抗性愈伤组织中游离脯氨酸含量呈递增趋势,生长速度呈递减趋势。     

Isolation and Characterization of Sodium Chloride-Resistant Callus Culture of Vigna radiata (L.) Wilczek var. radiata

Callus cultures were initiated from seedling root segments ofmungbean (Vigna radiata (L.) Wilczek var. radiata) cv. K 851on modified PC-L2 basal medium. Growing cells were exposed toincreasing concentrations of NaCl in the medium. A concentrationof 300 mol m^–3 NaCl proved completely inhibitory to growthof the calli. On incubation for 25 d, cells which could toleratethis concentration of NaCl grew to form cell clones. Selectedclones were characterized with regard to their growth behaviour,K⁺, Na⁺ and free proline content when grown under stress aswell as on normal media and were compared with the normal sensitivecallus. The selected callus was capable of growing on mediumcontaining NaCl at the inhibitory concentration. The K⁺ contentof the selected callus was lower in the case of the NaCl mediumthan for the normal medium. However, the selected clones maintainedhigher K⁺ and Na⁺ levels, with increased salinization comparedwith the wild-type cells. Salt-selected cells accumulated higherlevels of free proline under NaCl stress compared to wild-typecells. Under normal conditions, however, the amounts of freeproline in selected and non-selected calli were comparable. Key words: Vigna radiata, callus culture, NaCl stress     

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.     

Metabolism of polyamines in NaCl-resistant cell lines from Nicotiana sylvestris

The polyamine titers in three cell lines of Nicotiana sylvestris were compared: Type 1, rapidly adapting to NaCl; Type 2, constantly resistant to NaCl; Type 3, a saltsensitive wild strain. During short-term cultivation in MS medium in the presence of 170 mM NaCl (1 passage, 14 d) the changes in polyamine titer in cell suspensions of type 1 (in a slightly adapted state) and non-adapted wild strain (type 3) showed a considerable increase in spermidine and spermine and a decrease in putrescine. After prolonged adaptation to NaCl (20 passages) the putrescine content in the cells of type 1 and of type 2 was increased at the expense of the polyamines. This suggests that the pattern of polyamine titer varies under short- and long-term adaptation to NaCl. The inverse ratio between growth processes and changes in polyamine and proline level indicates that polyamines fulfil primarily a protective and osmorepulatory function in plant cells under NaCl stress.     

Characterization of an NaCl-sensitive Staphylococcus aureus mutant and rescue of the NaCl-sensitive phenotype by glycine betaine but not by other compatible solutes.

To further study mechanisms of coping with osmotic stress-low water activity, mutants of Staphylococcus aureus with transposon Tn917-lacZ-induced NaCl sensitivity were selected for impaired ability to grow on solid defined medium containing 2 M NaCl. Southern hybridization experiments showed that NaCl-sensitive mutants had a single copy of the transposon inserted into a DNA fragment of the same size in each mutant. These NaCl-sensitive mutants had an extremely long lag phase (60 to 70 h) in defined medium containing 2.5 M NaCl. The osmoprotectants glycine betaine and choline (which is oxidized to glycine betaine) dramatically shortened the lag phase, whereas L-proline and proline betaine, which are effective osmoprotectants for the wild type, were ineffective. Electron microscopic observations of the NaCl-sensitive mutant under NaCl stress conditions revealed large, pseudomulticellular cells similar to those observed previously in the wild type under the same conditions. Glycine betaine, but not L-proline, corrected the morphological abnormalities. Studies of the uptake of L-[14C]proline and [14C]glycine betaine upon osmotic upshock revealed that the mutant was not defective in the uptake of either osmoprotectant. Comparison of pool K+, amino acid, and glycine betaine levels under NaCl stress conditions in the mutant and the wild type revealed no striking differences. Glycine betaine appears to have additional beneficial effects on NaCl-stressed cells beyond those of other osmoprotectants. The NaCl stress protein responses of the wild type and the NaCl-sensitive mutant were characterized and compared by labeling with L-[35 S]methionine and two-dimensional gel electrophoresis. The synthesis of 10 proteins increased in the wild type in response to NaCl stress, whereas the synthesis of these 10 proteins plus 2 others increased in response to NaCl stress in the NaCl-sensitive mutant. Five proteins, three of which were NaCl stress proteins, were produced in elevated amounts in the NaCl-sensitive mutant under unstressed conditions compared to the wild type. The presence of glycine betaine during NaCl stress decreased the production of three NaCl stress proteins in the mutant versus one in the wild type.     

NaCl 胁迫下小麦突变体和野生型叶片中一些有机溶质累积和基因表达差异

盐胁迫下突变体和野生型叶片中的脯氨酸累积量均有显著的增加,野生型的增加幅度不及突变体。至９６ ｈ ,两者含量均下降,但突变体的脯氨酸含量仍高于野生型。１００ｍ ｍｏｌ／Ｌ的ＮａＣｌ 胁迫７２ ｈ ,突变体叶片中可溶性糖的含量有显著的增加,增加量随盐浓度增加而降低。至９６ ｈ,各个盐浓度处理的突变体可溶性糖的含量基本恢复到其对照的水平;除１００ ｍｍｏｌ／Ｌ 盐胁迫处理组外,野生型叶片中可溶性糖含量均大幅度下降。盐胁迫下突变体和野生型叶片细胞可溶性蛋白组分有明显的差异。ｍＲＮＡ 差异显示结果表明,突变体有６ 个差异性的ｃＤＮＡ 片段     

外界高渗环境对枯草芽孢杆菌胞内自由脯氨酸含量的影响

枯草芽孢杆菌(93151)在基本培养基中培养,可耐受高达8%NaCl浓度,而在10%NaCl条件下96h内未见生长。随胞外NaCl浓度的增加,其胞内自由脯氨酸的含量相应明显增加,在8%NaCl浓度下胞内脯氨酸含量可达2.944mg·g-1干细胞重,与无NaCl条件下相比,增加了1572%,而对照菌大肠杆菌仅可耐受4%NaCl浓度,并且在不同NaCl浓度下,胞内脯氨酸含量变化不明显。     

红豆草抗羟脯氨酸变异系的筛选及其特性研究

通过选择-NaN_3诱变处理-再选择的程序从红豆草下胚轴愈伤组织获得了抗脯氨酸类似物L-羟脯氨酸的变异细胞系。抗性变异细胞系的游离脯氨酸含量比正常细胞系高4.6倍,并且抗性变异系亦表现出了很强的耐NaCl、PEG 能力。这可能为筛选抗逆境植物提供一条有效途径。     

In vitro characterization of salt stress effects and the selection of salt tolerant plants in rice (Oryza sativa L.)

Summary The response of plant cells to salt stress was studied on embryo derived calli of rice (Oryza sativa L.) in order to identify cellular phenotypes associated with the stress. The feasability of selecting salt tolerant callus and its subsequent regeneration to plants was also studied. Callus was grown on agar-solidified media containing 0%, 1% and 2% (w/v) NaCl for 24 days. Parameters such as fresh weight, dry weight, soluble protein and proline content were measured. The callus growth decreased markedly with increasing NaCl concentration in the medium. The proline content was enhanced several fold in salt stressed calli. A prolonged exposure of callus to the salt environment led to discolouration and arrested growth in the majority of the calli and only a small number of callus cells maintained healthy and stable growth. These variants were subcultured every three weeks for a period of four months onto medium containing 1% NaCl to identify tolerant lines. At the end of the third cell passage, the tolerant calli were transferred to regeneration medium to regenerate plants. The regeneration frequency in the salt-selected lines was enhanced when compared to unselected lines.     

Evaluation of Abiotic Stress Resistance in Mutated Populations of Cauliflower (Brassica oleracea var. botrytis)

An efficient in vitro screening method has been developed for cauliflower to create NEU and NMU induced mutant lines selected on hydroxyproline containing medium. Mutant lines and control plants were sub-cultured many times on maintenance medium and stored at 5°C for 2 years and then tested for salt and hydroxyproline resistance as in vitro and in vivo plants. In vitro shoot tips were also sub-cultured to media containing hydroxyproline and NaCl for 28 days and then assessed for their leaf proline content. Non-acclimated and acclimated in vivo plants were also assessed for resistance to freezing. Populations of control and selected lines were created by mass pollination and subsequently tested for their NaCl and frost resistance. Control plants had little or no NaCl or hydroxyproline resistance whilst selected plants showed varying degrees of resistance. In vitro and in vivo responses of selected lines were correlated. Leaf proline content was increased markedly in the mutant lines and the greatest proline contents occurred following NaCl stress with the most respondent line having 100-fold levels compared to the controls. Both non-acclimated and acclimated selected lines showed improved frost resistance over controls. Improvements in frost resistance were heritable but improvements in NaCl resistance were not. The results clearly demonstrated that NaCl, frost and hydroxyproline resistance were stable traits over repeated in vitro sub-cultures and prolonged low temperature storage. A complete range of mutants with single, double or triple resistance traits were produced. The level of resistance however was not necessarily correlated with the level of proline and some lines showed resistance without elevated proline. It is concluded that elevated proline is not essential for improved resistance to abiotic stress in cauliflower, but where it does occur it does improve resistance.     

NaCl alleviates polyethylene glycol-induced water stress in the halophyte species Atriplex halimus L

Atriplex halimus L. is a C4 xero-halophyte species well adapted to salt and drought conditions. To collect information on the physiological impact of low salt levels on their water-stress resistance, seedlings were exposed for 6 d to nutrient solution containing either 0% or 15% polyethylene glycol 10,000 (PEG), in the presence or in the absence of 50 mM NaCl. Similar experiments were performed with one PEG-resistant and one PEG-sensitive selected cell line exposed for 50 d to 0% or 15% PEG on standard Linsmaier and Skoog (LS) medium, on LS medium supplemented with 50 mM NaCl, or on Na+-free medium. NaCl mitigated the deleterious impact of PEG on growth of both whole plants and PEG-sensitive cell lines and improved the ability of stressed tissues to perform osmotic adjustment (OA). Water stress reduced CO2 net assimilation rates quantified in the presence of high CO2 and low O2 levels (A), stomatal conductance and transpiration, but NaCl improved water use efficiency of PEG-treated plants through its positive effect on A values, especially in young leaves. PEG increased the internal Na+ concentration. The resistant cell line accumulated higher concentration of Na+ than the PEG-sensitive one. The complete absence of Na+ in the medium endangered the survival of both cell lines exposed to PEG. Although Na+ by itself contributed only for a small part to OA, NaCl induced an increase in proline concentration and stimulated the synthesis of glycinebetaine in response to PEG in photosynthetic tissues. Soluble sugars were the main contributors to OA and increased when tissues were simultaneously exposed to PEG and NaCl compared with PEG alone, suggesting that Na+ may influence sugar synthesis and/or translocation.     

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.     

苜蓿抗甲硫氨酸变异体的筛选

紫花苜蓿(Medicago sativa L.)下胚轴愈伤组织用NaN_3溶液诱变处理后,在含有全致死浓度甲硫氨酸的MS培养基上进行了6个月的连续筛选培养,获得了能抗100mmol/L甲硫氨酸的变异细胞系,并分化成再生植株。所获变异细胞系在脱离选择压力6个月后,对甲硫氨酸的抗性仍比对照高7.2倍,并表现出对乙硫氨酸的交叉抗性(为对照抗性的3.3倍)。抗性细胞系及其再生植株的甲硫氨酸、赖氨酸、苏氨酸和异亮氨酸含量均比对照有大幅度增加。抗性系的SDS-PAGE电泳图谱及过氧化物酶同工酶谱带均与对照有显著不同,并出现了新带,表明变异系已经产生变化了的基因产物。     

Selection and characterization of an L-thiazolidine-4-carboxylic acid resistant callus culture of Vigna radiata (L.) Wilczek var. radiata

Callus cultures were established from seedling root tips of mungbean (Vigna radiata (L.) Wilczek var. radiata) cv. K 851. The growing calli were exposed to increasing concentrations of thioproline — an analog of proline, in the medium. A concentration of 3.0 mM thioproline completely inhibited the growth of the cells. However, after 25 days incubation 5 cell clones were obtained which could grow on this concentration of thioproline. Out of them one vigorously growing cell clone was further characterized. This selected clone contained higher endogenous levels of free proline (5 fold) and K⁺ (1.5 fold) and exhibited elevated tolerance, not only to thioproline but also to exogenously applied NaCl in the growth medium, as compared to the normal sensitive callus cells. Higher endogenous levels of free proline and K⁺ appear to impart dual resistance to thioproline and NaCl to the selected cell strain.     

Utilization of osmoprotective compounds by hybridoma cells exposed to hyperosmotic stress

A search was undertaken for osmoprotective compounds for mouse hybridoma cell line 6H11 grown in culture. When the osmolality of the growth medium was increased above the normal osmolality of 330 mOsmol/kg, growth rates were decreased in a dose-dependent fashion, reaching zero when the osmolality of the medium reached approx. 435 mOsmol/kg through the addition of KCl (60 mM), or 510 mOsmol/kg through the addition of NaCl (100 mM), or sucrose (175 mM). For NaCl or sucrose-stressed cultures, the inclusion of glycine betaine, sarcosine, proline, glycine, or asparagine in the growth medium gave a moderate to strong osmoprotective effect, measured as the ability of these compounds to enhance cell growth rates under hyperosmotic conditions. Inclusion of dimethylglycine may also give a strong osmoprotective effect under these stress conditions.In KCl-stressed cell cultures, addition of glycine betaine, sarcosine, or dimethylglycine gave strong osmoprotective effects. Of 38 compounds tested during NaCl stress, 7 gave weak osmoprotective effects and 25 gave no osmoprotective effect. The osmoprotective compounds accumulated inside the stressed cells. Accumulation was completed after 4 to 8 h, reaching intracellular concentrations of approx. 0.27 pmol/cell, or 0.15 M, in NaCl stressed cells (100 mM NaCl added).Glycine betaine, dimethylglycine, and sarcosine accumulation was observed only when these protectants were included in the medium. For all osmoprotectants, a growth medium concentration between 5 and 30 mM gave the maximal protective effect, with the exception of dimethylglycine, for which the optimum concentration was approx. 65 mM. Osmoprotective effects obtained with glycine, sarcosine, dimethylglycine, and glycine betaine, indicate that the more methylated compounds are the most effective protectants.The cellular content of glycine betaine and the glycine betaine uptake rate increased with medium osmolality in a linear fashion. Glycine betaine uptake was described by a model comprising a saturable component obeying Michaelis-Menten kinetics and a nonsaturable component. K(m) and V(max) for glycine betaine uptake were determined at 420 mOsmol/kg (50 mM NaCl added) and 510 mOsmol/kg (100 mM NaCl added). A K(m) value of approx. 2.5 mM was obtained at both medium osmolalities, while V(max) increased from 0.010 pmol/cell . h to 0.018 pmol/cell . h as the osmolality of the growth medium was increased, indicating an effect of medium osmolality on the maximal rate of transport rather than on the affinity of the transporters for glycine betaine. Hybridoma cells were not able to utilize the glycine betaine precursors choline or glycine betaine aldehyde for osmoprotection, suggesting that the cells lack part, or all, of the choline-glycine betaine pathway or the appropriate uptake mechanism.The uptake rate for glycine in NaCl-stressed hybridoma cells was approx. four times higher than the uptake rate for glycine betaine. Furthermore, if equimolar amounts of glycine betaine, glycine, sarcosine, and proline were simultaneously added to NaCl-stressed cell cultures, the intracellular concentrations of glycine, proline, and sarcosine were significantly higher than the concentration of glycine betaine.A 40% increase in hybridoma cell volume was observed when the growth medium osmolality was increased from 300 to 520 mOsmol/kg. (c) 1994 John Wiley & Sons, Inc.     

脯氨酸参与植物开花信号转导途径

作为一种渗透调节物质,人们对脯氨酸已经有了很多的研究,然而脯氨酸在生命体生长发育中的作用还知之甚少。为了研究脯氨酸在生长发育中的作用,筛选得到了拟南芥的脯氨酸抗性突变体kao2。突变体在不同浓度脯氨酸培养基上均表现出抗性,但是突变体中脯氨酸的吸收没有显著变化,降解关键基因表达也没有增多。Tail-PCR进行突变基因克隆的结果表明,T-DNA插入位点位于AtKAO2(At2g32440)的第一个外显子,且插入导致AtKAO2基因不再表达。拟南芥突变体库中订购的kao2-2同样表现出脯氨酸抗性表型。此外,kao2表现出胁迫敏感表型。kao2表现出明显的晚花表型,并且赤霉素的添加能够部分挽救晚花表型。而kao2突变体中开花抑制因子FLC表达升高,而开花促进基因FT的表达降低。研究在脯氨酸与开花信号转导途径之间建立了联系,为脯氨酸对开花途径的信号作用提供了新的证据,为以后的研究提供了新的材料。     

Transport of osmoprotective compounds in hybridoma cells exposed to hyperosmotic stress

Addition of osmoprotective compounds has a positive effect on growth and monoclonal antibody production in hyperosmotic hybridoma cell cultures. In order to better understand the processes involved in the osmoprotective response, uptake of the osmoprotective compounds glycine betaine, proline, sarcosine and glycine in mouse hybridoma cell line 6H11 during exposure to hyperosmotic stress was studied. Hyperosmotic stress (510 mOsmol/kg) was introduced through the addition of NaCl (100 mM) to the growth medium, and amino acid transport activity was measured immediately after transfer of the cells to the hyperosmotic medium. The osmoprotective capability of the four osmoprotectants tested was negatively affected if methylaminosobutyric acid (MeAiB), a specific substrate for amino acid transport system A, was simultaneously included in the hyperosmotic medium in equimolar amounts with one of the osmoprotective compounds. This was due to accumulation of MeAiB in the stressed cells, giving a significant reduction in the concentration of the osmoprotective compound inside the cells. Furthermore, addition of excess meAiB gave approx. 905 reduction in the initial rate of uptake of glycine betaine, while 40–50% reduction in the initial rate of uptake of proline, glycine and sarcosine. Similarly, addition of proline, glycine or sarcosine also gave a significant reduction in the initial rate of glycine betaine uptake. These results suggest that the four osmoprotective compounds share, at least in part, a common, MeAiB inhibitable carrier for transport into osmotically stressed hybridoma cells. This carrier is probably equal to amino acid transport system A.