Survival of Nippostrongylus brasiliensis larvae after freezing over liquid nitrogen

Survival of Nippostrongylus brasiliensis larvae after freezing over liquid nitrogen. International Journal for Parasitology4: 173–176. Third stage larvae of N. brasiliensis were frozen over liquid nitrogen and after storage for 7 days were thawed rapidly and inoculated subcutaneously into rats. When ensheathed larvae were used, none survived freezing as judged by motility and infectivity trials. Separate vials of exsheathed larvae survived freezing in proportions ranging from 10 to 64 per cent. Female worms, derived from frozen exsheathed larvae, had a normal complement of eggs in the uterus and both male and female worms had a normal histological appearance. Exsheathed larvae frozen in the presence of 10 per cent dimethylsulphoxide had the same survival rate as those frozen without the addition of cryoprotectant. The addition of 10 per cent glycerol adversely effected the survival of frozen exsheathed larvae.     

Survival of unprotected,mammalian plateau-phase cells following freezing in liquid nitrogen

Unprotected, mammalian cells in plateau phase are at least a factor of four times more sensitive to freeze-thaw damage than exponential-phase cells. The former suffer about 15–20% more sublethal damage after one freeze-thaw cycle than the latter and repair this damage more slowly. Exposure of plateau-phase cells to freeze-thaw damage lengthens the time required to traverse the cell cycle in the exposed generation. These cells may more closely represent the state in tissues than exponential-phase populations.     

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.     

Effects of cryogenic treatment on plantlet production from frozen and unfrozen date palm callus

Embryogenic date palm (Phoenix dactylifera L. var. Medjool) callus cultures were treated with a cryoprotective mixture of polyethylene glycol (Carbowax 6000), glucose, and dimethylsulfoxide (10%/8%/10%, w/v); treated with the mixture, frozen to −196°C, and then thawed; or left untreated. Growth subsequent to treatment was measured as fresh weight increase and as the number of embryos produced during 18 weeks of culture. The growth of calli that were frozen and thawed, compared to the other treatments, was greatly inhibited during the first 9 weeks of culture. This inhibition disappeared in subcultured tissue. In all treatments, cultures initiated plantlets after 9 weeks. Enzyme polymorphism, for five gene-associated enzyme systems including alcohol dehydrogenase, esterase, peroxidase, phosphoglucomutase, and phosphoglucoisomerase, was analyzed in leaves of regenerated plantlets by using starch gel electrophoresis for separation. Isozyme patterns were similar for all treatments.     

Induction of callus formation from difficile date palm protoplasts by means of nurse culture

We report here for the first time callus formation from protoplasts in date palm (Phoenix dactylifera L.). Protoplasts were isolated from young leaves of offshoots and embryogenic calli in Deglet nour and Takerboucht genotypes. The protoplast yield depended on genotype, donor plant material, mixture of enzyme solution, and incubation time. With regard to the donor material, the best response was obtained with callus. Cell division was induced in both liquid culture and nurse culture. The best donor material for cell division was callus and the best response was obtained with the feeder layer, which induced a division rate of 30% in Deglet nour and 15% in Takerboucht genotypes. The dividing cells developed to microcalli on the feeder layer; the microcalli developed to calli on modified MS medium; however, the calli failed to regenerate into roots or shoots.     

Modification of the dehydrogenase activities of human sperm after freezing in liquid nitrogen

Freezing in liquid nitrogen does not result in appreciable modification of the activities of hydrolases or peptidases in human sperm. In contrast the activities of 6-P-gluconate dehydrogenase and, particularly, of glucose 6-phosphate dehydrogenase are severely diminished or even abolished after freezing and thawing. This is not the result of a denaturation of the enzymes, but rather a leak into the surrounding medium. These results are discussed with reference to the role of the pentose pathway in the energy metabolism of human sperm; this enzyme leakage from the spermatozoon could constitute a reliable test assay for evaluation of cell damage due to deep freezing.     

Spawn viability in edible mushrooms after freezing in liquid nitrogen without a cryoprotectant

Five strains of edible mushrooms (Lentinula boryana, Lentinula edodes, Pleurotus djamor, Pleurotus pulmonarius, and Volvariella volvacea) were studied. Spawn were prepared from sorghum seeds and then incubated for 14 days under optimum conditions for each species. Once covered by mycelia, the sorghum seeds were placed in polycarbonate vials for freezing in liquid nitrogen. The effect of adding a cryoprotective solution before freezing (either 10% glycerol v/v or 5% dimethylsulfoxide v/v) was evaluated as a function of mycelial growth and percent viability. Three main treatments were undertaken: (1) freezing with a glycerol or dimethylsulfoxide cryoprotectant, (2) freezing with water and (3) freezing without cryoprotectant or water. Samples were maintained frozen for a week, after which time they were thawed (10 min at 30 degrees C) and the seeds placed in Petri dishes with a culture medium. A recovery rate of 96.8% was obtained for the total number of samples summed over all strains and treatments. In contrast, 99.2% of the samples frozen without cryoprotectant were recovered. The recovery of frozen mycelia was delayed with respect to a control group, which was not frozen. However, no difference was observed in percent recovery and mycelial diameter when a new series of spawn was prepared from mycelia that had been previously frozen. Results obtained from this experiment demonstrate that an adequate recovery of mycelia can be obtained without using a cryoprotectant. This capacity might enable large quantities of commercial mushroom strains to be handled at reduced production costs. It is suggested that the mycelia survived freezing without cryoprotectants because they were embedded and protected within the sorghum seeds used to elaborate the spawn.     

Induction,maintenance, and differentiation of rice callus cultures on ammonium as sole nitrogen source

Rice callus was initiated from cultured anthers and was maintained on medium containing ammonium as sole nitrogen source and supplemented with either a buffer or an organic acid. Plant regeneration also was obtained on this medium, but the morphogenetic capacity of the callus culture declined as rapidly as on a medium containing a mixture of ammonium and nitrate. The results of the studies suggest that organic acids provide an additional function beyond that of buffering the medium during growth on ammonium.     

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.     

The freezing and preservation of bovine erythrocytes in liquid nitrogen

Bovine erythrocytes can be preserved for long periods of time by freezing and storing in liquid nitrogen. Blood group determinations, titrations, and isoimmunizations indicated that there were no detectable alterations in antigenic reactivities of preserved erythrocytes when compared with fresh samples of blood from the same animal. In addition, consistent percentages of recovery within a frozen mixture could be obtained, indicating that the deterioration of erythrocytes with time was not significant. Variations in the percentage of recovery of erythrocytes with different concentrations of sucrose (the cryoprotective agent) were significant at the 0.01 level of probability. The highest average percentages of recovery of erythrocytes from whole blood and the cellular fraction of blood (blood from which plasma was removed before freezing) were obtained with 45 and 40% sucrose, respectively. Results also indicated that whole blood gave a slightly higher percentage of recovery, than the cellular fraction. The individual donor effect, storage time in liquid nitrogen, and various saline concentrations of the thawing and washing solutions had no significant effects upon percentage of recovery.