抗寒锻炼中不同抗寒性小麦细胞膜糖蛋白的细胞化学研究

本研究根据植物细胞的特点,修改了在动物和人体细胞方面立的酶标Con A的电镜细胞化学方法,成功地展现了2个不同抗寒性冬小麦品种幼苗在抗寒锻炼和脱锻炼过程中细胞膜系统上糖蛋白的分布动态,显示与Con A连接的标志酶-辣根过氧化物酶活性的反应产物呈颗粒状分散分布在质膜、内质网、核膜及液泡膜的一些部位上,揭示糖蛋白在冬小麦细胞膜系统上的分布似有其特定的位点。经抗寒锻炼后,强抗寒性品种燕大1817细胞内的糖蛋白在内质网和核膜上的分布量明显地增加;同时,几乎所有的胞间连丝通道中都有糖蛋白的分布。脱锻炼后,内质网和核膜上的糖蛋白分布量又减少,胞间连丝通道中的糖蛋白也消失,基本上回复到抗寒锻炼前的分布状态。抗寒性弱的冬小麦品种郑州39-1幼苗在同样的抗寒锻炼和脱锻炼过程中不产生这些明显的变化。这些结果说明,抗寒锻炼中内质网和核膜上糖蛋白分布量的增加,以及糖蛋白输入胞间连丝的动态变化是与植物抗寒力的提高和保持稳定密切相关的。     

Cold Hardiness and Acclimation Intensity in Flower Buds for Fall Bloom and Spring Bloom Clones in Rhododendron kiusianum, a Dwarf Evergreen Azalea

The relationship between the degree of cold hardiness (supercoolingability of florets) and the acclimation intensity in flowerbuds was investigated in the fall bloom and the spring bloom(typical) clones of Rhododendron kiusianum, a hardy dwarf evergreenazalea. Supercooling ability or exotherm temperature distribution(ETD) in florets was determined by differential thermal analysis(DTA) and the intensity of bud acclimation or the rate of deacclimationwas judged by the changes in ETD profiles resulting from thedehardening temperature treatment. Although the two clone typesshowed no significant differences in ETDs and water contentsin florets, they differed in their rates of bud deacclimation.The flower buds of fall bloom clones generally tend to deacclimatemore quickly than the spring bloom ones throughout the seasons.It is concluded that the degree of cold hardiness in flowerbuds of R. kiusianum does not differ between the fall bloomand spring bloom clones but the intensity of bud acclimationdoes; acclimation intensity is higher in the spring bloom clonesand the rate of deacclimation is greater in the fall bloom ones. (Received October 14, 1985; Accepted February 5, 1986)     

Reverse Changes in Plasma Membrane Properties upon Deacclimation of Mulberry Trees (Morus bombysis Koidz.)

To gain more insight into the relation between plasma membranechanges and cold hardiness in mulberry trees (Morus bombysisKoidz. cv Goroji), biochemical and biophysical changes in theplasma membrane were studied during cold deacclimation in spring.The majority of the changes in the plasma membranes that occurredduring the cold acclimation process in the fall/winter werereversed following deacclimation in the spring. Significantdecreases in phospholipid content, degree of unsaturation inphospholipid fatty acids, and membrane fluidity were observedin the plasma membranes during cold deacclimation. The sterolto phospholipid ratio increased with decreasing cold hardiness.Reverse changes were also detected in the majority of proteinand glycoprotein components. These reversible changes in theplasma membranes are considered to be involved in the mechanismof cold hardiness of plants. ¹Contribution No. 2766 from the Institute of Low TemperatureScience. (Received July 10, 1985; Accepted October 25, 1985)     

黑果腺肋花楸枝条的深超冷与抗寒性

差热分析法测得黑果腺肋花楸枝条有深超冷。黑果腺肋花楸低温放热峰的起始温度和组织褐变法测得的致死温度相吻合。以黑果腺肋花楸低温放热峰的起始温度作为枝条的抗寒性指标,抗寒性的季节变化表现为：晚秋至１２月上旬为抗寒性驯化阶段,１２月上旬至次年２月上旬为最强抗寒性维持阶段,２月上旬以后开始脱锻炼。初冬后的锻炼过程和早春的脱锻炼过程十分迅速并与环境温度密切相关。     

Changes in carbohydrates, ABA and bark proteins during seasonal cold acclimation and deacclimation in Hydrangea species differing in cold hardiness

Cold injury is frequently seen in the commercially important shrub Hydrangea macrophylla but not in Hydrangea paniculata. Cold acclimation and deacclimation and associated physiological adaptations were investigated from late September 2006 to early May 2007 in stems of field-grown H. macrophylla ssp. macrophylla (Thunb.) Ser. cv. Blaumeise and H. paniculata Sieb. cv. Kyushu. Acclimation and deacclimation appeared approximately synchronized in the two species, but they differed significantly in levels of mid-winter cold hardiness, rates of acclimation and deacclimation and physiological traits conferring tolerance to freezing conditions. Accumulation patterns of sucrose and raffinose in stems paralleled fluctuations in cold hardiness in both species, but H. macrophylla additionally accumulated glucose and fructose during winter, indicating species-specific differences in carbohydrate metabolism. Protein profiles differed between H. macrophylla and H. paniculata, but distinct seasonal patterns associated with winter acclimation were observed in both species. In H. paniculata concurrent increases in xylem sap abscisic acid (ABA) concentrations ([ABA](xylem)) and freezing tolerance suggests an involvement of ABA in cold acclimation. In contrast, ABA from the root system was seemingly not involved in cold acclimation in H. macrophylla, suggesting that species-specific differences in cold hardiness may be related to differences in [ABA](xylem). In both species a significant increase in stem freezing tolerance appeared long after growth ceased, suggesting that cold acclimation is more regulated by temperature than by photoperiod.     

Changes in carbohydrates and freezing tolerance during cold acclimation of red raspberry cultivars grown in vitro and in vivo

Changes in LT50 and carbohydrate levels in response to cold acclimation were monitored in vitro and in vivo in red raspberry ( Rubus idaeus L.) cultivars with different levels of cold hardiness. Entire micropropagated plantlets or shoot tips from 3 cultivars were harvested before, during and after cold acclimation. Cane samples from container-grown plants of 4 cultivars were harvested before and during cold acclimation and deacclimation. Samples were evaluated for cold hardiness (LT50) by controlled freezing, then analyzed for carbohydrates, including starch, sucrose, glucose, fructose and raffinose. Hardiness of cold-acclimated 'Muskoka' and 'Festival' was superior to that of 'Titan' or 'Willamette'. In vitro plantlets had higher levels of soluble carbohydrates on a dry weight basis and higher ratios of sucrose:(glucose+fructose) than the container-grown plants. Total soluble carbohydrates, primarily sucrose, accumulated during cold acclimation in both plantlets (33–56% relative increase) and plants (143–191% relative increase). Sucrose increased 124–165% in plantlets and 253–582% in container-grown plants during acclimation and declined rapidly to the level of control plants during deacclimation. Glucose and fructose also accumulated, but to a lesser extent than sucrose. Raffinose concentrations were very low, but increased significantly during cold acclimation. In vitro, genotype hardiness was related to the high concentrations of total soluble carbohydrates, sucrose and raffinose. In vivo, hardier genotypes had lower concentrations of starch than the less hardy genotypes. These results demonstrated the importance of soluble carbohydrates, especially sucrose, in cold hardening of red raspberry and that the in vitro conditions or controlled acclimation conditions do not necessarily reflect the phenomena observed in vivo.     

秋水仙素诱导的野生大豆根类细胞超微结构变化

萌发了4d的野生大豆种子经秋水仙素处理3d以后,根尖分生区细胞的超微结构发生了一些显著变化：许多质体环绕细胞核分布,这些质体中含有数量不等的淀粉粒;液泡的体积明显增大,有几个大液泡分布在细胞核周围;少数细胞中形成网状粗面内质网聚集体;细胞核所占细胞体积的比例减小,有的细胞核形状变得极不规则。从超微结构分析,这些细胞已具备了分化细胞的特征,而不再处于有丝分裂之中。     

Ultrastructural Aspects of the Glandular Cells from the Secretory Trichomes and from the Cell Suspension Cultures of Achillea millefolium L. ssp. millefolium

The ultrastructure of the glandular cells of the floret secretorytrichomes from Achillea millefolium L. ssp. millefolium (yarrow)was examined before and after anthesis and compared with theultrastructure of the cells from the cell suspension culturesobtained from the same plant. The profuse tubular structuresobserved in the plastids of the glandular cells of the trichomesduring the pre-secretory stage were much reduced in the secretorystage and showed an osmiophilic content. Some endoplasmic reticulumprofiles could be seen adjacent to the plastids. Later in thesecretory stage, the secretion appeared in the periplasmic spacebetween the cells of the upper tiers and in the sub-cuticularspace. Finally the secretion was released by rupture of thecuticle. At the lag phase, the cells from the cell suspensioncultures of yarrow were characterized by the presence or plastidswith tubular structures, similar to those observed in the plastidsof the trichomes in the pre-secretory stage. By the end of thelag phase accumulations of starch were observed inside the plastids.At the beginning of the exponential phase, the tubular structuresof the plastids started to show an osmiophilic content and theaccumulations of starch were still present. At the end of thisphase starch disappeared from the plastids and only osmiophilictubular structures were observed. Rough endoplasmic reticulumas well as smooth endoplasmic reticulum profiles were frequentlyin close association with plastids and mitochondria. At thestationary phase a very large vacuole filled the cells, andin the remaining cytoplasm some endoplasmic reticulum profilesand osmiophilic droplets were observed.Copyright 1994, 1999Academic Press Achillea millefolium L. spp. millefolium, yarrow, ultrastructure, trichomes, glandular cells, plant cell suspension cultures     

Characteristics of Cold Acclimation and Deacclimation in Tuber-bearing Solanum Species

The effect of temperatures on cold acclimation and deacclimation in foliage tissues was studied in Solanum commersonii (Oka 4583), a tuber-bearing potato. The threshold temperature for cold acclimation was about 12 C. In a temperature range of 2 to 12 C, the increase in hardiness was dependent on the acclimating temperature; the lower the acclimating temperature, the more hardiness achieved. A day/night temperature of 2 C, regardless of photoperiod, appeared to the optimum acclimating temperature for the Solanum species studied. A subfreezing temperature hardened plants less effectively. The maximum level of hardiness could be reached after 15 days of cold acclimation. However, it took only 1 day to deacclimate the hardened plants to a preacclimation level when plants were subjected to a warm regime from cold. The degree of deacclimation was dependent on the temperature of the warm regime.     

Effects of Temperature on Cold Acclimation and Deacclimation in Flower Buds of Evergreen Azaleas

The effects of various storage temperature/duration combinations(5, 10 and 17°/4, 8, 12 and 16 weeks) on cold acclimationand deacclimation of flower buds were studied in four speciesof evergreen azaleas having different natural distribution andcold hardiness. The freezing process and the exotherm temperaturedistribution of florets in excised whole buds determined bydifferential thermal analysis were used as the diagnostics todetermine the degree of bud acclimation and deacclimation. Theacclimation in buds lasted for as long as 12 to 16 weeks at5°C storage, and from 8 to 12 weeks at 10°C, and itappeared to be maintained after the chilling requirement forbreaking bud dormancy had been satisfied. Therefore, bud acclimationseems to be maintained independently from bud dormancy. Thedehardening effect on acclimated buds occurred as a result ofshort exposures to higher temperatures or long exposures tolower temperatures, and there was no relation between the rateof deacclimation and the degree of hardiness in each species.Among three storage temperatures examined, 5°C was the mosteffective for the maintenance of cold acclimation in flowerbuds and the small difference of floret water contents at 5and 10°C storage is not significant. (Received August 28, 1982; Accepted February 4, 1983)     

Electron Microscopic Cytochemical Study of Cyclic Adenosine Monophosphate Phosphodiesterase Activity During Gold Acclimation of Wheat Seedlings

Comparative studies on localization and distribution of cyclic adenosine monophosphate phosphodiesterase (cAMP-PDEase) activity in the young leaf cells of two different cold resistant wheat (Triticum aestivurn L.) varieties during cold acclimation were carried out by means of ultracytochemical method. The results indicated that the reaction products of cAMP- PDEase activity in two varieties of the seedlings grown at optimum temperature (20–25℃) were mainly localized at plasmalemma, nucleoli and chromatin. When the wheat seedlings were subjected to low temperature acclimation, cAM P-PDEase activity in the strong cold resistant variety Yanda 1817 seedlings was markedly decreased; however, little alteration of this enzyme activity was observed in the weak cold resistant variety Zhengzhou 39-1. cAMP-PDEase activity was recovered after deacclimation. The results suggested that changes in cAMP-PDEase activity during cold acclimation were closely related to the development of plant cold hardiness.     

Changes in Sugar Content during Cold Acclimation and Deacclimation of Cabbage Seedlings

The relationship between freezing tolerance and sugar contentin cabbage seedlings was investigated. Seedlings exposed tonon-freezing low temperature (5 °C) acquired freezing tolerancedown to -6 °C. The degree of freezing tolerance increasedwith duration of exposure to low temperature (up to 10 d). Sucrose,glucose, fructose and myo -inositol were detected as solublesugars in cabbage leaves, and all soluble sugars, except formyo -inositol, and starch increased gradually during cold acclimationsuch that their levels were positively correlated with the degreeof freezing tolerance. The induced freezing tolerance was attributednot to ontogenetic changes but to cold acclimation. However,the induced freezing tolerance was lost after only 1 d of deacclimationat control temperatures, and this change was associated witha large reduction in sugar content. These results reveal that the sugar content of cabbage leavesis positively correlated with freezing tolerance. Brassica oleracea L.; cabbage; cold acclimation; deacclimation; freezing tolerance; sugars     

Quantitative and qualitative changes in carbohydrates associated with spring deacclimation in contrasting Hydrangea species

Cold deacclimation and associated changes in soluble carbohydrates and water status of two Hydrangea species differing in susceptibility to frost injuries was followed under natural conditions. In fully cold hardy plants of H. macrophylla stem freezing tolerance fluctuated in parallel with changes in air temperature, while in a seasonal perspective increased temperatures caused a sigmoid deacclimation pattern in both H. macrophylla and H. paniculata. Timing of deacclimation was approximately synchronized in the two species, but H. paniculata, the hardier species based on mid-winter hardiness, deacclimated faster than H. macrophylla, indicating that deacclimation kinetics were not correlated with mid-winter hardiness. In both species concentrations of soluble sugars decreased during deacclimation and were highly correlated with stem cold hardiness and air temperatures. This suggests that sugar hydrolysis may be an important temperature-driven mechanism of deacclimation in Hydrangea. Accumulation patterns of specific carbohydrates differed between the two species, suggesting that they utilize different strategies to overcome cold. In H. paniculata, deacclimation was associated with an increase in stem water content, which occurred shortly before bud burst and hence may be a prerequisite for leafing out.     

Differences in cold hardiness,carbohydrates, dehydrins and related gene expressions under an experimental deacclimation and reacclimation in Prunus persica

To boost our understanding of a recent outbreak of freezing injury, we sought to confirm distinctive features between the shoot tissues of the peach (Prunus persica) cultivars Daewol and Kiraranokiwami by mimicking unseasonable changes of temperatures that occur in the early spring through repeated deacclimation and reacclimation treatments. Patterns of cold hardiness declined dramatically during the deacclimation and rose during the reacclimation in both cultivars. Our results indicated that ‘Daewol’ possessed higher capacity in response to repeated deacclimation and reacclimation treatments than ‘Kiraranokiwami’. ‘Daewol’ showed more sensitive changes in the carbohydrates in response to warm and low temperatures compared with ‘Kiraranokiwami’. ‘Daewol’ indicated almost similar repeated down‐ and up‐patterns in soluble sugar content in response to repeated deacclimation and reacclimation, whereas it indicated repeated up‐ and down‐patterns in starch content. However, ‘Kiraranokiwami’ showed a progressive increase in the soluble sugar content and a progressive decrease in starch content. Notably, patterns of accumulation of a 60‐kDa dehydrin protein encoded by the PpDhn1 gene were confirmed through western blotting and paralleled fluctuations of cold hardiness in both cultivars. Expression of this dehydrin was weak in both cultivars during deacclimation but its band intensity increased during reacclimation. Changes in related genes (β‐amylase, PpDhn1, PpDhn2 and PpDhn3) were positively correlated with changes in cold hardiness throughout the experiment. Our results indicate that recent repeated warm periods may cause premature deacclimation in the early spring, and that more cold‐tolerant cultivar may be more resilient to freezing injury caused by unstable temperature conditions.     

Ultrastructural study of the effect of TNT on callus cells and cells of intact plants of Yucca gloriosa L.

Intracellular distribution of assimilated 2,4,6-trinitrotoluene (TNT) in callus cells, flower buds, and leaves of intact Yucca gloriosa L. plants with the use of electron microscopy radioautography was carried out. The radiotracer was detected in vacuoles, plastids, mitochondria, endoplasmic reticulum, and cytoplasm. It was found that TNT incorporation in the vacuoles of dedifferentiated callus cells was higher compared to cells from intact plant. Therefore, the ultrastructural continuity of differentiated cells is less damaged.     

浙贝母鳞片细胞在寒冷条件下超微结构的变化

利用电镜手段观察了浙贝母鳞片细胞在寒冷条件下超微结构的变化。细胞中最明显的变化是出现了大量脂滴和淀粉粒壳的结构由清晰到模糊。一些高尔基体结构不清晰,内质网泡化。细胞中壁旁体较多,细胞核、细胞壁和胞间连丝正常。有时可见线粒体溢裂现象。以上现象表明为适应寒冷条件,细胞进行了内在代谢机制的调整。     

CELLULAR INJURY IN VITRO: PHASE CONTRAST STUDIES ON INJURED CYTOPLASM

Unfixed, compressed acinar cells of rat pancreas, isolated by mechanical and enzymatic means, were examined by phase microscopy and photomicrographed using 35 mm film and electronic flash illumination. Similarly, observations were made on Walker carcinoma cells; in addition, these cells were treated with solutions containing either phosphatidase A or enzyme inhibitors. Acinar cells contained, besides nuclei, perinuclear droplets and secretion granules, various membranous and vacuolar structures. The basal cytoplasm showed parallel dark lines interpreted as endoplasmic reticulum. In some cells, fragmentation of the reticulum was followed by the direct incorporation of fragments into simple myelin figures. In other cells it appeared that phase-lucent linear structures and vacuoles were derived by dilatation of cisternae of the endoplasmic reticulum. Perinuclear fluid collections arose either by dilation of the perinuclear cisternae of the endoplasmic reticulum or by fluid dilatation of the nuclear envelope. Phosphatidase A disrupted early vacuoles of Walker carcinoma cells. From this and the direct involvement of elements of the endoplasmic reticulum in myelin figures, it was concluded that the membranes limiting the endoplasmic reticulum incorporate phosphatides in continuous layers. While many severely injured cells formed large vacuoles, others developed concentrically laminated myelin figures; it was concluded that both types of structure derived from phosphatides liberated intracellularly, the vacuoles by vesicular myelin figure formation.     

The ultrastructure of mammary explants from virgin ovariectomized goats during hormone-induced lactogenesis

The effect of insulin (I), cortisol (F) and prolactin (P) on the ultrastructural morphology of epithelial cells of cultured mammary explants from virgin ovariectomized (OV-X) goats were studied. The epithelial cells showed little structural organization and were devoid of fat droplets and secretory protein granules at zero time of culture. The cytoplasm contained few profiles of smooth and rough endoplasmic reticulum and the Golgi apparatus was rudimentary. After being cultured in Waymouth's medium without added hormones the epithelial cells were indistinguishable from epithelial cells of uncultured explants. The addition of I induced changes mainly in the appearance of nucleoli. The nucleoli were enlarged and fibrillogranular areas with light spaces were observed. The most obvious cytological changes of epithelial cells of explants cultured in the presence of I and F are translocation of the nucleus into the basal cytoplasm, increase of rough endoplasmic reticulum, an increase in the size of the Golgi apparatus, presence of one or two lipid droplets and in some cells vacuoles with protein granules were present. Mitochondria were more abundant. The epithelial cells of explants cultured in the presence of I, F and P were characterized by the polarization of organelles within the cytoplasm and by the formation and release of protein granules and small and large fat droplets. The cell nucleus was in the basal cytoplasm, the Golgi apparatus was supranuclear. The rough endoplasmic reticulum was extensively developed and formed large sacs. Golgi vacuoles contained protein granules.(ABSTRACT TRUNCATED AT 250 WORDS)     

香榧营养苗端细胞组织分区的超微结构观察

本文研究了榧树(Torreya grandis)成熟植株在季节生长中营养苗端的超微结构变化。各区域细胞的主要区别特征为:顶端原始细胞与亚顶端细胞相接的细胞壁较厚,液泡多分布于细胞游离面,质体中淀粉粒较小;亚顶端细胞壁较厚,液泡较大,质体中淀粉粒较大而多;周缘区细胞质体多不具淀粉粒,液泡也较小,胞间连丝丰富;肋状区细胞被大量的含淀粉质体及液泡占据了大部分空间,胞间连丝丰富。在季节变化的四个时期中,各区域细胞的亚显微结构特征亦不相同。休眠期各区细胞淀粉质体较发达,细胞壁较厚,液泡大;叶扩展期淀粉质体减少或消失;芽鳞形成期出现大量小液泡;新的顶芽形成期液泡增加,核糖体含量较高。讨论了各区域细胞核形态与其细胞活跃性的关系。     

Ultrastructural and protein changes in cell suspension cultures of peach associated with low temperature-induced cold acclimation and abscisic acid treatment

Cell suspension cultures were initiated from callus derived from xylem tissues of peach [Prunus persica (L.) Batsch]. Cold acclimation was induced (LT₅₀ of-13°C) in cell suspensions at 3°C in the dark for 10 days. Freezing tolerance returned to the level of nonacclimated cells (LT₅₀ of –4.5°C) when cold-acclimated cells were transferred to 24°C (in dark) for 3 days. Addition of 75 M abscisic acid (ABA) to the growth medium failed to induce cold acclimation after cells were cultured for 5 days at 24°C. Microvacuolation, cytoplasmic augmentation and disappearance of starch grains were observed in cells that were cold-acclimated by exposure to low temperature. Similar ultrastructural alterations were not observed in ABA-treated cells. Several qualitative and quantitative changes in proteins were noted during both cold acclimation and ABA treatment. Both the ultrastructural and protein changes observed during cold acclimation were reversed during deacclimation. The relationship of these changes to cold acclimation in peach cell-cultures is discussed.Abbreviations ABA abscisic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - IBA indole-3-butyric acid - Ms Murashige & Skoog - PMSF phenylmethylsulfonyl fluoride - LT₅₀ or Freezing Tolerance temperature that resulted in 50% decrease in TTC reduction - TTC 2,3,5-triphenyltetrazolium chloride