34 resultados para Freeze drying

em Chinese Academy of Sciences Institutional Repositories Grid Portal


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近年来,利用酵母拮抗菌进行果实采后病害的生物防治已经成为果实采后领域的研究热点。但是,在实际应用中生物拮抗菌制剂的防病效果远不如化学药剂稳定。由于生物拮抗菌是活体,生活力和生防效力易受诸多因素影响。在商品化制剂的剂型加工、销售、以及使用过程中的环境条件往往影响酵母拮抗菌的生活力和抑病能力,成为酵母拮抗菌产业化生产和商品化应用过程中的一个主要障碍。将酵母拮抗菌和其它化学物质配合使用可以提高拮抗菌的生防效力。另外,增加酵母拮抗菌对逆境条件的耐受力也是增加或稳定其防治效果的有效途径。本文研究了海藻糖与酵母拮抗菌生活力和生防效力的关系,通过生理手段提高了酵母拮抗菌内源海藻糖的含量,同时探讨了在多种逆境条件下内源海藻糖含量对酵母拮抗菌生活力和生防效力的影响及其作用机制。主要研究结果如下: 1. 以1 %海藻糖作为碳源培养酵母拮抗菌Cryptococcus laurentii可以提高其内源海藻糖含量。在in vitro试验中,提高内源海藻糖含量可以提高C. laurentii在低温(1 ºC)、气调(1 ºC,5 % O2,5 % CO2)条件下的生活力;在in vivo试验中,提高C. laurentii内源海藻糖含量可以提高其在苹果果实伤口上的种群密度和对苹果青霉病的防治效果。内源海藻糖的积累还能提高C. laurentii冷冻干燥后的生活力,海藻糖对酵母细胞质膜的保护作用可能是一个主要原因。 2. 以1 %海藻糖作为碳源能提高酵母拮抗菌Rhodotorula glutinis的内源海藻糖含量。内源海藻糖含量的增加可以提高C. laurentii和R. glutinis在慢速冷冻处理中的生活力。同时,海藻糖作为外源保护剂可以明显提高两种酵母拮抗菌在冷冻干燥处理后的生活力。在快速冷冻、慢速冷冻和冷冻干燥处理中,提高酵母拮抗菌的内源海藻糖含量并使用海藻糖作为外源保护剂可以获得更高的生活力。同时,这种内、外源保护因子的综合作用也可以提高两种拮抗菌在苹果果实伤口上的种群密度和对苹果青霉病的防治效果。 3. 脱脂牛奶和糖(葡萄糖,半乳糖,蔗糖,海藻糖)作为保护剂可以提高C. laurentii冷冻干燥后在常温(25 ºC)和低温(4 ºC)保存过程中的生活力。脱脂牛奶和糖保护剂的复合使用对C. laurentii的保护效果高于其单独使用的效果。通过对几种常用的碳源进行筛选,发现柠檬酸作为碳源对C. laurentii内源海藻糖的积累有明显的诱导作用。当使用相同的保护剂或保护剂组合时,高内源海藻糖含量的酵母拮抗菌生活力更强。当冷冻干燥前使用半乳糖 + 脱脂牛奶作为保护剂时,高内源海藻糖含量的C. laurentii在4 ºC保存90 天后对苹果青霉病的防治效果和与新鲜培养的酵母拮抗菌相当。 4. 酵母拮抗菌C. laurentii冷冻干燥后在常温(25 ºC)保存期间,细胞生活力下降,细胞膜的完整性降低,胞内活性氧水平增加,同时与抗氧化相关的超氧化物歧化酶(SOD)活性也增加,而过氧化氢酶(CAT)活性则下降。提高内源海藻糖含量和/或使用外源保护剂(5 %脱脂牛奶 + 10 %葡萄糖)可以减缓上述指标下降或上升的速度。内、外源因子的共同作用有利于提高对拮抗菌细胞的保护作用。 5. 利用褐藻酸钠制成的含酵母拮抗菌的胶球在干燥后能有效的保持C. laurentii的生活力。在3种不同粘度的褐藻酸钠中,0.5 % 3500 cp的褐藻酸钠表现出较好的保护效果。内源海藻糖的积累可以提高干胶球中C. laurentii的生活力,作为外源保护剂的4种糖(葡萄糖、半乳糖、蔗糖、海藻糖)中只有海藻糖在低温条件下可以提高C. laurentii的生活力,其它3种糖反而降低了C. laurentii的生活力。

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  近年来,酵母拮抗菌在水果采后病害防治中展示了良好的应用前景。然而,在实际应用中,酵母拮抗菌在逆境条件下会因为发生凋亡或细胞损伤而引起生活力的下降,最终导致拮抗菌抑病能力降低。研究酵母拮抗菌生活力下降的规律,提高酵母拮抗菌的生产效率,减少剂型加工过程中的细胞损伤,增强其对逆境条件的耐受力是增加或稳定生防制剂防治效果的有效途径。本文主要研究酵母拮抗菌正常培养过程中生活力下降的规律,筛选剂型加工过程中对酵母拮抗菌具有保护作用的化学物质,并对酵母拮抗菌的培养条件进行了优化。主要研究结果如下:   1. 在正常培养过程中,酵母拮抗菌Rhodotorula glutinis和Cryptococcus laurentii中细胞染色质凝集或细胞膜破损的发生一般在6天以后。外源加入的N-乙酰半胱氨酸及硅酸钠等物质在超过一定浓度时会加速酵母菌的死亡。   2. 在不同的液体悬浮制剂中,对R. glutinis而言,使用磷酸缓冲液(PBS)悬浮时保护效果最好;而C. laurentii悬浮在NYDB培养基中或海藻糖、乳糖溶液中时的生活力最高。   3. 以10 %葡萄糖 + 5 %脱脂牛奶作保护剂,可以有效地保持酵母拮抗菌C. laurentii冻干制剂的生活力,配合使用的保护效果高于它们单独使用时的保护效果。添加1 mM N-乙酰半胱氨酸能更好地保持拮抗菌制剂在常温保存过程中的生活力,这可能与这种还原性物质缓解了细胞内活性氧的积累有关。   4. 不同酵母拮抗菌对不同碳、氮源的利用能力有明显差异。在9种不同的碳源和10种不同的氮源中,Pichia membranefaciens能够最有效利用的碳、氮源是葡萄糖、果糖和多价胨,而Candida guilliermondii的最佳碳源和氮源分别是果糖和肉蛋白胨。

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SiO2-CaO-P2O5 ternary bioactive glass ceramic nanoparticles were prepared via the combination of sol-gel and coprecipitation processes. Precursors of silicon and calcium were hydrolyzed in acidic solution and gelated in alkaline condition together with ammonium dibasic phosphate. Gel particles were separated by centrifugation, followed by freeze drying, and calcination procedure to obtain the bioactive glass ceramic nanoparticles. The investigation of the influence of synthesis temperature on the nanopartilce's properties showed that the reaction temperature played an important role in the crystallinity of nanoparticle. The glass ceramic particles synthesized at 55 degrees C included about 15% crystalline phase, while at 25 degrees C and 40 degrees C the entire amorphous nanopowder could be obtained.

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Previously, an inverted phase (the minority blocks comprising the continuum phase) was found in solution-cast block copolymer thin films. In this study, the effect of casting solvents on the formation of inverted phase has been studied. Two block copolymers, poly(styrene-b-butadiene) (SB) (M-w = 73 930 Da) and poly(styrene-b-butadiene-b-styrene) (SBS) (M-w = 140 000 Da), with comparable block lengths and equal polystyrene (PS) weight fraction (similar to30 wt %) were used. The copolymer thin films were cast from different solvents, toluene, benzene, cyclohexane, and binary mixtures of benzene and cyclohexane. Toluene and benzene are good solvents for both PS and PB, but have a preferential affinity for PS, while cyclohexane is a good solvent for PB but a Theta solvent for PS (T-Theta = 34.5 degreesC). The differential solvent affinity for PS and PB was estimated in terms of a difference between the polymer-solvent interaction parameter, chi, for each block. Under an extremely slow solvent evaporation rate, the time-dependent phase behavior during such a solution-to-film process was examined by freeze-drying the samples at different stages, corresponding to different copolymer concentrations, rho.

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We have investigated the inverted phase formation and the transition from inverted to normal phase for a cylinder-forming polystyrene-block-poly(methyl methacrylate) (PS-b-PMMA) diblock copolymer in solution-cast films with thickness about 300 nm during the process of the solution concentrating by slow solvent evaporation. The cast solvent is 1, 1,2,2-tetrachloroethane (Tetra-CE), a good solvent for both blocks but having preferential affinity for the minority PMMA block. During such solution concentrating process, the phase behavior was examined by freeze-drying the samples at different evaporation time, corresponding to at different block copolymer concentrations, phi. As phi increases from similar to 0.1 % (nu/nu), the phase structure evolved from the disordered sphere phase (DS), consisting of random arranged spheres with the majority PS block as I core and the minority PMMA block as a corona, to ordered inverted phases including inverted spheres (IS), inverted cylinders (IC), and inverted hexagonally perforated lamellae (IHPL) with the minority PMMA block comprising the continuum phase, and then to the lamellar (LAM) phase with alternate layers of the two blocks, and finally to the normal cylinder (NC) phase with the majority PS block comprising the continuum phase. The solvent nature and the copolymer solution concentration are shown to be mainly responsible for the inverted phase formation and the phase transition process.

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We study the macroscopic drying patterns of aqueous suspensions of colloidal silica spheres. It was found that convection strength can influence pattern formation. Uniformed films are obtained at weaker convection strength. In addition, we make clear that it is not reasonable to discuss individually the effect of temperature and humidity on the colloid self-assembly. The physical mechanism is that these factors have relationship with the evaporation rate, which can affect the convection strength.

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In adaptation to new environments, organisms may accumulate mutations within encoding sequences to modify protein characteristics or acquire mutations within regulatory sequences to alter gene expression levels. With the development of antifreeze capability as the example, this study presents the evidence that change in gene expression level is probably the most important mechanism for adaptive evolution in a green alga Chlorella vulgaris. C. vulgaris NJ-7, an isolate from Antarctica, possesses an 18S rRNA sequence identical to that of a temperate isolate, SAG211-11b/UTEX259, but shows much higher freeze tolerance than the later isolate. The chromosomal DNA/cDNA of four antifreeze genes, namely hiC6, hiC12, rpl10a and hsp70, from the two isolates of C. vulgaris were cloned and sequenced, and very few variations of deduced amino acid sequences were found. In contrast, the transcription of hiC6, hiC12 and rpl10a was greatly intensified in NJ-7 compared to that in UTEX259, which is correlated to the significantly enhanced freeze tolerance of the Antarctica isolate. (C) 2009 National Natural Science Foundation of China and Chinese Academy of Sciences. Published by Elsevier Limited and Science in China Press. All rights reserved.

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InN films with electron concentration ranging from n similar to 10(17) to 10(20) cm(-3) grown by metal-organic chemical vapor deposition (MOCVD) and molecular beam epitaxy (MBE) were investigated by variable-temperature photoluminescence and absorption measurements. The energy positions of absorption edge as well as photoluminescence peak of these InN samples with electron concentration above 10(18) cm(-3) show a distinct S-shape temperature dependence. With a model of potential fluctuations caused by electron-impurity interactions, the behavior can be quantitatively explained in terms of exciton freeze-out in local potential minima at sufficiently low temperatures, followed by thermal redistribution of the localized excitons when the band gap shrinks with increasing temperature. The exciton localization energy sigma (loc) is found to follow the n (5/12) power relation, which testifies to the observed strong localization effects in InN with high electron concentrations.

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Controlled vertical drying deposition method was used to make high-quality single crystal close-packed colloidal films formed of different radii polystyrene latex spheres on glass substrates coming from a low concentration water suspension (0.1% volume fraction). Regardless of the spheres radii the film thickness was about 6.3 microns. However, cracks destroyed the crystalline film structure during the colloidal film growth. The effect of particle radius (85-215 nm range) on film cracking was systematically studied using in situ optical fracture monitoring. Primary parallel cracks run along the vertical growth direction, later followed by secondary branched cracks in-between the primary cracks due to residual water evaporation. Quantitative theoretical relationship between the cracks spacing and particles radius was derived and shows good agreement with experimental observations. Normalized cracks spacing is related to a reciprocal ratio of the dimensionless particle radius.