Lyophilized 3D Lithium Vanadium Phosphate/Reduced Graphene Oxide Electrodes for Super Stable Lithium Ion Batteries

3D lithium vanadium phosphate/reduced graphene oxide porous structures are prepared using a facile lyophilization process. The 3D porous nature of these lyophilized electrodes along with their high surface area lead to high rate capability and specific capacity. A high specific discharge capacity of ≈192 mAh g^?1 is observed at 0.5 C. The cycling performance is noteworthy, as these lyophilized samples at 0.5 and 1 C do not show any fading, even after 1000 and 5000 cycles, respectively. Capacity retention of ≈96.2% is observed at the end of 10 000 cycles at 20 C. This remarkable cycling performance is attributed to the structural stability of the 3D porous network and is confirmed using scanning electron microscopy and selected area electron diffraction after 10 000 cycles of consecutive charging and discharging at 20 C.     

The use of TTC reduction assay for assessment of Gentiana spp. cell suspension viability after cryopreservation

This study was aimed at improving the 2,3,5-triphenyl-tetrazoliumchloride (TTC) reduction test for initial assessment of cell survival after cryopreservation. Experiments were carried out on three embryogenic cell suspensions of different ages: 9-year-old Gentiana tibetica (King ex Hook. F.), 2-year-old G. kurroo (Royle), and 1-year-old G. cruciata (L.). The suspensions were maintained in MS medium supplemented with 1.0 mg 1⁻¹ 3,6-dichloro-o-anisic acid, 0.1 mg 1⁻¹ naphthaleneacetic acid, 2.0 mg l⁻¹ 6-benzylaminopurine, 80.0 mg 1⁻¹ adenine sulphate and 0.09 M sucrose. Four weeks before freezing, part of the tissue was subcultured to the same medium with sucrose concentrations elevated from 0.09 M (3%sMS) to 0.175 M (6%sMS) or 0.26 M (9%sMS). In freezing treatments without cryoprotection, tissue was plunged directly into liquid nitrogen (LN) or cooled gradually. In freezing treatments with cryoprotection, the cells were pretreated with 1 M sucrose, or with 0.4 M sorbitol + 0.25 M proline or + 0.08 M DMSO, or with vitrification solution (PVS2). Encapsulation was another variant. TTC reduction activity was spectrophotometrically assessed immediately, 1, 3, 5, 24 and 48 h after thawing. Cells without cryoprotection were lethally damaged, but TTC reduction activity in those cells ranged from 6.5% (tissue from 3%sMS) to 73 % (tissue from 9%sMS) directly after thawing. Formazan production was reduced to zero after 24 h. The TTC test showed 50% formazan content immediately after thawing of DMSO-protected G. tibetica tissue, but only 22.47% after 24 h and 2.9% after 48 h. Ultrastructural analysis of those cells showed lethal damage in many of them. For the PVS2 treatment, the formazan content was similar in samples analyzed directly after thawing and 24 h later. Cells treated with PVS2 did not show structural disturbances. Encapsulated cell aggregates of G. cruciata treated with concentrations of sucrose increasing up to 1 M produced 2.6 times more formazan. When applied at least 48 h after thawing, the TTC test can reflect cell viability and can be used to compare the effectiveness of cryoprotectant performance and freezing protocols, but it must be carefully evaluated, with appropriate controls.     

Process development for production of human granulocyte-colony stimulating factor by high cell density cultivation of recombinant <Emphasis Type="Italic">Escherichia coli</Emphasis>

The fed-batch process using glucose as the sole source of carbon and energy with exponential feeding rate was carried out for high cell density cultivation of recombinant Escherichia coli BL21 (DE3) expressing human granulocyte-colony stimulating factor (hG-CSF). IPTG was used to induce the expression of hG-CSF at 48 g dry cell wt l⁻¹ during high cell density culture of recombinant E. coli BL21 (DE3) [pET23a-g-csf]. The final cell density, specific yield and overall productivity of hG-CSF were obtained as ~64 g dry cell wt l⁻¹, 223 mg hG-CSF g⁻¹ dry cell wt and 775 mg hG-CSF l⁻¹ h⁻¹, respectively. The resulting purification process used cell lysis, inclusion body (IB) preparation, refolding, DEAE and Butyl-Sepharose. Effects of different process conditions such as cell lysis and washing of IB were evaluated. The results reveal that the cells lyzed at 1,200 bar, 99.9% and Triton removed about 64% of the LPS but sarcosyl had no effect on removal of nucleic acids and LPS. Further analysis show that DEAE column removes DNA about 84%. Cupper concentration was identified as parameter that could have a significant impact on aggregation, as an unacceptable pharmaceutical form that decrease process yields. The purity of purified hG-CSF was more than 99%. Also the comparison of activity between purified hG-CSF and commercial form do not show valuable decrease in activity in purified form.     

菜心组织培养技术初探

为建立菜心(Brassica campestris ssp.chinensis var.utilis)的快繁技术体系,以花药和子叶-子叶柄为外植体进行组织培养研究。结果表明,花药培养以选取未开放的花蕾为宜,且花柱略高于花瓣,此时小孢子多数处于单核靠边期。菜心花粉的萌发率不高,且秋冬季的花粉比夏季的萌发率高。菜心花药愈伤组织诱导培养基为:MS+1.0 mg L–1 KT+1.0 mg L–1 2,4-D+3%糖+6 g L–1琼脂+8%椰乳,不定芽诱导培养基为:MS+2.0 mg L–1 6-BA+0.5 mg L–1 NAA+1.0 g L–1活性炭+2%糖+6 g L–1琼脂或MS+2.0 mg L–1 ZT+0.5 mg L–1 IAA+0.5 g L–1 AgNO3+1.0 g L–1活性炭+2%糖+6 g L–1琼脂。花药培养的不定芽诱导率为36.7%,不定芽培养出现褐化现象,不能形成再生植株;而以子叶-子叶柄为外植体培养获得的植株再生率可达80%。     

Effect of a Pulsed Electric Field and Osmotic Treatment on Freezing of Potato Tissue

This work discusses the effects of pulsed electric field (PEF) and osmotic pre-treatments on potato tissue structure and on the freezing and freeze-drying behaviour of this tissue. Potato samples (26-mm diameter, 10-mm height) were treated by PEF (400 V/cm) to high level of disintegration (conductivity disintegration index Z was ≈0.95) and were subjected to osmotic treatment in an aqueous solution of NaCl. The samples were either frozen in an air-blast freezer at air temperature of −80 °C and velocity of 2 m/s or freeze-dried at 0 °C and 0.04-mbar pressure. The scanning electron microscope (SEM) images evidenced similarity in structure of the cell walls and area and morphology of starch granules for untreated and PEF-treated potato tissues. However, sequential (PEF + osmotic) pre-treatment of potato tissue resulted in starch granules with rougher surface. The profiles of freezing curves were strongly dependent on pre-treatment. The longest effective freezing time t _f was observed for untreated tissue, and the values of t _f were decreasing in the following sequence: untreated > PEF pre-treated > PEF + osmotically pre-treated. The faster freezing and freeze drying and visually better quality of the dried samples were observed for PEF or sequential PEF + osmotic pre-treatments. The SEM analysis revealed also a noticeable disorder of starch granule surface morphology inside the cells of the freeze-dried potatoes after sequential PEF + osmotic pre-treatment.     

Optimization of protoplast formation,regeneration, and viability in Microsporum gypseum

Factors affecting high yields, regeneration frequencies, and viability of protoplasts from clonal cultures of Microsporum gypseum were investigated. Maximum yields of protoplasts were obtained after 6 hrs digestion of 2–4 days old mycelium with Novozyme 234 using CaCl₂ (0.4 M) as an osmotic stabilizer and glycine + HCl (pH 4.5) as the buffer system. Mercaptoethanol + dithiothreitol (0.01 M) proved to be the best pretreatment of mycelium prior to digestion with enzyme. A regeneration frequency of 94.4% was obtained using the top agar method with complete medium (pH 6.5) containing 0.5% agar and 0.4 M CaCl₂ as an osmoticum. Colonies from regenerated protoplasts on medium containing CaCl₂ were pigmented and completely powdery with high sporulation. Protoplast viability was studied in osmotic stabilizer supplemented with glucose or glutamine. After 24 hrs, glucose (2%) and glutamine (2%) enhanced protoplast viability by 22% and 23%, respectively. Protein synthesis, as measured by ³H-lysine uptake, matched the viability profile determined by fluorescence microscopy.     

Evidence for the role of zinc on the performance of dibenzothiophene desulfurization by <Emphasis Type="Italic">Gordonia alkanivorans</Emphasis> strain 1B

Gordonia alkanivorans strain 1B is able to desulfurize dibenzothiophene (DBT) to 2-hydroxybiphenyl (2-HBP), the final product of the 4S pathway. However, both the cell growth and the rate of desulfurization can be largely affected by the nutrient composition of the growth medium due to cofactor requirements of many enzymes involved in the biochemical pathways. In this work, the effect of several metal ions on the growth and DBT desulfurization by G. alkanivorans was studied. From all the metal ions tested, only the absence of zinc significantly affected the cell growth and the desulfurization rate. By increasing the concentration of Zn from 1 to 10 mg L⁻¹, 2-HBP productivity was improved by 26%. The absence of Zn²⁺, when sulfate was also used as the only sulfur source, did not cause any difference in the bacterial growth. Resting cells grown in the presence of Zn²⁺ exhibited a 2-HBP specific productivity of 2.29 μmol g⁻¹ (DCW) h⁻¹, 7.6-fold higher than the specific productivity obtained by resting cells grown in the absence of Zn²⁺ (0.30 μmol g⁻¹ (DCW) h⁻¹). These data suggests that zinc might have a key physiological role in the metabolism of DBT desulfurization.     

Novel class of rDNA repeat units in somatic hybrids between Nicotiana and Atropa

Summary Behavior of ribosomal RNA genes in the process of somatic hybridization was analyzed using hybrids Nicotiana tabacum + Atropa belladonna. Blothybridization of parental species DNAs to ³²P-rDNA specific probes revealed two classes of ribosomal repeats in both tobacco and nightshade; their length was 11.2 kb, 10.4 kb (tobacco) and 9.4 kb, 10.2 kb (night-shade). For analysis of hybrids, labelled ³²P rDNA specific probes were hybridized to DNA of parental species and somatic hybrids digested with restriction endonucleases EcoR1, EcoRV and BamH1. A new class of ribosomal DNA repeat, absent in parental species, was found in hybrid line NtAb-1. Possible mechanisms of appearence of a new rDNA class in the process of somatic cell fusion are discussed.     

牛角瓜离体快繁技术

该文选用牛角瓜茎段为外植体,通过组织培养方法探索牛角瓜组织培养和种苗快繁技术。结果表明:最佳外植体表面消毒方法是以0.1%HgCl_2处理7 min,外植体存活率为32.3%;初代培养基为MS+蔗糖30 g·L~(-1)+琼脂3.5 g·L~(-1),培养20 d后形成3～4 cm高的再生芽。增殖培养前期筛选的较为适宜的增殖培养基为MS+6-BA 1.5 mg·L~(-1)+NAA 0.05 mg·L~(-1)+蔗糖30 g·L~(-1)+琼脂3.5 g·L~(-1),增殖系数4.6。但在后续的培养过程中发现,牛角瓜组培苗易玻璃化,且随着世代更迭,玻璃化程度加重,到了第四代几乎全部玻璃化。因此在上述增殖培养的基础上,以AgNO_3作为玻璃化抑制剂,筛选出最终的增殖培养基为MS+6-BA1.5 mg·L~(-1)+NAA 0.05 mg·L~(-1)+AgNO_31.0 g·L~(-1)+蔗糖30 g·L~(-1)+琼脂3.5 g·L~(-1)。用此增殖培养基,培养25 d,苗高5～8 cm,增殖系数5.8,玻璃化率低于10%,且连续培养多代,玻璃化率维持在10%以下。生根壮苗培养基为1/2MS+NAA 1.0 mg·L~(-1)+蔗糖20 g·L~(-1)+琼脂3.6 g·L~(-1),培养14 d,生根率98%;将生根苗移栽于70%遮阴度的大棚中,30 d后,苗高20 cm左右,成活率85%。利用该方法可对牛角瓜优良种苗进行规模化生产。     

金属离子胁迫对Sphingomonas sp. Y2降解壬基酚聚氧乙烯醚特性的影响

壬基酚聚氧乙烯醚（NEPOs）是全球应用量最大的非离子型表面活性剂之一,具有环境雌激素毒性。NPEOs的中间代谢产物种类多、难降解,且毒性远高于其母系化合物。为研究金属离子对功能微生物Sphingomonas sp. Y2降解NPEOs特性的影响,分析了金属离子的最低抑制浓度（MIC）、细菌形态、NPEOs降解效率及代谢产物组成等变化。结果显示,菌株Y2对多种金属离子具有耐受性,在重金属培养基中对Mn²⁺、Zn²⁺具有较高的耐受性,MIC分别为500、90 mg/L;在500 mg/L Mn²⁺胁迫下,菌株Y2对NPEOs降解率为100.00%（3 d）;在90 mg/L Zn²⁺胁迫下,菌株Y2对NPEOs的降解率为20.62%（5 d）;两种离子双重胁迫下NPEOs降解率为15.65%（5 d）;Mn²⁺胁迫下菌株Y2细胞表面结构和形态发生明显变化,且改变了NPEOs代谢产物中组分的含量组成,其中短链NPEOs与短链壬基酚聚氧乙烯酸（NPECs）的比例为0.68,与对照相比,抑制/减缓了短链NPEOs的羧化反应。结果表明,菌株Sphingomonas sp. Y2对多种金属离子具有耐受性,Mn²⁺胁迫对细胞表面超微结构及NPEOs中间代谢产物组分组成产生显著影响。该研究将为表面活性剂类污染物的生物降解及相应代谢产物在环境中的毒性评价提供理论依据。     

Community interactions between the filamentous alga Cladophora glomerata (L.) Kuetzing,its epiphytes,and epiphyte grazers

Summary Interactions between epiphytes, epiphyte grazers and the filamentous green alga Cladophora glomerata (L.) Kuetzing were explored with smaples from rivers in Montana. Extracts of C. glomerata lowered photosynthetic rates of Nitzschia fonticola Grunow (an epiphytic diatom). Nutrient enrichment showed that C. glomerata from the Madison River was N deficient and its epiphytes were P deficient on 2 dates and N deficient on one date, while no nutrient deficiencies were detected in samples from 3 other rivers; this implies there was little nutrient competition between the epiphytes and C. glomerata. Epiphytes lowered drag on C. glomerata tufts and current velocity inside the tufts, apparently by decreasing the effective surface area. Lower drag may decrease detachment, but lowering current velocity from 8 to 0 cm s^-1 resulted in a 100 % decrease in photosynthesis. Light absorption by epiphyte pigments may lower photosynthetic rate of C. glomerata when irradiance is below 200–500 E m^-2 s^-1, and protect against photoinhibition above this irradiance range. Invertebrate grazers (predominantly Baetis tricaudatus Dodds, Trycorythodes minutus Traver and Brachycentrus occidentalis Banks) at high densities removed 75% of epiphytes and B. occidentalis grazed on C. glomerata. Invertebrates regenerated a mean of 0.16 mol NH _inf4 ^sup+ individual^-1 d-1 which could have enhanced growth of downstream C. glomerata. Competition and grazing were not the only interactions in the C. glomerata community, positive (mutualistic) interactions were also important.     

Improving intracellular production of recombinant protein in <Emphasis Type="Italic">Pichia pastoris</Emphasis> using an optimized preinduction glycerol-feeding scheme

High-cell-density production of recombinant growth hormone of Lateolabrax japonicus (rljGH) expressed intracellularly in Pichia pastoris was investigated. In the regular strategy of induction at a cell density of 160 g l⁻¹, short duration of intracellular rljGH accumulation (17 h) resulted in a low final cell density of 226 g l⁻¹. Thus, a novel strategy of induction at a cell density of 320 g l⁻¹ was investigated. In this strategy, the preinduction glycerol-feeding scheme had a significant effect on the post-induction production. Constant glycerol feeding led to a decrease of the specific rljGH production and specific production rate because of low preinduction specific growth rate. This decrease was avoided by exponential glycerol feeding to maintain a preinduction specific growth rate of 0.16 h⁻¹. The results from exponential glycerol feeding indicated that the rljGH production depended on the preinduction specific growth rate. Moreover, mixed feeding of methanol and glycerol during induction improved the specific production rate to 0.07 mg g⁻¹ h⁻¹ from 0.043 mg g⁻¹ h⁻¹. Consequently, both high cell density (428 g l⁻¹) and high rljGH production could be achieved by the novel strategy: growing the cells at the specific growth rate of 0.16 h⁻¹ to the cell density of 320 g l⁻¹ and inducing the expression by mixed feeding.     

裸果木再生体系建立与不定芽发生研究

为探究裸果木再生体系建立的影响因素,确定其不定芽发生的起源,该研究以裸果木健壮植株的茎段为外植体,采用6 BA和IBA不同浓度组合,筛选愈伤增殖及不定芽再生的最佳浓度组合,确定生根诱导的关键影响因素,建立再生体系,并对其不定芽分化进程进行解剖结构分析,以确认其起源。结果表明：(1)裸果木茎段的最佳愈伤增殖培养基为MS+1 mg·L^-1 IBA+1 mg·L^-1 6 BA+30 g·L^-1蔗糖+7 g·L^-1琼脂,主体间效应分析表明IBA为关键影响因素;愈伤大小随IBA浓度增加呈现先升高后下降的趋势。(2)最佳不定芽诱导培养基为MS+0.5 mg·L^-1 6 BA+30 g·L^-1蔗糖+7 g·L^-1琼脂,诱导不定芽数量为4.9个/块,生芽率达92.3%。(3)生根诱导中,SH基本培养基和蔗糖浓度为关键因素,最佳生根培养基为SH+0~10 g·L^-1蔗糖+7 g·L^-1琼脂,生根率达91.3%。(4)解剖结构观察发现,不定芽起源于愈伤表层的分生细胞,为外起源。该研究通过器官发生途径建立了裸果木的再生体系,确定了不定芽为外起源,为裸果木这一珍稀濒危的林木种质资源保护及可持续利用奠定了研究基础,并为其未来的发展利用提供了有效途径。     

Influence of silicon on cobalt, zinc, and magnesium in baker's yeast, Saccharomyces cerevisiae

Silicon (Si, as silicate) is involved in numerous important structure and function roles in a wide range of organisms, including man. Silicate availability influences metal concentrations within various cell and tissue types, but, as yet, clear mechanisms for such an influence have been discovered only within the diatoms and sponges. In this study, the influence of silicate on the intracellular accumulation of metals was investigated in baker's yeast (Saccharomyces cerevisiae). It was found that at concentrations up to 10 mM, silicate did not influence the growth rate of S. cerevisiae within a standard complete medium. However, an 11% growth inhibition was observed when silicate was present at 100 mM. Intracellular metal concentrations were investigated in yeast cultures grown without added silicate (−Si) or with the addition of 10 mM silicate (+Si). Decreased amounts of Co (52%), Mn (35%), and Fe (20%) were found within +Si-grown yeast cultures as compared to −Si-grown ones, whereas increased amounts of Mo (56%) and Mg (38%) were found. The amounts of Zn and K were apparently unaffected by the presence of silicon. +Si enhanced the yeast growth rate for low-Zn²⁺ medium, but it decreased the growth rate under conditions of a low Mg²⁺ medium and did not alter the growth rates in high Zn²⁺ and Co²⁺ media. +Si doubled the uptake rate of Co²⁺ but did not influence that of Zn²⁺. We propose that a possible explanation for these results is that polysilicate formation at the cell wall changes the cell wall binding capacity for metal ions. The toxicity of silicate was compared to germanium (Ge, as GeO₂), a member of the same group of elements as Si (group 14). Hence, Si and Ge are chemically similar, but silicate starts to polymerize to oligomers above 5 mM, whereas Ge salts remain as monomers at such concentrations. Ge proved to be far more toxic to yeast than Si and no influence of Si on Ge toxicity was found. We propose that these results relate to differences in cellular uptake.     

P-glycoprotein-like protein contributes to cadmium resistance in<Emphasis Type="Italic"> Euglena gracilis</Emphasis>

Selective pressures from polluted environments have led to the development of resistance systems in aquatic organisms. Using different techniques, this study examined a cadmium defense mechanism of the freshwater unicellular protozoa Euglena gracilis, and found it to be an efflux pump similar to the multidrug resistance P-glycoprotein. Cd²⁺-treated E. gracilis were able to extrude Rhodamine 123 at 21 °C, but not at 4 °C. Furthermore, verapamil, a P-glycoprotein modulator, partially blocked the efflux process (at 21 °C), and enhanced the Cd²⁺ toxic effects on these cells. Western immunoblots of cell lysates, using the anti-P-glycoprotein antibody JSB-1, revealed a 120-KDa protein, which was expressed, in high amounts on Cd²⁺-exposed cells (74% above the control values). Moreover, cells treated with JSB-1 became more sensitive to the harmful effects of cadmium, showing a decreased survival rate. Taken together, these results suggest that a MDR phenotype has evolved in Euglena as one of the mechanisms for cadmium detoxification.Abbreviations DTT dithiothreitol - mAb JSB-1 anti-human P-gp monoclonal antibody JSB-1 - MDR multidrug resistance - MRP MDR-associated protein - PBS phosphate buffered saline - P-gp P-glycoproteinCommunicated by G. HeldmaierA.J.F.O. and F.L.S.S. are undergraduate students under a CNPq special program for research training     

Cadmium biosorption by a cadmium resistant strain of Bacillus thuringiensis: regulation and optimization of cell surface affinity for metal cations

A marine bacterial strain putatively identified asBacillus thuringiensis strain DM55, showed multiple heavy metal resistance and biosorption phenotypes. Electron microscopic studies revealed that DM55 cells are encased in anionic cell wall polymers that can immobilize discrete aggregates of cations. Factors affecting cell surface affinity for metal cations, monitored by means of Cd²⁺ binding capability, are investigated. The mechanisms of cadmium resistance and Cd²⁺ biosorption by the bacterium appeared to be inducible and coincident. Medium components affecting metal removal under cadmium-stressed growth conditions were explored based on the application of two sequential multi-factorial statistical designs. Concentrations of potassium phosphates and peptone were the most significant variables. Optimized culture conditions allowed DM55 cells grown in the presence of 0.25 mM CdCl₂ to remove about 79% of the metal ions within 24 h with a specific biosorption capacity of 21.57 mg g^–1 of biomass. Both fresh and dry cells of DM55 prepared under cadmium-free optimal nutrient condition were also able to biosorb Cd²⁺. In addition to the concentration of phosphate in the medium, KinA, a major phosphate provider in the phosphorelay of Bacillus cells, was also demonstrated to regulate the magnitude of cell surface affinity for cadmium ions.     

Biohydrogen production from carbon monoxide and water byRhodopseudomonas palustris P4

A reactor-scale hydrogen (H₂) productionvia the water-gas shift reaction of carbon monoxide (CO) and water was studied using the purple nonsulfur bacterium,Rhodopseudomonas palustris P4. The experiment was conducted in a two-step process: an aerobic/chemoheterotrophic cell growth step and a subsequent anaerobic H₂ production step. Important parameters investigated included the agitation speed, inlet CO concentration and gas retention time. P4 showed a stable H₂ production capability with a maximum activity of 41 mmol H₂ g cell⁻¹h⁻¹ during the continuous reactor operation of 400 h. The maximal volumetric H₂ production rate was estimated to be 41 mmol H₂ L¹h⁻¹, which was about nine-fold and fifteen-fold higher than the rates reported for the photosynthetic bacteriaRhodospirillum rubrum andRubrivivax gelatinosus, respectively. This is mainly attributed to the ability of P4 to grow to a high cell density with a high specific H₂ production activity. This study indicates that P4 has an outstanding potential for a continuous H₂ productionvia the water-gas shift reaction once a proper bioreactor system that provides a high rate of gas-liquid mass transfer is developed.     

Protection kinetics of additives on survival of lyophilized bacteria

Samples of washed suspension of Serratia marcescens were frozen at 1- to 4-sec intervals after mixing with solutions of materials considered to act as protective additives. The frozen samples were lyophilized, stored 4 days, and reconstituted with distilled water. Under these conditions, few cells survived without additives, and maximal survival was established 1 sec after mixing, which was the shortest time interval tested. The increased survival of bacteria is assumed to be either a result of some action of the additives at or near the cell surface or of changing the physical properties of the medium, because maximum protection was conferred so rapidly. Significant amounts of sucrose could have entered the cell only if the molecules diffused freely through the cell wall and membrane.The number of organisms surviving lyophilization and exposure to air was found to be dependent upon the interval between mixing and freezing of the sample (3). In conventional systems it is difficult to remove and freeze samples less than 30 sec after mixing two fluids. However, by using a dynamic system, samples can be frozen within 1 sec after cell suspensions are mixed with solutions of various substances. By studying survival of bacteria after they were mixed with protective additives we hoped to determine whether protective effects were caused by a coating of the cells, whether membrane penetration was required, or whether the process might consist of more than one mechanism. This report describes results of experiments in which the contact time before freezing was varied from 1 to 4 sec.     

Effect of irradiation on the protein profile,protein content,and quality of agar from <Emphasis Type="Italic">Gracilaria asiatica</Emphasis> Zhang et Xia (Rhodophyta)

There are about 15 species of Gracilaria reported in Vietnam. Of these, Gracilaria asiatica Zhang et Xia is being cultivated on a large scale in Northern Vietnam, which has a subtropical climate. During the rainy season, from May to October, the growth of G. asiatica is drastically reduced or even ceases due to very low salinity and high temperature. Therefore, it is important to improve the tolerance of G. asiatica to a wide range of salinity and temperatures. This paper presents the results of research on strain improvement of G. asiatica using irradiation and selection media. Three irradiation doses of 20, 60, and 100 krad were tested against the control (with no irradiation). Afterward, the seaweed biomass was cultivated on a selected medium, ESS-1, containing NaCl in concentrations of 23‰ (C1) and 0‰ (C2). The results showed that a higher survival rate of G. asiatica was observed with the 20- and 60-krad doses. The protein content and composition of selected seaweeds were analyzed and compared with the control. SDS-PAGE showed no remarkable difference in the protein composition between the control and irradiated samples. However, the 67-kDa protein band of seaweed treated with 20 and 60 krad, then grown on ESS-1 medium with 23% NaCl, had a higher density than other samples. This protein was reported to play an important role in G. asiatica, by enhancing its tolerance to variable salinity and temperature. Although the organic and inorganic content of all samples remained almost the same, the content and quality of agar extracted from irradiated seaweeds were higher than those of the controls. Due to the high amount of 3.6 anhydro-α-L-galactose combined with low amounts of sulfate found in irradiated seaweeds, the freezing and melting points of extracted agar were lower. Eventually, this resulted in higher condensation and better quality of agar, such as in its gel-forming ability. The quality of fluid agar extracted from selected seaweeds improved as shown in the remarkable decrease in Ca²⁺, Mg²⁺, and total Fe ion content, thus lowering its melting point compared with the control. Presented at the 6th Meeting of the Asian Pacific Society of Applied Phycology, Manila, Philippines.     

渗透剂对白刺花体细胞胚成熟及萌发的影响

该研究以蔗糖、麦芽糖、山梨醇及PEG(6000)为渗透剂,探讨了不同渗透剂对白刺花体细胞胚发育、胚成熟及萌发的影响。结果表明:白刺花下胚轴形成的胚性愈伤组织接种至MS+2,4-D 0.2 mg·L~(-1)+NAA 1.0 mg·L~(-1)+6-BA 2.0 mg·L~(-1)+TDZ 1.0 mg·L~(-1)+蔗糖40 g·L~(-1)+谷氨酰胺100 mg·L~(-1)+植物凝胶3g·L~(-1)的培养基上,体细胞胚发生率高达66. 21%,总胚数为79个; 7%蔗糖可使体细胞胚成熟率高达64.36%,同时也可提高多子叶畸形胚形成; 2%麦芽糖+2%山梨醇+4%蔗糖组合使体细胞胚成熟率最高达88.89%,畸形胚比例最低; 30 g·L~(-1)PEG培养时,体细胞成熟率最高,为82.35%;鱼雷期的体细胞胚最合适转接,可使体胚萌发率达90.58%,复合糖上培养得到的成熟体细胞胚生根率最高,为87.47%。这为实现白刺花体细胞胚育苗奠定了理论基础,并提供了可行的方案。