百合珠芽与鳞茎营养成分及活性成分研究

对百合珠芽及鳞茎的营养成分及活性成分进行了分析和比较。采用国标法对百合珠芽及鳞茎的营养成分进行了分析;采用比色法对百合珠芽及鳞茎的活性成分进行了分析。基本营养成分分析表明,与百合鳞茎相比,百合珠芽中粗纤维和粗脂肪含量具有显著性差异(P0.05),粗脂肪含量低,粗纤维含量高,总糖、粗蛋白和灰分含量无显著性差异;元素分析结果表明,百合珠芽和鳞茎富含多种营养元素,其中钾含量较高,分别为1 943.52 mg/100g(DW)和2 026.15 mg/100g(DW);氨基酸分析表明,百合珠芽及鳞茎中氨基酸组成基本一致,脯氨酸含量最高,分别为2 260 mg/100g(DW)和2 010 mg/100g(DW);活性成分分析结果表明,与百合鳞茎相比,百合珠芽中总酚、总黄酮、生物碱及皂苷含量具有显著性差异(P0.05),珠芽中总酚、总黄酮及皂苷含量高,生物碱含量低,珠芽及鳞茎中总酚含量分别为1 025.86 mg/100g(DW)和875.52 mg/100g(DW)。百合珠芽和鳞茎皆营养丰富,从资源开发利用与营养学角度分析,百合珠芽具有重要的开发价值与应用前景。     

兰州百合组培鳞茎发育研究

该研究以兰州百合商品种球鳞片为外植体材料,通过组织培养诱导丛生芽萌发及高频增殖,再以丛生芽为材料诱导其发育形成小鳞茎,调节培养基对小鳞茎进行膨大发育培养,最终形成促进兰州百合组培鳞茎膨大发育的“三步”组培培养技术路线;对发育过程中形成的丛生芽、小鳞茎及膨大鳞茎进行淀粉含量测定与生长特征参数统计,分析各步培养对鳞茎形成发育过程中淀粉含量与形态变化的影响。结果表明：所建立的“三步”培养方案培育出的组培鳞茎直径、重量与鳞片数分别为1.66 cm、2.48 g和26.33片,有效地促进了鳞茎的膨大,并能诱导鳞茎主茎杆的形成发育;在培养进程中其淀粉含量呈现逐步增加的趋势,这表明与鳞茎膨大发育正相关,同时鳞茎大小、重量及鳞片数三者也表现为正相关性;当鳞茎所含鳞片数在26片以上时,其生长点易发育形成主茎杆。该文研究了兰州百合组培鳞茎的形成与膨大发育技术,所研发的“三步”培养组成的鳞茎膨大发育组培技术有效地促进了鳞茎的膨大发育,而膨大发育的鳞茎能有效地缩短田间生长周期,从时间上提高百合生产量,同时为实现兰州百合膨大的鳞茎种球规模化生产提供技术支撑。     

兰州百合组培鳞茎发育研究（英文）

该研究以兰州百合商品种球鳞片为外植体材料,通过组织培养诱导丛生芽萌发及高频增殖,再以丛生芽为材料诱导其发育形成小鳞茎,调节培养基对小鳞茎进行膨大发育培养,最终形成促进兰州百合组培鳞茎膨大发育的"三步"组培培养技术路线;对发育过程中形成的丛生芽、小鳞茎及膨大鳞茎进行淀粉含量测定与生长特征参数统计,分析各步培养对鳞茎形成发育过程中淀粉含量与形态变化的影响。结果表明:所建立的"三步"培养方案培育出的组培鳞茎直径、重量与鳞片数分别为1.66 cm、2.48 g和26.33片,有效地促进了鳞茎的膨大,并能诱导鳞茎主茎杆的形成发育;在培养进程中其淀粉含量呈现逐步增加的趋势,这表明与鳞茎膨大发育正相关,同时鳞茎大小、重量及鳞片数三者也表现为正相关性;当鳞茎所含鳞片数在26片以上时,其生长点易发育形成主茎杆。该文研究了兰州百合组培鳞茎的形成与膨大发育技术,所研发的"三步"培养组成的鳞茎膨大发育组培技术有效地促进了鳞茎的膨大发育,而膨大发育的鳞茎能有效地缩短田间生长周期,从时间上提高百合生产量,同时为实现兰州百合膨大的鳞茎种球规模化生产提供技术支撑。     

三种百合鳞茎提取物的抑菌作用

采用纸片琼脂扩散法测定了宜昌百合、岷江百合及兰州百合鳞茎甲醇提取物对革兰氏阳性细菌(金黄色葡萄球菌、枯草芽孢杆菌)和革兰氏阴性细菌(大肠杆菌、沙门氏菌)的抑制活性,并对3种百合鳞茎提取物的含量与抑菌活性进行了剂量-效应关系分析。结果表明:3种百合鳞茎提取物对4种细菌均具有抑制活性,对革兰氏阳性细菌的抑菌活性高于对革兰氏阴性细菌的抑菌活性,且宜昌百合和岷江百合两种野生百合鳞茎提取物的抑菌活性均高于普通食用的兰州百合;3种百合鳞茎提取物的含量与抑菌活性之间存在明显的剂量-效应关系,即随着提取物含量的升高,抑菌活性明显升高。     

兰州百合鳞茎发育及低温解除休眠过程中内源激素的变化

以兰州百合为试材,研究了鳞茎发育过程中以及2、6、10℃条件下保湿贮藏101 d内母鳞茎与新鳞茎中内源激素的变化。结果表明：鳞茎发育过程中内源ABA含量以及母鳞茎的GA₃与ZR含量增加,而内源IAA含量以及新鳞茎的GA₃与ZR含量下降。低温贮藏期间,母鳞茎与新鳞茎的GA₃、IAA含量均有升高过程,而ABA含量呈下降趋势;新鳞茎的ZR含量呈下降趋势,母鳞茎的ZR含量也有升高过程。低温处理初期的34 d内,内源激素变化最为显著。不同贮藏温度相比较,ABA含量差异不大,GA₃含量随温度升高而下降。在富含淀粉的新鳞茎中,GA₃和ABA表现出极显著的负相关关系,而在淀粉含量较低的母鳞茎中GA₃和ABA无相关性。通径分析结果表明,母鳞茎与新鳞茎的物质代谢机制不同,母鳞茎的物质变化受内源GA₃的调控,新鳞茎主要是ABA作用的结果。     

植物生长调节剂浸球对花芽分化期石蒜和换锦花鳞茎生化特性的影响

在栽植前采用0(CK)、60、120和180 mg·L-16-BA、GA3和乙烯利对石蒜〔Lycoris radiata(L’Hér.)Herb.〕和换锦花(L.sprengeri Comes ex Baker)鳞茎进行浸球处理,对花芽分化期内(4月至7月)石蒜和换锦花鳞茎中可溶性糖、可溶性蛋白质和核酸含量的变化进行了比较分析。结果表明:在花芽分化期内,随时间的推移,对照组石蒜和换锦花鳞茎中可溶性糖、可溶性蛋白质和核酸含量呈先增加后降低的趋势,并在6月25日(心皮分化期)或7月10日(雌蕊分化期)达到最高值。经60、120和180 mg·L-16-BA、GA3和乙烯利浸球处理后,石蒜和换锦花鳞茎中可溶性糖、可溶性蛋白质和核酸含量在花芽分化期内先逐渐增加,至6月25日或达到峰值后开始下降或继续升高;但与对照相比,随时间的推移,石蒜鳞茎中可溶性糖含量总体上有不同程度的增加,而换锦花鳞茎中可溶性糖含量或高或低无规律性的变化,但各处理组石蒜和换锦花鳞茎中可溶性糖含量均与对照间有差异;可溶性蛋白质含量在进入花原基形成期(5月10日)后始终维持在较高的水平;核酸含量在花芽分化期的前期维持在较低的水平,在雌蕊分化期迅速增加...     

洋葱鳞茎形成过程中不同器官可溶性蛋白质含量及POD活性的变化

依据不同熟性黄皮洋葱鳞茎生长曲线将鳞茎形成过程划分为膨大开始期、迅速膨大期、膨大停止期,并对其鳞茎形成过程中生理生化特性进行了研究。结果表明,不同熟性的品种鳞茎迅速膨大期与叶片迅速增加期存在着不同步现象。相同熟性的品种,不同器官中可溶性蛋白质含量和POD活性变化趋势基本相同,其中根部POD活性最高,其变化可能与洋葱熟性有关;叶片中可溶性蛋白质含量较高,且不同熟性的品种其变化趋势相同。     

百合鳞茎发育过程中碳水化合物含量及淀粉酶活性变化

以兰州百合和亚洲系"精粹"百合为试材,探讨了鳞茎发育过程中不同部位淀粉、可溶性糖含量和淀粉酶活性的变化。结果表明,母鳞茎作为百合萌发阶段的代谢源,其外部鳞片是代谢更为活跃的部位。淀粉和可溶性糖含量同时增加是百合新鳞茎开始膨大的标志。蔗糖是百合鳞茎中可溶性糖的主要形态,还原糖的变化体现了碳水化合物的供应及转化。淀粉酶在百合鳞茎发育过程中对调节和平衡碳水化合物的形态起重要作用。     

低温对东方百合试管鳞茎解除休眠及生长的影响

以东方百合‘索邦’和‘西伯利亚’鳞片为外植体得到的一代试管小鳞茎为试材,研究0℃冷藏不同时间对试管鳞茎生理指标变化,以及试管鳞茎解除休眠和移栽后生长发育的影响。结果表明,冷藏0--28dN,随着冷藏时间的延长,试管鳞茎出苗率逐渐增加,冷藏处理28d达到最高,之后逐渐降低。冷藏期间,试管鳞茎中淀粉含量持续降低,而可溶性总糖和还原性糖含量表现出先升高后下降的趋势,冷藏处理28d的含量最高。同时,随着冷藏时间的延长,IAA和ZR含量逐渐升高,ABA含量逐渐下降,而GA。含量表现出先上升后下降的趋势,并且也在冷藏处理28dN-含量达到峰值。另外,采用隶属函数值对低温处理的试管苗栽培1年后所收获种球的数量、质量等指标进行评价,结果显示,均以低温处理28d时达到最大值。由此得出,0℃低温处理试管小鳞茎28d为解除休眠及促进生长发育的最适处理时间。     

MeJA对大蒜鳞茎膨大及内源激素含量的影响

于大蒜鳞茎开始膨大时叶片喷施茉莉酸甲酯（Methyl Jasmonate,MeJA)可明显促进鳞茎膨大;酶联免疫法（ELISA）测定结果显示外源MeJA影响内源植物激素的含量,10μmol/LM可明显提高大蒜鳞茎膨大过程中IAA（吲哚乙酸）的含量。降低GA1 3（赤霉素）、ABA（脱落酸）的含量,但对iPAs含量的影响不大,分析表明MeJA可能通过与其他植物激素的协调作用而促进大蒜鳞茎膨大。     

On the Taxonomical State of Fritillaria sulcisquamosa and F. puqiensis

F. sulcisquamosa is slightly different from F. unibracteata in pollen morphology and differs external-morphologically from the latter in lacking trellised spots inside tepals. Therefore the former is reduced to a variety of the latter. F. puqiensis is found very similar to F. thunbergii both in pollen morphology and gross morphology. The former is different fromthe latter in geographical distribution and thus reduced to a variety of the latter.     

Role of F1F0-ATPase in the growth of streptococcus mutans GS5

The role of F1F0-ATPase in Streptococcus mutans GS5 was investigated by isolating a mutant (NTS1) defective in enzyme activity by homologous recombination with a plasmid encoding the 5' terminal fragment of the F1F0-ATPase beta-subunit gene. The ATPase activity of NTS1 membranes was 49% that of GS5 membranes. The lag phase of the growth curve of NTS1 was longer than that for GS5, and the lag phase of GS5 and NTS1 were prolonged by the addition of ionophore gramicidin D; at stationary phase, the turbidity of the NTS1 culture was less than that of the GS5 culture. These results suggest that S. mutans F1F0-ATPase contributes to the generation of a stoichiometric electrogenic gradient effectively in the lag phase.     

Lignin peroxidase isoforms from Streptomyces viridosporus T7A: are they a monomer based structure?

Five fractions with lignin peroxidase activity were isolated by FPLC-Mono Q from a Streptomyces viridosporus culture. F4 and F5 showed the highest specific activity and degree of protein homogeneity by chromatofocusing, IEF- and gradient-PAGE. The individual analysis of F4 and F5 by FPLC-Superdex 75, showed MW that were multiples to each other (68,000; 23,000; 12,000), although by SDS PAGE a sole MW of 13,500 was obtained, indicating a monomer based structure. The amino-acid composition of F5 showed absence of sulfur amino acids.     

Regulation of energy balance in photosystems in response to changes in CO2 concentrations and light intensities during growth in extremely-high-CO2-tolerant green microalgae

Regulation of energy balance in photosystems in response to extremely-high-CO2 (40%) and low-CO2 (0.04%) stress was studied in extremely-high-CO2-tolerant green microalgae, Chlorococcum littorale and Chlorella sp. UK001. To investigate the energy input process, we assessed an F714/F685-ratio in a 77K fluorescence emission spectrum induced by 440-nm excitation in intact cells, which represents a ratio of fluorescence intensities derived from light-harvesting chlorophyll complexes in PSI and PSII. The F714/F685-ratio increased in several days after transferring C. littorale cells from air to 40% CO2, from 3% to 40% CO2 and from 3% to air. In all cases, the increase in the F714/F685-ratio was observed in high cell density culture, but no or a little increase was apparent in sparse cell density culture, when these cultures were illuminated at 250 micromol photon m-2 s-1. Even in the sparse culture, however, a similar increase in the F714/F685-ratio was observed when C. littorale cells were transferred from 3% to 40% CO2 at 20 micromol photon m-2 s-1. The cell density did not affect the F714/F685-ratio when CO2 concentration was kept at 3%. The activity of PSI electron (e-) transport was much higher in 40% CO2-grown cells than in 3% CO2-grown cells irrespective of the cell density during the culture, whereas the difference in PSII activity between them was small. The PSI activity at high cell density was higher also in air-grown cells than that in 3% CO2-grown cells. In both dense and sparse culture, 40% CO2-grown cells and air-grown cells showed higher relative quantum yield of PSI in the presence of DCMU than 3% CO2-grown cells, suggesting an increase in cyclic electron flow around PSI. Likewise, the increase in the F714/F685-ratio in response to the transfer to 40% CO2 was observed also in another extremely-high-CO2-tolerant alga, Chlorella sp. UK001. The possible role of the increases in the F714/F685-ratio, PSI/PSII activity ratio and cyclic e- transport activity in extremely-high-CO2 acclimation is discussed in comparison with low-CO2 acclimation.     

A comparative study of the metal ion uptake and antioxidant enzyme activities of Fusarium equiseti and Fusarium acuminatum as a function of external magnesium concentration

The increase of Mg2+, from 1.3 to 3 microM, in growth medium of F. equiseti and F. acuminatum increased intracellular magnesium levels from 0.83 and 0.81 microM to 1.75 and 1.42 microM on the 12th day, respectively. Intracellular magnesium levels also elevated depending upon the number of incubation days. The maximum manganese levels of F. equiseti and F. acuminatum obtained in 1.6 microM Mg2+ culture medium were 0.67 and 1.23 microM, while maximum iron levels were determined to be 1.3 microM Mg2+ as 0.51 and 0.29 microM, respectively. The maximum intracellular iron and manganese levels were decreased significantly with increasing Mg2+ concentration in the culture medium and were increased depending upon the incubation period. However, intracellular zinc levels of these strains didn't change with Mg2+ concentration and incubation period.The maximum superoxide dismutase (MnSOD) activities of F. equiseti and F. acuminatum, related to increased intracellular manganese levels up to 1.6 microM Mg2+ in growth medium, were determined to be 78 and 110 IU/mg, respectively. CAT activity variations showed agreement with SOD activity and reached a maximum at 320 and 225 IU/mg under the same conditions. The minimum LPO levels of the Fusarium strains with the maximum MnSOD and CAT activities were determined as 1.2 and 0.9 nmol MDA/g., wet weight. The higher LPO level of F. equiseti grown at the same condition, in spite of 1.42-fold higher CAT activity due to the 1.41-fold lower SOD activity, as well as a 2.0-fold higher iron level, indicated increases in the generation of reactive oxygen species via the Fenton reaction.     

微生物絮凝剂产生菌的筛选及其培养条件优化

从广西大学食用菌废弃料中分离出7株絮凝剂产生菌,以发酵液对高岭土悬浮液絮凝效果为指标衡量其絮凝活性及产絮凝剂能力,经过初筛与复筛,筛选到一株絮凝剂高产菌F00,初步确定属曲霉属(Aspergillus),并对其产生絮凝剂的条件进行优化.     

Characterization of a fetal urogenital sinus mesenchymal cell line U4F: Secretion of a negative growth regulatory activity

Summary Mesenchymal cell lines derived from fetal rat urogenital sinus organ cultures have been characterized to establish an in vitro system for addressing growth and differentiation regulatory factors involved in mesenchymal-epithelial interactions during prostate morphogenesis. A continuous cell line was developed and designated U4F. Immunocytochemical analysis showed vimentin intermediate filament content confirming a mesenchymal origin. Previous studies with urogenital sinus organ cultures have reported the expression of a negative growth activity, which is stimulatory to protein synthesis and secretion and alters phenotypic morphology of NBT-II bladder epithelial cells. Subconfluent and confluent U4F monolayers did not produce this growth inhibitory activity. Foci of stacked cells were observed 3 wk postconfluency, which evolved into multicellular spheroids. The negative growth activity was expressed in the conditioned medium coordinate with spheroid formation. Transplanted spheroids continued to express the growth inhibitory activity. Morphologic analysis of spheroids showed a cellular capsule and a core of extracellular matrix. A continuous cell strain (U4F1) with altered phenotypic properties, arose spontaneously from long-term U4F cultures. The U4F1 cell strain did not form spheroids, yet expressed the negative growth activity constitutively in monolayer culture. Analyses of physicochemical, immunological, and biological properties showed the activity is identical in conditioned media from urogenital sinus organ cultures, U4F spheroids, and U4F1 monolayers. Based on the combined properties, this activity cannot be ascribed to previously characterized negative growth factors. The establishment of this mesenchymal cell culture system will aid in the further identification of paracrine-acting growth and differentiation regulatory factors secreted by fetal mesenchyme.     

alpha-Glucuronidase and Other Hemicellulase Activities of Fibrobacter succinogenes S85 Grown on Crystalline Cellulose or Ball-Milled Barley Straw

Fibrobacter succinogenes produces an alpha-glucuronidase which cleaves 4-O-methyl-alpha-d-glucuronic acid from birch wood 4-O-methyl-alpha-d-glucuronoxylan. Very low levels of alpha-glucuronidase activity were detected in extracellular enzyme preparations of F. succinogenes on birch wood xylan substrate. The release of 4-O-methyl-alpha-d-glucuronic acid was enhanced when the birch wood xylan substrate was predigested by either a purified Schizophyllum commune xylanase or a cloned F. succinogenes S85 xylanase. These data suggest that the alpha-glucuronidase is unable to cleave 4-O-methyl-alpha-d-glucuronic acid from intact xylan but can act on unique low-molecular-weight glucuronoxylan fragments created by the cloned F. succinogenes xylanase. The cloned xylanase presumably must account for a small proportion of the indigenous xylanase activity of F. succinogenes cultures, since this xylanase source does not support high glucuronidase activity. The alpha-glucuronidase and associated hemicellulolytic enzymes exhibited higher activities in culture fluid from cells grown on ball-milled barley straw than in that of cellulose-grown cells. The profile of xylanases separated by isoelectric focusing (zymogram) of culture filtrate from cells grown on barley straw was more complex than that of culture filtrates from cells grown on cellulose. These data demonstrate that F. succinogenes produces an alpha-glucuronidase with an exacting substrate specificity which enables extensive cleavage of glucuronic acid residues from xylan as a consequence of synergistic xylanase action.     

Effect of surfactants and identification of metabolites on the biodegradation of fluoranthene by basidiomycetes fungal isolate Armillaria sp. F022

The effects of structure and concentration of surfactants on the biodegradation of fluoranthene, a three rings polycyclic aromatic hydrocarbon in the aqueous phase, as well as their effects on the biodegradation and enzyme activity were investigated. The toxicity ranking of studied surfactants is: non-ionic Tween 80 <anionic sodium dodecyl sulfate <cationic Tetradecyltrimethylammonium bromide. The maximum growth of Armillaria sp. F022 (>4,500 mg/L) was showed by Tween 80 (10 mg/L) culture, manifesting that the non-ionic surfactant present in the culture were beneficial to the fungal growth. Laccase showed the highest enzymes activity in all surfactants culture. Non-ionic Tween 80 showed a significant result for laccase activity (1,902 U/L) in the Armillaria sp. F022 culture. The increased enzymes cumulative activity may stem directly from the rising fluoranthene biodegradability as addition of appropriate surfactants. The biotransformation of fluoranthene was greatly improved by Tween 80, and totally fluoranthene degradation was obtained as Tween 80 was 10 mg/L. Two fluoranthene metabolites were isolated from the culture medium and analyzed by a thin layer chromatography, UV visible spectrometer and gas chromatography–mass spectrometry (GC–MS). The oxidation of fluoranthene is initiated by oxygenation at the C-2,3 positions resulting 9-fluorenone. At the end of experiment, one metabolite was detected in the culture extract and identified as phthalic acid. Evidently, Armillaria sp. F022 seems efficient, high effective and deserves further application on the enhanced bioremediation technologies for the treatment of fluoranthene-contaminated soil.     

Purification and partial characterization of lactacin F, a bacteriocin produced by Lactobacillus acidophilus 11088.

Lactacin F, a bacteriocin produced by Lactobacillus acidophilus 11088 (NCK88), was purified and characterized. Lactacin F is heat stable, proteinaceous, and inhibitory to other lactobacilli as well as Enterococcus faecalis. The bacteriocin was isolated as a floating pellet from culture supernatants brought to 35 to 40% saturation with ammonium sulfate. Native lactacin F was sized at approximately 180 kDa by gel filtration. Column fractions having lactacin F activity were examined by electron microscopy and contained micelle-like globular particles. Purification by ammonium sulfate precipitation, gel filtration, and high-performance liquid chromatography resulted in a 474-fold increase in specific activity of lactacin F. The purified bacteriocin was identified as a 2.5-kDa peptide by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The lactacin F peptide retained activity after extraction from SDS-PAGE gel slices, confirming the identity of the 2.5-kDa peptide. Variants of NCK88 that failed to exhibit lactacin F activity did not produce the 2.5-kDa band. Sequence analysis of purified lactacin F identified 25 N-terminal amino acids containing an arginine residue at the N terminus. Composition analysis indicates that lactacin F may contain as many as 56 amino acid residues.