食用真菌发酵豆浆过程中对豆浆中几种生物活性物质的影响

本实验以灵芝、金耳以及冬虫夏草作为发酵菌种,选用豆浆为基本原料配制培养基,在发酵过程中定时取样并测定其中几种生物活性物质的含量,分析各生物活性物质在发酵过程中的变化。研究结果表明,三种食用真菌发酵豆浆的发酵液中总游离型大豆异黄酮含量在发酵过程中均缓慢上升并分别在发酵72 h、24 h和36 h达到最高,与发酵初期相比分别增加了31.81μg/m L、19.05μg/m L和15.71μg/m L;三种食用真菌发酵液中蛋白质含量随着发酵时间的推移而降低的同时氨基酸含量均有增加,且发酵液中的肽主要是分子量范围在300 Da~1 500 Da之间的具有较高生物活性的小分子肽,发酵液中的必需氨基酸含量以及占总氨基酸含量的比值均有增加。本实验探究了食用真菌发酵豆浆过程中生物活性物质的变化,为日后的富集游离型大豆异黄酮、多肽以及氨基酸等生物活性物质实验提供依据,并为工业化生产提供实践基础。     

不同固体发酵培养基下三种白腐真菌分泌的木质纤维素酶活性

本研究选取众所周知的典型白腐真菌树舌灵芝Ganoderma applanatum、毛栓孔菌Trametes hirsuta和木蹄层孔菌Fomes fomentarius作为研究对象,对其利用木质纤维生物质进行发酵及添加有机营养、无机盐、金属离子、表面活性剂等进行了探索,期间以测定漆酶、滤纸纤维素酶、木聚糖酶活性表征3种...     

产灵芝胞外多糖培养基的优化及发酵指标变化

经单因素和正交试验优化,灵芝胞外多糖最佳发酵培养基各成分质量分数为:麦芽糖2%,黄豆粉1%,FeSO4·7H2O0.02%,KH2PO40.1%,土豆汁体积分数30%,pH自然,产量可达到86.36g·L-1(湿重)。灵芝胞外多糖产量受发酵过程各因素的影响,发酵过程中pH、总糖、还原糖和氨基氮有一定的相关性。灵芝多糖整个发酵过程需要144h左右,第6d达到发酵终点。     

食药用真菌多糖及复合多糖生物活性研究

食药用真菌多糖有多种生物学功能,在抗肿瘤、免疫调节作用、抗衰老、降血脂等方面发挥着重要的生物活性.对正常细胞无毒副作用是食药用真菌多糖的突出优点.合适剂量食药用真菌多糖配伍使用时,各多糖间药理作用呈现协同性,可以提高在抗肿瘤、免疫调节等方面的药效.     

三种苦瓜多糖的体外发酵特性比较研究

采用体外发酵技术评价分段醇沉提取的3种苦瓜多糖(MCP1、MCP2和MCP3,乙醇终浓度分别为45%、60%和75%)对三元猪盲肠食糜的发酵特性和发酵产物的影响。于不同发酵时间点记录产气量,48 h后检测发酵液pH值、NH3和短链脂肪酸(SCFA)含量。结果表明,MCP1和MCP2发酵动力学参数最优,显著优于葡萄糖和空白对照组(P0.05);MCP2和葡萄糖组pH值最低,MCP1和葡萄糖组的NH3含量最低;葡萄糖组的丙酸、异丁酸和SCFA总量显著高于其它各组(P0.05);MCP2的乙酸、异丁酸和SCFA总量显著高于其它多糖组(P0.05)。结果提示,MCP1和MCP2是2种理想的可被盲肠微生物利用的碳源,并可改变微生物发酵产生的SCFA含量与组成。     

酵母菌和食用真菌混合固态发酵配合蛋白饲料的应用研究

双菌混合发酵是现代发酵技术发展趋势之一,高温酵母菌和担子茵混合固态发酵尝试了一种生产配合饲料的新技术,高温酵母菌生长速度快,适应性强,蛋白含量高;担子菌分解纤维素和半纤维素能力强,利用它们各自特点,经双菌协同混合发酵,不但提高了淀粉渣的蛋白质含量,而且也降低了纤维素和半纤维素含量,从而使无法直接利用的淀粉渣转化为优质配合蛋白饲料。      

出芽短梗霉在三种不同氮源的培养基中多糖积累以及形态变化

本研究旨在阐明出芽短梗霉在不同氮源培养基中形态和胞外多糖的积累及化学成分变化。采用摇瓶法培养出芽短梗霉。三种培养基的氮源分别为硝酸钠(培养基1,M1)、硫酸氨、酵母膏(培养基2,M2)和硫酸氨、蛋白胨和酵母膏(培养基3,M3)。M1培养基中,菌丝体和单细胞的生物量积累均比M2、M3低,但胞外多糖的产量则等于甚至略超过M2和M3。在指数生长的前期,白色菌丝体和酵母状细胞状态占优势。指数生长的后期,以厚垣孢子、肿大细胞和黑色菌丝体占优势。胞外多糖都能为茁霉多糖酶水解为麦芽糖和麦芽三糖,说明这些多糖的化学组成都具有(1→4,1→6)-α结构的茁霉多糖。但M1中产生的茁霉多糖结构单元为麦芽糖和麦芽三糖,且二者比例相当。M2中茁霉多糖的麦芽糖结构单元明显减少,而M3中144h后麦芽糖结构单元完全消失。这似乎表明氧化性的氮源和低溶解氧水平可能是造成茁霉多糖结构单元同时具有麦芽糖和麦芽三糖的原因。     

短梗霉多糖发酵过程特征的研究

本文针对短梗霉多糖发酵过程,经研究建立了基于逻辑方程和Luedeking—Piret方程的动力学模型： dx／dt=肛x(1一x／xm) dP／dt=m1x十m2(dx/dt) ds／dt=-b1x-b2(dx／dt)-b3(dP／dt) 其流变特性由初始时的牛顿流体转变为典型的假塑性非牛顿流体并遵从指数方程,即：τ=Kγn随发酵过程进行,发酵液的表观粘度增大,体积氧传质系数减小。搅拌转速的增加有利于提高体积氧传质系数。流变指数n、稠度系数K、气液传质系数Kla。与菌体浓度x、多糖浓度P、搅拌转速N及表观粘度ηa间分别有如下经验方程; k=1．2×10-2X2.43 n=0．461(P／Pm)0.07(x／xm)0.216 KLaDi2=1．48×104(D:N2)0.71(ηW)0.15 Dg ηa     

食用真菌病毒的研究概况

食用真菌在我国栽培历史悠久,在世界许多国家也有广泛的栽培。据1984年不完全统计,世界食用菌产量约1336000吨,我国的产量可能仅次于美国而与法国的相当。1988年,我国食用菌的产量和出口量已跃居世界第一位。随着大规模生产的发展,病害问题受到人们的关注,其中病毒病因为不易辩认或症状时隐时现     

Mixed-acid fermentation and polysaccharide production by Lactobacillus helveticus in milk cultures

Lactobacillus helveticus grown in milk with pH control at 6.2 had a slower growth rate (=0.27 h^–1) and produced less exopolysaccharide (49 mg l^–1) but increased lactic acid production (425 mM) compared to cultures without pH control (=0.5 h^–1, 380 mg exopolysaccharide l^–1, and 210 mM lactate), respectively. Both cultures displayed a mixed-acid fermentation with formation of acetate, which is linked not only to citrate metabolism, but also to alternative pathways from pyruvate.     

Improved growth of salinity-stressed soybean after inoculation with salt pre-treated mycorrhizal fungi

Two sets of experiments to determine the effect of mycorrhiza on soybean (Glycine max) growth under saline conditions and to investigate the salt acclimation of mycorrhizal fungi were conducted. In the first experiment, the effect of an arbuscular mycorrhizal (AM) fungus Glomus etunicatum on mineral nutrient, proline and carbohydrate concentrations and growth of soybean. Under different NaCl concentrations (0, 50, 100, 150 and 200mM) was evaluated. Salinity decreased AM colonization. In both the M and nonAM plants shoot and root proline and shoot Na and Zn concentrations were increased under salinity. Soybean plants inoculated with the AM fungus had significantly higher fresh and dry weight, root proline, P, K and Zn but lower shoot proline and Na concentrations compared to the non inoculated plants. In the second experiment, the AM fungus was pre-treated with NaCl (salt acclimation) then was used as inoculum for soybean plants subjected to 100mM NaCl. Root colonization, fresh and dry weight, root proline, P, K and Zn concentrations were greater in soybean plants inoculated with the salt pre-treated fungus, compared to those inoculated with the nonsalt pre-treated fungus. However, for Na, the situation was the opposite. Based on these results, the AM inoculation helps the growth of soybean plants grown in saline conditions. When the AM fungus was pre-treated with NaCl with a gradual increase of concentration, and then exposed to a sudden salt stress, their efficiency was increased. This may be due to the acclimation of the AM fungus to salinity.     

Enrichment of soybean milk with calcium

Calcium in soymilk was increased to that of human milk by the addition of 0.2% calcium lactate. It was, however, impossible to raise the calcium content of soymilk to that of cow's milk. The maximum amount of calcium lactate that could be added to soymilk without coagulation of the milk protein was found to be 0.45% which resulted in about 75 mg of Ca/100 ml of soymilk. This amount was approximately 60% of the calcium in cow's milk. Sodium citrate had to be added in combination with calcium lactate to reinforce colloidal stability of the milk. The ratio of Ca to P in the milk containing added 0.45% calcium lactate was comparable to that of cow's milk and at the amount normally consumed daily by infants and children it seemed to meet the requirements of Ca and P.     

Changes in fungi with age

Summary The uptake and incorporation of l-phenylalanine and l-leucine into various cell fractions of Rhizoctonia solani and Sclerotium bataticola decreased with cell age. As would be expected, most of the radioactivity from the amino acids was distributed in the soluble and protein fractions. Ratios of the radioactivity in the soluble fraction to that in the protein fraction indicated that in R. solani the mechanism for protein synthesis decreased with age. However, in S. bataticola, the decrease in protein synthesis with age may be due to a decrease in permeability to the amino acids.     

传统绍兴黄酒酿造真菌群落与多样性发生机制

为了揭示绍兴黄酒酿造真菌群落与多样性的发生机制,依托Illumina MiSeq PE300高通量测序平台对淋饭酒母、麦曲与发酵醪液样本中的真菌资源进行研究。从淋饭酒母、麦曲、初醪、熟醪样本中分别获得136000、215283、166150、143624条优化序列,聚类后分别得到32、133、107、84个操作分类单元(OUT),酿造真菌多样性与丰富度表现出麦曲＞初醪＞熟醪＞淋饭酒母的趋势。从门水平来看,所有样本中的子囊菌均占有绝对优势;在属水平上,酵母在淋饭酒母中表现出明显的优势,曲霉为麦曲中的优势真菌,初醪与熟醪中的优势真菌主要是酵母和曲霉。随着黄酒酿造时间的延长,醪液中酵母的比例逐渐升高,而包括曲霉在内的其他真菌类群表现出逐渐减少的趋势。主坐标分析(PCoA)和相似性聚类分析结果表明,淋饭酒母、初醪和熟醪中的菌群结构更为相近,而麦曲中的真菌资源与其他样本差异很大。对落缸发酵的初始醪液中真菌群落特征进行分析发现,淋饭酒母与麦曲对绍兴黄酒酿造真菌群落的形成具有重要影响。在酿造真菌群落构建过程中,源于淋饭酒母、麦曲等糖化发酵剂的优势种类发挥主导作用。     

Biotechnological advantages of laboratory-scale solid-state fermentation with fungi

Despite the increasing number of publications dealing with solid-state (substrate) fermentation (SSF) it is very difficult to draw general conclusion from the data presented. This is due to the lack of proper standardisation that would allow objective comparison with other processes. Research work has so far focused on the general applicability of SSF for the production of enzymes, metabolites and spores, in that many different solid substrates (agricultural waste) have been combined with many different fungi and the productivity of each fermentation reported. On a gram bench-scale SSF appears to be superior to submerged fermentation technology (SmF) in several aspects. However, SSF up-scaling, necessary for use on an industrial scale, raises severe engineering problems due to the build-up of temperature, pH, O₂, substrate and moisture gradients. Hence, most published reviews also focus on progress towards industrial engineering. The role of the physiological and genetic properties of the microorganisms used during growth on solid substrates compared with aqueous solutions has so far been all but neglected, despite the fact that it may be the microbiology that makes SSF advantageous against the SmF biotechnology. This review will focus on research work allowing comparison of the specific biological particulars of enzyme, metabolite and/or spore production in SSF and in SmF. In these respects, SSF appears to possess several biotechnological advantages, though at present on a laboratory scale only, such as higher fermentation productivity, higher end-concentration of products, higher product stability, lower catabolic repression, cultivation of microorganisms specialized for water-insoluble substrates or mixed cultivation of various fungi, and last but not least, lower demand on sterility due to the low water activity used in SSF.     

Kinetics of polysaccharide B-1459 fermentation

Polysaccharide gum was made by fermentation with Xanthomonas campestris NRRL B-1459 in a medium of glucose, minerals, and distillers' solubles. The effect of distillers' solubles on growth rate can be described by the familiar saturation equation. Although a quasistoichiometric relationship was observed between nitrogen utilization and growth, total nitrogen supply was not growth limiting, nor was polymer formation growth associated. Cell growth primarily took place in the early part of the fermentation; polysaccharide biosynthesis occurred throughout the fermentation. Glucose was converted to polysaccharide at a fairly constant yield, which was 70–80% of glucose consumed, under optimum conditions. The kinetic patterns observed indicate that multistage continuous fermentation will be suitable for polysaccharide production.     

Physico chemical alterations in desugared buffalo milk after fermentation withSaccharomyces fragilis

Summary Buffalo milk was completely desugared by fermentation for 17 h withSaccharomyces fragilis. A thin-layer chromatographic profile indicated the total absence of lactose, galactose, glucose and any oligosaccharides. Desugaring by fermentation did not alter the lipid composition or the protein content of the milk. Gas chromatographic studies indicated the formation of volatile compounds such as acetaldehyde, ethyl acetate, ethyl alcohol, n-propanol, n-butanol and isoamyl alcohol. A pleasant fruity odour observed in the initial stage of fermentation changed to an overripe fruity odour on fermentation. The volatile compounds formed disappeared on spraydrying the milk, leaving only a residual yeasty odour in the desugared milk powder.     

Association of bacteria with the fungal fermentation of soybean tempe

Bacteria grew to viable populations of 10(8)-10(9) cfu/g during the fermentation of soybeans into tempe with the fungus, Rhizopus oligosporus. Bacillus pumilus and B. brevis were the predominant bacterial species, reaching populations of approximately 10(8) cfu/g during the 48 h fermentation. Species of Streptococcus faecium, Lactobacillus casei, Klebsiella pneumoniae and Enterobacter cloacae also contributed to the fermentation and achieved populations of 10(6)-10(7) cfu/g.