灵芝液体发酵条件的研究

本文研究了某些因素对灵芝液体发酵的影响。4天菌龄的液体菌种发酵效果最好;300毫升三角瓶以装入60毫升培养液发酵较合适;蔗糖、花生饼粉分别为灵芝液体发酵的理想碳、氮源;液体发酵培养基最佳配方为:蔗糖4％、花生饼粉3％、硫酸铵0.15％、磷酸二氢钾0.15％,可得灵芝菌丝体百分干重为0.83,每100毫升发酵液得粗多糖0.3克。     

灵芝液体发酵条件的优化研究

通过单因素和正交试验,优化灵芝5760深层培养的营养需求与环境条件对灵芝菌丝体生物量及次生代谢产物发酵液多糖的作用。结果表明,适宜灵芝液体菌种培养和液体发酵的培养基配方为麦麸粉5%,黄豆饼粉3%,KH2PO40.10%,MgSO40.09%;适宜的环境条件为初始pH5.5,装液量32%,生物量最大时为第8～9d;适宜接种的种龄为6d,接种量为10%;发酵周期6d,搅拌转速150r/min,消沫剂添加量可为0.20%。从硒对灵芝5760菌丝体生长及深层发酵生物量的影响,灵芝5760富硒培养适宜浓度为100μg/mL;从加硒时间对生物量的作用,在菌龄适宜时期加入即第1d。     

假蜜环菌发酵工艺的优化研究

目前,国内普遍采用亮菌固体发酵工艺生产亮菌制剂。采用小型发酵罐液体深层发酵和液体静置发酵对亮菌发酵工艺进行优化研究。液体深层发酵采用28℃,200 r/min,通气量1∶1 v/v·m,培养7 d,亮菌干重为16.55g/L,其中菌丝体中多糖含量为5.42%,蛋白含量为1.75%;液体静置发酵采用500 mL三角瓶,28℃,150 r/min,摇瓶3 d后静置发酵14 d,亮菌干重可达10.69 g/L,发酵液中多糖含量为1.016 g/L,蛋白含量为0.320 g/L。对液体静置发酵进一步研究发现其发酵液中亮菌甲素含量可达3.118 mg/L。由此可见,两种发酵方式在保证生物量和活性成分的前提下,缩短了发酵周期,均优于传统的固体发酵工艺,值得工业生产借鉴。     

蛹虫草液体培养条件优化及有效成分含量分析

为优化蛹虫草菌的液体培养条件,对蛹虫草菌丝体进行液体摇瓶培养。以干菌丝体得率为指标,对影响发酵产量的重要因子设计正交试验,得出最佳培养条件。在最优条件下扩大培养,检测此时菌丝体中虫草素及虫草多糖含量。结果表明:蛹虫草菌丝体液体发酵的最适条件为:接种量10 % (v/v) ,发酵初始pH7 0 ,发酵温度2 7℃,发酵时间96h。扩大培养后,测得菌丝体中虫草素的含量为5 1 785mg/10 0g ,虫草精多糖含量为1 92g/10 0g。     

樟芝对氮素营养源利用的研究

采用 5种不同的氮素营养源 ,配制合成液体培养基 ,测定各种氮源对樟芝菌丝液体深层培养的影响。结果表明 ,樟芝对 5种氮源的利用表现明显的差异性 ,对有机氮利用较好 ,尤其是酵母膏 ,无论是菌球数量还是菌体收率均高于蛋白胨。酵母膏的菌球数量达 1 2 5 8个 /dL,比蛋白胨多出 63 8个 ;菌体干重为 7 2 1 6g/dL比蛋白胨高出 1 45 0g/dL。樟芝对无机氮的利用不如有机氮 ,其中对硫酸铵能够利用 ,而对硝酸铵的利用较差 ,对碳酸铵基本不能利用。樟芝菌丝在液体深层培养过程中 ,pH值变化幅度不大 ,基本处于平缓状态。有机氮处理的发酵液起始pH值与终止pH值呈上升趋势 ,而无机氮处理的发酵液pH值呈下降趋势 ,但下降的幅度不大 ,尤其是碳酸铵 ,pH值一直处于偏碱性状态 ,不适合樟芝菌丝的生长。樟芝在马铃薯基础培养基中 ,不同氮源的各个处理 ,菌球生长都比较均匀 ,表面光滑 ,没有分枝 ,圆形或肾形 ,且发酵液有浓郁的果香味。     

绒毛栓孔菌液体培养过程中胞外酶活性的研究

本研究以绒毛栓孔菌为材料,采用液体培养的方法分析其在发酵过程中胞外酶的活性变化,并对其菌丝体生物量和发酵液pH值进行了测定。结果表明:胞外酶活性与菌丝体生长状况密切相关。菌丝体生物量增长呈"S"型,6～8d增长最快,第12天达到最大值,在此过程中漆酶、锰过氧化物酶、淀粉酶、羧甲基纤维素酶、果胶酶和蛋白酶活性均出现高峰。酶活性的变化表明,在液体培养过程中绒毛栓孔菌首先分解木质素,其次利用淀粉和纤维素作为碳源,蛋白质作为氮源。若要获得最大菌丝体生物量,缩短培养时间,就必须在培养过程中保证碳氮源的均衡供给。本试验说明不同的酶其分泌高峰期可以作为判断菌丝体营养利用情况和培养周期的依据,以此获取最大菌丝体生物量,为工业生产利用奠定基础。     

L-精氨酸高产菌红曲霉的筛选及发酵初步研究

对不同样品中的真菌进行了L-精氨酸高产菌株的筛选,从红曲米中分离出1株高产L-精氨酸菌株红曲霉H13,其初始发酵液中L-精氨酸产量为1.67 g/L.通过单因素实验对其液体发酵进行研究.结果表明,最佳碳源是可溶性淀粉,最佳浓度为10％,最佳氮源是蛋白胨,最佳浓度为3％,最佳pH值4.5,温度30℃,种子培养时间为18 h,摇瓶装液量50 mL/250 mL.转速为120 r/min,发酵时间7d.在此条件下进行发酵培养,所得发酵液产L-精氨酸4.08 g/L,菌丝体干重为10.32 g/L,菌丝体中L-精氨酸含量为24.17 mg/g.     

灵芝MP-01菌株液体发酵培养基的筛选

对灵芝MP-01菌株在三种培养基上的生长性状进行了研究,并对其液体发酵过程中的pH值变化、发酵全液的多糖含量变化、菌丝生物量及发酵培养性状等进行了观测。结果表明,玉米面培养基是灵芝MP-01菌株液体发酵的适宜培养基,其适宜的终止发酵时间在培养的第6 d,此时发酵液多糖含量达到10.32 mg/mL。     

假蜜环菌液体深层发酵条件的研究

对该真菌菌丝体的液体深层培养条件进行了探讨为进一步工业化发酵提供参考数据。方法：在基本培养基的基础上分别改变碳源、氮源、无机元素和C／N比对该菌的液体深层发酵情况,包括测量各培养条件下耗糖情况、绘制生长曲线,观察菌体的生长形态等等。结果：假蜜环菌的菌丝产量在第6d可达到最大值,其后会逐渐降低,并伴有溶菌的现象发生。在培养初期加入微量钴元素有利于刺激糖代谢提高菌体对糖的利用率,其作用主要是缩短延滞期。进入指数生长期后连续补加碳源有利于菌体迅速生长。优化后培养基组成为：葡萄糖l％和蔗糖1％为碳源,以酵母浸膏l％为氮源,KH2PO4 0．1％,MgSO4 0．05％Z,元素钴适量。液体深层发酵培养6d后菌丝生长状态已达到最佳,在此条件下搅拌发酵培养可收获20mg/ml(干重)的菌丝体。     

一株产酸蜡样芽孢菌的筛选鉴定及发酵条件优化

从牛粪中分离得到一株产酸芽孢菌GF1,经鉴定为蜡样芽孢杆菌,该菌株发酵最低pH值可达到4.25,发酵最终芽孢率可达到90%以上,对该菌株液体发酵培养发现GF1具有良好的生长性能,通过优化培养条件和培养基中的C源、N源,最终确定GF1发酵条件为:发酵液初始pH值7.5,摇床转速220 r/min,培养温度35℃,培养时间48 h,配方为:酵母膏0.5%,蛋白胨0.6%,葡萄糖1.0%,K2HPO4 0.5%,MgSO4 0.02%,MnSO40.08%.     

Chemical Composition of the Edible Mushroom Pleurotus ostreatus Produced by Fermentation

Pleurotus ostreatus `Florida' was grown in submerged liquid culture. The biomass yield of the fungus, grown for 3 days in 2-liter fermentors, where the mycelial pellets measuring 5 mm in diameter were formed, was 11.7 g (dry weight)/liter. Comparing the chemical constituents of fruiting bodies produced on cotton straw and mycelial pellets revealed several similarities in total nitrogen, protein, glycogen, fatty acids, RNA, and ash content. Differences were observed in the contents of six amino acids. Although the total fatty acid content was similar, there were more saturated fatty acids in the mycelium. Cell wall composition, typical for basidiomycetes, was observed in both mycelium and fruiting bodies, with laminarin as the main polymer.     

马铃薯干腐病菌硫色镰孢的生物学特性

从碳源、氮源、酸碱度及生长温度等方面对引起马铃薯干腐病的硫色镰孢Fusarium sulphureum的生物学特性进行了研究。结果表明,该病原菌在不同发育阶段对营养和环境条件的要求存在差异。在固体培养基上,菌落生长最佳碳源为葡萄糖、麦芽糖,最佳氮源为蛋白胨,pH8为最佳;在液体培养基中,菌丝体生长以麦芽糖为最佳碳源,以硝酸钠为最佳氮源,pH6为最佳;在分生孢子萌发阶段,在以羧甲基纤维素钠、蛋白胨和谷氨酸为碳、氮源的营养液中,分生孢子萌发率最高,最适pH6-8。该病菌最适生长温度为25℃,分生孢子致死温度为50℃10min。     

源自不同寄主的灰葡萄孢生物学特性的比较研究

本研究以分离自番茄、辣椒、草莓、葡萄的灰葡萄孢Botrytis cinerea为供试菌株,从生长温度、pH适应性、碳源、氮源营养利用等方面对不同寄主来源的灰葡萄孢菌株的生物学性状进行了比较研究。结果表明,5个不同寄主来源的灰葡萄孢菌株的菌丝生长温度范围相同,均为0-35℃;但它们的最适生长温度和分生孢子致死温度存在差异,来自和县番茄菌株HX12最适生长温度为20℃,分生孢子致死温度为47℃ 10min,其余最适生长温度均为25℃,分生孢子致死温度均为48℃ 10min;不同菌株在相同温度下的生长速率有显著差异。pH对不同寄主来源灰葡萄孢菌株菌丝生长的影响存在差异,来自长丰辣椒的菌株LJ菌丝在pH2-9的范围内均能生长,以在pH3-6.5时生长较快,pH6时最快;其余4个菌株在pH2-12的范围内均能生长,以在pH3-9时生长较快,pH6左右最快。不同碳源、氮源营养对灰葡萄孢菌株菌丝生长和分生孢子产生均有显著影响,不同寄主来源的菌株间在碳源、氮源营养利用差异均极显著。在相同碳源、氮源营养条件下,不同寄主来源的菌株的线性生长、菌丝干重和分生孢子产量均有显著差异。     

绿僵菌无纺布菌条的制作(I)液体种子培养条件

研究了金龟子绿僵菌菌株M a83液体培养最佳营养及环境条件,为无纺布培养提供良好的液体种子。以生物量为指标,通过液体摇瓶试验确定了绿僵菌M a83菌株液体种子培养参数,对不同的氮源、碳源及其浓度和初始pH进行单因素分析。结果表明,绿僵菌M a83菌株液体种子培养最佳营养条件为4%黄豆粉,2%白砂糖,0.5%MgSO4.7H2O,0.05g/LKC l,0.1g/L FeSO4.7H2O,1.0g/L KH2PO4,pH6.3~6.5。70L发酵罐培养,干生物量第三天可达35g/L,显著优于筛选前培养基(SDA,28g/L,a=0.05)。     

Decolourisation of Acid Violet 7 with complex pellets of white rot fungus and activated carbon

Complex mycelium pellets of a white rot fungus, Trametes versicolor, with activated carbon powder were prepared and investigated for decolourisation of an azo dye, Acid Violet 7. The pellets had a black core of activated carbon powder that was surrounded by a layer of white fungal mycelium. Compared to the activated carbon powder, the mycelium pellets (activated carbon free), and the mycelium pellets plus the activated carbon powder that was added into a dye solution, the complex pellets showed the highest and the most stable activity of dye decolourisation in batch cultures. The high decolourisation rate of the complex pellets was attributed not only to dye adsorption by the activated carbon in the complex pellets, but also to adsorption of extracellular enzymes and other reagents involved in dye decolourisation as well as the closeness between the dye molecules and the fungal cells. The complex pellets were further evaluated in a fluidized-bed reactor in two operation modes: a continuous flow feeding and a repeated-batch feeding. The latter gave higher and more stable decolourisation efficiency than the former. Production of laccase in flask culture and the fluidized-bed bioreactor was also compared.     

Bikaverin,an antibiotic fromGibberella fujikuroi,effective againstLeishmania brasiliensis

The red quinone C₂₀H₁₄O₈ (mp 322–324), named bikaverin was isolated from mycelium ofGibberella fujikuroi. Bikaverin is specifically effective againstLeishmania brasiliensis while is not effective against other protozoa, bacteria and fungi. For production of bikaverin in a submerged culture the most convenient media are those with a natural source of nitrogen (corn-steep liquor, soyabean meal) in which the content of bikaverin ranged from 1.0 to 1.7% of dry weight of mycelium.     

Growth morphology of Streptomyces akiyoshiensis in submerged culture: influence of pH, inoculum, and nutrients.

Most media in which the growth of shaken submerged cultures of Streptomyces akiyoshiensis was examined did not support the formation of well-dispersed mycelial suspensions. Investigation of the culture conditions promoting dispersed growth showed the pH of the culture medium to be of critical importance; an initial value of 5.5 minimized aggregation of the mycelium while supporting adequate biomass production. In cultures started at this pH, spore inocula gave better mycelial dispersal than did vegetative inocula; with spore inocula, growth morphology was also less affected by inoculum size. The composition of the nutrient solution influenced the extent of mycelial dispersal; slow growth was often associated with clumping but no clear correlation was observed between pellet formation and the ability of carbon or nitrogen sources to support rapid growth. Increasing the phosphate concentration from 0.5 to 15 mM caused a modest decrease in mycelial aggregation. Conditions promoting a well-dispersed mycelium suitable for studying the physiological control of secondary metabolism also supported the formation of 5-hydroxy-4-oxonorvaline by S. akiyoshiensis.     

Construction costs and mesostructure of leaves in hydrophytes

Construction costs (CC) and parameters of leaf structure (specific leaf weight, dry matter content, volume of photosynthesizing cells, and the number of cells per leaf area unit) were determined for 19 species of aquatic higher plants. The CC of 1 g dry matter varied from 0.98 g glucose in Lemna gibba L. to 1.48 g glucose in Nuphar pumila (Timm) DC. and Potamogeton natans L. The CC of leaf area unit varied to a greater extent than the CC of 1 g dry wt (from 10 to 97 g glucose/m²) and depended on the type of mesophyll structure. In leaves of hydrophytes with dorsoventral mesophyll structure, the CC of 1 m² leaf area was 3–9 times larger than in leaves with homogeneous structure. Variations in CC of 1 m² leaf area in hydrophytes were affected insignificantly (by 2% only) by variations of CC per 1 g dry wt and were mainly determined (by 82%) by changes in specific leaf weight. Two-factor analysis of variance has shown that the CC of 1 g dry wt in hydrophytes depended on the attachment of plants to the sediment: the CC was 1.2 times larger in rooted hydrophytes than in free floating plants. The second factor (the extent of submergence) potentiated the effect of rooting on CC. Reliable differences were found between the leaf CC for hydrophytes belonging to four groups distinguished by the extent of their contact with water and sediment. In a group series: rooted hydrophytes with floating leaves → submerged rooted hydrophytes → free floating submerged hydrophytes → free floating surface inhabiting hydrophytes, the CC of 1 g dry wt decreased by 1.3 times. Path analysis has shown that this trend was due to the increase in photosynthesizing cell volume and to reduction in number of cells per leaf area unit, which caused the decrease in dry matter content. The decrease in the content of leaf dry matter was accompanied by changes in its chemical composition: the content of carbon and nitrogen decreased. This led to a consistent decrease in leaf CC expressed per 1 g dry wt upon the increase in extent of plant hydrophilicity.     

水葫芦黑斑病菌Alternaria alternata的生物学特性研究

在不同试验条件下培养水葫芦黑斑病菌Alternaria alternata菌株,探讨其主要的生物学特性,结果表明：该菌株生长的最佳培养基为PSA,最佳C源为葡萄糖,弱碱性和中性N源对该菌菌丝生长具有明显的促进作用,而酸性N源对其具有抑制作用。菌株生长的最佳pH值为pH7,最适温度为27℃。湿度越大,对菌株生长越有利。