去甲基万古霉素菌种低温冷冻、冷干保藏条件优化及10 年菌种保藏效果

【目的】针对去甲基万古霉素产生菌不耐保藏的问题,改进菌种保藏方法,对超低温液氮保藏、-80°C低温冷冻保藏、冷干保藏方法跟踪考察10年保藏稳定性,评价不同保藏方法对去甲基万古霉素产生菌的保藏适用性。【方法】采用甘油作基础保护剂进行超低温液氮保藏和-80°C低温冷冻保藏,采用脱脂牛奶作基础保护剂进行冷干保藏,针对超低温液氮保藏进行降温速率考察,研究非渗透性冷冻保护剂海藻糖、聚乙烯吡咯烷酮(PVP)等对3种保藏方法的冻存影响,对优选出的保藏方法进行10年跟踪考察。【结果】3种保藏方法冻后菌种存活率依次为:-80°C低温冷冻保藏超低温液氮保藏冷干保藏。液氮保藏最适降温速率为快速冷冻。优选出最佳保护剂配方:超低温液氮保藏为甘油8.0%,海藻糖3.5%;-80°C低温冷冻保藏为甘油6.0%,PVP 5.0%;冷干保藏为脱脂牛奶,6.0%海藻糖。采用优化保藏条件,液氮保藏10年存活率稳定在70.6%,菌种发酵水平为入藏水平的92.9%。【结论】在优化条件下,尤以超低温液氮保藏适合于去甲基万古霉素产生菌长期保藏。     

冷风干燥制备高活菌的恶臭假单胞菌菌粉

【目的】获得高活菌恶臭假单胞菌菌粉,提高菌体干燥及保藏存活率。【方法】选用冷风干燥法制备活菌粉,并优化吸附载体与保护剂。【结果】冷风干燥制备恶臭假单胞菌菌粉干燥存活率普遍达到65%以上,显著优于喷雾干燥(24%);对载体与保护剂进行正交试验优化,确定了载体为混合的硅藻土和碱处理玉米芯粉,混合比为1:2,保护剂(质量比)为甘露醇7%、谷氨酸钠5%、甘油1%,制得菌粉活菌数为1.03×1011 CFU/g,室温保藏30 d和4 °C保藏60 d存活率分别达到40.54%和71.67%。【结论】冷风干燥温度相对较低(10?40 °C),对菌体损伤小,碱处理玉米芯粉、甘露醇和谷氨酸钠是提高菌粉保藏存活率的重要因子,此法克服了革兰氏阴性菌菌粉不易制备和不耐保藏的瓶颈。     

寺河矿煤地质产甲烷微生物菌群的保藏和产甲烷性能

【背景】煤地质产甲烷微生物菌群可以代谢煤基质产生甲烷,对于实现煤层气资源的再利用具有重要意义。【目的】检测产甲烷菌群在保藏过程中群落结构的动态变化以及在产气实验中甲烷气的生成情况,以验证保藏方法的可行性,同时为煤层气的微生物增产奠定基础。【方法】分别于不同温度条件下比较3种菌种保藏方法,即甘油/L-半胱氨酸法、富营养法和煤基-基础盐法。通过产气实验检测不同保藏条件下产甲烷菌群的活力。同时,采用454高通量测序技术测定16S r RNA基因序列,分析25°C条件下煤基-基础盐菌种保藏过程中微生物群落结构的变化。【结果】比较了9组菌种保藏方法,发现菌种最佳保藏条件为25°C的煤基-基础盐保藏。在该条件下保藏的产甲烷菌群活性最高,甲烷生成量最大。以无烟煤为碳源进行产气实验时甲烷生成量为12%-25%,而以褐煤为碳源时甲烷生成量可达24%-73%。在25°C的煤基-基础盐菌种保藏条件下,保藏初期细菌的主要优势菌为假单胞菌属(Pseudomonas),而古菌的主要优势菌为甲烷八叠球菌属(Methanosarcina)。随着保藏时间的增加,细菌的群落结构变化显著,发酵细菌及产氢产乙酸细菌成为优势细菌,古菌的群落结构则相对稳定。【结论】菌种保藏的最佳条件为25°C的煤基-基础盐,保藏的产甲烷菌群能长期维持在较高的活性状态,具有较好的产甲烷能力。     

菌种保藏方法对裂殖壶菌生长及发酵性能的影响

考察保护剂、保藏温度及预冷冻方法对Schizochytrium sp.HX-308菌种存活率及发酵性能保持的影响。结果显示:在-80℃低温保藏6个月后,渗透性保护剂的细胞存活率均比非渗透性保护剂高了5%,其中用60%(质量分数)海藻糖的保护剂最终的株细胞存活率达到80.02%,明显优于其他保护剂。采用液氮-196℃保藏菌种(两步预冷冻法、60%海藻糖保护剂),存储6个月后存活率高达90.70%,生物量、油产量和二十二碳六烯酸(DHA)产量分别达到了61.65、26.41和11.10 g/L,为最优的保藏方法,为裂殖壶菌的实验室研究及工业化生产提供了一种长期安全的保藏法。     

几种真姬菇菌种保藏方法的保藏效果对比

【背景】菌种保藏方法与保藏效果是菌种质量的前提和保证。随着真姬菇Hypsizygus marmoreus栽培规模和产量的逐年递增,选择最佳的菌种保藏方法也越来越迫切。【目的】对真姬菇菌种的常见保藏方法及保藏效果进行分析和研究,寻找简便、高效、廉价的真姬菇菌种保藏方法。【方法】通过对比菌丝生长率、菌丝脱氢酶活性以及菌丝对色度培养基的脱色率等指标参数来评价保藏方法的保藏效果。【结果】通过对三大类27种真姬菇菌种保藏方法 3个月保藏效果的对比分析发现,三大类菌种保藏方法中保藏效果最好的是水溶液保藏法,其中以0.1%PEG6000水溶液保藏效果最佳;其次为木屑保藏法,其中以盐水浸泡过的杨木木屑保藏效果最好;斜面保藏法效果最差。正常保藏实验的效果好于加速保藏实验。【结论】与当前真姬菇菌种保藏的常规方法相对比,本实验所采用的菌种保藏方法大大拓宽了菌种保藏方法的种类与范围,提高了菌种保藏的效果。     

冻干高活力纳豆芽胞杆菌菌粉保护剂的筛选和优化

【目的】对冻干高活力纳豆芽胞杆菌菌粉保护剂进行筛选和优化研究,提高菌粉活菌存活率。【方法】采用单因素实验和正交实验设计,通过测定活菌存活率,筛选出最佳保护剂的配方;并研究采用优化后冻干保护剂制备的菌粉在20°C、4°C、25°C下的保存稳定性。【结果】纳豆芽胞杆菌的有效保护剂是:脱脂乳粉、甘露醇、L-抗坏血酸钠。最佳冷冻干燥保护剂配方是:脱脂乳粉10%+甘露醇4%+L-抗坏血酸钠1%,存活率达到91.63%。菌粉在20°C、4°C、25°C下保存12个月后,存活率分别为:88.79%、70.16%和10.52%,说明菌粉在20°C和4°C下保存稳定性较好,25°C下稳定性比较差。【结论】对纳豆芽胞杆菌冻干菌粉保护剂的优化,对纳豆芽胞杆菌的应用、活菌产品的质量稳定及新产品的研发均有一定的指导意义。     

正交法优化嗜酸氧化亚铁硫杆菌冷冻干燥保护剂

利用正交实验方法,以甘油、海藻糖、蔗糖和牛血清蛋白为因素,对嗜酸氧化亚铁硫杆菌（Acididfiobacillus ferrooxidans,A．ferrooxidans）冷冻干燥保护剂的最优化配比进行了研究。直观分析、因素指标分析和方差分析的结果表明：由甘油、海藻糖、蔗糖和牛血清蛋白组成的冷冻干燥保护剂中,对存活率影响的主次顺序依次为：甘油〉海藻糖〉牛血清蛋白〉蔗糖。保护剂的最优化组合为甘油5％、海藻糖15％、蔗糖18％、牛血清蛋白10％。经过验证,该组合的保护剂可使冷冻干燥嗜酸氧化亚铁硫杆菌的存活率达到94％。     

酒酒球菌液氮超低温保存

【目地】为安全、长期的保藏酒酒球菌,本文研究了菌体生长时间、冷冻方法、解冻温度、菌密度以及保护剂等对酒酒球菌细胞冷冻存活率的影响,找到最优液氮超低温保存方法。【方法】采用平板计数法测定冷冻存活率。【结果】实验结果表明酒酒球菌的最佳保存方法为:首先在稳定期前期离心收集菌体;其次加入保护剂(20 g/L酵母浸提物,40V/V甘油,20 g/L蔗糖,30 g/L谷氨酸钠)稀释菌体,使菌密度为109CFU/mL;然后直接投入液氮冷冻;最后在37℃温水浴中迅速解冻。保存6个月后,其中21株酒酒球菌的冷冻存活率达到99%以上。【结论】初步研究表明酵母浸提物,甘油,蔗糖,谷氨酸钠复合保护剂对酒酒球菌的保护效果较好,液氮超低温保存可用于酒酒球菌的长期保存。     

金针菇退化菌丝的生理生化特征

【背景】金针菇菌种在继代培养的过程中会出现菌种退化的现象,影响着金针菇的产量与质量。【目的】为研究金针菇退化菌种菌丝的生理生化特征,筛选金针菇退化菌株。【方法】以金针菇原始菌株(H)和退化菌株(T)为研究对象,测定不同碳源培养基上菌丝的生理生化特征及超氧化物歧化酶(SuperoxideDismutase,SOD)、过氧化物酶(Peroxidase,POD)和过氧化氢酶(Catalase,CAT)的活性,并测定菌丝在栽培瓶中的漆酶(Laccase,Lac)和锰过氧化物酶(ManganesePeroxidase,MnP)的活性,记录菌丝在搔菌后的恢复情况。【结果】T在各个碳源的菌丝生长速度低于H,粉孢子等级在3-4级之间,SOD、CAT活性低于H,在栽培料中的Lac活性和MnP活性在第5天时与H相同,在第10、15、20天低于H。T在搔菌后菌丝恢复时间比H恢复时间长,恢复后的菌丝长势没有H长势浓密。【结论】通过探究金针菇原始菌株与退化菌株的菌丝生理生化特征,为判断金针菇菌株是否为退化菌株提供理论依据。     

极端嗜酸硫杆菌高效筛选、高密度发酵及保藏方法的研究

【目的】针对嗜酸硫杆菌极端特殊的生化特性,分别建立双层平板培养高效筛选方法和补料分批高密度发酵策略,并优选最佳保藏方法,以强化对该类菌种资源的利用和储备效率。【方法】分别采用以异养型微生物Sacchromyces ellipsoideu和Rhodotorula sp.为底层培养物的双层平板培养嗜酸硫杆菌,并结合透射电子显微镜技术(TEM)考察细胞形态差异。结合硫化矿培养基设计及单质硫补料培养策略,延长Acidithiobacillus thiooxidans对数期,提高比生长速率。分析不同保藏方法对嗜酸硫杆菌细胞存活率的影响。【结果】采用异养微生物——Rhodotorula sp.作为底层培养物的双层平板培养法在缩减1/3检出周期的同时将Acidithiobacillus ferrooxidans和Acidithiobacillus thiooxidans的检出率提高了3倍左右。TEM结果表明双层培养中细胞形态更为规则。采用基于Starkey-硫化矿培养基的补料分批发酵策略提高了Acidithiobacillus thiooxidans平均比生长速率,硫对生物量转化率和生产强度分别比分批培养提高31.1%和187.9%。4°C低温保藏方式更适于嗜酸硫杆菌的保藏,有效保藏期1–3月。【结论】Rhodotorula sp.为辅助培养物的双层平板培养法可有效提高嗜酸硫杆菌的筛选效率。设计的Starkey-硫化矿培养基结合补料分批培养策略可实现Acidithiobacillus thiooxidans高密度培养。简单高效的4°C低温保藏方式更适合于嗜酸硫杆菌的中短期保藏。     

Characteristics of protectant synthesis of infective juveniles of Steinernema carpocapsae and importance of glycerol as a protectant for survival of the nematodes during osmotic dehydration

Two hypotheses on the synthesis of the protectants glycerol and trehalose of the infective juveniles (IJs) of Steinernema carpocapsae during osmotic dehydration were tested and utilised to evaluate the function and importance of glycerol on survival of the nematodes during osmotic dehydration. This was achieved by comparing the changes in survival, morphology, behaviour and levels of glycerol, trehalose and permeated compounds of the IJs dehydrated in seven hypertonic solutions at two temperature regimes: (1) 5 °C for 15 days; and (2) 23 °C for 1 day followed by 5 °C for another 14 days. The results substantiate both hypotheses tested: (1) the permeability of the IJs to various compounds, such as sucrose or ethylene glycol, when they are dehydrated in hypertonic solutions of these compounds; and (2) suppression of the synthesis of protectant glycerol but not trehalose when IJs are dehydrated at low temperature. The results also showed that: (1) although trehalose was the preferred dehydration protectant, glycerol played an important role in rapidly balancing the osmotic pressure when IJs were exposed in hypertonic solutions; (2) the presence of glycerol was essential for the IJs to survive and function properly even under moderate osmotic dehydration, especially when IJs were dehydrated in salt solutions; and (3) some exogenous compounds permeated into IJs during osmotic dehydration such as ethylene glycol, may function in the same way as glycerol and significantly improve the survival and function of the IJs. The results indicate that each of the protectants glycerol and trehalose has a specific function and neither is replaceable by the other.     

Permeability of the infective juveniles of Steinernema carpocapsae to glycerol during osmotic dehydration and its effect on biochemical adaptation and energy metabolism

Permeability of the sheath and cuticle of the infective juveniles (IJs) of Steinernema carpocapsae to glycerol and its effect on biochemical adaptation of the IJs to osmotic dehydration were examined by incubating both sheathed and exsheathed IJs in glycerol-d5 solution then monitoring the changes in levels of deuterium labelled and non-labelled glycerol and trehalose. Energy metabolism of the IJs during osmotic dehydration and subsequent rehydration and the effect of the permeated glycerol on this process were investigated by examining and comparing the changes in mean dry weight and key biochemical composition of the IJs dehydrated in glycerol and sodium chloride solutions. The results show: (1) similarly to evaporative dehydration, osmotic dehydration induces IJs to synthesise the protectants glycerol and trehalose; (2) glycerol permeates the sheath and the cuticle into the body of IJs during dehydration in glycerol solution. Part of the permeated glycerol plays a role as protectant like that synthesised by IJs from their energy reserve materials while part is incorporated into trehalose; (3) the sheath reduces the rate of permeation of glycerol and therefore affects the equilibrium glycerol and trehalose levels of the IJs and also the time needed to reach the equilibrium levels; (4) the reduction in mean dry weight and lipids of the IJs during dehydration in glycerol solution is substantially less than those dehydrated in sodium chloride solution. Both the total protectant level and the ratio of glycerol to trehalose of the IJs dehydrated in glycerol solution are higher than those dehydrated in sodium chloride solution; (5) glycogen reserves of the IJs play a role as a buffer reservoir of the protectants during both dehydration and rehydration but the principal sources of the protectants during dehydration are more likely to be lipids and proteins rather than glycogen.     

不同渗透压调节剂对Candida krusei生理代谢的影响

比较了氯化钠、氯化钾、甘露醇存在的高渗环境下克鲁氏假丝酵母(Candida kru-sei)的生理代谢。3种渗透压调节剂对C.krusei生理代谢影响有显著差异。与甘露醇相比,氯化钠和氯化钾对细胞生长的影响更为显著,而氯化钾对细胞的毒性则又小于氯化钠。细胞对糖的消耗速率依次为甘露醇>氯化钾>氯化钠。甘油和海藻糖是C.krusei在高渗环境下的主要相容性溶质。氯化钠和氯化钾对甘油合成的促进作用明显高于甘露醇。在0.6mol/L氯化钠、氯化钾、甘露醇存在时,细胞甘油浓度较对照提高了74%、63%、57%;胞内甘油最大含量也分别达到对照的3.1,2.4和1.8倍。高渗环境下胞内海藻糖含量在发酵前期均有所降低,但发酵后期在0.6mol/L氯化钾和甘露醇存在时海藻糖迅速积累,其含量分别达对照的1.6和1.4倍。     

Action of trehalose on the preservation of Lactobacillus delbrueckii ssp. bulgaricus by heat and osmotic dehydration

AIM: This work determines the efficiency of trehalose on the preservation by heat or osmotic drying of a strain of Lactobacillus delbrueckii ssp. bulgaricus. Cell recovery at different trehalose concentrations during drying correlated with the surface properties and osmotic response of cells after rehydration. METHODS AND RESULTS: Bacteria were dried in the presence of glycerol, trehalose, sucrose at 70 degrees C and at 20 degrees C. Trehalose attenuates the loss of viability at 0.25 m. At this concentration, the osmotic response and zeta potential of the bacteria were comparable with the nondried ones. CONCLUSIONS: Trehalose diminishes significantly the damage produced by dehydration both when the bacteria are dried by heating or subjected to osmotic dehydration. This effect appears related to the preservation of the permeability to water and the surface potential of the bacteria. SIGNIFICANCE AND IMPACT OF THE STUDY: Dehydration occurring during heating or during osmosis appears to have similar effects. As dehydration-induced damage is in correlation with osmotic response recovery and is hindered or buffered by the presence of trehalose, it may be related to water eliminated from biological structures involved in water permeation.     

The cryoprotectant trehalose destabilises the bilayer organisation of Escherichia coli-derived membrane systems at elevated temperatures as determined by H and P-NMR

In this study, ²H and ³¹P-NMR techniques were used to study the effects of trehalose and glycerol on phase transitions and lipid acyl chain order of membrane systems derived from cells of E. coli unsaturated fatty acid auxotroph strain K1059, which was grown in the presence of [11,11-²H₂]-oleic acid or [11,11-²H₂]-elaidic acid. From an analysis of the temperature dependence of the quadrupolar splitting it could be concluded that neither 1 M trehalose or glycerol generally had any significant effect on the temperature of the lamellar gel to liquid-crystalline phase transition. In the case of the oleate-containing hydrated total lipid extract, glycerol but not trehalose caused a 5°C increase of this transition temperature. In general, both cryoprotectants induced an ordering of the acyl chains in the liquid-crystalline state. Trehalose and glycerol both decrease the bilayer to non-bilayer transition temperature of the hydrated lipid extract of oleate-grown cells by about 5°C, but only trehalose in addition induces an isotropic to hexagonal (H_II) phase transition. In the biological membranes, trehalose and not glycerol destabilised the lipid bilayer, and in the case of the E. coli spheroplasts, part of the induced non-bilayer structures is ascribed to a hexagonal (H_II) phase in analogy with the total lipids. Interestingly, 1 mM Mg²⁺ was a prerequisite for the destabilisation of the lipid bilayer. In the hydrated total lipid extract of E. coli grown on the more ordered elaidic acid, both transition temperatures were shifted about 20°C upwards compared with the oleate-containing lipid, but the effect of trehalose on the lipid phase behaviour was similar. The bilayer destabilising ability of trehalose might have implications for the possible protection of biological systems by (cryo-)protectants during dehydration, in that protection is unlikely to be caused by preventing the occurrence of polymorphic phase transitions.     

Liquid formulation of the biocontrol agent Candida sake by modifying water activity or adding protectants

AIMS: To evaluate the effect of modification of water activity (aw) and the addition of protective substances in the preservation medium of liquid formulations of the biocontrol agent Candida sake stored at 4 and 20 degrees C. METHODS AND RESULTS: The aw of the preservation medium of C. sake was modified from 0.72 to 0.95 by adding glycerol or polyethylene glycol (PEG). Moreover, several protectant substances at different concentrations were evaluated. Modification of lower aw-levels (0.721-0.901) with glycerol did not maintain the viability of the yeast cells. Higher aw-levels (0.93-0.95) with either glycerol or PEG improved the viability but not at acceptable viability levels. C. sake cells maintained viabilities >60% when sugars, such as trehalose, and polyols, such as glycerol and PEG were used as protectants in liquid formulations. Moreover, liquid formulations of C. sake stored at 4 degrees C showed higher number of viable counts than at 20 degrees C. When different sugars were tested, all of them, except 10% fructose, resulted in a viability higher than 50% of the C. sake formulations. Biocontrol of liquid formulation treatments was similar to fresh cells in controlling Penicillium expansum on wounded apples. CONCLUSIONS: Sugars such as lactose and trehalose could be considered as good protectants in order to obtain liquid formulations of C. sake cells as they maintain the viability >70% for 4 months at 4 degrees C. SIGNIFICANCE AND IMPACT OF STUDY: This study shows that a suitable liquid formulation for commercial application can be produced with high viability and conservation of biocontrol efficacy. Moreover, if 10% lactose is the protectant used in the formulation, the economic costs would not be limiting for industrial production.     

两种精油熏蒸处理对金针菇贮藏品质的影响

为了开发高效的食用菌绿色保鲜剂,以新鲜的白色金针菇为供试材料,以花椒精油和丁香精油为供试熏蒸剂,分别在常温（25±1）℃和低温（4±1）℃条件下开展了适用于金针菇保鲜的精油种类和浓度的筛选试验,并对金针菇贮藏期内的感官评价、失重率、呼吸强度、褐变度、多酚氧化酶（PPO）活性、苯丙氨酸解氨酶（PAL）活性、丙二醛（MDA）以及总酚含量进行了测定。结果显示,常温（25±1）℃条件下用0.1 mL·kg-1花椒精油和0.5 mL·kg-1丁香精油保鲜效果优于其他处理,且有统计学意义（P<0.05）,0.1 mL·kg-1花椒精油和0.5 mL·kg-1丁香精油处理组感官评分分别高于对照组23.4%和27.8%,二者均能够抑制金针菇褐变、减轻腐败变质,且有统计学意义（P<0.05）;在低温（4±1）℃贮藏试验中发现,0.1 mL·kg-1花椒精油和0.5 mL·kg-1丁香精油均能有效抑制呼吸强度和PPO活性的升高（P<0.05）,其呼吸高峰较对照组分别降低了28.3%和39.6%;贮藏15 d后,精油处理组PPO活性较对照组分别降低了8.2%和16.6%;精油处理有效降低了MDA含量的产生,保持着较高的总酚含量、减轻腐烂褐变的程度。第15天时,对照组MDA含量为1.75 μmol·g-1,而花椒精油和丁香精油处理组MDA含量分别比对照组低0.15、0.40 μmol·g-1,丁香精油处理组显著低于花椒精油处理组和对照组（P<0.05）。研究结果表明,0.1 mL·kg-1花椒精油和0.5 mL·kg-1丁香精油均对金针菇采后贮藏保鲜效果显著,其中,0.5 mL·kg-1丁香精油的保鲜效果最明显,在15d的贮藏期内,金针菇依然保持着良好的品质,而对照组已经轻微褐变,部分开始腐烂。研究结果为花椒精油和丁香精油应用于金针菇采后贮藏保鲜提供了理论依据。     

Effects of pre-freeze incubation of human red blood cells with various sugars on postthaw recovery when using a dextran-rapid cooling protocol

Polymer has been used as substitute to replace glycerol for cryopreservation of red blood cells (RBCs). But polymer can not penetrate cell membrane, it can not efficiently protect the inner membrane. In this study, RBCs were incubated with glucose, fructose, galactose or trehalose and frozen in liquid nitrogen for 24 h using dextran as the extracellular protectant. The postthaw quality was assessed by RBC hemolysis, RBC morphology, PS distribution, osmotic fragility, and the 4 °C stability. The results indicated the loading efficiency of monosaccharide was significantly higher than that of trehalose. Adding trehalose and 40% dextran caused more serious hemolysis before freezing. The percent hemolysis of RBCs loaded with high concentration of trehalose was approximately 16% and significantly more than that of RBCs loaded with glucose (approximately 5%, P < 0.05). Intracellular trehalose can not increase the postthaw recovery of RBCs compared with cells frozen without sugar. However, low concentration of intracellular glucose or galactose can reduce the percent hemolysis to less than 5% and significantly less than that of RBCs frozen without sugar (P < 0.05). Finally, the ability of galactose or fructose to maintain the 4 °C stability was significantly more than that of glucose. In conclusion, the injuries caused by trehalose loading may directly lead to postthaw hemolysis and poor quality of RBCs. However, monosaccharide can enhance the recovery of frozen RBCs. The cryoprotective effect of galactose may be better than that of glucose or fructose. In the future, we will continue to look for a safe and efficient trehalose loading process and try to decrease the osmotic fragility of RBCs frozen with polymers and sugars.     

金针菇褐化病毒(FvBV)脱毒方法

【目的】评价5种不同脱毒方法对金针菇(Flammulina velutipes)菌株的脱毒效果,筛选出脱毒率高和脱毒后金针菇菌株菌丝生长速度、生物量、漆酶活力等性状改善明显的脱毒方法。【方法】以栽培金针菇菌株F-4889为研究材料,从菌丝体中提取大小约2.0 kb的病毒dsRNA,经RT-PCR鉴定该病毒为金针菇褐化病毒(FvBV)。采用菌丝尖端分离、原基组织分离、原生质体单核化、有性生殖和核迁移5种脱毒方法对金针菇菌株进行脱毒处理,利用dsRNA技术和RT-PCR检测脱毒效果。【结果】菌丝尖端分离脱毒后得到1株脱毒菌株;原基组织分离法未能脱毒;原生质体单核化脱毒法得到3株脱毒单核菌株和2株原单杂交脱毒菌株;有性生殖脱毒法获得脱毒孢子单核菌株23株和单孢杂交脱毒菌株8株;核迁移脱毒后得到5株核迁移脱毒菌株。脱毒率依次为25.0%、0、7.5%、57.5%和100%。脱毒菌株的菌丝生长速度、生物量、漆酶活力等均优于出发菌株、菌丝尖端和原基组织分离菌株。【结论】这5种方法中原生质体单核化、有性生殖和核迁移脱毒法脱毒效果较佳,均能有效脱除FvBV,脱毒率高,脱毒后菌株菌丝生长速度、生物量、漆酶活力等均明显提高。