短梗霉细胞内黑色素的分离提取

采用单因素试验和正交试验对短梗霉细胞内的黑色素提取条件进行了优化,结果表明:在pH为2～3、温度为70℃、NaOH浓度为1.5mol/L、发酵液与浸提液之比1:1(V)的条件下黑色素的提取量可达2.2g/L。对提取的黑色素进行了纯化,研究了其紫外和红外光谱学性质,紫外光谱图显示随波长的减少其吸收值增大,在215nm处有特征吸收峰;红外光谱图在3和6μm处有吸收峰,证实短梗霉黑色提取物是一种以芳香环为结构主体的异聚体黑色素。     

短梗霉多糖研究进展

短梗霉多糖是一种微生物发酵产物,具有极好的成膜性,无色、无味,且不透气,易生物降解,对人体和环境无毒无害,受到国际上广泛关注,是一种极具研究潜力和经济价值的新型生物环保材料。该文综合了国内外众多学者的研究成果,从发酵底物(包括碳源、氮源、二价离子等)、发酵条件(包括pH、温度、通气量、接种量、种龄等)、多糖性质、应用研究(包括传统应用和最新应用成果)等方面进行阐述,为短梗霉多糖的进一步研究和应用提供参考。     

光谱法研究甲醇和盐酸对短梗霉黑色素的分离效果

应用紫外和红外光谱对甲醇和盐酸分离的短梗霉黑色素进行了分析。分析结果表明:甲醇和盐酸法分离的黑色素在紫外图谱215 nm处都有最大吸收峰,而甲醇法分离的黑色素其紫外图谱在260、280 nm处无吸收峰表明此法分离的黑色素不含核酸及蛋白质;红外图谱中,在3340 cm-1、1637 cm-1处有很强的吸收峰表现为黑色素的典型特征;同时在对照中发现盐酸多次处理后的黑色素显示较少的结构信息,说明盐酸沉降法有可能破坏黑色素的结构。由此选用甲醇作为沉淀剂有利于黑色素的纯化及确保其结构信息的完整,为进一步分析短梗霉黑色素的结构表征奠定了基础。     

短梗霉多糖发酵条件的研究

在摇瓶发酵条件研究的基础上。于16L自控发酵罐上进行了罐上发酵条件优化研究。发现以10％淀粉水解物为碳源时,淀粉水解物的最适DE值为40－50,发酵培养基中的硫酸铵最适用量不同于摇瓶发酵时的量,种龄和接种量、通气量、罐压、搅拌速度和搅拌叶轮挡数等均对多糖的产生有较大的影响。另外还进行了发酵过程的动力学的研究。     

出芽短梗霉的研究进展

出芽短梗霉是一类类酵母真菌,具有酵母样和真菌菌丝体两种形态,影响其形态的因素有碳源,氮源,离子种类及浓度和pH值等,出芽短梗霉的发酵产物多种多样,如多聚糖,酶,抗真菌素等,通过选育优良菌株可提高发酵产物的产量。     

几株出芽短梗霉在不同发酵条件下产生多糖的比较

将已有的４株出芽短梗霉在摇瓶中于不同发酵条件下进行比较,考察了它们的生长情况,不同的碳源、氮源、磷酸盐、初始ｐＨ和通气量等对短梗霉多糖合成的影响,获得一株产短梗霉多糖的高产菌株,为以后工作打下良好基础。     

出芽短梗霉细胞多形性及影响细胞分化因素探索

【背景】出芽短梗霉(Aureobasidium pullulans)是在生活史中有酵母状细胞生长阶段,并合成黑色素的一种黑酵母(Black yeast),具有典型的细胞多形性,可分化形成酵母状细胞(Yeast-like cell,YL)、膨大细胞(Swollen cell,SC)、厚垣孢子(Chlamydospore,CH)、菌丝(Hyphae,HY)、念珠状菌丝(Monilioid hyphae,MH)、有隔膜膨大细胞(Septate swollen cell,SSC)、分生组织状结构(Meristematic structure,MS),其中膨大细胞既可以作为生长的细胞类型,也可分化为其他的细胞类型。出芽短梗霉的形态分化是可调控的,调控因子有pH、温度、营养条件等。【目的】探究不同的氧气浓度、温度、盐浓度、营养水平对出芽短梗霉细胞形态的影响。【方法】利用显微镜、美兰染色等技术观察不同条件对出芽短梗霉细胞形态的影响。【结果】在完全无氧的试管底部菌体不能生长;在高层半固体表层(高氧气浓度),酵母状细胞(YL)在营养丰富的生长初期出芽繁殖,在养分匮乏的培养后期诱导酵母状细胞(YL)经过膨大细胞(SC)形成厚垣孢子(CH)并合成黑色素;在营养丰富的生长初期,半固体试管浅表层和中间层(微好氧)低浓度氧气诱导YL经过SC形成HY侵入性生长。养分差异对菌体细胞多形性分化影响显著,环境适宜养分丰富(Yeast extract peptone dextrose medium,YPD),以YL生长,不需要分化成HY;环境适宜养分不丰富(Potato dextrose agar,PDA),分化成SC或HY以适应或逃离环境;环境不适宜养分匮乏时(Malt extract agar,MEA),SC或HY分化成CH或MH进入休眠阶段。10%NaCl胁迫降低菌体生长速度,抑制色素合成、HY和MH的形成,并且细胞主要以YL生长繁殖。在相同质量浓度(10%)的KCl或Na2SO4渗透胁迫条件下,细胞多形性表型均为YL发达,HY及MH被抑制,说明高渗胁迫阻止了酵母状细胞向菌丝和厚垣孢子的分化。温度实验中,SC比YL耐高温,MS比SC耐高温。【结论】营养状态对出芽短梗霉细胞分化影响最大。     

秋水仙素诱发的产普鲁兰出芽短梗霉的变异性

基础培养基中添加秋水仙素可提高出芽短梗霉的变异频率。将０．３％的秋水仙素溶液作用时间从５天延长到９天时,所产生的活性变异株数目相对减少。某些变异林有较高的合成普鲁兰（ｐμｌ）的能力,但与出芽短梗霉倍数性的提高无关。     

真菌出芽短梗霉中一个新的酚苷类化合物CSCD

真菌出芽短梗霉Aureobasidium pullulans乙酸乙酯粗提物对多种植物病原菌具有抑菌活性,结果表明对人参锈腐病病原菌Cylindrocarpon destructans具有较好的抑菌活性。因此为探究出芽短梗霉A.pullulans固体发酵物乙酸乙酯部位的化学成分,对其发酵物乙酸乙酯部位采用正相柱,反相柱,以及半制备液相色谱分离纯化,并根据核磁共振波谱数据鉴定单体化合物。分离得到4个单体化合物,经鉴定为3,4-二甲氧基-5-甲基苯-O-α-D-吡喃葡萄糖苷(1)、5′-hydroxygriseofulvin(2)、7-dechlorogriseofulvin(3)、6′-hydroxygriseofulvin(4)。以上4种化合物均为首次从该真菌发酵产物中分离得到,其中化合物1是新化合物。     

Isolation and structural elucidation of a dihydroubiquinone-9 from the fungus Aureobasidium pullulans

Abstract A naturally occurring member of ubiquinone (Q) group, a dihydroubiquinone-9 (Q-9 (H₂)), has been isolated as a minor ubiquinone component from the fungus Aureobasidium pullulans . By ultraviolet absorption, mass and nuclear magnetic resonance spectrometric studies, the structure of Q-9 (H₂) was found to be 2,3-dimethoxy-5-methyl-6-IX-dihydromultiprenyl⁹-1,4-benzoquinone (I).     

出芽短梗霉发酵产生普罗蓝糖的研究

对一株野生型的出芽短梗霉(Aureobasidium pullulans)Ft1和从Ft1出发经原生质体再生筛选出的菌株R45进行了摇瓶发酵产普罗蓝糖的比较研究,结果表明R45无论从形态,菌体生长情况,还是从普罗蓝糖的产量,黑色素的产生等方面都与亲株Ft1有明显的区别,说明R45是一株具有一定生产价值的变异菌株.     

A comparison of polyssacharides from strains of Aureobasidium pullulans

Abstract Production of pullulan by five strains of Aureobasidium pullulans was compared in three media with three carbohydrate sources. Our goal was to screen strains and media to obtain pullulan in maximal yield, purity, and stability. Pullulan yields and properties were strongly affected by strain specificity, but a single medium performed best with most strains. Sucrose was the preferred carbohydrate for all five strains. A "color variant" strain of Aureobasidium , NRRL Y-12974, possibly representing a distinct species, produced a polysaccharide of intermediate molecular weight which was stable during storage at 4°C, heating to 100°C, and high shearing action. This polysaccharide was 70% pullulanase sensitive and contained the least contaminating melanin pigment.     

出芽短梗霉胞外酸性漆酶

通过愈创木酚法平板检测10株出芽短梗霉,发现5株菌能够分泌胞外多酚氧化酶,反应最适pH在2.0左右,均属于酸性多酚氧化酶。菌株NG的酶活最高,达110 U/mL。添加H2O2、EDTA以及过氧化氢酶不显著影响菌株NG胞外酶活,表明NG分泌的多酚氧化酶中不含有锰过氧化物酶（MnP）和不依赖Mn2＋的过氧化物酶（MiP）,属于漆酶（Lac）。     

Pullulan production from brewery wastes by Aureobasidium pullulans

The production of pullulan from brewery wastes by Aureobasidium pullulans in shake flask culture was investigated. The maximum pullulan concentration (6.0g/l) was obtained after 72h of fermentation. The external addition of nutrients into the spent grain liquor improved significantly the production of pullulan. In this case, the highest values of pullulan concentration (11.0±0.5g/l), pullulan yield (48.2±1.5%), and sugar utilization (99.0±0.5%) were obtained in the medium (pH 6.5–7.5) supplemented with K₂HPO₄ 0.5%, l-glutamic acid 1%, olive oil 2.5%, and Tween 800.5%.     

Pullulan production from deproteinized whey by Aureobasidium pullulans

Aureobasidium pullulans P56 was investigated using an adaptation technique and a mixed culture system. The adaptation of A. pullulans and the mixed cultures of A. pullulans and/or Lactobacillus brevisX20, Debaryomyces hansenii 194 and Aspergillus niger did not increase the production of polysaccharide. Enzymic hydrolysis of lactose in deproteinized whey gave a higher polysaccharide concentration and polysaccharide yield than acidic hydrolysed lactose. Maximum polysaccharide concentration (11.0 ± 0.5 g L⁻¹), biomass dry weight (10.5 ± 0.4 g L⁻¹), polysaccharide yield (47.2 ± 1.8%) and sugar utilization (93.2 ± 2.8%) were achieved using enzyme-hydrolysed whey (pH 6.5) containing 25 g L⁻¹ lactose and supplemented with K₂HPO₄ 0.5%, L-glutamic acid 1%, olive oil 2.5%, and Tween 80 0.5%. In this case the pullulan content of the crude polysaccharide was 40%. Received 16 December 1997/ Accepted in revised form 12 March 1999     

Heavy metal uptake by intact cells and protoplasts of Aureobasidium pullulans

Protoplasts prepared from yeast-like cells, hyphae and chlamydospores of Aureobasidium pullulans can take up heavy metals such as Zn²⁺, Co²⁺, Cd²⁺ and Cu²⁺. In relation to intact cells, the sensitivity of protoplasts to Cu²⁺ and Cd²⁺ was increased although chlamydospore protoplasts were more tolerant than yeast-like cell protoplasts. Surface binding of metals was reduced in protoplasts as compared with intact cells and this reduction was particularly evident for chlamydospore protoplasts. At the highest concentrations used, uptake of Zn²⁺, Co²⁺ and Cd²⁺ by yeast-like cell protoplasts was greater than that observed in intact cells which may have been due to toxicity, especially for Cd²⁺, resulting in increased membrane permeability, though for Zn²⁺ and Co²⁺ some barrier effect of the cell wall could not be completely discounted. Chlamydospore protoplasts were capable of intracellular metal uptake, unlike intact chlamydospores, and for Zn²⁺, uptake appeared to be via a different system less specific than that of the other cell types. For chlamydospores, the use of protoplasts confirmed the importance of the cell wall in preventing entry of metal ions into the cell.