酵母菌株对芒果酒理化特性及抗氧化特性的影响

采用5株广为使用的酵母菌株(EC1118, D254, Red fruit, Aroma white, SY)分别作为芒果酒的发酵菌株。通过对比它们的发酵力,起发时间以及对芒果酒的酒精度、干浸出物、挥发酸、总糖、可滴定酸含量、pH值以及抗坏血酸、总酚、抗氧化活性(DPPH, FRAP)、感官得分的影响,选取得到芒果酒发酵的最适酵母菌株。结果表明,5株酵母所发酵的芒果酒酒精度相差不大,且干浸出物与总糖含量之间没有显著性差异(p0.05)。Aroma white具有较强的发酵力,所发酵的芒果酒挥发酸含量较低,抗氧化能力较强,感官得分最高。因此确定在这5株菌株中,它最适宜作为芒果酒的发酵菌株。此外,运用主成分分析(principal component analysis,PCA)对5株发酵菌株生产的芒果酒进行了区分,结果表明此法可将5种芒果酒进行明显区分。     

优良面包酵母菌株的杂交育种

本文对实验室保存的面包酵母进行筛选, 以不加糖面团发酵力最高的菌株BY-14和高糖面团发酵力最高的菌株BY-6作为两杂交亲本。二倍体菌株经过单倍体制备、分离和筛选后, 利用群体杂交方法, 获得了一株兼备两亲本优良性能的面包酵母菌株, 其不加糖面团发酵力达到菌株BY-14水平, 且高糖面团发酵力比菌株BY-6提高了25％。     

优良面包酵母菌株的杂交育种

本文对实验室保存的面包酵母进行筛选,以不加糖面团发酵力最高的菌株BY-14和高糖面团发酵力最高的菌株BY-6作为两杂交亲本.二倍体菌株经过单倍体制备、分离和筛选后,利用群体杂交方法,获得了一株兼备两亲本优良性能的面包酵母菌株,其不加糖面团发酵力达到菌株BY-14水平,且高糖面团发酵力比菌株BY-6提高了25%.     

温度适应范围大的谷氨酸生产菌GMH—908选育,发酵及应用效果

以谷氨酸生产菌天津短杆菌（Ｂｒｅｖｉｂａｃｔｅｒｉｕｍｔｉｅｎｔｓｉｎｅｎｓ）Ｔ６－１３为出发菌株,经菌体或原生质体紫外线（ＵＶ）、氯化锂、香豆素等多因子诱变和高温驯化,选育出琥珀酸、生物素营养缺陷型,耐高糖、耐高谷氨酸又不利用谷氨酸,且温度适应范围大（既可在常温３２－３８℃发酵,又可在高温３６－４２℃发酵）的突变株ＧＭＨ－９０８。以淀粉糖为碳源,生物素亚适量,摇瓶常温发酵产酸９５ｇ／Ｌ以上,高温发酵产酸７４．９ｇ／Ｌ,比出发菌株Ｔ６－１３分别提高２６．６７％和２２．９９％;工业生产常温发酵月平均产酸８５－８８ｇ／Ｌ,转化率５２－５４ｇ％,单罐最高产酸１０８ｇ／Ｌ,转化率５８％;高温发酵产酸达７６．５ｇ／Ｌ,转化率４９．５％。     

Vc生产菌“神舟七号”搭载育种

选取3株性状不同的Vc二步发酵生产菌搭载于"神舟七号"飞船进行空间诱变,返回地面后,经富集培养和分离,获得近12000株诱变菌株。采用试管微量培养并监测pH值法作3次初筛,获300余株优良株,再经摇瓶发酵定酸、糖法作3次复筛,选出12株优良菌株。新菌株摇瓶发酵转化率提高了5%～7%。研究了新菌株生产的最适发酵条件,调整了部分工艺过程,应用于大生产,转化率提高4%～5%。     

衣康酸生产菌种的定向选育和产酸条件的研究

通过紫外线—高温复合诱变处理衣康酸生产菌株土曲霉构Aspergillus terreus As3.2811,用以琥珀酸为唯一碳源的选择性乎板定向筛选高产菌株,获得产酸率较其亲株提高了5倍以上的突变株。用正交试验的方法对突变株的适宜产酸条件进行了研究,通过分批补糖发酵可提高其产酸率高达39．92％。     

衣康酸生产菌种的定向选育和产酸条件的研究*

通过紫外线 高温复合诱变处理衣康酸生产菌株土曲霉AspergillusterreusAs 3 2 81 1 ,用以琥珀酸为唯一碳源的选择性平板定向筛选高产菌株 ,获得产酸率较其亲株提高了 5倍以上的突变株。用正交试验的方法对突变株的适宜产酸条件进行了研究 ,通过分批补糖发酵可提高其产酸率高达 39 92 %。     

絮凝性强的优良面包酵母菌株的选育

通过初筛、单倍体分离、DES诱变、絮凝基因的克隆表达及杂交等育种技术成功构建了高生物量、耐高糖、强絮凝的优良面包酵母菌株(Saccharomyces cerevisiae) ZLTH58(MATa/α,leu,FLO1)。菌株ZLTH58具有双亲的优良性状,遗传性状稳定。对其生物量、耐高糖能力、絮凝特性进行了检测,结果表明,菌株ZLTH58的生物量是原始亲株BL56的1.21倍;耐高糖能力优于原始亲株BL61;絮凝性能明显优于原始亲株BL56和BL61。对其培养条件进行了优化,在优化的培养条件下,生物量可以达到83.06g/L,为初始培养条件下的1.35倍。     

松萝内生酿酒酵母菌株耐酸生理特性与分子机制探究

【目的】对我国西藏地区来源的不同酵母菌株进行有机酸发酵性能测试,此外,对具有良好产酸性能的分离自松萝内部的酿酒酵母菌株Saccharomy cescerevisiae 2-2进行耐酸性能分析,并探究其耐酸较强的分子机制。【方法】比较不同糖浓度培养基液体发酵培养过程中pH的变化,并比较低pH胁迫条件下菌株的生长,检测酿酒酵母菌株的产酸潜力和耐酸特性;对菌株2-2和模式酵母菌株S288C进行比较基因组分析,并利用实时荧光定量聚合酶链式反应(real-time fluorescence quantitative polymerase chain reaction,RT-qPCR)分析关键基因的转录,探究菌株2-2耐酸分子机制。【结果】松萝内生酿酒酵母2-2在所有检测的菌株中产酸潜力较大,耐酸性能较好。在菌株2-2中与胁迫耐受性相关的基因PDR15、PDR12和SUR1在低pH胁迫条件下存在显著的上调或下调,但这些基因转录变化趋势与菌株S288C相反。【结论】松萝内生酿酒酵母2-2是一株产酸耐酸性能较好的菌株,对其独特的调节机制进行深入分析,有希望选育性能更好的产酸酵母菌株。     

新疆传统发酵乳品中乳酸菌与 酵母菌的益生特性

目的观察新疆传统发酵乳品中分离的14种菌株的生长特点及产酸能力,筛选出具有较强耐胆盐能力,并能在人工胃肠液中存活的菌株。方法对10株乳酸菌和4株酵母菌进行生长曲线、pH、耐胆盐能力和耐人工胃肠液检测。结果 10株乳酸菌和4株酵母菌具有良好的生长曲线和产酸能力;马乳酒样乳杆菌具有较强的耐胆盐能力;希氏乳杆菌、马乳酒样乳杆菌、乙醇假丝酵母和东方伊萨酵母具有较强的耐人工胃液能力;乳酸乳球菌、哈尔滨乳杆菌、瑞士乳杆菌、马乳酒样乳杆菌、乙醇假丝酵母和东方伊萨酵母具有较强的耐人工肠液能力。结论 10株乳酸菌和4株酵母菌具有优良的益生特性,有望成为益生菌制剂的备用菌株。     

Investigation of the mechanism of temperature sensitivity of the electroreceptors of ampullae of lorenzini

In experiments on Black Sea skates (Raja clavata), the potential of the receptor epithelium of the ampullae of Lorenzini and spike activity of single nerve fibers connected to them were investigated during electrical and temperature stimulation. Usually the potential within the canal was between 0 and –2 mV, and the input resistance of the ampulla 250–400 k. Heating of the region of the receptor epithelium was accompanied by a negative wave of potential, an increase in input resistance, and inhibition of spike activity. With worsening of the animal's condition the transepithelial potential became positive (up to +10 mV) but the input resistance of the ampulla during stimulation with a positive current was nonlinear in some cases: a regenerative spike of positive polarity appeared in the channel. During heating, the spike response was sometimes reversed in sign. It is suggested that fluctuations of the transepithelial potential and spike responses to temperature stimulation reflect changes in the potential difference on the basal membrane of the receptor cells, which is described by a relationship of the Nernst's or Goldman's equation type.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. I. M. Sechenov, Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Pacific Institute of Oceanology, Far Eastern Scientific Center, Academy of Sciences of the USSR, Vladivostok. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 67–74, January–February, 1980.     

Principles of organization and evolution of systems of regulation of functions

Evolution of living organisms is closely connected with evolution of structure of the system of regulations and its mechanisms. The functional ground of regulations is chemical signalization. As early as in unicellular organisms there is a set of signal mechanisms providing their life activity and orientation in space and time. Subsequent evolution of ways of chemical signalization followed the way of development of delivery pathways of chemical signal and development of mechanisms of its regulation. The mechanism of chemical regulation of the signal interaction is discussed by the example of the specialized system of transduction of signal from neuron to neuron, of effect of hormone on the epithelial cell and modulation of this effect. These mechanisms are considered as the most important ways of the fine and precise adaptation of chemical signalization underlying functioning of physiological systems and organs of the living organism