酿酒酵母菌培养条件的研究

目的:优化酿酒酵母液体发酵得到菌体的最佳条件。方法:通过单因素试验,以吸光度为指标,研究碳源、氮源、接种量、pH值及无机离子对酿酒酵母菌生长的影响。结果:酿酒酵母生长的最佳碳源是葡萄糖,最佳氮源是蛋白胨,最佳接种量2%,最佳初始pH为4.5,添加无机盐硫酸亚铁能够促进其生长。结论:得到了酿酒酵母液体生长的最佳培养基配方。     

灰树花发酵工艺及培养基研究

详细、系统地研究了碳源、氮源、无机盐、维生素以及种龄、接种量、摇床转速、摇瓶装液量和培养基 pH值等因素对灰树花液体深层发酵菌丝体产量的影响 ,结果表明 :玉米粉、葡萄糖为最佳碳源 ,豆饼粉为最佳氮源 ,KH2 PO4 ,MgSO4 以及少量VB1的添加均使菌丝体产量明显增加     

竹黄菌液体发酵条件的优化

目的：筛选并优化竹黄菌液体发酵培养基。方法：采用单因子和3因素3水平正交试验法,从生物量和竹红菌素两方面筛选碳源、氮源和pH,探讨该菌生长的最佳培养条件。结果：最佳发酵碳源是葡萄糖,最佳发酵氮源是硝酸钠。竹红菌素生长的最佳配方为2%葡萄糖,0.2%硝酸钠,pH7.5;菌丝体生长的最佳组合为2%葡萄糖,0.3%硝酸钠,pH7.5。     

黑曲霉GD-6纤维素酶液体发酵条件的研究

采用黑曲霉 (Aspergillusniger)GD 6液体发酵生产纤维素酶 ,研究了碳源、氮源、培养基起始 pH值、接种量、摇床转速、通气量对该菌株产纤维素酶活力的影响。结果表明 ,GD 6的最适发酵温度为 2 8～ 3 0℃ ,产酶pH为 5 .5～ 6.0 ,摇床最适转速为 1 5 0r/min ,最佳接种量为 1 0 %。在以 6.0 %稻草粉为碳源、1 %豆饼粉为氮源时产酶活力最高。在最适培养条件下 ,发酵周期为 1 2 0h,发酵液中CMC酶活为 1 88.6U/mL ,FP酶活为 2 7.0U/mL。     

北冬虫夏草液体发酵产胞外多糖发酵条件的研究

目的:采用液体发酵生产北冬虫夏草胞外多糖。方法:对北冬虫夏草液体发酵产胞外多糖的影响因素如碳源、氮源以及起始pH值、培养温度、摇床转速、接种量、发酵周期等发酵条件进行研究。结果:最佳发酵条件为:玉米淀粉4%、硫酸铵0.28%、磷酸二氢钾0.05%、七水硫酸镁0.05%、初始pH值为7.0、接种量10%、培养温度23℃、转速150r/min,胞外多糖的产量最高达到41.271mg/100mL。结论:利用液体发酵生产胞外多糖,可有效地缩短生产周期。     

灵芝多糖发酵工艺条件的研究

通过对灵芝菌As5.504发酵,研究不同糖源、氮源、生长因子及接种量、装液量对灵芝细胞生长和灵芝多糖生产的影响。结果表明当以葡萄糖,蛋白胨,VB5分别为碳源、氮源、生长因子及接种量、装液量分别为7.5mL、150mL时,为As5.504产多糖最佳发酵工艺条件,产多糖量最高为0.940g·L-1。     

青霉P-1产植酸酶发酵条件的研究

研究了碳源、氮源等对青霉(Penicillium)P-1液体发酵产植酸酶的影响。最佳碳源为蔗糖,最佳氮源为蛋白胨和硝酸铵。最适发酵产酶条件为培养温度30℃,发酵培养基最适pH 5,摇瓶装液量10%,接种量4%,摇床转速120 r/min,培养时间96 h,最高酶活性可达78 U/L。     

菌核侧耳液体培养条件优化研究

运用液体深层培养法,采用不同pH值、不同碳源和氮源对菌核侧耳菌丝体生长的影响进行了探讨。结果表明:菌核侧耳菌丝体生长的培养基适宜pH值为5.0～6.5,葡萄糖、蔗糖、乳糖和纤维素是菌核侧耳菌丝体生长的适用碳源;黄豆、麦麸、酵母膏和蛋白胨等为适宜氮源;其中以黄豆浆作为氮源,蔗糖作为碳源,初始pH5.0为最佳条件组合。     

利用农业废弃物生产嗜热真菌（T．1anuginosus）耐热木聚糖酶的固体发酵研究

研究了嗜热真菌(Thermomyces lanuginosus CBS288．54-M18)生产木聚糖酶的碳氮源组成、料水比、培养基初始pH值、发酵温度及接种量等的影响。结果表明,以麦麸和玉米芯粉(8：2)作为复合碳源,酵母膏和胰蛋白胨(1：1)作为复合氮源时,菌株所产的木聚糖酶量相比未优化碳氮源的培养基提高幅度高达200％。其最佳产酶的料水比为1：3,培养基初始pH7．0为最适。菌株在50℃条件下发酵5d,能够得到活力高达15023U／g干基碳源的木聚糖酶制剂,且该酶制剂不合纤维素酶和蛋白酶活性。     

密环菌胞外多糖的发酵条件研究

密环菌是天麻的共生菌,有研究证明,密环菌的菌丝及发酵液有与天麻相类似的药理作用,为此,我们进行密环菌深层发酵产胞外多糖条件的研究。研究结果表明：菌丝生长和多糖产生的最适初始pH为5．9左右;消泡剂用量在一定内增加,有利于菌丝的生长,但增加消泡剂用量会不利于多糖的产生;接种量大,菌丝得率高,但接种量为10％时的多糖得率最高;装液量试验表明,通气量大,有利于菌丝的生长和多糖的产生;机械搅拌对菌丝的生长和多糖的产生都不利;生长动态实验证明,密环菌可在6d内完成液体发酵;以豆粕粉作氮源时,菌丝得率最高,以麸皮作氮源时,多糖产量最高;红薯粉为密环菌菌丝生长和多糖产生的最适碳源。     

酵母产γ-氨基丁酸发酵培养基的优化

目的：提高酵母产γ-氨基丁酸的能力。方法：采用单因素及正交设计实验对酵母产γ-氨基丁酸（GABA）的培养基进行优化。结果：确定最适碳源为葡萄糖,最佳氮源为蛋白胨和硫酸铵复合氮源,合适的无机盐为KH2PO4;最佳发酵培养基为3%葡萄糖,3%蛋白胨,0.3%（NH4）2SO4和0.1%KH2PO4。在此培养条件下,摇瓶发酵可以获得1.690g.L-1的GABA产量。结论：发酵培养基的优化,提高了菌株产γ-氨基丁酸的能力。     

Studies on the growth of Saccharomycopsis fibuliger on pectic materials

Growth experiments have indicated that the yeast Saccharomycopsis fibuliger is able to utilize pectic materials as a carbon source for cell growth. Small quantities of yeast extract or mycological peptone and maltose are necessary to initiate growth. Cell yields of 35 g/100 g pectin were obtained after modification of the pH value, the concentration of calcium ions and pectin in the growth medium. The optimum pH for cell growth was 4.8, which is similar to the reported optimum for cell growth on starch. Cell yields declined at higher concentrations of pectin, as a result of the reduced rate of oxygen absorption into the growth medium. Neither the concentration of ammonium and phosphate ions nor the type of inorganic nitrogen source significantly affected cell growth within the experimental conditions employed.     

Causes of conductance change in yeast cultures

The conductance change due to growth of Saccharomyces cerevisiae Y112, Zygosaccharomyces bailii M and Rhodotorula rabra NCYC 63 in culture media containing glucose, tartrate pH buffer and ammonium ions as sole nitrogen source was compared with that in a medium containing L-asparagine as sole nitrogen source. Decreases in conductance were observed in glucose-ammonium cultures of all three yeasts while little change occurred in cultures with L-asparagine as sole nitrogen source. This supports the hypothesis that the metabolic activity primarily responsible for conductance change in yeast cultures is the uptake of charged ammonium ions as nitrogen source and the reaction of protons with pH buffer compounds.
Rhodotorula rubra cultures with L-asparagine as sole carbon source caused large increases in conductance with growth. Chemical analyses of culture filtrates showed that this increase in conductance was due to use of L-asparagine as carbon source and the excretion of nitrogen surplus to biosynthetic needs as ammonium. In addition, the production of aspartate, acetate and bicarbonate contributed to the increase in conductance.     

Causes of conductance change in yeast cultures.

The conductance change due to growth of Saccharomyces cerevisiae Y112, Zygosaccharomyces bailii M and Rhodotorula rubra NCYC 63 in culture media containing glucose, tartrate pH buffer and ammonium ions as sole nitrogen source was compared with that in a medium containing L-asparagine as sole nitrogen source. Decreases in conductance were observed in glucose-ammonium cultures of all three yeasts while little change occurred in cultures with L-asparagine as sole nitrogen source. This supports the hypothesis that the metabolic activity primarily responsible for conductance change in yeast cultures is the uptake of charged ammonium ions as nitrogen source and the reaction of protons with pH buffer compounds. Rhodotorula rubra cultures with L-asparagine as sole carbon source caused large increases in conductance with growth. Chemical analyses of culture filtrates showed that this increase in conductance was due to use of L-asparagine as carbon source and the excretion of nitrogen surplus to biosynthetic needs as ammonium. In addition, the production of aspartate, acetate and bicarbonate contributed to the increase in conductance.     

一株植物乳酸杆菌的高密度发酵

目的研究一株植物乳酸杆菌的高密度发酵。方法通过单因素实验来确定此植物乳酸杆菌的最适生长温度、pH、碳源、氮源、缓冲盐等。结果最适生长温度是37℃、起始pH6.4、最适碳源为葡萄糖、最适氮源为牛肉膏,通过对缓冲盐的选择最终确定NaAc：CaCO3比为0.5：1.5;控制发酵条件,结合优化培养基,可使发酵后的培养液达到2.75×10^10CFU/ml。结论该缓冲盐能够有效的缓解发酵液pH的下降,延长对数生长期,使活菌数提高1倍,适合高密度发酵培养。     

酵母产γ-氨基丁酸发酵培养基的优化

目的:提高酵母产γ-氨基丁酸的能力。方法:采用单因素及正交设计实验对酵母产γ-氨基丁酸(GABA)的培养基进行优化。结果:确定最适碳源为葡萄糖,最佳氮源为蛋白胨和硫酸铵复合氮源,合适的无机盐为KH2PO4;最佳发酵培养基为3%葡萄糖,3%蛋白胨,0.3%(NH4)2SO4和0.1%KH2PO4。在此培养条件下,摇瓶发酵可以获得1.690g.L-1的GABA产量。结论:发酵培养基的优化,提高了菌株产γ-氨基丁酸的能力。     

少动鞘脂单胞菌产结冷胶发酵培养基的响应面法优化

通过单因素试验分析不同碳源、氮源、无机盐对（Sphingomonas paucimobilisFJAT-5627）产胶量的影响,确定最适碳源、氮源、无机盐,并在单因素筛选试验的基础上,利用Box-Benhnken设计和响应面分析法对碳源、氮源和无机盐进行优化,得到少动鞘脂单胞菌产生结冷肢发酵培养基最佳优化组合.实验结果表明,少动鞘脂单胞菌产胶量发酵最适碳源、氮源和无机盐分别为淀粉、豆饼粉和KH₂PO₄.响应面法得到产胶量（Y）与碳源淀粉（x₁）、氮源豆饼粉（x₂）和无机盐KH₂PO₄（x₃）的回归方程为:Y=13.87+0.54x₁+0.22x₂-0.42x₃-3.26x₁²-1.85x₂²-1.51x₃²+0.053x₁x₂+0.067x₁x₃+0.4x₂x₃.优化培养基组合为:淀粉浓度为30g/L,豆饼粉浓度为5 g/L,KH₂PO₄的浓度为0.7g/L,且此组合下少动鞘脂假单胞发酵得到结冷胶可达23.87g/L.     

甲壳素脱乙酰酶产生菌产酶条件的优化

采用斜面培养和液体发酵培养产甲壳素脱乙酰酶的真菌构巢曲霉,并且研究了产酶条件。结果表明,构巢曲霉的最适产酶条件为：发酵培养基初始pH值为6.5、发酵时间为96h、培养温度为31℃、碳源浓度为2%、氮源浓度为2%、金属离子浓度为0.01mol/L、接种量为6%。     

Dielectrophoretic behavior of yeast cells: effect of growth sources and cell wall and a comparison with fungal spores.

Saccharomyces cerevisiae showed different dielectrophoretic behavior depending on the source of carbon for growth. Growth on fermentable carbon sources produced a dielectrophoretic response that decreased according to the amount of sugar present in the culture medium. Growth on nonfermentable carbon sources produced a constant dielectrophoretic yield, independent of the amount and source of carbon present in the medium. The dielectrophoretic yield, however, was independent of the nitrogen source. The yield spectrum for S. cerevisiae protoplasts was similar to that for the cells, although a decrease in the absolute value was observed. This decrease could be explained by the reduction in cell size and by assuming that the cell wall contributes a negative net charge to the yield. Fungal spores responded to the nonuniform electric field in the same range of frequencies as assayed for yeast cells.     

野生柳生金针菇和金针菇的分离、生物学特性及驯化栽培

采自滇西北地区的2份野生大型真菌标本,通过形态学及内转录间隔区(ITS)序列的分子系统发育分析鉴定为柳生金针菇Flammulina rossica和金针菇F.filiformis。以分离纯化保藏的菌株Mdr-02和Mdr-09作为实验材料,进行生物学特性和驯化栽培研究,采用碳源、氮源、无机盐、pH和温度5个因素进行单因素实验,从中挑选出4个较优因素的3个最优水平进行正交试验,研究不同培养条件对菌丝生长的影响。结果表明,柳生金针菇菌丝的最适生长碳源为麦芽浸粉,最适生长氮源为豆饼粉,最适无机盐为碳酸钙,最适生长温度为24℃,最适pH为6.0;金针菇菌丝最适碳源为麦芽浸粉,最适氮源为酵母粉,最适无机盐为硫酸镁,最适生长温度为24℃,最适pH为6.0。此外,本研究首次成功驯化了柳生金针菇并获得了一株可选育的金针菇菌株,为野生金针菇种质资源开发及新品种选育提供参考。