Fractional purification and bioconversion of hemicelluloses

Hemicelluloses are types of plant cell wall polysaccharides, and the world's second most abundant renewable polymers after cellulose in lignocellulosic materials. They represent a type of hetero-polysaccharide with complex structure containing glucose, xylose, mannose, galactose, arabinose, rhamnose, glucuronic acid, and galacturonic acid in various amounts, depending on the source. Hemicelluloses are usually bonded to other cell-wall components such as cellulose, cell-wall proteins, lignin, and phenolic compounds by covalent and hydrogen bonds, and by ionic and hydrophobic interactions. This paper provides a review on hemicelluloses from lignocellulosic materials, especially in regard to their isolation and purification methods, and bioconversion. Current isolation and purification strategies are summarized, including: alkali peroxide extraction, organic solvent extraction, steam explosion, ultrasound-assisted extraction, microwave-assisted extraction, column chromatography, and membrane separation. In addition, the bioconversion of hemicelluloses including pretreatment, enzymatic hydrolysis, and fermentation are discussed.     

一菌双酶法制备L-4-氟苯丙氨酸

利用重组E．coli产天冬氨酸酶和天冬氨酸转氨酶催化生产L-4-氧苯丙氨酸的工艺。实验结果表明最佳转化条件为-37℃,pH值4．5—8．5,菌体与酮酸的质量浓度比为1.5,CTAB的质量分数为0．04％,酮酸的质量浓度11．28g／L,富马酸铵与酮酸的摩尔比为3．0：1．0,添加1mmol／L的Fe^2＋,L-天冬氨酸与酮酸的摩尔比为0．4：1。在最适条件下,经过14h酶转化反应达到平衡,酮酸转化率可达到95％以上,L-4-氟苯丙氨酸得率也可达到80％以上。此法原料简单易得,为L-4-氟苯丙氨酸的制备提供了一种新方法：     

栉孔扇贝血液细胞的免疫功能

利用光镜、扫描电镜和透射电镜技术对栉孔扇贝(Chlamysferreri)血细胞与细胞免疫功能相关的几个因素进行了初步研究。对血细胞的数量和不同功能细胞的比例研究结果表明,健康血淋巴中血细胞的平均密度为3.03±0.11×107cell/ml,其中颗粒细胞占42.6%,透明细胞占57.4%;病贝血淋巴中血细胞的平均密度为2.78±0.34×107cell/ml,其中颗粒细胞占40.2%,透明细胞占59.8%。扫描电镜观察表明,血细胞的表面结构主要有表面光滑型,表面松果型和表面褶皱阿米巴型3类。透射电镜观察表明,颗粒细胞吞噬外源性颗粒(Ⅰ型颗粒)通过溶酶体(Ⅱ型颗粒)进行降解。并观察到同心片层结构出现在吞噬泡的降解过程中。利用APIZYM试剂盒对栉孔扇贝血细胞及血清中的19种酶进行检测,结果在血清中检测到了13种酶,在血细胞中检测到10种酶,健康血淋巴中酶的含量高于病贝。对血细胞吞噬活性的研究结果表明,血细胞对大肠杆菌和对类立克次体(RLO)的吞噬率分别为25.4%和21.7%。颗粒细胞的吞噬活性(30%-40%)远远大于透明细胞(4.8%-14%)。环境胁迫对血细胞吞噬活性的影响的研究结果表明,病原菌感染和温度、盐度等环境胁迫因素对血细胞的吞噬活性均有不同程度的影响,其中高温因素影响较大,但未发现贝龄有显著影响     

直接加热膨化蔗渣酶法水解的研究

采用加热时间为２０ｍｉｎ,压力为２．０ＭＰａ,温度为１２０℃的直接加热膨化甘蔗渣为水解底物、日本ｙｓｋｕｌｔ生物化学试剂公司生产的ｏｎｏｚｕｋＲＳ型纤维纯洁酶粉进行蔗渣的酶法水解实验,考察了蔗渣中纤维素的酶解还原糖得率与反应时间、酶浓度、ｐＨ值、缓冲液种类、离子强度以及固液比的关系,结果表明：当固液比为５％（ｗ／ｖ）,酶浓度＞１．２０ｍｇ／ｍｌ时,还原糖得率随酶浓度的增加变化不显著;本实验条件下,缓冲液种类和离子强度对还原糖得率几乎没有影响;水解最适宜ｐＨ值为４．２～４．９;最佳反应温度为５０℃。     

耐碱性甘露聚糖酶基因的克隆及其在毕赤酵母中的表达

通过功能平板从土壤中筛选得到含甘露聚糖酶基因的耐碱菌株。构建其基因组文库,从中筛选到甘露聚糖酶基因TM1并测序分析,用BLAST分析表明,TM1的氨基酸序列与其他在GenBank发表的甘露聚糖酶的氨基酸序列的同源性均低于60%,故确定其为一个新的甘露聚糖酶基因(GenBank登录号为AY623903)。将此基因去除信号肽后的编码序列克隆到表达载体pHBM905C上,得到重组质粒pHBM1201。经SalⅠ酶切后分别转化毕赤酵母(Pichiapastoris)KM71、GS115、SMD1168,得到分泌表达的重组毕赤酵母。挑选相对表达量最高的重组毕赤酵母SMD1168-3在摇瓶中诱导产酶,对该酶的粗酶进行酶学性质分析表明,其最适反应温度为55℃,最适PH值为7.5,以魔芋粉为底物所测得的最高酶活为41.8U,半衰期为1h,在80℃保温5min其酶活由最初酶活的77%下降到11%,温度下降到55℃后活性可恢复到最初酶活的60%以上。     

利用黑曲霉单宁酶酶法制取没食子酸的研究

利用已有的 10株高单宁酶活性的菌株为起始菌 ,经活化分离选择 ,借助Ⅱ级发酵培养程序、生物转化、结合TLC分析进行筛选实验。最后选出具有高单宁酶活性的 1号和 5 0号菌株 ,开展了没食子酸 (GA)克量级生物转化法制备实验 ,结果表明 ,本酶法工艺是可行的 ,在发酵液中GA的浓度分别达到2 0 .6mg/ml和 2 1 3mg/ml,产品产率 (以从五倍子提取的单宁酸计 )达到 41 2 %和 42 6 % ,具有潜在的工业开发价值     

The effect of biological pretreatment with the selective white-rot fungus Echinodontium taxodii on enzymatic hydrolysis of softwoods and hardwoods

Selective white-rot fungi have shown potential for lignocellulose pretreatment. In the study, a new fungal isolate, Echinodontium taxodii 2538, was used in biological pretreatment to enhance the enzymatic hydrolysis of two native woods: Chinese willow (hardwood) and China-fir (softwood). E. taxodii preferentially degraded the lignin during the pretreatment, and the pretreated woods showed significant increases in enzymatic hydrolysis ratios (4.7-fold for hardwood and 6.3-fold for softwood). To better understand effects of biological pretreatment on enzymatic hydrolysis, enzyme–substrate interactions were investigated. It was observed that E. taxodii enhanced initial adsorption of cellulase but which did not always translate to high initial hydrolysis rate. However, the rate of change in hydrolysis rate declined dramatically with decreasing irreversible adsorption of cellulase. Thus, the enhancement of enzymatic hydrolysis was attributed to the decline of irreversible adsorption which may result from partial lignin degradation and alteration in lignin structure after biological pretreatment.     

Enzymatic rearrangement of chitine hydrolysates with β-N-acetylhexosaminidase from Aspergillus oryzae

The role of higher chitooligomers in medical applications is increasing due to their interesting biological activities. Transglycosylation activity of β-N-acetylhexosaminidase from Aspergillus oryzae was employed to produce higher chitooligosaccharides (chitohexaose–chitooctaose) from a mixture of lower chitooligomers prepared by acid hydrolysis of chitin. Enzymatic rearrangement of the chitooligomer mixture was optimized in respect of substrate concentration, presence of inorganic salts, enzyme activity, and reaction time to achieve the highest production of longer chitooligomers.     

Protein hydrolysate from organic fraction of municipal solid waste compost as nitrogen source to produce lactic acid by Lactobacillus fermentum ATCC 9338 and Lactobacillus plantarum NCIMB 8826

In this work a strategy for obtaining free amino-acids concentrate from an organic fraction of municipal solid waste compost and its use as a nitrogen source for lactic acid production, a compound widely used in different industries, using L. fermentum ATCC 9338 and L. plantarum NCIMB 8826 strains is described. Enzymatic digestion is based on the combined action of endoprotease Alcalase 1.5 MG and exoprotease Flavourzyme 500 MG. The highest degree of hydrolysis obtained under the optimal conditions was 41%. The use of glucanase Viscozyme L prior to protein hydrolysis helped to reduce the viscosity of the solution and promote the action of proteases, increasing its hydrolysis degree by 76%. The hydrolysate contained all 21 amino-acids, making it ideal for lactic acid bacteria growth. During shake flask cultivations the culture media was complemented with glucose as carbon source. Finally, with the hydrolysate, a maximum lactic acid concentration of 9.0 ± 0.2 g·L⁻¹ and 11.1 ± 0.1 g·L⁻¹ for L. fermentum ATCC 9338 and L. plantarum NCIMB 8826 respectively was obtained after 27 h. The innovation of the approach lies in exploiting the overproduction of compost for the production of lactic acid.     

Molecular identification and enzymatic profiling of Trypodendron (Curculionidae: Xyloterini) ambrosia beetle-associated fungi of the genus Phialophoropsis (Microascales: Ceratocystidaceae)

Ambrosia fungi are a polyphyletic group from currently seven ascomycete and basidiomycete lineages that independently evolved an obligate farming mutualism with wood-boring weevils. One long known, but understudied, association is the mutualism between the scolytine beetle genus Trypodendron (Curculionidae: Xyloterini) and the Microascales fungal genus Phialophoropsis (Ascomycota: Ceratocystidaceae) for which a species-specific association has not been safely established yet. Moreover, the fungal wood degrading capabilities are completely unknown.Here, the ambrosia fungi of three Xyloterini species, Trypodendron domesticum, Trypodendron lineatum and Trypodendron signatum, were isolated and identified using culture-dependent methods. T. lineatum was confirmed to be exclusively associated with Phialophoropsis ferruginea, whereas T. domesticum and T. signatum are associated with a closely related but putatively novel Phialophoropsis species. Investigations of their wood decomposing potential revealed that both fungi mainly depolymerize xylan but are weak mannan decomposers. In addition, robust cellulolytic activity was observed, indicating cellulose as another main carbon source.