The Penicillium echinulatum Secretome on Sugar Cane Bagasse

Plant feedstocks are at the leading front of the biofuel industry based on the potential to promote economical, social and environmental development worldwide through sustainable scenarios related to energy production. Penicillium echinulatum is a promising strain for the bioethanol industry based on its capacity to produce large amounts of cellulases at low cost. The secretome profile of P. echinulatum after grown on integral sugarcane bagasse, microcrystalline cellulose and three types of pretreated sugarcane bagasse was evaluated using shotgun proteomics. The comprehensive chemical characterization of the biomass used as the source of fungal nutrition, as well as biochemical activity assays using a collection of natural polysaccharides, were also performed. Our study revealed that the enzymatic repertoire of P. echinulatum is geared mainly toward producing enzymes from the cellulose complex (endogluganases, cellobiohydrolases and β-glucosidases). Glycoside hydrolase (GH) family members, important to biomass-to-biofuels conversion strategies, were identified, including endoglucanases GH5, 7, 6, 12, 17 and 61, β-glycosidase GH3, xylanases GH10 and GH11, as well as debranching hemicellulases from GH43, GH62 and CE2 and pectinanes from GH28. Collectively, the approach conducted in this study gave new insights on the better comprehension of the composition and degradation capability of an industrial cellulolytic strain, from which a number of applied technologies, such as biofuel production, can be generated.     

Cellulase On-Site Production from Sugar Cane Bagasse Using Penicillium echinulatum

Penicillium echinulatum was evaluated as a cellulolytic enzyme producer in shaking flasks and bioreactor submerged culture using sugarcane bagasse as carbon source. Sodium hydroxide delignified steam-exploded pretreated bagasse (SDB) and hydrothermal pretreated bagasse had a maximum filter paper activity (FPase) of 2.4 and 2.6 FPU/mL, respectively. Delignified acid pretreated bagasse and Celufloc 200TM (CE) carbon sources displayed maximum FPase of 1.3 and 1.6 FPU/mL while in natura bagasse (INB) provided the lowest enzyme activity, ca. 0.4 FPU/mL. Measurement of surface specific area of lignocellulosic material and scanning electron microscopic images showed a possible correlation between fungal mycelia accessibility to lignocellulosic particles and obtained cellulolytic enzyme activity of fermentation broth. Fed-batch experiments performed in a controlled bioreactor attained the highest value of FPase of 3.7 FPU/mL, enzyme productivity of 25.7 FPU/L h, and enzyme yield from cellulose equal to 134 FPU/g with SDB. Enzyme hydrolysis of steam-pretreated bagasse accomplished with the obtained supernatant of fermentation broth (10 FPU/g of biomass and 5 % w/v) performed better than commercial cellulose complex. The results showed that P. echinulatum has potential to be used as an on-site enzyme platform aiming second bioethanol production from sugarcane lignocellulosic residue.     

酵母发酵蔗渣半纤维素水解物生产木糖醇

采用二次正交旋转组合设计研究了蔗渣半纤维素水解过程中硫酸浓度与液/固比对木糖收率的影响。回归分析表明,这两个因素与木糖的收率之间存在显著的回归关系。通过回归方程优化水解条件,当硫酸浓度2.4g/L,液/固=6.2,在蒸汽压力2.5×10⁴ Pa的条件下水解2.5h,100g蔗渣可水解生成木糖约24g 。大孔树脂吸附层析处理蔗渣半纤维素水解物,能有效地减少其中的酵母生长抑制物含量,显著改善水解物的发酵性能。用大孔树脂在pH 2条件下处理过的蔗渣半纤维素水解物作基质,含木糖200g/L,产木糖醇酵母菌株Candida tropicalis AS2.1776发酵110h耗完基质中的木糖,生成木糖醇127g/L,产物转化率0.64（木糖醇g/木糖g）,产物生成速率1.15g/L·h.       

酵母发酵蔗渣半纤维素水解物生产木糖酶

采用二次正交旋转组合设计研究了蔗渣半纤维素水解过程中硫酸浓度与液 固比对木糖收率的影响。回归分析表明 ,这两个因素与木糖的收率之间存在显著的回归关系。通过回归方程优化水解条件 ,当硫酸浓度 2 .4g L ,液 固 =6 .2 ,在蒸汽压力 2 .5× 10 4Pa的条件下水解 2 .5h ,10 0g蔗渣可水解生成木糖约 2 4g。大孔树脂吸附层析处理蔗渣半纤维素水解物 ,能有效地减少其中的酵母生长抑制物含量 ,显著改善水解物的发酵性能。用大孔树脂在pH 2条件下处理过的蔗渣半纤维素水解物作基质 ,含木糖 2 0 0g L ,产木糖醇酵母菌株CandidatropicalisAS2 .1776发酵 110h耗完基质中的木糖 ,生成木糖醇 12 7g L ,产物转化率 0 .6 4(木糖醇g 木糖g) ,产物生成速率 1.15g L·h .     

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℃。     

Optimal Bioreactor Operational Policies for the Enzymatic Hydrolysis of Sugarcane Bagasse

The consolidation of the industrial production of second-generation (2G) bioethanol relies on the improvement of the economics of the process. Within this general scope, this paper addresses one aspect that impacts the costs of the biochemical route for producing 2G bioethanol: defining optimal operational policies for the reactor running the enzymatic hydrolysis of the C6 biomass fraction. The use of fed-batch reactors is one common choice for this process, aiming at maximum yields and productivities. The optimization problem for fed-batch reactors usually consists in determining substrate feeding profiles, in order to maximize some performance index. In the present control problem, the performance index and the system dynamics are both linear with respect to the control variable (the trajectory of substrate feed flow). Simple Michaelis–Menten pseudo-homogeneous kinetic models with product inhibition were used in the dynamic modeling of a fed-bath reactor, and two feeding policies were implemented and validated in bench-scale reactors processing pre-treated sugarcane bagasse. The first approach applied classical optimal control theory. The second policy was defined with the purpose of sustaining high rates of glucose production, adding enzyme (Accellerase® 1500) and substrate simultaneously during the reaction course. A methodology is described, which used economical criteria for comparing the performance of the reactor operating in successive batches and in fed-batch modes. Fed-batch mode was less sensitive to enzyme prices than successive batches. Process intensification in the fed-batch reactor led to glucose final concentrations around 200 g/L.     

Isolation of a Hyperxylanolytic Cellulomonas Flavigena Mutant Growing on Continuous Culture on Sugar Cane Bagasse

Mutant M9-82 from Cellulomonas flavigena PN-120 was obtained by combined treatment of NTG and EMS. Xylanase activity of this mutant strain growing on batch culture, was 33.5 IU/ml, 2.7 times higher than its parent strain. When mutant M9-82 was grown on continuous culture at a dilution rate of 0.05 h^-1, xylanolytic activity increased to 45 IU/ml.     

利用蔗渣半纤维素水解液产油酵母的筛选、鉴定及发酵实验

对已分离到的产油酵母通过木糖摇瓶发酵,从中筛选到2株H2-1和J2-2利用蔗渣半纤维素水解液高产油脂酵母,其利用蔗渣半纤维素水解液油脂得率系数分别为13.49和10.28,均显示出对蔗渣半纤维素水解液的高转化率.根据常规生理生化特征和26S rDNA序列分析结果,确认H2-1为小红酵母(Rhodotorula minuta),J2-2为粘红酵母(Rhodotorula glutinis).     

Impact of Harvest Time and Switchgrass Cultivar on Sugar Release Through Enzymatic Hydrolysis

Switchgrass (Panicum virgatum L.) is a native North American prairie grass being developed for bioenergy production in the central and eastern USA. The objective of this study was to identify the impacts of harvest time and switchgrass cultivar had on sugar release variables determined through enzymatic hydrolysis. Previously, we reported that delaying harvest of switchgrass until after frost and until after winter resulted in decreased yields of switchgrass but it reduced the amount of ash and nutrients in the biomass. The current study used near-infrared reflectance spectroscopy (NIRS) to broaden an existing set of calibration equations designed to predict composition and sugar release variables of switchgrass. These updated calibrations were then applied to the full set of samples from a multi-year and multi-location switchgrass harvest-management study. Composition and processor sugar yields were significantly affected by location, year, cultivar, and harvest time, of which the time of harvest was the most important. Delaying the time of harvest until after frost or post-winter increased the concentration of structural carbohydrates from 500 to over 570 g kg^?1 in the biomass and lignin content from 160 to over 200 g kg^?1. Conversely, delaying harvest time lowered the amounts of ash and soluble sugars. The later harvest times also yielded more sugars following processing with yields increasing over 20% from the first harvest. Increased sugar yields are attributable to both increased concentration of sugars in the biomass upon harvest and reduced biomass recalcitrance. Based upon processed sugar yields, it is estimated that a biorefinery producing 76 million liters of ethanol per year would require 229–373 km² of land cultivated with switchgrass.     

Aroma Components of Fresh Sugar Cane Juice

To study the behavior of Bifidobacterium toward oxygen, oxygen uptake was investigated in detail. The cells of Bifidobacterial strains absorbed considerable amounts of oxygen. The exogenous oxygen uptake activity changed depending upon the period of incubation. Bifidobacterial cells also had high endogenous oxygen uptake, which was, in B. longum strains, as high as about 80% of the exogenous oxygen uptake activity. Bifidobacterial cells accumulated considerable amounts of polysaccharide, which was associated with cellular growth. By incubating the cultivated cells in a glucose-free medium, the endogenous oxygen uptake activity was decreased with a decrease of intracellular polysaccharide. Therefore it was postulated that the high endogenous oxygen uptake activity of Bifidobacterium was owing to the metabolism of intracellular polysaccharide. The enzymatic activity, which was involved in the mechanism of oxygen uptake, was also investigated.     

应用果胶酶澄清甘蔗汁的研究

以甘蔗为原料,采用果胶酶和自然澄清方法进行甘蔗汁澄清比较,结果表明,酶促效果好于自然澄清,100ml甘蔗汁添加200U果胶酶在25℃、12h或45℃、1h条件下,均可使甘蔗汁的澄清度由5%提高到95%,粘度由4.0mPa·s下降到1.1mPa·s。     

Physiological Functions of Acid and Neutral Invertases in Growth and Sugar Storage in Sugar Cane

The roles of acid invertases, pH optima about 5, and neutral invenase, pH optimum 7, have been examined during growth and maturation of stalks of sugar cane (Saccharum officinarum) and hybrid cultivars. Bound acid invertases are found in the outer space which includes the cell wall. A soluble acid invertase occurs in immature, elongating internodes, and is located both in the outer space and the vacuole of storage parenchyma cells. This enzyme disappears when internode growth ceases. The outer space component appears to be the major controller for dry matter input accompanying cell extension growth. The vacuolar component appears to be concerned with regulation of both turgor pressure and internal sugar pools. The neutral invertase increases during maturation. The level of enzyme activity correlates with the level of hexoses. This enzyme appears to be part of a system controlling sugar flux in mature storage tissue.     

Effects of Cadmium on Antioxidant Enzyme Activities in Sugar Cane

Sugar cane (Saccharum officinarum L. cv. Copersucar SP80-3280) seedlings were grown in nutrient solution with varying concentrations (0, 2 and 5 mM) of cadmium chloride for 96 h. Leaves were analysed for catalase (CAT), glutathione reductase (GR) and superoxide dismutase (SOD) activities. Although a clear effect of CdCl₂ on plant growth was observed, the activity of SOD was not altered significantly. However, the CAT activity decreased as the concentration of CdCl₂ increased. GR exhibits a significant increase in activity at 2 and 5 mM CdCl₂. CAT and SOD isoenzymes were further characterised by analysis in non-denaturing PAGE. Activity staining for SOD revealed up to seven isoenzymes in untreated control and 2 mM CdCl₂ treated plants, corresponding to Cu/Zn-SOD isoenzymes. At 5 mM CdCl₂, only six Cu/Zn-SOD isoenzymes were observed. No Fe-SOD and Mn-SOD isoenzymes were detected. For CAT, one band of activity was observed.     

Plastid Development and Ultrastructure in Yellowish Mutants of Sugar Cane

The comparisons of the ultrastructures of plastids in yellowish mutant and yellowish-green striped mutant and in normal green plant from tissue culture of sugar cane were made. There was no difference found in the structure and development of chloroplasts between the normal green leaves and the green tissue of striped leaves, but the plastid in the yellowish tissue of two kinds of mutants were anomalous. They had not a fully developed system of grana and stroma lameilae as in the normal green leaves. This aberrant plastid contained only some vesicles, a few lamellae and more or less clearly defined ribosome particles and DNA-like mierofibrils, while some stacking and swelling of thylakoids were often observed. In some sections of this aberrant plastid a bunchy lamellae and cross connective fibrils between parallel lamellae were often found too. However, the mixed cell which contains both of normal chloroplast and defective plastid together was never found in the leaves of the mutant plants. It was suggested that yellowish and yellowish-green striped leaves from tissue culture of sugar cane might be caused by nuclear gene mutation.