Synthetic activity enhancement of membrane-bound lipase from <Emphasis Type="Italic">Rhizopus chinensis</Emphasis> by pretreatment with isooctane

The cell-bound lipase from Rhizopus chinensis CCTCC M201021 with high catalysis ability for ester synthesis was located as a membrane-bound lipase by the treatments of Yatalase™ firstly. In order to improve its synthetic activity in non-aqueous phase, the pretreatments of this enzyme with various organic solvents were investigated. The pretreatment with isooctane improved evidently the lipase synthetic activity, resulting in about 139% in relative synthetic activity and 115% in activity recovery. The morphological changes of mycelia caused by organic solvent pretreatments could influence the exposure of the membrane-bound enzyme from mycelia and the exhibition of the lipase activity. The pretreatment conditions with isooctane and acetone were further investigated, and the optimum effect was obtained by the isooctane pretreatment at 4°C for 1 h, resulting in 156% in relative synthetic activity and 126% in activity recovery. When the pretreated lipases were employed as catalysts for the esterification production of ethyl hexanoate in heptane, higher initial reaction rate and higher final molar conversion were obtained using the lipase pretreated with isooctane, compared with the untreated lyophilized one. This result suggested that the pretreatment of the membrane-bound lipase with isooctane could be an effective method to substitute the lyophilization for preparing biocatalysts used in non-aqueous phase reactions.     

华根霉液态培养生产脂肪酶不同形态菌体的转录组差异分析

【背景】作为发酵工业中一类重要的生产菌株,丝状真菌目的产物的形成与菌体形态有着紧密的联系。华根霉(Rhizopus chinensis)CCTCC M201021是从我国传统酿造浓香型白酒大曲中筛选到的一株丝状真菌,其生成的包括脂肪酶在内的酶蛋白具有较高的工业应用价值。【目的】华根霉(Rhizopus chinensis)CCTCC M201021在脂肪酶液态发酵中形成两种不同形态菌体,发酵表现差异明显。本研究考察华根霉不同菌体形态及其细胞代谢在转录组水平的内在差异。【方法】基于RNA-Seq高通量转录组测序,分别对液态培养获得的不同形态华根霉菌体高表达和显著差异表达的转录基因进行功能分析。【结果】两种形态菌体转录组存在明显的差异。利用RPKM值对表达量最高的前20个基因进行分析,聚集态菌体高表达基因主要为不同类别的核糖体蛋白,而分散态菌体中与细胞形态相关的几丁质酶及与信号传导相关的基因也是高表达基因。在两种形态菌体显著差异表达的20个基因中,除了涉及代谢的基因有明显不同外,分散态菌体中也有一些涉及"细胞过程与信号"的基因上调表达显著。两种形态菌体中独有表达基因总体表达量均较低,但聚集态菌体独有表达基因在基因种类和表达量上都要明显高于分散态菌体。同时,转录分析表明,华根霉脂肪酶在聚集菌体中较高的生产水平与脂肪酶基因的高水平转录有关。【结论】菌体形态的差异显著影响了华根霉的转录组,不仅不同形态菌体高表达基因和显著差异表达基因有明显不同,而且功能相同的蛋白在不同菌体形态下也多是由不同基因表达,它们可能承担着不同的作用。总体而言,华根霉聚集态菌体中存在更为复杂的生理过程,而分散菌体中受到信号的传导和调控似乎更多。菌体形态的改变可能是细胞分化的结果,伴随着菌体对细胞微环境改变的一种响应。研究结果为深入了解丝状真菌形态分化的内在机制及其影响提供了一些线索。     

Fatty acid preference of mycelium-bound lipase from a locally isolated strain of <Emphasis Type="Italic">Geotrichum candidum</Emphasis>

Mycelium-bound lipase (MBL) was prepared using a strain of Geotrichum candidum isolated from local soil. At the time of maximum lipase activity (54 h), the mycelia to which the lipase was bound were harvested by filtration and centrifugation. Dry MBL was prepared by lyophilizing the mycelia obtained. The yield of MBL was 3.66 g/l with a protein content of 44.11 mg/g. The lipase activity and specific lipase activity were 22.59 and 510 U/g protein, respectively. The moisture content of the MBL was 3.85%. The activity of free (extracellular) lipase in the culture supernatant (after removal of mycelia) was less than 0.2 U/ml. The MBL showed selectivity for oleic acid over palmitic acid during hydrolysis of palm olein, indicating that the lipase from G. candidum displayed high substrate selectivity for unsaturated fatty acid containing a cis-9 double bond, even in crude form. This unique specificity of MBL could be a direct, simple and inexpensive way in the fats and oil industry for the selective hydrolysis or transesterification of cis-9 fatty acid residues in natural triacylglycerols.     

Influence of <Emphasis Type="Italic">Flammulina velutipes</Emphasis> mycelia culture conditions on antimicrobial metabolite production

Enokipodins A, B, C, and D are α-cuparene-type sesquiterpenoids antimicrobial metabolites produced in the stationary stage of Flammulina velutipes mycelia development in malt extract broth. This study assessed the influence of nutritional and environmental factors on F. velutipes mycelia culture for the production of these metabolites. The mycelia growth and antimicrobial activity were assessed by determining dry matter and the diffusion in agar method, respectively. The best F. velutipes mycelia growth was observed in dextrose potato broth, and greater antimicrobial metabolite production occurred in complete Pontecorvo’s culture medium. Environmental modifications, such as a rise in temperature from 25° to 37°C on the 15th day of F. velutipes mycelia culture in malt extract and peptone broth, also optimized antimicrobial metabolite production. The metabolites produced in these treatments were correlated with the enokipodins A and B in thin-layer chromatography (TLC) and the antifungal activity test by TLC bioautography. This study showed that there was no correlation between biomass production and antimicrobial metabolite production, but there may be a correlation between culture medium composition and enokipodins biosynthesis.     

Production of arachidonic acid byMortierella fungi

The growing interest in the application of arachidonic acid (ARA) in various fields of health and dietary requirements has elicited much attention on the industrial production of ARA-containing oil by the cultivation ofMortierella fungi. For the industrial production of ARA, various studies, such as isolation of a high-potential strain and optimization of culture conditions, have been conducted. Studies including the investigation of morphology are important because ARA is accumulated in the mycelia, and thus cultivation with high biomass concentration is essential for obtaining a high ARA yield. Combining the results derived from various studies, a high ARA yield was attained in an industrial fermentor. These ARA production techniques are applicable to the production of other polyunsaturated fatty acids (PUFAs), and will contribute to the improvement of fermentation technology especially in the field of fungal cultivation.     

Relationship between lipase production and pseudomycelia formation in a dimorphicCandida sp.

Nitrilotriacetic acid, octanol, hexanol, xylene, naphthalene and camphor increased the lipase production and the formation of mycelia by 10 to 50% and 10 to 27% respectively in a dimorphicCandida sp. Ni²⁺, Ca²⁺, Co²⁺, Cr³⁺ and SeO^2- ₃ ions enhanced lipase production and mycelia formation by 16 to 53% and 13 to 23% respectively.     

Lipase production of Staphylococcus carnosus in a dialysis fermentor

Summary In a newly constructed one-vessel dialysis fermentor, a strain of Staphylococcus carnosus TM300 carrying the lipase secretion plasmid pLipPS1 was used to investigate exoenzyme and biomass production. The bacterial culture grows in an inner compartment of 21 volume, separated from a 101 nutrient broth compartment by a conventional dialysis membrane. In order to avoid substrate depletion and to prolong the growth phase, a highly concentrated nutrient broth was used. The biomass production reached 60 g cell dry weight/l. The increase in extracellular lipase concentration was directly coupled with the increase of cell mass and reached a value of 230 mg/l culture supernatant. Harvesting the cells in the late growth phase, the lipase content was about 30% of the total exoproteins in the supernatant.     

High yield <Emphasis Type="Italic">Rhizopus chinenisis</Emphasis> prolipase production in <Emphasis Type="Italic">Pichia pastoris</Emphasis>: Impact of methanol concentration

Rhizopus lipases have been successfully expressed in Pichia pastors and different fermentation strategies have been investigated. However, there is no sufficient study on the effects of methanol concentration on the production of Rhizopus lipases in P. pastors. In this study, the lipase from Rhizopus chinensis CCTCC M20102 was expressed under different fed-batch fermentation conditions at methanol concentrations ranging from 0.5 to 3.5 g/L. The lipase activity, stability, and productivities were analyzed. The optimum methanol concentration was 1 g/L, with the highest lipase activity of 2,130 U/mL, without degradation. Additional information was obtained from the analysis of methanol consumption and production rates. The results also suggested that the cell concentration at the end of the glycerol fed-batch phase was very important for cell viability and protease activity.     

Modeling of lutein production by heterotrophic <Emphasis Type="Italic">Chlorella</Emphasis> in batch and fed-batch cultures

Chlorella is a promising alternative resource of lutein (xanthophyll) production as it can be cultivated heterotrophically in fermentors. In this paper, a kinetic model for lutein production by heterotrophic Chlorella pyrenoidosa was developed based on batch cultivations in 250-ml flasks and a 19-l fermentor. The model was validated by experimental data from two fed-batch cultivations performed in the same fermentor. The dynamic behavior of lutein production by C. pyrenoidosa with various concentrations of glucose and nitrogen was analyzed based on the kinetic model. Model-based analyses suggested that glucose concentrations between 5 and 24 g/l and nitrogen concentrations between 0.7 and 12 g/l during the cultivation were favorable for lutein production by heterotrophic C. pyrenoidosa. It also showed that fed-batch cultivations are more suitable for efficient production of lutein than batch ones. The results obtained in this study may contribute to commercial lutein production by heterotrophic Chlorella.     

Changes in growth competence of aged <Emphasis Type="Italic">Trichoderma viride</Emphasis> vegetative mycelia

Identical masses of submerged Trichoderma viride mycelia of various ages were used as inoculum for a second submerged cultivation lasting for 24 h. It was found that the growth yield of secondary culture was dependent on the age of inoculum. The growth yields increased when the age of primary culture was less than 3 d, and decreased down to zero when older mycelia were inoculated. The mycelia were living even after 1 month of submerged cultivation, as they formed conidia after inoculating onto solid medium. In order to elucidate underlying biochemical processes, developmental changes of specific activities of organellar marker enzymes were measured in the mitochondrial/vacuolar and microsomal fractions of mycelia. These activities changed during the growth of mycelia in a biphasic manner and their time courses were remarkably similar. Only the H⁺-ATPase activity decreased monophasically with the age of mycelia. Membrane-bound proteases of both membrane fractions changed differently upon ageing. These results could not be explained as a consequence of nutrient starvation and indicate that the prolonged submerged cultivation triggers coordinated series of biochemical events which leads to the loss of growth competence.     

Aerial mycelia of Aspergillus oryzae accelerate α-amylase production in a model solid-state fermentation system

Aspergillus oryzae is commonly used in solid-state fermentation (SSF) and forms abundant aerial mycelia. Previously, we have shown that aerial mycelia are extremely important for the respiration of this fungus during growth on a wheat-flour model substrate. In this paper, we show that aerial mycelia of this fungus give a strong increase in fungal biomass and α-amylase production. Cultures of A. oryzae on wheat-flour model substrate produced twice the amounts of fungal biomass and α-amylase, when aerial mycelia were formed. Utilization of these findings in commercial solid-state fermenters requires further research; results from packed beds of grain indicate that aerial mycelia are of limited importance there. Probably, substrate pre-treatment and an increase in bed voidage are required.     

Effects of oils and oil-related substrates on the synthetic activity of membrane-bound lipase from Rhizopus chinensis and optimization of the lipase fermentation media

The lipase from filamentous fungi Rhizopus chinensis, as a membrane-bound enzyme, possesses the excellent catalysis ability for esterification and transesterification reactions, and has a good potential in many industrial applications. In order to improve the synthetic activity of the lipase, the effects of oils and oil-related substrates on its production and the fermentation media optimization were investigated. Based on the results, it was suggested that oleic acid could be the important substrate for the lipase production. Among various oils and oil-related substrates, olive oil containing high content of oleic acid was the optimal one for the lipase production. Using orthogonal test and response surface methodology (RSM), the composition of fermentation media was further optimized. The optimized media for lipase synthetic activity and activity yield was composed of peptone 57.94 and 55.58 g L⁻¹, olive oil 21.94 and 22.99 g L⁻¹, maltose 12.91 and 14.34 g L⁻¹, respectively, with K₂HPO₄ 3 g L⁻¹, MgSO₄·7H₂O 5 g L⁻¹ and initial pH 6.0. Under the optimal conditions, the lipase activity and the activity yield were improved 61.5 and 93.4% comparing the results before optimization, respectively. The adequate models obtained had predicted the lipase production successfully.     

Morphology and viability analysis of<Emphasis Type="Italic"> Streptomyces clavuligerus</Emphasis> in industrial cultivation systems

The effects of varying inoculum age and production scale upon the morphology and viability of Streptomyces clavuligerus were studied by analyzing visible and fluorescent light images acquired throughout pilot-plant and pre-industrial scale fermentations. Changes in production scale reveal that in 5 m³ fermentors, the maximum hyphal area obtained is double the value obtained in 0.5 m³ fermentors. It is probably due to the higher shear stresses acting upon hyphae in the 0.5 m³ fermentor caused by higher tip speeds observed in these. The morphological quantification based on elongation and branching rates allowed fermentations to be pattern classified into distinct physiological time zones namely elongation, branching, fragmentation, etc. The general pattern observed for fermentations inoculated with late exponential phase inocula was similar to the pattern of fermentations run with stationary phase inocula except that both the elongation and branching periods started earlier in the former case. Using the available staining technique and image acquisition system, the viability seemed to be generally high and constant throughout the time course of all the studied fermentations.An erratum to this article can be found at     

Optimization of process parameters for the production of carbonyl reductase by <Emphasis Type="Italic">Candida viswanathii</Emphasis> in a laboratory-scale fermentor

The effect of pH, aeration and mixing on the growth and production of carbonyl reductase by Candida viswanathii was investigated in a 6.6-l fermentor. Controlling the pH at 8.0 had a very significant effect on the enzyme production. Aeration and agitation influenced the dissolved oxygen concentration which in turn affected growth as well as enzyme production. A maximum carbonyl reductase activity (53 Umg⁻¹) was attained in 24 h under the optimal cultivation conditions of controlled pH at 8.0, aeration rate 1 vvm and an agitation speed of 250 rpm at 25°C. The enzyme activity was twice as high (56 Umg⁻¹) in the fermentor as compared to a shake flask. Further, the duration of growth and enzyme production in the fermentor was shortened. Cells cultivated under the optimized conditions were used for the preparative scale reduction of N, N-dimethyl-(3-keto)-2-thienyl-propanamine to (S)-N, N-dimethyl-(3-hydroxy)-2-thienyl-propanamine, a key intermediate in the production of the important antidepressant drug (S)-duloxetine.     

Improvement of lipase production by addition of catalase during fermentation

A batch fermentation process for lipase production with the recombinant strain Staphylococcus carnosus (pLipMut2) was studied in a bubble column. The rates of growth and lipase production in this type of fermentor were compared with results from shakeflasks. It was seen that cultivation in the bubble column resulted in a prolonged lag time and a reduced lipase activity in comparison to flask cultures. However, by addition of catalase during the fermentation in the bubble column this different behaviour could be avoided. Correspondence to: E. Wenzig     

Production of extracellular lipase by Candida cylindracea CBS 6330

In this study we investigated the influences of aeration, substrate type and concentration on extracellular lipase production in a batch fermentor. The use of air enriched with pure oxygen is the most suitable for the lipase production. Additionally, we found that the presence of fats in the culture broth did not affect the value of the volumetric mass transfer coefficient of oxygen in our system. Olive oil or oleic acid was used as carbon sources. In both cases, the maximal specific rate of growth, μ_max, was the same but the highest activity was obtained when 10?g/dm³ of olive oil were used as an initial substrate concentration.     

Production and regulation of different lipase activities from Rhizopus chinensis in submerged fermentation by lipids

The fungal Rhizopus chinensis could produce several types of lipase, which were mainly intracellular. During the whole-cell lipase production by this strain in submerged fermentation, it was observed that two catalytic characteristics (hydrolytic and synthetic activity) of lipases were different with addition of lipids. The hydrolytic activity of the lipase was not induced by lipids efficaciously and could be detected regardless of whether substrate-related compounds were present. However, it was found that the induction of lipids for the synthetic activity lipase was significant, and that nearly no synthetic activity was detected while the medium contained no lipids. When only a little lipid (1 g/L) was added to medium, the synthetic activity increased sharply in the initial process of fermentation. Analysis of crude membrane-bound lipase by SDS-PAGE confirmed this induction. De novo biosynthesis of lipases, especially the lipase with synthetic activity occurred only when lipids existed. Cell growth and maltose repress the lipase production with synthetic activity, but have little influence on the lipase production with hydrolytic activity. Since the production process of mycelium-bound lipase with hydrolytic activity was different, it was reasonable to consider hydrolytic activity and synthetic activity for different application purposes. Whole-cell lipase obtained from fermentation process with high synthetic activity showed excellent catalytic ability in solvent free system on synthesis of ethylcaprylate and ethyloleate, the conversion could reach more than 90% in 5 h.     

Productivity of hydrolytic enzymes by mycorrhizal mushrooms

To survey the potential for production of extracellular hydrolytic enzymes by mycorrhizal mushrooms, productivities of these exo-enzymes from mycelia on potato-dextrose liquid medium were determined.Tricholoma matsutake produced relatively high levels of CM-cellulase and avicelase activities in all test strains. It also produced higher activity of acid proteinase than neutral proteinase. Its xylanase activities seemed to be higher than those of the other carbohydrases. The productivities ofLyophyllum shimeji strains were at similar levels to those ofT. matsutake strains. CM-cellulase and avicelase activities ofL. shimeji were higher than those ofT. matsutake. Neutral proteinase inL. shimeji strains showed higher activity levels than acid proteinase. The relative productivities of hydrolytic enzymes between the groups of mycorrhizal mushrooms and wood-rotting mushrooms were also examined.T. matsutake andL. shimeji both produce many kinds of hydrolytic enzymes in their culture broth, and the potential for production of hydrolytic enzymes by mycorrhizal mushrooms was judged to be relatively high.     

Genetic organization of the putative salbostatin biosynthetic gene cluster including the 2-<Emphasis Type="Italic">epi</Emphasis>-5-<Emphasis Type="Italic">epi</Emphasis>-valiolone synthase gene in <Emphasis Type="Italic">Streptomyces albus</Emphasis> ATCC 21838

In this paper, we provide the first report of utilizing recombinant fungal whole cells in enzymatic biodiesel production. Aspergillus oryzae, transformed with a heterologous lipase-encoding gene from Fusarium heterosporum, produced fully processed and active forms of recombinant F. heterosporum lipase (FHL). Cell immobilization within porous biomass support particles enabled the convenient usage of FHL-producing A. oryzae as a whole-cell biocatalyst for lipase-catalyzed methanolysis. The addition of 5% water to the reaction mixture was effective in both preventing the lipase inactivation by methanol and facilitating the acyl migration in partial glycerides, resulting in the final methyl ester content of 94% even in the tenth batch cycle. A comparative study showed that FHL-producing A. oryzae attained a higher final methyl ester content and higher lipase stability than Rhizopus oryzae, the previously developed whole-cell biocatalyst. Although both FHL and R. oryzae lipase exhibit 1,3-regiospecificity towards triglyceride, R. oryzae accumulated a much higher amount of sn−2 isomers of partial glycerides, whereas FHL-producing A. oryzae maintained a low level of the sn−2 isomers. This is probably because FHL efficiently facilitates the acyl migration from the sn−2 to the sn−1(3) position in partial glycerides. These findings indicate that the newly developed FHL-producing A. oryzae is an effective whole-cell biocatalyst for enzymatic biodiesel production.     

Lipase production and Penicillium simplicissimum morphology in solid-state and submerged fermentations

A comparative study of Penicillium simplicissimum morphology and lipase production was performed using solid-state (SSF) and submerged (SmF) fermentation. SSF was carried out on babassu cake as culture medium and SmF on a semi-synthetic medium and a medium based on suspended babassu cake grains. Yield of product on biomass, specific activity and conidia production were 3.3-, 1.3- and 2-fold higher in SSF. In SmF, the type of fungus growth differed according to the medium. Using the semi-synthetic medium, the fungus formed densely interwoven mycelial masses without conidia production, whereas using the babassu-based medium the fungus formed free mycelia and adhered to the surfaces of the grains, producing conidia. The results show that babassu cake induces conidiation in SmF. In SSF, the fungus not only grew on the surface of the grains, producing conidia abundantly, but also effectively colonized and penetrated the babassu particles. The high conidia production and lipase productivity in SSF may be related to the low availability of nutrients or to other stimuli associated with this type of fermentation. Thus, the high production of the thermostable P. simplicissimum lipase, using a non-supplemented, low-cost agro-industrial residue as the culture medium, demonstrates the biotechnological potential of SSF for the production of industrial enzymes.