Aislamiento enzimático de protoplastos a partir del mesófilo de vitroplantas de Gynerium sagittatum Aubl. Beauv. cv. "Criolla"

Gynerium sagittatum es una gramínea ampliamente utilizada en la costa Caribe colombiana como fuente de fibra natural para la elaboración de artesanías, particularmente por la comunidad Zenú. En la presente investigación se evaluó el efecto de diferentes concentraciones de enzimas: celulasa y macerozima a diferentes tiempos de incubación y sus interacciones en el aislamiento de protoplastos. Los protoplastos se obtuvieron del mesófilo foliar de vitroplantas de G. sagittatum expuesto a combinaciones enzimáticas de celulasa (1.5 y 2.0%), con macerozima (0.3, 0.6 y 0.9%), durante 3, 6 y 9 horas de incubación, para un total de 18 tratamientos con 5 réplicas cada uno. Los mayores números de protoplastos aislados correspondieron a T18 (2.0% celulasa, 0.9% macerozima), T12 (2.0% de celulasa, 0.3% macerozima), T3 (1.5% de celulasa, 0.3% de macerozima) y T6 (1.5% de celulasa, 0.6% de macerozima) por 9 horas de incubación cada uno, con valores de 88.625, 83.000, 75.000 y 53.375 protoplastos/mL respectivamente. El tiempo de incubación fue significativo en el aislamiento de los protoplastos (p<0.05). Las predicciones entre factores mostraron que una interacción de 2.0% de celulasa y 0.9% de macerozima permite obtener 44.302 protoplastos/mL, mientras que las interaciciones tiempo de incubación-celulasa y tiempo de incubación-macerozima mostraron que es posible obtener 72.073 y 71.212 protoplastos/mL con 2.0% de celulasa y 0.9% macerozima por 9 horas de incubación cada una respectivamente. Los resultados indican que la aplicación de estas enzimas permite obtener cantidades considerables de protoplastos de G. sagittatum a partir de explantes cultivados in vitro.

Gynerium sagittatum is a graminaceous plant widely used in the Caribbean coast of Colombia as a natural fiber source for the elaboration of handicrafts, particularly by the Zenú community. In the present investigation, the effect of different concentrations of cellulase and macerozyme enzymes at different incubation times and their interaction in the isolation of protoplasts was evaluated. Protoplasts were obtained from leaf mesophyll of G. sagittatum vitroplants exposed to enzymatic combinations of cellulase (1.5 and 2.0%), with macerozyme (0.3, 0.6 and 0.9%), for 3, 6 and 9 hours of incubation, for a total of 18 treatments with 5 replicates each. The highest numbers of isolated protoplasts corresponded to T18 (2.0% cellulase, 0.9% macerozyme), T12 (2.0% cellulase, 0.3% macerozyme), T3 (1.5% cellulase, 0.3% macerozyme) and T6 (1.5% cellulase, 0.6% macerozyme); at 9 hours incubation. The protoplast number for these treatments were: 88.625, 83.000, 75.000 and 53.375 protoplasts/mL respectively. Incubation time was significant in the isolation of protoplasts (p<0.05). The predictions between the factors showed that with an interaction of 2.0% cellulase and 0.9% macerozyme it is possible to obtain 44.302 protoplasts/mL, likewise, the incubation time-cellulase and incubation time-macerozyme interactions showed that it is possible to obtain 72.073 and 71.212 protoplasts/mL with 2.0% cellulase and 0.9% macerozyme for 9 hours of incubation respectively. The results indicate that the use of these enzymes and time, allows the isolation of of protoplasts from G. sagittatum in vitro plants.

Dystocia Due to Secondary Uterine Inertia and its Obstetrical Management- A Case Report

Background: A full-term pregnant Ongole cow was presented to the Large Animal Obstetrical Ward with a history of reduced feed intake, dull and ruptured foetal membranes 24 hours before presentation without progress in parturition. The temperature was within the normal physiological range. Per-vaginal examination revealed second-degree cervical dilation, lack of uterine and abdominal contractions and the vaginal discharges were reddish brown and putrid. Methods: The case was diagnosed as secondary uterine inertia and treated with an intracervical application of misoprostol and intravenous calcium therapy. Results: Three hours after the application of misoprostol and calcium therapy, full dilatation of the cervix was achieved to facilitate the delivery of the dead male emphysematous foetus by traction. Uneventful recovery of the dam was noticed. Conclusion: Usage of misoprostol along with CMC massage and calcium therapy resulted in speedy recovery of dystocia suffering with incomplete cervical dilation.

Levofloxacin combined with cellulase can eradicate bacille Calmette-Guerin biofilm infection / 南方医科大学学报

OBJECTIVE@#To investigate the inhibitory effects of levofloxacin (LEV) combined with cellulase against bacille CalmetteGuerin (BCG) biofilms in vitro.@*METHODS@#The mature growth cycle of BCG biofilms was determined using the XTT method and crystal violet staining. BCG planktonic bacteria and BCG biofilms were treated with different concentrations of LEV and cellulose alone or jointly, and the changes in biofilm biomass were quantified with crystal violet staining. The mature BCG biofilm was then treated with cellulase alone for 24 h, and after staining with SYTO 9 and Calcofluor White Stain, the number of viable bacteria and the change in cellulose content in the biofilm were observed with confocal laser scanning microscopy. The structural changes of the treated biofilm were observed under scanning electron microscopy.@*RESULTS@#The MIC, MBC and MBEC values of LEV determined by broth microdilution method were 4 μg/mL, 8 μg/mL and 1024 μg/mL, respectively. The combined treatment with 1/4×MIC LEV and 2.56, 5.12 or 10.24 U/mL cellulase resulted in a significant reduction in biofilm biomass (P < 0.001). Cellulase treatments at the concentrations of 10.24, 5.12 and 2.56 U/mL all produced significant dispersion effects on mature BCG biofilms (P < 0.001).@*CONCLUSION@#LEV combined with cellulose can effectively eradicate BCG biofilm infections, suggesting the potential of glycoside hydrolase therapy for improving the efficacy of antibiotics against biofilmassociated infections caused by Mycobacterium tuberculosis.

Statistical optimization of cellulases by Talaromyces thermophilus utilizing Saccharum spontaneum, a novel substrate

BACKGROUND: At present, cellulases are the most important enzymes worldwide, and their demand has been increasing in the industrial sector owing to their notable hydrolysis capability. RESULTS: In the present study, contrary to conventional techniques, three physical parameters were statistically optimized for the production of cellulase by thermophilic fungi by using response surface methodology (RSM). Among all the tested thermophilic strains, the best cellulase producing fungus was identified as Talaromyces thermophilus ­ both morphologically and molecularly through 5.8S/ITS rDNA sequencing. The central composite design (CCD) was used to evaluate the interactive effect of the significant factors. The CCD was applied by considering incubation period, pH, and temperature as the model factors for the present investigation. A second-order quadratic model and response surface method revealed that the independent variables including pH 6, temperature 50 C, and incubation period 72 h significantly influenced the production of cellulases. The analysis of variance (ANOVA) indicated that the established model was significant (P 0.05) and showed the high adequacy of the model. The actual and predicted values of CMCase and FPase activity showed good agreement with each other and also confirmed the validity of the designed model. CONCLUSIONS: We believe the present findings to be the first report on cellulase production by exploiting Kans grass (Saccharum spontaneum) as a substrate through response surface methodology by using thermophilic fungus, Talaromyces thermophilus.

Process optimization for enhanced production of cellulases form locally isolated fungal strain by submerged fermentation

Cellulase has myriad applications in various sectors like pharmaceuticals, textile, detergents, animal feed and bioethanol production, etc. The current study focuses on the isolation, screening and optimization of fungal strain through one factor at a time technique for enhanced cellulase production. In current study sixteen different fungal cultures were isolated and the culture which quantitatively exhibits higher titers of cellulase activity was identified both morphologically and molecularly by 18S rDNA and designated as Aspergillus niger ABT11. Different parameters like fermentation medium, volume, temperature, pH and nutritional components were optimized. The highest CMCase and FPase activities was achieved in 100ml of M5 medium in the presence of 1% lactose and sodium nitrate at 30 oC, pH5 after 72 hours. The result revealed A. niger can be a potential candidate for scale up studies.

Progress in the production of lignocellulolytic enzyme systems using Penicillium species / 生物工程学报

The efficient production of lignocellulolytic enzyme systems is an important support for large-scale biorefinery of plant biomass. On-site production of lignocellulolytic enzymes could increase the economic benefits of the process by lowering the cost of enzyme usage. Penicillium species are commonly found lignocellulose-degrading fungi in nature, and have been used for industrial production of cellulase preparations due to their abilities to secrete complete and well-balanced lignocellulolytic enzyme systems. Here, we introduce the reported Penicillium species for cellulase production, summarize the characteristics of their enzymes, and describe the strategies of strain engineering for improving the production and performance of lignocellulolytic enzymes. We also review the progress in fermentation process optimization regarding the on-site production of lignocellulolytic enzymes using Penicillium species, and suggest prospect of future work from the perspective of building a "sugar platform" for the biorefinery of lignocellulosic biomass.

Screening of cellulose degradation bacteria from Min pigs and optimization of its cellulase production

BACKGROUND: Cellulose as a potential feed resource hinders its utilization because of its complex structure, and cellulase is the key to its biological effective utilization. Animal endogenous probiotics are more susceptible to colonization in the intestinal tract, and their digestive enzymes are more conducive to the digestion and absorption of feed in young animals. Min pigs are potential sources of cellulase probiotics because of the high proportion of dietary fiber in their feed. In this study, the cellulolytic bacteria in the feces of Min pigs were isolated and screened. The characteristics of enzymes and cellulase production were studied, which provided a theoretical basis for the rational utilization of cellulase and high-fiber food in animal production. RESULTS: In our study, 10 strains of cellulase producing strains were isolated from Min pig manure, among which the M2 strain had the best enzyme producing ability and was identified as Bacillus velezensis. The optimum production conditions of cellulase from strain M2 were: 2% inoculum, the temperature of 35°C, the pH of 5.0, and the liquid loading volume of 50 mL. The optimum temperature, pH and time for the reaction of cellulase produced by strain M2 were 55°C, 4.5 and 5 min, respectively. CONCLUSIONS: Min pigs can be used as a source of cellulase producing strains. The M2 strain isolated from feces was identified as Bacillus velezensis. The cellulase from M2 strain had a good activity and the potential to be used as feed additive for piglets.

Lentinus crinitus response to blue light on carbohydrate-active enzymes / Resposta de Lentinus crinitus à luz azul em enzimas ativas por carboidratos

Fungi are capable of sensing light from ultraviolet to far-red and they use light as a source of information about the environment anticipating stress and adverse conditions. Lentinus crinitus is a lignin-degrading fungus which produces laccase and other enzymes of biotechnological interest. The effect of blue light on fungal enzymatic activity has been studied; however, it has not been found studies on the effect of the blue light on carbohydrate-active enzymes and on mycelial biomass production of L. crinitus. We aimed to investigate carbohydrate-active enzymes activity and mycelial biomass production of L. crinitus cultivated under continuous illumination with blue light. L. crinitus was cultivated in malt extract medium in the dark, without agitation, and under continuous illumination with blue light-emitting diodes. The blue light reduced the total cellulase, pectinase and xylanase activities but increased the endoglucanase activity. Blue light reduced the mycelial growth of L. crinitus in 26% and the enzymatic activity-to-mycelial biomass ratio (U mg-1 dry basis) increased in 10% total cellulase, 33% endoglucanase, and 16% pectinase activities. Also, it is suggested that L. crinitus has a photosensory system and it could lead to new process of obtaining enzymes of biotechnological interest.

Fungos são capazes de sentir a luz com comprimentos de onda que variam do ultravioleta ao infravermelho e usam a luz como fonte de informação sobre o ambiente, antecipando condições adversas e de estresse. Lentinus crinitus é um fungo ligninolítico que produz lacase e outras enzimas de interesse biotecnológico. O efeito da luz azul na atividade enzimática de fungos já foi estudado, contudo, ainda não há estudos sobre o efeito da luz azul na produção de enzimas ativas sobre carboidratos (CAZymes, carbohydrate-active enzymes) e de biomassa micelial de L. crinitus. O objetivo deste estudo foi investigar a avitivade de CAZymes e a produção de biomassa micelial de L. crinitus cultivado sob iluminação continua com luz azul. L. crinitus foi cultivado em meio extrato de malte, sem agitação, na ausência de luz e sob luz continua fornecida por diodos emissores de luz azul. A luz azul reduziu a atividade de cellulase total, pectinase e xilanase, mas aumentou a atividade de endoglucanase. A luz azul reduziu o crescimento micelial de L. crinitus em 26% e aumentou a razão atividade enzimática/biomassa micelial (U mg-1 em base seca) de cellulase total em 10%, endoglucanase em 33% e pectinase em 16%. Além disso, sugere-se que L. crinitus possua um sistema fotossensorial que poderia ser explorado para a otimização de bioprocessos que visam a obtenção de enzimas de interesse biotecnológico.

Characterization Of Kapok Pericarpium Microcrystalline Cellulose Produced Of Enzymatic Hydrolysis Using Purified Cellulase From Termite (MACROTERMES Gilvus)

Objective: This study aimed to increase the yield of microcrystalline cellulose (MCC) from kapok pericarpium alpha-cellulose produced by enzymatic hydrolysis using purified cellulase from Termites (Macrotermes gilvus) and to compare the characteristics with the reference product. Methods: In this research, MCC was prepared from kapok pericarpium powder through the chemical isolation process of alpha-cellulose, followed by enzymatic hydrolysis with purified cellulase from Macrotermes gilvus. The yield was improved by using purified cellulase in optimized temperature, pH, and hydrolysis time. Identification was carried out by using ZnCl and infrared spectrophotometry, followed by characterization of MCC include particle size analysis (PSA) and diffracto­gram pattern (X-Ray Diffraction). The results were compared with Avicel PH 101 as the reference product. Results: Purified cellulase from Macrotermes gilvus showed high cellulose activity. Cellulose in the concentration of 11.743 U/ml formed 49 mm clear zone area with cellulolytic index 7.16 that similar to the formed clear zone area of Trichoderma reesei (50 mm), the optimum hydrolysis condition was achieved at 50 °C, pH 6.0, in 2 h, which produced 80% yield of MCC. Produced MCC was analyzed with ZnCl and FTIR spectrum resulting in positive results, similar to reference. The results of the organoleptic test, particle size analysis, and diffracto­gram pattern (X-Ray Diffraction) showed crystalline characteristics of MCC is similar to the reference (Avicel PH 101). Conclusion: Cellulase Macrotermes gilvus yielded 80% MCC and higher enzymatic activity than Trichoderma reesei. Based on the organoleptic test, particle size analysis, and diffracto­gram pattern observation, MCC from kapok pericarpium has shown similar characteristics to reference (Avicel pH 101) and might be potential to be further developed.

Isolation of thermotolerant Bacillus subtilis DCH4 from Chancos hot spring (Carhuaz, Peru) with potential to degrade lignocellulosic agriculture wastes / Aislamiento de Bacillus subtilis DCH4 termotolerante de la fuente termal Chancos (Carhuaz, Perú) con potencial para degradar residuos lignocelulósicos agrícolas

Abstract It was isolated bacteria strains from three different types of samples: fresh water, in situ baits and ex situ enrichment. Serial dilutions were prepared and culture was carried at 50 °C using a Basal-Saline medium. Isolated strains were screened for endoglucanase and xylanase activities with qualitative (Congo Red) and quantitative (DNS) methods. Molecular 16S rDNA sequencing analysis was performed for taxonomic identification. It was isolated 31 strains of which 14 showed hydrolytic activities and belonged to Bacillus subtilis and Bacillus licheniformis species. Moreover, the strain B. subtilis DCH4 showed the highest endoglucanase activity at 45°C and pH 5, and xylanase activity at 55°C and pH 6. Then, DCH4 was cultivated by submerged fermentation with two different media supplemented with sugar cane bagasse, wheat straw, or quinoa stalk to evaluate its saccharification capability. Likewise, it was screening its xylanase and cellulase genes employing specific primers; the amplicons obtained were sequenced, and analyzed. It was found that, enzymatic extracts of DCH4 prepared with cane bagasse or quinoa stalk media achieved the highest endoglucanase and xylanase activities. According to molecular analysis of genes involved in the hydrolytic process, the endoglucanase and xylanase activities exhibited by DCH4 could be attributed to a bifunctional cellulase conformed by endo-beta-1,4-glucanase (GH5) joined to cellulose binding domain 3 (CBM3), and an endo-1,4-beta-xylanase (GH11), respectively. Further transcriptomic experiments would be considered to accomplish optimization strategies for biofuel production from lignocellulosic biomass.

Resumen Se aislaron cepas de bacterias provenientes de tres tipos de muestras: agua fresca, cebos enriquecidos in situ y ex situ. Se prepararon diluciones seriadas y el cultivo fue a 50 °C usando un medio Salino-Basal. Las cepas aisladas fueron tamizadas para las actividades endoglucanasa y xilanasa con métodos cualitativos (Rojo Congo) y cuantitativos (DNS). Se usó el análisis molecular 16S rDNA para la identificación taxonómica. Se aislaron 31 cepas, de las cuales 14 mostraron actividades hidrolíticas y pertenecían a Bacillus subtilis y Bacillus licheniformis. Además, B. subtilis DCH4 mostró la mayor actividad endoglucanasa a 45 °C y pH 5, y xilanasa a 55 °C y pH 6. Entonces, DCH4 se cultivó por fermentación sumergida con dos medios diferentes suplementado con bagazo de caña de azúcar, paja de trigo o tallo de quinua para evaluar su capacidad de sacarificación. También, se exploraron los genes de xilanasa y celulasa mediante cebadores específicos; los amplicones obtenidos fueron secuenciados y analizados. Se encontró que los extractos enzimáticos de DCH4 preparados con bagazo de caña o tallos de quinua mostraron las actividades endoglucanasa y xilanasa más elevadas. De acuerdo a los análisis moleculares de los genes involucrados en el proceso hidrolítico, las actividades de endoglunacasa y xilanasa exhibidas por DCH4 podrían atribuirse a una celulasa bifuncional conformada por una endo-beta-1,4-glucanasa (GH5) unida al dominio celulosa 3 (CBM3), y una endo-1,4-beta-xilanasa (GH11), respectivamente. Posteriores experimentos transcriptómicos podrían ser considerados para lograr estrategias de optimización para la producción de biocombustibles a partir de biomasa lignocelulósica.

Sequestration and purification of essential enzyme from Pleurotus florida compost waste and its application studies

Spent oyster mushroom (Pleurotus florida) compost as tremendous source for isolation of industrial significantenzymes such as amylase, protease, and cellulase. This study was conducted to achieve efficient extraction oflignocellulolytic enzymes amylase (EC 3.2.1.1), cellulase (EC 3.2.1.4), and protease (EC 3.4.21.14) from spent oystermushroom (P. florida) compost waste. Optimal enzyme recovery was achieved when spent oyster mushroom compostwastes and concentrated by acetone precipitation. The purification was performed by column chromatography. Theenzymes such as cellulase, amylase, and protease released from oyster mushroom (P. florida) compost waste wereshowed activities of 15.78 U/ml, 3.42 U/ml, and 0.042 U/ml, respectively. These were utilized in various industrialand environmental applications such as starch processing in potato waste from food industry using amylase andbiotreatment of cotton waste using cellulase.

Enhance of Cellulase Production and Biomass Degradation by Transformation of the Trichoderma reesei RUT-C30∆ zface1 Strain

Abstract The second-generation bioethanol employs lignocellulosic materials degraded by microbial cellulases in their production. The fungus Trichoderma reesei is one of the main microorganisms producing cellulases, and its genetic modification can lead to the optimization in obtaining hydrolytic enzymes. This work carried out the deletion of the sequence that encodes the zinc finger motif of the transcription factor ACE1 (cellulase expression repressor I) of the fungus T. reesei RUT-C30. The transformation of the RUT-C30 lineage was confirmed by amplification of the 989 bp fragment relative to the selection marker, and by the absence of the zinc finger region amplification in mutants, named T. reesei RUT-C30Δzface1. The production of cellulases by mutants was compared to RUT-C30 and measured with substrates carboxymethylcellulose (CMC), microcrystalline cellulose (Avicel®) and Whatman filter paper (PF). The results demonstrated that RUT-C30Δzface1 has cellulolytic activity increased 3.2-fold in Avicel and 2.1-fold in CMC and PF. The mutants presented 1.4-fold higher sugar released in the hydrolysis of the biomass assays. These results suggest that the partial deletion of ace1 gene is an important strategy in achieving bioethanol production on an industrial scale at a competitive price in the fuel market.

Progress in improving the properties of dissolving pulp by enzymes / 生物工程学报

Dissolving pulp consists of high purity cellulose and is widely used to as raw materials for the production of regenerated cellulose fiber, cellulose ester and cellulose ether. The characteristic of dissolving pulp affects greatly the production and processing performance of subsequent products. The α-cellulose content, hemicellulose content, pulp viscosity, ash, transition metal ion content, fiber morphology, molecular weight distribution of cellulose and the reactivity are the important properties. Because of its green, mild and high efficiency, the application of enzymes in improving the properties of dissolving pulp has a promising application prospect and has been researched significantly. In this review, the main properties of dissolving pulp are presented first, followed by a recommendation of the enzymes to improve these properties. The application and current research of cellulase and xylanase in improving the properties of dissolving pulp are emphasized. The main problems and the future research areas in improving the properties of dissolving pulp by enzymes are revealed. Finally, the technology prospects in this field are proposed.

Improvement of ethanol production from birch and spruce pretreated with 1-H-3-methylmorpholinium chloride

Background: Pretreatment is the critically important step for the production of ethanol from lignocelluloses. In this study, hardwood birch (Betula pendula) and softwood spruce (Norway spruce) woods were pretreated with a newly synthesized morpholinium ionic liquid, 1-H-3-methylmorpholinium chloride ([HMMorph][Cl]), followed by enzymatic hydrolysis and fermentation to ethanol. Results: [HMMorph][Cl] was synthesized using inexpensive raw materials, i.e., hydrochloric acid and N-methyl morpholine, following a simple process. The influence of pretreatment time (2, 3, 5, and 8 h) and temperature (120 and 140°C) in terms of hydrolysis efficiency was investigated. Glucose yields from enzymatic hydrolysis were improved from 13.7% to 45.7% and 12.9% to 51.8% after pretreatment of birch and spruce woods, respectively, under optimum pretreatment conditions (i.e., at 140°C for 3 h) as compared to those from pristine woods. Moreover, the yields of ethanol production from birch and spruce were increased to 34.8% and 44.2%, respectively, while the yields were negligible for untreated woods. Conclusions: This study demonstrated the ability of [HMMorph][Cl] as an inexpensive agent to pretreat both softwood and hardwood.

Endoglucanase production by endophytic fungi isolated from vitis labrusca l. with peanut hull and sawdust as substrates / Produção de endoglucanase por fungos endofíticos isolados de Vitis labrusca L. utilizando casca de amendoim e serragem como substratos

Endoglucanases are enzymes widely employed in different industrial fields, albeit with high production costs. Studies on new microbial sources and low-cost substrates are highly relevant, including those on agro-industrial. Current analysis evaluates peanut hull (PH) and sawdust (SD) as substrates for submerged cultures of 14 endophytic fungi isolated from grapevine (Vitis labrusca L.) cultivars Bordô and Concord. Endophytes were grown on a carboxymethylcellulose (CMC) medium and the cup plate assay showed that eight strains (belonging to genera Cochliobolus, Diaporthe, Fusarium and Phoma) had positive results: enzymatic halos ranged from 10.8±0.02to 15.5±0.07 mm in diameter. Diaporthe sp. strains (GenBank accession codes KM362392, KM362368 and KM362378) and Fusariumculmorum KM362384 were highlighted as the most promising sources. Further, PH and SD as substrates for the fermentation of these fungi were evaluated by the cup plate assay and endoglucanase activity assay. Highest halo diameters were obtained for Diaporthe sp. KM362392: 16.1±0.01 mm (CMC), 14.5±0.01 mm (PH) and 14.7±0.03 mm (SD). The fungus also presented the highest levels of endoglucanase activity: analysis of variance revealed that CMC (3.52±0.98 µmol/min), PH (2.93±0.23 µmol/min) and SD (3.26±0.38 µmol/min) were similarly efficient as substrates. Results deepen knowledge on V. labrusca endophytes that may be endoglucanase sources, eventhough further optimizations in submerged cultures with PH and SD should be undertaken to increase theenzymatic production from these wastes.

Endoglucanases são enzimas amplamente empregadas em diferentes setores industriais; embora sua produção apresente custos elevados. Estudos sobre novas fontes microbianas e substratos mais baratos são de grande importância, incluindo os resíduos agroindustriais. Nesse estudo, casca de amendoim (CA) e serragem (SE) foram testadas como substratos para o cultivo submerso de 14 fungos endofíticos isolados das cultivares Bordô e Concord de videira (Vitis labrusca L.) Os endófitos foram crescidos em meio contendo carboximetilcelulose (CMC) e o ensaio cup plate mostrou resultados positivos para oito fungos (pertencentes aos gêneros Cochliobolus, Diaporthe, Fusarium and Phoma); os halos enzimáticos variaram entre 10,8±0,02 e 15,5±0,07 mm de diâmetro. Linhagens de Diaporthe sp. (códigos de acesso no GenBank KM362392, KM362368 e KM362378) e Fusariumculmorum KM362384 se destacaram como produtores mais promissores. Então, o uso de CA e SE como substratos para a fermentação desses fungos foi avaliado pelo ensaio cup plate e pela quantificação da atividade de endoglucanase. Os maiores halos enzimáticos foram obtidos para Diaporthe sp. KM362392: 16,1±0,01 mm (CMC), 14,5±0,01 mm (CA) e 14,7±0,03 mm (SE). Esse fungo também apresentou os maiores níveis de endoglucanase: a análise de variância revelou que CMC (3,52±0,98 µmol/min), CA (2,93±0,23 µmol/min) e SE (3,26±0,38 µmol/min) foram substratos similarmente eficientes. Esses resultados expandem o conhecimento sobre endófitos de V. labrusca que são fontes de endoglucanases; futuras otimizações quanto ao cultivo submerso com CA e SE podem ser utilizadas para aumentar a produção enzimática a partir do uso desses resíduos.

Fungal Diversity and Enzyme Activity Associated with the Macroalgae, Agarum clathratum

Agarum clathratum, a brown macroalgae species, has recently become a serious environmental problem on the coasts of Korea. In an effort to solve this problem, fungal diversity associated with decaying A. clathratum was investigated and related β-glucosidase and endoglucanase activities were described. A total of 233 fungal strains were isolated from A. clathratum at 15 sites and identified 89 species based on morphology and a multigene analysis using the internal transcribed spacer region (ITS) and protein-coding genes including actin (act), β-tubulin (benA), calmodulin (CaM), and translation elongation factor (tef1). Acremonium, Corollospora, and Penicillium were the dominant genera, and Acremonium fuci and Corollospora gracilis were the dominant species. Fifty-one species exhibited cellulase activity, with A. fuci, Alfaria terrestris, Hypoxylon perforatum, P. madriti, and Pleosporales sp. Five showing the highest enzyme activities. Further enzyme quantification confirmed that these species had higher cellulase activity than P. crysogenum, a fungal species described in previous studies. This study lays the groundwork for bioremediation using fungi to remove decaying seaweed from populated areas and provides important background for potential industrial applications of environmentally friendly processes.

Artificial zinc finger protein mediated cellulase production in Trichoderma reesei Rut-C30 / 生物工程学报

Trichoderma reesei Rut-C30 is widely used in industrial cellulase production, and development of cellulase hyper-producer is of great importance for economic lignocellulosic biorefinery. In this study, T. reesei Rut-C30 was engineered with an artificial zinc finger proteins (AZFPs) library. Two mutants T. reesei M1 and M2 with improved cellulase production were obtained. Compared to the parent strain, the filter paper activity (FPase) of T. reesei M1 and M2 increased 100% and 53%, respectively. In addition, the total amount of extracellular protein from the M1 mutant increased 69%, whereas the endo-β-glucanase (CMCase) activity of the M2 mutant is 64% higher compared to the parental strain. Furthermore, RT-qPCR analysis showed that the major cellulase genes exhibited significantly increased expression in both mutants, but different patterns were observed in the two mutants. On the other hand, the cellulase transcriptional repressor ace1 was down-regulated in both mutants, but the transcription level of the activator xyr1 was only up-regulated in the strain M1. These results demonstrated that different AZFPs exert diverse regulatory mechanisms on cellulase production in T. reesei. Analysis of the target genes of AZFPs from T. reesei M1 and M2 will not only benefit further exploration of the regulatory mechanisms of cellulase biosynthesis in T. reesei, but also enable development of cellulase hyper-producing strains by metabolic engineering.

Boost anti-oxidant activity of yogurt with extract and hydrolysate of cinnamon residues / 中草药·英文版

Objective: This study was conducted to explore the potential use of cinnamon residues (twigs and leaves) in boosting the anti-oxidant activity of yogurt. Methods: The cinnamon bark was used as the benchmark. The extracts of cinnamon bark (BW), twigs residue (TW), and leaves residue (LW) were prepared by using water, whereas the hydrolysates of cinnamon bark (BE), twigs residue (TE) and leaves residue (LE) were prepared via cellulase hydrolysis. The extracts and hydrolysates were then co-fermented respectively with the skimmed milk to produce yogurt. Results: Results obtained indicated that BW and TE yogurt possessed the highest anti-oxidant activity. In vitro digestion improved the anti-oxidant activity of yogurt significantly (P < 0.05). DPPH activity of the LW yogurt was improved drastically after in vitro digestion. Although the total phenolic content (TPC) and total flavonoids content (TFC) of LW were lower than BW, the anti-oxidant activity of LW yogurt was not significantly different (P < 0.05) with the BW yogurt after digestion. Conclusion: This study suggested that the anti-oxidant activity of the cinnamon yogurt was influenced by complex protein-phenolic interactions.

Isolation and Characterization of Microorganisms Associated with Deteriorated Books

This study was carried out to identify microorganisms associated with deterioration of books from three (3) libraries in Makurdi Benue state. Thirty-four (34) swabs collected from spoilt books from Francis Idachaba Library, College of Science and Veterinary Medicine Libraries, all of University of Agriculture, and Benue State Library Board, from different sections of the libraries were cultured using the pour plate technique. Cellulase activity of isolates was estimated by measuring clear zones of cellulose hydrolysis on Carboxymethylcellulose agar. Results showed that the average count of bacteria ranged from 4.5 × 107 Cfu/ml to 1.6 × 108 CFU /ml and the fungal count ranged from 3.8 × 107 Cfu/ml to 1.4 × 108 CFU /ml. The predominant bacteria species were Pseudomonas sp. 5 (23.81%) and Bacillus sp. 5 (23.81) and the predominant fungi species were Chaetomium sp. 3 (27.27%), Aspergillus sp. 3 (27.27%). Providencia sp. 1 (4.76%), Acinetobacater sp. 1 (4.76%) and Klebsiella sp. 1 (4.76%) were the least occurring bacteria while Penicillium sp. 1 (9.09%), Geotrichum sp. 1 (9.09%) and Bipolaris sp. 1 (9.09%) were the least occurring fungi species. Penicillium sp. showed the highest cellulase activity with cellulase index of 3.20 while Aspergillus sp. showed the least with cellulase index of 1.64. Similarly, Bacillus sp. had highest cellulase index of 2.50 while Pseudomonas sp. had the least cellulase index of 1.20. All measurements were made at 37°C. Statistically, there was no significant difference between the activities of microorganisms to their load count (x2 ≥ 0.05). Findings from this study showed that Francis Idachaba Library of University of Agriculture, Makurdi had the highest bacterial load of 36.64%, and fungal load of 46.47%. Generally, the level of microbial deterioration of books was high in these libraries and authorities must take prompt steps to ensure the safety of books and book users as well as librarians.

Measurement of Cellulolytic Potential of Cellulase Producing Bacteria

The bioconversion of cellulose and hemicellulose to soluble sugars is important for global stabilization and for a sustainable human society. Here, hundreds of cellulolytic bacteria were found in soil, compost and animal waste slurry of our environment. Bacillus spp. are aerobic cellulolytic bacteria. Here, two Bacillus strains 2414, 2579 (T) and their mixed culture utilized for measuring the cellulolytic potential. The capability of cellulolytic potential was analyzed by enriching the basal salt media with Whatman no.1 filter paper as a substrate for cellulose degradation. Here, Cellulose-degrading potential of Bacillus strains was measured by measuring the diameter of a clear zone around the colony and its hydrolytic value on cellulose Congo-Red agar media. The extracellular cellulase activities ranged from 0.08233 to 0.44 IU/mL for FPase and 0.243 to 0.595 IU/mL for endoglucanase assay. The maximum activities range of β-glucosidase or cellobiase activity was 0.6 to1.5 1U/ml. The maximum xylanase activities value Bacillus cellulolysticus 2579 (T), Bacillus subtilis 2414 and their mixed culture were 12.0,11.5 and 12.5 unit/mL, respectively. All the enzymes were stable at an optimum pH range value of 3.0-7.0 and temperature range of 30˚C-50˚C. The maximum filter paper degradation percentage was estimated to be 71.76% by mixed culture after 48hrs of incubation period, it was observed that the maximum filter paper degradation was done by mixed culture than Bacillus strains. Biodiesel production was estimated by following the EN-14103 method and ester content was calculated on the basis of response factor with a minimum set value of ester content will be 96.5%.