Construction and application of a novel genetically engineered Aspergillus oryzae for expressing proteases

Background: We aimed to test the possibility of improving polypeptide production from soybean meal fermentation by engineered Aspergillus oryzae strains. Four different protease genes were cloned and transformed into wild-type A. oryzae, and the engineered A. oryzae strains were then used for soybean meal fermentation. Results: The results showed different degrees of improvement in the protease activity of the four transformants when compared with wild-type A. oryzae. A major improvement in the polypeptide yield was achieved when these strains were used in soybean meal fermentation. The polypeptide conversion rate of one of the four transformants, A. oryzae pep, reached 35.9%, which was approximately twofold higher than that exhibited by wild-type A. oryzae. Amino acid content analysis showed that the essential amino acid content and amino acid composition of the fermentation product significantly improved when engineered A. oryzae strains were used for soybean meal fermentation. Conclusions: These findings suggest that cloning of microbial protease genes with good physicochemical properties and expressing them in an ideal host such as A. oryzae is a novel strategy to enhance the value of soybean meal.

Enzyme activity of ß-galactosidase from Kluyveromyces lactis and Aspergillus oryzae on simulated conditions of human gastrointestinal system / Atividade de ß-galactosidase de Kluyveromyces lactis e Aspergillus oryzae, em condições simuladas do sistema gastrintestinal humano

An alternative to relieve the symptoms of lactose intolerance is the intake of the enzyme ?-galactosidase in pharmaceutical dosage forms. The ability of ?-galactosidase produced by Kluyveromyces lactis and Aspergillus oryzae to hydrolyze lactose in simulated conditions of the human gastrointestinal tract was investigated. The experiment was carried out in the optimum temperature for each enzyme activity, 40 and 55°C, respectively, and at the normal human body temperature (37°C) at concentrations of 1.5, 3.0, and 5.0 g/L (enzyme from A. oryzae) or mL/L (enzyme from K. lactis). Both enzymes were completely inactivated under simulated gastric conditions (pH 2). When the enzymes were subjected to simulated small intestine conditions (pH 7.4), lactose hydrolysis has occurred, but at 37°C the percentage was lower than that under the optimal temperatures. At concentrations of 1.5, 3.0, and 5.0 mL/L the enzyme from K. lactis hydrolyzed 76.63%, 88.91% and 94.80% of lactose at 40°C, and 55.99%, 80.91% and 81.53% at 37°C, respectively. In contrast, the enzyme from A. oryzae hydrolyzed 7.11%, 16.18% and 21.29% at 55°C, and 8.4%, 11.85% and 16.43% at 37°C. It was observed that under simulated intestinal conditions, the enzyme from K. lactis was more effective on lactose hydrolysis as compared to the enzyme from A. oryzae. Considering the findings of this study, it is extremely necessary to use an enteric coating on ?-galactosidase capsules so that this enzyme is released only in the small intestine, which is its site of action, thus not suffering the action of the stomach pH.(AU)

Uma das alternativas para amenizar os sintomas da intolerância à lactose é a ingestão de ?-galactosidase em formas farmacêuticas. Neste trabalho avaliou-se a capacidade de hidrólise de ?-galactosidase produzida por Kluyveromyces lactis e Aspergillus oryzae simulando as condições do trato gastrintestinal humano. O teste foi realizado nas temperaturas ótimas de ação para cada enzima, 40 e 55°C, respectivamente, e na temperatura corpórea humana (37°C), nas concentrações de 1,5; 3,0 e 5,0 g/L para a enzima de Aspergillus oryzae ou mL/L para a de Kluyveromyces lactis. Na simulação da condição estomacal humana (pH 2), ambas enzimas foram totalmente inativadas. Quando as enzimas foram submetidas às condições simuladas do intestino delgado (pH 7,4), observou-se hidrólise da lactose, porém, a 37°C, a porcentagem foi menor do que a observada nas temperaturas ótimas de cada enzima. A enzima de K. lactis nas concentrações de 1,5; 3,0 e 5,0 mL/L apresentou hidrólise de 76,63%, 88,91% e 94,80% a 40°C e 55,99%, 80,91% e 81,53%, a 37°C, respectivamente. Nas concentrações 1,5; 3,0 e 5,0 g/L, a porcentagem de hidrólise pela enzima de A. oryzae a 55°C foi de 7,11%, 16,18% e 21,29%. Para esta enzima, nessas concentrações, a hidrólise obtida a 37°C foi 8,4%, 11,85% e de 16,43%. Sob condições intestinais simuladas, a enzima de K. lactis apresentou maior eficiência na hidrólise da lactose quando comparada à enzima de A. oryzae. Considerando-se as etapas avaliadas neste estudo, observa-se que é extremamente necessário o uso de um revestimento entérico em cápsulas de ?-galactosidase, para que esta enzima seja liberada somente no intestino delgado, seu local de ação, não sofrendo, portanto, a ação do pH estomacal.(AU)

Support networks and people with physical disabilities: social inclusion and access to health services / Redes de apoio e pessoas com deficiência física: inserção social e acesso aos serviços de saúde

This study seeks to identify the formation of social support networks of people with physical disabilities, and how these networks can help facilitate access to health services and promote social inclusion. It is a cross-sectional study, with data collected via a form applied to physically disabled persons over eighteen years of age registered with the Family Health Teams of the municipal district of João Pessoa in the state of Paraíba. It was observed that the support networks of these individuals predominantly consist of family members (parents, siblings, children, spouses) and people outside the family (friends and neighbors). However, 50% of the interviewees declared that they could not count on any support from outside the family. It was observed that the support network contributes to access to the services and participation in social groups. However, reduced social inclusion was detected, due to locomotion difficulties, this being the main barrier to social interaction. Among those individuals who began to interact in society, the part played by social support was fundamental.

Este estudo objetiva identificar a constituição das redes de apoio social das pessoas com deficiência física e como estas podem contribuir para facilitar o acesso aos serviços de saúde e a inclusão social das mesmas. Trata-se de um estudo transversal, com dados coletados através de um formulário, aplicado em pessoas com deficiência física maiores de dezoito anos, cadastradas nas Equipes de Saúde da Família do município de João Pessoa (PB). Constatou-se que as redes de apoio dessas pessoas estão constituídas principalmente pelos componentes da dimensão familiar (pais, irmãos, filhos, cônjuges) e extrafamiliar (amigos e vizinhos). No entanto, 50% dos entrevistados relataram não contar com qualquer apoio fora da família. Verificou-se que a rede de apoio contribui para o acesso aos serviços e para a participação em grupos sociais. Evidenciou-se, porém, uma reduzida inserção social, decorrente da dificuldade de locomoção, sendo esta a principal barreira para a interação social. Entre as pessoas que começaram a interagir na sociedade o apoio social foi fundamental.

The hydrolysis of agro-industrial residues by holocellulose-degrading enzymes

Holocellulose structures from agro-industrial residues rely on main and side chain attacking enzymes with different specificities for complete hydrolysis. Combinations of crude enzymatic extracts from different fungal species, including Aspergillus terreus, Aspergillus oryzae, Aspergillus niger and Trichoderma longibrachiatum, were applied to sugar cane bagasse, banana stem and dirty cotton residue to investigate the hydrolysis of holocellulose structures. A. terreus and A. oryzae were the best producers of FPase and xylanase activities. A combination of A. terreus and A. oryzae extracts in a 50% proportion provided optimal hydrolysis of dirty cotton residue and banana stem. For the hydrolysis of sugar cane bagasse, the best results were obtained with samples only containing A. terreus crude extract.

Bioconversion and saccharification of some lignocellulosic wastes by aspergillus oryzae ITCC-4857.01 for fermentable sugar production

The recent interest in bioconversion of agricultural and industrial wastes to chemical feedstock has led to extensive studies on cellulolytic enzymes produced by microorganisms. In the present study three lignocellulosic substrates viz. sugarcane bagasse, sawdust and water hyacinth were pre-treated with alkali and enzyme and their effect on bioconversion has been investigated. The ability of selected substrates for induction of cellulase enzyme by A. oryzae ITCC 4857.01 and for the potentiality of the induced enzyme to saccharify the substrates were also assessed. The maximum degree of conversion of substrate (0.415 percent) and improved specific substrate consumption (0.99 g substrate/g dry biomass) was exhibited in sugarcane bagasse after alkali treatment at 96 hrs. Both alkali-treatment and enzyme-treatment, water hyacinth was the best for cellulase induction and showed maximum endoglucanase activity of 11.42 U/ml. Reducing sugar yield ranged from 1.12 mg/ml for enzyme treated sawdust at 48 hrs to 7.53 mg/ml for alkali treated sugarcane bagasse at 96 hrs. Alkali-treated sugarcane bagasse gave the highest saccharification rate of 9.03 percent after 96 hrs. The most resistant substrate was sawdust which produced 5.92 percent saccharification by alkaline treatment. The saccharification of lignocellulosic substrates by enzyme produced by A. oryzae ITCC 4857.01 indicates the enzymes specificity towards the substrates. The use of such enzyme in lingo-cellulose hydrolysis will lead to efficient conversion of cellulose materials to other important products.

Kinetic analysis of batch ethanol acetylation in isothermal non-stationary multiphase systems by lyophilized mycelium of Aspergillus oryzae

A relatively complex network of reactions has been investigated, using as a network model the isothermal batch esterification of acetic acid with ethanol in n-heptane catalyzed by lyophilized mycelium of Aspergillus oryzae. The kinetic analysis was firstly carried out on the whole system, without any simplification, by means of the well-known integral method. Owing to the poor results obtained by this way, we developed an alternative approach, combining initial rates and integral analysis and reducing the number of empirical parameters to be determined by the use of equilibrium data. All the values of the parameters calculated according to this "composite" approach to kinetic analysis well correlate with experimental data.

Alternative method for quantification of alfa-amylase activity / Alternativa para quantificação de alfa-amilase

A modification of the sensitive agar diffusion method was developed for macro-scale determination of alfa-amylase. The proposed modifications lower costs with the utilisation of starch as substrate and agar as supporting medium. Thus, a standard curve was built using alfa-amylase solution from Aspergillus oryzae, with concentrations ranging from 2.4 to 7,500 U.mL-1. Clear radial diffusion zones were measured after 4 hours of incubation at 20 °C. A linear relationship between the logarithm of enzyme activities and the area of clear zones was obtained. The method was validated by testing α-amylase from barley at the concentrations of 2.4; 60; 300 and 1,500 U.mL-1. The proposed method turned out to be simpler, faster, less expensive and able to determine on a macro-scale α-amylase over a wide range (2.4 to 7,500 U.mL-1) in scientific investigation as well as in teaching laboratory activities.

Modificações foram propostas ao método sensível de difusão em ágar para a macrodeterminação de alfa-amilase. As modificações propostas diminuem os custos, com a utilização de amido como substrato e ágar como meio solidificante. Assim, foi construída uma curva padrão utilizando uma solução de alfa-amilase de Aspergillus oryzae com concentrações variando de 2,4 a 7.500 U.mL-1. Em seguida, as zonas claras de difusão radial foram mensuradas depois de 4 horas de incubação a 20 °C. Foi obtida uma relação linear entre o logaritmo da atividade enzimática e os diâmetros das zonas claras. O método foi validado utilizando-se soluções de alfa-amilase de cevada nas concentrações de 2,4; 60; 300 e 1.500 U.mL-1. O método tornou-se mais simples, rápido, com baixo custo e passível de ser utilizado para macrodeterminação de alfa-amilase em ampla faixa (2,4 a 7.500 U.mL-1) na investigação científica e para fins didáticos em aulas práticas.

Mutagenesis of Aspergillus oryzae IPT-301 to improve the production of ¥â-fructofuranosidase

Aspergillus oryzae IPT-301, previously reported as a ¥â-fructofuranosidase producing microorganism, was successfully mutated using UV irradiation at 253.7 nm followed by the screening of survivors resistant to certain stress conditions. Strains were first subjected to the ¥â-fructofuranosidase activity assay using a portion from the colony grown in Petri dish as the enzyme source. Seven mutants with fructofuranosidase activity values relative to the parent culture between 140 -190 percent were selected from survivors grown at temperature of 40¨¬C or 0.018 percent (w/v) sodium dodecyl sulfate concentration. They were cultivated on a rotary shaker to characterize mycelium and extracellular fructosyltransferase activities. Three mutants named IPT-745, IPT-746 and IPT-748 showed the highest amount of mycelium activity whose values increased 1.5 -1.8 fold, compared with the parent strain. It was found that more than 55 percent of total enzyme activity (mycelium- plus extracellular- activity) from these strains was detected in the mycelium fraction. Only one mutant, IPT-747, exceeded the amount of extracellular enzyme exhibited by the parent strain (1.5 times). This mutant also showed the highest value of total fructosyltransferase activity.

Growth and amylase production by Aspergillus oryzae during solid state fermentation using banana waste as substrate.

Aspergillus oryzae, isolated from the starch rich litter soil, produced amylase when banana fruit stalk was used as substrate in a solid state fermentation system. The effects of incubation period, pH, temperature and various carbon sources on the production of amylase were studied. A maximum yield of 380U/mg was recorded on 96th hour of incubation. The amylase is tolerant to wide range of initial culture pH values (3 to 8) and temperature (25 to 35 degrees C), with an optimum pH of 5 and temperature of 35 degrees C. In SSF addition of starch (1%) increased the amylase production, when compared with other carbon sources used.

Preliminary studies on production of extracellular lipase by an isolate from soil : Aspergillus flavus oryzae.

In our routine screening programme, using agar diffusion assay method, lipolytic activity was detected around a colony of a fungus. The fungus was isolated from a soil sample which was brought from a location near oil-mill. This lipolytic fungus was then identified to belong to Aspergillus flavus oryzae. A medium was then formulated and optimized which would not only support good growth but also would yield good extracellular lipolytic activity. It was observed that a conventional carbohydrate-protein containing medium supported good growth of the fungus but moderate lipase activity, whereas, a hydrocarbon containing medium, although supported relatively less growth, yielded much more lipase activity.