Enzymatic hydrolysis of lignocellulosic residues and bromatological characterization for animal feed / Hidrólise enzimática de resíduos lignocelulósicos e caracterização bromatológica para ração animal

ABSTRACT: This study evaluated the action of commercial and non-commercial cellulases and pectinases in the hydrolysis of soybean hulls (SH) and corn stover and cobs (CSC), the effect of temperature and agitation on the lignocellulosic substrate hydrolysis and the bromatological characteristics of hydrolyzed substrates. The effect of pretreatment on the hydrolysis of lignocellulosic residues and bromatological analysis were also evaluated. The highest hydrolytic activity occurred at 300 rpm for SH (47.95 and 51.43% for cellulase and pectinase, respectively) and at 350 rpm for CSC (26.05 and 9.23% for cellulase and pectinase, respectively). Non-commercial enzymes achieved 7.26-30% of the amount of hydrolysis obtained with commercial enzymes, on the same substrates. Pretreatment with 7.5% of NaOH and a particle size of the substrate of 0.5 mm significantly increased the hydrolysis of SH and CSC for both enzymes. The bromatological characteristics showed that soybean hulls hydrolyzed with both commercial cellulase and pectinase have potential for large-scale use in animal feed production.

RESUMO: Foram avaliadas a ação de celulases e pectinases comerciais e não comerciais na hidrólise de casca de soja (CS) e palha e espigas de milho (PEM), o efeito da temperatura e da agitação na hidrólise do substrato lignocelulósico e as características bromatológicas dos substratos hidrolisados. O efeito do pré-tratamento na hidrólise de resíduos lignocelulósicos e a análise bromatológica também foram avaliados. A maior atividade hidrolítica ocorreu a 300 rpm para CS (47,95 e 51,43% para celulase e pectinase, respectivamente) e a 350 rpm para PEM (26,05 e 9,23% para celulase e pectinase, respectivamente). As enzimas não comerciais atingiram 7,26-30% da quantidade de hidrólise obtida com as enzimas comerciais, nos mesmos substratos. O pré-tratamento com 7,5% de NaOH e um tamanho de partícula do substrato de 0,5 mm aumentou significativamente a hidrólise de CS e PEM para ambas as enzimas. As características bromatológicas mostraram que a casca de soja hidrolisada com celulase e pectinase comercial tem potencial para uso em larga escala na produção de ração animal.

Uso de probióticos e prebióticos para cães e gatos / Use of probiotics and prebiotics in dogs and a cats

O objetivo deste trabalho foi apresentar dados bibliográficos sobre o uso de probióticos e prebióticos nos suplementos alimentares de cães e gatos. A aplicação de probióticos e prebióticos tem a função de auxiliar a colonização de microrganismos benéficos, tais como Lactobacillus fermentum, Lactobacillus rhamnosus Saccharomyces cerevisiae, Enterococcus faecium, Lactobacillus plantarum, Bifidobacterium bifidum e Lactobacillus acidophilus, Lactobacillus casei e Lactobacillus lactis, favorecendo a absorção de nutrientes e auxiliando na síntese de vitaminas e proteínas. Os probióticos se tornam especialmente importantes em situações de estresse, as quais podem causar diminuição da imunidade do animal. Podem ser utilizados desde o nascimento até a velhice do animal em situações como desmame, mudança de ração, períodos de vacinação, medicações e até mesmo em mudanças de ambiente. Os prebióticos são definidos como ingredientes nutricionais não digeríveis, tais como inulina, pectina, galactoligossacarídeos, xilooligossacarídeos, mananoligossacarídeos, frutooligossacarídeos e leveduras inativadas, que afetam beneficamente o hospedeiro, estimulando seletivamente o crescimento e a atividade das bactérias intestinais benéficas, melhorando sua saúde e, assim, dando menos espaço para as bactérias patogênicas. A revisão bibliográfica foi realizada, a partir de livros, dissertações, teses e artigos científicos encontrados nas bases de dados on line do Google Acadêmico, Scielo (Scientific Eletronic Library Online), Science Direct e revistas científicas, incluindo publicações de 1988 a 2021. Desse modo, esta revisão é de suma importância para enfatizar o emprego dos probióticos e prebióticos na alimentação de cães e gatos, melhorando, assim, sua qualidade e consequentemente atuando sobre a microbiota gastrointestinal, promovendo uma vida mais longa e saudável a esses pets.

The aim of this work was to present bibliographic data on the use of probiotics and prebiotics in dietary supplements for dogs and cats. The application of probiotics and prebiotics has the function of assisting the colonization of beneficial microorganisms, such as Lactobacillus fermentum, Lactobacillus rhamnosus Saccharomyces cerevisiae, Enterococcus faecium, Lactobacillus plantarum, Bifidobacterium bifidum e Lactobacillus acidophillus, Lactobacillus casei and Lactobacillus lactis, favoring the absorption of nutrients, assisting in the synthesis of vitamins and proteins. Probiotics become especially important in stressful situations, which can cause decreased animal immunity. They can be used from birth to the old age of the animal, in situations such as weaning, change of feed, periods of vaccination, medications and even changes in the environment. Prebiotics are defined as non-digestible nutritional ingredients, such as inulin, pectin, galactoligosaccharides, xylooligosaccharides, mannan oligosaccharides, fructooligosaccharides, inactivated yeasts, which affect the host, selectively stimulating the growth and activity of beneficial intestinal bacteria, thus promoting health, thus promoting health giving less space for pathogenic bacteria. The bibliographic review was carried out, from books, dissertations, theses and scientific articles found in the online databases of Google Scholar, Scielo (Scientific Electronic Library Online), Science Direct and scientific journals, including publications from 1988 to 2021. Thus, this review is extremely important to emphasize the use of probiotics and prebiotics in the feeding of dogs and cats, thus improving their quality, consequently acting on the gastrointestinal microbiota promoting a longer and healthier life for these pets.

Avaliação de diferentes culturas starters na elaboração de salame tipo italiano / Evaluation of different starters cultures in the obtaining of Italian-type sausage

O Salame Tipo Italiano produzido no Brasil é predominantemente obtido de carne suína, com maturação aproximada de 30 dias, atingindo pH em torno de 5,4. O uso das bactérias do gênero Lactobacillus como culturas iniciadoras propicia o processo de fermentação e a obtenção de produtos uniformes e seguros, com redução do tempo de maturação devido à rápida formação de ácido lático, obtendo-se melhores características sensoriais, químicas e microbiológicas. Os estafilococos coagulase-negativos (comumente em produtos cárneos fermentados Staphylococcus xylosus e S. carnosus)possuem vantagens tecnológicas, como atividade de nitrito e nitrato redutase, consumo de oxigênio e atividade de catalase que melhoram a estabilidade de cor e diminuem o desenvolvimento de rancidez no produto, além de contribuírem para a geração de sabor devido à capacidade proteolítica e lipolítica. Portanto, este trabalho objetivou estudar a influência de diferentes culturas starters (S. xylosus, S. carnosus, L. sakei e L. plantarum)combinadascom diferentes concentrações de substrato de glicose (40,5 e 99,5%) na fabricação do Salame Tipo Italiano, bem como a influência da concentração destes no desempenho das culturas starters. Durante o processamento e shelf life, os salames foram avaliados quanto às características físico-químicas, microbiológicas e sensoriais. Em todas as amostras de Salame Tipo Italiano houve comportamento similar em relação aos parâmetros físico-químicos (umidade, proteína e gordura). Não houve crescimento de micro-organismos indesejáveis nas amostras analisadas após 60 dias de shelf life. Na análise sensorial, a amostra com menor concentração de substrato (40,5%), utilizando as culturas S. carnosus e L. sakei, foi a que recebeu as melhores notas e melhor aceitação pelos degustadores, além de apresentar valores de nitritos e nitratos de acordo com a legislação.

The Italian-Type Sausage produced in Brazil is predominantly obtained from swine meat, with maturation approximately 30 days, reaching pH around 5.3. The use of Lactobacillus bacteria as starter cultures provide fermentation processes and products more uniform and safe, reducing the maturation time due to the rapid formation of lactic acid, obtaining products with better sensorial, chemical and microbiological characteristics. Coagulase-negative staphylococci (commonly in S. xylosus and S. carnosus fermented meat products) have technological advantages such as nitrite and nitrate redutase activity, oxygen uptake and catalase activity that improve color stability and decrease the development of rancidity in the skin, contribute to the generation of flavor due to the proteolytic and lipolytic capacity. This work aimed to study the influence of different starters cultures (S. xylosus, S. carnosus, L. sakei and L. plantarum) combined with different concentrations of glucose substrate (40.5 and 99.5%) in properties of Italian-Type Sausage, as well as the influence of their concentration on starter performance. During the processing and shelf life the sausages were evaluated in relation to physic-chemical, microbiological and sensorial characteristics. In all samples of Italian-type Sausages have similar behavior in relation to physical-chemical parameters (moisture, protein, and fat). There was no growth of undesirable micro-organisms in the samples after 60 days of shelf life. By the sensorial analysis, the sample with low concentration of substrate (40.5%) and with S. carnosus and L. sakei cultures was the one that received the best grades and better acceptance by the tasters, and presented values of nitrites and nitrites according to the legislation.

Commercial and non-commercial pectinase and cellulase on the enzymatic hydrolysis efficacy of rice husk and Tifton 85 hay

The aim of this study was to evaluate the action of commercial and non-commercial cellulase and pectinase on rice husk and Tifton 85 hay hydrolyses. The hydrolysis kinetics of the substrates with commercial cellulase and pectinase were evaluated and the hydrolysis at different temperature and agitation conditions was maximized using experimental design. The combined use of commercial and non-commercial enzymes under optimized conditions was evaluated. The pre-treatment of the residues was also investigated by milling and different concentrations of NaOH. Finally, the effect of the hydrolysis on the bromatological composition of the residues was evaluated. The best hydrolysis times of rice husk and Tifton 85 hay were 10 and 12h for commercial cellulase, 12 and 14h for noncommercial cellulase, 10 and 14h for commercial pectinase and 16 and 20h for non-commercial pectinase, respectively. The highest hydrolysis values were obtained using commercial cellulase with 1:50 (w:v enzyme:water) dilution rate, at 45ºC and 300 rpm agitation for both substrates, reaching 20.6% maximum percentage for Tifton 85 hay and 11.6% for rice husk. The combined use of commercial enzymes did not increase hydrolysis percentage. The pre-treatment using 7.5% NaOH and 0.5 mm grain size significantly increased the rice husk and Tifton 85 hay hydrolyses (60-80%), either using commercial cellulase or pectinase enzymes. The use of non-commercial enzymes provided 18-30% hydrolysis obtained from commercial ones. Bromatological analyzes indicated a reduction in neutral detergent fiber and acid detergent fiber content for rice husk and Tifton 85 hay when using pectinases and commercial cellulases.(AU)

Avaliação de diferentes culturas starters na elaboração de salame tipo italiano / Evaluation of different starters cultures in the obtaining of Italian-type sausage

O Salame Tipo Italiano produzido no Brasil é predominantemente obtido de carne suína, com maturação aproximada de 30 dias, atingindo pH em torno de 5,4. O uso das bactérias do gênero Lactobacillus como culturas iniciadoras propicia o processo de fermentação e a obtenção de produtos uniformes e seguros, com redução do tempo de maturação devido à rápida formação de ácido lático, obtendo-se melhores características sensoriais, químicas e microbiológicas. Os estafilococos coagulase-negativos (comumente em produtos cárneos fermentados Staphylococcus xylosus e S. carnosus)possuem vantagens tecnológicas, como atividade de nitrito e nitrato redutase, consumo de oxigênio e atividade de catalase que melhoram a estabilidade de cor e diminuem o desenvolvimento de rancidez no produto, além de contribuírem para a geração de sabor devido à capacidade proteolítica e lipolítica. Portanto, este trabalho objetivou estudar a influência de diferentes culturas starters (S. xylosus, S. carnosus, L. sakei e L. plantarum)combinadascom diferentes concentrações de substrato de glicose (40,5 e 99,5%) na fabricação do Salame Tipo Italiano, bem como a influência da concentração destes no desempenho das culturas starters. Durante o processamento e shelf life, os salames foram avaliados quanto às características físico-químicas, microbiológicas e sensoriais. Em todas as amostras de Salame Tipo Italiano houve comportamento similar em relação aos parâmetros físico-químicos (umidade, proteína e gordura). Não houve crescimento de micro-organismos indesejáveis nas amostras analisadas após 60 dias de shelf life. Na análise sensorial, a amostra com menor concentração de substrato (40,5%), utilizando as culturas S. carnosus e L. sakei, foi a que recebeu as melhores notas e melhor aceitação pelos degustadores, além de apresentar valores de nitritos e nitratos de acordo com a legislação.(AU)

The Italian-Type Sausage produced in Brazil is predominantly obtained from swine meat, with maturation approximately 30 days, reaching pH around 5.3. The use of Lactobacillus bacteria as starter cultures provide fermentation processes and products more uniform and safe, reducing the maturation time due to the rapid formation of lactic acid, obtaining products with better sensorial, chemical and microbiological characteristics. Coagulase-negative staphylococci (commonly in S. xylosus and S. carnosus fermented meat products) have technological advantages such as nitrite and nitrate redutase activity, oxygen uptake and catalase activity that improve color stability and decrease the development of rancidity in the skin, contribute to the generation of flavor due to the proteolytic and lipolytic capacity. This work aimed to study the influence of different starters cultures (S. xylosus, S. carnosus, L. sakei and L. plantarum) combined with different concentrations of glucose substrate (40.5 and 99.5%) in properties of Italian-Type Sausage, as well as the influence of their concentration on starter performance. During the processing and shelf life the sausages were evaluated in relation to physic-chemical, microbiological and sensorial characteristics. In all samples of Italian-type Sausages have similar behavior in relation to physical-chemical parameters (moisture, protein, and fat). There was no growth of undesirable micro-organisms in the samples after 60 days of shelf life. By the sensorial analysis, the sample with low concentration of substrate (40.5%) and with S. carnosus and L. sakei cultures was the one that received the best grades and better acceptance by the tasters, and presented values of nitrites and nitrites according to the legislation.(AU)

Commercial and non-commercial pectinase and cellulase on the enzymatic hydrolysis efficacy of rice husk and Tifton 85 hay

The aim of this study was to evaluate the action of commercial and non-commercial cellulase and pectinase on rice husk and Tifton 85 hay hydrolyses. The hydrolysis kinetics of the substrates with commercial cellulase and pectinase were evaluated and the hydrolysis at different temperature and agitation conditions was maximized using experimental design. The combined use of commercial and non-commercial enzymes under optimized conditions was evaluated. The pre-treatment of the residues was also investigated by milling and different concentrations of NaOH. Finally, the effect of the hydrolysis on the bromatological composition of the residues was evaluated. The best hydrolysis times of rice husk and Tifton 85 hay were 10 and 12h for commercial cellulase, 12 and 14h for noncommercial cellulase, 10 and 14h for commercial pectinase and 16 and 20h for non-commercial pectinase, respectively. The highest hydrolysis values were obtained using commercial cellulase with 1:50 (w:v enzyme:water) dilution rate, at 45ºC and 300 rpm agitation for both substrates, reaching 20.6% maximum percentage for Tifton 85 hay and 11.6% for rice husk. The combined use of commercial enzymes did not increase hydrolysis percentage. The pre-treatment using 7.5% NaOH and 0.5 mm grain size significantly increased the rice husk and Tifton 85 hay hydrolyses (60-80%), either using commercial cellulase or pectinase enzymes. The use of non-commercial enzymes provided 18-30% hydrolysis obtained from commercial ones. Bromatological analyzes indicated a reduction in neutral detergent fiber and acid detergent fiber content for rice husk and Tifton 85 hay when using pectinases and commercial cellulases.