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Animal Feed Enzyme Additive Development
Feed enzyme additives are commonly used to improve nutrient digestibility, enhance growth performance, promote intestinal health and reduce nutritional losses in animals. The application effects of feed enzymes vary depending on the type, dosage and combinations used for different animals. BioVenic's customized feed enzyme development solutions are designed specifically for the development and implementation of feed enzymes. We help feed researchers evaluate enzymatic properties, optimize production, improve functionality and advance the development of feed enzymes through our comprehensive technology platform.
Key Enzyme Additives in Animal Feed
These enzymes are vital for the synthesis, modification, and breakdown of glycoconjugates, oligo- and polysaccharides. BioVenic offers all-inclusive solutions for developing xylanase, glucanase, beta-mannanase, amylases, cellulase, pectinase, and other carbohydrases as feed enzymes.
With the ability to release phosphorus from phytates, phytase enhances the digestibility of phosphorus, calcium, amino acids, and energy in animals. Our platform for phytase feed enzyme development assists animal nutrition researchers in creating efficient phytase enzymes for optimal application in animals.
These enzymes, when incorporated as feed additives, enhance protein digestion and utilization, optimize nutrient efficiency, boost growth performance, and reduce environmental impacts. Our solutions for developing feed proteolytic enzyme additives focus on discovering new proteases, enhancing their enzymatic properties, and producing superior feed protease products.
Our offerings for feed lipase development facilitate the creation of lipases sourced from animals and microbes as feed additives. Through our extensive animal research platform, different lipase products are explored for their value in animal nutrition.
Other Feed Enzymes
We concentrate on innovating novel animal feed enzymes with diverse potential applications. Our solutions also support the research on other enzymes, like lysozyme and mycotoxin-degrading enzymes, that hold promise in animal nutrition.
Development and Optimization of Feed Enzymes
- Genetic Study of Feed Enzymes
Through our feed enzyme genetic study platform, we integrate cutting-edge molecular sequencing technology with bioinformatics analysis. This solution aids in identifying and obtaining necessary enzyme genes from various organisms' genomes, facilitating the subsequent development of animal feed enzymes, including the recombinant production of enzymes.
Fig. 1 Recombinant enzyme production process
- Evaluation of Enzymatic Characteristics
Each enzyme possesses unique characteristics due to structural disparities, such as substrate specificity, catalytic activity, pH stability, and temperature tolerance. Our solutions facilitate the evaluation of these enzymatic properties, enabling the thorough examination of enzymatic activity and the development of animal feed enzyme additives with superior enzymatic attributes.
- Study of Catalytic Mechanisms
Leveraging advanced spectroscopy and X-ray crystallography research platforms, we delve into the three-dimensional structure, catalytic conformational alterations, and dynamic behaviors of enzymes. These studies aid in comprehending their catalytic active sites, substrate binding modes, and contribute to optimizing and modifying the catalytic function and properties of animal feed enzymes.
- Enzyme Modification
Employing methodologies like site-directed mutagenesis, our technology platform assists in the refinement and transformation of enzymes. By enhancing the enzyme's catalytic efficiency, pH stability, temperature resilience, and other properties, animal nutrition researchers can craft enzymes better suited for use as animal feed additives.
- Fermentation Optimization
Our technology platform offers solutions for optimizing fermentation media and fermentation conditions. This aids in enhancing the fermentation process of enzyme-producing microorganisms to elevate enzyme production and reduce the production costs of feed enzymes.
Application Effect Study of Feed Enzymes
Our feed analysis platform can scrutinize the nutritional and nutrient metabolite compositions in various samples like feed, digesta, and manure. This analysis assists in assessing the effectiveness of feed enzyme applications.
- In Vitro Simulated Digestion
Through our in vitro animal nutrition models, researchers can assess the impact of feed enzyme applications within a simulated animal digestive environment. It helps to explore the effect of feed enzyme use on specific animals, specific diet types, and the use of different enzyme combinations, and provides a theoretical grounding for subsequent animal experiments and enzyme optimizations.
- In Vivo Animal Studies
Leveraging an array of animal in vivo models, animal nutrition researchers can conduct studies on the efficacy of enzyme applications in animals of distinct ages and physiological conditions. In vivo animal experiments ascertain the effectiveness of the enzyme, the optimal dosage of the additive, and offer guidance for the development of feed enzyme products.
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Feed Enzyme Developmen
Considering the distinctive digestive profiles of various animals, feed enzymes have evolved into diverse product variants, spanning single enzymes, complex enzymes, liquid formulations, solid variants, coated options, and more. Our solutions for feed enzyme additive development cater to the requirements of animal nutrition researchers, offering efficacy assessment services across a wide spectrum of feed enzyme products and aiding in the creation of products tailored for specific animal requirements.
Animal Feed Enzyme Additive Development Workflow
Why Choose Us?
Our researchers possess deep expertise in the feed enzyme development realm, offering tailored solutions to address your specific needs.
We present a range of in vivo and in vitro animal models. Through thorough research and analysis, we furnish valuable insights for feed enzyme evaluation.
Leveraging our advanced molecular biology research platform and fermentation capabilities, we streamline challenges related to developing enzyme-producing strains and optimizing enzyme production processes.
Enzymes, as feed additives, play a pivotal role in enhancing animal nutrition and health. BioVenic's research platform harmonizes internal and external research reservoirs to present animal nutrition researchers with a comprehensive solution for feed enzyme development, application research, and feed enzyme product innovation. For those intrigued by our animal feed enzyme additive solutions, kindly contact us with your research requisites, and we will be delighted to assist you.