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Winning Position: Unresolved
Introduction to Cell-Based Protein ExpressionMethods of producing or manufacturing functional proteins are necessary to study the biological roles of proteins of interest. Protein expression can be used across diverse areas of life science research. It has been the core activity of high throughput screening, functional validation, and structural biology. Many synthetic biology methods also rely on protein expression.Given the different sizes, characterization, and complexity of proteins, different cell-based expression systems, including both prokaryotic and eukaryotic protein expression systems, have been developed. Each system has its own advantages and challenges. For protein expression to be successful, selecting a suitable system for the specific application is essential. The selection is mainly based on protein type, protein yield, and the requirements for functional activity.
Winning Position: Unresolved
Protein engineering has always been a powerful tool in biotechnology to modify natural proteins and enzymes to meet the needs of different industrial applications. Today, it plays a crucial role in advancing the emerging field of synthetic biology by altering the properties of proteins to tailor protein "parts".
Winning Position: Unresolved
Introduction to Synthetic DNA Library ConstructionSynthetic DNA library refers to a collection of DNA fragments stored in host microorganisms by molecular cloning. Each fragment can be stored in a host organism separately. By rapidly and accurately replicating DNA in host organisms and producing detectable quantities, we can have quick access to many different sequences of interest with ease and efficiency. Synthetic DNA libraries enable us to achieve gene synthesis and cloning faster, more intelligent, and more reliable.Synthetic DNA library provides a more accurate and effective approach for understanding and studying genetics. The design and construction of DNA libraries play an important role in identifying novel gene regulatory sequences or the minimal domains that are critical to protein structure and functions. Synthetic DNA libraries can also be used to construct genetic circuits of biosynthesis pathways for metabolic engineering.
Winning Position: Unresolved
Protein engineering has always been a powerful tool in biotechnology to modify natural proteins and enzymes to meet the needs of different industrial applications. Today, it plays a crucial role in advancing the emerging field of synthetic biology by altering the properties of proteins to tailor protein "parts". CD Biosynsis provides a comprehensive portfolio of protein engineering services for the build phase to help synthetic biology researchers around the world facilitate their cutting-edge research.
Winning Position: Unresolved
RNA molecules play crucial roles in various biological processes, including gene expression, regulation, and protein synthesis. By modifying RNA molecules, researchers can gain insights into the fundamental mechanisms of these processes and develop innovative applications in fields such as therapeutics, diagnostics, and biotechnology.Diverse modifications in RNA encompass a wide range of chemical alterations that can be made to the custom RNA molecule. These modifications include but are not limited to methylations, phosphorothioations, fluorophores, biotin, and more. Each modification serves a specific purpose and can be tailored to meet the needs of a particular experiment or application. By introducing diverse modifications, researchers can gain insights into RNA structure-function relationships, study RNA-protein interactions, enhance RNA stability, or label RNA molecules for visualization and detection purposes.
Winning Position: Unresolved
EnzymoGenius™ specializes in fluorescence-based high-throughput enzyme assays, providing cutting-edge solutions for researchers and scientists seeking robust enzymatic activity analysis. Our service integrates advanced technologies to deliver accurate, efficient, and high-throughput enzyme assays, supporting a diverse range of research topics.Learn more:Fluorescence-Based High-Throughput Enzyme Assays
Winning Position: Unresolved
EnzymoGenius™ stands at the forefront of cutting-edge enzyme engineering, leveraging advanced AI-driven technologies to tailor enzymes with precision and finesse. Specializing in the meticulous alteration of stereochemistry, our service opens new frontiers in biocatalysis.OverviewCurrent research in enzyme engineering with altered stereochemistry is marked by significant strides and emerging trends. The intricate manipulation of enzyme structures has unveiled novel catalytic possibilities, enabling the synthesis of chiral compounds with unprecedented efficiency. Advances in directed evolution techniques have enabled the tailoring of enzyme stereoselectivity, offering precise control over reaction outcomes. Additionally, the integration of computational approaches, such as molecular modeling and simulation, has accelerated the design of enzymes with desired stereochemical features. Furthermore, the exploration of non-natural substrates and cofactors has expanded the catalytic repertoire of engineered enzymes. As researchers delve deeper into these frontiers, the prospect of developing catalysts for diverse bioconversion processes and pharmaceutical applications becomes increasingly promising, paving the way for innovative solutions in synthetic biology and industrial biotechnology.Learn more:Engineering Enzymes with Altered Stereochemistry
Winning Position: Unresolved
CD Biosynsis is a leading customer-focused biotechnology company dedicated to providing high-quality products, comprehensive service packages, and tailored solutions to support and facilitate the applications of synthetic biology in a wide range of areas. CD Biosynsis is fully engaged in providing customers around the world with satisfactory services and cost-effective solutions to promote the development of synthetic biology. Our scientific team is committed to helping our customers solve any problems encountered in their projects and bring diverse creative ideas to fruition.Learn more:synthetic biology development