page_banner

products

  • CHO Cell Line Provide Customized Services

    CHO Cell Line Provide Customized Services

    The HEK293T (HEK293 transformed) cell line is a human embryonic kidney cell line derived from a human embryo in the 1970s. It is used in a variety of research settings and is an important tool in the study of gene expression, protein structure and function, signal transduction, and drug discovery. The cells are easy to transfect and are commonly used to study the effects of various genetic manipulations, such as overexpression or knockdown of various genes, on the cell’s phenotype. The cells have also been used in studies of stem cell biology, cancer biology, and immunology.

  • Synthetic Biology Use AI Technology to Enhance Value and Efficiency

    Synthetic Biology Use AI Technology to Enhance Value and Efficiency

    Biopharmaceuticals are medical drugs produced using biotechnology. They are proteins (including antibodies), nucleic acids (DNA, RNA or antisense oligonucleotides) used for therapeutic purposes. Currently, innovation in biopharmaceuticals require complex knowledge base, ongoing exploration, and expensive processes, amplified by great uncertainties. Combining AlfaCell® site-specific integration platform for cell line development and AlfaMedX® AI-enabled platform for culture media development, ...
  • IVD Refers to Medical Mevices and Tests

    IVD Refers to Medical Mevices and Tests

    Antibodies and antigens are important raw materials for in vitro diagnostics (IVD) industry. GBB biological platform can be applied to the field of IVD to achieve rapid, stable and high-yield expression of antibodies. The International Virus Taxonomy (IVD) is a system of classification used to classify viruses. It is used by the International Committee on Taxonomy of Viruses (ICTV) to classify viruses into different groups according to their biological and structural characteristics. The IVD ...
  • Cell Line Has the Advantages of Stability and High Production

    Cell Line Has the Advantages of Stability and High Production

    Cell lines are cultures of cells that have been derived from living organisms, such as humans, animals, plants, and bacteria. They are grown in the laboratory and can be used for a variety of purposes, such as studying the effects of certain drugs, researching genetic disorders, or creating vaccines. Cell lines are typically immortalized, meaning they can divide indefinitely and can be used in experiments for long periods of time.

  • Cell Culture Media Is A Platform For Customized Development

    Cell Culture Media Is A Platform For Customized Development

    Cell culture media is a nutrient broth which contains essential nutrients and growth factors that are needed for cell growth and maintenance. It is typically composed of a balanced mixture of carbohydrates, proteins, lipids, minerals, vitamins, and growth factors. The media also provides a favorable environment for the cells to thrive in, such as optimal pH, osmotic pressure, and temperature. The media may also contain antibiotics to prevent bacterial or fungal contamination, and other additives to enhance the growth of specific cell types. Cell culture media is used in a variety of research and medical applications, such as tissue engineering, drug discovery, and cancer research.

  • AI + Cell Culture Media Bring Value to Cell Culture Media Development

    AI + Cell Culture Media Bring Value to Cell Culture Media Development

    Cell culture media is a nutrient-rich liquid that is used to grow and maintain cell cultures in laboratory settings. AI, or Artificial Intelligence, can be used to analyze the properties of cell culture media and make informed decisions about what types of media are likely to produce the best results. AI can also be used to identify potential contaminants, optimize cell culture conditions, and predict the behavior of different cell types in different media. By combining AI with cell culture media, researchers can increase the accuracy and efficiency of their experiments and generate more reliable results.

  • AI + Bio Is An Innovative Platform

    AI + Bio Is An Innovative Platform

    AI in bioinformatics can be used to develop powerful algorithms and methods for analyzing biological data. It can be used to analyze large datasets, find patterns, and make predictions. AI can also be used to develop new drugs and treatments and to help diagnose diseases. AI tools can also be used to generate insights from biological data and to discover new biological pathways and mechanisms.

    AI in bioinformatics involves the use of AI-based algorithms and tools to analyze and interpret large amounts of biological data. AI can be used to detect patterns, identify correlations, and predict outcomes in biological systems. AI-based tools are increasingly being used to improve the accuracy of drug.

  • AI + Antibody Opening up A Whole New Avenue for Antibody Drugs

    AI + Antibody Opening up A Whole New Avenue for Antibody Drugs

    AI and antibodies can work together to help detect and fight disease. AI can be used to identify patterns in large datasets that may indicate the presence of a disease. For example, AI can be used to analyze images of cells to detect abnormal features that may be indicative of a particular illness. Antibodies, meanwhile, can be used to detect the presence of a particular pathogen or virus within the body. By combining AI and antibody technology, it may be possible to detect the presence of a disease earlier and more accurately, allowing for more effective treatments and prevention.

  • Biopharmaceuticals Has Been Established Innovative Technology Platform

    Biopharmaceuticals Has Been Established Innovative Technology Platform

    Biopharmaceuticals are medical drugs produced using biotechnology. They are proteins (including antibodies), nucleic acids (DNA, RNA or antisense oligonucleotides) used for therapeutic purposes. Currently, innovation in biopharmaceuticals require complex knowledge base, ongoing exploration, and expensive processes, amplified by great uncertainties.

    Combining AlfaCell® site-specific integration platform for cell line development and AlfaMedX® AI-enabled platform for culture media development, Great Bay Bio provides one-stop bioproduction solutions that achieve robust cell growth, improve recombinant protein yield and ensure high quality for therapeutic antibodies, growth factors, Fc Fusions, and enzyme production.

  • Site-Specific Integration Accurately Insert the Target Genes into Specific Hot Spot

    Site-Specific Integration Accurately Insert the Target Genes into Specific Hot Spot

    Site-specific integration is the process of customizing a website or application to fit the unique needs of a certain website or application. It is a process that involves making changes to the existing code and structure of the website or application in order to make it more efficient and effective for the specific needs of the site. Site-specific integration can be used to modify existing features, add new features, and improve the overall usability of the website or application. This is es...