Immunomics combines an understanding of molecular biology and cellular immune function with the application of laboratory tools that enable detailed analysis of the immune system and its components of health and disease. The ability of immunomics to explore and manipulate the cellular microenvironment of the immune system makes it not only of scientific interest but also of clinical significance.
CD Genomics offers several types of immunomics services to help overcome bottlenecks and advance projects to help clients understand the mechanisms of the immune system and to help them use these techniques to shorten the process of developing new clinical therapies for diseases such as cancer, infection, or autoimmune diseases.
The immune system is highly complex and distributed throughout the organism, with hundreds of cellular states and different molecular pathways existing in parallel, interacting in a highly dynamic and coordinated manner. CD Genomics provides a series of immunomics analysis services targeting different types of immune cells.
Although some antigens (Ag) can directly stimulate an immune response, T cell-dependent acquired immune responses usually require antigen-presenting cells (APCs) to present antigen-derived peptides within the major histocompatibility complex (MHC) molecule.
The main types of lymphocytes are morphologically indistinguishable but can be distinguished by antigen-specific surface receptors and other cell surface molecules known as clusters of differentiation (CDs). Different lymphocytes have different immune functions, responding to humoral and cellular immunity respectively.
Mast cells are tissue-based, function similarly to basophils circulating in the blood, and play a key role in generating a protective acute inflammatory response.
The typical natural killer (NK) cells belong to a group of cells collectively known as innate lymphoid cells, such as ILC1, ILC2, and ILC3, which induce apoptosis in infected or abnormal cells through a variety of pathways.
Polymorphonuclear leucocytes are also known as granulocytes because their cytoplasm contains granules. Their lysosomes contain bactericidal substances and enzymes such as peroxidase, lysozyme, protease, phosphatase, nuclease, and lipase.
Immunomics services bring together genomics, transcriptomics, epigenomics, and proteomics, as well as the more recent single-cell omics. CD Genomics offers a full range of omics services, from cell isolation services and omics analysis services to immunomics bioinformatics services. We support your project with professional and high-quality technology.
Immunomics approaches help define cell types and cell states within the immune system to reveal the major molecular and functional components of the immune system and establish causal activation of the transcriptional and functional cascades that drive immunity. A deep understanding of the immune system facilitates multiple types of clinical applications.
Drug Discovery Services - The accuracy of immunomics, particularly T- and B-cell epitope analysis, and its usefulness in drug development have been positively demonstrated in a range of disciplines.
Vaccine Development Services - Immunomics confronts disease phenotypes and molecular profiles with enormous variability, enabling effective deciphering of the host immune response to pathogens and further facilitating antigen selection and vaccine development.
Based on our expertise in immunomics, extensive experimental experience, and advanced research platforms, we provide efficient and reliable immunomics analysis services to our clients. Please contact us for more information.
