CD Genomics is committed to providing microarray solutions to customers around the world. We will return the trust of customers with excellent product quality, and provide customers all over the world with the most satisfactory products and services.
Microarray technology is a complex mixture of many technologies and research fields, such as mechanics, microprocessing, chemistry, microfluidics, enzymology, optics, and bioinformatics. Microarray technology has been applied to analyze various biological macromolecules, such as nucleic acids, proteins, glycans, peptides, and lipids due to its high-throughput advantages. The advantage of microarray technology lies in the use of a set of fixed and clear targets to detect the fluid sample to be detected. Using this method can achieve the uniformity and high-throughput detection of a large number of samples in biomedical experiments. Mass data can usually be obtained through microarray technology. Exploring the meaning behind these data is very helpful for understanding the information conveyed behind biological samples. Our microarray platform can provide comprehensive microarray services. The special microarray series service contains many unique microarray concepts, including small molecule microarrays, compound microarrays, transfected cell arrays, lipid microarrays, and so on. We are committed to the development of more widely used and more comprehensive microarray products and services, and provide comprehensive microarray solutions for customers in the microarray field.
Fig 1. Special microarray service.
Key Points | Description |
Systems Biology | Unlike traditional biology, which usually studies one gene or protein at a time, systems biology tries to understand life at the system level and builds on the solid foundation of modern biology. The ability to perform high-throughput analysis using system-level or global analysis tools helps to gain a broader perspective. Our systems biology microarray service uses protein microarrays for system-level or global analysis. |
Cancer Epitope Discovery | The tumor-associated antigen (TAA) recognized by the immune system can be used to identify new diagnostic cancer biomarkers and help to better understand the molecular mechanisms involved. Tumors exhibit individual cancer mutation characteristics that share "fixed" characteristics and patient-specific mutations. Fingerprint analysis of the antibody profile of the new epitope can accurately distinguish immunogenic mutations from non-immunogenic mutations. We provide microarray services for cancer epitope discovery. |
Lysate Microarray | The reversed-phase lysate array technology has broad application prospects. For example, the lysate microarray can be used as a tool for system-level signal research and multiple analysis of disease biomarkers to realize the verification and quantification of molecular markers. We provide lysate microarray services based on microarray printing. |
Small Molecule Microarray | Discovery-driven research using many different chemical libraries, biomolecules, and tissue types is of great significance for large-scale, high-throughput screening. Small molecule microarrays (SMM) formed by densely arranged libraries of hundreds of different compounds on a flat surface can be used to discover available compounds or molecular fragments. |
Toxicology Genomics | Toxicological genomics is the study of changes in gene expression caused by exposure to toxins, representing the response of cells and organisms to changes in the external environment such as toxic stimuli. The use of microarray technology to study gene toxicology can realize animal-free screening at the screening stage. Our microarray-based toxicology genomics services are mainly designed to evaluate the toxic and side effects of drugs. |
Transfected Cell Array | Cell-based arrays are a powerful technology platform for performing array high-throughput screening. Living cell microarray (LCMA) is an efficient cell screening system used to characterize cell-cell interactions, cell-cell interactions with their microenvironment, and their response to applied stimuli, as well as an in-depth understanding of molecular cellular mechanisms. The transfected cell array (TCA) is suitable for rapid and systematic high-throughput screening of genes that cause the desired phenotype or encode the target product. We provide TCA-based screening services. |
Chemical Microarray | The study of interactions between compounds and biological targets dominates modern drug discovery research. Screening a large number of chemical substances in a fast and economical way to find new targets makes the miniaturization of bioassays a trend. |
Microarray Printing | Microarray printing is an important part of customizing microarray products, which determines the quality of microarray products. Our microarray printing service can print almost many kinds of biomolecules, including oligonucleotides, DNA fragments, peptides, proteins, glycans, small molecule compounds and lipids. |
Lipid Microarrays | Lipids are involved in the formation of many important structural features of cells, are the core of regulating a variety of cell functions, and some are also key members of cell signal transduction pathways. Lipid microarrays will enable researchers to obtain comparable protein fingerprints from cells or tissues bound to lipids and identify lipid-binding proteins with important functions. We provide customized lipid analysis microarray services. |
CD Genomics provides high-quality commercial, customized and semi-customized microarray products and analysis&testing services based on microarray products. Our microarray test platform has well-equipped laboratories and a team of highly qualified scientists, and we look forward to cooperating with customers all over the world. We have comprehensive design and production capabilities, and can provide a broad and comprehensive combination of laboratory and manufacturing services. If you are interested in our products and services, please contact us for more details
References