Microarray technology is a dense array of molecules in which a large number of biological message codes have been fixed in a pre-designed way on solid-phase carriers such as paddles, silicon wafers, plastic and nylon membranes. The microarray is subjected to biochemical reactions under certain conditions, the results of which are displayed by chemical fluorescence, enzymatic and isotopic methods, followed by data acquisition by optical instruments such as scanners and finally data analysis by special computer software.
CD Genomics provides high quality, one-stop microarray services. We accept multiple sample types and provide microarray services for a wide range of species. To date, we have provided microarray services worldwide, including but not limited to plant species such as rice, maize, wheat, potato, cotton, peach, soybean, to animal species such as pig, cattle, horse, sheep. We are constantly optimising our services to better meet the needs of our clients and to promote the modernization of agriculture by providing in-depth whole genome analysis of plants and animals.
With the continuous improvement of microarray technology and the development of life science, the application of microarray technology in the field of animal and plant research has also made great progress. The application of microarray technology has greatly promoted the development of animal and plant research and revolutionised it. It has now been applied in the following research areas.
Fig 2. Microarray services workflow
CD Genomics has extensive experience in microarray services and our services are industry-leading and recognised by our insiders and clients, we have an excellent reputation for our services in the microarray field. Our aim is to help researchers improve their animal and plant research and contribute to the modernisation of agriculture, based on a high standard of microarray services. If you are interested in us, please feel free to contact us.
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CD Genomics is propelling the future of agriculture by employing cutting-edge sequencing and genotyping technologies to predict and enhance multiple complex polygenic traits within breeding populations.