QArray Family: Creating Arrays In Microplates
Source: Genetix Limited
Click Here To Download:
Application Note: QArray Family: Creating Arrays In Microplates
Although the technology used to print microarrays on glass slides has come of age and is used extensively in research applications, screening of these microarrays is limited by throughput capacity and by the high cost of processing each individual microarray slide. An increasingly popular development is to produce DNA or protein arrays in the wells of 96- or 384-well microplates, allowing the parallel processing of many different test samples simultaneously, e.g. tissue/cell samples that have undergone different treatments. The savings in cost and time, as well as the potential for automation of downstream array processing, make the microplate array format ideal for applications in drug screening and clinical sample testing. Click Here To Download:
Application Note: QArray Family: Creating Arrays In Microplates
SOURCE: Genetix Limited
Application Note: QArray Family: Creating Arrays In Microplates
Although the technology used to print microarrays on glass slides has come of age and is used extensively in research applications, screening of these microarrays is limited by throughput capacity and by the high cost of processing each individual microarray slide. An increasingly popular development is to produce DNA or protein arrays in the wells of 96- or 384-well microplates, allowing the parallel processing of many different test samples simultaneously, e.g. tissue/cell samples that have undergone different treatments. The savings in cost and time, as well as the potential for automation of downstream array processing, make the microplate array format ideal for applications in drug screening and clinical sample testing. Click Here To Download:
Application Note: QArray Family: Creating Arrays In Microplates
SOURCE: Genetix Limited
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