Computational flow cytometry: helping to make sense of high-dimensional immunology data
Nature Reviews Immunology, 2016•nature.com
Recent advances in flow cytometry allow scientists to measure an increasing number of
parameters per cell, generating huge and high-dimensional datasets. To analyse, visualize
and interpret these data, newly available computational techniques should be adopted,
evaluated and improved upon by the immunological community. Computational flow
cytometry is emerging as an important new field at the intersection of immunology and
computational biology; it allows new biological knowledge to be extracted from high …
parameters per cell, generating huge and high-dimensional datasets. To analyse, visualize
and interpret these data, newly available computational techniques should be adopted,
evaluated and improved upon by the immunological community. Computational flow
cytometry is emerging as an important new field at the intersection of immunology and
computational biology; it allows new biological knowledge to be extracted from high …
Abstract
Recent advances in flow cytometry allow scientists to measure an increasing number of parameters per cell, generating huge and high-dimensional datasets. To analyse, visualize and interpret these data, newly available computational techniques should be adopted, evaluated and improved upon by the immunological community. Computational flow cytometry is emerging as an important new field at the intersection of immunology and computational biology; it allows new biological knowledge to be extracted from high-throughput single-cell data. This Review provides non-experts with a broad and practical overview of the many recent developments in computational flow cytometry.
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