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https://web.archive.org/web/20220727160629/http:/news.mit.edu/2022/alex-shalek-single-cell-rna-0721

When cells’ tiny differences have far-reaching implications

Alex K. Shalek, an MIT associate professor of chemistry, uses technologies such as single-cell RNA-sequencing to analyze differences in gene expression patterns of individual cells, and to figure out how each cell contributes to the function of a tissue or organ.



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When cells’ tiny differences have far-reaching implications

https://web.archive.org/web/20220727160629/http:/news.mit.edu/2022/alex-shalek-single-cell-rna-0721

Alex K. Shalek, an MIT associate professor of chemistry, uses technologies such as single-cell RNA-sequencing to analyze differences in gene expression patterns of individual cells, and to figure out how each cell contributes to the function of a tissue or organ.



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https://web.archive.org/web/20220727160629/http:/news.mit.edu/2022/alex-shalek-single-cell-rna-0721

When cells’ tiny differences have far-reaching implications

Alex K. Shalek, an MIT associate professor of chemistry, uses technologies such as single-cell RNA-sequencing to analyze differences in gene expression patterns of individual cells, and to figure out how each cell contributes to the function of a tissue or organ.

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      Alex K. Shalek, an MIT associate professor of chemistry, uses technologies such as single-cell RNA-sequencing to analyze differences in gene expression patterns of individual cells, and to figure out how each cell contributes to the function of a tissue or organ.
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      Alex K. Shalek, an MIT associate professor of chemistry, uses technologies such as single-cell RNA-sequencing to analyze differences in gene expression patterns of individual cells, and to figure out how each cell contributes to the function of a tissue or organ.
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