New Technique Maps Hundreds of Proteins Simultaneously within Cell Nuclei
On Dec. 18, 2024, Caltech researchers announced they had developed a new method to map the positions of hundreds of DNA-associated proteins within cell nuclei all at the same time. The method, called ChIP–DIP (Chromatin ImmunoPrecipitation Done In Parallel), is a versatile tool for understanding the inner workings of the nucleus during different contexts, such as disease or development.
Nearly all cells in the human body contain the same DNA, which encodes the blueprint for creating every cell type in the body and directing their activities. Despite having the same genetic material, different cell types express unique sets of proteins, allowing for the various cells to perform their specialized functions and to adapt to conditions within their environments. This is possible because of careful regulation within the nucleus of each cell and involves thousands of regulatory proteins that localize to precise places in the nucleus
The technology is exceedingly powerful for understanding gene regulation during different disease states, the researchers say. While previous techniques could only map a single type of protein at a time, ChIP–DIP can look at hundreds at once to give a comprehensive picture in rare cell types and in both healthy and disease tissue samples from patients. The research was conducted in the laboratory of Mitchell Guttman, professor of biology, and is described in a paper published in the journal Nature Genetics.
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Source: CalTech
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