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Cell Atlas results published in Science

cell_atlas_emma_lundberg

The first analysis of how proteins are arranged in a cell was published yesterday in Science, revealing that a large portion of human proteins can be found in more than one location in a given cell.

Using the Sweden-based Cell Atlas, researchers examined the spatial distribution of the human proteome that correspond to the majority of protein-coding genes, and they described in detail the distribution of proteins to the various organelles and substructures of the human body’s smallest unit, the cell, according to the SciLifeLab press release.

Analysis of hundreds of thousands of images

The study was led by Emma Lundberg, associate professor at KTH Royal Institute of Technology and responsible for the High Content Microscopy facility at the Science for Life Laboratory (SciLifeLab) in Stockholm. The team generated more than 300 000 images to systematically resolve the spatial distribution of human proteins in cultivated cell lines, and map them to cellular compartments and substructures with single cell resolution. The Cell Atlas is the result of more than 10 years of research within the Human Protein Atlas program, and was launched in December 2016.

“Only by studying the molecular components of the body’s smallest functional unit – the cell – can we reach a full understanding of human biology,” says KTH Professor Mathias Uhlen, director of the Human Protein Atlas. “The Cell Atlas provides researchers with new knowledge that facilitates functional exploration of individual proteins and their role in human biology and disease.”

The published article also includes a comparative study performed by Kathryn Lilley, director of the Cambridge Centre for Proteomics, at Cambridge University, UK, which enabled the antibody-based immunofluorescence (IF) microscopy analysis to be validated by an alternative mapping strategy that used mass spectrometry.

A total of 12 003 proteins targeted by 13 993 antibodies were classified into one or several of 30 cellular compartments and substructures, altogether defining the proteome of 13 major organelles. The organelles with the largest proteomes were the nucleus (6 930) and its substructures, such as bodies and speckles, and the cytosol (4 279). About one-half of the proteins are found in more than one compartment revealing a shared pool of proteins in functionally unrelated parts of the cell. This finding sheds new light on the complexity of cells, reports SciLifeLab.

Read the full article here: science.sciencemag.org/lookup/doi/10.1126/science.aal3321

Source: SciLifeLab
Photo Emma Lundberg: Marcus Macetic

Image EGFR showing: The protein EGFR (epidermal growth factor receptor) is visualized using confocal microscopy and immunofluorescent reporters in epidermoid carcinoma cells (A-431). The protein (in green) is a receptor localized to the plasma membrane and regulates cell division; a cascade of intra cellular reactions is released due to stimulation with growth factors. In the image the microtubules are shown in red and the nucleus in blue.

 

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