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Scientists reveal structure of nuclear pore’s inner ring

Biology

Scientists reveal structure of nuclear pore’s inner ring

The architecture of the nuclear pore. The outer ring is colored in orange and blue, whereas the newly characterized inner ring is seen in green and lemon. Credit: Jan Kosinski/EMBL It was a 3D puzzle with over 1000 pieces, with only a rather fuzzy outline as a guide. But scientists at EMBL have now put enough pieces in place to see the big picture. In a study published today in Science, they present their latest findings, bringing the nuclear pore complex into focus. The nuclear pore is a passage into the cell’s nucleus. A typical cell has hundreds of these pores, playing a crucial role in controlling the hundred of thousands of molecules that enter and exit this compartment every minute. Nuclear pores are used by many viruses to inject their genetic material into a host and they are known to change when cells become cancerous, so knowing how they work is important. Scientists understood many of the components of the nuclear pore, but exactly how those building blocks fitted together was unclear.
”The nuclear pore is the biggest, most complicated protein complex in a human cell. We now understand how it is structured,” says Martin Beck, who led the work at EMBL. ”This is a very important first step towards understanding what actually happens to nuclear pores in cancer, during ageing, and in other conditions.
The nuclear pore is composed of three layered rings: a nuclear ring facing the nucleus; a cytoplasmic ring facing the rest of the cell; and an inner ring in between those two. Having already pieced together how the building blocks of the nuclear and cytoplasmic rings are arranged, Martin Beck’s group at EMBL have now worked out the arrangement of the pieces that form the inner ring.The video will load shortlyThe architecture of the nuclear pore. Repeating protein-protein interaction motifs (green and red) are organised in repeating units (orange, light blue and green and lemon) that form duplicate rings on both the outer and the inner rings. Credit: Jan Kosinski/EMBL”Surprisingly, we found that although it is made of different building blocks, the inner ring has the same basic architecture as the other two rings,” says Shyamal Mosalaganti from EMBL, who studied the ring using cryo-electron microscopy. ”This very complicated structure is built using simple principles . We were able to uncover that because we interweaved a lot of different techniques here.
Beck and colleagues would now like to understand how the cell completes this 3D puzzle: how the nuclear pore is assembled. Thanks to an ERC grant, the scientists are also exploring how the pore varies between different kinds of cells.
”Knowing this structure, we can now look at how nuclear pores evolved, right at the beginning of the development of complex cells,” says Jan Kosinski from EMBL, who put the pieces together using computer modelling. ”The moment you have a nucleus—a compartment which encloses DNA—you need a nuclear pore, but how it developed is still the subject of intense debate.
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More information: J. Kosinski et al. Molecular architecture of the inner ring scaffold of the human nuclear pore complex, Science (2016). DOI: 10.1126/science.aaf0643

Journal reference:Science
Provided by:European Molecular Biology Laboratory

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