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#nucleus — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #nucleus, aggregated by home.social.

  1. #PhysCell Conference, 7–11 September 2026 in Egmond aan Zee, a lovely beach location in the #netherlands

    Deadline May 8, 2026.

    meetings.embo.org/event/26-phy

    Conference topics include:

    * #Mechanics and #dynamics of #membranes, #cells, #tissues, and #organoids
    * Reconstituted systems and synthetic cells
    * #Biomolecular condensates
    * #Physics of #chromosomes and the #nucleus
    * Sensing and information in #livingCells

    See you there!

  2. #PhysCell Conference, 7–11 September 2026 in Egmond aan Zee, a lovely beach location in the #netherlands

    Deadline May 8, 2026.

    meetings.embo.org/event/26-phy

    Conference topics include:

    * #Mechanics and #dynamics of #membranes, #cells, #tissues, and #organoids
    * Reconstituted systems and synthetic cells
    * #Biomolecular condensates
    * #Physics of #chromosomes and the #nucleus
    * Sensing and information in #livingCells

    See you there!

  3. #PhysCell Conference, 7–11 September 2026 in Egmond aan Zee, a lovely beach location in the #netherlands

    Deadline May 8, 2026.

    meetings.embo.org/event/26-phy

    Conference topics include:

    * #Mechanics and #dynamics of #membranes, #cells, #tissues, and #organoids
    * Reconstituted systems and synthetic cells
    * #Biomolecular condensates
    * #Physics of #chromosomes and the #nucleus
    * Sensing and information in #livingCells

    See you there!

  4. #PhysCell Conference, 7–11 September 2026 in Egmond aan Zee, a lovely beach location in the #netherlands

    Deadline May 8, 2026.

    meetings.embo.org/event/26-phy

    Conference topics include:

    * #Mechanics and #dynamics of #membranes, #cells, #tissues, and #organoids
    * Reconstituted systems and synthetic cells
    * #Biomolecular condensates
    * #Physics of #chromosomes and the #nucleus
    * Sensing and information in #livingCells

    See you there!

  5. #PhysCell Conference, 7–11 September 2026 in Egmond aan Zee, a lovely beach location in the #netherlands

    Deadline May 8, 2026.

    meetings.embo.org/event/26-phy

    Conference topics include:

    * #Mechanics and #dynamics of #membranes, #cells, #tissues, and #organoids
    * Reconstituted systems and synthetic cells
    * #Biomolecular condensates
    * #Physics of #chromosomes and the #nucleus
    * Sensing and information in #livingCells

    See you there!

  6. Researchers reveal nuclear ‘island’ where magic numbers break down

    Atomic nuclei are often described as orderly systems. Certain numbers of protons or neutrons, called magic numbers, usually…
    #NewsBeep #News #Physics #AtomicPhysics #AU #Australia #Neutrons #NewDiscoveries #Nuclear #Nucleus #protons #research #Science #structures
    newsbeep.com/au/342779/

  7. Researchers reveal nuclear ‘island’ where magic numbers break down

    Atomic nuclei are often described as orderly systems. Certain numbers of protons or neutrons, called magic numbers, usually…
    #NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Physics #AtomicPhysics #Neutrons #NewDiscoveries #Nuclear #Nucleus #protons #Research #Science #structures
    newsbeep.com/us/343848/

  8. Researchers reveal nuclear ‘island’ where magic numbers break down

    Atomic nuclei are often described as orderly systems. Certain numbers of protons or neutrons, called magic numbers, usually…
    #NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Physics #AtomicPhysics #Neutrons #NewDiscoveries #Nuclear #Nucleus #protons #Research #Science #structures
    newsbeep.com/us/343848/

  9. Researchers reveal nuclear ‘island’ where magic numbers break down

    Atomic nuclei are often described as orderly systems. Certain numbers of protons or neutrons, called magic numbers, usually…
    #NewsBeep #News #Physics #AtomicPhysics #Neutrons #NewDiscoveries #nuclear #Nucleus #protons #research #Science #structures #UK #UnitedKingdom
    newsbeep.com/uk/311514/

  10. #Cancer cells with a cell #nucleus that is easily deformed are more sensitive to #drugs that damage DNA. These are the findings of a new study by researchers at Linköping University. The results may also explain why combining certain cancer drugs can produce the opposite of the intended effect.
    #Oncology #sflorg
    sflorg.com/2025/12/ongy1201250

  11. Call for papers: Cell Biology of the Nucleus

    Journal of Cell Science invites you to submit your latest research to their special issue: Cell Biology of the Nucleus, guest edited by Abby Buchwalter alongside JCS Editor Megan King.

    journals.biologists.com/jcs/pa

    #Nucleus #Cells #Cell #CellBiology #Research #Biology #Academia

  12. Heaviest #proton emitter: New type of atomic #nucleus discovered
    #Radioactive decay of atomic #nuclei has been keystones of #nuclear #physics since the beginning of nuclear research. Now the heaviest nucleus decaying via proton emission has been measured in the Accelerator Laboratory of the University of Jyväskylä, Finland.
    For the first time in almost 30 years, the heaviest nucleus decaying via proton emission has been measured, previous breakthrough was in 1996.
    phys.org/news/2025-06-heaviest

  13. Production and measurement of the extremely heavy, neutron-rich hydrogen isotope ⁶H achieved for the first time in an electron scattering experiment at the Mainz Microtron accelerator MAMI / Result shows stronger than expected interaction between neutrons within the nucleus 👉 press.uni-mainz.de/new-method-

    #NuclearPhysics #ParticleAccelerator #hydrogen #spectrometer #nucleus #neutrons

  14. Production and measurement of the extremely heavy, neutron-rich hydrogen isotope ⁶H achieved for the first time in an electron scattering experiment at the Mainz Microtron accelerator MAMI / Result shows stronger than expected interaction between neutrons within the nucleus 👉 press.uni-mainz.de/new-method-

    #NuclearPhysics #ParticleAccelerator #hydrogen #spectrometer #nucleus #neutrons

  15. Production and measurement of the extremely heavy, neutron-rich hydrogen isotope ⁶H achieved for the first time in an electron scattering experiment at the Mainz Microtron accelerator MAMI / Result shows stronger than expected interaction between neutrons within the nucleus 👉 press.uni-mainz.de/new-method-

    #NuclearPhysics #ParticleAccelerator #hydrogen #spectrometer #nucleus #neutrons

  16. Production and measurement of the extremely heavy, neutron-rich hydrogen isotope ⁶H achieved for the first time in an electron scattering experiment at the Mainz Microtron accelerator MAMI / Result shows stronger than expected interaction between neutrons within the nucleus 👉 press.uni-mainz.de/new-method-

    #NuclearPhysics #ParticleAccelerator #hydrogen #spectrometer #nucleus #neutrons

  17. Production and measurement of the extremely heavy, neutron-rich hydrogen isotope ⁶H achieved for the first time in an electron scattering experiment at the Mainz Microtron accelerator MAMI / Result shows stronger than expected interaction between neutrons within the nucleus 👉 press.uni-mainz.de/new-method-

    #NuclearPhysics #ParticleAccelerator #hydrogen #spectrometer #nucleus #neutrons

  18. First coherent picture of atomic #nucleus made of quarks and gluons
    #Quarks and #gluons were used to describe properties of atomic nuclei, which until now had been explained by #protons and #neutrons.
    “Until now, there have been two parallel descriptions of atomic nuclei, one based on protons and neutrons which we can see at low energies, and another, for high energies, based on quarks and gluons" This work ""managed to bring these two so far separated worlds together"
    press.ifj.edu.pl/en/news/2024/

  19. First coherent picture of atomic #nucleus made of quarks and gluons
    #Quarks and #gluons were used to describe properties of atomic nuclei, which until now had been explained by #protons and #neutrons.
    “Until now, there have been two parallel descriptions of atomic nuclei, one based on protons and neutrons which we can see at low energies, and another, for high energies, based on quarks and gluons" This work ""managed to bring these two so far separated worlds together"
    press.ifj.edu.pl/en/news/2024/

  20. First coherent picture of atomic made of quarks and gluons
    and were used to describe properties of atomic nuclei, which until now had been explained by and .
    “Until now, there have been two parallel descriptions of atomic nuclei, one based on protons and neutrons which we can see at low energies, and another, for high energies, based on quarks and gluons" This work ""managed to bring these two so far separated worlds together"
    press.ifj.edu.pl/en/news/2024/

  21. First coherent picture of atomic #nucleus made of quarks and gluons
    #Quarks and #gluons were used to describe properties of atomic nuclei, which until now had been explained by #protons and #neutrons.
    “Until now, there have been two parallel descriptions of atomic nuclei, one based on protons and neutrons which we can see at low energies, and another, for high energies, based on quarks and gluons" This work ""managed to bring these two so far separated worlds together"
    press.ifj.edu.pl/en/news/2024/

  22. First coherent picture of atomic #nucleus made of quarks and gluons
    #Quarks and #gluons were used to describe properties of atomic nuclei, which until now had been explained by #protons and #neutrons.
    “Until now, there have been two parallel descriptions of atomic nuclei, one based on protons and neutrons which we can see at low energies, and another, for high energies, based on quarks and gluons" This work ""managed to bring these two so far separated worlds together"
    press.ifj.edu.pl/en/news/2024/

  23. Fascinating insights into the life of poly(A) #RNA subcellular fractions obtained in ESC mouse cells by metabolic labeling. Intriguing conclusion about the apparent long life of newly synthesized RNA in the nucleus.

    biorxiv.org/content/10.1101/20

    #molecularbiology #RNA #half-life #nucleus #cytoplasm