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#plasmodesmata — Public Fediverse posts

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

  1. Is your Monday being *extra* Monday-ish?
    Would some free #PlantScience help?
    Then we've got good news for you!

    Find out how α1-COP modulates #plasmodesmata function in this new #JIPB paper by Iswanto et al.
    🔓⬇️
    doi.org/10.1111/jipb.13711
    @wileyplantsci
    #Arabidopsis #sphingolipid #desmotubule #botany #OpenAccess

  2. Is your Monday being *extra* Monday-ish?
    Would some free #PlantScience help?
    Then we've got good news for you!

    Find out how α1-COP modulates #plasmodesmata function in this new #JIPB paper by Iswanto et al.
    🔓⬇️
    doi.org/10.1111/jipb.13711
    @wileyplantsci
    #Arabidopsis #sphingolipid #desmotubule #botany #OpenAccess

  3. Is your Monday being *extra* Monday-ish?
    Would some free #PlantScience help?
    Then we've got good news for you!

    Find out how α1-COP modulates #plasmodesmata function in this new #JIPB paper by Iswanto et al.
    🔓⬇️
    doi.org/10.1111/jipb.13711
    @wileyplantsci
    #Arabidopsis #sphingolipid #desmotubule #botany #OpenAccess

  4. Is your Monday being *extra* Monday-ish?
    Would some free #PlantScience help?
    Then we've got good news for you!

    Find out how α1-COP modulates #plasmodesmata function in this new #JIPB paper by Iswanto et al.
    🔓⬇️
    doi.org/10.1111/jipb.13711
    @wileyplantsci
    #Arabidopsis #sphingolipid #desmotubule #botany #OpenAccess

  5. #Plant cells produce #plasmodesmata, tiny tubes that act as communication channels, allowing those signals to move from cell to cell. The plasmodesmata will open and close in response to various signals that activate protein regulators such as #PDLP5.
    #Biology #sflorg
    sflorg.com/2023/10/bio10242301

  6. #Plant cells produce #plasmodesmata, tiny tubes that act as communication channels, allowing those signals to move from cell to cell. The plasmodesmata will open and close in response to various signals that activate protein regulators such as #PDLP5.
    #Biology #sflorg
    sflorg.com/2023/10/bio10242301

  7. #Plant cells produce #plasmodesmata, tiny tubes that act as communication channels, allowing those signals to move from cell to cell. The plasmodesmata will open and close in response to various signals that activate protein regulators such as #PDLP5.
    #Biology #sflorg
    sflorg.com/2023/10/bio10242301

  8. #Plant cells produce #plasmodesmata, tiny tubes that act as communication channels, allowing those signals to move from cell to cell. The plasmodesmata will open and close in response to various signals that activate protein regulators such as #PDLP5.
    #Biology #sflorg
    sflorg.com/2023/10/bio10242301

  9. #Plant cells produce #plasmodesmata, tiny tubes that act as communication channels, allowing those signals to move from cell to cell. The plasmodesmata will open and close in response to various signals that activate protein regulators such as #PDLP5.
    #Biology #sflorg
    sflorg.com/2023/10/bio10242301

  10. Movement proteins enable cell-to-cell transfer of #plant RNA & DNA viruses via #plasmodesmata. @Butkovic_A @mkrupovic &co show that 30K movement proteins originated from #virus #JellyRoll capsid proteins, emphasizing the key role of exaptation #PLOSBiology plos.io/3NxGsBX

  11. Movement proteins enable cell-to-cell transfer of #plant RNA & DNA viruses via #plasmodesmata. @Butkovic_A @mkrupovic &co show that 30K movement proteins originated from #virus #JellyRoll capsid proteins, emphasizing the key role of exaptation #PLOSBiology plos.io/3NxGsBX

  12. Movement proteins enable cell-to-cell transfer of #plant RNA & DNA viruses via #plasmodesmata. @Butkovic_A @mkrupovic &co show that 30K movement proteins originated from #virus #JellyRoll capsid proteins, emphasizing the key role of exaptation #PLOSBiology plos.io/3NxGsBX

  13. Movement proteins enable cell-to-cell transfer of #plant RNA & DNA viruses via #plasmodesmata. @Butkovic_A @mkrupovic &co show that 30K movement proteins originated from #virus #JellyRoll capsid proteins, emphasizing the key role of exaptation #PLOSBiology plos.io/3NxGsBX

  14. Movement proteins enable cell-to-cell transfer of #plant RNA & DNA viruses via #plasmodesmata. @Butkovic_A @mkrupovic &co show that 30K movement proteins originated from #virus #JellyRoll capsid proteins, emphasizing the key role of exaptation #PLOSBiology plos.io/3NxGsBX

  15. We are looking for a postdoc helping us to unravel #Plasmodesmata trafficking and composition @HHU

  16. We are looking for a postdoc helping us to unravel #Plasmodesmata trafficking and composition @HHU