LIVIVO - Das Suchportal für Lebenswissenschaften

switch to English language
Zurück zum Suchergebnis Zurück zur letzten Suche Suchhistorie
Erweiterte Suche

Ihre letzten Suchen

  1. AU="Julian Heuer" AU="Julian Heuer"
  2. AU=Wang Mo
  3. AU="Smetana, Jiří"
  4. AU="Pires, Flávio Oliveira"
  5. AU="Rodrigues Bezerra, Suieny"
  6. AU="Zhang, Jinhe"
  7. AU=Cruz Juan
  8. AU="Conte, Celeste"
  9. AU="Anjume, Humaira"
  10. AU="Shunji Shiota"
  11. AU="Gaurisha Gupta"
  12. AU="Nnamani, Mauris C"
  13. AU="Wang, Daorong"
  14. AU="Peng, Huakang"
  15. AU="Soderquest, Katrina"
  16. AU="Da Cruz ESilva, C Beirão"
  17. AU="Khan-Chowdhury, N R"
  18. AU="Bartelt-Hunt, Shannon"
  19. AU=Singh Gurvinder Pal
  20. AU="Chighine, Alberto"

Suchergebnis

Treffer 1 - 1 von insgesamt 1

Suchoptionen

Artikel ; Online: Dipeptide coacervates as artificial membraneless organelles for bioorthogonal catalysis

Shoupeng Cao / Tsvetomir Ivanov / Julian Heuer / Calum T. J. Ferguson / Katharina Landfester / Lucas Caire da Silva

Nature Communications, Vol 15, Iss 1, Pp 1-

2024  Band 14

Abstract: Abstract Artificial organelles can manipulate cellular functions and introduce non-biological processes into cells. Coacervate droplets have emerged as a close analog of membraneless cellular organelles. Their biomimetic properties, such as molecular ... ...

Abstract Abstract Artificial organelles can manipulate cellular functions and introduce non-biological processes into cells. Coacervate droplets have emerged as a close analog of membraneless cellular organelles. Their biomimetic properties, such as molecular crowding and selective partitioning, make them promising components for designing cell-like materials. However, their use as artificial organelles has been limited by their complex molecular structure, limited control over internal microenvironment properties, and inherent colloidal instability. Here we report the design of dipeptide coacervates that exhibit enhanced stability, biocompatibility, and a hydrophobic microenvironment. The hydrophobic character facilitates the encapsulation of hydrophobic species, including transition metal-based catalysts, enhancing their efficiency in aqueous environments. Dipeptide coacervates carrying a metal-based catalyst are incorporated as active artificial organelles in cells and trigger an internal non-biological chemical reaction. The development of coacervates with a hydrophobic microenvironment opens an alternative avenue in the field of biomimetic materials with applications in catalysis and synthetic biology.
Schlagwörter Science ; Q
Thema/Rubrik (Code) 540
Sprache Englisch
Erscheinungsdatum 2024-01-01T00:00:00Z
Verlag Nature Portfolio
Dokumenttyp Artikel ; Online
Datenquelle BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

Volltext online

Zusatzmaterialien

Kategorien

Fernleihe an ZB MED

Sie können sich den gewünschten Titel als lokale Nutzerin oder lokaler Nutzer von ZB MED direkt an den Standort Köln schicken lassen.

Zum Seitenanfang