Title |
Aryl hydrocarbon receptor-dependent and -independent pathways mediate curcumin anti-aging effects / Vanessa Brinkmann, Margherita Romeo, Lucie Larigot, Anne Hemmers, Lisa Tschage, Jennifer Kleinjohann, Alfonso Schiavi, Swantje Steinwachs, Charlotte Esser, Ralph Menzel, Sara Giani Tagliabue, Laura Bonati, Fiona Cox, Niloofar Ale-Agha, Philipp Jakobs, Joachim Altschmied, Judith Haendeler, Xavier Coumoul, Natascia Ventura |
|---|---|
Involved |
Vanessa Brinkmann (Verfasser)
Margherita Romeo (Verfasser) Lucie Larigot (Verfasser) Anne Hemmers (Verfasser)
Lisa Tschage (Verfasser)
Jennifer Kleinjohann (Verfasser) Alfonso Schiavi (Verfasser) Swantje Steinwachs (Verfasser) Charlotte Esser (Verfasser) Ralph Menzel (Verfasser) Sara Giani Tagliabue (Verfasser) Laura Bonati (Verfasser) Fiona Cox (Verfasser) Niloofar Ale-Agha (Verfasser) Philipp Jakobs (Verfasser) Joachim Altschmied (Verfasser) Judith Haendeler (Verfasser) Xavier Coumoul (Verfasser) Natascia Ventura (Verfasser) |
Published |
Frankfurt am Main: Universitätsbibliothek Johann Christian Senckenberg |
Extent |
Online-Ressource |
Language |
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Country |
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Topic |
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Subject |
aryl hydrocarbon receptor
curcumin oxidative stress Caenorhabditis elegans
mice
endothelial cells in vivo in vitro in silico |
DDC notation |
|
Persistent identifier |
urn:nbn:de:hebis:30:3-844258 (URN) |
Further information |
In: Antioxidants, 11.2022, 4, art. 613, S. 1-30 |
Record ID |
1334272530 |
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