Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7148
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Article Citation - WoS: 3Citation - Scopus: 3“He Is Just Ken:” Deconstructing Hegemonic Masculinity in Barbie (2023 Movie)(Frontiers Media SA, 2024) Yakalı, D.Scholars have consistently explored Barbie in various contexts, often subjecting it to critical analysis. However, the release of the Barbie 2023 Movie has shifted our focus from Barbie to Ken, marking the first occasion when Barbie has provided a platform for exploring representations of masculinity both in the patriarchal society and in popular culture. This article aims to investigate how the 2023 Barbie movie deconstructs symbols of hegemonic and toxic masculinity and its performative aspects within the framework of (post)feminist discourse. It examines how the movie satirically employs symbols of traditional, hegemonic masculinity to challenge normative masculine ideals prevalent in our patriarchal society. The movie -through its popularity- significantly contributes to mainstream postfeminist media culture, creating a platform where discussions on masculinity, its associated crises, and the broader gender wars, along with their existential ramifications, become unavoidable. Exploring the ways masculinities are problematized and contested within postfeminist media culture, I argue that Ken, within this narrative, is positioned as the latest icon of postfeminist masculinity, symbolizing a critical juncture in the ongoing discourse on gender roles and identities. Copyright © 2024 Yakalı.Article Citation - WoS: 12Citation - Scopus: 12Sucrose-Induced Hyperglycemia Dysregulates Intestinal Zinc Metabolism and Integrity: Risk Factors for Chronic Diseases(Frontiers Media SA, 2023) Mitchell, S.B.; Hung, Y.-H.; Thorn, T.L.; Zou, J.; Baser, F.; Güleç, S.; Aydemir, T.B.Objective: Zinc is an essential micronutrient that is critical for many physiological processes, including glucose metabolism, regulation of inflammation, and intestinal barrier function. Further, zinc dysregulation is associated with an increased risk of chronic inflammatory diseases such as type II diabetes, obesity, and inflammatory bowel disease. However, whether altered zinc status is a symptom or cause of disease onset remains unclear. Common symptoms of these three chronic diseases include the onset of increased intestinal permeability and zinc dyshomeostasis. The specific focus of this work is to investigate how dietary sources of intestinal permeability, such as high sucrose consumption, impact transporter-mediated zinc homeostasis and subsequent zinc-dependent physiology contributing to disease development. Method: We used in vivo subchronic sucrose treatment, ex vivo intestinal organoid culture, and in vitro cell systems. We analyze the alterations in zinc metabolism and intestinal permeability and metabolic outcomes. Results: We found that subchronic sucrose treatment resulted in systemic changes in steady-state zinc distribution and increased 65Zn transport (blood-to-intestine) along with greater ZIP14 expression at the basolateral membrane of the intestine. Further, sucrose treatment enhanced cell survival of intestinal epithelial cells, activation of the EGFR-AKT-STAT3 pathway, and intestinal permeability. Conclusion: Our work suggests that subchronic high sucrose consumption alters systemic and intestinal zinc homeostasis linking diet-induced changes in zinc homeostasis to the intestinal permeability and onset of precursors for chronic disease. Copyright © 2023 Mitchell, Hung, Thorn, Zou, Baser, Gulec, Cheung and Aydemir.