WoS İndeksli Yayınlar Koleksiyonu / WoS Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7150
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Article Nagaoka Ferromagnetism in Semiconductor Artificial Graphene(IOP Publishing Ltd, 2026) Oztarhan, Gokhan; Potasz, Pawel; Guclu, A. D.We present the emergence of Nagaoka ferromagnetism in semiconductor-based artificial graphene with realistic Coulomb interaction using high-precision variational and diffusion Monte Carlo methods, complemented by exact diagonalization calculations of the generalized Hubbard model. We analyze models of armchair hexagonal geometries nanopatterned on GaAs quantum wells. Our results reveal a distinct magnetic phase transition driven by the absence/addition of a single electron at half-filling. This form of itinerant magnetism, predicted rigorously for the Hubbard model, remained unascertained in large scale realistic systems. We demonstrate that Coulomb scattering terms play a crucial role in stabilizing Nagaoka ferromagnetism, enabling the observation of the phase transition for system parameters near U/t approximate to 60.Article Subtype-Specific Divergent Roles of Calpain-1 and Calpain-2 in Basal a Triple-Negative Breast Cancer(BMC, 2025) Uner, Goklem; Oztarhan, Gokhan; Kirmizibayrak, Petek BallarBackgroundCAPN-1 and CAPN-2, two ubiquitously expressed calpains, have been implicated in cancer progression, but their distinct roles in breast cancer remain poorly defined. This study aims to define the opposing roles of CAPN-1 and CAPN-2 in breast cancer progression, with a focus on their regulatory impact on cell proliferation. Since these calpains may have different functions in the mammary gland, we aimed to investigate the possible antagonistic roles of CAPN-1 and CAPN-2 in breast cancer progression, focusing on their expression patterns and functional impact on cell proliferation.Methods and resultsWe analyzed breast cancer cell lines using immunoblotting and real-time cellular assays, showing that HCC1937 cells exhibit an opposite expression pattern of CAPN-1 and CAPN-2 compared to non-cancerous breast cells. CAPN-1 promoted cancer cell survival and negatively regulated CAPN-2 at both the protein and mRNA levels, whereas CAPN-2 suppressed proliferation. Additionally, the calpain activator AG-08 triggered cell death through CAPN-2 but not CAPN-1. In silico analysis confirmed higher CAPN-1 and lower CAPN-2 expression levels in breast cancer samples compared to normal tissue.ConclusionsThese findings indicate that CAPN-1 and CAPN-2 may exert antagonistic roles in breast cancer, but importantly, this effect was restricted to HCC1937 cells, representing a basal A TNBC subtype. Validation in additional basal A models and patient-derived samples will be essential to confirm these results. Our study, therefore, provides preliminary, model-specific insights into calpain regulation in TNBC and suggests that future therapeutic strategies should carefully account for subtype heterogeneity.