28 research outputs found

    Ecological features of Tricholoma anatolicum in Turkey

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    Tricholoma anatolicum H.H. Doğan & Intini was first published as a new species in 2003, and it is known as “Katran Mantarı” in Turkey. It has great importance in trading and is also exported to Japan. However, there is no extensive information on its ecological status. To reveal its features of ecological status, we studied eight different places in Turkey in the years of 2005 and 2009. According to our results, this species makes an ectomycorrhizal association with Cedrus libani trees. The distribution area of the species is Taurus Mountain between 1,400 and 1,700 m elevations from the Mediterranean region. The morphological features of the species are closer to Tricholoma magnivelare (Peck) Redhead than the other members of Matsutake group. Its characteristic features are white to cream-coloured fruiting body, a special odour like tar, different aroma and cyanophilic spores. In general, it grows on well-drained and infertile sandy soil in C. libani forests, which are more than 25 years old. The fruiting period is from October to November and also grows in Mediterranean climate type.Key words: Ectomycorrhizal fungi, Matsutake group, Mediterranean region, Tricholoma anatolicum, Turkey

    Pluronic F-127 hydrogel as a promising scaffold for encapsulation of dental-derived mesenchymal stem cells

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    Dental-derived mesenchymal stem cells (MSCs) provide an advantageous therapeutic option for tissue engineering due to their high accessibility and bioavailability. However, delivering MSCs to defect sites while maintaining a high MSC survival rate is still a critical challenge in MSC-mediated tissue regeneration. Here, we tested the osteogenic and adipogenic differentiation capacity of dental pulp stem cells (DPSCs) in a thermoreversible Pluronic F127 hydrogel scaffold encapsulation system in vitro. DPSCs were encapsulated in Pluronic(®) F-127 hydrogel and stem cell viability, proliferation and differentiation into adipogenic and osteogenic tissues were evaluated. The degradation profile and swelling kinetics of the hydrogel were also analyzed. Our results confirmed that Pluronic F-127 is a promising and non-toxic scaffold for encapsulation of DPSCs as well as control human bone marrow MSCs (hBMMSCs), yielding high stem cell viability and proliferation. Moreover, after 2 weeks of differentiation in vitro, DPSCs as well as hBMMSCs exhibited high levels of mRNA expression for osteogenic and adipogenic gene markers via PCR analysis. Our histochemical staining further confirmed the ability of Pluronic F-127 to direct the differentiation of these stem cells into osteogenic and adipogenic tissues. Furthermore, our results revealed that Pluronic F-127 has a dense tubular and reticular network morphology, which contributes to its high permeability and solubility, consistent with its high degradability in the tested conditions. Altogether, our findings demonstrate that Pluronic F-127 is a promising scaffold for encapsulation of DPSCs and can be considered for cell delivery purposes in tissue engineering

    Foregut caustic injuries: results of the world society of emergency surgery consensus conference

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