The skin is a formidable physical and biological barrier which communicates continuously with the outside of the body. And the stratum corneum, the outermost layer of human epidermis, plays a central role in the inter...The skin is a formidable physical and biological barrier which communicates continuously with the outside of the body. And the stratum corneum, the outermost layer of human epidermis, plays a central role in the interaction between the cutaneous tissue and the external environment. The horny layer, and more generally the whole skin layers, avoid the penetration of harmful exogenous agents, produce molecules named anti-microbial peptides which impact the composition of the cutaneous microbiota, regulate the internal corporal temperature, avoid the water loss from the inside of the body and constitute an incredible efficient anti-oxidant network. Nevertheless, nowadays, the skin is more and more solicited by the different elements of the cutaneous exposome, including atmospheric pollution and solar radiations, which can cause a dramatic acceleration of the skin ageing process. As a consequence, due to the multifunctional protective role of the skin, during the recent decade the cosmetic industry invested massively in the development of new raw materials and end-products (dermo-cosmetics) able to preserve an optimal state of the skin regarding the external environment. Based on their physical-chemical properties thermal spring waters, which are extremely rich in inorganics ions, are interesting and powerful candidates to be part, as integral component, of new efficient dermo-cosmetic formulations dedicated to protect the skin from the external stimuli. The aim of the present work was to investigate and characterize the activity of Jonzac thermal spring water on the skin. Using different models, we proved for the first time that Jonzac thermal spring water reinforces the barrier function of the skin by modulating the expression of key markers including filaggrin and human beta defensin 2 on ex vivo human skin. The ex vivo and in vivo hydration activity, by Raman spectroscopy and corneometry respectively, has been also demonstrated. We have also shown that Jonzac thermal spring water ameliorates significantly the cutaneous microrelief in vivo. To conclude, we characterize the soothing effect of Jonzac thermal spring water by the analysis of histamine release in Substance P treated skin explants and by measuring the redness of the skin following UV exposure of the skin in vivo. We observed that both parameters decreased following a preventive treatment of the skin with Jonzac thermal spring water. Taken together our results indicate that Jonzac thermal spring water is a promising and powerful dermo-cosmetic which can be used to preserve an optimal state of the cutaneous tissue.展开更多
Many industrial processes may quickly proceed with biotechnological and enzymatic support.Functional and production facilitator properties of enzymes have provided variable advantages for industry.Therefore,enzyme uti...Many industrial processes may quickly proceed with biotechnological and enzymatic support.Functional and production facilitator properties of enzymes have provided variable advantages for industry.Therefore,enzyme utilization has become inevitable for industry and supplied financial advantages in case of the high energy requirement process.In the study,the amylase enzymes were isolated from thermal spring sources,and the effect on bread quality was examined.Firstly,fungal amylases were isolated from thermal spring sources(29-98◦C)in various places around Turkey.After determining the functional properties of amylase enzymes,the most active enzyme was used in bread production to examine their effect on bread quality.The maximum alpha-amylase activity(38.6 U/mg)has been detected in Aspergillus niger G 2-1 isolate.When compared with the commercially available one,native alpha-amylase increased the bread volume.A significant difference(p<0.01)was found in the color properties and size of the bread between microbial produced in this study and commercially produced alpha-amylase.Five ppm alpha-amylase addition showed the optimum bread properties for dough processing.展开更多
文摘The skin is a formidable physical and biological barrier which communicates continuously with the outside of the body. And the stratum corneum, the outermost layer of human epidermis, plays a central role in the interaction between the cutaneous tissue and the external environment. The horny layer, and more generally the whole skin layers, avoid the penetration of harmful exogenous agents, produce molecules named anti-microbial peptides which impact the composition of the cutaneous microbiota, regulate the internal corporal temperature, avoid the water loss from the inside of the body and constitute an incredible efficient anti-oxidant network. Nevertheless, nowadays, the skin is more and more solicited by the different elements of the cutaneous exposome, including atmospheric pollution and solar radiations, which can cause a dramatic acceleration of the skin ageing process. As a consequence, due to the multifunctional protective role of the skin, during the recent decade the cosmetic industry invested massively in the development of new raw materials and end-products (dermo-cosmetics) able to preserve an optimal state of the skin regarding the external environment. Based on their physical-chemical properties thermal spring waters, which are extremely rich in inorganics ions, are interesting and powerful candidates to be part, as integral component, of new efficient dermo-cosmetic formulations dedicated to protect the skin from the external stimuli. The aim of the present work was to investigate and characterize the activity of Jonzac thermal spring water on the skin. Using different models, we proved for the first time that Jonzac thermal spring water reinforces the barrier function of the skin by modulating the expression of key markers including filaggrin and human beta defensin 2 on ex vivo human skin. The ex vivo and in vivo hydration activity, by Raman spectroscopy and corneometry respectively, has been also demonstrated. We have also shown that Jonzac thermal spring water ameliorates significantly the cutaneous microrelief in vivo. To conclude, we characterize the soothing effect of Jonzac thermal spring water by the analysis of histamine release in Substance P treated skin explants and by measuring the redness of the skin following UV exposure of the skin in vivo. We observed that both parameters decreased following a preventive treatment of the skin with Jonzac thermal spring water. Taken together our results indicate that Jonzac thermal spring water is a promising and powerful dermo-cosmetic which can be used to preserve an optimal state of the cutaneous tissue.
基金the General Directorate of Agricultural Research and Policies for supporting the project“Investigation of Using Potential of Thermal Sourced Native Fungal Alpha Amylase Enzyme in Improving Bread Quality Using Biotechnological Processes”numbered with TAGEM/HSGYAD/16/A05/P01/103.
文摘Many industrial processes may quickly proceed with biotechnological and enzymatic support.Functional and production facilitator properties of enzymes have provided variable advantages for industry.Therefore,enzyme utilization has become inevitable for industry and supplied financial advantages in case of the high energy requirement process.In the study,the amylase enzymes were isolated from thermal spring sources,and the effect on bread quality was examined.Firstly,fungal amylases were isolated from thermal spring sources(29-98◦C)in various places around Turkey.After determining the functional properties of amylase enzymes,the most active enzyme was used in bread production to examine their effect on bread quality.The maximum alpha-amylase activity(38.6 U/mg)has been detected in Aspergillus niger G 2-1 isolate.When compared with the commercially available one,native alpha-amylase increased the bread volume.A significant difference(p<0.01)was found in the color properties and size of the bread between microbial produced in this study and commercially produced alpha-amylase.Five ppm alpha-amylase addition showed the optimum bread properties for dough processing.