[Objectives] The aim was to study the type and content of alcohol-soluble active ingredients in Auricularia auricula. [Methods]With total yield of alcohol extract as an indicator,the optimal concentrations of ethanol,...[Objectives] The aim was to study the type and content of alcohol-soluble active ingredients in Auricularia auricula. [Methods]With total yield of alcohol extract as an indicator,the optimal concentrations of ethanol,isopropanol and n-butanol for alcohol extraction of A. auricula powder were determined. The contents of total flavonoids,polyphenols and triterpenoids in three different alcohol extracts of A. auricula,as well as in the alcohol extracts of polysaccharides and melanin extraction residue of A. auricula were determined. [Results] When90% ethanol was used,the yield of alcohol extract of A. auricula was 10. 7%. In the alcohol extract,the contents of total flavonoids,polyphenols and triterpenoids were 5. 68 mg/100 g,0. 43% and 0. 55%,respectively. When 100% isopropanol was used,the yield of alcohol extract was 10. 1%. In the alcohol extract,the contents of total flavonoids,polyphenols and triterpenoids were 4. 84 mg/100 g,0. 66% and 0. 37%,respectively. When 70% n-butanol was used,the yield of alcohol extract was 5. 4%. In the alcohol extract,the contents of total flavonoids,polyphenols and triterpenoids were 4. 07 mg/100 g,1. 68% and 0. 30%,respectively. The yields of ethanol,isopropanol and n-butanol extracts of polysaccharide and melanin extraction residue of A. auricula were 13. 8%,14. 3% and 8. 9%,respectively. In the three kinds of alcohol extracts,the contents of total flavonoids were 8. 28,11. 99,and 12. 38 mg/100 g,respectively; the contents of polyphenols were 0.14%,0. 38% and 0. 75%,respectively; and the contents of triterpenoids were 0. 25%,0. 60% and 0. 58%,respectively. [Conclusions]This study will provide certain reference for the in-depth study and development and utilization of active ingredients in A. auricula.展开更多
Optogenetics combines optics and genetic engineering to control specific gene expression and biological functions and has the advantages of precise spatiotemporal control,noninvasiveness,and high efficiency.Geneticall...Optogenetics combines optics and genetic engineering to control specific gene expression and biological functions and has the advantages of precise spatiotemporal control,noninvasiveness,and high efficiency.Genetically modified photosensory sensors are engineered into proteins to modulate conformational changes with light stimulation.Therefore,optogenetic techniques can provide new insights into oral biological processes at different levels,ranging from the subcellular and cellular levels to neural circuits and behavioral models.Here,we introduce the origins of optogenetics and highlight the recent progress of optogenetic approaches in oral and craniofacial research,focusing on the ability to apply optogenetics to the study of basic scientific neural mechanisms and to establish different oral behavioral test models in vivo(orofacial movement,licking,eating,and drinking),such as channelrhodopsin(ChR),archaerhodopsin(Arch),and halorhodopsin from Natronomonas pharaonis(NpHR).We also review the synergic and antagonistic effects of optogenetics in preclinical studies of trigeminal neuralgia and maxillofacial cellulitis.In addition,optogenetic tools have been used to control the neurogenic differentiation of dental pulp stem cells in translational studies.Although the scope of optogenetic tools is increasing,there are limited large animal experiments and clinical studies in dental research.Potential future directions include exploring therapeutic strategies for addressing loss of taste in patients with coronavirus disease 2019(COVID-19),studying oral bacterial biofilms,enhancing craniomaxillofacial and periodontal tissue regeneration,and elucidating the possible pathogenesis of dry sockets,xerostomia,and burning mouth syndrome.展开更多
Silk fibroin(SF)as a natural biopolymer has become a popular material for biomedical applications due to its minimal immunogenicity,tunable biodegradability,and high biocompatibility.Nowadays,various techniques have b...Silk fibroin(SF)as a natural biopolymer has become a popular material for biomedical applications due to its minimal immunogenicity,tunable biodegradability,and high biocompatibility.Nowadays,various techniques have been developed for the applications of SF in bioengineering.Most of the literature reviews focus on the SF-based biomaterials and their different forms of applications such as films,hydrogels,and scaffolds.SF is also valuable as a coating on other substrate materials for biomedicine;however,there are few reviews related to SF-coated biomaterials.Thus,in this review,we focused on the surface modification of biomaterials using SF coatings,demonstrated their various preparation methods on substrate materials,and introduced the latest procedures.The diverse applications of SF coatings for biomedicine are discussed,including bone,ligament,skin,mucosa,and nerve regeneration,and dental implant surface modification.SF coating is conducive to inducing cell adhesion and migration,promoting hydroxyapatite(HA)deposition and matrix mineralization,and inhibiting the Notch signaling pathway,making it a promising strategy for bone regeneration.In addition,SF-coated composite scaffolds can be considered prospective candidates for ligament regeneration after injury.SF coating has been proven to enhance the mechanical properties of the substrate material,and render integral stability to the dressing material during the regeneration of skin and mucosa.Moreover,SF coating is a potential strategy to accelerate nerve regeneration due to its dielectric properties,mechanical flexibility,and angiogenesis promotion effect.In addition,SF coating is an effective and popular means for dental implant surface modification to promote osteogenesis around implants made of different materials.Thus,this review can be of great benefit for further improvements in SF-coated biomaterials,and will undoubtedly contribute to clinical transformation in the future.展开更多
Europe and the United States are considered to be the leaders in the field of Library Science research.Their doctoral dissertations have an irreplaceable role for studying and tracking the development of Library Scien...Europe and the United States are considered to be the leaders in the field of Library Science research.Their doctoral dissertations have an irreplaceable role for studying and tracking the development of Library Science.In this study,3 973 doctoral dissertations in the database of PQDD from year1925 to 2013 are used as the research object.Keywords co-occurrence analysis and展开更多
基金Supported by Special Funds of Innovation Ability Promotion of Heilongjiang Scientific Research Institution(YC2015D002)Scientific Research Foundation of Heilongjiang Academy of Sciences(KY2018SW02)Funds for Harbin Applied Technology Research and Development(2016RAXYJ046)
文摘[Objectives] The aim was to study the type and content of alcohol-soluble active ingredients in Auricularia auricula. [Methods]With total yield of alcohol extract as an indicator,the optimal concentrations of ethanol,isopropanol and n-butanol for alcohol extraction of A. auricula powder were determined. The contents of total flavonoids,polyphenols and triterpenoids in three different alcohol extracts of A. auricula,as well as in the alcohol extracts of polysaccharides and melanin extraction residue of A. auricula were determined. [Results] When90% ethanol was used,the yield of alcohol extract of A. auricula was 10. 7%. In the alcohol extract,the contents of total flavonoids,polyphenols and triterpenoids were 5. 68 mg/100 g,0. 43% and 0. 55%,respectively. When 100% isopropanol was used,the yield of alcohol extract was 10. 1%. In the alcohol extract,the contents of total flavonoids,polyphenols and triterpenoids were 4. 84 mg/100 g,0. 66% and 0. 37%,respectively. When 70% n-butanol was used,the yield of alcohol extract was 5. 4%. In the alcohol extract,the contents of total flavonoids,polyphenols and triterpenoids were 4. 07 mg/100 g,1. 68% and 0. 30%,respectively. The yields of ethanol,isopropanol and n-butanol extracts of polysaccharide and melanin extraction residue of A. auricula were 13. 8%,14. 3% and 8. 9%,respectively. In the three kinds of alcohol extracts,the contents of total flavonoids were 8. 28,11. 99,and 12. 38 mg/100 g,respectively; the contents of polyphenols were 0.14%,0. 38% and 0. 75%,respectively; and the contents of triterpenoids were 0. 25%,0. 60% and 0. 58%,respectively. [Conclusions]This study will provide certain reference for the in-depth study and development and utilization of active ingredients in A. auricula.
基金supported by the National Natural Science Foundation of China(No.82370991)the Health Department of Zhejiang Province(Nos.2021KY194 and 2022KY872),China.
文摘Optogenetics combines optics and genetic engineering to control specific gene expression and biological functions and has the advantages of precise spatiotemporal control,noninvasiveness,and high efficiency.Genetically modified photosensory sensors are engineered into proteins to modulate conformational changes with light stimulation.Therefore,optogenetic techniques can provide new insights into oral biological processes at different levels,ranging from the subcellular and cellular levels to neural circuits and behavioral models.Here,we introduce the origins of optogenetics and highlight the recent progress of optogenetic approaches in oral and craniofacial research,focusing on the ability to apply optogenetics to the study of basic scientific neural mechanisms and to establish different oral behavioral test models in vivo(orofacial movement,licking,eating,and drinking),such as channelrhodopsin(ChR),archaerhodopsin(Arch),and halorhodopsin from Natronomonas pharaonis(NpHR).We also review the synergic and antagonistic effects of optogenetics in preclinical studies of trigeminal neuralgia and maxillofacial cellulitis.In addition,optogenetic tools have been used to control the neurogenic differentiation of dental pulp stem cells in translational studies.Although the scope of optogenetic tools is increasing,there are limited large animal experiments and clinical studies in dental research.Potential future directions include exploring therapeutic strategies for addressing loss of taste in patients with coronavirus disease 2019(COVID-19),studying oral bacterial biofilms,enhancing craniomaxillofacial and periodontal tissue regeneration,and elucidating the possible pathogenesis of dry sockets,xerostomia,and burning mouth syndrome.
基金supported by the National Natural Science Foundation of China (No.82101062)the Medical Health Science and Technology Project of Zhejiang Provincial Health Commission (No.2023KY132)the Zhejiang Provincial Key Research and Development Program of China (No.2021C03113).
文摘Silk fibroin(SF)as a natural biopolymer has become a popular material for biomedical applications due to its minimal immunogenicity,tunable biodegradability,and high biocompatibility.Nowadays,various techniques have been developed for the applications of SF in bioengineering.Most of the literature reviews focus on the SF-based biomaterials and their different forms of applications such as films,hydrogels,and scaffolds.SF is also valuable as a coating on other substrate materials for biomedicine;however,there are few reviews related to SF-coated biomaterials.Thus,in this review,we focused on the surface modification of biomaterials using SF coatings,demonstrated their various preparation methods on substrate materials,and introduced the latest procedures.The diverse applications of SF coatings for biomedicine are discussed,including bone,ligament,skin,mucosa,and nerve regeneration,and dental implant surface modification.SF coating is conducive to inducing cell adhesion and migration,promoting hydroxyapatite(HA)deposition and matrix mineralization,and inhibiting the Notch signaling pathway,making it a promising strategy for bone regeneration.In addition,SF-coated composite scaffolds can be considered prospective candidates for ligament regeneration after injury.SF coating has been proven to enhance the mechanical properties of the substrate material,and render integral stability to the dressing material during the regeneration of skin and mucosa.Moreover,SF coating is a potential strategy to accelerate nerve regeneration due to its dielectric properties,mechanical flexibility,and angiogenesis promotion effect.In addition,SF coating is an effective and popular means for dental implant surface modification to promote osteogenesis around implants made of different materials.Thus,this review can be of great benefit for further improvements in SF-coated biomaterials,and will undoubtedly contribute to clinical transformation in the future.
文摘Europe and the United States are considered to be the leaders in the field of Library Science research.Their doctoral dissertations have an irreplaceable role for studying and tracking the development of Library Science.In this study,3 973 doctoral dissertations in the database of PQDD from year1925 to 2013 are used as the research object.Keywords co-occurrence analysis and
