Matryoshka Phonon Twinning in alpha-GaN

Understanding lattice dynamics is crucial for effective thermal management in high-power electronic devices because phonons dominate thermal transport in most semiconductors. This study utilizes complementary inelastic X-ray and neutron scattering techniques and reports the temperature-dependent phonon dynamics of alpha-GaN, one of the most important third-generation power semiconductors. A prominent Matryoshka phonon dispersion is discovered with the scattering tools and confirmed by the first-principles calculations. Such Matryoshka twinning throughout the three-dimension reciprocal space is demonstrated to amplify the anharmonicity of the related phonon modes through creating abundant three-phonon scattering channels and cutting the phonon lifetime of affected modes by more than 50%. Such phonon topology effectively contributes to the reduction of the in-plane thermal transport, thus the anisotropic thermal conductivity of alpha-GaN. The results not only have significant implications for engineering the thermal performance and other phonon-related properties of alpha-GaN, but also offer valuable insights on the role of anomalous phonon topology in thermal transport of other technically important semiconductors.Comment: 34 pages, 15 figure

Atomic structures of Coxsackievirus A6 and its complex with a neutralizing antibody

手足口病是一种由人肠道病毒引起的全球性传染病，主要发生于5岁以下的婴幼儿，严重危害公众健康。根据获得的手足口病流行病学和病原学调查数据，目前认为CVA6与EV71和CVA16一样应作为优先的手足口病疫苗预防对象，亟需研制有效的预防和治疗方法。然而令人遗憾的是，目前对于CVA6的基础病毒学特别是结构生物学知识均缺乏足够了解，严重制约了相关研究的有效开展。 夏宁邵教授团队研究首次揭示了手足口病重要病原体柯萨奇病毒A组6型（CVA6）的病毒颗粒及其与中和抗体复合物的精确三维结构，为新型疫苗和治疗药物的研制提供了重要的理论基础。这项研究发现并精确描绘了CVA6的病毒颗粒及其与优势中和抗体的结构特征，首次完成了对CVA6的高精度“成像”，为新型疫苗和治疗药物研制提供了关键基础。 该研究工作在厦门大学分子疫苗学和分子诊断学国家重点实验室、国家传染病诊断试剂与疫苗工程技术研究中心科研平台完成。夏宁邵教授、颜晓东博士、程通副教授为该研究论文的共同通讯作者。颜晓东博士来自美国加州大学圣地亚哥分校，同时受聘为我校双聘教授。共同第一作者为徐龙发博士生、郑清炳工程师和李少伟教授。【Abstract】Coxsackievirus A6 (CVA6) has recently emerged as a major cause of hand, foot and mouth disease in children worldwide but no vaccine is available against CVA6 infections. Here, we demonstrate the isolation of two forms of stable CVA6 particles-procapsid and A-particle-with excellent biochemical stability and natural antigenicity to serve as vaccine candidates. Despite the presence (in A-particle) or absence (in procapsid) of capsid-RNA interactions, the two CVA6 particles have essentially identical atomic capsid structures resembling the uncoating intermediates of other enteroviruses. Our near-atomic resolution structure of CVA6 A-particle complexed with a neutralizing antibody maps an immune-dominant neutralizing epitope to the surface loops of VP1. The structure-guided cell-based inhibition studies further demonstrate that these loops could serve as excellent targets for designing anti-CVA6 vaccines.This work was supported by a grant from the National Natural Science Foundation of China (No. 31670933 and 81401669), the National Science and Technology Major Projects for Major New Drugs Innovation and Development (No. 2017ZX09101005-005-003), the National Science and Technology Major Project of Infectious Diseases (No. 2017ZX10304402-002-003) and the Natural Science Foundation of Fujian Province (No. 2015J05073). This work was also supported in part by funding to T.S.B. from the National Institutes of Health (Grant R37-GM33050). 研究工作也得到了国际病毒结构生物学权威专家美国加州大学洛杉矶分校周正洪教授的大力支持和帮助，获得了国家自然科学基金、新药创制国家科技重大专项、传染病防治国家科技重大专项和福建省自然科学基金的资助

Internet international marketing in the tourism industry : strategies for the survival of travel agents in Singapore

This paper recognizes the weakening power of the Singapore travel agents given the increasing penetration of the internet – where travel agents can be bypassed easily causing the shift in power to consumers. Thus, there is an increasing need for travel agents to strategize to retain and increase their consumer base. With that in mind, a survey and three-stage focus group were conducted to collect information, hence allowing us to derive segments (e.g. Value, Product, Brand Conscious segments), whom travel agents can choose to target. This paper will detail the travel process of the consumer based on their selection and enjoyableness criteria, and provide recommendations based on the extended marketing mix. The paper establishes criteria that different segments look for in their travel purchase, and these specific criteria is what travel agents should pay attention to when deciding who to target.BUSINES

Mesoporous bioactive glass nanoparticles with biomineralization activity for surgical hemorrhage control

ABSTRACT Bioactive glass nanoparticles (BGNs) are good bioactive materials for clinical treatment because of their unique composition and silica-oxygen network structure. Herein, we designed and reported a monodisperse mesoporous bioactive glass nanoparticle with biomineralization activity for surgical hemorrhage control. The results indicated that the BGNs have excellent biomineralization ability. In vivo and in vitro hemostasis studies suggested that BGNs have superior hemostatic properties to GZ (gauze) and GS (commercial gelatin sponge) and validated in vitro thrombosis, platelet adhesion, cytocompatibility and blood compatibility. The particles activated both endogenous and exogenous physiological coagulation pathways and could activate platelets and release Ca2+ to participate in the clotting pathway. Besides, the BGNs have good biocompatibility in vivo. These findings demonstrated that the potential of small diameter mesoporous bioactive glass nanoparticles is likely useful for bleeding control as potential hemostatic agents

Atomic structures of Coxsackievirus A6 and its complex with a neutralizing antibody.

Coxsackievirus A6 (CVA6) has recently emerged as a major cause of hand, foot and mouth disease in children worldwide but no vaccine is available against CVA6 infections. Here, we demonstrate the isolation of two forms of stable CVA6 particles-procapsid and A-particle-with excellent biochemical stability and natural antigenicity to serve as vaccine candidates. Despite the presence (in A-particle) or absence (in procapsid) of capsid-RNA interactions, the two CVA6 particles have essentially identical atomic capsid structures resembling the uncoating intermediates of other enteroviruses. Our near-atomic resolution structure of CVA6 A-particle complexed with a neutralizing antibody maps an immune-dominant neutralizing epitope to the surface loops of VP1. The structure-guided cell-based inhibition studies further demonstrate that these loops could serve as excellent targets for designing anti-CVA6 vaccines.Coxsackievirus A6 (CVA6) causes hand, foot and mouth disease in children. Here the authors present the CVA6 procapsid and A-particle cryo-EM structures and identify an immune-dominant neutralizing epitope, which can be exploited for vaccine development

Atomic structures of Coxsackievirus A6 and its complex with a neutralizing antibody

Coxsackievirus A6 (CVA6) causes hand, foot and mouth disease in children. Here the authors present the CVA6 procapsid and A-particle cryo-EM structures and identify an immune-dominant neutralizing epitope, which can be exploited for vaccine development

The C-Terminal Arm of the Human Papillomavirus Major Capsid Protein Is Immunogenic and Involved in Virus-Host Interaction.

Cervical cancer is the second most prevalent malignant tumor among women worldwide. High-risk human papillomaviruses (HPVs) are believed to be the major causative pathogens of mucosal epithelial cancers including cervical cancer. The HPV capsid is made up of 360 copies of major (L1) and 72 copies of minor (L2) capsid proteins. To date, limited high-resolution structural information about the HPV capsid has hindered attempts to understand details concerning the mechanisms by which HPV assembles and infects cells. In this study, we have constructed a pseudo-atomic model of the HPV59 L1-only capsid and demonstrate that the C-terminal arm of L1 participates in virus-host interactions. Moreover, when conjugated to a scaffold protein, keyhole limpet hemocyanin (KLH), this arm is immunogenic in vivo. These results provide new insights that will help elucidate HPV biology, and hence pave a way for the design of next-generation HPV vaccines

The C-Terminal Arm of the Human Papillomavirus Major Capsid Protein Is Immunogenic and Involved in Virus-Host Interaction.

Cervical cancer is the second most prevalent malignant tumor among women worldwide. High-risk human papillomaviruses (HPVs) are believed to be the major causative pathogens of mucosal epithelial cancers including cervical cancer. The HPV capsid is made up of 360 copies of major (L1) and 72 copies of minor (L2) capsid proteins. To date, limited high-resolution structural information about the HPV capsid has hindered attempts to understand details concerning the mechanisms by which HPV assembles and infects cells. In this study, we have constructed a pseudo-atomic model of the HPV59 L1-only capsid and demonstrate that the C-terminal arm of L1 participates in virus-host interactions. Moreover, when conjugated to a scaffold protein, keyhole limpet hemocyanin (KLH), this arm is immunogenic in vivo. These results provide new insights that will help elucidate HPV biology, and hence pave a way for the design of next-generation HPV vaccines