Chinese Engineering Students' Cross-cultural Adaptation in Graduate School.

This study explores cross-cultural adaptation experience of Chinese engineering students in the U.S. I interact with 10 Chinese doctoral students in engineering from a public research university through in-depth interviews to describe 1) their perceptions of and responses to key challenges they encountered in graduate school, 2) their perspectives on the challenges that stem from cross-cultural differences, and 3) their conceptualization of cross-cultural adaptation in the context of graduate school. My findings reveal that the major challenges participants encounter during graduate school are academic issues related to cultural differences and difficulties of crossing cultural boundaries and integrating into the university community. These challenges include finding motivation for doctoral study, becoming an independent learner, building a close relationship with faculty, interacting and forming relationships with American people, and gaining social recognition and support. The engineering students in this study believe they are less successful in their social integration than they are in accomplishing academic goals, mainly because of their preoccupation with academics, language barriers and cultural differences. The presence of a large Chinese student community on campus has provided a sense of community and social support for these students, but it also contributes to diminishing their willingness and opportunities to interact with people of different cultural backgrounds. Depending on their needs and purposes, they have different insights into the meaning of cross-cultural adaptation and therefore, and choose different paths to establish themselves in a new environment. Overall, they agree that cross-cultural adaptation involves a process of re-establishing themselves in new academic, social, and cultural communities, and adaptation is necessary for their personal and professional advancement in the U.S. They also acknowledge that encountering and adjusting to cross-cultural challenges allow them to grow as a person and develop a new sense of self and identity, and negotiating cultural differences help them gain a deeper understanding of their own and other cultures. These findings offer insights into understanding the interconnections among international students’ academic life, socialization, and cross-cultural adaptation.Ph.D.EducationUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp://deepblue.lib.umich.edu/bitstream/2027.42/77911/1/xinquanj_1.pd

Salivary signatures of oral-brain communication in sleep bruxers

IntroductionMicrobiota and their interaction with hosts have been of great interest in brain research in recent years. However, the role of oral microbiota in mental illness and the underlying mechanism of oral-brain communication remains elusive. Sleep bruxism (SB) is an oral parafunctional activity related to the nervous system and is considered a risk factor for harmful clinical consequences and severe systemic conditions. Exploring the connection between oral microbiota and sleep bruxism may deepen our understanding of the complex relationship between oral-brain axis and provide insights for treatment.MethodsIn this study, salivary samples were collected from 22 individuals with SB and 21 healthy controls, and metagenomics with metabolomics was performed. Nonparametric Wilcoxon test were applied for the statistical analysis between the two groups. Microbial dysbiosis and altered oral metabolites were found in the SB individuals.ResultsThe characteristic metabolite N-acetylglucosamine (GlcNAc) (VIP=8.4823, P<0.05) was correlated to a statistically lower Streptococcus mitis level in SB individuals. Salivary IFN-g level and IFN-g/IL-4 ratio were detected with significant changes in a chip assay. Amino acid metabolism pathways were upregulated, and the pathway with the largest number of differentially expressed genes is related to amino-tRNA charging pathway, while the most significantly enriched pathway is related to arginine biosynthesis. Neurotransmitter-associated pathways with glutamatergic and GABAergic synapses and cardiovascular system-related pathways were enriched in the SB group.DiscussionThese results indicate a possible neuroimmune regulatory network of oral-brain communication in SB, which helps explain the mechanism of the oral microbiome with the host in sleep bruxers and provides a reference for early clinical and therapeutic intervention to improve the diagnosis and treatment of SB and similar diseases

The biological function of type I receptors of bone morphogenetic protein in bone

Bone morphogenetic proteins (BMPs) have multiple roles in skeletal development, homeostasis and regeneration. BMPs signal via type I and type II serine/threonine kinase receptors (BMPRI and BMPRII). In recent decades, genetic studies in humans and mice have demonstrated that perturbations in BMP signaling via BMPRI resulted in various diseases in bone, cartilage, and muscles. In this review, we focus on all three types of BMPRI, which consist of activin-like kinase 2 (ALK2, also called type IA activin receptor), activin-like kinase 3 (ALK3, also called BMPRIA), and activin-like kinase 6 (ALK6, also called BMPRIB). The research areas covered include the current progress regarding the roles of these receptors during myogenesis, chondrogenesis, and osteogenesis. Understanding the physiological and pathological functions of these receptors at the cellular and molecular levels will advance drug development and tissue regeneration for treating musculoskeletal diseases and bone defects in the future

Structure-Activity Relationship Study Enables the Discovery of a Novel Berberine Analogue as RXRα Activator to Inhibit Colon Cancer

黄连素是从黄连、黄柏等传统中药中提取的单体化合物，常用于治疗痢疾及其它消化道感染。近年来，黄连素的抗心律失常、调控能量代谢、降血糖血脂和抗癌等多重功效使其成为一个“明星”中药单体化合物。尽管黄连素具有很好的安全性，但其抗癌作用在临床应用上仍具有许多局限性，包括抗癌活性低、溶解度和生物利用度低等。然而，由于黄连素的分子靶点不清楚，以往对黄连素的改造比较盲目和随机，并未取得较好的进展。胡天惠团队与张延东团队紧密合作、优势互补，针对黄连素与RXR的结合模式，运用结构生物学方法和全合成相结合，设计合成了多种黄连素衍生物，并开展了构效关系分析。发现黄连素衍生物B-12在结合并激活RXR、抗肠癌活性、溶解度和生物利用度方面均明显优于黄连素，且保留了黄连素的肿瘤选择性和低毒副作用，具有很好的临床转化前景。该研究也为结构生物学指导黄连素衍生物药物设计提供了理论基础。本论文的通讯作者为医学院占艳艳副教授、张延东教授和胡天惠教授。医学院博士生徐贝贝和化学化工学院博士生江训金为共同第一作者。We reported recently that berberine, a traditional oriental medicine to treat gastroenteritis, binds and activates Retinoid X receptor α (RXRα) to suppress the growth of colon cancer cells. Here, we extended our studies based on the binding mode of berberine with RXRα by design, synthesis and biological evaluation of a focused library of 15 novel berberine analogues. Among them, 3,9-dimethoxy-5,6-dihydroisoquinolino[3,2-a]isoquinolin-7-ium chloride (B-12) was identified as the optimal RXRα activator. More efficiently than berberine, B-12 bound and altered the conformation of RXRα/LBD, thereby suppressing Wnt/β-catenin pathway and colon cancer cell growth via RXRα mediation. In addition, B-12 not only preserved berberine’s tumor selectivity but also greatly improved its bioavailability. Remarkably, in mice, B-12 did not show obvious side effects including hypertriglyceridemia as other RXRα agonists, or induce hepatorenal toxicity. Together, our study describes an approach for the rational design of berberine-derived RXRα activators as novel effective antineoplastic agents for colon cancer.This work was supported by the National Natural Science Foundation of China (31770860, 21772164, 81572589, 81602560 and 21572187), and the Natural Science Foundation of Fujian Province (2018R1036-2, 2017J06020, 2019R1001-4, and 2019R1001-5). 项目得到了国家自然科学基金委促进海峡两岸科技合作联合基金重点项目、面上项目和福建省自然科学基金的支持

Genetic diversity and association of EST-SSR and SCoT markers with rust traits in orchardgrass (Dactylis glomerata L.)

This article belongs to the Section Molecular Diversity.Orchardgrass (Dactylis glomerata L.), is a well-known perennial forage species; however, rust diseases have caused a noticeable reduction in the quality and production of orchardgrass. In this study, genetic diversity was assessed and the marker-trait associations for rust were examined using 18 EST-SSR and 21 SCoT markers in 75 orchardgrass accessions. A high level of genetic diversity was detected in orchardgrass with an average genetic diversity index of 0.369. For the EST-SSR and SCoT markers, 164 and 289 total bands were obtained, of which 148 (90.24%) and 272 (94.12%) were polymorphic, respectively. Results from an AMOVA analysis showed that more genetic variance existed within populations (87.57%) than among populations (12.43%). Using a parameter marker index, the efficiencies of the EST-SSR and SCoT markers were compared to show that SCoTs have higher marker efficiency (8.07) than EST-SSRs (4.82). The results of a UPGMA cluster analysis and a STRUCTURE analysis were both correlated with the geographic distribution of the orchardgrass accessions. Linkage disequilibrium analysis revealed an average r2 of 0.1627 across all band pairs, indicating a high extent of linkage disequilibrium in the material. An association analysis between the rust trait and 410 bands from the EST-SSR and SCoT markers using TASSEL software revealed 20 band panels were associated with the rust trait in both 2011 and 2012. The 20 bands obtained from association analysis could be used in breeding programs for lineage selection to prevent great losses of orchardgrass caused by rust, and provide valuable information for further association mapping using this collection of orchardgrass.This work was supported by the National Basic Research Program of China (973 Program) (2014CB138705) and the National Natural Science Foundation of China, NSFC (31101760).Peer reviewe

The Bone-Forming Effects of HIF-1α-Transduced BMSCs Promote Osseointegration with Dental Implant in Canine Mandible

The presence of insufficient bone volume remains a major clinical problem for dental implant placement to restore the oral function. Gene-transduced stem cells provide a promising approach for inducing bone regeneration and enhancing osseointegration in dental implants with tissue engineering technology. Our previous studies have demonstrated that the hypoxia-inducible factor-1α (HIF-1α) promotes osteogenesis in rat bone mesenchymal stem cells (BMSCs). In this study, the function of HIF-1α was validated for the first time in a preclinical large animal canine model in term of its ability to promote new bone formation in defects around implants as well as the osseointegration between tissue-engineered bone and dental implants. A lentiviral vector was constructed with the constitutively active form of HIF-1α (cHIF). The ectopic bone formation was evaluated in nude mice. The therapeutic potential of HIF-1α-overexpressing canine BMSCs in bone repair was evaluated in mesi-implant defects of immediate post-extraction implants in the canine mandible. HIF-1α mediated canine BMSCs significantly promoted new bone formation both subcutaneously and in mesi-implant defects, including increased bone volume, bone mineral density, trabecular thickness, and trabecular bone volume fraction. Furthermore, osseointegration was significantly enhanced by HIF-1α-overexpressing canine BMSCs. This study provides an important experimental evidence in a preclinical large animal model concerning to the potential applications of HIF-1α in promoting new bone formation as well as the osseointegration of immediate implantation for oral function restoration

Responses of sequential and hierarchical phenological events to warming and cooling in alpine meadows

Organisms' life cycles consist of hierarchical stages, from a single phenological stage (for example, flowering within a season), to vegetative and reproductive phases, to the total lifespan of the individual. Yet phenological events are typically studied in isolation, limiting our understanding of life history responses to climate change. Here, we reciprocally transfer plant communities along an elevation gradient to investigate plastic changes in the duration of sequential phenological events for six alpine species. We show that prolonged flowering leads to longer reproductive phases and activity periods when plants are moved to warmer locations. In contrast, shorter post-fruiting leaf and flowering stages led to shorter vegetative and reproductive phases, respectively, which resulted in shorter activity periods when plants were moved to cooler conditions. Therefore, phenological responses to warming and cooling do not simply mirror one another in the opposite direction, and low temperature may limit reproductive allocation in the alpine region