Open Source Electronics for Laboratory Physics

Open-source electronic devices are transforming laboratory physics education in unprecedented ways. More and more physics instructors have found that open-source electronics, such as Arduino, can provide them with wonderful teaching and learning opportunities. They can develop new laboratory activities and demonstrations, as well as exploratory and advanced projects, often involving their students. The cost is usually low. Participants of this workshop will dive right into interfacing sensors with Arduino compatible platforms. They will acquire first-hand experience constructing circuits and interfacing with sonic rangers, photogates, temperature probes, force gauges, accelerometers, magnetometers, SD cards, displays, user interfaces, and other common sensors, devices, and useful software. The workshop also provides basic training on computer programming and soldering. Each participant will be provided sensors and a standalone data acquisition device for their workshop activities. They can take everything home, except for force gauges. Participants must bring a laptop

Expressive paragraph text-to-speech synthesis with multi-step variational autoencoder

Neural networks have been able to generate high-quality single-sentence speech with substantial expressiveness. However, it remains a challenge concerning paragraph-level speech synthesis due to the need for coherent acoustic features while delivering fluctuating speech styles. Meanwhile, training these models directly on over-length speech leads to a deterioration in the quality of synthesis speech. To address these problems, we propose a high-quality and expressive paragraph speech synthesis system with a multi-step variational autoencoder. Specifically, we employ multi-step latent variables to capture speech information at different grammatical levels before utilizing these features in parallel to generate speech waveform. We also propose a three-step training method to improve the decoupling ability. Our model was trained on a single-speaker French audiobook corpus released at Blizzard Challenge 2023. Experimental results underscore the significant superiority of our system over baseline models.Comment: 5 pages, 1 figure, 2 table

A Novel Control Strategy of DFIG Based on the Optimization of Transfer Trajectory at Operation Points in the Islanded Power System

A novel control strategy based on the optimization of transfer trajectory at operation points for DFIG is proposed. Aim of this control strategy is to reduce the mechanical fatigue of DFIG caused by the frequent adjustment of rotating speed and pitch angle when operating in the islanded power system. Firstly, the stability of DFIG at different operation points is analyzed. Then an optimization model of transfer trajectory at operation points is established, with the minimum synthetic adjustment amount of rotating speed and pitch angle as the objective function and with the balance of active power and the stability of operation points as the constraint conditions. Secondly, the wind speed estimator is designed, and the control strategy of pitch system is improved to cooperate with the indirect stator flux orientation control technology for rotor-side inverter control. Then by the coordination control of its rotating speed and pitch angle, an operation trajectory controller is established to ensure the islanded operation of DFIG along the optimal transfer trajectory. Finally, the simulation results show that the proposed control strategy is technical feasibility with good performance

Tumor Suppressor Spred2 Interaction with LC3 Promotes Autophagosome Maturation and Induces Autophagy-Dependent Cell Death

The tumor suppressor Spred2 (Sprouty-related EVH1 domain-2) induces cell death in a variety of cancers. However, the underlying mechanism remains to be elucidated. Here we show that Spred2 induces caspase-independent but autophagy-dependent cell death in human cervical carcinoma HeLa and lung cancer A549 cells. We demonstrate that ectopic Spred2 increased both the conversion of microtubule-associated protein 1 light chain 3 (LC3), GFP-LC3 puncta formation and p62/SQSTM1 degradation in A549 and HeLa cells. Conversely, knockdown of Spred2 in tumor cells inhibited upregulation of autophagosome maturation induced by the autophagy inducer Rapamycin, which could be reversed by the rescue Spred2. These data suggest that Spred2 promotes autophagy in tumor cells. Mechanistically, Spred2 co-localized and interacted with LC3 via the LC3-interacting region (LIR) motifs in its SPR domain. Mutations in the LIR motifs or deletion of the SPR domain impaired Spred2-mediated autophagosome maturation and tumor cell death, indicating that functional LIR is required for Spred2 to trigger tumor cell death. Additionally, Spred2 interacted and co-localized with p62/SQSTM1 through its SPR domain. Furthermore, the co-localization of Spred2, p62 and LAMP2 in HeLa cells indicates that p62 may be involved in Spred2-mediated autophagosome maturation. Inhibition of autophagy using the lysosomal inhibitor chloroquine, reduced Spred2-mediated HeLa cell death. Silencing the expression of autophagy-related genes ATG5, LC3 or p62 in HeLa and A549 cells gave similar results, suggesting that autophagy is required for Spred2-induced tumor cell death. Collectively, these data indicate that Spred2 induces tumor cell death in an autophagy-dependent manner

DJ-1 maintains energy and glucose homeostasis by regulating the function of brown adipose tissue

We thank the members of the Yuan laboratory for critical reading of the manuscript and helpful discussion. We thank the Pathology Core Facility in the Institute of Biophysics, CAS. We also thank Dr Joyce Flemmings for the English editing. This work was supported by the grants from the strategic priority research program (XDB13030000 to WJ), the National Science Foundation of China (Grant No. 81125010 and 81030025 to ZY), the National Basic Research Program of China (973–2012CB910701 and 2013DFA31990 to ZY) and Cross-disciplinary Collaborative Teams Program for Science, Technology and Innovation (2014–2016) from Chinese Academy of Sciences; and Key research program (KJZD-EW-L01-3 to WJ), One Hundred Talents Program (WJ) of the Chinese Academy of Sciences and from the Ministry of Science and Technology of China (2012CBA01301 and 2012CB944701 to WJ), as well as by a grant from the National Natural Science Foundation of China (31171131 and 81370951 to WJ).Peer reviewedPublisher PD

Regulation of Neuronal Cell Death by c-Abl-Hippo/MST2 Signaling Pathway

BACKGROUND: Mammalian Ste20-like kinases (MSTs) are the mammalian homologue of Drosophila hippo and play critical roles in regulation of cell death, organ size control, proliferation and tumorigenesis. MSTs exert pro-apoptotic function through cleavage, autophosphorylation and in turn phosphorylation of downstream targets, such as Histone H2B and FOXO (Forkhead box O). Previously we reported that protein kinase c-Abl mediates oxidative stress-induced neuronal cell death through phosphorylating MST1 at Y433, which is not conserved among mammalian MST2, Drosophila Hippo and C.elegans cst-1/2. METHODOLOGY/PRINCIPAL FINDINGS: Using immunoblotting, in vitro kinase and cell death assay, we demonstrate that c-Abl kinase phosphorylates MST2 at an evolutionarily conserved site, Y81, within the kinase domain. We further show that the phosphorylation of MST2 by c-Abl leads to the disruption of the interaction with Raf-1 proteins and the enhancement of homodimerization of MST2 proteins. It thereby enhances the MST2 activation and induces neuronal cell death. CONCLUSIONS/SIGNIFICANCE: The identification of the c-Abl tyrosine kinase as a novel upstream activator of MST2 suggests that the conserved c-Abl-MST signaling cascade plays an important role in oxidative stress-induced neuronal cell death

PP1A-Mediated Dephosphorylation Positively Regulates YAP2 Activity

Background: The Hippo/MST1 signaling pathway plays an important role in the regulation of cell proliferation and apoptosis. As a major downstream target of the Hippo/MST1 pathway, YAP2 (Yes-associated protein 2) functions as a transcriptional cofactor that has been implicated in many biological processes, including organ size control and cancer development. MST1/Lats kinase inhibits YAP2’s nuclear accumulation and transcriptional activity through inducing the phosphorylation at serine 127 and the sequential association with 14-3-3 proteins. However, the dephosphorylation of YAP2 is not fully appreciated. Methodology/Principal Findings: In the present study, we demonstrate that PP1A (catalytic subunit of protein phosphatase-1) interacts with and dephosphorylates YAP2 in vitro and in vivo, and PP1A-mediated dephosphorylation induces the nuclear accumulation and transcriptional activation of YAP2. Inhibition of PP1 by okadiac acid (OA) increases the phosphorylation at serine 127 and cytoplasmic translocation of YAP2 proteins, thereby mitigating its transcription activity. PP1A expression enhances YAP2’s pro-survival capability and YAP2 knockdown sensitizes ovarian cancer cells to cisplatin treatment. Conclusions/Significance: Our findings define a novel molecular mechanism that YAP2 is positively regulated by PP1mediate

Menin Deficiency Leads to Depressive-like Behaviors in Mice by Modulating Astrocyte-Mediated Neuroinflammation

厦门大学医学院、神经科学研究所张杰教授团队发现了抑郁症新的致病基因MEN1，并阐明了MEN1调控星形胶质细胞炎症导致抑郁发生发展的新机制，为抑郁症的诊治提供了新靶点和方向。抑郁症是严重威胁人类健康的重大神经系统疾病，危及全球30%的人口。但对其发病机制并不清楚。张杰教授团队发现，在慢性不可预测以及LPS处理的模拟抑郁小鼠模型中，多发性内分泌肿瘤蛋白(menin)在大脑中的表达显著降低，并且在星形胶质细胞中降低最明显。为了研究menin是否参与了小鼠抑郁表型的产生，研究团队制作了多种神经系统menin条件性敲除小鼠。通过对这些小鼠行为学的检测，锁定了只有在星形胶质细胞中敲除menin后，小鼠才会表现出抑郁样表型。证实了menin可能是通过调控星形胶质细胞的功能促进了抑郁的发生。 MEN1基因的突变会导致多发性内分泌肿瘤，而内分泌的紊乱和抑郁等精神疾病有着密切的联系。下丘脑-垂体-肾上腺轴（HPA轴）的功能紊乱直接参与了抑郁的产生。基于此研究团队推测MEN1的基因突变是否也会导致抑郁的发生。通过和中国医学科学院基础所的许琪教授合作，研究团队对1000多例重度抑郁患者和800多例对照人群进行了MEN1基因的外显子测序。通过测序发现MEN1的一个SNP s375804228和抑郁的发生有着显著关联。该SNP导致menin第503位的氨基酸由G突变成D。通过功能研究进一步证实该突变可以阻断menin和p65的结合，从而过度激活NF-κB-IL-1β通路，导致神经炎症的发生。 张杰，厦门大学特聘教授、博士生导师。国家优秀青年科学基金；教育部新世纪优秀人才；福建省杰出青年科学基金；厦门市五四青年奖章等获得者。2011年8月加入厦门大学医学院神经科学研究所担任教授至今。张杰博士主要从事重大神经系统疾病（老年痴呆、帕金森、抑郁症、自闭症、术后认知障碍、胶质瘤）等的发病机制和药物开发研究。至今以第一作者或者通讯作者在国际知名期刊发表研究论文21篇。其中回国独立开展研究工作以后，作为通讯作者在 Neuron，Cell Reports, PNAS, The Journal of Neuroscience, Clinical Cancer Research，Cell Death and Disease, JBC, Chemistry，Chem. Biol. Drug Des.等杂志上发表多篇研究论文。【Abstract】Astrocyte dysfunction and inflammation are associated with the pathogenesis of major depressive disorder (MDD). However, the mechanisms underlying these effects remain largely unknown. Here, we found that multiple endocrine neoplasia type 1 (Men1; protein: menin) expression is attenuated in the brain of mice exposed to CUMS (chronic unpredictable mild stress) or lipopolysaccharide. Astrocyte-specific reduction of Men1 (GcKO) led to depressive-like behaviors in mice. We observed enhanced NF-κB activation and IL-1β production with menin deficiency in astrocytes, where depressive-like behaviors in GcKO mice were restored by NF-κB inhibitor or IL-1β receptor antagonist. Importantly, we identified a SNP, rs375804228, in human MEN1, where G503D substitution is associated with a higher risk of MDD onset. G503D substitution abolished menin-p65 interactions, thereby enhancing NF-κB activation and IL-1β production. Our results reveal a distinct astroglial role for menin in regulating neuroinflammation in depression, indicating that menin may be an attractive therapeutic target in MDD.We thank Prof. Guanghui Jin (Xiamen University) and Prof. Xianxin Hua (University of Pennsylvania) for providing the Men1-floxp mice. This work was supported by the National Natural Science Foundation of China (grants 81522016, 81271421, and 31571055 to J.Z.; 81625008 and 31430048 to Q.X.; 81630026 to Z.Y.; 81771163 and U1405222 to H.X.; U1505227 to G.B.; 81472725 to W.M.), the Natural Science Foundation of Fujian Province of China (grant 2013J01147 and 2014J06019 to J.Z.), the Fundamental Research Funds for the Central Universities (grants 20720150062 and 20720180049 to J.Z.), the National Key Research and Development Program of China (2016YFC1305903), and CAMS Innovation Fund for Medical Sciences (grant 2016I2M1004 to Q.X.).研究工作得到国家自然科学基金项目（81522016、81271421、31571055）以及厦门大学校长基金等资助

CDK5-dependent BAG3 degradation modulates synaptic protein turnover

阿尔茨海默病（AD）是严重威胁人类健康的重大神经系统疾病，AD的发生发展与衰老密切相关，目前临床治疗方法十分有限。因此迫切需要从AD致病早期入手，发现和鉴定导致AD神经功能紊乱的机制和靶点，为AD的早期防治提供基础。张杰教授及其团队从高通量磷酸化蛋白质组学入手，系统研究了CDK5在神经细胞中的磷酸化底物，鉴定出了在蛋白质量控制中发挥重要功能的BAG3蛋白是CDK5的全新底物。课题组从磷酸化蛋白质组学入手，发现和阐明了细胞周期蛋白激酶5（CDK5）通过调控BAG3在维持突触蛋白水平调控中的作用机制，及其在阿尔茨海默病（AD）发生发展中的机理。 该研究是多个团队历时8年合作完成的，香港中文大学的周熙文教授、美国匹兹堡大学的Karl Herrup教授、美国Sanford-Burnham研究所的许华曦教授、美国梅奥医学中心的卜国军教授，厦门大学医学院的文磊教授、张云武教授、赵颖俊教授、薛茂强教授，军事医学科学院的袁增强教授等都参与了该工作。 厦门大学医学院2012级博士生周杰超等为文章的第一作者，张杰教授为通讯作者。Background Synaptic protein dyshomeostasis and functional loss is an early invariant feature of Alzheimer’s disease (AD), yet the unifying etiological pathway remains largely unknown. Knowing that cyclin-dependent kinase 5 (CDK5) plays critical roles in synaptic formation and degeneration, its phosphorylation targets were re-examined in search for candidates with direct global impacts on synaptic protein dynamics, and the associated regulatory network was also analyzed. Methods Quantitative phospho-proteomics and bioinformatics analyses were performed to identify top-ranked candidates. A series of biochemical assays were used to investigate the associated regulatory signaling networks. Histological, electrochemical and behavioral assays were performed in conditional knockout, shRNA-mediated knockdown and AD-related mice models to evaluate its relevance to synaptic homeostasis and functions. Results Among candidates with known implications in synaptic modulations, BCL2-associated athanogene-3 (BAG3) ranked the highest. CDK5-mediated phosphorylation on Ser297/Ser291 (Mouse/Human) destabilized BAG3. Loss of BAG3 unleashed the selective protein degradative function of the HSP70 machinery. In neurons, this resulted in enhanced degradation of a number of glutamatergic synaptic proteins. Conditional neuronal knockout of Bag3 in vivo led to impairment of learning and memory functions. In human AD and related-mouse models, aberrant CDK5-mediated loss of BAG3 yielded similar effects on synaptic homeostasis. Detrimental effects of BAG3 loss on learning and memory functions were confirmed in these mice, and such were reversed by ectopic BAG3 re-expression. Conclusions Our results highlight that neuronal CDK5-BAG3-HSP70 signaling axis plays a critical role in modulating synaptic homeostasis. Dysregulation of the signaling pathway directly contributes to synaptic dysfunction and AD pathogenesis.This work was supported by the National Science Foundation in China (Grant: 31571055, 81522016, 81271421 to J.Z.; 81801337 to L.L; 81774377 and 81373999 to L.W.); Fundamental Research Funds for the Central Universities of China-Xiamen University (Grant: 20720150062, 20720180049 and 20720160075 to J.Z.); Fundamental Research Funds for Fujian Province University Leading Talents (Grant JAT170003 to L.L); Hong Kong Research Grants Council (HKUST12/CRF/13G, GRF660813, GRF16101315, AoE/M-05/12 to K.H.; GRF16103317, GRF16100718 and GRF16100219 to H.-M,C.); Offices of Provost, VPRG and Dean of Science, HKUST (VPRGO12SC02 to K.H.); Chinese University of Hong Kong (CUHK) Improvement on Competitiveness in Hiring New Faculty Funding Scheme (Ref. 133), CUHK Faculty Startup Fund and Alzheimer’s Association Research Fellowship (AARF-17-531566) to H.-M, C. 该研究受到了国家自然科学基金、厦门大学校长基金、福建省卫生教育联合攻关基金等的资助