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东盟高等教育领域的路线图2025
The key activities operationalising the outputs of the Work Plan have been allocated to key regional higher education stakeholders which include the membership of the newly formed ASEAN Working Group on Higher Education Mobility 2025 (hereinafter referred to as ‘Working Group'), chaired by the Education Youth and Sports Division (EYSD) of the ASEAN Secretariat, the ASEAN Foundation, with the technical and operational advisory of the EU Support to Higher Education in the ASEAN Region (共享)共享计划期间的计划。在工作组的职权范围内是该路线图的提出和提议,以实现和实施东盟高等教育领域1,以在东盟教育工作计划框架2021-2025的框架内,以实现和实施东盟高等教育空间1,以实现和实施大人之间的人与人之间的连通性和知识转移。该路线图将在2025年之前实施与增强东盟学生流动性有关的东盟的授权和承诺,包括设计,所有权和亚盟品牌奖学金的设计,所有权和运营。
Crizotinib-induced osteitis mimicking bone metastasis in a stage IV ALK-rearranged NSCLC patient: a case report
vessel proliferation eliminated Gorham syndrome. Cul- tures of biopsy samples and Polymerase Chain Reaction (PCR) assays, including ribosomal 16S sequencing and mycobacterium complex PCR assay, remained negative. A week after surgery, severe inflammation and necrosis of the cutaneous surgical suture appeared, with subcuta- neous and paravertebral soft tissue infiltration confirmed on CT-scan. Because of the absence of tumour cell or germ on bi- opsy samples, crizotinib-induced osteitis was suspected. A retrospective review of the first chest CT-scan per- formed for assessment of tumor response to crizotinib 2 months after treatment initiation showed early signs of osteitis on the Th4 vertebra (Fig. 1 ). Crizotinib was sus- pended. The patient did not receive antibiotics. Subcuta- neous inflammation regressed after 2 days. Ceritinib was initiated 2 days later. CT-scan at 2 weeks showed regres- sion of osteitis and soft tissue infiltration. After 12 months, the patient is still on ceritinib, without any new lesion.
碳会计报告
作为创新的新能源技术的全球领导者,CATL具有零碳基因,并继续加速零碳进程,同时为全球新的能源应用提供一流的解决方案和服务。它旨在建立CATL模型,以追求碳中立性,并为行业甚至整个社区的零碳过渡提供宝贵的CATL经验。在2023年,CATL推出了其“零碳战略”,正式宣布了“到2025年核心运营中碳中立性的目标,到2035年的供应链中碳中立性”。Based on the "Zero-Carbon Strategy" and its corresponding action plans, CATL has formed six "Zero-Carbon" special topics, namely "Zero-Carbon" Design, "Zero-Carbon" Factories, "Zero-Carbon" Supply, "Zero-Carbon" Manufacturing, "Zero-Carbon" Power, and Circular Ecosystem, to comprehensively promote the achievement of the goals.在发行本报告时,CATL拥有九个电池制造基地,这些电池制造基地在2023年对温室气体排放获得了中立,并获得了由第三方认证机构颁发的PAS 2060:2014碳中准认证。
与Amigos合作 - 为南极洲开发远程测量站
自动化气象 - 冰 - 地球物理学 - 海洋观察系统(Amigos)是一种多传感器的冰上海洋,冰和气候观测系统,设计系统,可在全年实时实时进行极端和遥远的部署,与最小的人类交互。工程和软件需求相对独特且具有挑战性,但与其他领域的探索非常相似。Partnering with the CU chapter of the Colorado Space Grant Consortium (COSGC), a NASA funded organization for creating opportu- nities and learning experience for Colorado students interested in careers in space technology, a group of CU undergraduate engineering students known as the Junior Antarctic Engineering Team (JANE) was formed and contributed start to finish in the development of the latest iteration of these sys- tems, the AMIGOS iii。在2020年初,这项工作最终在南极的东部Thwaites冰架上安装了两个Amigos III,在Cavyy Camp(75.048°S,105.584°W)和Channel Camp(75.057°S,75.057°S,105.446°W),约4 km相距4 km。
彻底改变了五个以上的药物发现和设计...
Abstract In the year 1971, the world's biggest structural biology collaboration name — The Research Collaboratory for Structural Bioinformatics (RCSB), was formed to gather all the structural biologists at a single platform and then extended out to be the world's most extensive structural data repository named RCSB-Protein Data Bank (PDB) (https://www.rcsb.org/) that has provided the服务已有50多年的历史,并继续为结构数据的发现和存储库提供遗产。RCSB已从合作网络发展为一个成熟的数据库和工具,其中包括大量蛋白质结构,含核酸酸的结构,模型结构和AlphaFold结构,最好的是,它每天都在随着工具和视觉体验的计算进步而扩展。在这篇评论文章中,我们讨论了RCSB如何成为一个成功的协作网络,其在每十年的扩展以及它如何帮助开创性的研究。还讨论了正在帮助研究人员,每年的数据沉积,验证,处理和建议的PDB工具,这些工具还可以帮助开发人员在未来几年的改善。本评论将帮助未来的研究人员了解RCSB及其在每十年的完整历史,以及如何在各个科学领域开发各种未来的协作网络,并通过将RCSB作为案例研究来成功。
标题:跨疗法,基因的细胞类型地图集,同工型和剪接调节,在发展中的人脑作者中:辛迪·韦恩1,2,3,mi
Title: Cross-ancestry, cell-type-informed atlas of gene, isoform, and splicing regulation in the developing human brain Authors: Cindy Wen 1,2,3 , Michael Margolis 2,3 , Rujia Dai 4 , Pan Zhang 2,3 , Pawel F. Przytycki 5 , Daniel D. Vo 2,3,6,7 , Arjun Bhattacharya 8,9 , Nana Matoba 10,11,Chuan Jiao 4,Minsoo Kim 2,3,Ellen Tsai 2,3,Celine Hoh 2,3,NilAygün11111111,Rebecca L. Walker 1,2,3,Christos Chistos Chatzinakos,Chatzinakos 12,13,14,Declan Clarke 15,Declan Clarke 15,Henry Pratt Pratt 17,Marks Conscyend A. 15,18,19,20 , Nikolaos P. Daskalakis 12,13,14 , Zhiping Weng 16 , Andrew E. Jaffe 21,22,23,24,25,26,27 , Joel E. Kleinman 21,22 , Thomas M. Hyde 21,22,28 , Daniel R. Weinberger 21,22,23,24,28 , Nicholas J. Bray 29,Nenad Sestan 30,31,Daniel H. Geschwind 3,32,33,Kathryn Roeder 34,35,Alexander Gusev 36,37,38,39,Bogdan Pasaniuc,Bogdan Pasaniuc 1,3,8,33,40Love 10,41,Katherine S. Pollard 5,42,43,Chunyu Liu 4,44*,Michael J. Gandal 1,2,3,6,7*
