👤 Lili Zhao

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874
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Also published as: Jian Zhao, Shanshan Zhao, Guangqiang Zhao, Kai Zhao, Xuli Zhao, Yinlong Zhao, Ze-Run Zhao, Jiangchao Zhao, Changsheng Zhao, Chunqing Zhao, Jinsheng Zhao, Feipeng Zhao, Michelle Zhao, Guorui Zhao, Yuhang Zhao, Changqing Zhao, Jinpeng Zhao, Tingting Zhao, Shui-ping ZHAO, Yonglin Zhao, Keni Zhao, Yan-Ni Zhao, Qiongxian Zhao, Pandeng Zhao, Jing-Cheng Zhao, Xiaofang Zhao, Ruyi Zhao, Jinwen Zhao, Jian-Yuan Zhao, Yafei Zhao, Xinzhi Zhao, Yu Zhao, Danyang Zhao, Ziqin Zhao, Anna Zhao, Yuehan Zhao, Beichuan Zhao, Xiaoqiang Zhao, Jingbo Zhao, Ze-Hua Zhao, Danping Zhao, Bi Zhao, Liping Zhao, Haifeng Zhao, Ruidan Zhao, Ling-Ling Zhao, Guile Zhao, Hongbin Zhao, Chengjun Zhao, Rui Zhao, Yue Zhao, Hairong Zhao, Fengshu Zhao, Chuanqi Zhao, Yan-Hong Zhao, S-P Zhao, Mingjing Zhao, Zihe Zhao, Yawei Zhao, Jinping Zhao, Shuai Zhao, Xiaoyang Zhao, Shitian Zhao, Hongbo Zhao, Shenjun Zhao, Yujie Zhao, Yingqi Zhao, Xiaojun Zhao, Baolin Zhao, Li-Feng Zhao, Yufan Zhao, Wenye Zhao, Wenyu Zhao, Jiajing Zhao, Yin Zhao, Xinyu Zhao, Na Zhao, Wei-Li Zhao, Binggong Zhao, Gui Zhao, Zhichao Zhao, Jue Zhao, Dongmei Zhao, Mingyue Zhao, Zirui Zhao, Shane R Zhao, Tianyang Zhao, Wanni Zhao, Ahui Zhao, Chunli Zhao, Yufei Zhao, Zhongxin Zhao, Liming Zhao, Yilin Zhao, Gaichao Zhao, Hongying Zhao, Zhipeng Zhao, Huaqing Zhao, Sitong Zhao, Ende Zhao, Xingyu Zhao, Zhao Zhao, Yang Zhao, Lanhua Zhao, Ying-Peng Zhao, Qingzuo Zhao, Zhongming Zhao, Lin Zhao, Xiao-Fan Zhao, Zhigang Zhao, Xueying Zhao, Zhen Zhao, Cuimei Zhao, Zengqi Zhao, Hongling Zhao, Huaying Zhao, Jing-Feng Zhao, Zhe Zhao, N Zhao, Peishen Zhao, Ran Zhao, Yanni Zhao, Jia Zhao, Zuhang Zhao, Shengguo Zhao, Xilin Zhao, Jianxin Zhao, Ren Zhao, Bingli Zhao, Keji Zhao, Ze-Yu Zhao, Xi Zhao, Wenhua Zhao, Dingwei Zhao, Honghui Zhao, Qinfei Zhao, Jia-Xuan Zhao, Zongsheng Zhao, Zhongquan Zhao, Qihan Zhao, Xiaoling Zhao, Peijun Zhao, Zhikun Zhao, Wenchen Zhao, Caiping Zhao, Shi Zhao, Haoyan Zhao, Chaoyue Zhao, Xibao Zhao, Jing-Yu Zhao, Xingang Zhao, Jingru Zhao, Yongting Zhao, Xiaohang Zhao, Ai Zhao, Yuxia Zhao, Wen-Ning Zhao, Zhe Yu Zhao, Zhihe Zhao, Weikun Zhao, Dengyun Zhao, Wanting Zhao, Guo-Jun Zhao, Yuan-Yuan Zhao, Xiumei Zhao, Jia-Mu Zhao, Hong-Ye Zhao, Ling Zhao, Xueqing Zhao, Kun Zhao, He Zhao, Jin-Feng Zhao, Chun Yu Zhao, Zifeng Zhao, Zhijian Zhao, Xuesong Zhao, Xinhui Zhao, Gengxiang Zhao, Xin Zhao, Cuiqing Zhao, Tiesuo Zhao, Yuru Zhao, Wensi Zhao, Jiangpei Zhao, Yuee Zhao, Ranran Zhao, Chunrong Zhao, Ziqi Zhao, Xinying Zhao, Lun Zhao, Kake Zhao, Lingling Zhao, Lianfang Zhao, Dandan Zhao, Junfeng Zhao, Lingrui Zhao, Deping Zhao, Fengbo Zhao, Xueli Zhao, Fangping Zhao, Qingchun Zhao, Zheng Zhao, Yingpeng Zhao, Shuiping Zhao, Ziyi Zhao, Junjie Zhao, Yuanyuan Zhao, Xiaoguang Zhao, Yisha Zhao, Fu-Ying Zhao, W-C Zhao, Moze Zhao, Qing-Li Zhao, A N Zhao, Wangsheng Zhao, Yixuan Zhao, Jinglin Zhao, Tingrui Zhao, Yanhui Zhao, Hongqi Zhao, Songchen Zhao, Yikun Zhao, Sihai Zhao, Yongqin Zhao, Weifeng Zhao, Le Zhao, Tianyu Zhao, Ya Zhao, Xiao Zhao, Peipei Zhao, Lihua Zhao, Chenye Zhao, Si-Jia Zhao, Shimiao Zhao, Weiyu Zhao, Ji-Meng Zhao, Lu Zhao, Jingkun Zhao, Hongli Zhao, Xiangge Zhao, Songping Zhao, Zhenyu Zhao, Jin-Ming Zhao, Chuan-Zhi Zhao, Zhiyun Zhao, Luyao Zhao, Feibo Zhao, Yating Zhao, Jiao Zhao, Hongqing Zhao, Qingbo Zhao, Yandong Zhao, Andrew J Zhao, Wenting Zhao, Xiang Zhao, Yun-Tao Zhao, J V Zhao, Junhong Zhao, Wenpeng Zhao, Shigang Zhao, Yangqi Zhao, Qiuyue Zhao, Meng Zhao, Ranzun Zhao, Qing-Chun Zhao, Xu-Zi Zhao, Aihua Zhao, W Zhao, Yu-Cong Zhao, Shuanping Zhao, Zhikang Zhao, Renjia Zhao, Huiijin Zhao, Ze Hua Zhao, Lianmei Zhao, Ruixuan Zhao, Yuhui Zhao, Xiao-Jing Zhao, Zhen-Long Zhao, Liqin Zhao, Xingbo Zhao, Weipeng Zhao, Yanhua Zhao, Xinhan Zhao, Xiuxin Zhao, Guangshan Zhao, Xuan Zhao, Qiongyi Zhao, Zhan Zhao, Lei Zhao, Zhi-Kun Zhao, Caiqi Zhao, Jinlan Zhao, Jun-Hui Zhao, Beibei Zhao, Yuyang Zhao, Shuang Zhao, Hongfeng Zhao, Kangqi Zhao, Zitong Zhao, Yanyan Zhao, Hua Zhao, Di Zhao, Yanhong Zhao, Shaoyang Zhao, Qingshi Zhao, Mo Zhao, Jinfang Zhao, Xiuli Zhao, W S Zhao, Lujun Zhao, Hongmeng Zhao, Xiangdong Zhao, Tianna Zhao, Zhenlin Zhao, Shu-Ning Zhao, Yifang Zhao, Yan G Zhao, Yanyu Zhao, Shihua Zhao, Yongxia Zhao, Mai Zhao, Shuzhen Zhao, Weixin Zhao, Qin Zhao, Yongxiang Zhao, Ting C Zhao, Dingmeng Zhao, Xian Zhao, Yao Zhao, Tong Zhao, Yuchen Zhao, Guanghao Zhao, Liwei Zhao, Leying Zhao, Zhibo Zhao, Tian-Yu Zhao, Kaihui Zhao, Ying Zhao, Li Zhao, Suonan Zhao, Weichao Zhao, Zhengyan Zhao, Dekuang Zhao, Jikai Zhao, Xing Zhao, Hongwei Zhao, Rong Jie Zhao, Hui-Hui Zhao, Qinghe Zhao, Hengxia Zhao, Xiao-Jie Zhao, Dan Zhao, Xianglong Zhao, Sha Zhao, Bei Zhao, Jinjing Zhao, Yujiao Zhao, Jiexiu Zhao, Jing Zhao, Yue-Chao Zhao, M Zhao, Hongxia Zhao, Tongfeng Zhao, Yingmin Zhao, Qingwen Zhao, Yongju Zhao, Xiaoyao Zhao, Juan Zhao, Bangzhe Zhao, Zongjiang Zhao, Jianwen Zhao, Haonan Zhao, Junkang Zhao, Baosheng Zhao, Yunwang Zhao, Yuxi Zhao, Xinrui Zhao, Li-Bo Zhao, Xuerong Zhao, Jianhong Zhao, Xudong Zhao, Yangang Zhao, Hongda Zhao, Mingjun Zhao, Rong Zhao, Xiaodong Zhao, Weiwei Zhao, Bo Zhao, Yajie Zhao, Yingying Zhao, Xiangqin Zhao, Zhiying Zhao, Yun Zhao, Yurong Zhao, Jie-Dong Zhao, Xi-Yu Zhao, Fei Zhao, Zhenhua Zhao, Huan-Yu Zhao, Chaofen Zhao, Zhengjiang Zhao, Kaikai Zhao, Wanglin Zhao, L Zhao, Yan Ting Zhao, Zhicong Zhao, Xiaoming Zhao, Xiurong Zhao, Chen-Guang Zhao, Shuangshuang Zhao, Luqi Zhao, Ying Ming Zhao, Wei-Qian Zhao, Weiyue Zhao, Ruohan Zhao, B Zhao, Dongbao Zhao, Qilin Zhao, Xiaopeng Zhao, Guoqing Zhao, Guiping Zhao, Yanbin Zhao, Yu-Lin Zhao, Yan Zhao, Zijie Zhao, Shufen Zhao, Wenjun Zhao, Fangfang Zhao, Meifang Zhao, Jiexiang Zhao, Nan Zhao, Hu Zhao, Haixin Zhao, Liangyu Zhao, Yi Zhao, Xiumin Zhao, Xue-Li Zhao, Longhe Zhao, Yingming Zhao, Ziyu Zhao, Yixia Zhao, Ruizhen Zhao, Meiqi Zhao, Jianrong Zhao, Huanxin Zhao, Wenshan Zhao, Shao-Zhen Zhao, Jiong-Yao Zhao, Cheng-Long Zhao, Huadong Zhao, Shuyue Zhao, Mengmeng Zhao, Guanghui Zhao, Chuo Zhao, T C Zhao, Y Z Zhao, Jinshan Zhao, Hailing Zhao, Weiqi Zhao, Jing-Jing Zhao, Shunying Zhao, Chang Zhao, Zhiqiang Zhao, XiaoQing Zhao, Yuzheng Zhao, Yixiu Zhao, Jieyun Zhao, Ke Zhao, Jialin Zhao, Xiaoyu Zhao, Wencai Zhao, Heng Zhao, Hongyu Zhao, Fengdi Zhao, Linhai Zhao, Lingqiang Zhao, Jia-Li Zhao, Xia Zhao, Yubo Zhao, Cheng Zhao, Ning Zhao, Yubai Zhao, Zhihui Zhao, Pu Zhao, Jianguo Zhao, Xiang-Hui Zhao, Wen Zhao, Fangyu Zhao, Aimin Zhao, Huilin Zhao, Min Zhao, Ping Zhao, Bo-Wen Zhao, Huashan Zhao, Gaofeng Zhao, Chuan Zhao, Song-Song Zhao, Hongmei Zhao, JingLi Zhao, Hongyan Zhao, Haizhou Zhao, Wenyuan Zhao, Jia-Yi Zhao, Yongchao Zhao, Xiao-Ning Zhao, Bing-Qian Zhao, Weimin Zhao, Fangli Zhao, Fangjue Zhao, Tanjun Zhao, Jin Zhao, Shengjun Zhao, Mindi Zhao, Quanzhen Zhao, Guangyuan Zhao, Li Feng Zhao, Tieqiang Zhao, Cong Zhao, Junli Zhao, Yimu Zhao, Xingsen Zhao, Cun Zhao, Yuanzhi Zhao, Huiling Zhao, Jean J Zhao, Liang Zhao, Yudan Zhao, Yifan Zhao, Fuyu Zhao, Hanjun Zhao, Caifeng Zhao, Huan Zhao, Ye Zhao, Hui Zhao, Steven Zhao, Weisong Zhao, Wenjuan Zhao, Shuliang Zhao, Shanzhi Zhao, Yong Zhao, Chunyan Zhao, Zhiming Zhao, Wenming Zhao, Bei-Bei Zhao, Xingwang Zhao, Lin Yi Zhao, Lijian Zhao, Chenming Zhao, Yiming Zhao, Chen-Liang Zhao, Feng Zhao, Fang Zhao, Suwen Zhao, Na-Na Zhao, Wang ZHAO, Xiaoduo Zhao, Zijin Zhao, Jinbo Zhao, Xiaowen Zhao, Yanli Zhao, Runming Zhao, Ruiqi Zhao, Xiao-Fang Zhao, Xiaoli Zhao, Ying-Zheng Zhao, Hong Zhao, Yiqiang Zhao, Dongping Zhao, Yiwei Zhao, S H Zhao, Chenxu Zhao, Xiao-Yu Zhao, Fenghui Zhao, Jing-Yi Zhao, Jia-jun Zhao, Yu-Xia Zhao, Jianhua Zhao, Zhanzheng Zhao, Jinyao Zhao, Jiwei Zhao, Yulong Zhao, Xitong Zhao, Zongren Zhao, Huanyu Zhao, Wenxu Zhao, Xiaoyan Zhao, Houyu Zhao, Yuan Zhao, Shuxuan Zhao, Ming Zhao, Jinmin Zhao, Haiyan Zhao, Linlin Zhao, Jingya Zhao, Dawang Zhao, Pengjun Zhao, Qianyi Zhao, Yanrong Zhao, Mengya Zhao, Xinyang Zhao, Ming-Gao Zhao, Huiying Zhao, Defeng Zhao, Yuwen Zhao, Ruxun Zhao, Xianghu Zhao, Renfeng Zhao, Ge-Xin Zhao, Yiyang Zhao, Changle Zhao, Xingyi Zhao, Shi-Min Zhao, Yingchao Zhao, Hong-Bo Zhao, Xiaozhi Zhao, Xin-Yuan Zhao, Yiheng Zhao, Xiaofei Zhao, Ke-Xin Zhao, Lijun Zhao, Yusen Zhao, Xiaoyuan Zhao, Yuzhen Zhao, Juanjuan Zhao, Qiancheng Zhao, Lianhua Zhao, Yali Zhao, Jincun Zhao, Shan-Shan Zhao, Quan Zhao, Yuanhui Zhao, Xiaoxi Zhao, Sheng Zhao, Chun-Hui Zhao, Yanna Zhao, Siqi Zhao, Shujuan Zhao, Chao Zhao, Yuxin Zhao, Yanxiang Zhao, Song Zhao, Qitao Zhao, Yahui Zhao, Yongqi Zhao, Jianzhi Zhao, Yingdong Zhao, Mengxi Zhao, Chenchen Zhao, Bingcong Zhao, Zhihao Zhao, Qianhua Zhao, Kewen Zhao, Jianjun Zhao, Qin-Shi Zhao, Jie Zhao, Jieyu Zhao, Jiang Zhao, JingTing Zhao, Shaorong Zhao, Limei Zhao, Jiabin Zhao, Gang Zhao, Y Zhao, Bishi Zhao, Long Zhao, Huishou Zhao, Xincheng Zhao, Lijuan Zhao, Zanmei Zhao, Yixue Zhao, Wenshu Zhao, Zexi Zhao, Jie-Jun Zhao, Xiaohong Zhao, Jing Hau Zhao, Yonglong Zhao, Xiuyun Zhao, Xiaoyun Zhao, Qing Zhao, Xu Zhao, Danrui Zhao, Xinming Zhao, X Zhao, Qiqi Zhao, Z Zhao, Hanqing Zhao, Yi-Fan Zhao, Weina Zhao, Qi Zhao, Xinjie Zhao, Shuzhi Zhao, Xiu-Ju Zhao, Yichao Zhao, Xiaopei Zhao, Yunbo Zhao, Ji Zhao, Zihan Zhao, Lijia Zhao, Dongfeng Zhao, Jingjing Zhao, Yuting Zhao, Yunchao Zhao, Wen-qiu Zhao, Xipeng Zhao, Guifang Zhao, S S Zhao, Yueying Zhao, Kaiyue Zhao, Han Zhao, Jingtong Zhao, Chen Zhao, Yongjian Zhao, Zaixu Zhao, Peng Zhao, X S Zhao, Chuntao Zhao, Fan Zhao, Jingtai Zhao, Fangyi Zhao, Zhuoyan Zhao, Dong Zhao, Shuqiang Zhao, Shuang-Qiao Zhao, Lichun Zhao, Yukui Zhao, Zhen-Wang Zhao, Qiong Zhao, Feitao Zhao, Tianyong Zhao, Wang-Sheng Zhao, Andrea Zhao, Liang-gong Zhao, Ting Zhao, Jingyi Zhao, Xinlei Zhao, Tian Zhao, Yizhen Zhao, Yan-Lin Zhao, Faye Zhao, Xiutao Zhao, Cuifen Zhao, Guozhi Zhao, Y U Zhao, Huiyong Zhao, Hao Zhao, Tiancheng Zhao, Jian-hua Zhao, Xiujuan Zhao, Xinyue Zhao, Chen-Xi Zhao, Zhiwei Zhao, Jiaxuan Zhao, Yuanjin Zhao, Mengshu Zhao, Yudi Zhao, D C Zhao, Dingying Zhao, Mingming Zhao, Xiaoqin Zhao, Bingru Zhao, Aonan Zhao, Ruojin Zhao, Xiaohan Zhao, Li-Mei Zhao, Yongfei Zhao, Wei Zhao, Wanqiu Zhao, Peinan Zhao, Yeli Zhao, Guizhen Zhao, Wenhong Zhao, Chengrui Zhao, Yun-Li Zhao, Li-Li Zhao, Jiale Zhao, Lina Zhao, Binghai Zhao, Mingwei Zhao, Shuangxia Zhao, Yuanji Zhao, Chunjie Zhao, Linhua Zhao, Changzhi Zhao, Jingyuan Zhao, Chengjian Zhao, Xue-Qiao Zhao, Wanxin Zhao, Ji-jun Zhao, Fuping Zhao, Baoyu Zhao, Junqin Zhao, Huili Zhao, Jun Zhao, Jichen Zhao, Zijia Zhao, Jingjie Zhao, Yijing Zhao, En-chun Zhao, Guihu Zhao, Yong-Liang Zhao, Yuqi Zhao, Dawen Zhao, Hanhan Zhao, Zhensheng Zhao, Zeng-Ren Zhao, Yuxiao Zhao, Yanan Zhao, Junzhang Zhao, Ying Xin Zhao, Hongyi Zhao, Yueyang Zhao, Jianan Zhao, Wukui Zhao, J H Zhao, Jizong Zhao, Yong-fang Zhao, Bin Zhao, Xing-Bo Zhao, Shiji Zhao, Daqing Zhao, Kaidong Zhao, Yunli Zhao, Ming-Tao Zhao, Jie V Zhao, Mengjie Zhao, Ningkang Zhao, Yu-pei Zhao, Liansheng Zhao, J-F Zhao, Yiyi Zhao, Xinguo Zhao, Yingxin Zhao, Yuanyin Zhao, Lan Zhao, Dong-Dong Zhao, Yutong Zhao, Jingying Zhao, Xiaohui Zhao, Dechang Zhao, Yingzheng Zhao, Leyang Zhao, Keqin Zhao, Mengjia Zhao, Shiwei Zhao, Guang-Hui Zhao, Qian Zhao, Yijun Zhao, Chengcheng Zhao, Richard L Zhao, Mei Zhao, Tianjing Zhao, J Zhao, Xunying Zhao, Chengshui Zhao, Wenxin Zhao, Li-Hua Zhao, Siyuan Zhao, F Zhao, Jing Hua Zhao, Haiquan Zhao, Wenjing Zhao, Yuhong Zhao, Luo-Sha Zhao, Hong-Yang Zhao, Huakan Zhao, Huihan Zhao, Qingqing Zhao, Pingfan Zhao, Li-ke Zhao, Qianjun Zhao, Guangfeng Zhao, Yanfei Zhao
articles
Litao Li, Lipeng Dong, Zhen Xiao +6 more · 2020 · Journal of advanced research · Elsevier · added 2026-04-24
Strokes usually results in long-term disability and death, and they occur worldwide. Recently, increased research on both on the physiopathological mechanisms and the transcriptome during stroke progr Show more
Strokes usually results in long-term disability and death, and they occur worldwide. Recently, increased research on both on the physiopathological mechanisms and the transcriptome during stroke progression, have highlighted the relationship between stroke progression and immunity, with a special focus on inflammation. Here, we applied proteome analysis to a middle carotid artery occlusion (MCAO) mouse model at 0 h, 6 h, 12 h and 24 h, in which proteome profiling was performed with 23 samples, and 41 differentially expressed proteins (DEPs) were identified. Bioinformatics studies on our data revealed the importance of the immune response and particularly identified the inflammatory response, cytokine- cytokine receptor interactions, the innate immune response and reactive oxygen species (ROS) during stroke progression. In addition, we compared our data with multiple gene expression omnibus (GEO) datasets with and without a time series, in which similar pathways were identified, and three proteins, C3, Apoa4 and S100a9, were highlighted as markers or drug targets for stroke; these three proteins were significantly upregulated in the MCAO model, both in our proteomic data and in the GEO database. Show less
📄 PDF DOI: 10.1016/j.jare.2020.01.005
APOA4
Wang ZHAO, Yaqiong Liu, Xiaobo Liao +1 more · 2020 · BioMed research international · added 2026-04-24
In this paper, we sought to explore the relationship between apolipoprotein AV (
📄 PDF DOI: 10.1155/2020/3268505
APOA5
Bing Shu, Yongjian Zhao, Shitian Zhao +12 more · 2020 · Bone research · Nature · added 2026-04-24
Axin1 is a negative regulator of β-catenin signaling and its role in osteoblast precursor cells remains undefined. In the present studies, we determined changes in postnatal bone growth by deletion of
📄 PDF DOI: 10.1038/s41413-020-0104-5
AXIN1
Qingshang Li, Yi Pan, Zhijun Cao +1 more · 2020 · Frontiers in oncology · Frontiers · added 2026-04-24
📄 PDF DOI: 10.3389/fonc.2020.582667
CBX1
Jian Zhu, Sen Wei, Linchen Huang +3 more · 2020 · Journal of molecular graphics & modelling · Elsevier · added 2026-04-24
The human plasma cholesteryl ester transfer protein (CETP) collects triglycerides from very-/low-density lipoproteins (V/LDL) and exchanges them for cholesteryl esters from high-density lipoproteins ( Show more
The human plasma cholesteryl ester transfer protein (CETP) collects triglycerides from very-/low-density lipoproteins (V/LDL) and exchanges them for cholesteryl esters from high-density lipoproteins (HDL), which has recognized as an important therapeutic target for atherosclerosis. The protein has a C-terminal amphipathic α-helix that serves as self-binding peptide to fulfill biological function by dynamically binding to/unbinding from its cognate site (termed self-binding site) in the same protein. Previously, we successfully derived and halogenated the helical peptide to competitively disrupt the self-binding behavior of CETP C-terminal tail. However, the halogenated peptides have only a limited affinity increase as compared to native helical peptide (∼3-fold), thus exhibiting only a moderate competitive potency. Here, instead of optimizing the direct intermolecular interaction of peptide with CETP self-binding site we attempt to further improve the peptide competitive potency by reducing its conformational flexibility with hydrocarbon-stapling technique. Computational analysis reveals that the helical peptide has large intrinsic disorder in unbound free state, which would incur a considerable entropy penalty upon rebinding to the self-binding site. All-hydrocarbon bridge is designed and optimized on native and halogenated peptides in terms of the helical pattern and binding mode of self-binding peptide. Dynamics simulation and circular dichroism indicate that the stapling can considerably reduce peptide disorder in free state. Energetics calculation and fluorescence assay conform that the binding affinity of stapled/halogenated peptides is improved substantially (by > 5-fold), thus exhibiting an effective competition potency with native peptide for the self-binding site. Structural examination suggests that the binding modes and nonbonded interactions of native and halogenated peptides are not influenced essentially due to the stapling. Show less
no PDF DOI: 10.1016/j.jmgm.2019.107455
CETP
Qing Jin, Chen Wei, Hong-Bo Zhao +3 more · 2020 · Animal biotechnology · Taylor & Francis · added 2026-04-24
Simvastatin (SIM) is a widely used anticholesterolemic drug that blocks the biosynthesis of cholesterol. However, SIM also has pleiotropic effects on 3-hydroxy-3-methyglutary-CoA reductase (
no PDF DOI: 10.1080/10495398.2019.1607749
CETP
Pan Li, Xueqin Liu, Zhimin Hao +5 more · 2020 · Frontiers in microbiology · Frontiers · added 2026-04-24
Cip1, a newly identified yeast analog of p21, is a Cln3-CDK inhibitor that negatively regulates cell-cycle START. However, its function remains poorly understood. In this study, we found that deletion Show more
Cip1, a newly identified yeast analog of p21, is a Cln3-CDK inhibitor that negatively regulates cell-cycle START. However, its function remains poorly understood. In this study, we found that deletion of Show less
📄 PDF DOI: 10.3389/fmicb.2020.01623
CLN3
Yuping Chen, Gang Zhao, Jakub Zahumensky +2 more · 2020 · Molecular cell · Elsevier · added 2026-04-24
Yeast cells must grow to a critical size before committing to division. It is unknown how size is measured. We find that as cells grow, mRNAs for some cell-cycle activators scale faster than size, inc Show more
Yeast cells must grow to a critical size before committing to division. It is unknown how size is measured. We find that as cells grow, mRNAs for some cell-cycle activators scale faster than size, increasing in concentration, while mRNAs for some inhibitors scale slower than size, decreasing in concentration. Size-scaled gene expression could cause an increasing ratio of activators to inhibitors with size, triggering cell-cycle entry. Consistent with this, expression of the CLN2 activator from the promoter of the WHI5 inhibitor, or vice versa, interfered with cell size homeostasis, yielding a broader distribution of cell sizes. We suggest that size homeostasis comes from differential scaling of gene expression with size. Differential regulation of gene expression as a function of cell size could affect many cellular processes. Show less
📄 PDF DOI: 10.1016/j.molcel.2020.03.012
CLN3
Shiqi Guo, Xiaojia Zhang, Quanzi Bai +6 more · 2020 · International journal of molecular sciences · MDPI · added 2026-04-24
Plant height is a vital agronomic trait that greatly determines crop yields because of the close relationship between plant height and lodging resistance. Legumes play a unique role in the worldwide a Show more
Plant height is a vital agronomic trait that greatly determines crop yields because of the close relationship between plant height and lodging resistance. Legumes play a unique role in the worldwide agriculture; however, little attention has been given to the molecular basis of their height. Here, we characterized the first dwarf mutant Show less
📄 PDF DOI: 10.3390/ijms21144968
CPS1
Geting Wu, Zijin Zhao, Yuanliang Yan +10 more · 2020 · Annals of translational medicine · added 2026-04-24
Studies have increasingly shown that carbamoyl phosphate synthetase 1 ( Several biological databases including UALCAN, GEPIA and Oncomine were used to analyze the expression of The Oncomine platform, Show more
Studies have increasingly shown that carbamoyl phosphate synthetase 1 ( Several biological databases including UALCAN, GEPIA and Oncomine were used to analyze the expression of The Oncomine platform, UALCAN and gene expression profiling interactive analysis (GEPIA) were used and revealed that the expression levels of Our work indicated that Show less
📄 PDF DOI: 10.21037/atm.2020.02.146
CPS1
Lijuan Fan, Jing Zhao, Li Jiang +4 more · 2020 · Journal of clinical laboratory analysis · Wiley · added 2026-04-24
Carbamoyl phosphate synthetase 1 deficiency (CPS1D) is a rare urea cycle disorder. The aim of this study was to present the clinical findings, management, biochemical data, molecular genetic analysis, Show more
Carbamoyl phosphate synthetase 1 deficiency (CPS1D) is a rare urea cycle disorder. The aim of this study was to present the clinical findings, management, biochemical data, molecular genetic analysis, and short-term prognosis of five children with CPS1D. The information of five CPS1D patients was retrospectively studied. We used targeted next-generation sequencing to identify carbamoyl phosphate synthetase 1 (CPS1) variants in patients suspected to have CPS1D. Candidate mutations were validated by Sanger sequencing. In silico and structure analyses were processed for the pathogenicity predictions of the identified mutations. The patients had typically clinical manifestations and biochemical data of CPS1D. Genetic analysis revealed nine mutations in the CPS1 gene, including recurrence of c.1145C > T, five of which were firstly reported. Seven mutations were missense changes, while the remaining two were predicted to create premature stop codons. In silico and structure analyses showed that these genetic lesions were predicted to affect the function or stability of the enzyme. We reported five cases of CPS1D. Five novel mutations of CPS1 gene were found. Mutations of CPS1 have private nature, and most of them are missense compound heterozygous. The mutation affecting residue predicted to interfere the catalytic sites, the internal tunnel, or the regulatory domain results in severe phenotype. Show less
📄 PDF DOI: 10.1002/jcla.23124
CPS1
Aonan Zhao, Yuanyuan Li, Mengyue Niu +5 more · 2020 · Journal of cellular and molecular medicine · Blackwell Publishing · added 2026-04-24
Numerous single nucleotide polymorphisms (SNPs), which have been identified as susceptibility factors for Parkinson's disease (PD) as per genome-wide association studies, have not been fully character Show more
Numerous single nucleotide polymorphisms (SNPs), which have been identified as susceptibility factors for Parkinson's disease (PD) as per genome-wide association studies, have not been fully characterized for PD patients in China. This study aimed to replicate the relationship between 12 novel SNPs of 12 genes and PD risk in southern Chinese population. Twelve SNPs of 12 genes were detected in 231 PD patients and 249 controls, using the SNaPshot technique. Meta-analysis was used to assess heterogeneity of effect sizes between this study and published data. The impact of SNPs on gene expression was investigated by analysing the SNP-gene association in the expression quantitative trait loci (eQTL) data sets. rs8180209 of SNCA (allele model: P = .047, OR = 0.77; additive model: P = .047, OR = 0.77), rs2270968 of MCCC1 (dominant model: P = .024, OR = 1.52), rs7479949 of DLG2 (recessive model; P = .019, OR = 1.52), rs10748818 of GBF1 (additive model: P < .001, OR = 0.37), and rs4771268 of MBNL2 (recessive model: P = .003, OR = 0.48) were replicated to be significantly associated with the increased risk of PD. Noteworthy, a meta-analysis of previous studies suggested rs8180209, rs2270968, rs7479949 and rs4771268 were in line with those of our cohort. Our study replicated five novel functional SNPs in SNCA, MCCC1, DLG2, GBF1 and MBNL2 could be associated with increased risk of PD in southern Chinese population. Show less
📄 PDF DOI: 10.1111/jcmm.15508
DLG2
Xiaojing Tong, Peng Mu, Yuhua Zhang +2 more · 2020 · Journal of cellular physiology · Wiley · added 2026-04-24
Tripartite motif containing 59 (TRIM59) functions as an oncoprotein in various human cancers including ovarian cancer. In this study, we found that TRIM59 gene amplification was prevalent in ovarian c Show more
Tripartite motif containing 59 (TRIM59) functions as an oncoprotein in various human cancers including ovarian cancer. In this study, we found that TRIM59 gene amplification was prevalent in ovarian cancer tissues, and its amplification was significantly correlated with poorer overall survival. Moreover, knockdown of TRIM59 in SKOV3 and OVCAR3 cells, which had relatively high level of TRIM59, suppressed glucose uptake and lactate production. TRIM59 knockdown also decreased the expression of c-Myc and lactate dehydrogenase A, and the phosphorylation of extracellular signal-regulated kinase (ERK). TRIM59 overexpression in A2780 cells, which expressed low level of TRIM59, showed reverse effects. Notably, treatment with an ERK inhibitor (PD98059) completely abolished the oncogenic effects of TRIM59 overexpression. Interestingly, TRIM59 increased the ubiquitination of MAP kinase phosphatase 3 (MKP3), which may dephosphorylate and inactivate ERK. Ectopic expression of MKP3 inhibited the promoting effects of TRIM59 on glycolysis and the phosphorylation of ERK. TRIM59 protein expression was negatively correlated with MKP3 protein expression in ovarian cancer tissues. Finally, TRIM59 amplification potently affected the anticancer effect of 3-bromopyruvate, an inhibitor of glycolysis, in ovarian cancer cells and patient-derived xenograft. In conclusion, these results suggest that TRIM59 may regulate glycolysis in ovarian cancer via the MKP3/ERK pathway. Show less
no PDF DOI: 10.1002/jcp.29478
DUSP6
Ying Bai, Zhihui Jiao, Ning Liu +3 more · 2020 · Zhonghua yi xue yi chuan xue za zhi = Zhonghua yixue yichuanxue zazhi = Chinese journal of medical genetics · added 2026-04-24
To detect variants of EXT1 and EXT2 genes among five pedigrees affected with multiple osteochondromas and provide prenatal diagnosis for the families based on the results. The EXT1 and EXT2 genes of t Show more
To detect variants of EXT1 and EXT2 genes among five pedigrees affected with multiple osteochondromas and provide prenatal diagnosis for the families based on the results. The EXT1 and EXT2 genes of the probands were analyzed by targeted next generation sequencing (NGS). Suspected pathological variants were validated by Sanger sequencing in the probands, their family members and 200 unrelated healthy controls. Multiple ligation-dependent probe amplification (MLPA) was used to confirm the presence of gross deletions. Prenatal diagnosis was provided for 2 couples carrying pathogenic or likely pathogenic variants. Five variants were detected in the pedigrees, which included EXT1 exon 2-3 deletion, c.1468dupC (p.Leu490ProfsX31), c.2084delC (p.Pro695LeufsX11), and EXT2 c.187delT (p.Phe63SerfsX29) and c.1362T>G (p.Tyr454X). Among these, EXT1 exon 2-3 deletion, c.2084delC (p.Pro695LeufsX11) and EXT2 c.187delT (p.Phe63SerfsX29) were unreported previously. The three novel variants were not found among unaffected members of the pedigree and the 200 healthy controls. Upon prenatal diagnosis, the two fetuses were found to carry the same variants of the the probands. Pathological variants of the EXT1 and EXT2 genes probably underlie the multiple osteochondromas among the 5 pedigrees. Prenatal diagnosis based on the results can effectively reduce the birth of further offspring affected with the disease. Show less
no PDF DOI: 10.3760/cma.j.issn.1003-9406.2020.07.004
EXT1
Chengcheng Zhao, Nannan Yu, Wenqun Li +5 more · 2020 · Frontiers in pharmacology · Frontiers · added 2026-04-24
"Lipotoxicity" induced by free fatty acids (FAs) plays a central role in the pathogenesis of many metabolic diseases, with few treatment options available today. Hydrogen sulfide (H
📄 PDF DOI: 10.3389/fphar.2020.549377
FADS1
Xue Wang, Graeme B Martin, Qi Wen +7 more · 2020 · Journal of animal science and biotechnology · BioMed Central · added 2026-04-24
In ruminants, dietary C18:3n-3 can be lost through biohydrogenation in the rumen; and C18:3n-3 that by-passes the rumen still can be lost through oxidation in muscle, theoretically reducing the deposi Show more
In ruminants, dietary C18:3n-3 can be lost through biohydrogenation in the rumen; and C18:3n-3 that by-passes the rumen still can be lost through oxidation in muscle, theoretically reducing the deposition of C18:3n-3, the substrate for synthesis of poly-unsaturated fatty acids (n-3 LCPUFA) in muscle. Compared with the LSO diet, the MIX diet decreased the relative abuandance of In cashmere goat kids, a combination of linseed and palm oils in the diet increases the muscle concentration of n-3 LCPUFA, apparently by decreasing the relative abundance of rumen bacteria that are positively related to the proportional loss rate of dietary C18:3n-3, by inhibiting mRNA expression of genes related to C18:3n-3 oxidation in muscle, and by up-regulating mRNA expression of genes related to n-3 LCPUFA synthesis in muscle, especially in Show less
📄 PDF DOI: 10.1186/s40104-020-00502-w
FADS1
Rui Zhao, Linli Tian, Bo Zhao +7 more · 2020 · Cell death & disease · Nature · added 2026-04-24
Metabolic abnormality is the major feature of laryngeal squamous cell carcinoma (LSCC), however, the underlying mechanism remain largely elusive. Fatty acid desaturase 1 (FADS1), as the key rate-limit Show more
Metabolic abnormality is the major feature of laryngeal squamous cell carcinoma (LSCC), however, the underlying mechanism remain largely elusive. Fatty acid desaturase 1 (FADS1), as the key rate-limiting enzyme of polyunsaturated fatty acids (PUFAs), catalyzes dihomo-gamma-linolenic acid (DGLA) to arachidonic acid (AA). In this study, we reported that the expression of FADS1 was upregulated in LSCC, high FADS1 expression was closely associated with the advanced clinical features and poor prognosis of the recurrent LSCC patients after chemotherapy. Liquid chromatograph-mass spectrometry (LC-MS) analysis revealed that FADS1 overexpression induced greater conversion of DGLA to AA, suggesting an increased activity of FADS1. Similarly, the level of prostaglandin E2 (PGE Show less
📄 PDF DOI: 10.1038/s41419-020-2457-5
FADS1
Jorge Carvalho, Ramesh Chennupati, Rui Li +9 more · 2020 · Circulation · added 2026-04-24
G protein-coupled receptors are important regulators of contractility and differentiation in vascular smooth muscle cells (SMCs), but the specific function of SMC-expressed orphan G protein-coupled re Show more
G protein-coupled receptors are important regulators of contractility and differentiation in vascular smooth muscle cells (SMCs), but the specific function of SMC-expressed orphan G protein-coupled receptor class C group 5 member B (GPRC5B) is unclear. We studied the role of GPRC5B in the regulation of contractility and dedifferentiation in human and murine SMCs in vitro and in iSM- Mesenteric arteries from SMC-specific Taken together, our data show that GPRC5B regulates vascular SMC tone and differentiation by negatively regulating IP signaling. Show less
no PDF DOI: 10.1161/CIRCULATIONAHA.119.043703
GPRC5B
Haibo Yu, Wei Hu, Xiang Song +1 more · 2020 · Molecular biology reports · Springer · added 2026-04-24
Previous works characterized a novel cell population from adult human peripheral blood, designated peripheral blood insulin-producing cells (PB-IPC). PB-IPC displayed the pluripotent potential of diff Show more
Previous works characterized a novel cell population from adult human peripheral blood, designated peripheral blood insulin-producing cells (PB-IPC). PB-IPC displayed the pluripotent potential of differentiations after the treatment with platelet-derived mitochondria and gave rise to three germ layer-derived cells such as the mitochondrion-induced CD34 Show less
no PDF DOI: 10.1007/s11033-020-05874-w
HEY2
Jing Qiao, Jinping Zhao, Shujuan Chang +14 more · 2020 · Cell death and differentiation · Nature · added 2026-04-24
Aging-related cognitive ability impairments are one of the main threats to public health, and impaired hippocampal neurogenesis is a major cause of cognitive decline during aging. However, the regulat Show more
Aging-related cognitive ability impairments are one of the main threats to public health, and impaired hippocampal neurogenesis is a major cause of cognitive decline during aging. However, the regulation of adult neurogenesis in the hippocampus requires further study. Here, we investigated the role of microRNA-153 (miR-153), a highly conserved microRNA in mice and humans, in adult neurogenesis. During the passaging of neural stem cells (NSCs) in vitro, endogenous miR-153 expression was downregulated, with a decrease in neuronal differentiation ability. In addition, miR-153 overexpression increased the neurogenesis of NSCs. Further studies showed that miR-153 regulated neurogenesis by precisely targeting the Notch signaling pathway through inhibition of Jagged1 and Hey2 translation. In vivo analysis demonstrated that miR-153 expression was decreased in the hippocampi of aged mice with impaired cognitive ability, and that miR-153 overexpression in the hippocampus promoted neurogenesis and markedly increased the cognitive abilities of the aged mice. Overall, our findings revealed that miR-153 affected neurogenesis by regulating the Notch signaling pathway and elucidated the function of miR-153 in aging-related, hippocampus-dependent cognitive ability impairments, and neurodegenerative diseases. Show less
no PDF DOI: 10.1038/s41418-019-0388-4
HEY2
Lixin Zheng, Shengru Wu, Jing Shen +6 more · 2020 · Journal of animal science and biotechnology · BioMed Central · added 2026-04-24
Starch is an important substance that supplies energy to ruminants. To provide sufficient energy for high-yielding dairy ruminants, they are typically fed starch-enriched diets. However, starch-enrich Show more
Starch is an important substance that supplies energy to ruminants. To provide sufficient energy for high-yielding dairy ruminants, they are typically fed starch-enriched diets. However, starch-enriched diets have been proven to increase the risk of milk fat depression (MFD) in dairy cows. The starch present in ruminant diets could be divided into rumen-degradable starch (RDS) and rumen escaped starch (RES) according to their different degradation sites (rumen or intestine). Goats and cows have different sensitivities to MFD. Data regarding the potential roles of RDS in milk fat synthesis in the mammary tissue of dairy goats and in regulating the occurrence of MFD are limited. Eighteen Guanzhong dairy goats (day in milk = 185 ± 12 d) with similar parity, weight, and milk yield were selected and randomly assigned to one of three groups ( HRDS-induced goat MFD resulted from the downregulation of genes involved in lipogenesis, particularly, Show less
📄 PDF DOI: 10.1186/s40104-020-00436-3
HSD17B12
Zongqi Ju, Jing Ya, Xinyi Li +2 more · 2020 · Aquatic toxicology (Amsterdam, Netherlands) · Elsevier · added 2026-04-24
Cadmium (Cd) a highly toxic metal to human and wildlife health and it is hazardous to both terrestrial and aquatic life. In this study, we used RNA sequencing analysis to examine the effects of chroni Show more
Cadmium (Cd) a highly toxic metal to human and wildlife health and it is hazardous to both terrestrial and aquatic life. In this study, we used RNA sequencing analysis to examine the effects of chronic cadmium exposure on liver lipid metabolism of Bufo gargarizans larvae. Tadpoles were exposed to cadmium concentrations at 0, 5, 10, 50, 100 and 200 μg L Show less
no PDF DOI: 10.1016/j.aquatox.2020.105470
HSD17B12
Hua Yang, Jianyu Ma, Zhibo Wang +5 more · 2020 · Genes · MDPI · added 2026-04-24
Long noncoding RNA (lncRNA) plays a crucial role in the hypothalamic-pituitary-testis (HPT) axis associated with sheep reproduction. The pituitary plays a connecting role in the HPT axis. However, lit Show more
Long noncoding RNA (lncRNA) plays a crucial role in the hypothalamic-pituitary-testis (HPT) axis associated with sheep reproduction. The pituitary plays a connecting role in the HPT axis. However, little is known of their expression pattern and potential roles in the pituitary gland. To explore the potential lncRNAs that regulate the male sheep pituitary development and sexual maturation, we constructed immature and mature sheep pituitary cDNA libraries (three-month-old, TM, and nine-month-old, NM, respectively, n = 3) for lncRNA and mRNA high-throughput sequencing. Firstly, the expression of lncRNA and mRNA were comparatively analyzed. 2417 known lncRNAs and 1256 new lncRNAs were identified. Then, 193 differentially expressed (DE) lncRNAs and 1407 DE mRNAs were found in the pituitary between the two groups. Moreover, mRNA-lncRNA interaction network was constructed according to the target gene prediction of lncRNA and functional enrichment analysis. Five candidate lncRNAs and their targeted genes Show less
📄 PDF DOI: 10.3390/genes11030320
HSD17B12
Xiao-Jiao Liu, Lin-Jie Zhang, Ming Yi +6 more · 2020 · Translational neuroscience · added 2026-04-24
Interleukin-27 (IL-27), which belongs to IL-12 family, influences the function of T cells (Tregs) through regulating the expression, and function of forkhead box P3 (FoxP3). In this study, we detected Show more
Interleukin-27 (IL-27), which belongs to IL-12 family, influences the function of T cells (Tregs) through regulating the expression, and function of forkhead box P3 (FoxP3). In this study, we detected the IL-27 serum levels in 59 myasthenia gravis (MG) patients and 35 healthy controls (HCs). Among them, 32 MG patients received immunoglobulin intravenous (IVIG) injections (0.4 g/kg per day for 5 consecutive days). IL-27 levels were collected before and after the treatments and subjected to a comparative study. Finally, we assessed the correlations of IL-27 levels with the clinical characteristics of MG. As a result, serum IL-27 levels were significantly higher in MG patients than those in the HCs. Meanwhile, significant reduction was detected after the IVIG treatment. IL-27 levels positively correlated with both MG activities of daily living and quantitative MG score. IL-27 may participate in the pathogenesis of MG and can be used as an early marker for the diagnosis and prognosis of MG. In addition, IL-27 can be used as a target for MG treatment through the regulation of specific immune signaling and maintaining immune homeostasis. Show less
📄 PDF DOI: 10.1515/tnsci-2020-0134
IL27

IL-27 Rα

Shanshan Zhao, Ting Liang, Chao Zhang +4 more · 2020 · Journal of cellular and molecular medicine · Blackwell Publishing · added 2026-04-24
Recently, emerging evidence strongly suggested that the activation of interleukin-27 Receptor α (IL-27Rα) could modulate different inflammatory diseases. However, whether IL-27Rα affects allotransplan Show more
Recently, emerging evidence strongly suggested that the activation of interleukin-27 Receptor α (IL-27Rα) could modulate different inflammatory diseases. However, whether IL-27Rα affects allotransplantation rejection is not fully understood. Here, we investigated the role of IL-27Rα on allorejection both in vivo and in vitro. The skin allotransplantation mice models were established, and the dynamic IL-27Rα/IL-27 expression was detected, and IL-27Rα Show less
📄 PDF DOI: 10.1111/jcmm.15700
IL27
Jie Zhao, Yuyun Li, Wen Zhang · 2020 · BMC infectious diseases · BioMed Central · added 2026-04-24
IL-6 was associated with the severity of mycoplasma pneumoniae pneumonia (MPP). But the relationship between IL-27 and MPP was unknown. Ninety-eight patients with MPP < 14 years old were enrolled in t Show more
IL-6 was associated with the severity of mycoplasma pneumoniae pneumonia (MPP). But the relationship between IL-27 and MPP was unknown. Ninety-eight patients with MPP < 14 years old were enrolled in this study and divided into groups by severity (mild cases and severe cases), infection types (MP single infection group and MP mixed infection group) and DNA loads (low MP DNA loads group and high MP DNA loads group), respectively. Fifteen children with foreign bodies in bronchus were also enrolled as control. IL-6 s and IL-27 s in bronchoalveolar lavage fluids (BALFs) from these children were measured by ELISA. There were significant differences in IL-6 s of BALFs from patients between mild cases and severe cases, MP single infection group and MP mixed infection group, and low MP DNA loads group and high MP DNA loads group, respectively (P < 0.05). Compared with IL-6 s of BALFs from control, IL-6 s in BALFs from the 6 patient groups were significantly higher (P < 0.05). IL-27 s in BALFs from MP mixed infection group were significantly lower than those from MP single infection group and control (P < 0.05) respectively. IL-6 was firmly associated with MPP and had potential application in clinical practice while IL-27 was not related to MP infection. Show less
📄 PDF DOI: 10.1186/s12879-020-05017-3
IL27
Li Wang, Yixiang Li, Bei Guo +12 more · 2020 · Endocrinology · added 2026-04-24
Myeloid-derived growth factor (MYDGF), which is produced by bone marrow-derived cells, mediates cardiac repair following myocardial infarction by inhibiting cardiac myocyte apoptosis to subsequently r Show more
Myeloid-derived growth factor (MYDGF), which is produced by bone marrow-derived cells, mediates cardiac repair following myocardial infarction by inhibiting cardiac myocyte apoptosis to subsequently reduce the infarct size. However, the function of MYDGF in the incretin system of diabetes is still unknown. Here, loss-of-function and gain-of-function experiments in mice revealed that MYDGF maintains glucose homeostasis by inducing glucagon-like peptide-1 (GLP-1) production and secretion and that it improves glucose tolerance and lipid metabolism. Treatment with recombinant MYDGF increased the secretion and production of GLP-1 in STC-1 cells in vitro. Mechanistically, the positive effects of MYDGF are potentially attributable to the activation of protein kinase A/glycogen synthase kinase 3β/β-catenin (PKA/GSK-3β/β-catenin) and mitogen-activated protein kinase (MAPK) kinases/extracellular regulated protein kinase (MEK/ERK) pathways. Based on these findings, MYDGF promotes the secretion and production of GLP-1 in intestinal L-cells and potentially represents a potential therapeutic medication target for type 2 diabetes. Show less
no PDF DOI: 10.1210/endocr/bqaa003
IL27
Shuang Yu, Yihong Li, Hongwei Zhao +2 more · 2020 · Frontiers in physiology · Frontiers · added 2026-04-24
The roles of the histone demethylase JMJD1C in cardiac hypertrophy remain unknown. JMJD1C was overexpressed in hypertrophic hearts of humans and mice, whereas the histone methylation was reduced.
📄 PDF DOI: 10.3389/fphys.2020.00539
JMJD1C
Xin Xu, Lin Wang, Linda Hu +10 more · 2020 · International journal of cancer · Wiley · added 2026-04-24
Histone demethylases are promising therapeutic targets as they play fundamental roles for survival of Mixed lineage leukemia rearranged acute leukemia (MLLr AL). Here we focused on the catalytic Jumon Show more
Histone demethylases are promising therapeutic targets as they play fundamental roles for survival of Mixed lineage leukemia rearranged acute leukemia (MLLr AL). Here we focused on the catalytic Jumonji domain of histone H3 lysine 9 (H3K9) demethylase JMJD1C to screen for potential small molecular modulators from 149,519 natural products and 33,765 Chinese medicine components via virtual screening. JMJD1C Jumonji domain inhibitor 4 (JDI-4) and JDI-12 that share a common structural backbone were detected within the top 15 compounds. Surface plasmon resonance analysis showed that JDI-4 and JDI-12 bind to JMJD1C and its family homolog KDM3B with modest affinity. In vitro demethylation assays showed that JDI-4 can reverse the H3K9 demethylation conferred by KDM3B. In vivo demethylation assays indicated that JDI-4 and JDI-12 could induce the global increase of H3K9 methylation. Cell proliferation and colony formation assays documented that JDI-4 and JDI-12 kill MLLr AL and other malignant hematopoietic cells, but not leukemia cells resistant to JMJD1C depletion or cord blood cells. Furthermore, JDI-16, among multiple compounds structurally akin to JDI-4/JDI-12, exhibits superior killing activities against malignant hematopoietic cells compared to JDI-4/JDI-12. Mechanistically, JDI-16 not only induces apoptosis but also differentiation of MLLr AL cells. RNA sequencing and quantitative PCR showed that JDI-16 induced gene expression associated with cell metabolism; targeted metabolomics revealed that JDI-16 downregulates lactic acids, NADP Show less
no PDF DOI: 10.1002/ijc.32552
JMJD1C
Zhihao Chen, Fan Zhao, Chao Liang +17 more · 2020 · Theranostics · added 2026-04-24
Emerging evidence is revealing that microRNAs (miRNAs) play essential roles in mechanosensing for regulating osteogenesis. However, no mechanoresponsive miRNAs have been identified in human bone speci Show more
Emerging evidence is revealing that microRNAs (miRNAs) play essential roles in mechanosensing for regulating osteogenesis. However, no mechanoresponsive miRNAs have been identified in human bone specimens. Show less
📄 PDF DOI: 10.7150/thno.53009
MACF1