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Sexual differentiation and juvenile hermaphroditism in silver pomfrets: Direction, process, and dietary factors Journal article
Li, Yaya, Yuan, Mingzhe, Shi, Peng, Cai, Keyan, Hu, Jiabao, Zhang, Man, Zhang, Youyi, Li, Yuanbo, Tang, Mengke, Feng, Zukang, Qin, Chunlai, Ge, Wei, Yan, Xiaojun, Wang, Xubo, Wang, Yajun. Sexual differentiation and juvenile hermaphroditism in silver pomfrets: Direction, process, and dietary factors[J]. Aquaculture, 2024, 592, 741188.
Authors:  Li, Yaya;  Yuan, Mingzhe;  Shi, Peng;  Cai, Keyan;  Hu, Jiabao; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:3.9/4.1 | Submit date:2024/07/04
Juvenile Hermaphroditism  Lipid Supply  Oocyte Apoptosis  Sexual Differentiation  Silver Pomfret  
Pattern differentiation methods and its clinical application of tangible or intangible abdominal masses of kidney collaterals Journal article
Li, Xue, Gao, Jing, Zheng, Shijing, Peng, Bo, Wang, Shichang, Zhao, Xinyu, Zhou, Yan, Li, Jing. Pattern differentiation methods and its clinical application of tangible or intangible abdominal masses of kidney collaterals[J]. Journal of Beijing University of Traditional Chinese Medicine, 2024, 47(8), 1049-1054.
Authors:  Li, Xue;  Gao, Jing;  Zheng, Shijing;  Peng, Bo;  Wang, Shichang; et al.
Favorite | TC[Scopus]:0 | Submit date:2024/10/10
Chronic Kidney Disease  Chronic, Deficiency, And Wane Consumptive Conditions  Eight Stagnation Patterns  Pattern Differentiation Methods  Tangible Or inTangible Abdominal Masses Of Kidney Collaterals  Three Main Patterns And Four Secondary Patterns  
Electric field stimulation boosts neuronal differentiation of neural stem cells for spinal cord injury treatment via PI3K/Akt/GSK-3β/β-catenin activation Journal article
Liu, Qian, Telezhkin, Vsevolod, Jiang, Wenkai, Gu, Yu, Wang, Yan, Hong, Wei, Tian, Weiming, Yarova, Polina, Zhang, Gaofeng, Lee, Simon Ming yuen, Zhang, Peng, Zhao, Min, Allen, Nicholas D., Hirsch, Emilio, Penninger, Josef, Song, Bing. Electric field stimulation boosts neuronal differentiation of neural stem cells for spinal cord injury treatment via PI3K/Akt/GSK-3β/β-catenin activation[J]. Cell and Bioscience, 2023, 13(1).
Authors:  Liu, Qian;  Telezhkin, Vsevolod;  Jiang, Wenkai;  Gu, Yu;  Wang, Yan; et al.
Favorite | TC[WOS]:16 TC[Scopus]:20  IF:6.1/7.0 | Submit date:2023/02/28
Neural Stem Cells  Electric Field Stimulation  Neuronal Differentiation  Pi3k/akt/gsk-3β/β-catenin  Spinal Cord Injury  
Exosomal miRNA-155-5p from M1-polarized macrophages suppresses angiogenesis by targeting GDF6 to interrupt diabetic wound healing Journal article
Lou, Ruohan, Chen, Jiali, Zhou, Fei, Zhang, Tian, Chen, Xiuping, Wang, Chunming, Guo, Bing, Lin, Ligen. Exosomal miRNA-155-5p from M1-polarized macrophages suppresses angiogenesis by targeting GDF6 to interrupt diabetic wound healing[J]. Molecular Therapy Nucleic Acids, 2023, 34, 102074.
Authors:  Lou, Ruohan;  Chen, Jiali;  Zhou, Fei;  Zhang, Tian;  Chen, Xiuping; et al.
Favorite | TC[WOS]:9 TC[Scopus]:11  IF:6.5/6.7 | Submit date:2024/01/02
Angiogenesis  Diabetic Wound Healing  Growth Differentiation Factor 6  Microrna Expression Profiles  Mt: Oligonucleotides: Therapies And Applications  Polarized Macrophage-derived Exosomes  Thermosensitive Hydrogel  
BRD9-mediated control of the TGF-β/Activin/Nodal pathway regulates self-renewal and differentiation of human embryonic stem cells and progression of cancer cells Journal article
Wang, Xuepeng, Song, Chengcheng, Ye, Ying, Gu, Yashi, Li, Xuemei, Chen, Peixin, Leng, Dongliang, Xiao, Jing, Wu, Hao, Xie, Sisi, Liu, Weiwei, Zhao, Qi, Chen, Di, Chen, Xi, Wu, Qiang, Chen, Guokai, Zhang, Wensheng. BRD9-mediated control of the TGF-β/Activin/Nodal pathway regulates self-renewal and differentiation of human embryonic stem cells and progression of cancer cells[J]. Nucleic Acids Research, 2023, 51(21), 11634-11651.
Authors:  Wang, Xuepeng;  Song, Chengcheng;  Ye, Ying;  Gu, Yashi;  Li, Xuemei; et al.
Favorite | TC[WOS]:3 TC[Scopus]:4  IF:16.6/16.1 | Submit date:2024/01/10
Cardiac Differentiation  Pluripotency  Complex  Resistance  Nanog  Brd9  Baf  
Macromolecule-based hydrogels nanoarchitectonics with mesenchymal stem cells for regenerative medicine: A review Review article
2023
Authors:  Tian,Bingren;  Liu,Jiayue;  Guo,Songlin;  Li,Aiqin;  Wan,Jian Bo
Favorite | TC[WOS]:12 TC[Scopus]:12  IF:7.7/7.7 | Submit date:2023/08/03
Clinic Therapy  Differentiation  Macromolecule-based Hydrogel Nanoarchitectonics  Mesenchymal Stem Cells  Regenerative Medicine  
Macromolecule-based hydrogels nanoarchitectonics with mesenchymal stem cells for regenerative medicine: A review Journal article
Tian, Bingren, Liu, Jiayue, Guo, Songlin, Li, Aiqin, Wan, Jian Bo. Macromolecule-based hydrogels nanoarchitectonics with mesenchymal stem cells for regenerative medicine: A review[J]. International Journal of Biological Macromolecules, 2023, 243.
Authors:  ; et al.
Favorite | TC[WOS]:12 TC[Scopus]:12  IF:7.7/7.7 | Submit date:2024/01/02
Clinic therapy  Differentiation  Macromolecule-based hydrogel nanoarchitectonics  Mesenchymal stem cells  Regenerative medicine  
The enormous repetitive Antarctic krill genome reveals environmental adaptations and population insights Journal article
Shao, Changwei, Sun, Shuai, Liu, Kaiqiang, Wang, Jiahao, Li, Shuo, Liu, Qun, Deagle, Bruce E., Seim, Inge, Biscontin, Alberto, Wang, Qian, Liu, Xin, Kawaguchi, So, Liu, Yalin, Jarman, Simon, Wang, Yue, Wang, Hong Yan, Huang, Guodong, Hu, Jiang, Feng, Bo, De Pittà, Cristiano, Liu, Shanshan, Wang, Rui, Ma, Kailong, Ying, Yiping, Sales, Gabrielle, Sun, Tao, Wang, Xinliang, Zhang, Yaolei, Zhao, Yunxia, Pan, Shanshan, Hao, Xiancai, Wang, Yang, Xu, Jiakun, Yue, Bowen, Sun, Yanxu, Zhang, He, Xu, Mengyang, Liu, Yuyan, Jia, Xiaodong, Zhu, Jiancheng, Liu, Shufang, Ruan, Jue, Zhang, Guojie, Yang, Huanming, Xu, Xun, Wang, Jun, Zhao, Xianyong, Meyer, Bettina, Fan, Guangyi. The enormous repetitive Antarctic krill genome reveals environmental adaptations and population insights[J]. Cell, 2023, 186(6), 1279-1294.e19.
Authors:  Shao, Changwei;  Sun, Shuai;  Liu, Kaiqiang;  Wang, Jiahao;  Li, Shuo; et al.
Favorite | TC[WOS]:34 TC[Scopus]:36  IF:45.5/49.0 | Submit date:2023/04/03
Antarctic Krill (Euphausia Superba)  Chromosome-level Genome  Circadian Clock  Environmental Adaptation  Giant Genome Size  Population Demography  Population Differentiation  Repeat Expansions  
CTCF acetylation at lysine 20 is required for the early cardiac mesoderm differentiation of embryonic stem cells Journal article
Shixin Gong, Gongcheng Hu, Rong Guo, Jie Zhang, Yiqi Yang, Binrui Ji, Gang Li, Hongjie Yao. CTCF acetylation at lysine 20 is required for the early cardiac mesoderm differentiation of embryonic stem cells[J]. Cell Regeneration, 2022, 11(1), 34.
Authors:  Shixin Gong;  Gongcheng Hu;  Rong Guo;  Jie Zhang;  Yiqi Yang; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3 | Submit date:2023/01/30
Cbp  Ctcf  Ctcf Acetylation  Early Cardiac Mesoderm Differentiation  Hdac6  
Thymosin Beta 15 Alters the Spatial Development of Thymic Epithelial Cells Journal article
Xie Xu, Kai He, Robert D. Hoffman, Yuyuan Ying, Nana Tao, Wenqin Guo, Jiaman Shen, Xi Liu, Meiya Li, Meiqiu Yan, Guiyuan Lv, Jianli Gao. Thymosin Beta 15 Alters the Spatial Development of Thymic Epithelial Cells[J]. Cells, 2022, 11(22), 3679.
Authors:  Xie Xu;  Kai He;  Robert D. Hoffman;  Yuyuan Ying;  Nana Tao; et al.
Favorite | TC[WOS]:6 TC[Scopus]:7  IF:5.1/6.0 | Submit date:2022/12/01
Action Binding Protein  Reticular Differentiation  Thymocytes  Thymosin Beta 15  Thymic Epithelial Cells