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机译:增加了系统性硬化症功能受损的调节性T细胞亚集比的比例
Department of Immunology and Biotechnology University of Pécs;
Department of Immunology and Biotechnology University of Pécs;
Department of Pediatrics University Hospital Würzburg;
Department of Immunology and Biotechnology University of Pécs;
Department of Immunology and Biotechnology University of Pécs;
Department of Immunology and Biotechnology University of Pécs;
Department of Immunology and Biotechnology University of Pécs;
Department of Pediatrics University Hospital Würzburg;
Department of Rheumatology and Immunology University of Pécs;
Department of Immunology and Biotechnology University of Pécs;
Epigenetic regulation; FOXP3; IL-10; Regulatory T cells; Systemic sclerosis; TGF-β;
机译:增加了系统性硬化症功能受损的调节性T细胞亚集比的比例
机译:CD4(+)组1先天淋巴样细胞(ILC)形成功能不同的ILC亚集,增加系统性硬化症。
机译:更正:CD4 +组1先天淋巴样细胞(ILC)形成功能不同的ILC亚型,在系统性硬化症中增加
机译:MicroRNA调控网络参与人类胚胎干细胞衍生的心肌细胞功能受损
机译:干扰素调节因子5及其系统性红斑狼疮相关风险等位基因在人B细胞中的功能研究
机译:CD4 +第1组先天淋巴样细胞形成功能独特的ILC子集在系统性硬化症中增加
机译:校正:CD4 +第1组先天淋巴细胞(ILC)形成具有在系统性硬化症中增加的功能性不同的ILC子集