以鲤肾脏组织RNA为模板,扩增并克隆鲤环指蛋白2(RING Finger Protein 2,RNF2)基因的CDS区全长,分析其组织表达谱。结果显示,鲤RNF2基因的CDS区序列长1011 bp,编码336个氨基酸;该基因与鲫、斑马鱼、金头鲷、海洋青鳉鱼、鳕鱼、非洲爪蟾...以鲤肾脏组织RNA为模板,扩增并克隆鲤环指蛋白2(RING Finger Protein 2,RNF2)基因的CDS区全长,分析其组织表达谱。结果显示,鲤RNF2基因的CDS区序列长1011 bp,编码336个氨基酸;该基因与鲫、斑马鱼、金头鲷、海洋青鳉鱼、鳕鱼、非洲爪蟾、尖尾娇鹟、小鼠、智人的同源性分别为98.2%、93.1%、78.0%、79.2%、79.2%、73.9%、78.1%、72.7%、72.7%;理化性质分析表明,RNF2蛋白分子质量为37.44 kD,理论等电点(pI)为6.28,脂肪系数为74.97%,不稳定指数为36.75,无跨膜结构和信号肽;亚细胞定位预测分析表明,该蛋白定位于细胞核(52.2%)、线粒体(26.1%)、细胞质(17.4%)和过氧化物酶体(4.3%)。蛋白质结构域分析表明该蛋白含RING结构域和RAWUL结构域,且RING结构域与斑马鱼、小鼠和智人完全一致;二级结构和三级结构表明,鲤鱼RNF2蛋白含有α-螺旋(35.12%)、延伸链(8.63%)、β-转角(0.89%)和无规则卷曲(55.36%);泛素化底物预测显示,TP53、IRF4、HIST2H2AC、H3F3B和HIST3H3作为RNF2蛋白的底物具有较高的置信度;实时荧光定量PCR结果显示,鲤RNF2基因在肌肉中表达量最高,其次是头肾和肝脏,在肾脏中表达量最低。这些结果为进一步研究RNF2在鲤鱼抗病毒应答中的作用提供了基础信息。展开更多
Autophagy is an evolutionarily conserved lysosome-mediated catabolic process(Klionsky,2007).Autophagy is believed to be essential for cell survival,especially when cells were exposed to stresses,such as nutrient sta...Autophagy is an evolutionarily conserved lysosome-mediated catabolic process(Klionsky,2007).Autophagy is believed to be essential for cell survival,especially when cells were exposed to stresses,such as nutrient starvation.展开更多
SAG(Sensitive to Apoptosis Gene),also known as RBX2(RING box protein 2),ROC2(Regulator of Cullins 2),or RNF7(RING Finger Protein 7),was originally cloned in our laboratory as a redox inducible antioxi-dant protein and...SAG(Sensitive to Apoptosis Gene),also known as RBX2(RING box protein 2),ROC2(Regulator of Cullins 2),or RNF7(RING Finger Protein 7),was originally cloned in our laboratory as a redox inducible antioxi-dant protein and later characterized as the second member of the RBX/ROC RING component of the SCF(SKP1-CUL-F-box Proteins)E3 ubiquitin ligase.When acting alone,SAG scavenges oxygen radicals by forming inter-and intra-molecular disulfide bonds,whereas by forming a complex with other components of the SCF E3 ligase,SAG promotes ubiquitination and degradation of a number of protein substrates,includ-ing c-JUN,DEPTOR,HIF-1α,IκBα,NF1,NOXA,p27,and procaspase-3,thus regulating various signaling path-ways and biological processes.Specifically,SAG pro-tects cells from apoptosis,confers radioresistance,and plays an essential and non-redundant role in mouse embryogenesis and vasculogenesis.Furthermore,stress-inducible SAG is overexpressed in a number of human cancers and SAG overexpression correlates with poor patient prognosis.Finally,SAG transgenic expression in epidermis causes an early stage inhibi-tion,but later stage promotion,of skin tumorigenesis triggered by DMBA/TPA.Given its major role in pro-moting targeted degradation of tumor suppressive proteins,leading to apoptosis suppression and accel-erated tumorigenesis,SAG E3 ligase appears to be an attractive anticancer target.展开更多
基金supported by the National Basic Research Program of China (973 Program)(No.2016YFA0100400)the National Natural Science Foundation of China(No.81773009)
文摘Autophagy is an evolutionarily conserved lysosome-mediated catabolic process(Klionsky,2007).Autophagy is believed to be essential for cell survival,especially when cells were exposed to stresses,such as nutrient starvation.
基金supported by the NCI grants(CA118762 and CA156744)to Yi Sun.
文摘SAG(Sensitive to Apoptosis Gene),also known as RBX2(RING box protein 2),ROC2(Regulator of Cullins 2),or RNF7(RING Finger Protein 7),was originally cloned in our laboratory as a redox inducible antioxi-dant protein and later characterized as the second member of the RBX/ROC RING component of the SCF(SKP1-CUL-F-box Proteins)E3 ubiquitin ligase.When acting alone,SAG scavenges oxygen radicals by forming inter-and intra-molecular disulfide bonds,whereas by forming a complex with other components of the SCF E3 ligase,SAG promotes ubiquitination and degradation of a number of protein substrates,includ-ing c-JUN,DEPTOR,HIF-1α,IκBα,NF1,NOXA,p27,and procaspase-3,thus regulating various signaling path-ways and biological processes.Specifically,SAG pro-tects cells from apoptosis,confers radioresistance,and plays an essential and non-redundant role in mouse embryogenesis and vasculogenesis.Furthermore,stress-inducible SAG is overexpressed in a number of human cancers and SAG overexpression correlates with poor patient prognosis.Finally,SAG transgenic expression in epidermis causes an early stage inhibi-tion,but later stage promotion,of skin tumorigenesis triggered by DMBA/TPA.Given its major role in pro-moting targeted degradation of tumor suppressive proteins,leading to apoptosis suppression and accel-erated tumorigenesis,SAG E3 ligase appears to be an attractive anticancer target.