1 The Redox Role of G6PD in Cell Growth, Cell Death, and Cancer
来源:CELLS-BASEL( P E 2073-4409 ) 发表时间: 2019/09
类型:期刊论文 为本人加分:6647.870802
2 New mechanisms of bacterial arsenic resistance
来源:BIOMED J( P 2319-4170 E 2320-2890 ) 发表时间: 2016/02
类型:期刊论文 为本人加分:5951.931297
3 Pathways of Arsenic Uptake and Efflux
来源:CURR TOP MEMBR( P 1063-5823 E ) 发表时间: 2012/01
类型:期刊论文,期刊论文图书章节 为本人加分:4800.044058
4 G6PD: A hub for metabolic reprogramming and redox signaling in cancer
来源:BIOMED J( P 2319-4170 E 2320-2890 ) 发表时间: 2021/06
类型:期刊论文 为本人加分:2017.626772
5 The microbicidal and cytoregulatory roles of NADPH oxidases
来源:MICROBES INFECT( P 1286-4579 E 1769-714X ) 发表时间: 2011/02
类型:期刊论文 为本人加分:1516.530841
6 G6PD deficiency, redox homeostasis, and viral infections: implications for SARS-CoV-2[COVID-19]
来源:FREE RADICAL RES( P 1071-5762 E 1029-2470 ) 发表时间: 2021/04
类型:期刊论文 为本人加分:1492.625032
7 What has passed is prolog: new cellular and physiological roles of G6PD
来源:FREE RADICAL RES( P 1071-5762 E 1029-2470 ) 发表时间: 2016/10
类型:期刊论文,会议论文 为本人加分:1472.156798
8 Glucose 6-phosphate dehydrogenase knockdown enhances IL-8 expression in HepG2 cells via oxidative st..
来源:J INFLAMM-LOND( P 1476-9255 E ) 发表时间: 2015/04
类型:期刊论文 为本人加分:868.534195
9 Impaired embryonic development in glucose-6-phosphate dehydrogenase-deficient Caenorhabditis elegans..
来源:CELL DEATH DIS( P 2041-4889 E ) 发表时间: 2017/01
类型:期刊论文 为本人加分:715.212117
10 IDH-1 deficiency induces growth defects and metabolic alterations in GSPD-1-deficient Caenorhabditis..
来源:J MOL MED( P 0946-2716 E 1432-1440 ) 发表时间: 2019/03
类型:期刊论文 为本人加分:697.109293