about
Urinary estrogen metabolites and self-reported infertility in women infected with Schistosoma haematobiumOxidative Stress Mediates the Antiproliferative Effects of Nelfinavir in Breast Cancer CellsRole of oxidatively induced DNA lesions in human pathogenesisThe Regulation of Aging and Longevity: A New and Complex Role of p53.Metformin reduces the expression of NADPH oxidase and increases the expression of antioxidative enzymes in human monocytes/macrophages cultured in vitro.Targeting cancer cell mitochondria as a therapeutic approach.Taking advantage of tumor cell adaptations to hypoxia for developing new tumor markers and treatment strategies.SOD2 to SOD1 switch in breast cancer.Cytochrome P450 2E1 (CYP2E1) regulates the response to oxidative stress and migration of breast cancer cells.Dietary flavonoids as cancer prevention agents.Oxidative stress-induced CREB upregulation promotes DNA damage repair prior to neuronal cell death protection.Gold nanoparticle-enhanced photodynamic therapy: effects of surface charge and mitochondrial targeting.Semiconductor polymer dots induce proliferation in human gastric mucosal and adenocarcinoma cells.Evaluating the anticancer properties of liposomal copper in a nude xenograft mouse model of human prostate cancer: formulation, in vitro, in vivo, histology and tissue distribution studies.Dioscin induces cancer cell apoptosis through elevated oxidative stress mediated by downregulation of peroxiredoxins.Selective Anticancer Activity of Acacetin Against Chronic Lymphocytic Leukemia Using Both In Vivo and In Vitro Methods: Key Role of Oxidative Stress and Cancerous Mitochondria.A Study of the Anti-Cancer Effects of the Hexane Fraction of the Methanol Extract of Forsythiae Fructus.
P2860
Q28539012-4DBA34D0-9460-468D-8B64-CB1041B8A1C2Q28550200-09C830E2-50C6-44BA-8E05-0390CC54222DQ34091785-77E06677-80CD-4D53-9283-A2DB38322238Q35103174-E49EEBB9-F187-4119-B82D-D501F8A1BBC2Q36640261-1B189398-B356-433F-94DB-971CB04C4AF1Q36655323-D96FD18D-7658-45FC-B1FE-47E7B66AAA03Q37426436-F24B46E0-69CC-4928-8DA5-CDFCD9E7659FQ37608411-5DBA1F44-D0E3-4E2E-A913-ADB5FDE11810Q37691228-ECB5E108-6F26-481B-991F-D29E52820DB2Q37855700-AEC4CCCD-E362-40C1-B82F-2893EF8DEA96Q38732714-0117D91C-83A4-4BFC-8094-8651DE54DA4DQ38889799-A917D403-4D56-454C-9BB3-DA8CD45E5EDAQ38928708-A10D8CEC-E35D-4E8B-AD0A-149E4AF8FD71Q38993045-0883EFF7-F098-4696-8A7D-D8DCB160B688Q39414785-BF421B53-75C8-47D8-9796-8939B51F4F7BQ46467775-71CBADE8-F145-4274-98C3-5FC4192063CFQ47135229-FA784FB3-07AE-4411-AE47-889566E39117
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Models of reactive oxygen species in cancer.
@ast
Models of reactive oxygen species in cancer.
@en
type
label
Models of reactive oxygen species in cancer.
@ast
Models of reactive oxygen species in cancer.
@en
prefLabel
Models of reactive oxygen species in cancer.
@ast
Models of reactive oxygen species in cancer.
@en
P2093
P2860
P1476
Models of reactive oxygen species in cancer.
@en
P2093
Marcia A Ogasawara
Peng Huang
P2860
P356
10.1016/J.DDMOD.2007.10.005
P577
2007-01-01T00:00:00Z