Pages that link to "Q36752281"

The following pages link to The role of mammalian circadian proteins in normal physiology and genotoxic stress responses. (Q36752281):

Displaying 34 items.

• Pharmacological modulators of the circadian clock as potential therapeutic drugs: focus on genotoxic/anticancer therapy (Q26864230) (← links)
• The meter of metabolism (Q29619740) (← links)
• Testing the circadian gene hypothesis in prostate cancer: a population-based case-control study (Q30497028) (← links)
• Phenotypic effects of the circadian gene Cryptochrome 2 on cancer-related pathways (Q33545450) (← links)
• Circadian rhythms and metabolic syndrome: from experimental genetics to human disease. (Q33722806) (← links)
• Circadian rhythm and its role in malignancy (Q33784815) (← links)
• Circadian clock proteins control adaptation to novel environment and memory formation. (Q33965723) (← links)
• Altered body mass regulation in male mPeriod mutant mice on high-fat diet (Q34027855) (← links)
• The de-ubiquitinylating enzyme, USP2, is associated with the circadian clockwork and regulates its sensitivity to light (Q34038295) (← links)
• Circadian disruption, Per3, and human cytokine secretion (Q34222534) (← links)
• Deficiency of circadian protein CLOCK reduces lifespan and increases age-related cataract development in mice (Q34554309) (← links)
• Circadian clock genes and risk of fatal prostate cancer (Q34810303) (← links)
• 2mit, an intronic gene of Drosophila melanogaster timeless2, is involved in behavioral plasticity. (Q35010306) (← links)
• Functional polymorphisms in the NPAS2 gene are associated with overall survival in transcatheter arterial chemoembolization-treated hepatocellular carcinoma patients (Q35051865) (← links)
• The core circadian gene Cryptochrome 2 influences breast cancer risk, possibly by mediating hormone signaling (Q35220012) (← links)
• Clock-cancer connection in non-Hodgkin's lymphoma: a genetic association study and pathway analysis of the circadian gene cryptochrome 2. (Q35220037) (← links)
• Genetic association between PER3 genetic polymorphisms and cancer susceptibility: a meta-analysis (Q36009186) (← links)
• Neuroendocrine-immune correlates of circadian physiology: studies in experimental models of arthritis, ethanol feeding, aging, social isolation, and calorie restriction. (Q36997280) (← links)
• Disruption of the circadian clock due to the Clock mutation has discrete effects on aging and carcinogenesis. (Q37347756) (← links)
• Pharmacological modulators of the circadian clock as potential therapeutic drugs (Q37718754) (← links)
• Understanding circadian gene function: animal models of tissue-specific circadian disruption (Q38185624) (← links)
• Inherited variation in circadian rhythm genes and risks of prostate cancer and three other cancer sites in combined cancer consortia (Q38683029) (← links)
• CLOCK regulates mammary epithelial cell growth and differentiation (Q38742303) (← links)
• Circadian regulation of auditory function (Q38963872) (← links)
• Differential localization of PER1 and PER2 in the brain master circadian clock. (Q40412628) (← links)
• Impaired light detection of the circadian clock in a zebrafish melanoma model. (Q43207027) (← links)
• Functional polymorphisms of circadian negative feedback regulation genes are associated with clinical outcome in hepatocellular carcinoma patients receiving radical resection (Q43676690) (← links)
• A functional polymorphism in PER3 gene is associated with prognosis in hepatocellular carcinoma (Q44052081) (← links)
• Functional polymorphisms of circadian positive feedback regulation genes and clinical outcome of Chinese patients with resected colorectal cancer. (Q44342259) (← links)
• Expression and functional analyses of circadian genes in mouse oocytes and preimplantation embryos: Cry1 is involved in the meiotic process independently of circadian clock regulation (Q47227507) (← links)
• The circadian gene CRY2 is associated with breast cancer aggressiveness possibly via epigenomic modifications. (Q53222994) (← links)
• Pharmacological modulators of the circadian clock as potential therapeutic drugs. (Q55644952) (← links)
• Study of Diseases and the Immune System of Bivalves Using Molecular Biology and Genomics (Q57587158) (← links)
• Night workers have lower levels of antioxidant defenses and higher levels of oxidative stress damage when compared to day workers (Q64095546) (← links)