The goal of this study was to determine the influence of psychological stress on non‐pathologic physical pain in a general population. Data pertaining to the source of, response to, and coping with stress, as well as site and intensity of pain was collected on 91 non‐patient subjects using a self‐report questionnaire. The questionnaire consisted of a Global Assessment of Recent Stress, Stress Response Inventory and Ways of Coping Checklist, in addition to the Site and Intensity of Stress‐Related Pain. It was found that the degree of stress was proportional to the pain severity. Also, the degree of responses to stress and coping style played a role in pain severity. Moreover, economic status, stress from sickness or injury, and somatization were the best predictors of the pain severity in our study population. The most common stress‐related pain was occipital headache, and the pain sites were dependent on certain stress variables. The high pain group and no pain group showed distinct demographic and stress profiles. The various aspects of psychological stress affect the incidence, site and intensity of physical pain. Copyright © 2008 John Wiley & Sons, Ltd.
Among T-DNA insertion mutants of various cullin4-RING ubiquitin E3 ligase (CRL4) substrate receptors, one mutant that exhibits enhanced sensitivity in response to ultraviolet-B (UV-B) illumination has been isolated and its corresponding gene has been named DWD HYPERSENSITIVE TO UV-B 1 (DHU1) in Arabidopsis. dhu1 lines showed much shorter hypocotyls than those in wild type under low doses of UV-B. Other light did not alter hypocotyl growth patterns in dhu1, indicating the hypersensitivity of dhu1 is restricted to UV-B. DHU1 was upregulated by more than two times in response to UV-B application of 1.5 μmol m(-2) s(-1), implying its possible involvement in UV-B signaling. DHU1 is able to bind to DDB1, an adaptor of CRL4; accordingly, DHU1 is thought to act as a substrate receptor of CRL4. Microarray data generated from wild-type and dhu1 under low doses of UV-B revealed that 209 or 124 genes were upregulated or downregulated by more than two times in dhu1 relative to wild type, respectively. About 23.4 % of the total upregulated genes in dhu1 were upregulated by more than five times in response to UV-B based on the AtGenExpress Visualization Tool data, while only about 1.4 % were downregulated to the same degree by UV-B, indicating that loss of DHU1 led to the overall enhancement of the upregulation of UV-B inducible genes. dhu1 also showed altered responsiveness under high doses of UV-B. Taken together, these findings indicate that DHU1 is a potent CRL4 substrate receptor that may function as a negative regulator of UV-B response in Arabidopsis.
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