Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: KEGG:D02011 (FAD)
 5,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fluctuations in the intensity of light scattered and absorbed by cells in suspension have been analysed by smoothing, periodogram and power spectrum methods to reveal oscillations attributed to changes in cell morphology and the redox state of NADH and FAD (periods 10 s to 30 min). The rhythms are themselves periodically modulated in amplitude at a similar frequency and exhibit burst characteristics. The low frequency scatter dynamics are provisionally attributed to oscillations in gross morphology and the high frequency variation to changes at the cell surface. Agents, such as insulin and transferrin, affect the dynamics. The scatter results suggest that rhythmic changes in cell morphology associated with locomotion are largely inherent in the cell and not due to periodic attachment and detachment from a surface.
 ...
PMID:Oscillations in cell morphology and redox state. 228 99

The effect of riboflavin supplementation (5mg twice daily for 8 weeks) on reduced blood glutathione (GSH) and iron status was assessed in 18 patients with sickle cell disease (SCD-HbSS). Twelve SCD patients and 13 normal (Hb-AA) subjects served as the control. The total iron binding capacity (TIBC) and serum ferritin (SF) were significantly higher (p < 0.01), but GSH level, haemoglobin and transferrin saturation (TS) were significantly lower (p < 0.001) in SCD patients than in normal subjects. The administration of riboflavin elicited a significant increase (p < 0.01) in serum iron and TS but a non significant increase in SF and circulating Hb. The GSH level varied little in riboflavin supplemented but decreased significantly in unsupplemented SCD. The disparity in GSH concentration might reflect availability of FAD for regeneration of GSH from glutathione. Likewise, the haematological improvement in the supplemented group supports the assertion that riboflavin enhances erythropoiesis. For an effective management of SCD in Africa, a closer attention should be directed to the riboflavin status in haemolytic disorders.
 ...
PMID:Clinical trial of riboflavin in sickle cell disease. 829

In order to identify an enzyme capable of Fenton reaction in Synechocystis, we purified an enzyme catalyzing one-electron reduction of t-butyl hydroperoxide in the presence of FAD and Fe(III)-EDTA. The enzyme was a 26 kDa protein, and its N-terminal amino acid sequencing revealed it to be DrgA protein previously reported as quinone reductase [Matsuo M, Endo T and Asada K (1998) Plant Cell Physiol39, 751-755]. The DrgA protein exhibited potent quinone reductase activity and, furthermore, we newly found that it contained FMN and highly catalyzed nitroreductase, flavin reductase and ferric reductase activities. This is the first demonstration of nitroreductase activity of DrgA protein previously identified by a drgA mutant phenotype. DrgA protein strongly catalyzed the Fenton reaction in the presence of synthetic chelate compounds, but did so poorly in the presence of natural chelate compounds. Its ferric reductase activity was observed with both natural and synthetic chelate compounds with a better efficiency with the latter. In addition to small molecular-weight chemical chelators, an iron transporter protein, transferrin, and an iron storage protein, ferritin, turned out to be substrates of the DrgA protein, suggesting it might play a role in iron metabolism under physiological conditions and possibly catalyze the Fenton reaction under hyper-reductive conditions in this microorganism.
 ...
PMID:Synechocystis DrgA protein functioning as nitroreductase and ferric reductase is capable of catalyzing the Fenton reaction. 1729 43