enzyme can be used in analytical biochemistry, especially for the construction of enzyme sensors, enzymes immobilized in enzyme-containing membranes coating oxygen sensitive electrodes and serve for a specific amperometric determination of their substrates in biological materials
treatment of rabbits with standard common rabbit diet and water ad libitum containing 40 mg fluoride per liter results in significant decrease of ceruloplasmin level in serum by days 35 and 70, with concomitant increase of serum adenosine eaminase and C-reactive protein
expression system is developped producing about 2 mg of purified Bacillus sp. strain PL-12 Mn(II) oxidase per liter of Escherichia coli culture in 5 days
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
compartmentalized iron oxide biomineralization by the enzyme yields uniform nanoparticles strictly determined by the sizes of the compartments, allowing customization for highly diverse nanotechnological applications
homogenous ceruloplasmin with ferroxidase activity for the treatment of aplastic anemics, aplastic anemics have low levels of this enzyme, clinical trials have shown effective in 56% of cases
unusual antioxidant property of caeruloplasmin have important implications in vivo for conditions such as rheumatoid joint disease and Wilson's disease, where changes in copper homeostasis, caeruloplasmin and oxygen radicals are known to occur
after induction of cerebral ischemia by ligating bilateral common carotid arteries, the expression of ceruloplasmin mRNA in the cortex and hippocampus decreases, and the longer the animals experience ischemia, the lower the expression. Iron concentration correlates negatively with ceruloplasmin expression
in fluid from patients with Parkinson's disease, Alzheimer's disease, and Huntington's disease, a significantly decreased ferroxidase activity is found agreeing with findings of iron deposition in these entities, while free copper is found to be increased in cerebrospinal fluid and appears to be a good biomarker of Parkinson's disease. The sum of nitrites and nitrates as end products of nitric oxide are increased in the degenerative diseases Parkinson's disease, Alzheimer's disease, Huntington's disease and lateral amyotrophic sclerosis, and fluorescent lipoperoxidation products in three of them, excepting lateral amyotrophic sclerosis
serum ceruloplasmin concentrations of less than 0.20, of 0.14 and 0.10 g per l show positive predictive values of 48.3%, 100%, and 100%, respectively, for Wilson disease, and negative predictive values of 98.7%, 97.1%, and 91.9%, with measurement of ceruloplasmin concentration according to a nephelometric method, in ATP7B genotyped subjects. The diagnostic accuracy for Wilson disease using a serum ceruloplasmin concentration of 0.14 g per l as the local decision threshold is therefore better than using a threshold of 0.20 g per l
Serum transferrin, albuminumin and Zinc concentrations are lower in patients with chronic lymphocytic leukemia while serum alpha-1-acid glycoprotein, ceruloplasmin, copper concentrations, and ceruloplasmin oxidase activity are higher in chronic lymphocytic leukemia patients when compared with the control group. Serum ceruloplasmin level positively correlates with serum ceruloplasmin oxidase activity in patients from the early stage group and in patients with advanced stage
study on children with Henoch-Schönlein purpura. Patients at active stage have significantly higher myeloperoxidase activity, higher ceruloplasmin and total oxidant values than the control. Patiens have significantly lower arylesterase activity and lower free thiol levels. Significantly positive correlations are found between total oxidant status and myeloperoxidase, and total oxidant status and ceruloplasmin at disease onset, whereas a negative correlation is found between myeloperoxidase and thiol during remission
treatment of rabbits with standard common rabbit diet and water ad libitum containing 40 mg fluoride per liter results in significant decrease of ceruloplasmin level in serum by days 35 and 70, with concomitant increase of serum adenosine eaminase and C-reactive protein