|1.||Kopylchuk, G P: 1 article (01/2015)|
|2.||Voloshchuk, O M: 1 article (01/2015)|
|3.||Backe, Paul Hoff: 1 article (01/2013)|
|4.||Huang, Yi-Chia: 1 article (01/2013)|
|5.||Duda-Chodak, Aleksandra: 1 article (01/2013)|
|6.||Ye, Star: 1 article (01/2013)|
|7.||Rootwelt, Helge: 1 article (01/2013)|
|8.||Chen, Fang-Pei: 1 article (01/2013)|
|9.||Lin, Chun-Che: 1 article (01/2013)|
|10.||Røhr, Asmund Kjendseth: 1 article (01/2013)|
01/01/1994 - "It is caused by different requirements of cofactors or coenzymes in aerobic and anaerobic metabolism and by the requirement for different O2-independent biosynthetic routes under anoxia. "
01/01/1981 - "Protective effects of AMP containing coenzymes against lethal hypoxic hypoxia."
01/01/1971 - "5. Measurements of total liver NAD(+) and NADH showed that the concentrations of these nucleotide coenzymes changed less with anoxia, in comparison with the concentration ratio of free coenzymes. "
05/01/1996 - "To examine the relationship between hypoxia, energy, and redox state, intracellular levels of adenine nucleotides and pyridine coenzymes were determined by high-performance liquid chromatography in freeze-dried isolated rat pulmonary arteries at three time points (0, 4, and 10 min) before and during hypoxia. "
09/01/1971 - "[Effect of NAD and NADP coenzymes on the animal resistance to acute hypoxia]."
06/23/1956 - "[Use of coenzymes in diabetes mellitus and in liver diseases]."
09/01/1977 - "[Adenine nucleotides, coenzymes and intermediate glycolysis metabolites in red cells of pregnant women in normal gestation and in cases of diabetes mellitus]."
01/01/2000 - "The aim of this study was to ascertain whether the experimentally induced diabetes mellitus is associated with changes in the content of endogenous antioxidants (alpha-tocopherol, coenzymes Q9 and Q10) and in the intensity of lipoperoxidation. "
|3.||Avitaminosis (Vitamin Deficiency)
01/01/1981 - "[Effect of flavin coenzymes on the pyridoxine treatment of avitaminosis B6]."
01/01/1981 - "Flavine coenzymes have been found to promote more efficient normalization of pyridoxine and riboflavin balance in the body and to improve the general status of the animals, to increase the excretion of riboflavin and 4-pyridoxic acid with urine, to prove more rapid cure of vitamin deficiency."
09/01/1993 - "Alterations in metabolism of riboflavin did not involve the vitamin deficiency as shown by analysis of vitamins B6 and PP (4-pyridoxic acid and I-methyl nicotinamide, respectively) excretion with urine as well as by study of the coenzymes content in blood of healthy and sick children with various rates of riboflavin consumption. "
|4.||Vitamin B 6 Deficiency (Pyridoxine Deficiency)
|5.||Parkinsonian Disorders (Parkinsonism)
|1.||Adenosine Monophosphate (AMP)
|3.||Riboflavin (Vitamin B2)
|5.||Folic Acid (Vitamin M)
|7.||Adenosine Triphosphate (ATP)
|8.||Vitamin B Complex (B Vitamins)
|9.||5-Methyltetrahydrofolate-Homocysteine S-Methyltransferase (Methyltetrahydrofolate Homocysteine Methyltransferase)
|1.||Protein-Restricted Diet (Diet, Protein Restricted)