GF33636753

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Showing 31-33 of 33 results for "GF33636753" within Papers

Manuel Tejada-Jiménez et al.

Metallomics : integrated biometal science, 5(9), 1191-1203 (2013-06-27)

The viability of plants relies on molybdenum, which after binding to the organic moiety of molybdopterin forms the molybdenum cofactor (Moco) and acquires remarkable redox properties. Moco is in the active site of critical molybdoenzymes, which use to work as

X-ray crystal structure of a xanthine oxidase complex with the flavonoid inhibitor quercetin.

Hongnan Cao et al.

Journal of natural products, 77(7), 1693-1699 (2014-07-26)

Xanthine oxidase catalyzes the sequential hydroxylation of hypoxanthine to uric acid via xanthine as intermediate. Deposition of crystals of the catalytic product uric acid or its monosodium salt in human joints with accompanying joint inflammation is the major cause of

Molybdenum metabolism in the alga Chlamydomonas stands at the crossroad of those in Arabidopsis and humans.

Angel Llamas et al.

Metallomics : integrated biometal science, 3(6), 578-590 (2011-05-31)

Molybdenum (Mo) is a very scarce element whose function is fundamental in living beings within the active site of Mo-oxidoreductases, playing key roles in the metabolism of N, S, purines, hormone biosynthesis, transformation of drugs and xenobiotics, etc. In eukaryotes

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