1-(3,5-dichloro-2,6-dihydroxy-4-methoxyphenyl)hexan-1-one metabolic process +
11-oxo-beta-amyrin metabolic process +
3-keto-sphinganine metabolic process
6-sulfoquinovose(1-) catabolic process to glycerone phosphate and 3-sulfolactaldehyde
acetoin metabolic process +
adamantanone metabolic process +
aldosterone metabolic process +
asperfuranone metabolic process +
asperthecin metabolic process +
aurone metabolic process +
averantin metabolic process +
brexanolone metabolic process +
chalcone metabolic process +
citrate catabolic process to diacetyl
cortisol metabolic process +
cspyrone B1 metabolic process +
curcumin metabolic process +
daunorubicin metabolic process +
doxorubicin metabolic process
ecdysteroid metabolic process +
ecgonone methyl ester metabolic process +
emodin metabolic process +
endocrocin metabolic process +
epothilone metabolic process +
fat-soluble vitamin biosynthetic process +
fat-soluble vitamin catabolic process +
funalenone metabolic process +
glycerol to glycerone phosphate metabolic process
glycyrrhetinate metabolic process +
granaticin metabolic process +
helvolic acid metabolic process +
ketone biosynthetic process +
ketone catabolic process +
kojic acid metabolic process +
kynurenine metabolic process +
menaquinone metabolic process +
methyl ethyl ketone metabolic process +
methylglyoxal metabolic process +
mitomycin C metabolic process +
monodictyphenone metabolic process +
naphtho-gamma-pyrone metabolic process +
neosartoricin metabolic process +
progesterone metabolic process +
quinone metabolic process +
regulation of cellular ketone metabolic process +
shamixanthone metabolic process +
tensidol A metabolic process +
tensidol B metabolic process +
tetracenomycin C metabolic process +
tetracycline metabolic process +
undecan-2-one metabolic process +
vitamin A metabolic process +
vitamin D metabolic process +
vitamin E metabolic process +
vitamin K metabolic process +
The chemical reactions and pathways involving any of the forms of vitamin K, quinone-derived vitamins which are involved in the synthesis of blood-clotting factors in mammals. Vitamin K substances share a methylated naphthoquinone ring structure and vary in the aliphatic side chains attached to the molecule.