Pigments biosynthesis

ARMSTRONG G A (1994) Eubacteria show their ttue colours genetics of carotenoid pigment biosynthesis from microbes to plants , J Bacterial, 45, 4795-802. 

ARMSTRONG G A and HEARS j E (1996) Genetics and molecular biology of carotenoid pigment biosynthesis , 7,10, 228-37. 

Suppressed pigment biosynthesis in Aulosira fertissima and Tolypothrix tenuis, reduced growth in Anabaena oryzae and Nostoc muscorum, and reduced carbohydrate content in Nostoc and Tolypothrix (Shabana 1987)... 

Martin C, Gerats T. 1993. The control of pigment biosynthesis genes during petal development. Plant Cell 5 1253-1264. 

Degraded Carotenoids Physical Methods Separation and Assay N.M.R. Spectroscopy Mass Spectrometry Chiroptical Methods Electronic Absorption Spectroscopy Infrared and Resonance Raman Spectroscopy Other Spectroscopic Techniques Miscellaneous Physical Chemistry Photoreceptor Pigments Biosynthesis and Metabolism Stereochemistry Enzyme Systems Inhibition and Regulation... 

Pyrrole pigments, biosynthesis, and total synthesis 84MI33 90CRV1261. 

Miscellaneous Spectroscopy and Physical Chemistry Photoreceptor Pigments Biosynthesis and Metabolism Stereochemistry Pathways... 

Substituted pyridazinone herbicides directly inhibit photosystem II, chloroplast pigment biosynthesis, and membrane lipid biosynthesis. Depending on the substitution, pyridazinones can specifically inhibit the synthesis of linolenic acid in galacto-lipids and phospholipids preferentially alter the fatty acid composition of monogalactosyl diglycerides compared with digalactosyl diglycerides and cause a build-up of saturated fatty acids in the chloroplast membranes. 

A large number of onium compounds regulate carotenoid pigment biosynthesis in plant tissues ... 

Vitamin, antioxidant Tomato [16] Suppression of photomorphogenesis-related transcription factor TDETl, involved with regulation of pigment biosynthesis (increased provitamin A, lycopene, and flavonoids)... 

Bleaching may be a result of photooxidative events generated within the plant cell or chloroplast, leading to the destruction of the plant pigments or direct inhibition of pigment biosynthesis, whereby carotenoid and chlorophyll formation is prevented [5]. 

Flavanone 3P-hydroxylase (F3H) converts the basic flavonoid skeleton flavanone to dihy-droflavonol through hydroxylation at the 3-posi-tion [77], a critical early step in anthocyanin flower pigment biosynthesis. Flavonol synthase (FLS) is a 2-ODD that catalyzes the formation of a double bond between C-2 and C-3 in dihy-droflavonols [78]. Flavonol 6-hydroxylase (F6H) is also a 2-ODD [79]. 

Sawada, S. et al. (2005) UDP-glucuronic acid anthocyanin glucuronosyltransferase from red daisy (Beilis perennis) flowers enzymology and phylogenetics of a novel glucuronosyltransferase involved in flower pigment biosynthesis. J. Biol. Chem. 280, 899-906... 

The common intermediate of haem and chlorophyll pigments biosynthesis, protoporphyrin IX, is transformed into chlorophyUde by a sequence of several reaction steps. Chlorophyll a arises from chlorophyHde in a reaction with phytyl diphosphate that is produced by the reduction of geranylgeranyl diphosphate. Oxidation of the C-7 methyl group in chlorophyll a to a formyl group yields chlorophyll b. 

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