Enzyme Chemistry of Phenolic Compounds
Enzyme Chemistry of Phenolic Compounds

Author: J. B. Pridham

Publisher: Elsevier

Published: 2014-05-16

Total Pages: 153

ISBN-13: 1483149838

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Enzyme Chemistry of Phenolic Compounds documents the proceedings of the Plant Phenolics Group Symposium held at Liverpool on April 11-12 1962. This book focuses on the interaction of enzymes and phenolic compounds, oxidation-reduction systems in plants and microorganisms, and phenolase complex. Other topics discussed include purification of phenol oxidases; enzyme-substrate specificity in potato polyphenol oxidase; tocopherols; and role of ubiquinone and plastoquinone in plant metabolism. Hydrolytic enzymes; enzyme inhibition by phenolic compounds; tannin inhibition of plant mitochondria; and aromatic acid-reducing systems in fungi are also deliberated in this selection. This publication is beneficial to students and biochemists researching on enzyme and phenolic compounds.

Phenolic Compound Biochemistry
Phenolic Compound Biochemistry

Author: Wilfred Vermerris

Publisher: Springer Science & Business Media

Published: 2007-02-20

Total Pages: 284

ISBN-13: 1402051646

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These are just a few examples that illustrate the chemical diversity and use of phenolic compounds, the topic of ‘Phenolic Compound Biochemistry’. This book is written for researchers, instructors, advanced undergraduate students and beginning graduate students in the life sciences who wish to become more familiar with these and many other intriguing aspects of phenolic compounds. Topics covered include nomenclature, chemical properties, biosynthesis, including an up-to-date overview of the genetics controlling phenolic metabolism, isolation and characterization of phenolic compounds, phenolics used in plant defense, and the impact of phenolics on human health. The book is written in an accessible style, and assumes only basic knowledge of organic chemistry, biochemistry and cell physiology. More than 300 chemical structures and reaction schemes illustrate the text. Wilfred Vermerris is Associate Professor of Agronomy at the University of Florida Genetics Institute in Gainesville, FL. His research focuses on the genetic control of phenolic compounds that impact agro-industrial processing of crop plants. Ralph Nicholson is Professor of Botany and Plant Pathology at Purdue University in West Lafayette, IN. He is an expert on phenolic compounds involved in the plant’s defense against pathogenic fungi and bacteria.

Phenolic Compounds
Phenolic Compounds

Author: Marcos Soto-Hernández

Publisher: BoD – Books on Demand

Published: 2017-03-15

Total Pages: 458

ISBN-13: 9535129570

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Phenolic compounds as a large class of metabolites found in plants have attracted attention since long time ago due to their properties and the hope that they will show beneficial health effects when taken as dietary supplements. This book presents the state of the art of some of the natural sources of phenolic compounds, for example, medicinal plants, grapes or blue maize, as well as the modern methods of extraction, quantification, and identification, and there is a special section discussing the treatment, removal, and degradation of phenols, an important issue in those phenols derived from the pharmaceutical or petrochemical industries.

Nutritional and Toxicological Significance of Enzyme Inhibitors in Foods
Nutritional and Toxicological Significance of Enzyme Inhibitors in Foods

Author: Mendel Friedman

Publisher: Springer

Published: 1986-10-31

Total Pages: 594

ISBN-13:

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Soybean protei ns are wi de 1 y used inhuman foods ina vari ety of forms, including baby formulas, flour, soy protein concentrates, soy protein isolates, soy sauces, textured soy fibers, and tofu. The presence of inhibitors of digestive enzymes in soy proteins impairs nutritional quality and possible safety of this impportant legume. Normal processing conditions based on the use of heat do not completely inactivate these inhibitors, so that residual amounts of plant protease inhibitors are consumed by animals and man. Inhibitors of digestive enzymes are present not only in legumes, such as soybeans, lima beans, and kidney beans, but also in nearly all plant foods, including cereals and potatoes, albeit in much smaller amounts. The antinutritional effects of inhibitors of proteolytic enzymes have been widely studied and can be ameliorated by processing and/or sulfur amino acid fortification. A more urgent concern is reports that rats fed diets containing even low levels of soybean-derived inhibitors, which are found in foods such as soy-based baby formulas, may develop over their lifespan pancreatic lesions leading eventually to neoplasia or tumor formation. On the other hand, recent stUdies suggest that certain enzyme inhibitors from plant foods may prevent cancer formation in other tissues. A key question, therefore, is whether inhibitors from plant foods constitute a human health hazard.

Biochemistry of Phenolic Compounds
Biochemistry of Phenolic Compounds

Author: Jeffrey B. Harborne

Publisher:

Published: 1964

Total Pages: 644

ISBN-13:

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Structure and reactivity of phenolic compounds. Isolation and identification of phenolic compounds in biological materials. The natural distribution of the phenolic aglycones. Phenolic glycosides and their natural distribution. The genetics of phenolic compounds. Metabolism of phenolics in animals. Metabolism of phenolics in higher plants and micro-organisms. Major pathways of biosynthesis of phenols. Lignin and tannin biosynthesis. Enzymology of phenolic biosynthesis. Physiological studies on phenolic biosynthesis. The physiology and pharmacology of phenolic compounds in animals. Pathological function of phenolic compounds in plants. Relations between the taste and structure of some phenolic glycosides.

Plant Physiological Aspects of Phenolic Compounds
Plant Physiological Aspects of Phenolic Compounds

Author: Marcos Soto-Hernández

Publisher: BoD – Books on Demand

Published: 2019-09-04

Total Pages: 122

ISBN-13: 1789840333

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Phenolic compounds are considered secondary metabolites within the physiology of a plant. They have different functions, such as pollination systems, sun protection, protection against pathogens and diseases, etc.Research on these compounds has increased due to the number of molecules they can include and the different biological activities they demonstrate. It is important to know the methods of extracting molecules, the biosynthesis routes, and their relationship with activities that can benefit from their consumption. Therefore, the book includes chapters that provide information on extraction and optimization techniques, biosynthetic pathways, and the identification and characterization of miRNAs involved in the regulation of their biosynthesis.

Chemistry of Phenolic Compounds
Chemistry of Phenolic Compounds

Author: Jubaraj Bikash Baruah

Publisher:

Published: 2011

Total Pages: 0

ISBN-13: 9781617613357

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Since the ancient days of research polyphenolic compounds have found a variety of use in medicinal chemistry and presently have found their applications in material research. There is a diverse interest in studying polyphenolic-based materials ranging from enzymes to plastic materials. However, there is no unified approach towards these studies to correlate structures with the different types of properties in order to implement such studies in applied engineering. This book presents a unified approach on synthetic and natural polyphenolic compounds in different forms and elaborate their properties with selective examples.

Enzymatic polymerization of phenolic compounds by oxidoreductases
Enzymatic polymerization of phenolic compounds by oxidoreductases

Author: Mohamed Ghoul

Publisher: Springer Science & Business Media

Published: 2012-02-06

Total Pages: 52

ISBN-13: 9400739192

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The enzymatic polymerization of phenolic compounds has been generating interest in several fields such as food, cosmetics, and pharmaceuticals. These compounds are employed for their antioxidant properties; however, their use is limited by their low solubility and thermal stability. Polymerization can improve their solubility and their thermal stability though and create new properties which are dependent on the molecular mass and the structure of polymers. The reaction yield, the polydispersity, the molecular mass, the structure and the properties of synthesized polymers can be controlled by the mode of control of the reaction and by the reaction conditions. Enzymatic polymerization of phenolic compounds by oxidoreductases analyze the processes used and the key factors (temperature, solvent, origin of the enzyme, structure of the substrate, reactor design, ...) which control the polymerization of phenolic species by these oxidoreductase enzymes in order to obtain polymers with desired characteristics and properties.