Bøker av Marco Brito-Arias

This third edition is a comprehensive and extended study about the best known approaches for preparing the main types of glycosides, covering the classic and more recent glycosylation reactions used for preparing simple and challenging glycosides currently used as potent antiviral and antineoplastic drugs, or fluorogenic substrates used for enzymatic detection in cell biology.  Besides, this new edition provides more examples of the glycosidic methodologies followed for preparing complex glycoconjugates such as glycoproteins and glycosphingolipids and gangliosides used as adjuvants or as synthetic vaccines candidates.Also, additional mechanistic evidence is presented for better understanding of the glycosylation reaction, trying to identify the variables mainly depending on protecting and leaving groups, as well as catalyst and reaction condition which altogether directs the anomeric stereo control.A chapter on the glycoside hydrolysis is included in view of the increasing interest in the use of biomass as a natural and renewable source for obtaining important intermediates or products used in food or valuable materials.The author includes information in the characterization of glycosides section with the aim of giving additional tools for the structural assignment through NMR, X-Ray and mass spectra techniques.

Multidisciplinary research involving crystallography, kinetic studies, molecular docking, genetics and other techniques in biochemistry has yielded a wealth of knowledge about the reaction mechanisms in cellular processes. This knowledge has allowed researchers to understand, in a better way, the normal functioning of the cell process, which is used as a reference point for learning about and preventing or correcting pathologies that cause diseases.This enzymology reference is a thorough compendium about reaction mechanisms occurring between the major enzymes related to the biosynthetic pathways of 3 important types of biological compounds - 6-carbon carbohydrates, fatty acids and amino acids - and their substrates, cofactors and residues. Readers will gain an understanding of the interaction between substrates or ligands with specific amino acid residues in biosynthetic enzymes. This understanding builds a foundation for learning about the biochemistry of different inhibitors used in the treatment of several diseases such as cancer, infectious diseases, and metabolic syndrome alterations such as diabetes and obesity.Enzymes covered in the book include aldolases, isomerases, kinases, mutases, synthases, dehydrogenases, reductases, transferases, hydrolases, lyases among others, all of which are wide spread in biochemical transformations. This reference, with its insights on common biochemical enzymes serves as a handy guide for students, researchers and professionals involved academia or industry related to pharmaceutical development, healthcare, food chemistry and other disciplines.

This third edition is a comprehensive and extended study about the best known approaches for preparing the main types of glycosides, covering the classic and more recent glycosylation reactions used for preparing simple and challenging glycosides currently used as potent antiviral and antineoplastic drugs, or fluorogenic substrates used for enzymatic detection in cell biology. Besides, this new edition provides more examples of the glycosidic methodologies followed for preparing complex glycoconjugates such as glycoproteins and glycosphingolipids and gangliosides used as adjuvants or as synthetic vaccines candidates.Also, additional mechanistic evidence is presented for better understanding of the glycosylation reaction, trying to identify the variables mainly depending on protecting and leaving groups, as well as catalyst and reaction condition which altogether directs the anomeric stereo control.A chapter on the glycoside hydrolysis is included in view of the increasing interest in the use of biomass as a natural and renewable source for obtaining important intermediates or products used in food or valuable materials.The author includes information in the characterization of glycosides section with the aim of giving additional tools for the structural assignment through NMR, X-Ray and mass spectra techniques.

It covers synthetic pathways of challenging glycosides known as antiviral or antineoplastic drugs, and synthetic substrates used for enzymatic detection, including those used for detection of gene markers in plant biotechnology.