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Dehydrogenases --- Nicotinamide --- Coenzymes --- Oxidoreductase --- Nicotinamide --- Coenzymes

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This book presents modern and classic analytical approaches that are crucial for the biochemical and functional characterization of the archetypal protein, glyceraldehyde-3-phosphate dehydrogenase (GAPDH). The distinguishing feature of the book is that it covers, in addition to other methods, some of the uncommon but valuable techniques as well. For example, in-gel visualization of enzyme activity, immunoblotting protocols for native (non-denatured) proteins, and proteins resolved by pH-gradient [IEF-isoelectrofocusing], etc. These expedient methods are relevant and vital for the verification of biochemical properties of GAPDH, or similar protein of interest. This work outlines detailed protocols that are essential to investigate classical (cellular) and recently reported extracellular (secretory) isoforms of GAPDH. Precisely, the book covers techniques pertinent to enzymatic and non-enzymatic analysis of GAPDH that include, but not limited to, electrophoretic mobility shift assay (EMSA), two-dimensional (2D)-immunoblotting, immunofluorescence/confocal microscopy, mass spectrometry, ion-exchange and affinity chromatography.   Readers will discover the importance of the experimental methods described in the book as they relate to the evaluation of the role and significance of GAPDH. Furthermore, majority of the methods described in the book have also been validated in the author’s laboratory, besides other research groups worldwide, underlining the repeatability and reproducibility of the protocols. Each method begins with an abstract and a brief background emphasizing its application and relevance. This will enable the readers to determine the choice of experimental design according to their research objectives. The book explains the methods systematically with ample illustrations to facilitate quick and easy comprehension of the practical knowledge. Although the book is focused on GAPDH, many of the protocols may be adopted to other proteins or enzymes with minimal modifications. Noteworthy, it is unequivocally established that GAPDH is a multifunctional protein involved in several cellular processes of health & disease conditions. Hence, this book will be a valuable practical guide for young researchers, scientists and clinician-scientists.

Glycolysis. --- Aldehyde dehydrogenase. --- Aldehyde oxidoreductase --- Glucolysis --- Life sciences. --- Proteins. --- Life Sciences. --- Protein Science. --- Proteids --- Biomolecules --- Polypeptides --- Proteomics --- Biosciences --- Sciences, Life --- Science --- Dehydrogenases --- Blood --- Pathology --- Sugar in the body --- Examination --- Biochemistry. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Composition --- Proteins .

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Featuring a mild process and high selectivity, enzyme bioelectrocatalysis employing oxidoreductases immobilized on conductive surfaces is playing an increasingly vital role across a wide scope of applications. Enzyme bioelectrocatalysis is key for devices such as biosensors and biofuel cells, which are attracting considerable attention towards sustainable sensing and energy production. A wide range of sophisticated reactions, such as chiral compound synthesis and CO2 and N2 fixation, can be accomplished with enzyme bioelectrocatalysis. Last but not least, redox enzymes are sources of inspiration for new non-noble metal electrocatalysts. The “Enzymatic Bioelectrocatalysis” Special Issue comprises six reviews contributed by research groups from different countries, covering fundamentals and applications, as well as the recent research progress in this field.

Technology: general issues --- Chemical engineering --- bioelectrocatalysts --- oxidoreductases --- biocatalytic reactors --- electrochemical reactors --- bioelectrocatalysis --- nanostructured electrodes --- protein engineering --- bioelectrosynthesis --- photo-bioelectrocatalysis --- membrane protein --- electrode modification --- biofuel cells --- photosynthesis --- liposomes --- hybrid vesicles --- microbial electrosynthesis --- direct electron transfer --- orientation --- carbon nanomaterials --- surface modification --- self-assembled molecular monolayers --- electron transfer --- oxidoreductase --- gold electrode --- metallic nanostructures --- enzyme --- metalloenzyme --- catalysis --- stability --- electrochemistry --- bioelectrochemistry --- n/a

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This Special Issue aims to highlight the dual potential of novel biocatalytic processes, where the first part is dedicated to waste valorization for the production of high value products, while the second part is focused on the detoxification of pollutants. Several examples of microbial systems employed for the valorization of waste streams derived by the forest, agricultural, and food industries or the use of whole-cell or enzyme approaches for the removal of nitrogen or dyes from industrial wastewaters are provided. Last but not least, an example of the utilization of polyhydroxyalkanoates (PHAs) was highlighted for the production of fatty acids, which were used for the enzymatic synthesis of sugar esters with antimicrobial properties.

Technology: general issues --- mixotrophic --- heterotrophic --- lipids --- fatty acid methyl esters --- dairy wastewater --- birch hydrolysate --- green algae --- Coelastrella --- Chlorella --- DyP peroxidase --- oxidoreductase --- reactive dye --- decolorization --- biopolymers --- medium chain length polyhydroxyalkanoates (PHA) --- hydrolysed waste cooking oil --- Pseudomonas putida KT2440 --- biocatalysis --- bioprocess --- polyhydroxyalkanoate --- (R)-3-hydroxyacids --- sugar esters --- antimicrobial --- anammox --- immobilization --- wastewater treatment --- polyvinyl alcohol --- olive mill waste --- lignocellulosic residues --- Ganoderma lucidum --- Pleurotus ostreatus --- medicinal mushrooms --- glucan --- prebiotic --- Lactobacillus --- Bifidobacterium --- waste valorization --- laccase --- genome-mining --- heterologous expression --- Pseudomonas --- non-digestible oligosaccharides --- Celluclast® --- cellobiose --- conduritol-B-epoxide --- lignocellulose enzyme hydrolysis --- n/a

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This Special Issue aims to highlight the dual potential of novel biocatalytic processes, where the first part is dedicated to waste valorization for the production of high value products, while the second part is focused on the detoxification of pollutants. Several examples of microbial systems employed for the valorization of waste streams derived by the forest, agricultural, and food industries or the use of whole-cell or enzyme approaches for the removal of nitrogen or dyes from industrial wastewaters are provided. Last but not least, an example of the utilization of polyhydroxyalkanoates (PHAs) was highlighted for the production of fatty acids, which were used for the enzymatic synthesis of sugar esters with antimicrobial properties.

mixotrophic --- heterotrophic --- lipids --- fatty acid methyl esters --- dairy wastewater --- birch hydrolysate --- green algae --- Coelastrella --- Chlorella --- DyP peroxidase --- oxidoreductase --- reactive dye --- decolorization --- biopolymers --- medium chain length polyhydroxyalkanoates (PHA) --- hydrolysed waste cooking oil --- Pseudomonas putida KT2440 --- biocatalysis --- bioprocess --- polyhydroxyalkanoate --- (R)-3-hydroxyacids --- sugar esters --- antimicrobial --- anammox --- immobilization --- wastewater treatment --- polyvinyl alcohol --- olive mill waste --- lignocellulosic residues --- Ganoderma lucidum --- Pleurotus ostreatus --- medicinal mushrooms --- glucan --- prebiotic --- Lactobacillus --- Bifidobacterium --- waste valorization --- laccase --- genome-mining --- heterologous expression --- Pseudomonas --- non-digestible oligosaccharides --- Celluclast® --- cellobiose --- conduritol-B-epoxide --- lignocellulose enzyme hydrolysis --- n/a