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This book provides all facets of acetic acid bacteria (AAB) and offers the future targets and directions of AAB research. It summarizes the distinctive physiological properties of AAB and the recent progress on AAB study, especially in the following five areas: 1) Molecular phylogeny and genome study of AAB; 2) Ecological features of AAB: interaction with plants, natural fermentation systems, and insects; 3) Physiological features and living strategies of AAB, including rapid oxidation ability, acid resistance, biofilm formation, and genetic instability; 4) Molecular mechanisms of several oxidative fermentations such as acetate fermentation, sorbose fermentation, and ketogluconate fermentation; 5) Recent biotechnological aspects of AAB: biocatalysts, biosensors, biocellulose, and other useful polysaccharides. AAB research has a long history since the discovery of AAB by Louis Pasteur and the identification of AAB by Martinus Beijerinck in the nineteenth century. In the twentieth century, basic research on the taxonomic study of AAB and on biochemical study for the unique oxidative reactions of AAB had progressed as well as the industrial application of AAB not only in vinegar fermentation but also in the bioconversion process for useful chemical or pharmaceutical products. Entering the twenty-first century, AAB research has expanded more, and further progress is expected to be seen in all fields of AAB: classification and ecology, physiology and biochemistry, genetics, and biotechnology of vinegar fermentation and other oxidative fermentations. Far-reaching development in the last decade makes these bacteria more valuable for various industrial uses. Readers can obtain useful and comprehensive information which is exciting in aspects of basic science and provides hints for the better application of these bacteria to various kinds of practical production scenarios as well.
Striking a balance between basic chemistry and chemical engineering, this up-to-date reference discusses important aspects of acetic acid and its major derivatives, including chemistry, methods of preparation and manufacture, and synthesis, as well as current and emerging downstream technologies.;The book provides comprehensive physical property data for compounds and their separation, including acetic acid-water separation. Describing five categories of techniques for the manufacture of acetic acid, it: examines thermophysical properties and aqueous solutions, with detailed explanations of mathematical models and correlations; supplies a critical analysis of property; outlines manufacturing costs and related economic factors; reviews the applications of acetic acid and derivatives; covers the chemistry and preparation of the derivatives; elucidates recent topics such as deicers, esters and new esterification technologies.
This book, written by leading international authorities in the field, covers all the basic and applied aspects of acetic acid bacteria. It describes the importance of acetic acid bacteria in food industry by giving information on the microbiological properties of fermented foods as well as production procedures. Special attention is given to vinegar and cocoa, which are the most familiar and extensively used industrial applications of acetic acid bacteria. This book is an essential reference to all scientists, technologists, engineers, students and all those working in the field of food science and technology.
This book provides some important aspects of acetic acid, especially those concerning its recent use and applications, including the fermentation process of ethanol with acetic acid bacteria, its use in meat preservation, medicinal effects of acetic acid, as well as health and safety considerations. Other aspects include the properties of auxins, an important category of acetic acids influencing a number of physiological and developmental processes in plants, the characterisation of the synthesis, structural and vibrational properties of three quinoline acetic acid derivatives with potential biological activities and the use of acetic acid in food preparation/production and the co-production of vinegar and electricity through fermentation.
This volume of the IARC Monographs provides an assessment of the carcinogenicity of 18 chemicals present in industrial and consumer products or food (natural constituents, contaminants, or flavorings) or occurring as water-chlorination by-products. The compounds evaluated include the widely used plasticizer di(2-ethylhexyl) phthalate and the food contaminant 4-methylimidazole. In view of the limited agent-specific information available from epidemiological studies, the IARC Monographs Working Group relied mainly on carcinogenicity bioassays, and mechanistic and other relevant data to evaluate the carcinogenic hazards to humans exposed to these agents.
This book is the eighth volume in the series Acute Exposure Guideline Levels for Selected Airborne Chemicals, and reviews AEGLs for acrolein, carbon monoxide, 1,2-dichloroethene, ethylenimine, fluorine, hydrazine, peracetic acid, propylenimine, and sulfur dioxide for scientific accuracy, completeness, and consistency with the NRC guideline reports.
This book, written by leading international authorities in the field, covers all the basic and applied aspects of acetic acid bacteria. It describes the importance of acetic acid bacteria in food industry by giving information on the microbiological properties of fermented foods as well as production procedures. Special attention is given to vinegar and cocoa, which are the most familiar and extensively used industrial applications of acetic acid bacteria. This book is an essential reference to all scientists, technologists, engineers, students and all those working in the field of food science and technology.
Carbonylation reactions are of major importance in both organic and industrial chemistry. Due to the availability, price and reactivity pattern, carbon monoxide is becoming a more and more important building block for fine and bulk chemicals. The major reaction types of carbon monoxide are comprehensively discussed by leading experts from academia and industry. The authors highlight important carbonylation reactions such as hydroformylation, alkoxy-carbonylations, co/olefin-copolymerization, Pauson-Khand reactions and others. They illustrate applications in organic synthesis and give industrial examples. This volume is designed to provide graduate students and researchers with essential information on the use of carbon monoxide in organic synthesis. Therefore, the reader will get a balanced view of this developing and complex subject.
Vinegars can be considered as acidic products of special importance for the enri- ment of our diet, and resulting from the desired or controlled oxidation of ethanol containing (liquid) substrates. The traditional use and integration of vinegars in numerous cultures can be traced back to ancient times. In fact, the cultural heritage of virtually every civilization includes one or more vinegars made by the souring action (of micro-organisms) following alcoholic fermentation. It has been do- mented that the Egyptians, Sumerians and Babylonians had experience and tech- cal knowledge in making vinegar from barley and any kind of fruit. Vinegar was very popular both in ancient Greece and Rome, where it was used in food prepa- tions and as remedy against a great number of diseases. In Asia, the first records about vinegar date back to the Zhou Dynasty (1027-221 BC) and probably China’s ancient rice wines may have originally been derived from fruit, for which (malted) rice was substituted later. The historical and geographical success of vinegars is mainly due to the low technology required for their production, and to the fact that several kinds of raw materials rich in sugars may easily be processed to give vinegar. In addition, vi- gars are well-known and accepted as safe and stable commodities that can be c- sumed as beverages, health drinks or added to food as preservatives or as flavo- ing agents.