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Recombinant Proteins from Plants is one of the most exciting and fastest developing areas in biology. The latest molecular techniques are being applied to the exploitation of plants as novel expression systems for the p- duction and overproduction of heterologous and native proteins. Transgenic plant technology is currently used in three broad areas: the expression of - combinant proteins to improve crop quality by increasing disease/pest res- tance or increasing tolerance to stress, optimizing plant productivity and yield by the genetic manipulation of metabolic pathways, and the large-scale co- effective production of recombinant proteins for use as specialist industrial or therapeutic bio...
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Transgenic Plants: A Production System for Industrial andPharmaceutical Proteins provides a detailed guide to the principlesand practice of using transgenic plants as a system for theproduction of heterologous proteins. It is unique in that it coversthe complete process of heterologous protein production in plants,from the initial transformation of the plant, through totranscription, transgene stability and finally the downstreamingprocessing events for protein purification. Written by aninternational team of industrialists and academics, this bookdescribes: * the fundamental issues associated with expressing heterologousproteins in plants; * a number of detailed examples of the successful small-andlarge-scale production of proteins; * the essentials of patenting; and * the commercial exploitation. Transgenic Plants: A Production System for Industrial andPharmaceutical Proteins will be of interest to plantbiotechnologists, molecular biologists and protein biochemists inthe biotechnology and pharmaceutical industries.
The bioactive compounds of plants have world-wide applications in pharmaceutical, nutraceutical and food industry with a huge market. In this book, a group of active researchers have addressed on the most recent advances in plant cell and organ cultures for the production of biomass and bioactive compounds using bioreactors. Tremendous efforts have been made to commercialize the production of plant metabolites by employing plant cell and organ cultures in bioreactors. This book emphasizes on the fundamental topics like designing of bioreactors for plant cell and organ cultures, various types of bioreactors including stirred tank, airlift, photo-bioreactor, disposable bioreactor used for plan...
The Editorial Office of Frontiers in Plant Science would like to thank all the Chief Editors, Associate Editors and Review Editors that played an integral part in Frontiers’ innovative Collaborative Peer-Review process in 2020. In particular, we would like to recognize and thank Prof. Joshua L. Heazlewood – our now former Field Chief Editor, for his commitment, support and enthusiasm for the Plant Science field. Josh’s dedication and leadership has helped Frontiers in Plant Science become the most cited journal in the field with a strong editorial community. Looking forward, we’re excited to welcome Prof. Yunde Zhao, as our new Field Chief Editor in 2021. Having been with Frontiers in Plant Science since 2017, Yunde has contributed extensively to the development of the journal and will continue to ensure the journal goes from strength to strength.
Microbes are widely used in large-scale industrial processes due to their versatility, easy growing cultivation, kinetic potential, and the ability to generate metabolites with a wide range of potential applications to various commercial sectors, such as the food, pharmaceutical and cosmetic industries, in addition to the potential for agriculture, biomedical, and several others. Among the metabolites of greatest commercial interest, and many obtained on an industrial scale, the wide range of enzymes, biofuels, organic acids, amino acids, vitamins, biopolymers, and many other classes of metabolites. This book is intended for Bioengineers, Biologist, Biochemist, Biotechnologists, microbiologi...
«Per la prima volta dal Neolitico, abbiamo l'occasione di trasformare non soltanto il nostro sistema alimentare ma il nostro intero rapporto con il mondo vivente.» Per decenni, infatti, abbiamo arato e destinato al pascolo enormi superfici, abbiamo abbattuto foreste, ucciso animali selvatici portandoli all'estinzione, avvelenato fiumi e oceani, e tutto questo per nutrirci. Ormai da anni, però, il sistema alimentare globale mostra gravi segni di cedimento: i fertilizzanti e i fungicidi aumentano la resa in agricoltura, ma favoriscono la diffusione di parassiti nocivi per la salute; circa il 70 per cento dell'acqua prelevata da fiumi, laghi e falde acquifere viene utilizzata dall'irrigazion...